From: INAGAKI Hiroshi Date: Wed, 5 May 2021 00:32:27 +0000 (+0900) Subject: realtek: copy config/files/patches to 5.10 X-Git-Tag: v22.03.0-rc1~1702 X-Git-Url: http://git.cdn.openwrt.org/?a=commitdiff_plain;h=95170b4350ec6dcadd4dc740c130709c46aa6ecb;p=openwrt%2Fstaging%2Fhauke.git realtek: copy config/files/patches to 5.10 this patch copies the following files from 5.4 to 5.10: - config-5.4 -> config-5.10 - files-5.4/ -> files-5.10/ - patches-5.4/ -> patches-5.10/ Signed-off-by: INAGAKI Hiroshi [rebase on change in files-5.4] Signed-off-by: Adrian Schmutzler --- diff --git a/target/linux/realtek/config-5.10 b/target/linux/realtek/config-5.10 new file mode 100644 index 0000000000..5e29879798 --- /dev/null +++ b/target/linux/realtek/config-5.10 @@ -0,0 +1,192 @@ +CONFIG_ARCH_32BIT_OFF_T=y +CONFIG_ARCH_CLOCKSOURCE_DATA=y +CONFIG_ARCH_HIBERNATION_POSSIBLE=y +CONFIG_ARCH_MMAP_RND_BITS_MAX=15 +CONFIG_ARCH_SUSPEND_POSSIBLE=y +CONFIG_BLK_DEV_RAM=y +CONFIG_BLK_DEV_RAM_COUNT=16 +CONFIG_BLK_DEV_RAM_SIZE=4096 +CONFIG_CEVT_R4K=y +CONFIG_CLONE_BACKWARDS=y +CONFIG_COMPAT_32BIT_TIME=y +CONFIG_HAVE_CLK=y +CONFIG_CLKDEV_LOOKUP=y +CONFIG_COMMON_CLK=y +CONFIG_COMMON_CLK_BOSTON=y +CONFIG_CONSOLE_LOGLEVEL_DEFAULT=15 +CONFIG_CPU_BIG_ENDIAN=y +CONFIG_CPU_GENERIC_DUMP_TLB=y +CONFIG_CPU_HAS_LOAD_STORE_LR=y +CONFIG_CPU_HAS_PREFETCH=y +CONFIG_CPU_HAS_RIXI=y +CONFIG_CPU_HAS_SYNC=y +CONFIG_CPU_MIPS32=y +# CONFIG_CPU_MIPS32_R1 is not set +CONFIG_CPU_MIPS32_R2=y +CONFIG_CPU_MIPSR2=y +CONFIG_CPU_NEEDS_NO_SMARTMIPS_OR_MICROMIPS=y +CONFIG_CPU_R4K_CACHE_TLB=y +CONFIG_CPU_SUPPORTS_32BIT_KERNEL=y +CONFIG_CPU_SUPPORTS_HIGHMEM=y +CONFIG_CPU_SUPPORTS_MSA=y +CONFIG_CRYPTO_HASH=y +CONFIG_CRYPTO_HASH2=y +CONFIG_CRYPTO_RNG2=y +CONFIG_CSRC_R4K=y +CONFIG_DEBUG_INFO=y +CONFIG_DEBUG_SECTION_MISMATCH=y +CONFIG_DMA_NONCOHERENT=y +CONFIG_DMA_NONCOHERENT_CACHE_SYNC=y +CONFIG_DTC=y +CONFIG_EARLY_PRINTK=y +CONFIG_EARLY_PRINTK_8250=y +CONFIG_EFI_EARLYCON=y +CONFIG_ETHERNET_PACKET_MANGLE=y +CONFIG_EXTRA_FIRMWARE="rtl838x_phy/rtl838x_8214fc.fw rtl838x_phy/rtl838x_8218b.fw rtl838x_phy/rtl838x_8380.fw" +CONFIG_EXTRA_FIRMWARE_DIR="firmware" +CONFIG_FIXED_PHY=y +CONFIG_FONT_8x16=y +CONFIG_FONT_AUTOSELECT=y +CONFIG_FONT_SUPPORT=y +CONFIG_FW_LOADER_PAGED_BUF=y +CONFIG_GENERIC_ATOMIC64=y +CONFIG_GENERIC_CLOCKEVENTS=y +CONFIG_GENERIC_CMOS_UPDATE=y +CONFIG_GENERIC_CPU_AUTOPROBE=y +CONFIG_GENERIC_GETTIMEOFDAY=y +CONFIG_GENERIC_IOMAP=y +CONFIG_GENERIC_IRQ_CHIP=y +CONFIG_GENERIC_IRQ_EFFECTIVE_AFF_MASK=y +CONFIG_GENERIC_IRQ_SHOW=y +CONFIG_GENERIC_LIB_ASHLDI3=y +CONFIG_GENERIC_LIB_ASHRDI3=y +CONFIG_GENERIC_LIB_CMPDI2=y +CONFIG_GENERIC_LIB_LSHRDI3=y +CONFIG_GENERIC_LIB_UCMPDI2=y +CONFIG_GENERIC_PCI_IOMAP=y +CONFIG_GENERIC_PHY=y +CONFIG_GENERIC_PINCONF=y +CONFIG_GENERIC_PINCTRL_GROUPS=y +CONFIG_GENERIC_PINMUX_FUNCTIONS=y +CONFIG_GENERIC_SCHED_CLOCK=y +CONFIG_GENERIC_SMP_IDLE_THREAD=y +CONFIG_GENERIC_TIME_VSYSCALL=y +CONFIG_GPIOLIB=y +CONFIG_GPIO_RTL8231=y +CONFIG_GPIO_RTL838X=y +CONFIG_REALTEK_SOC_PHY=y +CONFIG_GRO_CELLS=y +CONFIG_HANDLE_DOMAIN_IRQ=y +CONFIG_HARDWARE_WATCHPOINTS=y +CONFIG_HAS_DMA=y +CONFIG_HAS_IOMEM=y +CONFIG_HAS_IOPORT_MAP=y +# CONFIG_HIGH_RES_TIMERS is not set +CONFIG_HWMON=y +CONFIG_HZ_PERIODIC=y +CONFIG_I2C=y +CONFIG_I2C_ALGOBIT=y +CONFIG_I2C_BOARDINFO=y +CONFIG_I2C_GPIO=y +CONFIG_INITRAMFS_SOURCE="" +CONFIG_IRQCHIP=y +CONFIG_IRQ_DOMAIN=y +CONFIG_IRQ_FORCED_THREADING=y +CONFIG_IRQ_MIPS_CPU=y +CONFIG_IRQ_WORK=y +CONFIG_JFFS2_ZLIB=y +CONFIG_LEDS_GPIO=y +CONFIG_LEGACY_PTYS=y +CONFIG_LEGACY_PTY_COUNT=256 +CONFIG_LIBFDT=y +CONFIG_LOCK_DEBUGGING_SUPPORT=y +CONFIG_MARVELL_PHY=y +CONFIG_MDIO_BUS=y +CONFIG_MDIO_DEVICE=y +CONFIG_MDIO_I2C=y +CONFIG_MEMFD_CREATE=y +CONFIG_MFD_SYSCON=y +CONFIG_MIGRATION=y +CONFIG_MIPS=y +CONFIG_MIPS_ASID_BITS=8 +CONFIG_MIPS_ASID_SHIFT=0 +CONFIG_MIPS_CBPF_JIT=y +CONFIG_MIPS_CLOCK_VSYSCALL=y +# CONFIG_MIPS_CMDLINE_DTB_EXTEND is not set +# CONFIG_MIPS_CMDLINE_FROM_BOOTLOADER is not set +CONFIG_MIPS_CMDLINE_FROM_DTB=y +# CONFIG_MIPS_ELF_APPENDED_DTB is not set +CONFIG_MIPS_L1_CACHE_SHIFT=5 +# CONFIG_MIPS_NO_APPENDED_DTB is not set +CONFIG_MIPS_RAW_APPENDED_DTB=y +CONFIG_MIPS_SPRAM=y +CONFIG_MODULES_USE_ELF_REL=y +CONFIG_MTD_CFI_ADV_OPTIONS=y +CONFIG_MTD_CFI_GEOMETRY=y +CONFIG_MTD_CMDLINE_PARTS=y +CONFIG_MTD_JEDECPROBE=y +CONFIG_MTD_SPI_NOR=y +CONFIG_MTD_SPLIT_BRNIMAGE_FW=y +CONFIG_MTD_SPLIT_EVA_FW=y +CONFIG_MTD_SPLIT_FIRMWARE=y +CONFIG_MTD_SPLIT_TPLINK_FW=y +CONFIG_MTD_SPLIT_UIMAGE_FW=y +CONFIG_NEED_DMA_MAP_STATE=y +CONFIG_NEED_PER_CPU_KM=y +CONFIG_NET_DEVLINK=y +CONFIG_NET_DSA=y +CONFIG_NET_DSA_RTL83XX=y +CONFIG_NET_DSA_TAG_TRAILER=y +CONFIG_NET_RTL838X=y +CONFIG_NET_SWITCHDEV=y +CONFIG_NO_GENERIC_PCI_IOPORT_MAP=y +CONFIG_NVMEM=y +CONFIG_OF=y +CONFIG_OF_ADDRESS=y +CONFIG_OF_EARLY_FLATTREE=y +CONFIG_OF_FLATTREE=y +CONFIG_OF_GPIO=y +CONFIG_OF_IRQ=y +CONFIG_OF_KOBJ=y +CONFIG_OF_MDIO=y +CONFIG_OF_NET=y +CONFIG_PCI_DRIVERS_LEGACY=y +CONFIG_PERF_USE_VMALLOC=y +CONFIG_PGTABLE_LEVELS=2 +CONFIG_PHYLIB=y +CONFIG_PHYLINK=y +CONFIG_PINCTRL=y +CONFIG_POWER_RESET=y +CONFIG_POWER_RESET_SYSCON=y +CONFIG_PSB6970_PHY=y +CONFIG_REALTEK_PHY=y +CONFIG_REGMAP=y +CONFIG_REGMAP_MMIO=y +CONFIG_RESET_CONTROLLER=y +CONFIG_RTL838X=y +CONFIG_RTL9300_TIMER=y +CONFIG_SERIAL_MCTRL_GPIO=y +CONFIG_SERIAL_OF_PLATFORM=y +CONFIG_SFP=y +CONFIG_SPI=y +CONFIG_SPI_MASTER=y +CONFIG_SPI_MEM=y +CONFIG_SPI_RTL838X=y +CONFIG_SRCU=y +CONFIG_SWAP_IO_SPACE=y +CONFIG_SWPHY=y +CONFIG_SYSCTL_EXCEPTION_TRACE=y +CONFIG_SYS_HAS_CPU_MIPS32_R1=y +CONFIG_SYS_HAS_CPU_MIPS32_R2=y +CONFIG_SYS_HAS_EARLY_PRINTK=y +CONFIG_SYS_SUPPORTS_32BIT_KERNEL=y +CONFIG_SYS_SUPPORTS_ARBIT_HZ=y +CONFIG_SYS_SUPPORTS_BIG_ENDIAN=y +CONFIG_SYS_SUPPORTS_MIPS16=y +CONFIG_TARGET_ISA_REV=2 +CONFIG_TICK_CPU_ACCOUNTING=y +CONFIG_TINY_SRCU=y +CONFIG_USE_GENERIC_EARLY_PRINTK_8250=y +CONFIG_USE_OF=y +CONFIG_ZLIB_DEFLATE=y +CONFIG_ZLIB_INFLATE=y diff --git a/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/ioremap.h b/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/ioremap.h new file mode 100644 index 0000000000..e7a5bfaffc --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/ioremap.h @@ -0,0 +1,34 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ +#ifndef RTL838X_IOREMAP_H_ +#define RTL838X_IOREMAP_H_ + +static inline phys_addr_t fixup_bigphys_addr(phys_addr_t phys_addr, phys_addr_t size) +{ + return phys_addr; +} + +static inline int is_rtl838x_internal_registers(phys_addr_t offset) +{ + /* IO-Block */ + if (offset >= 0xb8000000 && offset < 0xb9000000) + return 1; + /* Switch block */ + if (offset >= 0xbb000000 && offset < 0xbc000000) + return 1; + return 0; +} + +static inline void __iomem *plat_ioremap(phys_addr_t offset, unsigned long size, + unsigned long flags) +{ + if (is_rtl838x_internal_registers(offset)) + return (void __iomem *)offset; + return NULL; +} + +static inline int plat_iounmap(const volatile void __iomem *addr) +{ + return is_rtl838x_internal_registers((unsigned long)addr); +} + +#endif diff --git a/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/irq.h b/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/irq.h new file mode 100644 index 0000000000..a4e95ab511 --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/irq.h @@ -0,0 +1,93 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#ifndef _RTL83XX_IRQ_H_ +#define _RTL83XX_IRQ_H_ + +#define NR_IRQS 32 +#include_next + +/* Global Interrupt Mask Register */ +#define RTL83XX_ICTL_GIMR 0x00 +/* Global Interrupt Status Register */ +#define RTL83XX_ICTL_GISR 0x04 + +#define RTL83XX_IRQ_CPU_BASE 0 +#define RTL83XX_IRQ_CPU_NUM 8 +#define RTL83XX_IRQ_ICTL_BASE (RTL83XX_IRQ_CPU_BASE + RTL83XX_IRQ_CPU_NUM) +#define RTL83XX_IRQ_ICTL_NUM 32 + +/* Cascaded interrupts */ +#define RTL83XX_ICTL1_IRQ (RTL83XX_IRQ_CPU_BASE + 2) +#define RTL83XX_ICTL2_IRQ (RTL83XX_IRQ_CPU_BASE + 3) +#define RTL83XX_ICTL3_IRQ (RTL83XX_IRQ_CPU_BASE + 4) +#define RTL83XX_ICTL4_IRQ (RTL83XX_IRQ_CPU_BASE + 5) +#define RTL83XX_ICTL5_IRQ (RTL83XX_IRQ_CPU_BASE + 6) + +/* Interrupt routing register */ +#define RTL83XX_IRR0 0x08 +#define RTL83XX_IRR1 0x0c +#define RTL83XX_IRR2 0x10 +#define RTL83XX_IRR3 0x14 + +/* Cascade map */ +#define UART0_CASCADE 2 +#define UART1_CASCADE 1 +#define TC0_CASCADE 5 +#define TC1_CASCADE 1 +#define TC2_CASCADE 1 +#define TC3_CASCADE 1 +#define TC4_CASCADE 1 +#define OCPTO_CASCADE 1 +#define HLXTO_CASCADE 1 +#define SLXTO_CASCADE 1 +#define NIC_CASCADE 4 +#define GPIO_ABCD_CASCADE 4 +#define GPIO_EFGH_CASCADE 4 +#define RTC_CASCADE 4 +#define SWCORE_CASCADE 3 +#define WDT_IP1_CASCADE 4 +#define WDT_IP2_CASCADE 5 +#define USB_H2_CASCADE 1 + +/* Pack cascade map into interrupt routing registers */ +#define RTL83XX_IRR0_SETTING (\ + (UART0_CASCADE << 28) | \ + (UART1_CASCADE << 24) | \ + (TC0_CASCADE << 20) | \ + (TC1_CASCADE << 16) | \ + (OCPTO_CASCADE << 12) | \ + (HLXTO_CASCADE << 8) | \ + (SLXTO_CASCADE << 4) | \ + (NIC_CASCADE << 0)) +#define RTL83XX_IRR1_SETTING (\ + (GPIO_ABCD_CASCADE << 28) | \ + (GPIO_EFGH_CASCADE << 24) | \ + (RTC_CASCADE << 20) | \ + (SWCORE_CASCADE << 16)) +#define RTL83XX_IRR2_SETTING 0 +#define RTL83XX_IRR3_SETTING 0 + +/* On the RTL8390 there is no GPIO_EFGH and RTC IRQ */ +#define RTL8390_IRR1_SETTING (\ + (GPIO_ABCD_CASCADE << 28) | \ + (SWCORE_CASCADE << 16)) + +/* The RTL9300 has a different external IRQ numbering scheme */ +#define RTL9300_IRR0_SETTING (\ + (UART1_CASCADE << 28) | \ + (UART0_CASCADE << 24) | \ + (USB_H2_CASCADE << 16) | \ + (NIC_CASCADE << 0)) +#define RTL9300_IRR1_SETTING (\ + (SWCORE_CASCADE << 28)) +#define RTL9300_IRR2_SETTING (\ + (GPIO_ABCD_CASCADE << 20) | \ + (TC4_CASCADE << 12) | \ + (TC3_CASCADE << 8) | \ + (TC2_CASCADE << 4) | \ + (TC1_CASCADE << 0)) +#define RTL9300_IRR3_SETTING (\ + (TC0_CASCADE << 28) | \ + (WDT_IP1_CASCADE << 20)) + +#endif /* _RTL83XX_IRQ_H_ */ diff --git a/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/mach-rtl83xx.h b/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/mach-rtl83xx.h new file mode 100644 index 0000000000..0abfc6f4d2 --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/include/asm/mach-rtl838x/mach-rtl83xx.h @@ -0,0 +1,418 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ +/* + * Copyright (C) 2006-2012 Tony Wu (tonywu@realtek.com) + * Copyright (C) 2020 B. Koblitz + */ +#ifndef _MACH_RTL838X_H_ +#define _MACH_RTL838X_H_ + +#include +/* + * Register access macros + */ + +#define RTL838X_SW_BASE ((volatile void *) 0xBB000000) + +#define rtl83xx_r32(reg) readl(reg) +#define rtl83xx_w32(val, reg) writel(val, reg) +#define rtl83xx_w32_mask(clear, set, reg) rtl83xx_w32((rtl83xx_r32(reg) & ~(clear)) | (set), reg) + +#define rtl83xx_r8(reg) readb(reg) +#define rtl83xx_w8(val, reg) writeb(val, reg) + +#define sw_r32(reg) readl(RTL838X_SW_BASE + reg) +#define sw_w32(val, reg) writel(val, RTL838X_SW_BASE + reg) +#define sw_w32_mask(clear, set, reg) \ + sw_w32((sw_r32(reg) & ~(clear)) | (set), reg) +#define sw_r64(reg) ((((u64)readl(RTL838X_SW_BASE + reg)) << 32) | \ + readl(RTL838X_SW_BASE + reg + 4)) + +#define sw_w64(val, reg) do { \ + writel((u32)((val) >> 32), RTL838X_SW_BASE + reg); \ + writel((u32)((val) & 0xffffffff), \ + RTL838X_SW_BASE + reg + 4); \ + } while (0) + +/* + * SPRAM + */ +#define RTL838X_ISPRAM_BASE 0x0 +#define RTL838X_DSPRAM_BASE 0x0 + +/* + * IRQ Controller + */ +#define RTL838X_IRQ_CPU_BASE 0 +#define RTL838X_IRQ_CPU_NUM 8 +#define RTL838X_IRQ_ICTL_BASE (RTL838X_IRQ_CPU_BASE + RTL838X_IRQ_CPU_NUM) +#define RTL838X_IRQ_ICTL_NUM 32 + +#define RTL83XX_IRQ_UART0 31 +#define RTL83XX_IRQ_UART1 30 +#define RTL83XX_IRQ_TC0 29 +#define RTL83XX_IRQ_TC1 28 +#define RTL83XX_IRQ_OCPTO 27 +#define RTL83XX_IRQ_HLXTO 26 +#define RTL83XX_IRQ_SLXTO 25 +#define RTL83XX_IRQ_NIC 24 +#define RTL83XX_IRQ_GPIO_ABCD 23 +#define RTL83XX_IRQ_GPIO_EFGH 22 +#define RTL83XX_IRQ_RTC 21 +#define RTL83XX_IRQ_SWCORE 20 +#define RTL83XX_IRQ_WDT_IP1 19 +#define RTL83XX_IRQ_WDT_IP2 18 + +#define RTL9300_UART1_IRQ 31 +#define RTL9300_UART0_IRQ 30 +#define RTL9300_USB_H2_IRQ 28 +#define RTL9300_NIC_IRQ 24 +#define RTL9300_SWCORE_IRQ 23 +#define RTL9300_GPIO_ABC_IRQ 13 +#define RTL9300_TC4_IRQ 11 +#define RTL9300_TC3_IRQ 10 +#define RTL9300_TC2_IRQ 9 +#define RTL9300_TC1_IRQ 8 +#define RTL9300_TC0_IRQ 7 + + +/* + * MIPS32R2 counter + */ +#define RTL838X_COMPARE_IRQ (RTL838X_IRQ_CPU_BASE + 7) + +/* + * ICTL + * Base address 0xb8003000UL + */ +#define RTL838X_ICTL1_IRQ (RTL838X_IRQ_CPU_BASE + 2) +#define RTL838X_ICTL2_IRQ (RTL838X_IRQ_CPU_BASE + 3) +#define RTL838X_ICTL3_IRQ (RTL838X_IRQ_CPU_BASE + 4) +#define RTL838X_ICTL4_IRQ (RTL838X_IRQ_CPU_BASE + 5) +#define RTL838X_ICTL5_IRQ (RTL838X_IRQ_CPU_BASE + 6) + +#define GIMR (0x00) +#define UART0_IE (1 << 31) +#define UART1_IE (1 << 30) +#define TC0_IE (1 << 29) +#define TC1_IE (1 << 28) +#define OCPTO_IE (1 << 27) +#define HLXTO_IE (1 << 26) +#define SLXTO_IE (1 << 25) +#define NIC_IE (1 << 24) +#define GPIO_ABCD_IE (1 << 23) +#define GPIO_EFGH_IE (1 << 22) +#define RTC_IE (1 << 21) +#define WDT_IP1_IE (1 << 19) +#define WDT_IP2_IE (1 << 18) + +#define GISR (0x04) +#define UART0_IP (1 << 31) +#define UART1_IP (1 << 30) +#define TC0_IP (1 << 29) +#define TC1_IP (1 << 28) +#define OCPTO_IP (1 << 27) +#define HLXTO_IP (1 << 26) +#define SLXTO_IP (1 << 25) +#define NIC_IP (1 << 24) +#define GPIO_ABCD_IP (1 << 23) +#define GPIO_EFGH_IP (1 << 22) +#define RTC_IP (1 << 21) +#define WDT_IP1_IP (1 << 19) +#define WDT_IP2_IP (1 << 18) + + +/* Interrupt Routing Selection */ +#define UART0_RS 2 +#define UART1_RS 1 +#define TC0_RS 5 +#define TC1_RS 1 +#define OCPTO_RS 1 +#define HLXTO_RS 1 +#define SLXTO_RS 1 +#define NIC_RS 4 +#define GPIO_ABCD_RS 4 +#define GPIO_EFGH_RS 4 +#define RTC_RS 4 +#define SWCORE_RS 3 +#define WDT_IP1_RS 4 +#define WDT_IP2_RS 5 + +/* Interrupt IRQ Assignments */ +#define UART0_IRQ 31 +#define UART1_IRQ 30 +#define TC0_IRQ 29 +#define TC1_IRQ 28 +#define OCPTO_IRQ 27 +#define HLXTO_IRQ 26 +#define SLXTO_IRQ 25 +#define NIC_IRQ 24 +#define GPIO_ABCD_IRQ 23 +#define GPIO_EFGH_IRQ 22 +#define RTC_IRQ 21 +#define SWCORE_IRQ 20 +#define WDT_IP1_IRQ 19 +#define WDT_IP2_IRQ 18 + +#define SYSTEM_FREQ 200000000 +#define RTL838X_UART0_BASE ((volatile void *)(0xb8002000UL)) +#define RTL838X_UART0_BAUD 38400 /* ex. 19200 or 38400 or 57600 or 115200 */ +#define RTL838X_UART0_FREQ (SYSTEM_FREQ - RTL838X_UART0_BAUD * 24) +#define RTL838X_UART0_MAPBASE 0x18002000UL +#define RTL838X_UART0_MAPSIZE 0x100 +#define RTL838X_UART0_IRQ UART0_IRQ + +#define RTL838X_UART1_BASE ((volatile void *)(0xb8002100UL)) +#define RTL838X_UART1_BAUD 38400 /* ex. 19200 or 38400 or 57600 or 115200 */ +#define RTL838X_UART1_FREQ (SYSTEM_FREQ - RTL838X_UART1_BAUD * 24) +#define RTL838X_UART1_MAPBASE 0x18002100UL +#define RTL838X_UART1_MAPSIZE 0x100 +#define RTL838X_UART1_IRQ UART1_IRQ + +#define UART0_RBR (RTL838X_UART0_BASE + 0x000) +#define UART0_THR (RTL838X_UART0_BASE + 0x000) +#define UART0_DLL (RTL838X_UART0_BASE + 0x000) +#define UART0_IER (RTL838X_UART0_BASE + 0x004) +#define UART0_DLM (RTL838X_UART0_BASE + 0x004) +#define UART0_IIR (RTL838X_UART0_BASE + 0x008) +#define UART0_FCR (RTL838X_UART0_BASE + 0x008) +#define UART0_LCR (RTL838X_UART0_BASE + 0x00C) +#define UART0_MCR (RTL838X_UART0_BASE + 0x010) +#define UART0_LSR (RTL838X_UART0_BASE + 0x014) + +#define UART1_RBR (RTL838X_UART1_BASE + 0x000) +#define UART1_THR (RTL838X_UART1_BASE + 0x000) +#define UART1_DLL (RTL838X_UART1_BASE + 0x000) +#define UART1_IER (RTL838X_UART1_BASE + 0x004) +#define UART1_DLM (RTL838X_UART1_BASE + 0x004) +#define UART1_IIR (RTL838X_UART1_BASE + 0x008) +#define UART1_FCR (RTL838X_UART1_BASE + 0x008) +#define UART1_LCR (RTL838X_UART1_BASE + 0x00C) +#define UART1_MCR (RTL838X_UART1_BASE + 0x010) +#define UART1_LSR (RTL838X_UART1_BASE + 0x014) + +/* + * Memory Controller + */ +#define MC_MCR 0xB8001000 +#define MC_MCR_VAL 0x00000000 + +#define MC_DCR 0xB8001004 +#define MC_DCR0_VAL 0x54480000 + +#define MC_DTCR 0xB8001008 +#define MC_DTCR_VAL 0xFFFF05C0 + +/* + * GPIO + */ +#define GPIO_CTRL_REG_BASE ((volatile void *) 0xb8003500) +#define RTL838X_GPIO_PABC_CNR (GPIO_CTRL_REG_BASE + 0x0) +#define RTL838X_GPIO_PABC_TYPE (GPIO_CTRL_REG_BASE + 0x04) +#define RTL838X_GPIO_PABC_DIR (GPIO_CTRL_REG_BASE + 0x8) +#define RTL838X_GPIO_PABC_DATA (GPIO_CTRL_REG_BASE + 0xc) +#define RTL838X_GPIO_PABC_ISR (GPIO_CTRL_REG_BASE + 0x10) +#define RTL838X_GPIO_PAB_IMR (GPIO_CTRL_REG_BASE + 0x14) +#define RTL838X_GPIO_PC_IMR (GPIO_CTRL_REG_BASE + 0x18) + +#define RTL838X_MODEL_NAME_INFO (0x00D4) +#define RTL839X_MODEL_NAME_INFO (0x0FF0) +#define RTL93XX_MODEL_NAME_INFO (0x0004) + +#define RTL838X_LED_GLB_CTRL (0xA000) +#define RTL839X_LED_GLB_CTRL (0x00E4) +#define RTL9302_LED_GLB_CTRL (0xcc00) +#define RTL930X_LED_GLB_CTRL (0xC400) +#define RTL931X_LED_GLB_CTRL (0x0600) + +#define RTL838X_EXT_GPIO_DIR (0xA08C) +#define RTL839X_EXT_GPIO_DIR (0x0214) +#define RTL838X_EXT_GPIO_DATA (0xA094) +#define RTL839X_EXT_GPIO_DATA (0x021c) +#define RTL838X_EXT_GPIO_INDRT_ACCESS (0xA09C) +#define RTL839X_EXT_GPIO_INDRT_ACCESS (0x0224) +#define RTL838X_EXTRA_GPIO_CTRL (0xA0E0) +#define RTL838X_DMY_REG5 (0x0144) +#define RTL838X_EXTRA_GPIO_CTRL (0xA0E0) + +#define RTL838X_GMII_INTF_SEL (0x1000) +#define RTL838X_IO_DRIVING_ABILITY_CTRL (0x1010) + +#define RTL838X_GPIO_A7 31 +#define RTL838X_GPIO_A6 30 +#define RTL838X_GPIO_A5 29 +#define RTL838X_GPIO_A4 28 +#define RTL838X_GPIO_A3 27 +#define RTL838X_GPIO_A2 26 +#define RTL838X_GPIO_A1 25 +#define RTL838X_GPIO_A0 24 +#define RTL838X_GPIO_B7 23 +#define RTL838X_GPIO_B6 22 +#define RTL838X_GPIO_B5 21 +#define RTL838X_GPIO_B4 20 +#define RTL838X_GPIO_B3 19 +#define RTL838X_GPIO_B2 18 +#define RTL838X_GPIO_B1 17 +#define RTL838X_GPIO_B0 16 +#define RTL838X_GPIO_C7 15 +#define RTL838X_GPIO_C6 14 +#define RTL838X_GPIO_C5 13 +#define RTL838X_GPIO_C4 12 +#define RTL838X_GPIO_C3 11 +#define RTL838X_GPIO_C2 10 +#define RTL838X_GPIO_C1 9 +#define RTL838X_GPIO_C0 8 + +#define RTL838X_INT_RW_CTRL (0x0058) +#define RTL838X_EXT_VERSION (0x00D0) +#define RTL838X_PLL_CML_CTRL (0x0FF8) +#define RTL838X_STRAP_DBG (0x100C) + +/* + * Reset + */ +#define RGCR (0x1E70) +#define RTL838X_RST_GLB_CTRL_0 (0x003c) +#define RTL838X_RST_GLB_CTRL_1 (0x0040) +#define RTL839X_RST_GLB_CTRL (0x0014) +#define RTL930X_RST_GLB_CTRL_0 (0x000c) +#define RTL931X_RST_GLB_CTRL (0x0400) + +/* LED control by switch */ +#define RTL838X_LED_MODE_SEL (0x1004) +#define RTL838X_LED_MODE_CTRL (0xA004) +#define RTL838X_LED_P_EN_CTRL (0xA008) + +/* LED control by software */ +#define RTL838X_LED_SW_CTRL (0x0128) +#define RTL839X_LED_SW_CTRL (0xA00C) +#define RTL838X_LED_SW_P_EN_CTRL (0xA010) +#define RTL839X_LED_SW_P_EN_CTRL (0x012C) +#define RTL838X_LED0_SW_P_EN_CTRL (0xA010) +#define RTL839X_LED0_SW_P_EN_CTRL (0x012C) +#define RTL838X_LED1_SW_P_EN_CTRL (0xA014) +#define RTL839X_LED1_SW_P_EN_CTRL (0x0130) +#define RTL838X_LED2_SW_P_EN_CTRL (0xA018) +#define RTL839X_LED2_SW_P_EN_CTRL (0x0134) +#define RTL838X_LED_SW_P_CTRL (0xA01C) +#define RTL839X_LED_SW_P_CTRL (0x0144) + +#define RTL839X_MAC_EFUSE_CTRL (0x02ac) + +/* + * MDIO via Realtek's SMI interface + */ +#define RTL838X_SMI_GLB_CTRL (0xa100) +#define RTL838X_SMI_ACCESS_PHY_CTRL_0 (0xa1b8) +#define RTL838X_SMI_ACCESS_PHY_CTRL_1 (0xa1bc) +#define RTL838X_SMI_ACCESS_PHY_CTRL_2 (0xa1c0) +#define RTL838X_SMI_ACCESS_PHY_CTRL_3 (0xa1c4) +#define RTL838X_SMI_PORT0_5_ADDR_CTRL (0xa1c8) +#define RTL838X_SMI_POLL_CTRL (0xa17c) + +#define RTL839X_SMI_GLB_CTRL (0x03f8) +#define RTL839X_SMI_PORT_POLLING_CTRL (0x03fc) +#define RTL839X_PHYREG_ACCESS_CTRL (0x03DC) +#define RTL839X_PHYREG_CTRL (0x03E0) +#define RTL839X_PHYREG_PORT_CTRL (0x03E4) +#define RTL839X_PHYREG_DATA_CTRL (0x03F0) +#define RTL839X_PHYREG_MMD_CTRL (0x3F4) + +#define RTL930X_SMI_GLB_CTRL (0xCA00) +#define RTL930X_SMI_POLL_CTRL (0xca90) +#define RTL930X_SMI_PORT0_15_POLLING_SEL (0xCA08) +#define RTL930X_SMI_PORT16_27_POLLING_SEL (0xCA0C) +#define RTL930X_SMI_PORT0_5_ADDR (0xCB80) +#define RTL930X_SMI_ACCESS_PHY_CTRL_0 (0xCB70) +#define RTL930X_SMI_ACCESS_PHY_CTRL_1 (0xCB74) +#define RTL930X_SMI_ACCESS_PHY_CTRL_2 (0xCB78) +#define RTL930X_SMI_ACCESS_PHY_CTRL_3 (0xCB7C) + +#define RTL931X_SMI_GLB_CTRL1 (0x0CBC) +#define RTL931X_SMI_GLB_CTRL0 (0x0CC0) +#define RTL931X_SMI_PORT_POLLING_CTRL (0x0CCC) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_0 (0x0C00) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_1 (0x0C04) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_2 (0x0C08) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_3 (0x0C10) +#define RTL931X_SMI_INDRT_ACCESS_BC_PHYID_CTRL (0x0C14) +#define RTL931X_SMI_INDRT_ACCESS_MMD_CTRL (0xC18) + +#define RTL930X_SMI_GLB_CTRL (0xCA00) +#define RTL930X_SMI_POLL_CTRL (0xca90) +#define RTL930X_SMI_PORT0_15_POLLING_SEL (0xCA08) +#define RTL930X_SMI_PORT16_27_POLLING_SEL (0xCA0C) +#define RTL930X_SMI_PORT0_5_ADDR (0xCB80) +#define RTL930X_SMI_ACCESS_PHY_CTRL_0 (0xCB70) +#define RTL930X_SMI_ACCESS_PHY_CTRL_1 (0xCB74) +#define RTL930X_SMI_ACCESS_PHY_CTRL_2 (0xCB78) +#define RTL930X_SMI_ACCESS_PHY_CTRL_3 (0xCB7C) + +#define RTL931X_SMI_GLB_CTRL1 (0x0CBC) +#define RTL931X_SMI_GLB_CTRL0 (0x0CC0) +#define RTL931X_SMI_PORT_POLLING_CTRL (0x0CCC) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_0 (0x0C00) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_1 (0x0C04) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_2 (0x0C08) +#define RTL931X_SMI_INDRT_ACCESS_CTRL_3 (0x0C10) + +/* + * Switch interrupts + */ +#define RTL838X_IMR_GLB (0x1100) +#define RTL838X_IMR_PORT_LINK_STS_CHG (0x1104) +#define RTL838X_ISR_GLB_SRC (0x1148) +#define RTL838X_ISR_PORT_LINK_STS_CHG (0x114C) + +#define RTL839X_IMR_GLB (0x0064) +#define RTL839X_IMR_PORT_LINK_STS_CHG (0x0068) +#define RTL839X_ISR_GLB_SRC (0x009c) +#define RTL839X_ISR_PORT_LINK_STS_CHG (0x00a0) + +#define RTL930X_IMR_GLB (0xC628) +#define RTL930X_IMR_PORT_LINK_STS_CHG (0xC62C) +#define RTL930X_ISR_GLB (0xC658) +#define RTL930X_ISR_PORT_LINK_STS_CHG (0xC660) + +// IMR_GLB does not exit on RTL931X +#define RTL931X_IMR_PORT_LINK_STS_CHG (0x126C) +#define RTL931X_ISR_GLB_SRC (0x12B4) +#define RTL931X_ISR_PORT_LINK_STS_CHG (0x12B8) + +/* Definition of family IDs */ +#define RTL8389_FAMILY_ID (0x8389) +#define RTL8328_FAMILY_ID (0x8328) +#define RTL8390_FAMILY_ID (0x8390) +#define RTL8350_FAMILY_ID (0x8350) +#define RTL8380_FAMILY_ID (0x8380) +#define RTL8330_FAMILY_ID (0x8330) +#define RTL9300_FAMILY_ID (0x9300) +#define RTL9310_FAMILY_ID (0x9310) + +/* Basic SoC Features */ +#define RTL838X_CPU_PORT 28 +#define RTL839X_CPU_PORT 52 +#define RTL930X_CPU_PORT 28 +#define RTL931X_CPU_PORT 56 + +struct rtl83xx_soc_info { + unsigned char *name; + unsigned int id; + unsigned int family; + unsigned char *compatible; + volatile void *sw_base; + volatile void *icu_base; + int cpu_port; +}; + +/* rtl83xx-related functions used across subsystems */ +int rtl838x_smi_wait_op(int timeout); +int rtl838x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl838x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl839x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl839x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl930x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl930x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl931x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl931x_write_phy(u32 port, u32 page, u32 reg, u32 val); + +#endif /* _MACH_RTL838X_H_ */ diff --git a/target/linux/realtek/files-5.10/arch/mips/rtl838x/Makefile b/target/linux/realtek/files-5.10/arch/mips/rtl838x/Makefile new file mode 100644 index 0000000000..8212dc3f48 --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/rtl838x/Makefile @@ -0,0 +1,5 @@ +# +# Makefile for the rtl838x specific parts of the kernel +# + +obj-y := setup.o prom.o irq.o diff --git a/target/linux/realtek/files-5.10/arch/mips/rtl838x/Platform b/target/linux/realtek/files-5.10/arch/mips/rtl838x/Platform new file mode 100644 index 0000000000..4d48932d80 --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/rtl838x/Platform @@ -0,0 +1,6 @@ +# +# Realtek RTL838x SoCs +# +platform-$(CONFIG_RTL838X) += rtl838x/ +cflags-$(CONFIG_RTL838X) += -I$(srctree)/arch/mips/include/asm/mach-rtl838x/ +load-$(CONFIG_RTL838X) += 0xffffffff80000000 diff --git a/target/linux/realtek/files-5.10/arch/mips/rtl838x/irq.c b/target/linux/realtek/files-5.10/arch/mips/rtl838x/irq.c new file mode 100644 index 0000000000..c0dd2f608c --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/rtl838x/irq.c @@ -0,0 +1,226 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Realtek RTL83XX architecture specific IRQ handling + * + * based on the original BSP + * Copyright (C) 2006-2012 Tony Wu (tonywu@realtek.com) + * Copyright (C) 2020 B. Koblitz + * Copyright (C) 2020 Bert Vermeulen + * Copyright (C) 2020 John Crispin + */ + +#include +#include +#include +#include +#include +#include + +#include +#include "irq.h" + +#define REALTEK_CPU_IRQ_SHARED0 (MIPS_CPU_IRQ_BASE + 2) +#define REALTEK_CPU_IRQ_UART (MIPS_CPU_IRQ_BASE + 3) +#define REALTEK_CPU_IRQ_SWITCH (MIPS_CPU_IRQ_BASE + 4) +#define REALTEK_CPU_IRQ_SHARED1 (MIPS_CPU_IRQ_BASE + 5) +#define REALTEK_CPU_IRQ_EXTERNAL (MIPS_CPU_IRQ_BASE + 6) +#define REALTEK_CPU_IRQ_COUNTER (MIPS_CPU_IRQ_BASE + 7) + +#define REG(x) (rtl83xx_ictl_base + x) + +extern struct rtl83xx_soc_info soc_info; + +static DEFINE_RAW_SPINLOCK(irq_lock); +static void __iomem *rtl83xx_ictl_base; + +static void rtl83xx_ictl_enable_irq(struct irq_data *i) +{ + unsigned long flags; + u32 value; + + raw_spin_lock_irqsave(&irq_lock, flags); + + value = rtl83xx_r32(REG(RTL83XX_ICTL_GIMR)); + value |= BIT(i->hwirq); + rtl83xx_w32(value, REG(RTL83XX_ICTL_GIMR)); + + raw_spin_unlock_irqrestore(&irq_lock, flags); +} + +static void rtl83xx_ictl_disable_irq(struct irq_data *i) +{ + unsigned long flags; + u32 value; + + raw_spin_lock_irqsave(&irq_lock, flags); + + value = rtl83xx_r32(REG(RTL83XX_ICTL_GIMR)); + value &= ~BIT(i->hwirq); + rtl83xx_w32(value, REG(RTL83XX_ICTL_GIMR)); + + raw_spin_unlock_irqrestore(&irq_lock, flags); +} + +static struct irq_chip rtl83xx_ictl_irq = { + .name = "RTL83xx", + .irq_enable = rtl83xx_ictl_enable_irq, + .irq_disable = rtl83xx_ictl_disable_irq, + .irq_ack = rtl83xx_ictl_disable_irq, + .irq_mask = rtl83xx_ictl_disable_irq, + .irq_unmask = rtl83xx_ictl_enable_irq, + .irq_eoi = rtl83xx_ictl_enable_irq, +}; + +static int intc_map(struct irq_domain *d, unsigned int irq, irq_hw_number_t hw) +{ + irq_set_chip_and_handler(hw, &rtl83xx_ictl_irq, handle_level_irq); + + return 0; +} + +static const struct irq_domain_ops irq_domain_ops = { + .map = intc_map, + .xlate = irq_domain_xlate_onecell, +}; + +static void rtl838x_irq_dispatch(struct irq_desc *desc) +{ + unsigned int pending = rtl83xx_r32(REG(RTL83XX_ICTL_GIMR)) & + rtl83xx_r32(REG(RTL83XX_ICTL_GISR)); + + if (pending) { + struct irq_domain *domain = irq_desc_get_handler_data(desc); + generic_handle_irq(irq_find_mapping(domain, __ffs(pending))); + } else { + spurious_interrupt(); + } +} + +asmlinkage void plat_rtl83xx_irq_dispatch(void) +{ + unsigned int pending; + + pending = read_c0_cause() & read_c0_status() & ST0_IM; + + if (pending & CAUSEF_IP7) + do_IRQ(REALTEK_CPU_IRQ_COUNTER); + + else if (pending & CAUSEF_IP6) + do_IRQ(REALTEK_CPU_IRQ_EXTERNAL); + + else if (pending & CAUSEF_IP5) + do_IRQ(REALTEK_CPU_IRQ_SHARED1); + + else if (pending & CAUSEF_IP4) + do_IRQ(REALTEK_CPU_IRQ_SWITCH); + + else if (pending & CAUSEF_IP3) + do_IRQ(REALTEK_CPU_IRQ_UART); + + else if (pending & CAUSEF_IP2) + do_IRQ(REALTEK_CPU_IRQ_SHARED0); + + else + spurious_interrupt(); +} + +static int icu_setup_domain(struct device_node *node) +{ + struct irq_domain *domain; + + domain = irq_domain_add_simple(node, 32, 0, + &irq_domain_ops, NULL); + irq_set_chained_handler_and_data(2, rtl838x_irq_dispatch, domain); + irq_set_chained_handler_and_data(3, rtl838x_irq_dispatch, domain); + irq_set_chained_handler_and_data(4, rtl838x_irq_dispatch, domain); + irq_set_chained_handler_and_data(5, rtl838x_irq_dispatch, domain); + + rtl83xx_ictl_base = of_iomap(node, 0); + if (!rtl83xx_ictl_base) + return -EINVAL; + + return 0; +} + +static void __init rtl8380_icu_of_init(struct device_node *node, struct device_node *parent) +{ + if (icu_setup_domain(node)) + return; + + /* Disable all cascaded interrupts */ + rtl83xx_w32(0, REG(RTL83XX_ICTL_GIMR)); + + /* Set up interrupt routing */ + rtl83xx_w32(RTL83XX_IRR0_SETTING, REG(RTL83XX_IRR0)); + rtl83xx_w32(RTL83XX_IRR1_SETTING, REG(RTL83XX_IRR1)); + rtl83xx_w32(RTL83XX_IRR2_SETTING, REG(RTL83XX_IRR2)); + rtl83xx_w32(RTL83XX_IRR3_SETTING, REG(RTL83XX_IRR3)); + + /* Clear timer interrupt */ + write_c0_compare(0); + + /* Enable all CPU interrupts */ + write_c0_status(read_c0_status() | ST0_IM); + + /* Enable timer0 and uart0 interrupts */ + rtl83xx_w32(BIT(RTL83XX_IRQ_TC0) | BIT(RTL83XX_IRQ_UART0), REG(RTL83XX_ICTL_GIMR)); +} + +static void __init rtl8390_icu_of_init(struct device_node *node, struct device_node *parent) +{ + if (icu_setup_domain(node)) + return; + + /* Disable all cascaded interrupts */ + rtl83xx_w32(0, REG(RTL83XX_ICTL_GIMR)); + + /* Set up interrupt routing */ + rtl83xx_w32(RTL83XX_IRR0_SETTING, REG(RTL83XX_IRR0)); + rtl83xx_w32(RTL8390_IRR1_SETTING, REG(RTL83XX_IRR1)); + rtl83xx_w32(RTL83XX_IRR2_SETTING, REG(RTL83XX_IRR2)); + rtl83xx_w32(RTL83XX_IRR3_SETTING, REG(RTL83XX_IRR3)); + + /* Clear timer interrupt */ + write_c0_compare(0); + + /* Enable all CPU interrupts */ + write_c0_status(read_c0_status() | ST0_IM); + + /* Enable timer0 and uart0 interrupts */ + rtl83xx_w32(BIT(RTL83XX_IRQ_TC0) | BIT(RTL83XX_IRQ_UART0), REG(RTL83XX_ICTL_GIMR)); +} + +static void __init rtl9300_icu_of_init(struct device_node *node, struct device_node *parent) +{ + pr_info("RTL9300: Setting up IRQs\n"); + if (icu_setup_domain(node)) + return; + + /* Disable all cascaded interrupts */ + rtl83xx_w32(0, REG(RTL83XX_ICTL_GIMR)); + + /* Set up interrupt routing */ + rtl83xx_w32(RTL9300_IRR0_SETTING, REG(RTL83XX_IRR0)); + rtl83xx_w32(RTL9300_IRR1_SETTING, REG(RTL83XX_IRR1)); + rtl83xx_w32(RTL9300_IRR2_SETTING, REG(RTL83XX_IRR2)); + rtl83xx_w32(RTL9300_IRR3_SETTING, REG(RTL83XX_IRR3)); + + /* Clear timer interrupt */ + write_c0_compare(0); + + /* Enable all CPU interrupts */ + write_c0_status(read_c0_status() | ST0_IM); +} + +static struct of_device_id __initdata of_irq_ids[] = { + { .compatible = "mti,cpu-interrupt-controller", .data = mips_cpu_irq_of_init }, + { .compatible = "realtek,rt8380-intc", .data = rtl8380_icu_of_init }, + { .compatible = "realtek,rt8390-intc", .data = rtl8390_icu_of_init }, + { .compatible = "realtek,rt9300-intc", .data = rtl9300_icu_of_init }, + {}, +}; + +void __init arch_init_irq(void) +{ + of_irq_init(of_irq_ids); +} diff --git a/target/linux/realtek/files-5.10/arch/mips/rtl838x/prom.c b/target/linux/realtek/files-5.10/arch/mips/rtl838x/prom.c new file mode 100644 index 0000000000..3390c04334 --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/rtl838x/prom.c @@ -0,0 +1,183 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * prom.c + * Early intialization code for the Realtek RTL838X SoC + * + * based on the original BSP by + * Copyright (C) 2006-2012 Tony Wu (tonywu@realtek.com) + * Copyright (C) 2020 B. Koblitz + * + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include + +extern char arcs_cmdline[]; +extern const char __appended_dtb; + +struct rtl83xx_soc_info soc_info; +const void *fdt; + +const char *get_system_type(void) +{ + return soc_info.name; +} + +void __init prom_free_prom_memory(void) +{ + +} + +void __init device_tree_init(void) +{ + if (!fdt_check_header(&__appended_dtb)) { + fdt = &__appended_dtb; + pr_info("Using appended Device Tree.\n"); + } + initial_boot_params = (void *)fdt; + unflatten_and_copy_device_tree(); +} + +static void __init prom_init_cmdline(void) +{ + int argc = fw_arg0; + char **argv = (char **) KSEG1ADDR(fw_arg1); + int i; + + arcs_cmdline[0] = '\0'; + + for (i = 0; i < argc; i++) { + char *p = (char *) KSEG1ADDR(argv[i]); + + if (CPHYSADDR(p) && *p) { + strlcat(arcs_cmdline, p, sizeof(arcs_cmdline)); + strlcat(arcs_cmdline, " ", sizeof(arcs_cmdline)); + } + } + pr_info("Kernel command line: %s\n", arcs_cmdline); +} + +void __init identify_rtl9302(void) +{ + switch (sw_r32(RTL93XX_MODEL_NAME_INFO) & 0xfffffff0) { + case 0x93020810: + soc_info.name = "RTL9302A 12x2.5G"; + break; + case 0x93021010: + soc_info.name = "RTL9302B 8x2.5G"; + break; + case 0x93021810: + soc_info.name = "RTL9302C 16x2.5G"; + break; + case 0x93022010: + soc_info.name = "RTL9302D 24x2.5G"; + break; + case 0x93020800: + soc_info.name = "RTL9302A"; + break; + case 0x93021000: + soc_info.name = "RTL9302B"; + break; + case 0x93021800: + soc_info.name = "RTL9302C"; + break; + case 0x93022000: + soc_info.name = "RTL9302D"; + break; + case 0x93023001: + soc_info.name = "RTL9302F"; + break; + default: + soc_info.name = "RTL9302"; + } +} + +void __init prom_init(void) +{ + uint32_t model; + + /* uart0 */ + setup_8250_early_printk_port(0xb8002000, 2, 0); + + model = sw_r32(RTL838X_MODEL_NAME_INFO); + pr_info("RTL838X model is %x\n", model); + model = model >> 16 & 0xFFFF; + + if ((model != 0x8328) && (model != 0x8330) && (model != 0x8332) + && (model != 0x8380) && (model != 0x8382)) { + model = sw_r32(RTL839X_MODEL_NAME_INFO); + pr_info("RTL839X model is %x\n", model); + model = model >> 16 & 0xFFFF; + } + + if ((model & 0x8390) != 0x8380 && (model & 0x8390) != 0x8390) { + model = sw_r32(RTL93XX_MODEL_NAME_INFO); + pr_info("RTL93XX model is %x\n", model); + model = model >> 16 & 0xFFFF; + } + + soc_info.id = model; + + switch (model) { + case 0x8328: + soc_info.name = "RTL8328"; + soc_info.family = RTL8328_FAMILY_ID; + break; + case 0x8332: + soc_info.name = "RTL8332"; + soc_info.family = RTL8380_FAMILY_ID; + break; + case 0x8380: + soc_info.name = "RTL8380"; + soc_info.family = RTL8380_FAMILY_ID; + break; + case 0x8382: + soc_info.name = "RTL8382"; + soc_info.family = RTL8380_FAMILY_ID; + break; + case 0x8390: + soc_info.name = "RTL8390"; + soc_info.family = RTL8390_FAMILY_ID; + break; + case 0x8391: + soc_info.name = "RTL8391"; + soc_info.family = RTL8390_FAMILY_ID; + break; + case 0x8392: + soc_info.name = "RTL8392"; + soc_info.family = RTL8390_FAMILY_ID; + break; + case 0x8393: + soc_info.name = "RTL8393"; + soc_info.family = RTL8390_FAMILY_ID; + break; + case 0x9301: + soc_info.name = "RTL9301"; + soc_info.family = RTL9300_FAMILY_ID; + break; + case 0x9302: + identify_rtl9302(); + soc_info.family = RTL9300_FAMILY_ID; + break; + case 0x9313: + soc_info.name = "RTL9313"; + soc_info.family = RTL9310_FAMILY_ID; + break; + default: + soc_info.name = "DEFAULT"; + soc_info.family = 0; + } + + pr_info("SoC Type: %s\n", get_system_type()); + + prom_init_cmdline(); +} diff --git a/target/linux/realtek/files-5.10/arch/mips/rtl838x/setup.c b/target/linux/realtek/files-5.10/arch/mips/rtl838x/setup.c new file mode 100644 index 0000000000..ef97d485e1 --- /dev/null +++ b/target/linux/realtek/files-5.10/arch/mips/rtl838x/setup.c @@ -0,0 +1,195 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * Setup for the Realtek RTL838X SoC: + * Memory, Timer and Serial + * + * Copyright (C) 2020 B. Koblitz + * based on the original BSP by + * Copyright (C) 2006-2012 Tony Wu (tonywu@realtek.com) + * + */ + +#include +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include + +#include "mach-rtl83xx.h" + +extern struct rtl83xx_soc_info soc_info; + +u32 pll_reset_value; + +static void rtl838x_restart(char *command) +{ + u32 pll = sw_r32(RTL838X_PLL_CML_CTRL); + + pr_info("System restart.\n"); + pr_info("PLL control register: %x, applying reset value %x\n", + pll, pll_reset_value); + + sw_w32(3, RTL838X_INT_RW_CTRL); + sw_w32(pll_reset_value, RTL838X_PLL_CML_CTRL); + sw_w32(0, RTL838X_INT_RW_CTRL); + + /* Reset Global Control1 Register */ + sw_w32(1, RTL838X_RST_GLB_CTRL_1); +} + +static void rtl839x_restart(char *command) +{ + /* SoC reset vector (in flash memory): on RTL839x platform preferred way to reset */ + void (*f)(void) = (void *) 0xbfc00000; + + pr_info("System restart.\n"); + /* Reset SoC */ + sw_w32(0xFFFFFFFF, RTL839X_RST_GLB_CTRL); + /* and call reset vector */ + f(); + /* If this fails, halt the CPU */ + while + (1); +} + +static void rtl930x_restart(char *command) +{ + pr_info("System restart.\n"); + sw_w32(0x1, RTL930X_RST_GLB_CTRL_0); + while + (1); +} + +static void rtl931x_restart(char *command) +{ + u32 v; + + pr_info("System restart.\n"); + sw_w32(1, RTL931X_RST_GLB_CTRL); + v = sw_r32(RTL931X_RST_GLB_CTRL); + sw_w32(0x101, RTL931X_RST_GLB_CTRL); + msleep(15); + sw_w32(v, RTL931X_RST_GLB_CTRL); + msleep(15); + sw_w32(0x101, RTL931X_RST_GLB_CTRL); +} + +static void rtl838x_halt(void) +{ + pr_info("System halted.\n"); + while + (1); +} + +static void __init rtl838x_setup(void) +{ + pr_info("Registering _machine_restart\n"); + _machine_restart = rtl838x_restart; + _machine_halt = rtl838x_halt; + + /* This PLL value needs to be restored before a reset and will then be + * preserved over a SoC reset. A wrong value prevents the SoC from + * connecting to the SPI flash controller at boot and reading the + * reset routine */ + pll_reset_value = sw_r32(RTL838X_PLL_CML_CTRL); + + /* Setup System LED. Bit 15 then allows to toggle it */ + sw_w32_mask(0, 3 << 16, RTL838X_LED_GLB_CTRL); +} + +static void __init rtl839x_setup(void) +{ + pr_info("Registering _machine_restart\n"); + _machine_restart = rtl839x_restart; + _machine_halt = rtl838x_halt; + + /* Setup System LED. Bit 14 of RTL839X_LED_GLB_CTRL then allows to toggle it */ + sw_w32_mask(0, 3 << 15, RTL839X_LED_GLB_CTRL); +} + +static void __init rtl930x_setup(void) +{ + pr_info("Registering _machine_restart\n"); + _machine_restart = rtl930x_restart; + _machine_halt = rtl838x_halt; + + if (soc_info.id == 0x9302) + sw_w32_mask(0, 3 << 13, RTL9302_LED_GLB_CTRL); + else + sw_w32_mask(0, 3 << 13, RTL930X_LED_GLB_CTRL); +} + +static void __init rtl931x_setup(void) +{ + pr_info("Registering _machine_restart\n"); + _machine_restart = rtl931x_restart; + _machine_halt = rtl838x_halt; + sw_w32_mask(0, 3 << 12, RTL931X_LED_GLB_CTRL); +} + +void __init plat_mem_setup(void) +{ + void *dtb; + + set_io_port_base(KSEG1); + _machine_restart = rtl838x_restart; + + if (fw_passed_dtb) /* UHI interface */ + dtb = (void *)fw_passed_dtb; + else if (__dtb_start != __dtb_end) + dtb = (void *)__dtb_start; + else + panic("no dtb found"); + + /* + * Load the devicetree. This causes the chosen node to be + * parsed resulting in our memory appearing + */ + __dt_setup_arch(dtb); + + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + rtl838x_setup(); + break; + case RTL8390_FAMILY_ID: + rtl839x_setup(); + break; + case RTL9300_FAMILY_ID: + rtl930x_setup(); + break; + case RTL9310_FAMILY_ID: + rtl931x_setup(); + break; + } +} + +void __init plat_time_init(void) +{ + struct device_node *np; + u32 freq = 500000000; + + of_clk_init(NULL); + timer_probe(); + + np = of_find_node_by_name(NULL, "cpus"); + if (!np) { + pr_err("Missing 'cpus' DT node, using default frequency."); + } else { + if (of_property_read_u32(np, "frequency", &freq) < 0) + pr_err("No 'frequency' property in DT, using default."); + else + pr_info("CPU frequency from device tree: %dMHz", freq / 1000000); + of_node_put(np); + } + + mips_hpt_frequency = freq / 2; +} diff --git a/target/linux/realtek/files-5.10/drivers/clocksource/timer-rtl9300.c b/target/linux/realtek/files-5.10/drivers/clocksource/timer-rtl9300.c new file mode 100644 index 0000000000..9ab1733fe3 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/clocksource/timer-rtl9300.c @@ -0,0 +1,196 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include +#include +#include +#include +#include +#include +#include "timer-of.h" + +#include + +/* + * Timer registers + * the RTL9300/9310 SoCs have 6 timers, each register block 0x10 apart + */ +#define RTL9300_TC_DATA 0x0 +#define RTL9300_TC_CNT 0x4 +#define RTL9300_TC_CTRL 0x8 +#define RTL9300_TC_CTRL_MODE BIT(24) +#define RTL9300_TC_CTRL_EN BIT(28) +#define RTL9300_TC_INT 0xc +#define RTL9300_TC_INT_IP BIT(16) +#define RTL9300_TC_INT_IE BIT(20) + +// Clocksource is using timer 0, clock event uses timer 1 +#define TIMER_CLK_SRC 0 +#define TIMER_CLK_EVT 1 +#define TIMER_BLK_EVT (TIMER_CLK_EVT << 4) + +// Timer modes +#define TIMER_MODE_REPEAT 1 +#define TIMER_MODE_ONCE 0 + +// Minimum divider is 2 +#define DIVISOR_RTL9300 2 + +#define N_BITS 28 + +static void __iomem *rtl9300_sched_reg __read_mostly; + +static u64 notrace rtl9300_sched_clock_read(void) +{ +/* pr_info("In %s: %x\n", __func__, readl_relaxed(rtl9300_sched_reg)); + dump_stack();*/ + return readl_relaxed(rtl9300_sched_reg); +} + +static irqreturn_t rtl9300_timer_interrupt(int irq, void *dev_id) +{ + struct clock_event_device *clk = dev_id; + struct timer_of *to = to_timer_of(clk); + u32 v = readl(timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_INT); + + // Acknowledge the IRQ + v |= RTL9300_TC_INT_IP; + writel(v, timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_INT); + + clk->event_handler(clk); + return IRQ_HANDLED; +} + +static void rtl9300_timer_stop(struct timer_of *to) +{ + u32 v; + + writel(0, timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_CTRL); + + // Acknowledge possibly pending IRQ + v = readl(timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_INT); + if (v & RTL9300_TC_INT_IP) + writel(v, timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_INT); +} + +static void rtl9300_timer_start(struct timer_of *to, int timer, bool periodic) +{ + u32 v = (periodic ? RTL9300_TC_CTRL_MODE : 0) | RTL9300_TC_CTRL_EN | DIVISOR_RTL9300; + writel(v, timer_of_base(to) + timer * 0x10 + RTL9300_TC_CTRL); +} + +static int rtl9300_set_next_event(unsigned long delta, struct clock_event_device *clk) +{ + struct timer_of *to = to_timer_of(clk); + + rtl9300_timer_stop(to); + writel(delta, timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_DATA); + rtl9300_timer_start(to, TIMER_CLK_EVT, TIMER_MODE_ONCE); + return 0; +} + +static int rtl9300_set_state_periodic(struct clock_event_device *clk) +{ + struct timer_of *to = to_timer_of(clk); + + rtl9300_timer_stop(to); + writel(to->of_clk.period, timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_DATA); + rtl9300_timer_start(to, TIMER_CLK_EVT, TIMER_MODE_REPEAT); + return 0; +} + +static int rtl9300_set_state_oneshot(struct clock_event_device *clk) +{ + struct timer_of *to = to_timer_of(clk); + + rtl9300_timer_stop(to); + writel(to->of_clk.period, timer_of_base(to) + TIMER_BLK_EVT + RTL9300_TC_DATA); + rtl9300_timer_start(to, TIMER_CLK_EVT, TIMER_MODE_ONCE); + return 0; +} + +static int rtl9300_set_state_shutdown(struct clock_event_device *clk) +{ + struct timer_of *to = to_timer_of(clk); + + rtl9300_timer_stop(to); + return 0; +} + +static struct timer_of t_of = { + .flags = TIMER_OF_BASE | TIMER_OF_IRQ | TIMER_OF_CLOCK, + + .clkevt = { + .name = "rtl9300_timer", + .rating = 350, + .features = CLOCK_EVT_FEAT_PERIODIC | CLOCK_EVT_FEAT_ONESHOT, + .set_next_event = rtl9300_set_next_event, + .set_state_oneshot = rtl9300_set_state_oneshot, + .set_state_periodic = rtl9300_set_state_periodic, + .set_state_shutdown = rtl9300_set_state_shutdown, + }, + + .of_irq = { + .name = "ostimer", + .handler = rtl9300_timer_interrupt, + .flags = IRQF_TIMER, + }, +}; + +static void __init rtl9300_timer_setup(u8 timer) +{ + u32 v; + + // Disable timer + writel(0, timer_of_base(&t_of) + 0x10 * timer + RTL9300_TC_CTRL); + + // Acknowledge possibly pending IRQ + v = readl(timer_of_base(&t_of) + 0x10 * timer + RTL9300_TC_INT); + if (v & RTL9300_TC_INT_IP) + writel(v, timer_of_base(&t_of) + 0x10 * timer + RTL9300_TC_INT); + + // Setup maximum period (for use as clock-source) + writel(0x0fffffff, timer_of_base(&t_of) + 0x10 * timer + RTL9300_TC_DATA); +} + + +static int __init rtl9300_timer_init(struct device_node *node) +{ + int err = 0; + unsigned long rate; + + pr_info("%s: setting up timer\n", __func__); + + err = timer_of_init(node, &t_of); + if (err) + return err; + + rate = timer_of_rate(&t_of) / DIVISOR_RTL9300; + pr_info("Frequency in dts: %ld, my rate is %ld, period %ld\n", + timer_of_rate(&t_of), rate, timer_of_period(&t_of)); + pr_info("With base %08x IRQ: %d\n", (u32)timer_of_base(&t_of), timer_of_irq(&t_of)); + + // Configure clock source and register it for scheduling + rtl9300_timer_setup(TIMER_CLK_SRC); + rtl9300_timer_start(&t_of, TIMER_CLK_SRC, TIMER_MODE_REPEAT); + + rtl9300_sched_reg = timer_of_base(&t_of) + TIMER_CLK_SRC * 0x10 + RTL9300_TC_CNT; + + err = clocksource_mmio_init(rtl9300_sched_reg, node->name, rate , 100, N_BITS, + clocksource_mmio_readl_up); + if (err) + return err; + + sched_clock_register(rtl9300_sched_clock_read, N_BITS, rate); + + // Configure clock event source + rtl9300_timer_setup(TIMER_CLK_EVT); + clockevents_config_and_register(&t_of.clkevt, rate, 100, 0x0fffffff); + + // Enable interrupt + writel(RTL9300_TC_INT_IE, timer_of_base(&t_of) + TIMER_BLK_EVT + RTL9300_TC_INT); + + return err; +} + +TIMER_OF_DECLARE(rtl9300_timer, "realtek,rtl9300-timer", rtl9300_timer_init); diff --git a/target/linux/realtek/files-5.10/drivers/gpio/gpio-rtl8231.c b/target/linux/realtek/files-5.10/drivers/gpio/gpio-rtl8231.c new file mode 100644 index 0000000000..a8ffcdc313 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/gpio/gpio-rtl8231.c @@ -0,0 +1,340 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include +#include +#include +#include + +/* RTL8231 registers for LED control */ +#define RTL8231_LED_FUNC0 0x0000 +#define RTL8231_GPIO_PIN_SEL(gpio) ((0x0002) + ((gpio) >> 4)) +#define RTL8231_GPIO_DIR(gpio) ((0x0005) + ((gpio) >> 4)) +#define RTL8231_GPIO_DATA(gpio) ((0x001C) + ((gpio) >> 4)) + +#define USEC_TIMEOUT 5000 + +struct rtl8231_gpios { + struct gpio_chip gc; + struct device *dev; + u32 id; + int smi_bus_id; + u16 reg_shadow[0x20]; + u32 reg_cached; + int ext_gpio_indrt_access; +}; + +extern struct mutex smi_lock; +extern struct rtl83xx_soc_info soc_info; + +static u32 rtl8231_read(struct rtl8231_gpios *gpios, u32 reg) +{ + u32 t = 0, n = 0; + u8 bus_id = gpios->smi_bus_id; + + reg &= 0x1f; + bus_id &= 0x1f; + + /* Calculate read register address */ + t = (bus_id << 2) | (reg << 7); + + /* Set execution bit: cleared when operation completed */ + t |= 1; + + // Start execution + sw_w32(t, gpios->ext_gpio_indrt_access); + do { + udelay(1); + t = sw_r32(gpios->ext_gpio_indrt_access); + n++; + } while ((t & 1) && (n < USEC_TIMEOUT)); + + if (n >= USEC_TIMEOUT) + return 0x80000000; + + pr_debug("%s: %x, %x, %x\n", __func__, bus_id, reg, (t & 0xffff0000) >> 16); + + return (t & 0xffff0000) >> 16; +} + +static int rtl8231_write(struct rtl8231_gpios *gpios, u32 reg, u32 data) +{ + u32 t = 0, n = 0; + u8 bus_id = gpios->smi_bus_id; + + pr_debug("%s: %x, %x, %x\n", __func__, bus_id, reg, data); + reg &= 0x1f; + bus_id &= 0x1f; + + t = (bus_id << 2) | (reg << 7) | (data << 16); + /* Set write bit */ + t |= 2; + + /* Set execution bit: cleared when operation completed */ + t |= 1; + + // Start execution + sw_w32(t, gpios->ext_gpio_indrt_access); + do { + udelay(1); + t = sw_r32(gpios->ext_gpio_indrt_access); + } while ((t & 1) && (n < USEC_TIMEOUT)); + + if (n >= USEC_TIMEOUT) + return -1; + + return 0; +} + +static u32 rtl8231_read_cached(struct rtl8231_gpios *gpios, u32 reg) +{ + if (reg > 0x1f) + return 0; + + if (gpios->reg_cached & (1 << reg)) + return gpios->reg_shadow[reg]; + + return rtl8231_read(gpios, reg); +} + +/* Set Direction of the RTL8231 pin: + * dir 1: input + * dir 0: output + */ +static int rtl8231_pin_dir(struct rtl8231_gpios *gpios, u32 gpio, u32 dir) +{ + u32 v; + int pin_sel_addr = RTL8231_GPIO_PIN_SEL(gpio); + int pin_dir_addr = RTL8231_GPIO_DIR(gpio); + int dpin = gpio % 16; + + if (gpio > 31) { + pr_debug("WARNING: HIGH pin\n"); + dpin += 5; + pin_dir_addr = pin_sel_addr; + } + + v = rtl8231_read_cached(gpios, pin_dir_addr); + if (v & 0x80000000) { + pr_err("Error reading RTL8231\n"); + return -1; + } + + v = (v & ~(1 << dpin)) | (dir << dpin); + rtl8231_write(gpios, pin_dir_addr, v); + gpios->reg_shadow[pin_dir_addr] = v; + gpios->reg_cached |= 1 << pin_dir_addr; + return 0; +} + +static int rtl8231_pin_dir_get(struct rtl8231_gpios *gpios, u32 gpio, u32 *dir) +{ + /* dir 1: input + * dir 0: output + */ + + u32 v; + int pin_dir_addr = RTL8231_GPIO_DIR(gpio); + int pin = gpio % 16; + + if (gpio > 31) { + pin_dir_addr = RTL8231_GPIO_PIN_SEL(gpio); + pin += 5; + } + + v = rtl8231_read(gpios, pin_dir_addr); + if (v & (1 << pin)) + *dir = 1; + else + *dir = 0; + return 0; +} + +static int rtl8231_pin_set(struct rtl8231_gpios *gpios, u32 gpio, u32 data) +{ + u32 v = rtl8231_read(gpios, RTL8231_GPIO_DATA(gpio)); + + pr_debug("%s: %d to %d\n", __func__, gpio, data); + if (v & 0x80000000) { + pr_err("Error reading RTL8231\n"); + return -1; + } + v = (v & ~(1 << (gpio % 16))) | (data << (gpio % 16)); + rtl8231_write(gpios, RTL8231_GPIO_DATA(gpio), v); + gpios->reg_shadow[RTL8231_GPIO_DATA(gpio)] = v; + gpios->reg_cached |= 1 << RTL8231_GPIO_DATA(gpio); + return 0; +} + +static int rtl8231_pin_get(struct rtl8231_gpios *gpios, u32 gpio, u16 *state) +{ + u32 v = rtl8231_read(gpios, RTL8231_GPIO_DATA(gpio)); + + if (v & 0x80000000) { + pr_err("Error reading RTL8231\n"); + return -1; + } + + *state = v & 0xffff; + return 0; +} + +static int rtl8231_direction_input(struct gpio_chip *gc, unsigned int offset) +{ + int err; + struct rtl8231_gpios *gpios = gpiochip_get_data(gc); + + pr_debug("%s: %d\n", __func__, offset); + mutex_lock(&smi_lock); + err = rtl8231_pin_dir(gpios, offset, 1); + mutex_unlock(&smi_lock); + return err; +} + +static int rtl8231_direction_output(struct gpio_chip *gc, unsigned int offset, int value) +{ + int err; + struct rtl8231_gpios *gpios = gpiochip_get_data(gc); + + pr_debug("%s: %d\n", __func__, offset); + mutex_lock(&smi_lock); + err = rtl8231_pin_dir(gpios, offset, 0); + mutex_unlock(&smi_lock); + if (!err) + err = rtl8231_pin_set(gpios, offset, value); + return err; +} + +static int rtl8231_get_direction(struct gpio_chip *gc, unsigned int offset) +{ + u32 v = 0; + struct rtl8231_gpios *gpios = gpiochip_get_data(gc); + + pr_debug("%s: %d\n", __func__, offset); + mutex_lock(&smi_lock); + rtl8231_pin_dir_get(gpios, offset, &v); + mutex_unlock(&smi_lock); + return v; +} + +static int rtl8231_gpio_get(struct gpio_chip *gc, unsigned int offset) +{ + u16 state = 0; + struct rtl8231_gpios *gpios = gpiochip_get_data(gc); + + mutex_lock(&smi_lock); + rtl8231_pin_get(gpios, offset, &state); + mutex_unlock(&smi_lock); + if (state & (1 << (offset % 16))) + return 1; + return 0; +} + +void rtl8231_gpio_set(struct gpio_chip *gc, unsigned int offset, int value) +{ + struct rtl8231_gpios *gpios = gpiochip_get_data(gc); + + rtl8231_pin_set(gpios, offset, value); +} + +int rtl8231_init(struct rtl8231_gpios *gpios) +{ + u32 v; + + pr_info("%s called, MDIO bus ID: %d\n", __func__, gpios->smi_bus_id); + + gpios->reg_cached = 0; + + if (soc_info.family == RTL8390_FAMILY_ID) { + // RTL8390: Enable external gpio in global led control register + sw_w32_mask(0x7 << 18, 0x4 << 18, RTL839X_LED_GLB_CTRL); + } else if (soc_info.family == RTL8380_FAMILY_ID) { + // RTL8380: Enable RTL8231 indirect access mode + sw_w32_mask(0, 1, RTL838X_EXTRA_GPIO_CTRL); + sw_w32_mask(3, 1, RTL838X_DMY_REG5); + } + + /* Select GPIO functionality for pins 0-34 */ + rtl8231_write(gpios, RTL8231_GPIO_PIN_SEL(0), 0xffff); + rtl8231_write(gpios, RTL8231_GPIO_PIN_SEL(16), 0xffff); + v = rtl8231_read(gpios, RTL8231_GPIO_PIN_SEL(32)); + rtl8231_write(gpios, RTL8231_GPIO_PIN_SEL(32), v | 0x7); + + return 0; +} + +static const struct of_device_id rtl8231_gpio_of_match[] = { + { .compatible = "realtek,rtl8231-gpio" }, + {}, +}; + +MODULE_DEVICE_TABLE(of, rtl8231_gpio_of_match); + +static int rtl8231_gpio_probe(struct platform_device *pdev) +{ + struct device *dev = &pdev->dev; + struct device_node *np = dev->of_node; + struct rtl8231_gpios *gpios; + int err; + u32 indirect_bus_id; + + pr_info("Probing RTL8231 GPIOs\n"); + + if (!np) { + dev_err(&pdev->dev, "No DT found\n"); + return -EINVAL; + } + + gpios = devm_kzalloc(dev, sizeof(*gpios), GFP_KERNEL); + if (!gpios) + return -ENOMEM; + + gpios->id = soc_info.id; + if (soc_info.family == RTL8380_FAMILY_ID) { + gpios->ext_gpio_indrt_access = RTL838X_EXT_GPIO_INDRT_ACCESS; + } + + if (soc_info.family == RTL8390_FAMILY_ID) { + gpios->ext_gpio_indrt_access = RTL839X_EXT_GPIO_INDRT_ACCESS; + } + + /* + * We use a default MDIO bus ID for the 8231 of 0, which can be overriden + * by the indirect-access-bus-id property in the dts. + */ + gpios->smi_bus_id = 0; + of_property_read_u32(np, "indirect-access-bus-id", &indirect_bus_id); + gpios->smi_bus_id = indirect_bus_id; + + rtl8231_init(gpios); + + gpios->dev = dev; + gpios->gc.base = 160; + gpios->gc.ngpio = 36; + gpios->gc.label = "rtl8231"; + gpios->gc.parent = dev; + gpios->gc.owner = THIS_MODULE; + gpios->gc.can_sleep = true; + + gpios->gc.direction_input = rtl8231_direction_input; + gpios->gc.direction_output = rtl8231_direction_output; + gpios->gc.set = rtl8231_gpio_set; + gpios->gc.get = rtl8231_gpio_get; + gpios->gc.get_direction = rtl8231_get_direction; + + err = devm_gpiochip_add_data(dev, &gpios->gc, gpios); + return err; +} + +static struct platform_driver rtl8231_gpio_driver = { + .driver = { + .name = "rtl8231-gpio", + .of_match_table = rtl8231_gpio_of_match, + }, + .probe = rtl8231_gpio_probe, +}; + +module_platform_driver(rtl8231_gpio_driver); + +MODULE_DESCRIPTION("Realtek RTL8231 GPIO expansion chip support"); +MODULE_LICENSE("GPL v2"); diff --git a/target/linux/realtek/files-5.10/drivers/gpio/gpio-rtl838x.c b/target/linux/realtek/files-5.10/drivers/gpio/gpio-rtl838x.c new file mode 100644 index 0000000000..8207e4bb73 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/gpio/gpio-rtl838x.c @@ -0,0 +1,425 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include +#include +#include +#include + +/* RTL8231 registers for LED control */ +#define RTL8231_LED_FUNC0 0x0000 +#define RTL8231_GPIO_PIN_SEL(gpio) ((0x0002) + ((gpio) >> 4)) +#define RTL8231_GPIO_DIR(gpio) ((0x0005) + ((gpio) >> 4)) +#define RTL8231_GPIO_DATA(gpio) ((0x001C) + ((gpio) >> 4)) + +struct rtl838x_gpios { + struct gpio_chip gc; + u32 id; + struct device *dev; + int irq; + int num_leds; + int min_led; + int leds_per_port; + u32 led_mode; + int led_glb_ctrl; + int led_sw_ctrl; + int (*led_sw_p_ctrl)(int port); + int (*led_sw_p_en_ctrl)(int port); + int (*ext_gpio_dir)(int i); + int (*ext_gpio_data)(int i); +}; + +inline int rtl838x_ext_gpio_dir(int i) +{ + return RTL838X_EXT_GPIO_DIR + ((i >>5) << 2); +} + +inline int rtl839x_ext_gpio_dir(int i) +{ + return RTL839X_EXT_GPIO_DIR + ((i >>5) << 2); +} + +inline int rtl838x_ext_gpio_data(int i) +{ + return RTL838X_EXT_GPIO_DATA + ((i >>5) << 2); +} + +inline int rtl839x_ext_gpio_data(int i) +{ + return RTL839X_EXT_GPIO_DATA + ((i >>5) << 2); +} + +inline int rtl838x_led_sw_p_ctrl(int p) +{ + return RTL838X_LED_SW_P_CTRL + (p << 2); +} + +inline int rtl839x_led_sw_p_ctrl(int p) +{ + return RTL839X_LED_SW_P_CTRL + (p << 2); +} + +inline int rtl838x_led_sw_p_en_ctrl(int p) +{ + return RTL838X_LED_SW_P_EN_CTRL + ((p / 10) << 2); +} + +inline int rtl839x_led_sw_p_en_ctrl(int p) +{ + return RTL839X_LED_SW_P_EN_CTRL + ((p / 10) << 2); +} + +extern struct mutex smi_lock; +extern struct rtl83xx_soc_info soc_info; + + +void rtl838x_gpio_set(struct gpio_chip *gc, unsigned int offset, int value) +{ + int bit; + struct rtl838x_gpios *gpios = gpiochip_get_data(gc); + + pr_debug("rtl838x_set: %d, value: %d\n", offset, value); + /* Internal GPIO of the RTL8380 */ + if (offset < 32) { + if (value) + rtl83xx_w32_mask(0, BIT(offset), RTL838X_GPIO_PABC_DATA); + else + rtl83xx_w32_mask(BIT(offset), 0, RTL838X_GPIO_PABC_DATA); + } + + /* LED driver for PWR and SYS */ + if (offset >= 32 && offset < 64) { + bit = offset - 32; + if (value) + sw_w32_mask(0, BIT(bit), gpios->led_glb_ctrl); + else + sw_w32_mask(BIT(bit), 0, gpios->led_glb_ctrl); + return; + } + + bit = (offset - 64) % 32; + /* First Port-LED */ + if (offset >= 64 && offset < 96 + && offset >= (64 + gpios->min_led) + && offset < (64 + gpios->min_led + gpios->num_leds)) { + if (value) + sw_w32_mask(7, 5, gpios->led_sw_p_ctrl(bit)); + else + sw_w32_mask(7, 0, gpios->led_sw_p_ctrl(bit)); + } + if (offset >= 96 && offset < 128 + && offset >= (96 + gpios->min_led) + && offset < (96 + gpios->min_led + gpios->num_leds)) { + if (value) + sw_w32_mask(7 << 3, 5 << 3, gpios->led_sw_p_ctrl(bit)); + else + sw_w32_mask(7 << 3, 0, gpios->led_sw_p_ctrl(bit)); + } + if (offset >= 128 && offset < 160 + && offset >= (128 + gpios->min_led) + && offset < (128 + gpios->min_led + gpios->num_leds)) { + if (value) + sw_w32_mask(7 << 6, 5 << 6, gpios->led_sw_p_ctrl(bit)); + else + sw_w32_mask(7 << 6, 0, gpios->led_sw_p_ctrl(bit)); + } + __asm__ volatile ("sync"); +} + +static int rtl838x_direction_input(struct gpio_chip *gc, unsigned int offset) +{ + pr_debug("%s: %d\n", __func__, offset); + + if (offset < 32) { + rtl83xx_w32_mask(BIT(offset), 0, RTL838X_GPIO_PABC_DIR); + return 0; + } + + /* Internal LED driver does not support input */ + return -ENOTSUPP; +} + +static int rtl838x_direction_output(struct gpio_chip *gc, unsigned int offset, int value) +{ + pr_debug("%s: %d\n", __func__, offset); + if (offset < 32) + rtl83xx_w32_mask(0, BIT(offset), RTL838X_GPIO_PABC_DIR); + rtl838x_gpio_set(gc, offset, value); + + /* LED for PWR and SYS driver is direction output by default */ + return 0; +} + +static int rtl838x_get_direction(struct gpio_chip *gc, unsigned int offset) +{ + u32 v = 0; + + pr_debug("%s: %d\n", __func__, offset); + if (offset < 32) { + v = rtl83xx_r32(RTL838X_GPIO_PABC_DIR); + if (v & BIT(offset)) + return 0; + return 1; + } + + /* LED driver for PWR and SYS is direction output by default */ + if (offset >= 32 && offset < 64) + return 0; + + return 0; +} + +static int rtl838x_gpio_get(struct gpio_chip *gc, unsigned int offset) +{ + u32 v; + struct rtl838x_gpios *gpios = gpiochip_get_data(gc); + + pr_debug("%s: %d\n", __func__, offset); + + /* Internal GPIO of the RTL8380 */ + if (offset < 32) { + v = rtl83xx_r32(RTL838X_GPIO_PABC_DATA); + if (v & BIT(offset)) + return 1; + return 0; + } + + /* LED driver for PWR and SYS */ + if (offset >= 32 && offset < 64) { + v = sw_r32(gpios->led_glb_ctrl); + if (v & BIT(offset-32)) + return 1; + return 0; + } + +/* BUG: + bit = (offset - 64) % 32; + if (offset >= 64 && offset < 96) { + if (sw_r32(RTL838X_LED1_SW_P_EN_CTRL) & BIT(bit)) + return 1; + return 0; + } + if (offset >= 96 && offset < 128) { + if (sw_r32(RTL838X_LED1_SW_P_EN_CTRL) & BIT(bit)) + return 1; + return 0; + } + if (offset >= 128 && offset < 160) { + if (sw_r32(RTL838X_LED1_SW_P_EN_CTRL) & BIT(bit)) + return 1; + return 0; + } + */ + return 0; +} + +void rtl8380_led_test(struct rtl838x_gpios *gpios, u32 mask) +{ + int i; + u32 led_gbl = sw_r32(gpios->led_glb_ctrl); + u32 mode_sel, led_p_en; + + if (soc_info.family == RTL8380_FAMILY_ID) { + mode_sel = sw_r32(RTL838X_LED_MODE_SEL); + led_p_en = sw_r32(RTL838X_LED_P_EN_CTRL); + } + + /* 2 Leds for ports 0-23 and 24-27, 3 would be 0x7 */ + sw_w32_mask(0x3f, 0x3 | (0x3 << 3), gpios->led_glb_ctrl); + + if(soc_info.family == RTL8380_FAMILY_ID) { + /* Enable all leds */ + sw_w32(0xFFFFFFF, RTL838X_LED_P_EN_CTRL); + } + /* Enable software control of all leds */ + sw_w32(0xFFFFFFF, gpios->led_sw_ctrl); + sw_w32(0xFFFFFFF, gpios->led_sw_p_en_ctrl(0)); + sw_w32(0xFFFFFFF, gpios->led_sw_p_en_ctrl(10)); + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(20)); + + for (i = 0; i < 28; i++) { + if (mask & BIT(i)) + sw_w32(5 | (5 << 3) | (5 << 6), gpios->led_sw_p_ctrl(i)); + } + msleep(3000); + + if (soc_info.family == RTL8380_FAMILY_ID) + sw_w32(led_p_en, RTL838X_LED_P_EN_CTRL); + /* Disable software control of all leds */ + sw_w32(0x0000000, gpios->led_sw_ctrl); + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(0)); + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(10)); + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(20)); + + sw_w32(led_gbl, gpios->led_glb_ctrl); + if (soc_info.family == RTL8380_FAMILY_ID) + sw_w32(mode_sel, RTL838X_LED_MODE_SEL); +} + +void take_port_leds(struct rtl838x_gpios *gpios) +{ + int leds_per_port = gpios->leds_per_port; + int mode = gpios->led_mode; + + pr_info("%s, %d, %x\n", __func__, leds_per_port, mode); + pr_debug("Bootloader settings: %x %x %x\n", + sw_r32(gpios->led_sw_p_en_ctrl(0)), + sw_r32(gpios->led_sw_p_en_ctrl(10)), + sw_r32(gpios->led_sw_p_en_ctrl(20)) + ); + + if (soc_info.family == RTL8380_FAMILY_ID) { + pr_debug("led glb: %x, sel %x\n", + sw_r32(gpios->led_glb_ctrl), sw_r32(RTL838X_LED_MODE_SEL)); + pr_debug("RTL838X_LED_P_EN_CTRL: %x", sw_r32(RTL838X_LED_P_EN_CTRL)); + pr_debug("RTL838X_LED_MODE_CTRL: %x", sw_r32(RTL838X_LED_MODE_CTRL)); + sw_w32_mask(3, 0, RTL838X_LED_MODE_SEL); + sw_w32(mode, RTL838X_LED_MODE_CTRL); + } + + /* Enable software control of all leds */ + sw_w32(0xFFFFFFF, gpios->led_sw_ctrl); + if (soc_info.family == RTL8380_FAMILY_ID) + sw_w32(0xFFFFFFF, RTL838X_LED_P_EN_CTRL); + + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(0)); + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(10)); + sw_w32(0x0000000, gpios->led_sw_p_en_ctrl(20)); + + sw_w32_mask(0x3f, 0, gpios->led_glb_ctrl); + switch (leds_per_port) { + case 3: + sw_w32_mask(0, 0x7 | (0x7 << 3), gpios->led_glb_ctrl); + sw_w32(0xFFFFFFF, gpios->led_sw_p_en_ctrl(20)); + /* FALLTHRU */ + case 2: + sw_w32_mask(0, 0x3 | (0x3 << 3), gpios->led_glb_ctrl); + sw_w32(0xFFFFFFF, gpios->led_sw_p_en_ctrl(10)); + /* FALLTHRU */ + case 1: + sw_w32_mask(0, 0x1 | (0x1 << 3), gpios->led_glb_ctrl); + sw_w32(0xFFFFFFF, gpios->led_sw_p_en_ctrl(0)); + break; + default: + pr_err("No LEDS configured for software control\n"); + } +} + +static const struct of_device_id rtl838x_gpio_of_match[] = { + { .compatible = "realtek,rtl838x-gpio" }, + {}, +}; + +MODULE_DEVICE_TABLE(of, rtl838x_gpio_of_match); + +static int rtl838x_gpio_probe(struct platform_device *pdev) +{ + struct device *dev = &pdev->dev; + struct device_node *np = dev->of_node; + struct rtl838x_gpios *gpios; + int err; + + pr_info("Probing RTL838X GPIOs\n"); + + if (!np) { + dev_err(&pdev->dev, "No DT found\n"); + return -EINVAL; + } + + gpios = devm_kzalloc(dev, sizeof(*gpios), GFP_KERNEL); + if (!gpios) + return -ENOMEM; + + gpios->id = soc_info.id; + + switch (gpios->id) { + case 0x8332: + pr_debug("Found RTL8332M GPIO\n"); + break; + case 0x8380: + pr_debug("Found RTL8380M GPIO\n"); + break; + case 0x8381: + pr_debug("Found RTL8381M GPIO\n"); + break; + case 0x8382: + pr_debug("Found RTL8382M GPIO\n"); + break; + case 0x8391: + pr_debug("Found RTL8391 GPIO\n"); + break; + case 0x8393: + pr_debug("Found RTL8393 GPIO\n"); + break; + default: + pr_err("Unknown GPIO chip id (%04x)\n", gpios->id); + return -ENODEV; + } + + if (soc_info.family == RTL8380_FAMILY_ID) { + gpios->led_glb_ctrl = RTL838X_LED_GLB_CTRL; + gpios->led_sw_ctrl = RTL838X_LED_SW_CTRL; + gpios->led_sw_p_ctrl = rtl838x_led_sw_p_ctrl; + gpios->led_sw_p_en_ctrl = rtl838x_led_sw_p_en_ctrl; + gpios->ext_gpio_dir = rtl838x_ext_gpio_dir; + gpios->ext_gpio_data = rtl838x_ext_gpio_data; + } + + if (soc_info.family == RTL8390_FAMILY_ID) { + gpios->led_glb_ctrl = RTL839X_LED_GLB_CTRL; + gpios->led_sw_ctrl = RTL839X_LED_SW_CTRL; + gpios->led_sw_p_ctrl = rtl839x_led_sw_p_ctrl; + gpios->led_sw_p_en_ctrl = rtl839x_led_sw_p_en_ctrl; + gpios->ext_gpio_dir = rtl839x_ext_gpio_dir; + gpios->ext_gpio_data = rtl839x_ext_gpio_data; + } + + gpios->dev = dev; + gpios->gc.base = 0; + /* 0-31: internal + * 32-63, LED control register + * 64-95: PORT-LED 0 + * 96-127: PORT-LED 1 + * 128-159: PORT-LED 2 + */ + gpios->gc.ngpio = 160; + gpios->gc.label = "rtl838x"; + gpios->gc.parent = dev; + gpios->gc.owner = THIS_MODULE; + gpios->gc.can_sleep = true; + gpios->irq = 31; + + gpios->gc.direction_input = rtl838x_direction_input; + gpios->gc.direction_output = rtl838x_direction_output; + gpios->gc.set = rtl838x_gpio_set; + gpios->gc.get = rtl838x_gpio_get; + gpios->gc.get_direction = rtl838x_get_direction; + + if (of_property_read_bool(np, "take-port-leds")) { + if (of_property_read_u32(np, "leds-per-port", &gpios->leds_per_port)) + gpios->leds_per_port = 2; + if (of_property_read_u32(np, "led-mode", &gpios->led_mode)) + gpios->led_mode = (0x1ea << 15) | 0x1ea; + if (of_property_read_u32(np, "num-leds", &gpios->num_leds)) + gpios->num_leds = 32; + if (of_property_read_u32(np, "min-led", &gpios->min_led)) + gpios->min_led = 0; + take_port_leds(gpios); + } + + err = devm_gpiochip_add_data(dev, &gpios->gc, gpios); + return err; +} + +static struct platform_driver rtl838x_gpio_driver = { + .driver = { + .name = "rtl838x-gpio", + .of_match_table = rtl838x_gpio_of_match, + }, + .probe = rtl838x_gpio_probe, +}; + +module_platform_driver(rtl838x_gpio_driver); + +MODULE_DESCRIPTION("Realtek RTL838X GPIO API support"); +MODULE_LICENSE("GPL v2"); diff --git a/target/linux/realtek/files-5.10/drivers/mtd/spi-nor/rtl838x-nor.c b/target/linux/realtek/files-5.10/drivers/mtd/spi-nor/rtl838x-nor.c new file mode 100644 index 0000000000..35bf53ea5a --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/mtd/spi-nor/rtl838x-nor.c @@ -0,0 +1,603 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "rtl838x-spi.h" +#include + +extern struct rtl83xx_soc_info soc_info; + +struct rtl838x_nor { + struct spi_nor nor; + struct device *dev; + volatile void __iomem *base; + bool fourByteMode; + u32 chipSize; + uint32_t flags; + uint32_t io_status; +}; + +static uint32_t spi_prep(struct rtl838x_nor *rtl838x_nor) +{ + /* Needed because of MMU constraints */ + SPI_WAIT_READY; + spi_w32w(SPI_CS_INIT, SFCSR); //deactivate CS0, CS1 + spi_w32w(0, SFCSR); //activate CS0,CS1 + spi_w32w(SPI_CS_INIT, SFCSR); //deactivate CS0, CS1 + + return (CS0 & rtl838x_nor->flags) ? (SPI_eCS0 & SPI_LEN_INIT) + : ((SPI_eCS1 & SPI_LEN_INIT) | SFCSR_CHIP_SEL); +} + +static uint32_t rtl838x_nor_get_SR(struct rtl838x_nor *rtl838x_nor) +{ + uint32_t sfcsr, sfdr; + + sfcsr = spi_prep(rtl838x_nor); + sfdr = (SPINOR_OP_RDSR)<<24; + + pr_debug("%s: rdid,sfcsr_val = %.8x,SFDR = %.8x\n", __func__, sfcsr, sfdr); + pr_debug("rdid,sfcsr = %.8x\n", sfcsr | SPI_LEN4); + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + spi_w32_mask(0, SPI_LEN4, SFCSR); + SPI_WAIT_READY; + + return spi_r32(SFDR); +} + +static void spi_write_disable(struct rtl838x_nor *rtl838x_nor) +{ + uint32_t sfcsr, sfdr; + + sfcsr = spi_prep(rtl838x_nor); + sfdr = (SPINOR_OP_WRDI) << 24; + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + pr_debug("%s: sfcsr_val = %.8x,SFDR = %.8x", __func__, sfcsr, sfdr); + + spi_prep(rtl838x_nor); +} + +static void spi_write_enable(struct rtl838x_nor *rtl838x_nor) +{ + uint32_t sfcsr, sfdr; + + sfcsr = spi_prep(rtl838x_nor); + sfdr = (SPINOR_OP_WREN) << 24; + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + pr_debug("%s: sfcsr_val = %.8x,SFDR = %.8x", __func__, sfcsr, sfdr); + + spi_prep(rtl838x_nor); +} + +static void spi_4b_set(struct rtl838x_nor *rtl838x_nor, bool enable) +{ + uint32_t sfcsr, sfdr; + + sfcsr = spi_prep(rtl838x_nor); + if (enable) + sfdr = (SPINOR_OP_EN4B) << 24; + else + sfdr = (SPINOR_OP_EX4B) << 24; + + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + pr_debug("%s: sfcsr_val = %.8x,SFDR = %.8x", __func__, sfcsr, sfdr); + + spi_prep(rtl838x_nor); +} + +static int rtl838x_get_addr_mode(struct rtl838x_nor *rtl838x_nor) +{ + int res = 3; + u32 reg; + + sw_w32(0x3, RTL838X_INT_RW_CTRL); + if (!sw_r32(RTL838X_EXT_VERSION)) { + if (sw_r32(RTL838X_STRAP_DBG) & (1 << 29)) + res = 4; + } else { + reg = sw_r32(RTL838X_PLL_CML_CTRL); + if ((reg & (1 << 30)) && (reg & (1 << 31))) + res = 4; + if ((!(reg & (1 << 30))) + && sw_r32(RTL838X_STRAP_DBG) & (1 << 29)) + res = 4; + } + sw_w32(0x0, RTL838X_INT_RW_CTRL); + return res; +} + +static int rtl8390_get_addr_mode(struct rtl838x_nor *rtl838x_nor) +{ + if (spi_r32(RTL8390_SOC_SPI_MMIO_CONF) & (1 << 9)) + return 4; + return 3; +} + +ssize_t rtl838x_do_read(struct rtl838x_nor *rtl838x_nor, loff_t from, + size_t length, u_char *buffer, uint8_t command) +{ + uint32_t sfcsr, sfdr; + uint32_t len = length; + + sfcsr = spi_prep(rtl838x_nor); + sfdr = command << 24; + + /* Perform SPINOR_OP_READ: 1 byte command & 3 byte addr*/ + sfcsr |= SPI_LEN4; + sfdr |= from; + + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + + /* Read Data, 4 bytes at a time */ + while (length >= 4) { + SPI_WAIT_READY; + *((uint32_t *) buffer) = spi_r32(SFDR); + buffer += 4; + length -= 4; + } + + /* The rest needs to be read 1 byte a time */ + sfcsr &= SPI_LEN_INIT|SPI_LEN1; + SPI_WAIT_READY; + spi_w32w(sfcsr, SFCSR); + while (length > 0) { + SPI_WAIT_READY; + *(buffer) = spi_r32(SFDR) >> 24; + buffer++; + length--; + } + return len; +} + +/* + * Do fast read in 3 or 4 Byte addressing mode + */ +static ssize_t rtl838x_do_4bf_read(struct rtl838x_nor *rtl838x_nor, loff_t from, + size_t length, u_char *buffer, uint8_t command) +{ + int sfcsr_addr_len = rtl838x_nor->fourByteMode ? 0x3 : 0x2; + int sfdr_addr_shift = rtl838x_nor->fourByteMode ? 0 : 8; + uint32_t sfcsr; + uint32_t len = length; + + pr_debug("Fast read from %llx, len %x, shift %d\n", + from, sfcsr_addr_len, sfdr_addr_shift); + sfcsr = spi_prep(rtl838x_nor); + + /* Send read command */ + spi_w32w(sfcsr | SPI_LEN1, SFCSR); + spi_w32w(command << 24, SFDR); + + /* Send address */ + spi_w32w(sfcsr | (sfcsr_addr_len << 28), SFCSR); + spi_w32w(from << sfdr_addr_shift, SFDR); + + /* Dummy cycles */ + spi_w32w(sfcsr | SPI_LEN1, SFCSR); + spi_w32w(0, SFDR); + + /* Start reading */ + spi_w32w(sfcsr | SPI_LEN4, SFCSR); + + /* Read Data, 4 bytes at a time */ + while (length >= 4) { + SPI_WAIT_READY; + *((uint32_t *) buffer) = spi_r32(SFDR); + buffer += 4; + length -= 4; + } + + /* The rest needs to be read 1 byte a time */ + sfcsr &= SPI_LEN_INIT|SPI_LEN1; + SPI_WAIT_READY; + spi_w32w(sfcsr, SFCSR); + while (length > 0) { + SPI_WAIT_READY; + *(buffer) = spi_r32(SFDR) >> 24; + buffer++; + length--; + } + return len; + +} + +/* + * Do write (Page Programming) in 3 or 4 Byte addressing mode + */ +static ssize_t rtl838x_do_4b_write(struct rtl838x_nor *rtl838x_nor, loff_t to, + size_t length, const u_char *buffer, + uint8_t command) +{ + int sfcsr_addr_len = rtl838x_nor->fourByteMode ? 0x3 : 0x2; + int sfdr_addr_shift = rtl838x_nor->fourByteMode ? 0 : 8; + uint32_t sfcsr; + uint32_t len = length; + + pr_debug("Write to %llx, len %x, shift %d\n", + to, sfcsr_addr_len, sfdr_addr_shift); + sfcsr = spi_prep(rtl838x_nor); + + /* Send write command, command IO-width is 1 (bit 25/26) */ + spi_w32w(sfcsr | SPI_LEN1 | (0 << 25), SFCSR); + spi_w32w(command << 24, SFDR); + + /* Send address */ + spi_w32w(sfcsr | (sfcsr_addr_len << 28) | (0 << 25), SFCSR); + spi_w32w(to << sfdr_addr_shift, SFDR); + + /* Write Data, 1 byte at a time, if we are not 4-byte aligned */ + if (((long)buffer) % 4) { + spi_w32w(sfcsr | SPI_LEN1, SFCSR); + while (length > 0 && (((long)buffer) % 4)) { + SPI_WAIT_READY; + spi_w32(*(buffer) << 24, SFDR); + buffer += 1; + length -= 1; + } + } + + /* Now we can write 4 bytes at a time */ + SPI_WAIT_READY; + spi_w32w(sfcsr | SPI_LEN4, SFCSR); + while (length >= 4) { + SPI_WAIT_READY; + spi_w32(*((uint32_t *)buffer), SFDR); + buffer += 4; + length -= 4; + } + + /* Final bytes might need to be written 1 byte at a time, again */ + SPI_WAIT_READY; + spi_w32w(sfcsr | SPI_LEN1, SFCSR); + while (length > 0) { + SPI_WAIT_READY; + spi_w32(*(buffer) << 24, SFDR); + buffer++; + length--; + } + return len; +} + +static ssize_t rtl838x_nor_write(struct spi_nor *nor, loff_t to, size_t len, + const u_char *buffer) +{ + int ret = 0; + uint32_t offset = 0; + struct rtl838x_nor *rtl838x_nor = nor->priv; + size_t l = len; + uint8_t cmd = SPINOR_OP_PP; + + /* Do write in 4-byte mode on large Macronix chips */ + if (rtl838x_nor->fourByteMode) { + cmd = SPINOR_OP_PP_4B; + spi_4b_set(rtl838x_nor, true); + } + + pr_debug("In %s %8x to: %llx\n", __func__, + (unsigned int) rtl838x_nor, to); + + while (l >= SPI_MAX_TRANSFER_SIZE) { + while + (rtl838x_nor_get_SR(rtl838x_nor) & SPI_WIP); + do { + spi_write_enable(rtl838x_nor); + } while (!(rtl838x_nor_get_SR(rtl838x_nor) & SPI_WEL)); + ret = rtl838x_do_4b_write(rtl838x_nor, to + offset, + SPI_MAX_TRANSFER_SIZE, buffer+offset, cmd); + l -= SPI_MAX_TRANSFER_SIZE; + offset += SPI_MAX_TRANSFER_SIZE; + } + + if (l > 0) { + while + (rtl838x_nor_get_SR(rtl838x_nor) & SPI_WIP); + do { + spi_write_enable(rtl838x_nor); + } while (!(rtl838x_nor_get_SR(rtl838x_nor) & SPI_WEL)); + ret = rtl838x_do_4b_write(rtl838x_nor, to+offset, + len, buffer+offset, cmd); + } + + return len; +} + +static ssize_t rtl838x_nor_read(struct spi_nor *nor, loff_t from, + size_t length, u_char *buffer) +{ + uint32_t offset = 0; + uint8_t cmd = SPINOR_OP_READ_FAST; + size_t l = length; + struct rtl838x_nor *rtl838x_nor = nor->priv; + + /* Do fast read in 3, or 4-byte mode on large Macronix chips */ + if (rtl838x_nor->fourByteMode) { + cmd = SPINOR_OP_READ_FAST_4B; + spi_4b_set(rtl838x_nor, true); + } + + /* TODO: do timeout and return error */ + pr_debug("Waiting for pending writes\n"); + while + (rtl838x_nor_get_SR(rtl838x_nor) & SPI_WIP); + do { + spi_write_enable(rtl838x_nor); + } while (!(rtl838x_nor_get_SR(rtl838x_nor) & SPI_WEL)); + + pr_debug("cmd is %d\n", cmd); + pr_debug("%s: addr %.8llx to addr %.8x, cmd %.8x, size %d\n", __func__, + from, (u32)buffer, (u32)cmd, length); + + while (l >= SPI_MAX_TRANSFER_SIZE) { + rtl838x_do_4bf_read(rtl838x_nor, from + offset, + SPI_MAX_TRANSFER_SIZE, buffer+offset, cmd); + l -= SPI_MAX_TRANSFER_SIZE; + offset += SPI_MAX_TRANSFER_SIZE; + } + + if (l > 0) + rtl838x_do_4bf_read(rtl838x_nor, from + offset, l, buffer+offset, cmd); + + return length; +} + +static int rtl838x_erase(struct spi_nor *nor, loff_t offs) +{ + struct rtl838x_nor *rtl838x_nor = nor->priv; + int sfcsr_addr_len = rtl838x_nor->fourByteMode ? 0x3 : 0x2; + int sfdr_addr_shift = rtl838x_nor->fourByteMode ? 0 : 8; + uint32_t sfcsr; + uint8_t cmd = SPINOR_OP_SE; + + pr_debug("Erasing sector at %llx\n", offs); + + /* Do erase in 4-byte mode on large Macronix chips */ + if (rtl838x_nor->fourByteMode) { + cmd = SPINOR_OP_SE_4B; + spi_4b_set(rtl838x_nor, true); + } + /* TODO: do timeout and return error */ + while + (rtl838x_nor_get_SR(rtl838x_nor) & SPI_WIP); + do { + spi_write_enable(rtl838x_nor); + } while (!(rtl838x_nor_get_SR(rtl838x_nor) & SPI_WEL)); + + sfcsr = spi_prep(rtl838x_nor); + + /* Send erase command, command IO-width is 1 (bit 25/26) */ + spi_w32w(sfcsr | SPI_LEN1 | (0 << 25), SFCSR); + spi_w32w(cmd << 24, SFDR); + + /* Send address */ + spi_w32w(sfcsr | (sfcsr_addr_len << 28) | (0 << 25), SFCSR); + spi_w32w(offs << sfdr_addr_shift, SFDR); + + return 0; +} + +static int rtl838x_nor_read_reg(struct spi_nor *nor, u8 opcode, u8 *buf, int len) +{ + int length = len; + u8 *buffer = buf; + uint32_t sfcsr, sfdr; + struct rtl838x_nor *rtl838x_nor = nor->priv; + + pr_debug("In %s: opcode %x, len %x\n", __func__, opcode, len); + + sfcsr = spi_prep(rtl838x_nor); + sfdr = opcode << 24; + + sfcsr |= SPI_LEN1; + + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + + while (length > 0) { + SPI_WAIT_READY; + *(buffer) = spi_r32(SFDR) >> 24; + buffer++; + length--; + } + + return len; +} + +static int rtl838x_nor_write_reg(struct spi_nor *nor, u8 opcode, u8 *buf, int len) +{ + uint32_t sfcsr, sfdr; + struct rtl838x_nor *rtl838x_nor = nor->priv; + + pr_debug("In %s, opcode %x, len %x\n", __func__, opcode, len); + sfcsr = spi_prep(rtl838x_nor); + sfdr = opcode << 24; + + if (len == 1) { /* SPINOR_OP_WRSR */ + sfdr |= buf[0]; + sfcsr |= SPI_LEN2; + } + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + return 0; +} + +static int spi_enter_sio(struct spi_nor *nor) +{ + uint32_t sfcsr, sfcr2, sfdr; + uint32_t ret = 0, reg = 0, size_bits; + struct rtl838x_nor *rtl838x_nor = nor->priv; + + pr_debug("In %s\n", __func__); + rtl838x_nor->io_status = 0; + sfdr = SPI_C_RSTQIO << 24; + sfcsr = spi_prep(rtl838x_nor); + + reg = spi_r32(SFCR2); + pr_debug("SFCR2: %x, size %x, rdopt: %x\n", reg, SFCR2_GETSIZE(reg), + (reg & SFCR2_RDOPT)); + size_bits = rtl838x_nor->fourByteMode ? SFCR2_SIZE(0x6) : SFCR2_SIZE(0x7); + + sfcr2 = SFCR2_HOLD_TILL_SFDR2 | size_bits + | (reg & SFCR2_RDOPT) | SFCR2_CMDIO(0) + | SFCR2_ADDRIO(0) | SFCR2_DUMMYCYCLE(4) + | SFCR2_DATAIO(0) | SFCR2_SFCMD(SPINOR_OP_READ_FAST); + pr_debug("SFCR2: %x, size %x\n", reg, SFCR2_GETSIZE(reg)); + + SPI_WAIT_READY; + spi_w32w(sfcr2, SFCR2); + spi_w32w(sfcsr, SFCSR); + spi_w32w(sfdr, SFDR); + + spi_w32_mask(SFCR2_HOLD_TILL_SFDR2, 0, SFCR2); + rtl838x_nor->io_status &= ~IOSTATUS_CIO_MASK; + rtl838x_nor->io_status |= CIO1; + + spi_prep(rtl838x_nor); + + return ret; +} + +int rtl838x_spi_nor_scan(struct spi_nor *nor, const char *name) +{ + static const struct spi_nor_hwcaps hwcaps = { + .mask = SNOR_HWCAPS_READ | SNOR_HWCAPS_PP + | SNOR_HWCAPS_READ_FAST + }; + + struct rtl838x_nor *rtl838x_nor = nor->priv; + + pr_debug("In %s\n", __func__); + + spi_w32_mask(0, SFCR_EnableWBO, SFCR); + spi_w32_mask(0, SFCR_EnableRBO, SFCR); + + rtl838x_nor->flags = CS0 | R_MODE; + + spi_nor_scan(nor, NULL, &hwcaps); + pr_debug("------------- Got size: %llx\n", nor->mtd.size); + + return 0; +} + +int rtl838x_nor_init(struct rtl838x_nor *rtl838x_nor, + struct device_node *flash_node) +{ + int ret; + struct spi_nor *nor; + + pr_info("%s called\n", __func__); + nor = &rtl838x_nor->nor; + nor->dev = rtl838x_nor->dev; + nor->priv = rtl838x_nor; + spi_nor_set_flash_node(nor, flash_node); + + nor->read_reg = rtl838x_nor_read_reg; + nor->write_reg = rtl838x_nor_write_reg; + nor->read = rtl838x_nor_read; + nor->write = rtl838x_nor_write; + nor->erase = rtl838x_erase; + nor->mtd.name = "rtl838x_nor"; + nor->erase_opcode = rtl838x_nor->fourByteMode ? SPINOR_OP_SE_4B + : SPINOR_OP_SE; + /* initialized with NULL */ + ret = rtl838x_spi_nor_scan(nor, NULL); + if (ret) + return ret; + + spi_enter_sio(nor); + spi_write_disable(rtl838x_nor); + + ret = mtd_device_parse_register(&nor->mtd, NULL, NULL, NULL, 0); + return ret; +} + +static int rtl838x_nor_drv_probe(struct platform_device *pdev) +{ + struct device_node *flash_np; + struct resource *res; + int ret; + struct rtl838x_nor *rtl838x_nor; + int addrMode; + + pr_info("Initializing rtl838x_nor_driver\n"); + if (!pdev->dev.of_node) { + dev_err(&pdev->dev, "No DT found\n"); + return -EINVAL; + } + + rtl838x_nor = devm_kzalloc(&pdev->dev, sizeof(*rtl838x_nor), GFP_KERNEL); + if (!rtl838x_nor) + return -ENOMEM; + platform_set_drvdata(pdev, rtl838x_nor); + + res = platform_get_resource(pdev, IORESOURCE_MEM, 0); + rtl838x_nor->base = devm_ioremap_resource(&pdev->dev, res); + if (IS_ERR((void *)rtl838x_nor->base)) + return PTR_ERR((void *)rtl838x_nor->base); + + pr_info("SPI resource base is %08x\n", (u32)rtl838x_nor->base); + rtl838x_nor->dev = &pdev->dev; + + /* only support one attached flash */ + flash_np = of_get_next_available_child(pdev->dev.of_node, NULL); + if (!flash_np) { + dev_err(&pdev->dev, "no SPI flash device to configure\n"); + ret = -ENODEV; + goto nor_free; + } + + /* Get the 3/4 byte address mode as configure by bootloader */ + if (soc_info.family == RTL8390_FAMILY_ID) + addrMode = rtl8390_get_addr_mode(rtl838x_nor); + else + addrMode = rtl838x_get_addr_mode(rtl838x_nor); + pr_info("Address mode is %d bytes\n", addrMode); + if (addrMode == 4) + rtl838x_nor->fourByteMode = true; + + ret = rtl838x_nor_init(rtl838x_nor, flash_np); + +nor_free: + return ret; +} + +static int rtl838x_nor_drv_remove(struct platform_device *pdev) +{ +/* struct rtl8xx_nor *rtl838x_nor = platform_get_drvdata(pdev); */ + return 0; +} + +static const struct of_device_id rtl838x_nor_of_ids[] = { + { .compatible = "realtek,rtl838x-nor"}, + { /* sentinel */ } +}; +MODULE_DEVICE_TABLE(of, rtl838x_nor_of_ids); + +static struct platform_driver rtl838x_nor_driver = { + .probe = rtl838x_nor_drv_probe, + .remove = rtl838x_nor_drv_remove, + .driver = { + .name = "rtl838x-nor", + .pm = NULL, + .of_match_table = rtl838x_nor_of_ids, + }, +}; + +module_platform_driver(rtl838x_nor_driver); + +MODULE_LICENSE("GPL v2"); +MODULE_DESCRIPTION("RTL838x SPI NOR Flash Driver"); diff --git a/target/linux/realtek/files-5.10/drivers/mtd/spi-nor/rtl838x-spi.h b/target/linux/realtek/files-5.10/drivers/mtd/spi-nor/rtl838x-spi.h new file mode 100644 index 0000000000..de424c647a --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/mtd/spi-nor/rtl838x-spi.h @@ -0,0 +1,111 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ +/* + * Copyright (C) 2009 Realtek Semiconductor Corp. + * + * This program is free software: you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation, either version 3 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + */ + +#ifndef _RTL838X_SPI_H +#define _RTL838X_SPI_H + + +/* + * Register access macros + */ + +#define spi_r32(reg) readl(rtl838x_nor->base + reg) +#define spi_w32(val, reg) writel(val, rtl838x_nor->base + reg) +#define spi_w32_mask(clear, set, reg) \ + spi_w32((spi_r32(reg) & ~(clear)) | (set), reg) + +#define SPI_WAIT_READY do { \ + } while (!(spi_r32(SFCSR) & SFCSR_SPI_RDY)) + +#define spi_w32w(val, reg) do { \ + writel(val, rtl838x_nor->base + reg); \ + SPI_WAIT_READY; \ + } while (0) + +#define SFCR (0x00) /*SPI Flash Configuration Register*/ + #define SFCR_CLK_DIV(val) ((val)<<29) + #define SFCR_EnableRBO (1<<28) + #define SFCR_EnableWBO (1<<27) + #define SFCR_SPI_TCS(val) ((val)<<23) /*4 bit, 1111 */ + +#define SFCR2 (0x04) /*For memory mapped I/O */ + #define SFCR2_SFCMD(val) ((val)<<24) /*8 bit, 1111_1111 */ + #define SFCR2_SIZE(val) ((val)<<21) /*3 bit, 111 */ + #define SFCR2_RDOPT (1<<20) + #define SFCR2_CMDIO(val) ((val)<<18) /*2 bit, 11 */ + #define SFCR2_ADDRIO(val) ((val)<<16) /*2 bit, 11 */ + #define SFCR2_DUMMYCYCLE(val) ((val)<<13) /*3 bit, 111 */ + #define SFCR2_DATAIO(val) ((val)<<11) /*2 bit, 11 */ + #define SFCR2_HOLD_TILL_SFDR2 (1<<10) + #define SFCR2_GETSIZE(x) (((x)&0x00E00000)>>21) + +#define SFCSR (0x08) /*SPI Flash Control&Status Register*/ + #define SFCSR_SPI_CSB0 (1<<31) + #define SFCSR_SPI_CSB1 (1<<30) + #define SFCSR_LEN(val) ((val)<<28) /*2 bits*/ + #define SFCSR_SPI_RDY (1<<27) + #define SFCSR_IO_WIDTH(val) ((val)<<25) /*2 bits*/ + #define SFCSR_CHIP_SEL (1<<24) + #define SFCSR_CMD_BYTE(val) ((val)<<16) /*8 bit, 1111_1111 */ + +#define SFDR (0x0C) /*SPI Flash Data Register*/ +#define SFDR2 (0x10) /*SPI Flash Data Register - for post SPI bootup setting*/ + #define SPI_CS_INIT (SFCSR_SPI_CSB0 | SFCSR_SPI_CSB1 | SPI_LEN1) + #define SPI_CS0 SFCSR_SPI_CSB0 + #define SPI_CS1 SFCSR_SPI_CSB1 + #define SPI_eCS0 ((SFCSR_SPI_CSB1)) /*and SFCSR to active CS0*/ + #define SPI_eCS1 ((SFCSR_SPI_CSB0)) /*and SFCSR to active CS1*/ + + #define SPI_WIP (1) /* Write In Progress */ + #define SPI_WEL (1<<1) /* Write Enable Latch*/ + #define SPI_SST_QIO_WIP (1<<7) /* SST QIO Flash Write In Progress */ + #define SPI_LEN_INIT 0xCFFFFFFF /* and SFCSR to init */ + #define SPI_LEN4 0x30000000 /* or SFCSR to set */ + #define SPI_LEN3 0x20000000 /* or SFCSR to set */ + #define SPI_LEN2 0x10000000 /* or SFCSR to set */ + #define SPI_LEN1 0x00000000 /* or SFCSR to set */ + #define SPI_SETLEN(val) do { \ + SPI_REG(SFCSR) &= 0xCFFFFFFF; \ + SPI_REG(SFCSR) |= (val-1)<<28; \ + } while (0) +/* + * SPI interface control + */ +#define RTL8390_SOC_SPI_MMIO_CONF (0x04) + +#define IOSTATUS_CIO_MASK (0x00000038) + +/* Chip select: bits 4-7*/ +#define CS0 (1<<4) +#define R_MODE 0x04 + +/* io_status */ +#define IO1 (1<<0) +#define IO2 (1<<1) +#define CIO1 (1<<3) +#define CIO2 (1<<4) +#define CMD_IO1 (1<<6) +#define W_ADDR_IO1 ((1)<<12) +#define R_ADDR_IO2 ((2)<<9) +#define R_DATA_IO2 ((2)<<15) +#define W_DATA_IO1 ((1)<<18) + +/* Commands */ +#define SPI_C_RSTQIO 0xFF + +#define SPI_MAX_TRANSFER_SIZE 256 + +#endif /* _RTL838X_SPI_H */ diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/Kconfig b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/Kconfig new file mode 100644 index 0000000000..f293832eb5 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/Kconfig @@ -0,0 +1,8 @@ +# SPDX-License-Identifier: GPL-2.0-only +config NET_DSA_RTL83XX + tristate "Realtek RTL838x/RTL839x switch support" + depends on RTL838X + select NET_DSA_TAG_TRAILER + ---help--- + This driver adds support for Realtek RTL83xx series switching. + diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/Makefile b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/Makefile new file mode 100644 index 0000000000..016184c3d9 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/Makefile @@ -0,0 +1,3 @@ +# SPDX-License-Identifier: GPL-2.0 +obj-$(CONFIG_NET_DSA_RTL83XX) += common.o dsa.o \ + rtl838x.o rtl839x.o rtl930x.o rtl931x.o debugfs.o qos.o diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/common.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/common.c new file mode 100644 index 0000000000..a380906b92 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/common.c @@ -0,0 +1,722 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include + +#include +#include "rtl83xx.h" + +extern struct rtl83xx_soc_info soc_info; + +extern const struct rtl838x_reg rtl838x_reg; +extern const struct rtl838x_reg rtl839x_reg; +extern const struct rtl838x_reg rtl930x_reg; +extern const struct rtl838x_reg rtl931x_reg; + +extern const struct dsa_switch_ops rtl83xx_switch_ops; +extern const struct dsa_switch_ops rtl930x_switch_ops; + +DEFINE_MUTEX(smi_lock); + +int rtl83xx_port_get_stp_state(struct rtl838x_switch_priv *priv, int port) +{ + u32 msti = 0; + u32 port_state[4]; + int index, bit; + int pos = port; + int n = priv->port_width << 1; + + /* Ports above or equal CPU port can never be configured */ + if (port >= priv->cpu_port) + return -1; + + mutex_lock(&priv->reg_mutex); + + /* For the RTL839x and following, the bits are left-aligned in the 64/128 bit field */ + if (priv->family_id == RTL8390_FAMILY_ID) + pos += 12; + if (priv->family_id == RTL9300_FAMILY_ID) + pos += 3; + if (priv->family_id == RTL9310_FAMILY_ID) + pos += 8; + + index = n - (pos >> 4) - 1; + bit = (pos << 1) % 32; + + priv->r->stp_get(priv, msti, port_state); + + mutex_unlock(&priv->reg_mutex); + + return (port_state[index] >> bit) & 3; +} + +static struct table_reg rtl838x_tbl_regs[] = { + TBL_DESC(0x6900, 0x6908, 3, 15, 13, 1), // RTL8380_TBL_L2 + TBL_DESC(0x6914, 0x6918, 18, 14, 12, 1), // RTL8380_TBL_0 + TBL_DESC(0xA4C8, 0xA4CC, 6, 14, 12, 1), // RTL8380_TBL_1 + + TBL_DESC(0x1180, 0x1184, 3, 16, 14, 0), // RTL8390_TBL_L2 + TBL_DESC(0x1190, 0x1194, 17, 15, 12, 0), // RTL8390_TBL_0 + TBL_DESC(0x6B80, 0x6B84, 4, 14, 12, 0), // RTL8390_TBL_1 + TBL_DESC(0x611C, 0x6120, 9, 8, 6, 0), // RTL8390_TBL_2 + + TBL_DESC(0xB320, 0xB334, 3, 18, 16, 0), // RTL9300_TBL_L2 + TBL_DESC(0xB340, 0xB344, 19, 16, 12, 0), // RTL9300_TBL_0 + TBL_DESC(0xB3A0, 0xB3A4, 20, 16, 13, 0), // RTL9300_TBL_1 + TBL_DESC(0xCE04, 0xCE08, 6, 14, 12, 0), // RTL9300_TBL_2 + TBL_DESC(0xD600, 0xD604, 30, 7, 6, 0), // RTL9300_TBL_HSB + TBL_DESC(0x7880, 0x7884, 22, 9, 8, 0), // RTL9300_TBL_HSA + + TBL_DESC(0x8500, 0x8508, 8, 19, 15, 0), // RTL9310_TBL_0 + TBL_DESC(0x40C0, 0x40C4, 22, 16, 14, 0), // RTL9310_TBL_1 + TBL_DESC(0x8528, 0x852C, 6, 18, 14, 0), // RTL9310_TBL_2 + TBL_DESC(0x0200, 0x0204, 9, 15, 12, 0), // RTL9310_TBL_3 + TBL_DESC(0x20dc, 0x20e0, 29, 7, 6, 0), // RTL9310_TBL_4 + TBL_DESC(0x7e1c, 0x7e20, 53, 8, 6, 0), // RTL9310_TBL_5 +}; + +void rtl_table_init(void) +{ + int i; + + for (i = 0; i < RTL_TBL_END; i++) + mutex_init(&rtl838x_tbl_regs[i].lock); +} + +/* + * Request access to table t in table access register r + * Returns a handle to a lock for that table + */ +struct table_reg *rtl_table_get(rtl838x_tbl_reg_t r, int t) +{ + if (r >= RTL_TBL_END) + return NULL; + + if (t >= BIT(rtl838x_tbl_regs[r].c_bit-rtl838x_tbl_regs[r].t_bit)) + return NULL; + + mutex_lock(&rtl838x_tbl_regs[r].lock); + rtl838x_tbl_regs[r].tbl = t; + + return &rtl838x_tbl_regs[r]; +} + +/* + * Release a table r, unlock the corresponding lock + */ +void rtl_table_release(struct table_reg *r) +{ + if (!r) + return; + +// pr_info("Unlocking %08x\n", (u32)r); + mutex_unlock(&r->lock); +// pr_info("Unlock done\n"); +} + +/* + * Reads table index idx into the data registers of the table + */ +void rtl_table_read(struct table_reg *r, int idx) +{ + u32 cmd = r->rmode ? BIT(r->c_bit) : 0; + + cmd |= BIT(r->c_bit + 1) | (r->tbl << r->t_bit) | (idx & (BIT(r->t_bit) - 1)); + sw_w32(cmd, r->addr); + do { } while (sw_r32(r->addr) & BIT(r->c_bit + 1)); +} + +/* + * Writes the content of the table data registers into the table at index idx + */ +void rtl_table_write(struct table_reg *r, int idx) +{ + u32 cmd = r->rmode ? 0 : BIT(r->c_bit); + + cmd |= BIT(r->c_bit + 1) | (r->tbl << r->t_bit) | (idx & (BIT(r->t_bit) - 1)); + sw_w32(cmd, r->addr); + do { } while (sw_r32(r->addr) & BIT(r->c_bit + 1)); +} + +/* + * Returns the address of the ith data register of table register r + * the address is relative to the beginning of the Switch-IO block at 0xbb000000 + */ +inline u16 rtl_table_data(struct table_reg *r, int i) +{ + if (i >= r->max_data) + i = r->max_data - 1; + return r->data + i * 4; +} + +inline u32 rtl_table_data_r(struct table_reg *r, int i) +{ + return sw_r32(rtl_table_data(r, i)); +} + +inline void rtl_table_data_w(struct table_reg *r, u32 v, int i) +{ + sw_w32(v, rtl_table_data(r, i)); +} + +/* Port register accessor functions for the RTL838x and RTL930X SoCs */ +void rtl838x_mask_port_reg(u64 clear, u64 set, int reg) +{ + sw_w32_mask((u32)clear, (u32)set, reg); +} + +void rtl838x_set_port_reg(u64 set, int reg) +{ + sw_w32((u32)set, reg); +} + +u64 rtl838x_get_port_reg(int reg) +{ + return ((u64) sw_r32(reg)); +} + +/* Port register accessor functions for the RTL839x and RTL931X SoCs */ +void rtl839x_mask_port_reg_be(u64 clear, u64 set, int reg) +{ + sw_w32_mask((u32)(clear >> 32), (u32)(set >> 32), reg); + sw_w32_mask((u32)(clear & 0xffffffff), (u32)(set & 0xffffffff), reg + 4); +} + +u64 rtl839x_get_port_reg_be(int reg) +{ + u64 v = sw_r32(reg); + + v <<= 32; + v |= sw_r32(reg + 4); + return v; +} + +void rtl839x_set_port_reg_be(u64 set, int reg) +{ + sw_w32(set >> 32, reg); + sw_w32(set & 0xffffffff, reg + 4); +} + +void rtl839x_mask_port_reg_le(u64 clear, u64 set, int reg) +{ + sw_w32_mask((u32)clear, (u32)set, reg); + sw_w32_mask((u32)(clear >> 32), (u32)(set >> 32), reg + 4); +} + +void rtl839x_set_port_reg_le(u64 set, int reg) +{ + sw_w32(set, reg); + sw_w32(set >> 32, reg + 4); +} + +u64 rtl839x_get_port_reg_le(int reg) +{ + u64 v = sw_r32(reg + 4); + + v <<= 32; + v |= sw_r32(reg); + return v; +} + +int read_phy(u32 port, u32 page, u32 reg, u32 *val) +{ + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + return rtl838x_read_phy(port, page, reg, val); + case RTL8390_FAMILY_ID: + return rtl839x_read_phy(port, page, reg, val); + case RTL9300_FAMILY_ID: + return rtl930x_read_phy(port, page, reg, val); + case RTL9310_FAMILY_ID: + return rtl931x_read_phy(port, page, reg, val); + } + return -1; +} + +int write_phy(u32 port, u32 page, u32 reg, u32 val) +{ + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + return rtl838x_write_phy(port, page, reg, val); + case RTL8390_FAMILY_ID: + return rtl839x_write_phy(port, page, reg, val); + case RTL9300_FAMILY_ID: + return rtl930x_write_phy(port, page, reg, val); + case RTL9310_FAMILY_ID: + return rtl931x_write_phy(port, page, reg, val); + } + return -1; +} + +static int __init rtl83xx_mdio_probe(struct rtl838x_switch_priv *priv) +{ + struct device *dev = priv->dev; + struct device_node *dn, *mii_np = dev->of_node; + struct mii_bus *bus; + int ret; + u32 pn; + + pr_debug("In %s\n", __func__); + mii_np = of_find_compatible_node(NULL, NULL, "realtek,rtl838x-mdio"); + if (mii_np) { + pr_debug("Found compatible MDIO node!\n"); + } else { + dev_err(priv->dev, "no %s child node found", "mdio-bus"); + return -ENODEV; + } + + priv->mii_bus = of_mdio_find_bus(mii_np); + if (!priv->mii_bus) { + pr_debug("Deferring probe of mdio bus\n"); + return -EPROBE_DEFER; + } + if (!of_device_is_available(mii_np)) + ret = -ENODEV; + + bus = devm_mdiobus_alloc(priv->ds->dev); + if (!bus) + return -ENOMEM; + + bus->name = "rtl838x slave mii"; + + /* + * Since the NIC driver is loaded first, we can use the mdio rw functions + * assigned there. + */ + bus->read = priv->mii_bus->read; + bus->write = priv->mii_bus->write; + snprintf(bus->id, MII_BUS_ID_SIZE, "%s-%d", bus->name, dev->id); + + bus->parent = dev; + priv->ds->slave_mii_bus = bus; + priv->ds->slave_mii_bus->priv = priv; + + ret = mdiobus_register(priv->ds->slave_mii_bus); + if (ret && mii_np) { + of_node_put(dn); + return ret; + } + + dn = mii_np; + for_each_node_by_name(dn, "ethernet-phy") { + if (of_property_read_u32(dn, "reg", &pn)) + continue; + + priv->ports[pn].dp = dsa_to_port(priv->ds, pn); + + // Check for the integrated SerDes of the RTL8380M first + if (of_property_read_bool(dn, "phy-is-integrated") + && priv->id == 0x8380 && pn >= 24) { + pr_debug("----> FÓUND A SERDES\n"); + priv->ports[pn].phy = PHY_RTL838X_SDS; + continue; + } + + if (of_property_read_bool(dn, "phy-is-integrated") + && !of_property_read_bool(dn, "sfp")) { + priv->ports[pn].phy = PHY_RTL8218B_INT; + continue; + } + + if (!of_property_read_bool(dn, "phy-is-integrated") + && of_property_read_bool(dn, "sfp")) { + priv->ports[pn].phy = PHY_RTL8214FC; + continue; + } + + if (!of_property_read_bool(dn, "phy-is-integrated") + && !of_property_read_bool(dn, "sfp")) { + priv->ports[pn].phy = PHY_RTL8218B_EXT; + continue; + } + } + + // TODO: Do this needs to come from the .dts, at least the SerDes number + if (priv->family_id == RTL9300_FAMILY_ID) { + priv->ports[24].is2G5 = true; + priv->ports[25].is2G5 = true; + priv->ports[24].sds_num = 1; + priv->ports[24].sds_num = 2; + } + + /* Disable MAC polling the PHY so that we can start configuration */ + priv->r->set_port_reg_le(0ULL, priv->r->smi_poll_ctrl); + + /* Enable PHY control via SoC */ + if (priv->family_id == RTL8380_FAMILY_ID) { + /* Enable SerDes NWAY and PHY control via SoC */ + sw_w32_mask(BIT(7), BIT(15), RTL838X_SMI_GLB_CTRL); + } else { + /* Disable PHY polling via SoC */ + sw_w32_mask(BIT(7), 0, RTL839X_SMI_GLB_CTRL); + } + + /* Power on fibre ports and reset them if necessary */ + if (priv->ports[24].phy == PHY_RTL838X_SDS) { + pr_debug("Powering on fibre ports & reset\n"); + rtl8380_sds_power(24, 1); + rtl8380_sds_power(26, 1); + } + + // TODO: Only power on SerDes with external PHYs connected + if (priv->family_id == RTL9300_FAMILY_ID) { + pr_info("RTL9300 Powering on SerDes ports\n"); + rtl9300_sds_power(24, 1); + rtl9300_sds_power(25, 1); + rtl9300_sds_power(26, 1); + rtl9300_sds_power(27, 1); + } + + pr_debug("%s done\n", __func__); + return 0; +} + +static int __init rtl83xx_get_l2aging(struct rtl838x_switch_priv *priv) +{ + int t = sw_r32(priv->r->l2_ctrl_1); + + t &= priv->family_id == RTL8380_FAMILY_ID ? 0x7fffff : 0x1FFFFF; + + if (priv->family_id == RTL8380_FAMILY_ID) + t = t * 128 / 625; /* Aging time in seconds. 0: L2 aging disabled */ + else + t = (t * 3) / 5; + + pr_debug("L2 AGING time: %d sec\n", t); + pr_debug("Dynamic aging for ports: %x\n", sw_r32(priv->r->l2_port_aging_out)); + return t; +} + +/* Caller must hold priv->reg_mutex */ +int rtl83xx_lag_add(struct dsa_switch *ds, int group, int port) +{ + struct rtl838x_switch_priv *priv = ds->priv; + int i; + + pr_info("%s: Adding port %d to LA-group %d\n", __func__, port, group); + if (group >= priv->n_lags) { + pr_err("Link Agrregation group too large.\n"); + return -EINVAL; + } + + if (port >= priv->cpu_port) { + pr_err("Invalid port number.\n"); + return -EINVAL; + } + + for (i = 0; i < priv->n_lags; i++) { + if (priv->lags_port_members[i] & BIT_ULL(i)) + break; + } + if (i != priv->n_lags) { + pr_err("%s: Port already member of LAG: %d\n", __func__, i); + return -ENOSPC; + } + + priv->r->mask_port_reg_be(0, BIT_ULL(port), priv->r->trk_mbr_ctr(group)); + priv->lags_port_members[group] |= BIT_ULL(port); + + pr_info("lags_port_members %d now %016llx\n", group, priv->lags_port_members[group]); + return 0; +} + +/* Caller must hold priv->reg_mutex */ +int rtl83xx_lag_del(struct dsa_switch *ds, int group, int port) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + pr_info("%s: Removing port %d from LA-group %d\n", __func__, port, group); + + if (group >= priv->n_lags) { + pr_err("Link Agrregation group too large.\n"); + return -EINVAL; + } + + if (port >= priv->cpu_port) { + pr_err("Invalid port number.\n"); + return -EINVAL; + } + + + if (!(priv->lags_port_members[group] & BIT_ULL(port))) { + pr_err("%s: Port not member of LAG: %d\n", __func__, group + ); + return -ENOSPC; + } + + priv->r->mask_port_reg_be(BIT_ULL(port), 0, priv->r->trk_mbr_ctr(group)); + priv->lags_port_members[group] &= ~BIT_ULL(port); + + pr_info("lags_port_members %d now %016llx\n", group, priv->lags_port_members[group]); + return 0; +} + +static int rtl83xx_handle_changeupper(struct rtl838x_switch_priv *priv, + struct net_device *ndev, + struct netdev_notifier_changeupper_info *info) +{ + struct net_device *upper = info->upper_dev; + int i, j, err; + + if (!netif_is_lag_master(upper)) + return 0; + + mutex_lock(&priv->reg_mutex); + + for (i = 0; i < priv->n_lags; i++) { + if ((!priv->lag_devs[i]) || (priv->lag_devs[i] == upper)) + break; + } + for (j = 0; j < priv->cpu_port; j++) { + if (priv->ports[j].dp->slave == ndev) + break; + } + if (j >= priv->cpu_port) { + err = -EINVAL; + goto out; + } + + if (info->linking) { + if (!priv->lag_devs[i]) + priv->lag_devs[i] = upper; + err = rtl83xx_lag_add(priv->ds, i, priv->ports[j].dp->index); + if (err) { + err = -EINVAL; + goto out; + } + } else { + if (!priv->lag_devs[i]) + err = -EINVAL; + err = rtl83xx_lag_del(priv->ds, i, priv->ports[j].dp->index); + if (err) { + err = -EINVAL; + goto out; + } + if (!priv->lags_port_members[i]) + priv->lag_devs[i] = NULL; + } + +out: + mutex_unlock(&priv->reg_mutex); + return 0; +} + +static int rtl83xx_netdevice_event(struct notifier_block *this, + unsigned long event, void *ptr) +{ + struct net_device *ndev = netdev_notifier_info_to_dev(ptr); + struct rtl838x_switch_priv *priv; + int err; + + pr_debug("In: %s, event: %lu\n", __func__, event); + + if ((event != NETDEV_CHANGEUPPER) && (event != NETDEV_CHANGELOWERSTATE)) + return NOTIFY_DONE; + + priv = container_of(this, struct rtl838x_switch_priv, nb); + switch (event) { + case NETDEV_CHANGEUPPER: + err = rtl83xx_handle_changeupper(priv, ndev, ptr); + break; + } + + if (err) + return err; + + return NOTIFY_DONE; +} + +static int __init rtl83xx_sw_probe(struct platform_device *pdev) +{ + int err = 0, i; + struct rtl838x_switch_priv *priv; + struct device *dev = &pdev->dev; + u64 bpdu_mask; + + pr_debug("Probing RTL838X switch device\n"); + if (!pdev->dev.of_node) { + dev_err(dev, "No DT found\n"); + return -EINVAL; + } + + // Initialize access to RTL switch tables + rtl_table_init(); + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->ds = dsa_switch_alloc(dev, DSA_MAX_PORTS); + + if (!priv->ds) + return -ENOMEM; + priv->ds->dev = dev; + priv->ds->priv = priv; + priv->ds->ops = &rtl83xx_switch_ops; + priv->dev = dev; + + priv->family_id = soc_info.family; + priv->id = soc_info.id; + switch(soc_info.family) { + case RTL8380_FAMILY_ID: + priv->ds->ops = &rtl83xx_switch_ops; + priv->cpu_port = RTL838X_CPU_PORT; + priv->port_mask = 0x1f; + priv->port_width = 1; + priv->irq_mask = 0x0FFFFFFF; + priv->r = &rtl838x_reg; + priv->ds->num_ports = 29; + priv->fib_entries = 8192; + rtl8380_get_version(priv); + priv->n_lags = 8; + priv->l2_bucket_size = 4; + break; + case RTL8390_FAMILY_ID: + priv->ds->ops = &rtl83xx_switch_ops; + priv->cpu_port = RTL839X_CPU_PORT; + priv->port_mask = 0x3f; + priv->port_width = 2; + priv->irq_mask = 0xFFFFFFFFFFFFFULL; + priv->r = &rtl839x_reg; + priv->ds->num_ports = 53; + priv->fib_entries = 16384; + rtl8390_get_version(priv); + priv->n_lags = 16; + priv->l2_bucket_size = 4; + break; + case RTL9300_FAMILY_ID: + priv->ds->ops = &rtl930x_switch_ops; + priv->cpu_port = RTL930X_CPU_PORT; + priv->port_mask = 0x1f; + priv->port_width = 1; + priv->irq_mask = 0x0FFFFFFF; + priv->r = &rtl930x_reg; + priv->ds->num_ports = 29; + priv->fib_entries = 16384; + priv->version = RTL8390_VERSION_A; + priv->n_lags = 16; + sw_w32(1, RTL930X_ST_CTRL); + priv->l2_bucket_size = 8; + break; + case RTL9310_FAMILY_ID: + priv->ds->ops = &rtl930x_switch_ops; + priv->cpu_port = RTL931X_CPU_PORT; + priv->port_mask = 0x3f; + priv->port_width = 2; + priv->irq_mask = 0xFFFFFFFFFFFFFULL; + priv->r = &rtl931x_reg; + priv->ds->num_ports = 57; + priv->fib_entries = 16384; + priv->version = RTL8390_VERSION_A; + priv->n_lags = 16; + priv->l2_bucket_size = 8; + break; + } + pr_debug("Chip version %c\n", priv->version); + + err = rtl83xx_mdio_probe(priv); + if (err) { + /* Probing fails the 1st time because of missing ethernet driver + * initialization. Use this to disable traffic in case the bootloader left if on + */ + return err; + } + err = dsa_register_switch(priv->ds); + if (err) { + dev_err(dev, "Error registering switch: %d\n", err); + return err; + } + + /* Enable link and media change interrupts. Are the SERDES masks needed? */ + sw_w32_mask(0, 3, priv->r->isr_glb_src); + + priv->r->set_port_reg_le(priv->irq_mask, priv->r->isr_port_link_sts_chg); + priv->r->set_port_reg_le(priv->irq_mask, priv->r->imr_port_link_sts_chg); + + priv->link_state_irq = platform_get_irq(pdev, 0); + pr_info("LINK state irq: %d\n", priv->link_state_irq); + switch (priv->family_id) { + case RTL8380_FAMILY_ID: + err = request_irq(priv->link_state_irq, rtl838x_switch_irq, + IRQF_SHARED, "rtl838x-link-state", priv->ds); + break; + case RTL8390_FAMILY_ID: + err = request_irq(priv->link_state_irq, rtl839x_switch_irq, + IRQF_SHARED, "rtl839x-link-state", priv->ds); + break; + case RTL9300_FAMILY_ID: + err = request_irq(priv->link_state_irq, rtl930x_switch_irq, + IRQF_SHARED, "rtl930x-link-state", priv->ds); + break; + case RTL9310_FAMILY_ID: + err = request_irq(priv->link_state_irq, rtl931x_switch_irq, + IRQF_SHARED, "rtl931x-link-state", priv->ds); + break; + } + if (err) { + dev_err(dev, "Error setting up switch interrupt.\n"); + /* Need to free allocated switch here */ + } + + /* Enable interrupts for switch, on RTL931x, the IRQ is always on globally */ + if (soc_info.family != RTL9310_FAMILY_ID) + sw_w32(0x1, priv->r->imr_glb); + + rtl83xx_get_l2aging(priv); + + rtl83xx_setup_qos(priv); + + /* Clear all destination ports for mirror groups */ + for (i = 0; i < 4; i++) + priv->mirror_group_ports[i] = -1; + + priv->nb.notifier_call = rtl83xx_netdevice_event; + if (register_netdevice_notifier(&priv->nb)) { + priv->nb.notifier_call = NULL; + dev_err(dev, "Failed to register LAG netdev notifier\n"); + } + + // Flood BPDUs to all ports including cpu-port + if (soc_info.family != RTL9300_FAMILY_ID) { // TODO: Port this functionality + bpdu_mask = soc_info.family == RTL8380_FAMILY_ID ? 0x1FFFFFFF : 0x1FFFFFFFFFFFFF; + priv->r->set_port_reg_be(bpdu_mask, priv->r->rma_bpdu_fld_pmask); + + // TRAP 802.1X frames (EAPOL) to the CPU-Port, bypass STP and VLANs + sw_w32(7, priv->r->spcl_trap_eapol_ctrl); + + rtl838x_dbgfs_init(priv); + } + + return err; +} + +static int rtl83xx_sw_remove(struct platform_device *pdev) +{ + // TODO: + pr_debug("Removing platform driver for rtl83xx-sw\n"); + return 0; +} + +static const struct of_device_id rtl83xx_switch_of_ids[] = { + { .compatible = "realtek,rtl83xx-switch"}, + { /* sentinel */ } +}; + + +MODULE_DEVICE_TABLE(of, rtl83xx_switch_of_ids); + +static struct platform_driver rtl83xx_switch_driver = { + .probe = rtl83xx_sw_probe, + .remove = rtl83xx_sw_remove, + .driver = { + .name = "rtl83xx-switch", + .pm = NULL, + .of_match_table = rtl83xx_switch_of_ids, + }, +}; + +module_platform_driver(rtl83xx_switch_driver); + +MODULE_AUTHOR("B. Koblitz"); +MODULE_DESCRIPTION("RTL83XX SoC Switch Driver"); +MODULE_LICENSE("GPL"); diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/debugfs.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/debugfs.c new file mode 100644 index 0000000000..4f81408453 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/debugfs.c @@ -0,0 +1,476 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include + +#include +#include "rtl83xx.h" + +#define RTL838X_DRIVER_NAME "rtl838x" + +#define RTL8380_LED_GLB_CTRL (0xA000) +#define RTL8380_LED_MODE_SEL (0x1004) +#define RTL8380_LED_MODE_CTRL (0xA004) +#define RTL8380_LED_P_EN_CTRL (0xA008) +#define RTL8380_LED_SW_CTRL (0xA00C) +#define RTL8380_LED0_SW_P_EN_CTRL (0xA010) +#define RTL8380_LED1_SW_P_EN_CTRL (0xA014) +#define RTL8380_LED2_SW_P_EN_CTRL (0xA018) +#define RTL8380_LED_SW_P_CTRL(p) (0xA01C + (((p) << 2))) + +#define RTL8390_LED_GLB_CTRL (0x00E4) +#define RTL8390_LED_SET_2_3_CTRL (0x00E8) +#define RTL8390_LED_SET_0_1_CTRL (0x00EC) +#define RTL8390_LED_COPR_SET_SEL_CTRL(p) (0x00F0 + (((p >> 4) << 2))) +#define RTL8390_LED_FIB_SET_SEL_CTRL(p) (0x0100 + (((p >> 4) << 2))) +#define RTL8390_LED_COPR_PMASK_CTRL(p) (0x0110 + (((p >> 5) << 2))) +#define RTL8390_LED_FIB_PMASK_CTRL(p) (0x00118 + (((p >> 5) << 2))) +#define RTL8390_LED_COMBO_CTRL(p) (0x0120 + (((p >> 5) << 2))) +#define RTL8390_LED_SW_CTRL (0x0128) +#define RTL8390_LED_SW_P_EN_CTRL(p) (0x012C + (((p / 10) << 2))) +#define RTL8390_LED_SW_P_CTRL(p) (0x0144 + (((p) << 2))) + +#define RTL838X_MIR_QID_CTRL(grp) (0xAD44 + (((grp) << 2))) +#define RTL838X_MIR_RSPAN_VLAN_CTRL(grp) (0xA340 + (((grp) << 2))) +#define RTL838X_MIR_RSPAN_VLAN_CTRL_MAC(grp) (0xAA70 + (((grp) << 2))) +#define RTL838X_MIR_RSPAN_TX_CTRL (0xA350) +#define RTL838X_MIR_RSPAN_TX_TAG_RM_CTRL (0xAA80) +#define RTL838X_MIR_RSPAN_TX_TAG_EN_CTRL (0xAA84) +#define RTL839X_MIR_RSPAN_VLAN_CTRL(grp) (0xA340 + (((grp) << 2))) +#define RTL839X_MIR_RSPAN_TX_CTRL (0x69b0) +#define RTL839X_MIR_RSPAN_TX_TAG_RM_CTRL (0x2550) +#define RTL839X_MIR_RSPAN_TX_TAG_EN_CTRL (0x2554) +#define RTL839X_MIR_SAMPLE_RATE_CTRL (0x2558) + +int rtl83xx_port_get_stp_state(struct rtl838x_switch_priv *priv, int port); +void rtl83xx_port_stp_state_set(struct dsa_switch *ds, int port, u8 state); +void rtl83xx_fast_age(struct dsa_switch *ds, int port); +u32 rtl838x_get_egress_rate(struct rtl838x_switch_priv *priv, int port); +u32 rtl839x_get_egress_rate(struct rtl838x_switch_priv *priv, int port); +int rtl838x_set_egress_rate(struct rtl838x_switch_priv *priv, int port, u32 rate); +int rtl839x_set_egress_rate(struct rtl838x_switch_priv *priv, int port, u32 rate); + +static ssize_t rtl838x_common_read(char __user *buffer, size_t count, + loff_t *ppos, unsigned int value) +{ + char *buf; + ssize_t len; + + if (*ppos != 0) + return 0; + + buf = kasprintf(GFP_KERNEL, "0x%08x\n", value); + if (!buf) + return -ENOMEM; + + if (count < strlen(buf)) { + kfree(buf); + return -ENOSPC; + } + + len = simple_read_from_buffer(buffer, count, ppos, buf, strlen(buf)); + kfree(buf); + + return len; +} + +static ssize_t rtl838x_common_write(const char __user *buffer, size_t count, + loff_t *ppos, unsigned int *value) +{ + char b[32]; + ssize_t len; + int ret; + + if (*ppos != 0) + return -EINVAL; + + if (count >= sizeof(b)) + return -ENOSPC; + + len = simple_write_to_buffer(b, sizeof(b) - 1, ppos, + buffer, count); + if (len < 0) + return len; + + b[len] = '\0'; + ret = kstrtouint(b, 16, value); + if (ret) + return -EIO; + + return len; +} + +static ssize_t stp_state_read(struct file *filp, char __user *buffer, size_t count, + loff_t *ppos) +{ + struct rtl838x_port *p = filp->private_data; + struct dsa_switch *ds = p->dp->ds; + int value = rtl83xx_port_get_stp_state(ds->priv, p->dp->index); + + if (value < 0) + return -EINVAL; + + return rtl838x_common_read(buffer, count, ppos, (u32)value); +} + +static ssize_t stp_state_write(struct file *filp, const char __user *buffer, + size_t count, loff_t *ppos) +{ + struct rtl838x_port *p = filp->private_data; + u32 value; + size_t res = rtl838x_common_write(buffer, count, ppos, &value); + if (res < 0) + return res; + + rtl83xx_port_stp_state_set(p->dp->ds, p->dp->index, (u8)value); + + return res; +} + +static const struct file_operations stp_state_fops = { + .owner = THIS_MODULE, + .open = simple_open, + .read = stp_state_read, + .write = stp_state_write, +}; + +static ssize_t age_out_read(struct file *filp, char __user *buffer, size_t count, + loff_t *ppos) +{ + struct rtl838x_port *p = filp->private_data; + struct dsa_switch *ds = p->dp->ds; + struct rtl838x_switch_priv *priv = ds->priv; + int value = sw_r32(priv->r->l2_port_aging_out); + + if (value < 0) + return -EINVAL; + + return rtl838x_common_read(buffer, count, ppos, (u32)value); +} + +static ssize_t age_out_write(struct file *filp, const char __user *buffer, + size_t count, loff_t *ppos) +{ + struct rtl838x_port *p = filp->private_data; + u32 value; + size_t res = rtl838x_common_write(buffer, count, ppos, &value); + if (res < 0) + return res; + + rtl83xx_fast_age(p->dp->ds, p->dp->index); + + return res; +} + +static const struct file_operations age_out_fops = { + .owner = THIS_MODULE, + .open = simple_open, + .read = age_out_read, + .write = age_out_write, +}; + +static ssize_t port_egress_rate_read(struct file *filp, char __user *buffer, size_t count, + loff_t *ppos) +{ + struct rtl838x_port *p = filp->private_data; + struct dsa_switch *ds = p->dp->ds; + struct rtl838x_switch_priv *priv = ds->priv; + int value; + if (priv->family_id == RTL8380_FAMILY_ID) + value = rtl838x_get_egress_rate(priv, p->dp->index); + else + value = rtl839x_get_egress_rate(priv, p->dp->index); + + if (value < 0) + return -EINVAL; + + return rtl838x_common_read(buffer, count, ppos, (u32)value); +} + +static ssize_t port_egress_rate_write(struct file *filp, const char __user *buffer, + size_t count, loff_t *ppos) +{ + struct rtl838x_port *p = filp->private_data; + struct dsa_switch *ds = p->dp->ds; + struct rtl838x_switch_priv *priv = ds->priv; + u32 value; + size_t res = rtl838x_common_write(buffer, count, ppos, &value); + if (res < 0) + return res; + + if (priv->family_id == RTL8380_FAMILY_ID) + rtl838x_set_egress_rate(priv, p->dp->index, value); + else + rtl839x_set_egress_rate(priv, p->dp->index, value); + + return res; +} + +static const struct file_operations port_egress_fops = { + .owner = THIS_MODULE, + .open = simple_open, + .read = port_egress_rate_read, + .write = port_egress_rate_write, +}; + + +static const struct debugfs_reg32 port_ctrl_regs[] = { + { .name = "port_isolation", .offset = RTL838X_PORT_ISO_CTRL(0), }, + { .name = "mac_force_mode", .offset = RTL838X_MAC_FORCE_MODE_CTRL, }, +}; + +void rtl838x_dbgfs_cleanup(struct rtl838x_switch_priv *priv) +{ + debugfs_remove_recursive(priv->dbgfs_dir); + +// kfree(priv->dbgfs_entries); +} + +static int rtl838x_dbgfs_port_init(struct dentry *parent, struct rtl838x_switch_priv *priv, + int port) +{ + struct dentry *port_dir; + struct debugfs_regset32 *port_ctrl_regset; + + port_dir = debugfs_create_dir(priv->ports[port].dp->name, parent); + + if (priv->family_id == RTL8380_FAMILY_ID) { + debugfs_create_x32("storm_rate_uc", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_STORM_CTRL_PORT_UC(port))); + + debugfs_create_x32("storm_rate_mc", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_STORM_CTRL_PORT_MC(port))); + + debugfs_create_x32("storm_rate_bc", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_STORM_CTRL_PORT_BC(port))); + + debugfs_create_x32("vlan_port_tag_sts_ctrl", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_VLAN_PORT_TAG_STS_CTRL + + (port << 2))); + } else { + debugfs_create_x32("storm_rate_uc", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_STORM_CTRL_PORT_UC_0(port))); + + debugfs_create_x32("storm_rate_mc", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_STORM_CTRL_PORT_MC_0(port))); + + debugfs_create_x32("storm_rate_bc", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_STORM_CTRL_PORT_BC_0(port))); + + debugfs_create_x32("vlan_port_tag_sts_ctrl", 0644, port_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_VLAN_PORT_TAG_STS_CTRL + + (port << 2))); + } + + debugfs_create_u32("id", 0444, port_dir, (u32 *)&priv->ports[port].dp->index); + + port_ctrl_regset = devm_kzalloc(priv->dev, sizeof(*port_ctrl_regset), GFP_KERNEL); + if (!port_ctrl_regset) + return -ENOMEM; + + port_ctrl_regset->regs = port_ctrl_regs; + port_ctrl_regset->nregs = ARRAY_SIZE(port_ctrl_regs); + port_ctrl_regset->base = (void *)(RTL838X_SW_BASE + (port << 2)); + debugfs_create_regset32("port_ctrl", 0400, port_dir, port_ctrl_regset); + + debugfs_create_file("stp_state", 0600, port_dir, &priv->ports[port], &stp_state_fops); + debugfs_create_file("age_out", 0600, port_dir, &priv->ports[port], &age_out_fops); + debugfs_create_file("port_egress_rate", 0600, port_dir, &priv->ports[port], + &port_egress_fops); + return 0; +} + +static int rtl838x_dbgfs_leds(struct dentry *parent, struct rtl838x_switch_priv *priv) +{ + struct dentry *led_dir; + int p; + char led_sw_p_ctrl_name[20]; + char port_led_name[20]; + + led_dir = debugfs_create_dir("led", parent); + + if (priv->family_id == RTL8380_FAMILY_ID) { + debugfs_create_x32("led_glb_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED_GLB_CTRL)); + debugfs_create_x32("led_mode_sel", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED_MODE_SEL)); + debugfs_create_x32("led_mode_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED_MODE_CTRL)); + debugfs_create_x32("led_p_en_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED_P_EN_CTRL)); + debugfs_create_x32("led_sw_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED_SW_CTRL)); + debugfs_create_x32("led0_sw_p_en_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED0_SW_P_EN_CTRL)); + debugfs_create_x32("led1_sw_p_en_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED1_SW_P_EN_CTRL)); + debugfs_create_x32("led2_sw_p_en_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED2_SW_P_EN_CTRL)); + for (p = 0; p < 28; p++) { + snprintf(led_sw_p_ctrl_name, sizeof(led_sw_p_ctrl_name), + "led_sw_p_ctrl.%02d", p); + debugfs_create_x32(led_sw_p_ctrl_name, 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8380_LED_SW_P_CTRL(p))); + } + } else if (priv->family_id == RTL8390_FAMILY_ID) { + debugfs_create_x32("led_glb_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_GLB_CTRL)); + debugfs_create_x32("led_set_2_3", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_SET_2_3_CTRL)); + debugfs_create_x32("led_set_0_1", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_SET_0_1_CTRL)); + for (p = 0; p < 4; p++) { + snprintf(port_led_name, sizeof(port_led_name), "led_copr_set_sel.%1d", p); + debugfs_create_x32(port_led_name, 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_COPR_SET_SEL_CTRL(p << 4))); + snprintf(port_led_name, sizeof(port_led_name), "led_fib_set_sel.%1d", p); + debugfs_create_x32(port_led_name, 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_FIB_SET_SEL_CTRL(p << 4))); + } + debugfs_create_x32("led_copr_pmask_ctrl_0", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_COPR_PMASK_CTRL(0))); + debugfs_create_x32("led_copr_pmask_ctrl_1", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_COPR_PMASK_CTRL(32))); + debugfs_create_x32("led_fib_pmask_ctrl_0", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_FIB_PMASK_CTRL(0))); + debugfs_create_x32("led_fib_pmask_ctrl_1", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_FIB_PMASK_CTRL(32))); + debugfs_create_x32("led_combo_ctrl_0", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_COMBO_CTRL(0))); + debugfs_create_x32("led_combo_ctrl_1", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_COMBO_CTRL(32))); + debugfs_create_x32("led_sw_ctrl", 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_SW_CTRL)); + for (p = 0; p < 5; p++) { + snprintf(port_led_name, sizeof(port_led_name), "led_sw_p_en_ctrl.%1d", p); + debugfs_create_x32(port_led_name, 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_SW_P_EN_CTRL(p * 10))); + } + for (p = 0; p < 28; p++) { + snprintf(port_led_name, sizeof(port_led_name), "led_sw_p_ctrl.%02d", p); + debugfs_create_x32(port_led_name, 0644, led_dir, + (u32 *)(RTL838X_SW_BASE + RTL8390_LED_SW_P_CTRL(p))); + } + } + return 0; +} + +void rtl838x_dbgfs_init(struct rtl838x_switch_priv *priv) +{ + struct dentry *rtl838x_dir; + struct dentry *port_dir; + struct dentry *mirror_dir; + struct debugfs_regset32 *port_ctrl_regset; + int ret, i; + char lag_name[10]; + char mirror_name[10]; + + pr_info("%s called\n", __func__); + rtl838x_dir = debugfs_lookup(RTL838X_DRIVER_NAME, NULL); + if (!rtl838x_dir) + rtl838x_dir = debugfs_create_dir(RTL838X_DRIVER_NAME, NULL); + + priv->dbgfs_dir = rtl838x_dir; + + debugfs_create_u32("soc", 0444, rtl838x_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MODEL_NAME_INFO)); + + /* Create one directory per port */ + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) { + ret = rtl838x_dbgfs_port_init(rtl838x_dir, priv, i); + if (ret) + goto err; + } + } + + /* Create directory for CPU-port */ + port_dir = debugfs_create_dir("cpu_port", rtl838x_dir); + port_ctrl_regset = devm_kzalloc(priv->dev, sizeof(*port_ctrl_regset), GFP_KERNEL); + if (!port_ctrl_regset) { + ret = -ENOMEM; + goto err; + } + + port_ctrl_regset->regs = port_ctrl_regs; + port_ctrl_regset->nregs = ARRAY_SIZE(port_ctrl_regs); + port_ctrl_regset->base = (void *)(RTL838X_SW_BASE + (priv->cpu_port << 2)); + debugfs_create_regset32("port_ctrl", 0400, port_dir, port_ctrl_regset); + debugfs_create_u8("id", 0444, port_dir, &priv->cpu_port); + + /* Create entries for LAGs */ + for (i = 0; i < priv->n_lags; i++) { + snprintf(lag_name, sizeof(lag_name), "lag.%02d", i); + if (priv->family_id == RTL8380_FAMILY_ID) + debugfs_create_x32(lag_name, 0644, rtl838x_dir, + (u32 *)(RTL838X_SW_BASE + priv->r->trk_mbr_ctr(i))); + else + debugfs_create_x64(lag_name, 0644, rtl838x_dir, + (u64 *)(RTL838X_SW_BASE + priv->r->trk_mbr_ctr(i))); + } + + /* Create directories for mirror groups */ + for (i = 0; i < 4; i++) { + snprintf(mirror_name, sizeof(mirror_name), "mirror.%1d", i); + mirror_dir = debugfs_create_dir(mirror_name, rtl838x_dir); + if (priv->family_id == RTL8380_FAMILY_ID) { + debugfs_create_x32("ctrl", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_CTRL + i * 4)); + debugfs_create_x32("ingress_pm", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + priv->r->mir_spm + i * 4)); + debugfs_create_x32("egress_pm", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + priv->r->mir_dpm + i * 4)); + debugfs_create_x32("qid", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_QID_CTRL(i))); + debugfs_create_x32("rspan_vlan", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_RSPAN_VLAN_CTRL(i))); + debugfs_create_x32("rspan_vlan_mac", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_RSPAN_VLAN_CTRL_MAC(i))); + debugfs_create_x32("rspan_tx", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_RSPAN_TX_CTRL)); + debugfs_create_x32("rspan_tx_tag_rm", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_RSPAN_TX_TAG_RM_CTRL)); + debugfs_create_x32("rspan_tx_tag_en", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_MIR_RSPAN_TX_TAG_EN_CTRL)); + } else { + debugfs_create_x32("ctrl", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_MIR_CTRL + i * 4)); + debugfs_create_x64("ingress_pm", 0644, mirror_dir, + (u64 *)(RTL838X_SW_BASE + priv->r->mir_spm + i * 8)); + debugfs_create_x64("egress_pm", 0644, mirror_dir, + (u64 *)(RTL838X_SW_BASE + priv->r->mir_dpm + i * 8)); + debugfs_create_x32("rspan_vlan", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_MIR_RSPAN_VLAN_CTRL(i))); + debugfs_create_x32("rspan_tx", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_MIR_RSPAN_TX_CTRL)); + debugfs_create_x32("rspan_tx_tag_rm", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_MIR_RSPAN_TX_TAG_RM_CTRL)); + debugfs_create_x32("rspan_tx_tag_en", 0644, mirror_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_MIR_RSPAN_TX_TAG_EN_CTRL)); + debugfs_create_x64("sample_rate", 0644, mirror_dir, + (u64 *)(RTL838X_SW_BASE + RTL839X_MIR_SAMPLE_RATE_CTRL)); + } + } + + if (priv->family_id == RTL8380_FAMILY_ID) + debugfs_create_x32("bpdu_flood_mask", 0644, rtl838x_dir, + (u32 *)(RTL838X_SW_BASE + priv->r->rma_bpdu_fld_pmask)); + else + debugfs_create_x64("bpdu_flood_mask", 0644, rtl838x_dir, + (u64 *)(RTL838X_SW_BASE + priv->r->rma_bpdu_fld_pmask)); + + if (priv->family_id == RTL8380_FAMILY_ID) + debugfs_create_x32("vlan_ctrl", 0644, rtl838x_dir, + (u32 *)(RTL838X_SW_BASE + RTL838X_VLAN_CTRL)); + else + debugfs_create_x32("vlan_ctrl", 0644, rtl838x_dir, + (u32 *)(RTL838X_SW_BASE + RTL839X_VLAN_CTRL)); + + ret = rtl838x_dbgfs_leds(rtl838x_dir, priv); + if (ret) + goto err; + + return; +err: + rtl838x_dbgfs_cleanup(priv); +} diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/dsa.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/dsa.c new file mode 100644 index 0000000000..c2a230c4cb --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/dsa.c @@ -0,0 +1,1587 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include + +#include +#include "rtl83xx.h" + + +extern struct rtl83xx_soc_info soc_info; + + +static void rtl83xx_init_stats(struct rtl838x_switch_priv *priv) +{ + mutex_lock(&priv->reg_mutex); + + /* Enable statistics module: all counters plus debug. + * On RTL839x all counters are enabled by default + */ + if (priv->family_id == RTL8380_FAMILY_ID) + sw_w32_mask(0, 3, RTL838X_STAT_CTRL); + + /* Reset statistics counters */ + sw_w32_mask(0, 1, priv->r->stat_rst); + + mutex_unlock(&priv->reg_mutex); +} + +static void rtl83xx_enable_phy_polling(struct rtl838x_switch_priv *priv) +{ + int i; + u64 v = 0; + + msleep(1000); + /* Enable all ports with a PHY, including the SFP-ports */ + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) + v |= BIT_ULL(i); + } + + pr_debug("%s: %16llx\n", __func__, v); + priv->r->set_port_reg_le(v, priv->r->smi_poll_ctrl); + + /* PHY update complete, there is no global PHY polling enable bit on the 9300 */ + if (priv->family_id == RTL8390_FAMILY_ID) + sw_w32_mask(0, BIT(7), RTL839X_SMI_GLB_CTRL); + else if(priv->family_id == RTL9300_FAMILY_ID) + sw_w32_mask(0, 0x8000, RTL838X_SMI_GLB_CTRL); +} + +const struct rtl83xx_mib_desc rtl83xx_mib[] = { + MIB_DESC(2, 0xf8, "ifInOctets"), + MIB_DESC(2, 0xf0, "ifOutOctets"), + MIB_DESC(1, 0xec, "dot1dTpPortInDiscards"), + MIB_DESC(1, 0xe8, "ifInUcastPkts"), + MIB_DESC(1, 0xe4, "ifInMulticastPkts"), + MIB_DESC(1, 0xe0, "ifInBroadcastPkts"), + MIB_DESC(1, 0xdc, "ifOutUcastPkts"), + MIB_DESC(1, 0xd8, "ifOutMulticastPkts"), + MIB_DESC(1, 0xd4, "ifOutBroadcastPkts"), + MIB_DESC(1, 0xd0, "ifOutDiscards"), + MIB_DESC(1, 0xcc, ".3SingleCollisionFrames"), + MIB_DESC(1, 0xc8, ".3MultipleCollisionFrames"), + MIB_DESC(1, 0xc4, ".3DeferredTransmissions"), + MIB_DESC(1, 0xc0, ".3LateCollisions"), + MIB_DESC(1, 0xbc, ".3ExcessiveCollisions"), + MIB_DESC(1, 0xb8, ".3SymbolErrors"), + MIB_DESC(1, 0xb4, ".3ControlInUnknownOpcodes"), + MIB_DESC(1, 0xb0, ".3InPauseFrames"), + MIB_DESC(1, 0xac, ".3OutPauseFrames"), + MIB_DESC(1, 0xa8, "DropEvents"), + MIB_DESC(1, 0xa4, "tx_BroadcastPkts"), + MIB_DESC(1, 0xa0, "tx_MulticastPkts"), + MIB_DESC(1, 0x9c, "CRCAlignErrors"), + MIB_DESC(1, 0x98, "tx_UndersizePkts"), + MIB_DESC(1, 0x94, "rx_UndersizePkts"), + MIB_DESC(1, 0x90, "rx_UndersizedropPkts"), + MIB_DESC(1, 0x8c, "tx_OversizePkts"), + MIB_DESC(1, 0x88, "rx_OversizePkts"), + MIB_DESC(1, 0x84, "Fragments"), + MIB_DESC(1, 0x80, "Jabbers"), + MIB_DESC(1, 0x7c, "Collisions"), + MIB_DESC(1, 0x78, "tx_Pkts64Octets"), + MIB_DESC(1, 0x74, "rx_Pkts64Octets"), + MIB_DESC(1, 0x70, "tx_Pkts65to127Octets"), + MIB_DESC(1, 0x6c, "rx_Pkts65to127Octets"), + MIB_DESC(1, 0x68, "tx_Pkts128to255Octets"), + MIB_DESC(1, 0x64, "rx_Pkts128to255Octets"), + MIB_DESC(1, 0x60, "tx_Pkts256to511Octets"), + MIB_DESC(1, 0x5c, "rx_Pkts256to511Octets"), + MIB_DESC(1, 0x58, "tx_Pkts512to1023Octets"), + MIB_DESC(1, 0x54, "rx_Pkts512to1023Octets"), + MIB_DESC(1, 0x50, "tx_Pkts1024to1518Octets"), + MIB_DESC(1, 0x4c, "rx_StatsPkts1024to1518Octets"), + MIB_DESC(1, 0x48, "tx_Pkts1519toMaxOctets"), + MIB_DESC(1, 0x44, "rx_Pkts1519toMaxOctets"), + MIB_DESC(1, 0x40, "rxMacDiscards") +}; + + +/* DSA callbacks */ + + +static enum dsa_tag_protocol rtl83xx_get_tag_protocol(struct dsa_switch *ds, int port) +{ + /* The switch does not tag the frames, instead internally the header + * structure for each packet is tagged accordingly. + */ + return DSA_TAG_PROTO_TRAILER; +} + +/* + * Initialize all VLANS + */ +static void rtl83xx_vlan_setup(struct rtl838x_switch_priv *priv) +{ + struct rtl838x_vlan_info info; + int i; + + pr_info("In %s\n", __func__); + + priv->r->vlan_profile_setup(0); + priv->r->vlan_profile_setup(1); + pr_info("UNKNOWN_MC_PMASK: %016llx\n", priv->r->read_mcast_pmask(UNKNOWN_MC_PMASK)); + priv->r->vlan_profile_dump(0); + + info.fid = 0; // Default Forwarding ID / MSTI + info.hash_uc_fid = false; // Do not build the L2 lookup hash with FID, but VID + info.hash_mc_fid = false; // Do the same for Multicast packets + info.profile_id = 0; // Use default Vlan Profile 0 + info.tagged_ports = 0; // Initially no port members + + // Initialize all vlans 0-4095 + for (i = 0; i < MAX_VLANS; i ++) + priv->r->vlan_set_tagged(i, &info); + + // reset PVIDs; defaults to 1 on reset + for (i = 0; i <= priv->ds->num_ports; i++) + sw_w32(0, priv->r->vlan_port_pb + (i << 2)); + + // Set forwarding action based on inner VLAN tag + for (i = 0; i < priv->cpu_port; i++) + priv->r->vlan_fwd_on_inner(i, true); +} + +static int rtl83xx_setup(struct dsa_switch *ds) +{ + int i; + struct rtl838x_switch_priv *priv = ds->priv; + u64 port_bitmap = BIT_ULL(priv->cpu_port); + + pr_debug("%s called\n", __func__); + + /* Disable MAC polling the PHY so that we can start configuration */ + priv->r->set_port_reg_le(0ULL, priv->r->smi_poll_ctrl); + + for (i = 0; i < ds->num_ports; i++) + priv->ports[i].enable = false; + priv->ports[priv->cpu_port].enable = true; + + /* Isolate ports from each other: traffic only CPU <-> port */ + /* Setting bit j in register RTL838X_PORT_ISO_CTRL(i) allows + * traffic from source port i to destination port j + */ + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) { + priv->r->set_port_reg_be(BIT_ULL(priv->cpu_port) | BIT_ULL(i), + priv->r->port_iso_ctrl(i)); + port_bitmap |= BIT_ULL(i); + } + } + priv->r->set_port_reg_be(port_bitmap, priv->r->port_iso_ctrl(priv->cpu_port)); + + if (priv->family_id == RTL8380_FAMILY_ID) + rtl838x_print_matrix(); + else + rtl839x_print_matrix(); + + rtl83xx_init_stats(priv); + + rtl83xx_vlan_setup(priv); + + ds->configure_vlan_while_not_filtering = true; + + /* Enable MAC Polling PHY again */ + rtl83xx_enable_phy_polling(priv); + pr_debug("Please wait until PHY is settled\n"); + msleep(1000); + return 0; +} + +static int rtl930x_setup(struct dsa_switch *ds) +{ + int i; + struct rtl838x_switch_priv *priv = ds->priv; + u32 port_bitmap = BIT(priv->cpu_port); + + pr_info("%s called\n", __func__); + + // Enable CSTI STP mode +// sw_w32(1, RTL930X_ST_CTRL); + + /* Disable MAC polling the PHY so that we can start configuration */ + sw_w32(0, RTL930X_SMI_POLL_CTRL); + + // Disable all ports except CPU port + for (i = 0; i < ds->num_ports; i++) + priv->ports[i].enable = false; + priv->ports[priv->cpu_port].enable = true; + + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) { + priv->r->traffic_set(i, BIT_ULL(priv->cpu_port) | BIT_ULL(i)); + port_bitmap |= BIT_ULL(i); + } + } + priv->r->traffic_set(priv->cpu_port, port_bitmap); + + rtl930x_print_matrix(); + + // TODO: Initialize statistics + + rtl83xx_vlan_setup(priv); + + ds->configure_vlan_while_not_filtering = true; + + rtl83xx_enable_phy_polling(priv); + + return 0; +} + +static void rtl83xx_phylink_validate(struct dsa_switch *ds, int port, + unsigned long *supported, + struct phylink_link_state *state) +{ + struct rtl838x_switch_priv *priv = ds->priv; + __ETHTOOL_DECLARE_LINK_MODE_MASK(mask) = { 0, }; + + pr_debug("In %s port %d, state is %d", __func__, port, state->interface); + + if (!phy_interface_mode_is_rgmii(state->interface) && + state->interface != PHY_INTERFACE_MODE_NA && + state->interface != PHY_INTERFACE_MODE_1000BASEX && + state->interface != PHY_INTERFACE_MODE_MII && + state->interface != PHY_INTERFACE_MODE_REVMII && + state->interface != PHY_INTERFACE_MODE_GMII && + state->interface != PHY_INTERFACE_MODE_QSGMII && + state->interface != PHY_INTERFACE_MODE_INTERNAL && + state->interface != PHY_INTERFACE_MODE_SGMII) { + bitmap_zero(supported, __ETHTOOL_LINK_MODE_MASK_NBITS); + dev_err(ds->dev, + "Unsupported interface: %d for port %d\n", + state->interface, port); + return; + } + + /* Allow all the expected bits */ + phylink_set(mask, Autoneg); + phylink_set_port_modes(mask); + phylink_set(mask, Pause); + phylink_set(mask, Asym_Pause); + + /* With the exclusion of MII and Reverse MII, we support Gigabit, + * including Half duplex + */ + if (state->interface != PHY_INTERFACE_MODE_MII && + state->interface != PHY_INTERFACE_MODE_REVMII) { + phylink_set(mask, 1000baseT_Full); + phylink_set(mask, 1000baseT_Half); + } + + /* On both the 8380 and 8382, ports 24-27 are SFP ports */ + if (port >= 24 && port <= 27 && priv->family_id == RTL8380_FAMILY_ID) + phylink_set(mask, 1000baseX_Full); + + /* On the RTL839x family of SoCs, ports 48 to 51 are SFP ports */ + if (port >=48 && port <= 51 && priv->family_id == RTL8390_FAMILY_ID) + phylink_set(mask, 1000baseX_Full); + + phylink_set(mask, 10baseT_Half); + phylink_set(mask, 10baseT_Full); + phylink_set(mask, 100baseT_Half); + phylink_set(mask, 100baseT_Full); + + bitmap_and(supported, supported, mask, + __ETHTOOL_LINK_MODE_MASK_NBITS); + bitmap_and(state->advertising, state->advertising, mask, + __ETHTOOL_LINK_MODE_MASK_NBITS); +} + +static int rtl83xx_phylink_mac_link_state(struct dsa_switch *ds, int port, + struct phylink_link_state *state) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 speed; + u64 link; + + if (port < 0 || port > priv->cpu_port) + return -EINVAL; + + /* + * On the RTL9300 for at least the RTL8226B PHY, the MAC-side link + * state needs to be read twice in order to read a correct result. + * This would not be necessary for ports connected e.g. to RTL8218D + * PHYs. + */ + state->link = 0; + link = priv->r->get_port_reg_le(priv->r->mac_link_sts); + link = priv->r->get_port_reg_le(priv->r->mac_link_sts); + if (link & BIT_ULL(port)) + state->link = 1; + pr_debug("%s: link state port %d: %llx\n", __func__, port, link & BIT_ULL(port)); + + state->duplex = 0; + if (priv->r->get_port_reg_le(priv->r->mac_link_dup_sts) & BIT_ULL(port)) + state->duplex = 1; + + speed = priv->r->get_port_reg_le(priv->r->mac_link_spd_sts(port)); + speed >>= (port % 16) << 1; + switch (speed & 0x3) { + case 0: + state->speed = SPEED_10; + break; + case 1: + state->speed = SPEED_100; + break; + case 2: + state->speed = SPEED_1000; + break; + case 3: + if (priv->family_id == RTL9300_FAMILY_ID + && (port == 24 || port == 26)) /* Internal serdes */ + state->speed = SPEED_2500; + else + state->speed = SPEED_100; /* Is in fact 500Mbit */ + } + + state->pause &= (MLO_PAUSE_RX | MLO_PAUSE_TX); + if (priv->r->get_port_reg_le(priv->r->mac_rx_pause_sts) & BIT_ULL(port)) + state->pause |= MLO_PAUSE_RX; + if (priv->r->get_port_reg_le(priv->r->mac_tx_pause_sts) & BIT_ULL(port)) + state->pause |= MLO_PAUSE_TX; + return 1; +} + +static void rtl83xx_config_interface(int port, phy_interface_t interface) +{ + u32 old, int_shift, sds_shift; + + switch (port) { + case 24: + int_shift = 0; + sds_shift = 5; + break; + case 26: + int_shift = 3; + sds_shift = 0; + break; + default: + return; + } + + old = sw_r32(RTL838X_SDS_MODE_SEL); + switch (interface) { + case PHY_INTERFACE_MODE_1000BASEX: + if ((old >> sds_shift & 0x1f) == 4) + return; + sw_w32_mask(0x7 << int_shift, 1 << int_shift, RTL838X_INT_MODE_CTRL); + sw_w32_mask(0x1f << sds_shift, 4 << sds_shift, RTL838X_SDS_MODE_SEL); + break; + case PHY_INTERFACE_MODE_SGMII: + if ((old >> sds_shift & 0x1f) == 2) + return; + sw_w32_mask(0x7 << int_shift, 2 << int_shift, RTL838X_INT_MODE_CTRL); + sw_w32_mask(0x1f << sds_shift, 2 << sds_shift, RTL838X_SDS_MODE_SEL); + break; + default: + return; + } + pr_debug("configured port %d for interface %s\n", port, phy_modes(interface)); +} + +static void rtl83xx_phylink_mac_config(struct dsa_switch *ds, int port, + unsigned int mode, + const struct phylink_link_state *state) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u32 reg; + int speed_bit = priv->family_id == RTL8380_FAMILY_ID ? 4 : 3; + + pr_debug("%s port %d, mode %x\n", __func__, port, mode); + + // BUG: Make this work on RTL93XX + if (priv->family_id >= RTL9300_FAMILY_ID) + return; + + if (port == priv->cpu_port) { + /* Set Speed, duplex, flow control + * FORCE_EN | LINK_EN | NWAY_EN | DUP_SEL + * | SPD_SEL = 0b10 | FORCE_FC_EN | PHY_MASTER_SLV_MANUAL_EN + * | MEDIA_SEL + */ + if (priv->family_id == RTL8380_FAMILY_ID) { + sw_w32(0x6192F, priv->r->mac_force_mode_ctrl(priv->cpu_port)); + /* allow CRC errors on CPU-port */ + sw_w32_mask(0, 0x8, RTL838X_MAC_PORT_CTRL(priv->cpu_port)); + } else { + sw_w32_mask(0, 3, priv->r->mac_force_mode_ctrl(priv->cpu_port)); + } + return; + } + + reg = sw_r32(priv->r->mac_force_mode_ctrl(port)); + /* Auto-Negotiation does not work for MAC in RTL8390 */ + if (priv->family_id == RTL8380_FAMILY_ID) { + if (mode == MLO_AN_PHY || phylink_autoneg_inband(mode)) { + pr_debug("PHY autonegotiates\n"); + reg |= BIT(2); + sw_w32(reg, priv->r->mac_force_mode_ctrl(port)); + rtl83xx_config_interface(port, state->interface); + return; + } + } + + if (mode != MLO_AN_FIXED) + pr_debug("Fixed state.\n"); + + if (priv->family_id == RTL8380_FAMILY_ID) { + /* Clear id_mode_dis bit, and the existing port mode, let + * RGMII_MODE_EN bet set by mac_link_{up,down} + */ + reg &= ~(RX_PAUSE_EN | TX_PAUSE_EN); + + if (state->pause & MLO_PAUSE_TXRX_MASK) { + if (state->pause & MLO_PAUSE_TX) + reg |= TX_PAUSE_EN; + reg |= RX_PAUSE_EN; + } + } + + reg &= ~(3 << speed_bit); + switch (state->speed) { + case SPEED_1000: + reg |= 2 << speed_bit; + break; + case SPEED_100: + reg |= 1 << speed_bit; + break; + } + + if (priv->family_id == RTL8380_FAMILY_ID) { + reg &= ~(DUPLEX_FULL | FORCE_LINK_EN); + if (state->link) + reg |= FORCE_LINK_EN; + if (state->duplex == DUPLEX_FULL) + reg |= DUPLX_MODE; + } + + // Disable AN + if (priv->family_id == RTL8380_FAMILY_ID) + reg &= ~BIT(2); + sw_w32(reg, priv->r->mac_force_mode_ctrl(port)); +} + +static void rtl83xx_phylink_mac_link_down(struct dsa_switch *ds, int port, + unsigned int mode, + phy_interface_t interface) +{ + struct rtl838x_switch_priv *priv = ds->priv; + /* Stop TX/RX to port */ + sw_w32_mask(0x3, 0, priv->r->mac_port_ctrl(port)); +} + +static void rtl83xx_phylink_mac_link_up(struct dsa_switch *ds, int port, + unsigned int mode, + phy_interface_t interface, + struct phy_device *phydev) +{ + struct rtl838x_switch_priv *priv = ds->priv; + /* Restart TX/RX to port */ + sw_w32_mask(0, 0x3, priv->r->mac_port_ctrl(port)); +} + +static void rtl83xx_get_strings(struct dsa_switch *ds, + int port, u32 stringset, u8 *data) +{ + int i; + + if (stringset != ETH_SS_STATS) + return; + + for (i = 0; i < ARRAY_SIZE(rtl83xx_mib); i++) + strncpy(data + i * ETH_GSTRING_LEN, rtl83xx_mib[i].name, + ETH_GSTRING_LEN); +} + +static void rtl83xx_get_ethtool_stats(struct dsa_switch *ds, int port, + uint64_t *data) +{ + struct rtl838x_switch_priv *priv = ds->priv; + const struct rtl83xx_mib_desc *mib; + int i; + u64 h; + + for (i = 0; i < ARRAY_SIZE(rtl83xx_mib); i++) { + mib = &rtl83xx_mib[i]; + + data[i] = sw_r32(priv->r->stat_port_std_mib + (port << 8) + 252 - mib->offset); + if (mib->size == 2) { + h = sw_r32(priv->r->stat_port_std_mib + (port << 8) + 248 - mib->offset); + data[i] |= h << 32; + } + } +} + +static int rtl83xx_get_sset_count(struct dsa_switch *ds, int port, int sset) +{ + if (sset != ETH_SS_STATS) + return 0; + + return ARRAY_SIZE(rtl83xx_mib); +} + +static int rtl83xx_port_enable(struct dsa_switch *ds, int port, + struct phy_device *phydev) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 v; + + pr_debug("%s: %x %d", __func__, (u32) priv, port); + priv->ports[port].enable = true; + + /* enable inner tagging on egress, do not keep any tags */ + if (priv->family_id == RTL9310_FAMILY_ID) + sw_w32(BIT(4), priv->r->vlan_port_tag_sts_ctrl + (port << 2)); + else + sw_w32(1, priv->r->vlan_port_tag_sts_ctrl + (port << 2)); + + if (dsa_is_cpu_port(ds, port)) + return 0; + + /* add port to switch mask of CPU_PORT */ + priv->r->traffic_enable(priv->cpu_port, port); + + /* add all other ports in the same bridge to switch mask of port */ + v = priv->r->traffic_get(port); + v |= priv->ports[port].pm; + priv->r->traffic_set(port, v); + + // TODO: Figure out if this is necessary + if (priv->family_id == RTL9300_FAMILY_ID) { + sw_w32_mask(0, BIT(port), RTL930X_L2_PORT_SABLK_CTRL); + sw_w32_mask(0, BIT(port), RTL930X_L2_PORT_DABLK_CTRL); + } + + return 0; +} + +static void rtl83xx_port_disable(struct dsa_switch *ds, int port) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 v; + + pr_debug("%s %x: %d", __func__, (u32)priv, port); + /* you can only disable user ports */ + if (!dsa_is_user_port(ds, port)) + return; + + // BUG: This does not work on RTL931X + /* remove port from switch mask of CPU_PORT */ + priv->r->traffic_disable(priv->cpu_port, port); + + /* remove all other ports in the same bridge from switch mask of port */ + v = priv->r->traffic_get(port); + v &= ~priv->ports[port].pm; + priv->r->traffic_set(port, v); + + priv->ports[port].enable = false; +} + +static int rtl83xx_set_mac_eee(struct dsa_switch *ds, int port, + struct ethtool_eee *e) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + if (e->eee_enabled && !priv->eee_enabled) { + pr_info("Globally enabling EEE\n"); + priv->r->init_eee(priv, true); + } + + priv->r->port_eee_set(priv, port, e->eee_enabled); + + if (e->eee_enabled) + pr_info("Enabled EEE for port %d\n", port); + else + pr_info("Disabled EEE for port %d\n", port); + return 0; +} + +static int rtl83xx_get_mac_eee(struct dsa_switch *ds, int port, + struct ethtool_eee *e) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + e->supported = SUPPORTED_100baseT_Full | SUPPORTED_1000baseT_Full; + + priv->r->eee_port_ability(priv, e, port); + + e->eee_enabled = priv->ports[port].eee_enabled; + + e->eee_active = !!(e->advertised & e->lp_advertised); + + return 0; +} + +static int rtl93xx_get_mac_eee(struct dsa_switch *ds, int port, + struct ethtool_eee *e) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + e->supported = SUPPORTED_100baseT_Full | SUPPORTED_1000baseT_Full + | SUPPORTED_2500baseX_Full; + + priv->r->eee_port_ability(priv, e, port); + + e->eee_enabled = priv->ports[port].eee_enabled; + + e->eee_active = !!(e->advertised & e->lp_advertised); + + return 0; +} + +/* + * Set Switch L2 Aging time, t is time in milliseconds + * t = 0: aging is disabled + */ +static int rtl83xx_set_l2aging(struct dsa_switch *ds, u32 t) +{ + struct rtl838x_switch_priv *priv = ds->priv; + int t_max = priv->family_id == RTL8380_FAMILY_ID ? 0x7fffff : 0x1FFFFF; + + /* Convert time in mseconds to internal value */ + if (t > 0x10000000) { /* Set to maximum */ + t = t_max; + } else { + if (priv->family_id == RTL8380_FAMILY_ID) + t = ((t * 625) / 1000 + 127) / 128; + else + t = (t * 5 + 2) / 3; + } + sw_w32(t, priv->r->l2_ctrl_1); + return 0; +} + +static int rtl83xx_port_bridge_join(struct dsa_switch *ds, int port, + struct net_device *bridge) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 port_bitmap = BIT_ULL(priv->cpu_port), v; + int i; + + pr_debug("%s %x: %d %llx", __func__, (u32)priv, port, port_bitmap); + mutex_lock(&priv->reg_mutex); + for (i = 0; i < ds->num_ports; i++) { + /* Add this port to the port matrix of the other ports in the + * same bridge. If the port is disabled, port matrix is kept + * and not being setup until the port becomes enabled. + */ + if (dsa_is_user_port(ds, i) && i != port) { + if (dsa_to_port(ds, i)->bridge_dev != bridge) + continue; + if (priv->ports[i].enable) + priv->r->traffic_enable(i, port); + + priv->ports[i].pm |= BIT_ULL(port); + port_bitmap |= BIT_ULL(i); + } + } + + /* Add all other ports to this port matrix. */ + if (priv->ports[port].enable) { + priv->r->traffic_enable(priv->cpu_port, port); + v = priv->r->traffic_get(port); + v |= port_bitmap; + priv->r->traffic_set(port, v); + } + priv->ports[port].pm |= port_bitmap; + mutex_unlock(&priv->reg_mutex); + + return 0; +} + +static void rtl83xx_port_bridge_leave(struct dsa_switch *ds, int port, + struct net_device *bridge) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 port_bitmap = BIT_ULL(priv->cpu_port), v; + int i; + + pr_debug("%s %x: %d", __func__, (u32)priv, port); + mutex_lock(&priv->reg_mutex); + for (i = 0; i < ds->num_ports; i++) { + /* Remove this port from the port matrix of the other ports + * in the same bridge. If the port is disabled, port matrix + * is kept and not being setup until the port becomes enabled. + * And the other port's port matrix cannot be broken when the + * other port is still a VLAN-aware port. + */ + if (dsa_is_user_port(ds, i) && i != port) { + if (dsa_to_port(ds, i)->bridge_dev != bridge) + continue; + if (priv->ports[i].enable) + priv->r->traffic_disable(i, port); + + priv->ports[i].pm |= BIT_ULL(port); + port_bitmap &= ~BIT_ULL(i); + } + } + + /* Add all other ports to this port matrix. */ + if (priv->ports[port].enable) { + v = priv->r->traffic_get(port); + v |= port_bitmap; + priv->r->traffic_set(port, v); + } + priv->ports[port].pm &= ~port_bitmap; + + mutex_unlock(&priv->reg_mutex); +} + +void rtl83xx_port_stp_state_set(struct dsa_switch *ds, int port, u8 state) +{ + u32 msti = 0; + u32 port_state[4]; + int index, bit; + int pos = port; + struct rtl838x_switch_priv *priv = ds->priv; + int n = priv->port_width << 1; + + /* Ports above or equal CPU port can never be configured */ + if (port >= priv->cpu_port) + return; + + mutex_lock(&priv->reg_mutex); + + /* For the RTL839x and following, the bits are left-aligned, 838x and 930x + * have 64 bit fields, 839x and 931x have 128 bit fields + */ + if (priv->family_id == RTL8390_FAMILY_ID) + pos += 12; + if (priv->family_id == RTL9300_FAMILY_ID) + pos += 3; + if (priv->family_id == RTL9310_FAMILY_ID) + pos += 8; + + index = n - (pos >> 4) - 1; + bit = (pos << 1) % 32; + + priv->r->stp_get(priv, msti, port_state); + + pr_debug("Current state, port %d: %d\n", port, (port_state[index] >> bit) & 3); + port_state[index] &= ~(3 << bit); + + switch (state) { + case BR_STATE_DISABLED: /* 0 */ + port_state[index] |= (0 << bit); + break; + case BR_STATE_BLOCKING: /* 4 */ + case BR_STATE_LISTENING: /* 1 */ + port_state[index] |= (1 << bit); + break; + case BR_STATE_LEARNING: /* 2 */ + port_state[index] |= (2 << bit); + break; + case BR_STATE_FORWARDING: /* 3*/ + port_state[index] |= (3 << bit); + default: + break; + } + + priv->r->stp_set(priv, msti, port_state); + + mutex_unlock(&priv->reg_mutex); +} + +void rtl83xx_fast_age(struct dsa_switch *ds, int port) +{ + struct rtl838x_switch_priv *priv = ds->priv; + int s = priv->family_id == RTL8390_FAMILY_ID ? 2 : 0; + + pr_debug("FAST AGE port %d\n", port); + mutex_lock(&priv->reg_mutex); + /* RTL838X_L2_TBL_FLUSH_CTRL register bits, 839x has 1 bit larger + * port fields: + * 0-4: Replacing port + * 5-9: Flushed/replaced port + * 10-21: FVID + * 22: Entry types: 1: dynamic, 0: also static + * 23: Match flush port + * 24: Match FVID + * 25: Flush (0) or replace (1) L2 entries + * 26: Status of action (1: Start, 0: Done) + */ + sw_w32(1 << (26 + s) | 1 << (23 + s) | port << (5 + (s / 2)), priv->r->l2_tbl_flush_ctrl); + + do { } while (sw_r32(priv->r->l2_tbl_flush_ctrl) & BIT(26 + s)); + + mutex_unlock(&priv->reg_mutex); +} + +void rtl930x_fast_age(struct dsa_switch *ds, int port) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + pr_debug("FAST AGE port %d\n", port); + mutex_lock(&priv->reg_mutex); + sw_w32(port << 11, RTL930X_L2_TBL_FLUSH_CTRL + 4); + + sw_w32(BIT(26) | BIT(30), RTL930X_L2_TBL_FLUSH_CTRL); + + do { } while (sw_r32(priv->r->l2_tbl_flush_ctrl) & BIT(30)); + + mutex_unlock(&priv->reg_mutex); +} + +static int rtl83xx_vlan_filtering(struct dsa_switch *ds, int port, + bool vlan_filtering) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + pr_debug("%s: port %d\n", __func__, port); + mutex_lock(&priv->reg_mutex); + + if (vlan_filtering) { + /* Enable ingress and egress filtering + * The VLAN_PORT_IGR_FILTER register uses 2 bits for each port to define + * the filter action: + * 0: Always Forward + * 1: Drop packet + * 2: Trap packet to CPU port + * The Egress filter used 1 bit per state (0: DISABLED, 1: ENABLED) + */ + if (port != priv->cpu_port) + sw_w32_mask(0b10 << ((port % 16) << 1), 0b01 << ((port % 16) << 1), + priv->r->vlan_port_igr_filter + ((port >> 5) << 2)); + sw_w32_mask(0, BIT(port % 32), priv->r->vlan_port_egr_filter + ((port >> 4) << 2)); + } else { + /* Disable ingress and egress filtering */ + if (port != priv->cpu_port) + sw_w32_mask(0b11 << ((port % 16) << 1), 0, + priv->r->vlan_port_igr_filter + ((port >> 5) << 2)); + sw_w32_mask(BIT(port % 32), 0, priv->r->vlan_port_egr_filter + ((port >> 4) << 2)); + } + + /* Do we need to do something to the CPU-Port, too? */ + mutex_unlock(&priv->reg_mutex); + + return 0; +} + +static int rtl83xx_vlan_prepare(struct dsa_switch *ds, int port, + const struct switchdev_obj_port_vlan *vlan) +{ + struct rtl838x_vlan_info info; + struct rtl838x_switch_priv *priv = ds->priv; + + priv->r->vlan_tables_read(0, &info); + + pr_debug("VLAN 0: Tagged ports %llx, untag %llx, profile %d, MC# %d, UC# %d, FID %x\n", + info.tagged_ports, info.untagged_ports, info.profile_id, + info.hash_mc_fid, info.hash_uc_fid, info.fid); + + priv->r->vlan_tables_read(1, &info); + pr_debug("VLAN 1: Tagged ports %llx, untag %llx, profile %d, MC# %d, UC# %d, FID %x\n", + info.tagged_ports, info.untagged_ports, info.profile_id, + info.hash_mc_fid, info.hash_uc_fid, info.fid); + priv->r->vlan_set_untagged(1, info.untagged_ports); + pr_debug("SET: Untagged ports, VLAN %d: %llx\n", 1, info.untagged_ports); + + priv->r->vlan_set_tagged(1, &info); + pr_debug("SET: Tagged ports, VLAN %d: %llx\n", 1, info.tagged_ports); + + mutex_unlock(&priv->reg_mutex); + return 0; +} + +static void rtl83xx_vlan_add(struct dsa_switch *ds, int port, + const struct switchdev_obj_port_vlan *vlan) +{ + struct rtl838x_vlan_info info; + struct rtl838x_switch_priv *priv = ds->priv; + int v; + + pr_debug("%s port %d, vid_end %d, vid_end %d, flags %x\n", __func__, + port, vlan->vid_begin, vlan->vid_end, vlan->flags); + + if (vlan->vid_begin > 4095 || vlan->vid_end > 4095) { + dev_err(priv->dev, "VLAN out of range: %d - %d", + vlan->vid_begin, vlan->vid_end); + return; + } + + mutex_lock(&priv->reg_mutex); + + if (vlan->flags & BRIDGE_VLAN_INFO_PVID) { + for (v = vlan->vid_begin; v <= vlan->vid_end; v++) { + if (!v) + continue; + /* Set both inner and outer PVID of the port */ + sw_w32((v << 16) | v << 2, priv->r->vlan_port_pb + (port << 2)); + priv->ports[port].pvid = vlan->vid_end; + } + } + + for (v = vlan->vid_begin; v <= vlan->vid_end; v++) { + /* Get port memberships of this vlan */ + priv->r->vlan_tables_read(v, &info); + + /* new VLAN? */ + if (!info.tagged_ports) { + info.fid = 0; + info.hash_mc_fid = false; + info.hash_uc_fid = false; + info.profile_id = 0; + } + + /* sanitize untagged_ports - must be a subset */ + if (info.untagged_ports & ~info.tagged_ports) + info.untagged_ports = 0; + + info.tagged_ports |= BIT_ULL(port); + if (vlan->flags & BRIDGE_VLAN_INFO_UNTAGGED) + info.untagged_ports |= BIT_ULL(port); + + priv->r->vlan_set_untagged(v, info.untagged_ports); + pr_debug("Untagged ports, VLAN %d: %llx\n", v, info.untagged_ports); + + priv->r->vlan_set_tagged(v, &info); + pr_debug("Tagged ports, VLAN %d: %llx\n", v, info.tagged_ports); + } + + mutex_unlock(&priv->reg_mutex); +} + +static int rtl83xx_vlan_del(struct dsa_switch *ds, int port, + const struct switchdev_obj_port_vlan *vlan) +{ + struct rtl838x_vlan_info info; + struct rtl838x_switch_priv *priv = ds->priv; + int v; + u16 pvid; + + pr_debug("%s: port %d, vid_end %d, vid_end %d, flags %x\n", __func__, + port, vlan->vid_begin, vlan->vid_end, vlan->flags); + + if (vlan->vid_begin > 4095 || vlan->vid_end > 4095) { + dev_err(priv->dev, "VLAN out of range: %d - %d", + vlan->vid_begin, vlan->vid_end); + return -ENOTSUPP; + } + + mutex_lock(&priv->reg_mutex); + pvid = priv->ports[port].pvid; + + for (v = vlan->vid_begin; v <= vlan->vid_end; v++) { + /* Reset to default if removing the current PVID */ + if (v == pvid) + sw_w32(0, priv->r->vlan_port_pb + (port << 2)); + + /* Get port memberships of this vlan */ + priv->r->vlan_tables_read(v, &info); + + /* remove port from both tables */ + info.untagged_ports &= (~BIT_ULL(port)); + info.tagged_ports &= (~BIT_ULL(port)); + + priv->r->vlan_set_untagged(v, info.untagged_ports); + pr_debug("Untagged ports, VLAN %d: %llx\n", v, info.untagged_ports); + + priv->r->vlan_set_tagged(v, &info); + pr_debug("Tagged ports, VLAN %d: %llx\n", v, info.tagged_ports); + } + mutex_unlock(&priv->reg_mutex); + + return 0; +} + +static void dump_l2_entry(struct rtl838x_l2_entry *e) +{ + pr_info("MAC: %02x:%02x:%02x:%02x:%02x:%02x vid: %d, rvid: %d, port: %d, valid: %d\n", + e->mac[0], e->mac[1], e->mac[2], e->mac[3], e->mac[4], e->mac[5], + e->vid, e->rvid, e->port, e->valid); + + if (e->type != L2_MULTICAST) { + pr_info("Type: %d, is_static: %d, is_ip_mc: %d, is_ipv6_mc: %d, block_da: %d\n", + e->type, e->is_static, e->is_ip_mc, e->is_ipv6_mc, e->block_da); + pr_info(" block_sa: %d, susp: %d, nh: %d, age: %d, is_trunk: %d, trunk: %d\n", + e->block_sa, e->suspended, e->next_hop, e->age, e->is_trunk, e->trunk); + } + if (e->type == L2_MULTICAST) + pr_info(" L2_MULTICAST mc_portmask_index: %d\n", e->mc_portmask_index); + if (e->is_ip_mc || e->is_ipv6_mc) + pr_info(" mc_portmask_index: %d, mc_gip: %d, mc_sip: %d\n", + e->mc_portmask_index, e->mc_gip, e->mc_sip); + pr_info(" stack_dev: %d\n", e->stack_dev); + if (e->next_hop) + pr_info(" nh_route_id: %d\n", e->nh_route_id); +} + +static void rtl83xx_setup_l2_uc_entry(struct rtl838x_l2_entry *e, int port, int vid, u64 mac) +{ + e->is_ip_mc = e->is_ipv6_mc = false; + e->valid = true; + e->age = 3; + e->port = port, + e->vid = vid; + u64_to_ether_addr(mac, e->mac); +} + +static void rtl83xx_setup_l2_mc_entry(struct rtl838x_switch_priv *priv, + struct rtl838x_l2_entry *e, int vid, u64 mac, int mc_group) +{ + e->is_ip_mc = e->is_ipv6_mc = false; + e->valid = true; + e->mc_portmask_index = mc_group; + e->type = L2_MULTICAST; + e->rvid = e->vid = vid; + pr_debug("%s: vid: %d, rvid: %d\n", __func__, e->vid, e->rvid); + u64_to_ether_addr(mac, e->mac); +} + +/* + * Uses the seed to identify a hash bucket in the L2 using the derived hash key and then loops + * over the entries in the bucket until either a matching entry is found or an empty slot + * Returns the filled in rtl838x_l2_entry and the index in the bucket when an entry was found + * when an empty slot was found and must exist is false, the index of the slot is returned + * when no slots are available returns -1 + */ +static int rtl83xx_find_l2_hash_entry(struct rtl838x_switch_priv *priv, u64 seed, + bool must_exist, struct rtl838x_l2_entry *e) +{ + int i, idx = -1; + u32 key = priv->r->l2_hash_key(priv, seed); + u64 entry; + + pr_debug("%s: using key %x, for seed %016llx\n", __func__, key, seed); + // Loop over all entries in the hash-bucket and over the second block on 93xx SoCs + for (i = 0; i < priv->l2_bucket_size; i++) { + entry = priv->r->read_l2_entry_using_hash(key, i, e); + pr_debug("valid %d, mac %016llx\n", e->valid, ether_addr_to_u64(&e->mac[0])); + if (must_exist && !e->valid) + continue; + if (!e->valid || ((entry & 0x0fffffffffffffffULL) == seed)) { + idx = i > 3 ? ((key >> 14) & 0xffff) | i >> 1 : ((key << 2) | i) & 0xffff; + break; + } + } + + return idx; +} + +/* + * Uses the seed to identify an entry in the CAM by looping over all its entries + * Returns the filled in rtl838x_l2_entry and the index in the CAM when an entry was found + * when an empty slot was found the index of the slot is returned + * when no slots are available returns -1 + */ +static int rtl83xx_find_l2_cam_entry(struct rtl838x_switch_priv *priv, u64 seed, + bool must_exist, struct rtl838x_l2_entry *e) +{ + int i, idx = -1; + u64 entry; + + for (i = 0; i < 64; i++) { + entry = priv->r->read_cam(i, e); + if (!must_exist && !e->valid) { + if (idx < 0) /* First empty entry? */ + idx = i; + break; + } else if ((entry & 0x0fffffffffffffffULL) == seed) { + pr_debug("Found entry in CAM\n"); + idx = i; + break; + } + } + return idx; +} + +static int rtl83xx_port_fdb_add(struct dsa_switch *ds, int port, + const unsigned char *addr, u16 vid) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 mac = ether_addr_to_u64(addr); + struct rtl838x_l2_entry e; + int err = 0, idx; + u64 seed = priv->r->l2_hash_seed(mac, vid); + + mutex_lock(&priv->reg_mutex); + + idx = rtl83xx_find_l2_hash_entry(priv, seed, false, &e); + + // Found an existing or empty entry + if (idx >= 0) { + rtl83xx_setup_l2_uc_entry(&e, port, vid, mac); + priv->r->write_l2_entry_using_hash(idx >> 2, idx & 0x3, &e); + goto out; + } + + // Hash buckets full, try CAM + rtl83xx_find_l2_cam_entry(priv, seed, false, &e); + + if (idx >= 0) { + rtl83xx_setup_l2_uc_entry(&e, port, vid, mac); + priv->r->write_cam(idx, &e); + goto out; + } + + err = -ENOTSUPP; +out: + mutex_unlock(&priv->reg_mutex); + return err; +} + +static int rtl83xx_port_fdb_del(struct dsa_switch *ds, int port, + const unsigned char *addr, u16 vid) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 mac = ether_addr_to_u64(addr); + struct rtl838x_l2_entry e; + int err = 0, idx; + u64 seed = priv->r->l2_hash_seed(mac, vid); + + pr_info("In %s, mac %llx, vid: %d\n", __func__, mac, vid); + mutex_lock(&priv->reg_mutex); + + idx = rtl83xx_find_l2_hash_entry(priv, seed, true, &e); + + pr_info("Found entry index %d, key %d and bucket %d\n", idx, idx >> 2, idx & 3); + if (idx >= 0) { + e.valid = false; + dump_l2_entry(&e); + priv->r->write_l2_entry_using_hash(idx >> 2, idx & 0x3, &e); + goto out; + } + + /* Check CAM for spillover from hash buckets */ + rtl83xx_find_l2_cam_entry(priv, seed, true, &e); + + if (idx >= 0) { + e.valid = false; + priv->r->write_cam(idx, &e); + goto out; + } + err = -ENOENT; +out: + mutex_unlock(&priv->reg_mutex); + return err; +} + +static int rtl83xx_port_fdb_dump(struct dsa_switch *ds, int port, + dsa_fdb_dump_cb_t *cb, void *data) +{ + struct rtl838x_l2_entry e; + struct rtl838x_switch_priv *priv = ds->priv; + int i; + u32 fid, pkey; + u64 mac; + + mutex_lock(&priv->reg_mutex); + + for (i = 0; i < priv->fib_entries; i++) { + priv->r->read_l2_entry_using_hash(i >> 2, i & 0x3, &e); + + if (!e.valid) + continue; + + if (e.port == port) { + fid = ((i >> 2) & 0x3ff) | (e.rvid & ~0x3ff); + mac = ether_addr_to_u64(&e.mac[0]); + pkey = priv->r->l2_hash_key(priv, priv->r->l2_hash_seed(mac, fid)); + fid = (pkey & 0x3ff) | (fid & ~0x3ff); + pr_info("-> index %d, key %x, bucket %d, dmac %016llx, fid: %x rvid: %x\n", + i, i >> 2, i & 0x3, mac, fid, e.rvid); + dump_l2_entry(&e); + u64 seed = priv->r->l2_hash_seed(mac, e.rvid); + u32 key = priv->r->l2_hash_key(priv, seed); + pr_info("seed: %016llx, key based on rvid: %08x\n", seed, key); + cb(e.mac, e.vid, e.is_static, data); + } + if (e.type == L2_MULTICAST) { + u64 portmask = priv->r->read_mcast_pmask(e.mc_portmask_index); + if (portmask & BIT_ULL(port)) { + dump_l2_entry(&e); + pr_info(" PM: %016llx\n", portmask); + } + } + } + + for (i = 0; i < 64; i++) { + priv->r->read_cam(i, &e); + + if (!e.valid) + continue; + + if (e.port == port) + cb(e.mac, e.vid, e.is_static, data); + } + + mutex_unlock(&priv->reg_mutex); + return 0; +} + +static int rtl83xx_port_mdb_prepare(struct dsa_switch *ds, int port, + const struct switchdev_obj_port_mdb *mdb) +{ + struct rtl838x_switch_priv *priv = ds->priv; + + if (priv->id >= 0x9300) + return -EOPNOTSUPP; + + return 0; +} + +static int rtl83xx_mc_group_alloc(struct rtl838x_switch_priv *priv, int port) +{ + int mc_group = find_first_zero_bit(priv->mc_group_bm, MAX_MC_GROUPS - 1); + u64 portmask; + + if (mc_group >= MAX_MC_GROUPS - 1) + return -1; + + pr_debug("Using MC group %d\n", mc_group); + set_bit(mc_group, priv->mc_group_bm); + mc_group++; // We cannot use group 0, as this is used for lookup miss flooding + portmask = BIT_ULL(port); + priv->r->write_mcast_pmask(mc_group, portmask); + + return mc_group; +} + +static u64 rtl83xx_mc_group_add_port(struct rtl838x_switch_priv *priv, int mc_group, int port) +{ + u64 portmask = priv->r->read_mcast_pmask(mc_group); + + portmask |= BIT_ULL(port); + priv->r->write_mcast_pmask(mc_group, portmask); + + return portmask; +} + +static u64 rtl83xx_mc_group_del_port(struct rtl838x_switch_priv *priv, int mc_group, int port) +{ + u64 portmask = priv->r->read_mcast_pmask(mc_group); + + portmask &= ~BIT_ULL(port); + priv->r->write_mcast_pmask(mc_group, portmask); + if (!portmask) + clear_bit(mc_group, priv->mc_group_bm); + + return portmask; +} + +static void rtl83xx_port_mdb_add(struct dsa_switch *ds, int port, + const struct switchdev_obj_port_mdb *mdb) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 mac = ether_addr_to_u64(mdb->addr); + struct rtl838x_l2_entry e; + int err = 0, idx; + int vid = mdb->vid; + u64 seed = priv->r->l2_hash_seed(mac, vid); + int mc_group; + + pr_debug("In %s port %d, mac %llx, vid: %d\n", __func__, port, mac, vid); + mutex_lock(&priv->reg_mutex); + + idx = rtl83xx_find_l2_hash_entry(priv, seed, false, &e); + + // Found an existing or empty entry + if (idx >= 0) { + if (e.valid) { + pr_debug("Found an existing entry %016llx, mc_group %d\n", + ether_addr_to_u64(e.mac), e.mc_portmask_index); + rtl83xx_mc_group_add_port(priv, e.mc_portmask_index, port); + } else { + pr_debug("New entry for seed %016llx\n", seed); + mc_group = rtl83xx_mc_group_alloc(priv, port); + if (mc_group < 0) { + err = -ENOTSUPP; + goto out; + } + rtl83xx_setup_l2_mc_entry(priv, &e, vid, mac, mc_group); + priv->r->write_l2_entry_using_hash(idx >> 2, idx & 0x3, &e); + } + goto out; + } + + // Hash buckets full, try CAM + rtl83xx_find_l2_cam_entry(priv, seed, false, &e); + + if (idx >= 0) { + if (e.valid) { + pr_debug("Found existing CAM entry %016llx, mc_group %d\n", + ether_addr_to_u64(e.mac), e.mc_portmask_index); + rtl83xx_mc_group_add_port(priv, e.mc_portmask_index, port); + } else { + pr_debug("New entry\n"); + mc_group = rtl83xx_mc_group_alloc(priv, port); + if (mc_group < 0) { + err = -ENOTSUPP; + goto out; + } + rtl83xx_setup_l2_mc_entry(priv, &e, vid, mac, mc_group); + priv->r->write_cam(idx, &e); + } + goto out; + } + + err = -ENOTSUPP; +out: + mutex_unlock(&priv->reg_mutex); + if (err) + dev_err(ds->dev, "failed to add MDB entry\n"); +} + +int rtl83xx_port_mdb_del(struct dsa_switch *ds, int port, + const struct switchdev_obj_port_mdb *mdb) +{ + struct rtl838x_switch_priv *priv = ds->priv; + u64 mac = ether_addr_to_u64(mdb->addr); + struct rtl838x_l2_entry e; + int err = 0, idx; + int vid = mdb->vid; + u64 seed = priv->r->l2_hash_seed(mac, vid); + u64 portmask; + + pr_debug("In %s, port %d, mac %llx, vid: %d\n", __func__, port, mac, vid); + mutex_lock(&priv->reg_mutex); + + idx = rtl83xx_find_l2_hash_entry(priv, seed, true, &e); + + pr_debug("Found entry index %d, key %d and bucket %d\n", idx, idx >> 2, idx & 3); + if (idx >= 0) { + portmask = rtl83xx_mc_group_del_port(priv, e.mc_portmask_index, port); + if (!portmask) { + e.valid = false; + // dump_l2_entry(&e); + priv->r->write_l2_entry_using_hash(idx >> 2, idx & 0x3, &e); + } + goto out; + } + + /* Check CAM for spillover from hash buckets */ + rtl83xx_find_l2_cam_entry(priv, seed, true, &e); + + if (idx >= 0) { + portmask = rtl83xx_mc_group_del_port(priv, e.mc_portmask_index, port); + if (!portmask) { + e.valid = false; + // dump_l2_entry(&e); + priv->r->write_cam(idx, &e); + } + goto out; + } + // TODO: Re-enable with a newer kernel: err = -ENOENT; +out: + mutex_unlock(&priv->reg_mutex); + return err; +} + +static int rtl83xx_port_mirror_add(struct dsa_switch *ds, int port, + struct dsa_mall_mirror_tc_entry *mirror, + bool ingress) +{ + /* We support 4 mirror groups, one destination port per group */ + int group; + struct rtl838x_switch_priv *priv = ds->priv; + int ctrl_reg, dpm_reg, spm_reg; + + pr_debug("In %s\n", __func__); + + for (group = 0; group < 4; group++) { + if (priv->mirror_group_ports[group] == mirror->to_local_port) + break; + } + if (group >= 4) { + for (group = 0; group < 4; group++) { + if (priv->mirror_group_ports[group] < 0) + break; + } + } + + if (group >= 4) + return -ENOSPC; + + ctrl_reg = priv->r->mir_ctrl + group * 4; + dpm_reg = priv->r->mir_dpm + group * 4 * priv->port_width; + spm_reg = priv->r->mir_spm + group * 4 * priv->port_width; + + pr_debug("Using group %d\n", group); + mutex_lock(&priv->reg_mutex); + + if (priv->family_id == RTL8380_FAMILY_ID) { + /* Enable mirroring to port across VLANs (bit 11) */ + sw_w32(1 << 11 | (mirror->to_local_port << 4) | 1, ctrl_reg); + } else { + /* Enable mirroring to destination port */ + sw_w32((mirror->to_local_port << 4) | 1, ctrl_reg); + } + + if (ingress && (priv->r->get_port_reg_be(spm_reg) & (1ULL << port))) { + mutex_unlock(&priv->reg_mutex); + return -EEXIST; + } + if ((!ingress) && (priv->r->get_port_reg_be(dpm_reg) & (1ULL << port))) { + mutex_unlock(&priv->reg_mutex); + return -EEXIST; + } + + if (ingress) + priv->r->mask_port_reg_be(0, 1ULL << port, spm_reg); + else + priv->r->mask_port_reg_be(0, 1ULL << port, dpm_reg); + + priv->mirror_group_ports[group] = mirror->to_local_port; + mutex_unlock(&priv->reg_mutex); + return 0; +} + +static void rtl83xx_port_mirror_del(struct dsa_switch *ds, int port, + struct dsa_mall_mirror_tc_entry *mirror) +{ + int group = 0; + struct rtl838x_switch_priv *priv = ds->priv; + int ctrl_reg, dpm_reg, spm_reg; + + pr_debug("In %s\n", __func__); + for (group = 0; group < 4; group++) { + if (priv->mirror_group_ports[group] == mirror->to_local_port) + break; + } + if (group >= 4) + return; + + ctrl_reg = priv->r->mir_ctrl + group * 4; + dpm_reg = priv->r->mir_dpm + group * 4 * priv->port_width; + spm_reg = priv->r->mir_spm + group * 4 * priv->port_width; + + mutex_lock(&priv->reg_mutex); + if (mirror->ingress) { + /* Ingress, clear source port matrix */ + priv->r->mask_port_reg_be(1ULL << port, 0, spm_reg); + } else { + /* Egress, clear destination port matrix */ + priv->r->mask_port_reg_be(1ULL << port, 0, dpm_reg); + } + + if (!(sw_r32(spm_reg) || sw_r32(dpm_reg))) { + priv->mirror_group_ports[group] = -1; + sw_w32(0, ctrl_reg); + } + + mutex_unlock(&priv->reg_mutex); +} + +int dsa_phy_read(struct dsa_switch *ds, int phy_addr, int phy_reg) +{ + u32 val; + u32 offset = 0; + struct rtl838x_switch_priv *priv = ds->priv; + + if (phy_addr >= 24 && phy_addr <= 27 + && priv->ports[24].phy == PHY_RTL838X_SDS) { + if (phy_addr == 26) + offset = 0x100; + val = sw_r32(RTL838X_SDS4_FIB_REG0 + offset + (phy_reg << 2)) & 0xffff; + return val; + } + + read_phy(phy_addr, 0, phy_reg, &val); + return val; +} + +int dsa_phy_write(struct dsa_switch *ds, int phy_addr, int phy_reg, u16 val) +{ + u32 offset = 0; + struct rtl838x_switch_priv *priv = ds->priv; + + if (phy_addr >= 24 && phy_addr <= 27 + && priv->ports[24].phy == PHY_RTL838X_SDS) { + if (phy_addr == 26) + offset = 0x100; + sw_w32(val, RTL838X_SDS4_FIB_REG0 + offset + (phy_reg << 2)); + return 0; + } + return write_phy(phy_addr, 0, phy_reg, val); +} + +const struct dsa_switch_ops rtl83xx_switch_ops = { + .get_tag_protocol = rtl83xx_get_tag_protocol, + .setup = rtl83xx_setup, + + .phy_read = dsa_phy_read, + .phy_write = dsa_phy_write, + + .phylink_validate = rtl83xx_phylink_validate, + .phylink_mac_link_state = rtl83xx_phylink_mac_link_state, + .phylink_mac_config = rtl83xx_phylink_mac_config, + .phylink_mac_link_down = rtl83xx_phylink_mac_link_down, + .phylink_mac_link_up = rtl83xx_phylink_mac_link_up, + + .get_strings = rtl83xx_get_strings, + .get_ethtool_stats = rtl83xx_get_ethtool_stats, + .get_sset_count = rtl83xx_get_sset_count, + + .port_enable = rtl83xx_port_enable, + .port_disable = rtl83xx_port_disable, + + .get_mac_eee = rtl83xx_get_mac_eee, + .set_mac_eee = rtl83xx_set_mac_eee, + + .set_ageing_time = rtl83xx_set_l2aging, + .port_bridge_join = rtl83xx_port_bridge_join, + .port_bridge_leave = rtl83xx_port_bridge_leave, + .port_stp_state_set = rtl83xx_port_stp_state_set, + .port_fast_age = rtl83xx_fast_age, + + .port_vlan_filtering = rtl83xx_vlan_filtering, + .port_vlan_prepare = rtl83xx_vlan_prepare, + .port_vlan_add = rtl83xx_vlan_add, + .port_vlan_del = rtl83xx_vlan_del, + + .port_fdb_add = rtl83xx_port_fdb_add, + .port_fdb_del = rtl83xx_port_fdb_del, + .port_fdb_dump = rtl83xx_port_fdb_dump, + + .port_mdb_prepare = rtl83xx_port_mdb_prepare, + .port_mdb_add = rtl83xx_port_mdb_add, + .port_mdb_del = rtl83xx_port_mdb_del, + + .port_mirror_add = rtl83xx_port_mirror_add, + .port_mirror_del = rtl83xx_port_mirror_del, +}; + +const struct dsa_switch_ops rtl930x_switch_ops = { + .get_tag_protocol = rtl83xx_get_tag_protocol, + .setup = rtl930x_setup, + + .phy_read = dsa_phy_read, + .phy_write = dsa_phy_write, + + .phylink_validate = rtl83xx_phylink_validate, + .phylink_mac_link_state = rtl83xx_phylink_mac_link_state, + .phylink_mac_config = rtl83xx_phylink_mac_config, + .phylink_mac_link_down = rtl83xx_phylink_mac_link_down, + .phylink_mac_link_up = rtl83xx_phylink_mac_link_up, + + .get_strings = rtl83xx_get_strings, + .get_ethtool_stats = rtl83xx_get_ethtool_stats, + .get_sset_count = rtl83xx_get_sset_count, + + .port_enable = rtl83xx_port_enable, + .port_disable = rtl83xx_port_disable, + + .get_mac_eee = rtl93xx_get_mac_eee, + .set_mac_eee = rtl83xx_set_mac_eee, + + .set_ageing_time = rtl83xx_set_l2aging, + .port_bridge_join = rtl83xx_port_bridge_join, + .port_bridge_leave = rtl83xx_port_bridge_leave, + .port_stp_state_set = rtl83xx_port_stp_state_set, + .port_fast_age = rtl930x_fast_age, + + .port_vlan_filtering = rtl83xx_vlan_filtering, + .port_vlan_prepare = rtl83xx_vlan_prepare, + .port_vlan_add = rtl83xx_vlan_add, + .port_vlan_del = rtl83xx_vlan_del, + + .port_fdb_add = rtl83xx_port_fdb_add, + .port_fdb_del = rtl83xx_port_fdb_del, + .port_fdb_dump = rtl83xx_port_fdb_dump, + + .port_mdb_prepare = rtl83xx_port_mdb_prepare, + .port_mdb_add = rtl83xx_port_mdb_add, + .port_mdb_del = rtl83xx_port_mdb_del, + +}; diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/qos.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/qos.c new file mode 100644 index 0000000000..2fc8d37f3e --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/qos.c @@ -0,0 +1,576 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include + +#include +#include "rtl83xx.h" + +static struct rtl838x_switch_priv *switch_priv; +extern struct rtl83xx_soc_info soc_info; + +enum scheduler_type { + WEIGHTED_FAIR_QUEUE = 0, + WEIGHTED_ROUND_ROBIN, +}; + +int max_available_queue[] = {0, 1, 2, 3, 4, 5, 6, 7}; +int default_queue_weights[] = {1, 1, 1, 1, 1, 1, 1, 1}; +int dot1p_priority_remapping[] = {0, 1, 2, 3, 4, 5, 6, 7}; + +static void rtl839x_read_scheduling_table(int port) +{ + u32 cmd = 1 << 9 /* Execute cmd */ + | 0 << 8 /* Read */ + | 0 << 6 /* Table type 0b00 */ + | (port & 0x3f); + rtl839x_exec_tbl2_cmd(cmd); +} + +static void rtl839x_write_scheduling_table(int port) +{ + u32 cmd = 1 << 9 /* Execute cmd */ + | 1 << 8 /* Write */ + | 0 << 6 /* Table type 0b00 */ + | (port & 0x3f); + rtl839x_exec_tbl2_cmd(cmd); +} + +static void rtl839x_read_out_q_table(int port) +{ + u32 cmd = 1 << 9 /* Execute cmd */ + | 0 << 8 /* Read */ + | 2 << 6 /* Table type 0b10 */ + | (port & 0x3f); + rtl839x_exec_tbl2_cmd(cmd); +} + +static void rtl838x_storm_enable(struct rtl838x_switch_priv *priv, int port, bool enable) +{ + // Enable Storm control for that port for UC, MC, and BC + if (enable) + sw_w32(0x7, RTL838X_STORM_CTRL_LB_CTRL(port)); + else + sw_w32(0x0, RTL838X_STORM_CTRL_LB_CTRL(port)); +} + +u32 rtl838x_get_egress_rate(struct rtl838x_switch_priv *priv, int port) +{ + u32 rate; + + if (port > priv->cpu_port) + return 0; + rate = sw_r32(RTL838X_SCHED_P_EGR_RATE_CTRL(port)) & 0x3fff; + return rate; +} + +/* Sets the rate limit, 10MBit/s is equal to a rate value of 625 */ +int rtl838x_set_egress_rate(struct rtl838x_switch_priv *priv, int port, u32 rate) +{ + u32 old_rate; + + if (port > priv->cpu_port) + return -1; + + old_rate = sw_r32(RTL838X_SCHED_P_EGR_RATE_CTRL(port)); + sw_w32(rate, RTL838X_SCHED_P_EGR_RATE_CTRL(port)); + + return old_rate; +} + +/* Set the rate limit for a particular queue in Bits/s + * units of the rate is 16Kbps + */ +void rtl838x_egress_rate_queue_limit(struct rtl838x_switch_priv *priv, int port, + int queue, u32 rate) +{ + if (port > priv->cpu_port) + return; + if (queue > 7) + return; + sw_w32(rate, RTL838X_SCHED_Q_EGR_RATE_CTRL(port, queue)); +} + +static void rtl838x_rate_control_init(struct rtl838x_switch_priv *priv) +{ + int i; + + pr_info("Enabling Storm control\n"); + // TICK_PERIOD_PPS + if (priv->id == 0x8380) + sw_w32_mask(0x3ff << 20, 434 << 20, RTL838X_SCHED_LB_TICK_TKN_CTRL_0); + + // Set burst rate + sw_w32(0x00008000, RTL838X_STORM_CTRL_BURST_0); // UC + sw_w32(0x80008000, RTL838X_STORM_CTRL_BURST_1); // MC and BC + + // Set burst Packets per Second to 32 + sw_w32(0x00000020, RTL838X_STORM_CTRL_BURST_PPS_0); // UC + sw_w32(0x00200020, RTL838X_STORM_CTRL_BURST_PPS_1); // MC and BC + + // Include IFG in storm control, rate based on bytes/s (0 = packets) + sw_w32_mask(0, 1 << 6 | 1 << 5, RTL838X_STORM_CTRL); + // Bandwidth control includes preamble and IFG (10 Bytes) + sw_w32_mask(0, 1, RTL838X_SCHED_CTRL); + + // On SoCs except RTL8382M, set burst size of port egress + if (priv->id != 0x8382) + sw_w32_mask(0xffff, 0x800, RTL838X_SCHED_LB_THR); + + /* Enable storm control on all ports with a PHY and limit rates, + * for UC and MC for both known and unknown addresses */ + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) { + sw_w32((1 << 18) | 0x8000, RTL838X_STORM_CTRL_PORT_UC(i)); + sw_w32((1 << 18) | 0x8000, RTL838X_STORM_CTRL_PORT_MC(i)); + sw_w32(0x8000, RTL838X_STORM_CTRL_PORT_BC(i)); + rtl838x_storm_enable(priv, i, true); + } + } + + // Attack prevention, enable all attack prevention measures + //sw_w32(0x1ffff, RTL838X_ATK_PRVNT_CTRL); + /* Attack prevention, drop (bit = 0) problematic packets on all ports. + * Setting bit = 1 means: trap to CPU + */ + //sw_w32(0, RTL838X_ATK_PRVNT_ACT); + // Enable attack prevention on all ports + //sw_w32(0x0fffffff, RTL838X_ATK_PRVNT_PORT_EN); +} + +/* Sets the rate limit, 10MBit/s is equal to a rate value of 625 */ +u32 rtl839x_get_egress_rate(struct rtl838x_switch_priv *priv, int port) +{ + u32 rate; + + pr_debug("%s: Getting egress rate on port %d to %d\n", __func__, port, rate); + if (port >= priv->cpu_port) + return 0; + + mutex_lock(&priv->reg_mutex); + + rtl839x_read_scheduling_table(port); + + rate = sw_r32(RTL839X_TBL_ACCESS_DATA_2(7)); + rate <<= 12; + rate |= sw_r32(RTL839X_TBL_ACCESS_DATA_2(8)) >> 20; + + mutex_unlock(&priv->reg_mutex); + + return rate; +} + +/* Sets the rate limit, 10MBit/s is equal to a rate value of 625, returns previous rate */ +int rtl839x_set_egress_rate(struct rtl838x_switch_priv *priv, int port, u32 rate) +{ + u32 old_rate; + + pr_debug("%s: Setting egress rate on port %d to %d\n", __func__, port, rate); + if (port >= priv->cpu_port) + return -1; + + mutex_lock(&priv->reg_mutex); + + rtl839x_read_scheduling_table(port); + + old_rate = sw_r32(RTL839X_TBL_ACCESS_DATA_2(7)) & 0xff; + old_rate <<= 12; + old_rate |= sw_r32(RTL839X_TBL_ACCESS_DATA_2(8)) >> 20; + sw_w32_mask(0xff, (rate >> 12) & 0xff, RTL839X_TBL_ACCESS_DATA_2(7)); + sw_w32_mask(0xfff << 20, rate << 20, RTL839X_TBL_ACCESS_DATA_2(8)); + + rtl839x_write_scheduling_table(port); + + mutex_unlock(&priv->reg_mutex); + + return old_rate; +} + +/* Set the rate limit for a particular queue in Bits/s + * units of the rate is 16Kbps + */ +void rtl839x_egress_rate_queue_limit(struct rtl838x_switch_priv *priv, int port, + int queue, u32 rate) +{ + int lsb = 128 + queue * 20; + int low_byte = 8 - (lsb >> 5); + int start_bit = lsb - (low_byte << 5); + u32 high_mask = 0xfffff >> (32 - start_bit); + + pr_debug("%s: Setting egress rate on port %d, queue %d to %d\n", + __func__, port, queue, rate); + if (port >= priv->cpu_port) + return; + if (queue > 7) + return; + + mutex_lock(&priv->reg_mutex); + + rtl839x_read_scheduling_table(port); + + sw_w32_mask(0xfffff << start_bit, (rate & 0xfffff) << start_bit, + RTL839X_TBL_ACCESS_DATA_2(low_byte)); + if (high_mask) + sw_w32_mask(high_mask, (rate & 0xfffff) >> (32- start_bit), + RTL839X_TBL_ACCESS_DATA_2(low_byte - 1)); + + rtl839x_write_scheduling_table(port); + + mutex_unlock(&priv->reg_mutex); +} + +static void rtl839x_rate_control_init(struct rtl838x_switch_priv *priv) +{ + int p, q; + + pr_info("%s: enabling rate control\n", __func__); + /* Tick length and token size settings for SoC with 250MHz, + * RTL8350 family would use 50MHz + */ + // Set the special tick period + sw_w32(976563, RTL839X_STORM_CTRL_SPCL_LB_TICK_TKN_CTRL); + // Ingress tick period and token length 10G + sw_w32(18 << 11 | 151, RTL839X_IGR_BWCTRL_LB_TICK_TKN_CTRL_0); + // Ingress tick period and token length 1G + sw_w32(245 << 11 | 129, RTL839X_IGR_BWCTRL_LB_TICK_TKN_CTRL_1); + // Egress tick period 10G, bytes/token 10G and tick period 1G, bytes/token 1G + sw_w32(18 << 24 | 151 << 16 | 185 << 8 | 97, RTL839X_SCHED_LB_TICK_TKN_CTRL); + // Set the tick period of the CPU and the Token Len + sw_w32(3815 << 8 | 1, RTL839X_SCHED_LB_TICK_TKN_PPS_CTRL); + + // Set the Weighted Fair Queueing burst size + sw_w32_mask(0xffff, 4500, RTL839X_SCHED_LB_THR); + + // Storm-rate calculation is based on bytes/sec (bit 5), include IFG (bit 6) + sw_w32_mask(0, 1 << 5 | 1 << 6, RTL839X_STORM_CTRL); + + /* Based on the rate control mode being bytes/s + * set tick period and token length for 10G + */ + sw_w32(18 << 10 | 151, RTL839X_STORM_CTRL_LB_TICK_TKN_CTRL_0); + /* and for 1G ports */ + sw_w32(246 << 10 | 129, RTL839X_STORM_CTRL_LB_TICK_TKN_CTRL_1); + + /* Set default burst rates on all ports (the same for 1G / 10G) with a PHY + * for UC, MC and BC + * For 1G port, the minimum burst rate is 1700, maximum 65535, + * For 10G ports it is 2650 and 1048575 respectively */ + for (p = 0; p < priv->cpu_port; p++) { + if (priv->ports[p].phy && !priv->ports[p].is10G) { + sw_w32_mask(0xffff, 0x8000, RTL839X_STORM_CTRL_PORT_UC_1(p)); + sw_w32_mask(0xffff, 0x8000, RTL839X_STORM_CTRL_PORT_MC_1(p)); + sw_w32_mask(0xffff, 0x8000, RTL839X_STORM_CTRL_PORT_BC_1(p)); + } + } + + /* Setup ingress/egress per-port rate control */ + for (p = 0; p < priv->cpu_port; p++) { + if (!priv->ports[p].phy) + continue; + + if (priv->ports[p].is10G) + rtl839x_set_egress_rate(priv, p, 625000); // 10GB/s + else + rtl839x_set_egress_rate(priv, p, 62500); // 1GB/s + + // Setup queues: all RTL83XX SoCs have 8 queues, maximum rate + for (q = 0; q < 8; q++) + rtl839x_egress_rate_queue_limit(priv, p, q, 0xfffff); + + if (priv->ports[p].is10G) { + // Set high threshold to maximum + sw_w32_mask(0xffff, 0xffff, RTL839X_IGR_BWCTRL_PORT_CTRL_10G_0(p)); + } else { + // Set high threshold to maximum + sw_w32_mask(0xffff, 0xffff, RTL839X_IGR_BWCTRL_PORT_CTRL_1(p)); + } + } + + // Set global ingress low watermark rate + sw_w32(65532, RTL839X_IGR_BWCTRL_CTRL_LB_THR); +} + + + +void rtl838x_setup_prio2queue_matrix(int *min_queues) +{ + int i; + u32 v; + + pr_info("Current Intprio2queue setting: %08x\n", sw_r32(RTL838X_QM_INTPRI2QID_CTRL)); + for (i = 0; i < MAX_PRIOS; i++) + v |= i << (min_queues[i] * 3); + sw_w32(v, RTL838X_QM_INTPRI2QID_CTRL); +} + +void rtl839x_setup_prio2queue_matrix(int *min_queues) +{ + int i, q; + + pr_info("Current Intprio2queue setting: %08x\n", sw_r32(RTL839X_QM_INTPRI2QID_CTRL(0))); + for (i = 0; i < MAX_PRIOS; i++) { + q = min_queues[i]; + sw_w32(i << (q * 3), RTL839X_QM_INTPRI2QID_CTRL(q)); + } +} + +/* Sets the CPU queue depending on the internal priority of a packet */ +void rtl83xx_setup_prio2queue_cpu_matrix(int *max_queues) +{ + int reg = soc_info.family == RTL8380_FAMILY_ID ? RTL838X_QM_PKT2CPU_INTPRI_MAP + : RTL839X_QM_PKT2CPU_INTPRI_MAP; + int i; + u32 v; + + pr_info("QM_PKT2CPU_INTPRI_MAP: %08x\n", sw_r32(reg)); + for (i = 0; i < MAX_PRIOS; i++) + v |= max_queues[i] << (i * 3); + sw_w32(v, reg); +} + +void rtl83xx_setup_default_prio2queue(void) +{ + if (soc_info.family == RTL8380_FAMILY_ID) { + rtl838x_setup_prio2queue_matrix(max_available_queue); + } else { + rtl839x_setup_prio2queue_matrix(max_available_queue); + } + rtl83xx_setup_prio2queue_cpu_matrix(max_available_queue); +} + +/* Sets the output queue assigned to a port, the port can be the CPU-port */ +void rtl839x_set_egress_queue(int port, int queue) +{ + sw_w32(queue << ((port % 10) *3), RTL839X_QM_PORT_QNUM(port)); +} + +/* Sets the priority assigned of an ingress port, the port can be the CPU-port */ +void rtl83xx_set_ingress_priority(int port, int priority) +{ + if (soc_info.family == RTL8380_FAMILY_ID) + sw_w32(priority << ((port % 10) *3), RTL838X_PRI_SEL_PORT_PRI(port)); + else + sw_w32(priority << ((port % 10) *3), RTL839X_PRI_SEL_PORT_PRI(port)); + +} + +int rtl839x_get_scheduling_algorithm(struct rtl838x_switch_priv *priv, int port) +{ + u32 v; + + mutex_lock(&priv->reg_mutex); + + rtl839x_read_scheduling_table(port); + v = sw_r32(RTL839X_TBL_ACCESS_DATA_2(8)); + + mutex_unlock(&priv->reg_mutex); + + if (v & BIT(19)) + return WEIGHTED_ROUND_ROBIN; + return WEIGHTED_FAIR_QUEUE; +} + +void rtl839x_set_scheduling_algorithm(struct rtl838x_switch_priv *priv, int port, + enum scheduler_type sched) +{ + enum scheduler_type t = rtl839x_get_scheduling_algorithm(priv, port); + u32 v, oam_state, oam_port_state; + u32 count; + int i, egress_rate; + + mutex_lock(&priv->reg_mutex); + /* Check whether we need to empty the egress queue of that port due to Errata E0014503 */ + if (sched == WEIGHTED_FAIR_QUEUE && t == WEIGHTED_ROUND_ROBIN && port != priv->cpu_port) { + // Read Operations, Adminstatrion and Management control register + oam_state = sw_r32(RTL839X_OAM_CTRL); + + // Get current OAM state + oam_port_state = sw_r32(RTL839X_OAM_PORT_ACT_CTRL(port)); + + // Disable OAM to block traffice + v = sw_r32(RTL839X_OAM_CTRL); + sw_w32_mask(0, 1, RTL839X_OAM_CTRL); + v = sw_r32(RTL839X_OAM_CTRL); + + // Set to trap action OAM forward (bits 1, 2) and OAM Mux Action Drop (bit 0) + sw_w32(0x2, RTL839X_OAM_PORT_ACT_CTRL(port)); + + // Set port egress rate to unlimited + egress_rate = rtl839x_set_egress_rate(priv, port, 0xFFFFF); + + // Wait until the egress used page count of that port is 0 + i = 0; + do { + usleep_range(100, 200); + rtl839x_read_out_q_table(port); + count = sw_r32(RTL839X_TBL_ACCESS_DATA_2(6)); + count >>= 20; + i++; + } while (i < 3500 && count > 0); + } + + // Actually set the scheduling algorithm + rtl839x_read_scheduling_table(port); + sw_w32_mask(BIT(19), sched ? BIT(19) : 0, RTL839X_TBL_ACCESS_DATA_2(8)); + rtl839x_write_scheduling_table(port); + + if (sched == WEIGHTED_FAIR_QUEUE && t == WEIGHTED_ROUND_ROBIN && port != priv->cpu_port) { + // Restore OAM state to control register + sw_w32(oam_state, RTL839X_OAM_CTRL); + + // Restore trap action state + sw_w32(oam_port_state, RTL839X_OAM_PORT_ACT_CTRL(port)); + + // Restore port egress rate + rtl839x_set_egress_rate(priv, port, egress_rate); + } + + mutex_unlock(&priv->reg_mutex); +} + +void rtl839x_set_scheduling_queue_weights(struct rtl838x_switch_priv *priv, int port, + int *queue_weights) +{ + int i, lsb, low_byte, start_bit, high_mask; + + mutex_lock(&priv->reg_mutex); + + rtl839x_read_scheduling_table(port); + + for (i = 0; i < 8; i++) { + lsb = 48 + i * 8; + low_byte = 8 - (lsb >> 5); + start_bit = lsb - (low_byte << 5); + high_mask = 0x3ff >> (32 - start_bit); + sw_w32_mask(0x3ff << start_bit, (queue_weights[i] & 0x3ff) << start_bit, + RTL839X_TBL_ACCESS_DATA_2(low_byte)); + if (high_mask) + sw_w32_mask(high_mask, (queue_weights[i] & 0x3ff) >> (32- start_bit), + RTL839X_TBL_ACCESS_DATA_2(low_byte - 1)); + } + + rtl839x_write_scheduling_table(port); + mutex_unlock(&priv->reg_mutex); +} + +void rtl838x_config_qos(void) +{ + int i, p; + u32 v; + + pr_info("Setting up RTL838X QoS\n"); + pr_info("RTL838X_PRI_SEL_TBL_CTRL(i): %08x\n", sw_r32(RTL838X_PRI_SEL_TBL_CTRL(0))); + rtl83xx_setup_default_prio2queue(); + + // Enable inner (bit 12) and outer (bit 13) priority remapping from DSCP + sw_w32_mask(0, BIT(12) | BIT(13), RTL838X_PRI_DSCP_INVLD_CTRL0); + + /* Set default weight for calculating internal priority, in prio selection group 0 + * Port based (prio 3), Port outer-tag (4), DSCP (5), Inner Tag (6), Outer Tag (7) + */ + v = 3 | (4 << 3) | (5 << 6) | (6 << 9) | (7 << 12); + sw_w32(v, RTL838X_PRI_SEL_TBL_CTRL(0)); + + // Set the inner and outer priority one-to-one to re-marked outer dot1p priority + v = 0; + for (p = 0; p < 8; p++) + v |= p << (3 * p); + sw_w32(v, RTL838X_RMK_OPRI_CTRL); + sw_w32(v, RTL838X_RMK_IPRI_CTRL); + + v = 0; + for (p = 0; p < 8; p++) + v |= (dot1p_priority_remapping[p] & 0x7) << (p * 3); + sw_w32(v, RTL838X_PRI_SEL_IPRI_REMAP); + + // On all ports set scheduler type to WFQ + for (i = 0; i <= soc_info.cpu_port; i++) + sw_w32(0, RTL838X_SCHED_P_TYPE_CTRL(i)); + + // Enable egress scheduler for CPU-Port + sw_w32_mask(0, BIT(8), RTL838X_SCHED_LB_CTRL(soc_info.cpu_port)); + + // Enable egress drop allways on + sw_w32_mask(0, BIT(11), RTL838X_FC_P_EGR_DROP_CTRL(soc_info.cpu_port)); + + // Give special trap frames priority 7 (BPDUs) and routing exceptions: + sw_w32_mask(0, 7 << 3 | 7, RTL838X_QM_PKT2CPU_INTPRI_2); + // Give RMA frames priority 7: + sw_w32_mask(0, 7, RTL838X_QM_PKT2CPU_INTPRI_1); +} + +void rtl839x_config_qos(void) +{ + int port, p, q; + u32 v; + struct rtl838x_switch_priv *priv = switch_priv; + + pr_info("Setting up RTL839X QoS\n"); + pr_info("RTL839X_PRI_SEL_TBL_CTRL(i): %08x\n", sw_r32(RTL839X_PRI_SEL_TBL_CTRL(0))); + rtl83xx_setup_default_prio2queue(); + + for (port = 0; port < soc_info.cpu_port; port++) + sw_w32(7, RTL839X_QM_PORT_QNUM(port)); + + // CPU-port gets queue number 7 + sw_w32(7, RTL839X_QM_PORT_QNUM(soc_info.cpu_port)); + + for (port = 0; port <= soc_info.cpu_port; port++) { + rtl83xx_set_ingress_priority(port, 0); + rtl839x_set_scheduling_algorithm(priv, port, WEIGHTED_FAIR_QUEUE); + rtl839x_set_scheduling_queue_weights(priv, port, default_queue_weights); + // Do re-marking based on outer tag + sw_w32_mask(0, BIT(port % 32), RTL839X_RMK_PORT_DEI_TAG_CTRL(port)); + } + + // Remap dot1p priorities to internal priority, for this the outer tag needs be re-marked + v = 0; + for (p = 0; p < 8; p++) + v |= (dot1p_priority_remapping[p] & 0x7) << (p * 3); + sw_w32(v, RTL839X_PRI_SEL_IPRI_REMAP); + + /* Configure Drop Precedence for Drop Eligible Indicator (DEI) + * Index 0: 0 + * Index 1: 2 + * Each indicator is 2 bits long + */ + sw_w32(2 << 2, RTL839X_PRI_SEL_DEI2DP_REMAP); + + // Re-mark DEI: 4 bit-fields of 2 bits each, field 0 is bits 0-1, ... + sw_w32((0x1 << 2) | (0x1 << 4), RTL839X_RMK_DEI_CTRL); + + /* Set Congestion avoidance drop probability to 0 for drop precedences 0-2 (bits 24-31) + * low threshold (bits 0-11) to 4095 and high threshold (bits 12-23) to 4095 + * Weighted Random Early Detection (WRED) is used + */ + sw_w32(4095 << 12| 4095, RTL839X_WRED_PORT_THR_CTRL(0)); + sw_w32(4095 << 12| 4095, RTL839X_WRED_PORT_THR_CTRL(1)); + sw_w32(4095 << 12| 4095, RTL839X_WRED_PORT_THR_CTRL(2)); + + /* Set queue-based congestion avoidance properties, register fields are as + * for forward RTL839X_WRED_PORT_THR_CTRL + */ + for (q = 0; q < 8; q++) { + sw_w32(255 << 24 | 78 << 12 | 68, RTL839X_WRED_QUEUE_THR_CTRL(q, 0)); + sw_w32(255 << 24 | 74 << 12 | 64, RTL839X_WRED_QUEUE_THR_CTRL(q, 0)); + sw_w32(255 << 24 | 70 << 12 | 60, RTL839X_WRED_QUEUE_THR_CTRL(q, 0)); + } +} + +void __init rtl83xx_setup_qos(struct rtl838x_switch_priv *priv) +{ + switch_priv = priv; + + pr_info("In %s\n", __func__); + + if (priv->family_id == RTL8380_FAMILY_ID) + return rtl838x_config_qos(); + else if (priv->family_id == RTL8390_FAMILY_ID) + return rtl839x_config_qos(); + + if (priv->family_id == RTL8380_FAMILY_ID) + rtl838x_rate_control_init(priv); + else if (priv->family_id == RTL8390_FAMILY_ID) + rtl839x_rate_control_init(priv); + +} diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl838x.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl838x.c new file mode 100644 index 0000000000..5d764b6a32 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl838x.c @@ -0,0 +1,859 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include "rtl83xx.h" + +extern struct mutex smi_lock; + +void rtl838x_print_matrix(void) +{ + unsigned volatile int *ptr8; + int i; + + ptr8 = RTL838X_SW_BASE + RTL838X_PORT_ISO_CTRL(0); + for (i = 0; i < 28; i += 8) + pr_debug("> %8x %8x %8x %8x %8x %8x %8x %8x\n", + ptr8[i + 0], ptr8[i + 1], ptr8[i + 2], ptr8[i + 3], + ptr8[i + 4], ptr8[i + 5], ptr8[i + 6], ptr8[i + 7]); + pr_debug("CPU_PORT> %8x\n", ptr8[28]); +} + +static inline int rtl838x_port_iso_ctrl(int p) +{ + return RTL838X_PORT_ISO_CTRL(p); +} + +static inline void rtl838x_exec_tbl0_cmd(u32 cmd) +{ + sw_w32(cmd, RTL838X_TBL_ACCESS_CTRL_0); + do { } while (sw_r32(RTL838X_TBL_ACCESS_CTRL_0) & BIT(15)); +} + +static inline void rtl838x_exec_tbl1_cmd(u32 cmd) +{ + sw_w32(cmd, RTL838X_TBL_ACCESS_CTRL_1); + do { } while (sw_r32(RTL838X_TBL_ACCESS_CTRL_1) & BIT(15)); +} + +static inline int rtl838x_tbl_access_data_0(int i) +{ + return RTL838X_TBL_ACCESS_DATA_0(i); +} + +static void rtl838x_vlan_tables_read(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 v; + // Read VLAN table (0) via register 0 + struct table_reg *r = rtl_table_get(RTL8380_TBL_0, 0); + + rtl_table_read(r, vlan); + info->tagged_ports = sw_r32(rtl_table_data(r, 0)); + v = sw_r32(rtl_table_data(r, 1)); + pr_debug("VLAN_READ %d: %016llx %08x\n", vlan, info->tagged_ports, v); + rtl_table_release(r); + + info->profile_id = v & 0x7; + info->hash_mc_fid = !!(v & 0x8); + info->hash_uc_fid = !!(v & 0x10); + info->fid = (v >> 5) & 0x3f; + + // Read UNTAG table (0) via table register 1 + r = rtl_table_get(RTL8380_TBL_1, 0); + rtl_table_read(r, vlan); + info->untagged_ports = sw_r32(rtl_table_data(r, 0)); + rtl_table_release(r); +} + +static void rtl838x_vlan_set_tagged(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 v; + // Access VLAN table (0) via register 0 + struct table_reg *r = rtl_table_get(RTL8380_TBL_0, 0); + + sw_w32(info->tagged_ports, rtl_table_data(r, 0)); + + v = info->profile_id; + v |= info->hash_mc_fid ? 0x8 : 0; + v |= info->hash_uc_fid ? 0x10 : 0; + v |= ((u32)info->fid) << 5; + sw_w32(v, rtl_table_data(r, 1)); + + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +static void rtl838x_vlan_set_untagged(u32 vlan, u64 portmask) +{ + // Access UNTAG table (0) via register 1 + struct table_reg *r = rtl_table_get(RTL8380_TBL_1, 0); + + sw_w32(portmask & 0x1fffffff, rtl_table_data(r, 0)); + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +/* Sets the L2 forwarding to be based on either the inner VLAN tag or the outer + */ +static void rtl838x_vlan_fwd_on_inner(int port, bool is_set) +{ + if (is_set) + sw_w32_mask(BIT(port), 0, RTL838X_VLAN_PORT_FWD); + else + sw_w32_mask(0, BIT(port), RTL838X_VLAN_PORT_FWD); +} + +static u64 rtl838x_l2_hash_seed(u64 mac, u32 vid) +{ + return mac << 12 | vid; +} + +/* + * Applies the same hash algorithm as the one used currently by the ASIC to the seed + * and returns a key into the L2 hash table + */ +static u32 rtl838x_l2_hash_key(struct rtl838x_switch_priv *priv, u64 seed) +{ + u32 h1, h2, h3, h; + + if (sw_r32(priv->r->l2_ctrl_0) & 1) { + h1 = (seed >> 11) & 0x7ff; + h1 = ((h1 & 0x1f) << 6) | ((h1 >> 5) & 0x3f); + + h2 = (seed >> 33) & 0x7ff; + h2 = ((h2 & 0x3f) << 5) | ((h2 >> 6) & 0x1f); + + h3 = (seed >> 44) & 0x7ff; + h3 = ((h3 & 0x7f) << 4) | ((h3 >> 7) & 0xf); + + h = h1 ^ h2 ^ h3 ^ ((seed >> 55) & 0x1ff); + h ^= ((seed >> 22) & 0x7ff) ^ (seed & 0x7ff); + } else { + h = ((seed >> 55) & 0x1ff) ^ ((seed >> 44) & 0x7ff) + ^ ((seed >> 33) & 0x7ff) ^ ((seed >> 22) & 0x7ff) + ^ ((seed >> 11) & 0x7ff) ^ (seed & 0x7ff); + } + + return h; +} + +static inline int rtl838x_mac_force_mode_ctrl(int p) +{ + return RTL838X_MAC_FORCE_MODE_CTRL + (p << 2); +} + +static inline int rtl838x_mac_port_ctrl(int p) +{ + return RTL838X_MAC_PORT_CTRL(p); +} + +static inline int rtl838x_l2_port_new_salrn(int p) +{ + return RTL838X_L2_PORT_NEW_SALRN(p); +} + +static inline int rtl838x_l2_port_new_sa_fwd(int p) +{ + return RTL838X_L2_PORT_NEW_SA_FWD(p); +} + +static inline int rtl838x_mac_link_spd_sts(int p) +{ + return RTL838X_MAC_LINK_SPD_STS(p); +} + +inline static int rtl838x_trk_mbr_ctr(int group) +{ + return RTL838X_TRK_MBR_CTR + (group << 2); +} + +/* + * Fills an L2 entry structure from the SoC registers + */ +static void rtl838x_fill_l2_entry(u32 r[], struct rtl838x_l2_entry *e) +{ + /* Table contains different entry types, we need to identify the right one: + * Check for MC entries, first + * In contrast to the RTL93xx SoCs, there is no valid bit, use heuristics to + * identify valid entries + */ + e->is_ip_mc = !!(r[0] & BIT(22)); + e->is_ipv6_mc = !!(r[0] & BIT(21)); + e->type = L2_INVALID; + + if (!e->is_ip_mc && !e->is_ipv6_mc) { + e->mac[0] = (r[1] >> 20); + e->mac[1] = (r[1] >> 12); + e->mac[2] = (r[1] >> 4); + e->mac[3] = (r[1] & 0xf) << 4 | (r[2] >> 28); + e->mac[4] = (r[2] >> 20); + e->mac[5] = (r[2] >> 12); + + e->rvid = r[2] & 0xfff; + e->vid = r[0] & 0xfff; + + /* Is it a unicast entry? check multicast bit */ + if (!(e->mac[0] & 1)) { + e->is_static = !!((r[0] >> 19) & 1); + e->port = (r[0] >> 12) & 0x1f; + e->block_da = !!(r[1] & BIT(30)); + e->block_sa = !!(r[1] & BIT(31)); + e->suspended = !!(r[1] & BIT(29)); + e->next_hop = !!(r[1] & BIT(28)); + if (e->next_hop) { + pr_info("Found next hop entry, need to read extra data\n"); + e->nh_vlan_target = !!(r[0] & BIT(9)); + e->nh_route_id = r[0] & 0x1ff; + } + e->age = (r[0] >> 17) & 0x3; + e->valid = true; + + /* A valid entry has one of mutli-cast, aging, sa/da-blocking, + * next-hop or static entry bit set */ + if (!(r[0] & 0x007c0000) && !(r[1] & 0xd0000000)) + e->valid = false; + else + e->type = L2_UNICAST; + } else { // L2 multicast + pr_info("Got L2 MC entry: %08x %08x %08x\n", r[0], r[1], r[2]); + e->valid = true; + e->type = L2_MULTICAST; + e->mc_portmask_index = (r[0] >> 12) & 0x1ff; + } + } else { // IPv4 and IPv6 multicast + e->valid = true; + e->mc_portmask_index = (r[0] >> 12) & 0x1ff; + e->mc_gip = r[1]; + e->mc_sip = r[2]; + e->rvid = r[0] & 0xfff; + } + if (e->is_ip_mc) + e->type = IP4_MULTICAST; + if (e->is_ipv6_mc) + e->type = IP6_MULTICAST; +} + +/* + * Fills the 3 SoC table registers r[] with the information of in the rtl838x_l2_entry + */ +static void rtl838x_fill_l2_row(u32 r[], struct rtl838x_l2_entry *e) +{ + u64 mac = ether_addr_to_u64(e->mac); + + if (!e->valid) { + r[0] = r[1] = r[2] = 0; + return; + } + + r[0] = e->is_ip_mc ? BIT(22) : 0; + r[0] |= e->is_ipv6_mc ? BIT(21) : 0; + + if (!e->is_ip_mc && !e->is_ipv6_mc) { + r[1] = mac >> 20; + r[2] = (mac & 0xfffff) << 12; + + /* Is it a unicast entry? check multicast bit */ + if (!(e->mac[0] & 1)) { + r[0] |= e->is_static ? BIT(19) : 0; + r[0] |= (e->port & 0x3f) << 12; + r[0] |= e->vid; + r[1] |= e->block_da ? BIT(30) : 0; + r[1] |= e->block_sa ? BIT(31) : 0; + r[1] |= e->suspended ? BIT(29) : 0; + r[2] |= e->rvid & 0xfff; + if (e->next_hop) { + r[1] |= BIT(28); + r[0] |= e->nh_vlan_target ? BIT(9) : 0; + r[0] |= e->nh_route_id &0x1ff; + } + r[0] |= (e->age & 0x3) << 17; + } else { // L2 Multicast + r[0] |= (e->mc_portmask_index & 0x1ff) << 12; + r[2] |= e->rvid & 0xfff; + r[0] |= e->vid & 0xfff; + pr_info("FILL MC: %08x %08x %08x\n", r[0], r[1], r[2]); + } + } else { // IPv4 and IPv6 multicast + r[1] = e->mc_gip; + r[2] = e->mc_sip; + r[0] |= e->rvid; + } +} + +/* + * Read an L2 UC or MC entry out of a hash bucket of the L2 forwarding table + * hash is the id of the bucket and pos is the position of the entry in that bucket + * The data read from the SoC is filled into rtl838x_l2_entry + */ +static u64 rtl838x_read_l2_entry_using_hash(u32 hash, u32 pos, struct rtl838x_l2_entry *e) +{ + u64 entry; + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8380_TBL_L2, 0); // Access L2 Table 0 + u32 idx = (0 << 14) | (hash << 2) | pos; // Search SRAM, with hash and at pos in bucket + int i; + + rtl_table_read(q, idx); + for (i= 0; i < 3; i++) + r[i] = sw_r32(rtl_table_data(q, i)); + + rtl_table_release(q); + + rtl838x_fill_l2_entry(r, e); + if (!e->valid) + return 0; + + entry = (((u64) r[1]) << 32) | (r[2] & 0xfffff000) | (r[0] & 0xfff); + return entry; +} + +static void rtl838x_write_l2_entry_using_hash(u32 hash, u32 pos, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8380_TBL_L2, 0); + int i; + + u32 idx = (0 << 14) | (hash << 2) | pos; // Access SRAM, with hash and at pos in bucket + + rtl838x_fill_l2_row(r, e); + + for (i= 0; i < 3; i++) + sw_w32(r[i], rtl_table_data(q, i)); + + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static u64 rtl838x_read_cam(int idx, struct rtl838x_l2_entry *e) +{ + u64 entry; + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8380_TBL_L2, 1); // Access L2 Table 1 + int i; + + rtl_table_read(q, idx); + for (i= 0; i < 3; i++) + r[i] = sw_r32(rtl_table_data(q, i)); + + rtl_table_release(q); + + rtl838x_fill_l2_entry(r, e); + if (!e->valid) + return 0; + + pr_debug("Found in CAM: R1 %x R2 %x R3 %x\n", r[0], r[1], r[2]); + + // Return MAC with concatenated VID ac concatenated ID + entry = (((u64) r[1]) << 32) | (r[2] & 0xfffff000) | (r[0] & 0xfff); + return entry; +} + +static void rtl838x_write_cam(int idx, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8380_TBL_L2, 1); // Access L2 Table 1 + int i; + + rtl838x_fill_l2_row(r, e); + + for (i= 0; i < 3; i++) + sw_w32(r[i], rtl_table_data(q, i)); + + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static u64 rtl838x_read_mcast_pmask(int idx) +{ + u32 portmask; + // Read MC_PMSK (2) via register RTL8380_TBL_L2 + struct table_reg *q = rtl_table_get(RTL8380_TBL_L2, 2); + + rtl_table_read(q, idx); + portmask = sw_r32(rtl_table_data(q, 0)); + rtl_table_release(q); + + return portmask; +} + +static void rtl838x_write_mcast_pmask(int idx, u64 portmask) +{ + // Access MC_PMSK (2) via register RTL8380_TBL_L2 + struct table_reg *q = rtl_table_get(RTL8380_TBL_L2, 2); + + sw_w32(((u32)portmask) & 0x1fffffff, rtl_table_data(q, 0)); + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static void rtl838x_vlan_profile_setup(int profile) +{ + u32 pmask_id = UNKNOWN_MC_PMASK; + // Enable L2 Learning BIT 0, portmask UNKNOWN_MC_PMASK for unknown MC traffic flooding + u32 p = 1 | pmask_id << 1 | pmask_id << 10 | pmask_id << 19; + + sw_w32(p, RTL838X_VLAN_PROFILE(profile)); + + /* RTL8380 and RTL8390 use an index into the portmask table to set the + * unknown multicast portmask, setup a default at a safe location + * On RTL93XX, the portmask is directly set in the profile, + * see e.g. rtl9300_vlan_profile_setup + */ + rtl838x_write_mcast_pmask(UNKNOWN_MC_PMASK, 0x1fffffff); +} + +static inline int rtl838x_vlan_port_egr_filter(int port) +{ + return RTL838X_VLAN_PORT_EGR_FLTR; +} + +static inline int rtl838x_vlan_port_igr_filter(int port) +{ + return RTL838X_VLAN_PORT_IGR_FLTR(port); +} + +static void rtl838x_stp_get(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 15 /* Execute cmd */ + | 1 << 14 /* Read */ + | 2 << 12 /* Table type 0b10 */ + | (msti & 0xfff); + priv->r->exec_tbl0_cmd(cmd); + + for (i = 0; i < 2; i++) + port_state[i] = sw_r32(priv->r->tbl_access_data_0(i)); +} + +static void rtl838x_stp_set(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 15 /* Execute cmd */ + | 0 << 14 /* Write */ + | 2 << 12 /* Table type 0b10 */ + | (msti & 0xfff); + + for (i = 0; i < 2; i++) + sw_w32(port_state[i], priv->r->tbl_access_data_0(i)); + priv->r->exec_tbl0_cmd(cmd); +} + +u64 rtl838x_traffic_get(int source) +{ + return rtl838x_get_port_reg(rtl838x_port_iso_ctrl(source)); +} + +void rtl838x_traffic_set(int source, u64 dest_matrix) +{ + rtl838x_set_port_reg(dest_matrix, rtl838x_port_iso_ctrl(source)); +} + +void rtl838x_traffic_enable(int source, int dest) +{ + rtl838x_mask_port_reg(0, BIT(dest), rtl838x_port_iso_ctrl(source)); +} + +void rtl838x_traffic_disable(int source, int dest) +{ + rtl838x_mask_port_reg(BIT(dest), 0, rtl838x_port_iso_ctrl(source)); +} + +/* + * Enables or disables the EEE/EEEP capability of a port + */ +static void rtl838x_port_eee_set(struct rtl838x_switch_priv *priv, int port, bool enable) +{ + u32 v; + + // This works only for Ethernet ports, and on the RTL838X, ports from 24 are SFP + if (port >= 24) + return; + + pr_debug("In %s: setting port %d to %d\n", __func__, port, enable); + v = enable ? 0x3 : 0x0; + + // Set EEE state for 100 (bit 9) & 1000MBit (bit 10) + sw_w32_mask(0x3 << 9, v << 9, priv->r->mac_force_mode_ctrl(port)); + + // Set TX/RX EEE state + if (enable) { + sw_w32_mask(0, BIT(port), RTL838X_EEE_PORT_TX_EN); + sw_w32_mask(0, BIT(port), RTL838X_EEE_PORT_RX_EN); + } else { + sw_w32_mask(BIT(port), 0, RTL838X_EEE_PORT_TX_EN); + sw_w32_mask(BIT(port), 0, RTL838X_EEE_PORT_RX_EN); + } + priv->ports[port].eee_enabled = enable; +} + + +/* + * Get EEE own capabilities and negotiation result + */ +static int rtl838x_eee_port_ability(struct rtl838x_switch_priv *priv, + struct ethtool_eee *e, int port) +{ + u64 link; + + if (port >= 24) + return 0; + + link = rtl839x_get_port_reg_le(RTL838X_MAC_LINK_STS); + if (!(link & BIT(port))) + return 0; + + if (sw_r32(rtl838x_mac_force_mode_ctrl(port)) & BIT(9)) + e->advertised |= ADVERTISED_100baseT_Full; + + if (sw_r32(rtl838x_mac_force_mode_ctrl(port)) & BIT(10)) + e->advertised |= ADVERTISED_1000baseT_Full; + + if (sw_r32(RTL838X_MAC_EEE_ABLTY) & BIT(port)) { + e->lp_advertised = ADVERTISED_100baseT_Full; + e->lp_advertised |= ADVERTISED_1000baseT_Full; + return 1; + } + + return 0; +} + +static void rtl838x_init_eee(struct rtl838x_switch_priv *priv, bool enable) +{ + int i; + + pr_info("Setting up EEE, state: %d\n", enable); + sw_w32_mask(0x4, 0, RTL838X_SMI_GLB_CTRL); + + /* Set timers for EEE */ + sw_w32(0x5001411, RTL838X_EEE_TX_TIMER_GIGA_CTRL); + sw_w32(0x5001417, RTL838X_EEE_TX_TIMER_GELITE_CTRL); + + // Enable EEE MAC support on ports + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) + rtl838x_port_eee_set(priv, i, enable); + } + priv->eee_enabled = enable; +} + +const struct rtl838x_reg rtl838x_reg = { + .mask_port_reg_be = rtl838x_mask_port_reg, + .set_port_reg_be = rtl838x_set_port_reg, + .get_port_reg_be = rtl838x_get_port_reg, + .mask_port_reg_le = rtl838x_mask_port_reg, + .set_port_reg_le = rtl838x_set_port_reg, + .get_port_reg_le = rtl838x_get_port_reg, + .stat_port_rst = RTL838X_STAT_PORT_RST, + .stat_rst = RTL838X_STAT_RST, + .stat_port_std_mib = RTL838X_STAT_PORT_STD_MIB, + .port_iso_ctrl = rtl838x_port_iso_ctrl, + .traffic_enable = rtl838x_traffic_enable, + .traffic_disable = rtl838x_traffic_disable, + .traffic_get = rtl838x_traffic_get, + .traffic_set = rtl838x_traffic_set, + .l2_ctrl_0 = RTL838X_L2_CTRL_0, + .l2_ctrl_1 = RTL838X_L2_CTRL_1, + .l2_port_aging_out = RTL838X_L2_PORT_AGING_OUT, + .smi_poll_ctrl = RTL838X_SMI_POLL_CTRL, + .l2_tbl_flush_ctrl = RTL838X_L2_TBL_FLUSH_CTRL, + .exec_tbl0_cmd = rtl838x_exec_tbl0_cmd, + .exec_tbl1_cmd = rtl838x_exec_tbl1_cmd, + .tbl_access_data_0 = rtl838x_tbl_access_data_0, + .isr_glb_src = RTL838X_ISR_GLB_SRC, + .isr_port_link_sts_chg = RTL838X_ISR_PORT_LINK_STS_CHG, + .imr_port_link_sts_chg = RTL838X_IMR_PORT_LINK_STS_CHG, + .imr_glb = RTL838X_IMR_GLB, + .vlan_tables_read = rtl838x_vlan_tables_read, + .vlan_set_tagged = rtl838x_vlan_set_tagged, + .vlan_set_untagged = rtl838x_vlan_set_untagged, + .mac_force_mode_ctrl = rtl838x_mac_force_mode_ctrl, + .vlan_profile_dump = rtl838x_vlan_profile_dump, + .vlan_profile_setup = rtl838x_vlan_profile_setup, + .vlan_fwd_on_inner = rtl838x_vlan_fwd_on_inner, + .stp_get = rtl838x_stp_get, + .stp_set = rtl838x_stp_set, + .mac_port_ctrl = rtl838x_mac_port_ctrl, + .l2_port_new_salrn = rtl838x_l2_port_new_salrn, + .l2_port_new_sa_fwd = rtl838x_l2_port_new_sa_fwd, + .mir_ctrl = RTL838X_MIR_CTRL, + .mir_dpm = RTL838X_MIR_DPM_CTRL, + .mir_spm = RTL838X_MIR_SPM_CTRL, + .mac_link_sts = RTL838X_MAC_LINK_STS, + .mac_link_dup_sts = RTL838X_MAC_LINK_DUP_STS, + .mac_link_spd_sts = rtl838x_mac_link_spd_sts, + .mac_rx_pause_sts = RTL838X_MAC_RX_PAUSE_STS, + .mac_tx_pause_sts = RTL838X_MAC_TX_PAUSE_STS, + .read_l2_entry_using_hash = rtl838x_read_l2_entry_using_hash, + .write_l2_entry_using_hash = rtl838x_write_l2_entry_using_hash, + .read_cam = rtl838x_read_cam, + .write_cam = rtl838x_write_cam, + .vlan_port_egr_filter = RTL838X_VLAN_PORT_EGR_FLTR, + .vlan_port_igr_filter = RTL838X_VLAN_PORT_IGR_FLTR(0), + .vlan_port_pb = RTL838X_VLAN_PORT_PB_VLAN, + .vlan_port_tag_sts_ctrl = RTL838X_VLAN_PORT_TAG_STS_CTRL, + .trk_mbr_ctr = rtl838x_trk_mbr_ctr, + .rma_bpdu_fld_pmask = RTL838X_RMA_BPDU_FLD_PMSK, + .spcl_trap_eapol_ctrl = RTL838X_SPCL_TRAP_EAPOL_CTRL, + .init_eee = rtl838x_init_eee, + .port_eee_set = rtl838x_port_eee_set, + .eee_port_ability = rtl838x_eee_port_ability, + .l2_hash_seed = rtl838x_l2_hash_seed, + .l2_hash_key = rtl838x_l2_hash_key, + .read_mcast_pmask = rtl838x_read_mcast_pmask, + .write_mcast_pmask = rtl838x_write_mcast_pmask, +}; + +irqreturn_t rtl838x_switch_irq(int irq, void *dev_id) +{ + struct dsa_switch *ds = dev_id; + u32 status = sw_r32(RTL838X_ISR_GLB_SRC); + u32 ports = sw_r32(RTL838X_ISR_PORT_LINK_STS_CHG); + u32 link; + int i; + + /* Clear status */ + sw_w32(ports, RTL838X_ISR_PORT_LINK_STS_CHG); + pr_info("RTL8380 Link change: status: %x, ports %x\n", status, ports); + + for (i = 0; i < 28; i++) { + if (ports & BIT(i)) { + link = sw_r32(RTL838X_MAC_LINK_STS); + if (link & BIT(i)) + dsa_port_phylink_mac_change(ds, i, true); + else + dsa_port_phylink_mac_change(ds, i, false); + } + } + return IRQ_HANDLED; +} + +int rtl838x_smi_wait_op(int timeout) +{ + do { + timeout--; + udelay(10); + } while ((sw_r32(RTL838X_SMI_ACCESS_PHY_CTRL_1) & 0x1) && (timeout >= 0)); + if (timeout <= 0) + return -1; + return 0; +} + +/* + * Reads a register in a page from the PHY + */ +int rtl838x_read_phy(u32 port, u32 page, u32 reg, u32 *val) +{ + u32 v; + u32 park_page; + + if (port > 31) { + *val = 0xffff; + return 0; + } + + if (page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + sw_w32_mask(0xffff0000, port << 16, RTL838X_SMI_ACCESS_PHY_CTRL_2); + + park_page = sw_r32(RTL838X_SMI_ACCESS_PHY_CTRL_1) & ((0x1f << 15) | 0x2); + v = reg << 20 | page << 3; + sw_w32(v | park_page, RTL838X_SMI_ACCESS_PHY_CTRL_1); + sw_w32_mask(0, 1, RTL838X_SMI_ACCESS_PHY_CTRL_1); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + *val = sw_r32(RTL838X_SMI_ACCESS_PHY_CTRL_2) & 0xffff; + + mutex_unlock(&smi_lock); + return 0; + +timeout: + mutex_unlock(&smi_lock); + return -ETIMEDOUT; +} + +/* + * Write to a register in a page of the PHY + */ +int rtl838x_write_phy(u32 port, u32 page, u32 reg, u32 val) +{ + u32 v; + u32 park_page; + + val &= 0xffff; + if (port > 31 || page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + sw_w32(BIT(port), RTL838X_SMI_ACCESS_PHY_CTRL_0); + mdelay(10); + + sw_w32_mask(0xffff0000, val << 16, RTL838X_SMI_ACCESS_PHY_CTRL_2); + + park_page = sw_r32(RTL838X_SMI_ACCESS_PHY_CTRL_1) & ((0x1f << 15) | 0x2); + v = reg << 20 | page << 3 | 0x4; + sw_w32(v | park_page, RTL838X_SMI_ACCESS_PHY_CTRL_1); + sw_w32_mask(0, 1, RTL838X_SMI_ACCESS_PHY_CTRL_1); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + mutex_unlock(&smi_lock); + return 0; + +timeout: + mutex_unlock(&smi_lock); + return -ETIMEDOUT; +} + +/* + * Read an mmd register of a PHY + */ +int rtl838x_read_mmd_phy(u32 port, u32 addr, u32 reg, u32 *val) +{ + u32 v; + + mutex_lock(&smi_lock); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + sw_w32(1 << port, RTL838X_SMI_ACCESS_PHY_CTRL_0); + mdelay(10); + + sw_w32_mask(0xffff0000, port << 16, RTL838X_SMI_ACCESS_PHY_CTRL_2); + + v = addr << 16 | reg; + sw_w32(v, RTL838X_SMI_ACCESS_PHY_CTRL_3); + + /* mmd-access | read | cmd-start */ + v = 1 << 1 | 0 << 2 | 1; + sw_w32(v, RTL838X_SMI_ACCESS_PHY_CTRL_1); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + *val = sw_r32(RTL838X_SMI_ACCESS_PHY_CTRL_2) & 0xffff; + + mutex_unlock(&smi_lock); + return 0; + +timeout: + mutex_unlock(&smi_lock); + return -ETIMEDOUT; +} + +/* + * Write to an mmd register of a PHY + */ +int rtl838x_write_mmd_phy(u32 port, u32 addr, u32 reg, u32 val) +{ + u32 v; + + pr_debug("MMD write: port %d, dev %d, reg %d, val %x\n", port, addr, reg, val); + val &= 0xffff; + mutex_lock(&smi_lock); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + sw_w32(1 << port, RTL838X_SMI_ACCESS_PHY_CTRL_0); + mdelay(10); + + sw_w32_mask(0xffff0000, val << 16, RTL838X_SMI_ACCESS_PHY_CTRL_2); + + sw_w32_mask(0x1f << 16, addr << 16, RTL838X_SMI_ACCESS_PHY_CTRL_3); + sw_w32_mask(0xffff, reg, RTL838X_SMI_ACCESS_PHY_CTRL_3); + /* mmd-access | write | cmd-start */ + v = 1 << 1 | 1 << 2 | 1; + sw_w32(v, RTL838X_SMI_ACCESS_PHY_CTRL_1); + + if (rtl838x_smi_wait_op(10000)) + goto timeout; + + mutex_unlock(&smi_lock); + return 0; + +timeout: + mutex_unlock(&smi_lock); + return -ETIMEDOUT; +} + +void rtl8380_get_version(struct rtl838x_switch_priv *priv) +{ + u32 rw_save, info_save; + u32 info; + + rw_save = sw_r32(RTL838X_INT_RW_CTRL); + sw_w32(rw_save | 0x3, RTL838X_INT_RW_CTRL); + + info_save = sw_r32(RTL838X_CHIP_INFO); + sw_w32(info_save | 0xA0000000, RTL838X_CHIP_INFO); + + info = sw_r32(RTL838X_CHIP_INFO); + sw_w32(info_save, RTL838X_CHIP_INFO); + sw_w32(rw_save, RTL838X_INT_RW_CTRL); + + if ((info & 0xFFFF) == 0x6275) { + if (((info >> 16) & 0x1F) == 0x1) + priv->version = RTL8380_VERSION_A; + else if (((info >> 16) & 0x1F) == 0x2) + priv->version = RTL8380_VERSION_B; + else + priv->version = RTL8380_VERSION_B; + } else { + priv->version = '-'; + } +} + +void rtl838x_vlan_profile_dump(int profile) +{ + u32 p; + + if (profile < 0 || profile > 7) + return; + + p = sw_r32(RTL838X_VLAN_PROFILE(profile)); + + pr_info("VLAN profile %d: L2 learning: %d, UNKN L2MC FLD PMSK %d, \ + UNKN IPMC FLD PMSK %d, UNKN IPv6MC FLD PMSK: %d", + profile, p & 1, (p >> 1) & 0x1ff, (p >> 10) & 0x1ff, (p >> 19) & 0x1ff); +} + +void rtl8380_sds_rst(int mac) +{ + u32 offset = (mac == 24) ? 0 : 0x100; + + sw_w32_mask(1 << 11, 0, RTL838X_SDS4_FIB_REG0 + offset); + sw_w32_mask(0x3, 0, RTL838X_SDS4_REG28 + offset); + sw_w32_mask(0x3, 0x3, RTL838X_SDS4_REG28 + offset); + sw_w32_mask(0, 0x1 << 6, RTL838X_SDS4_DUMMY0 + offset); + sw_w32_mask(0x1 << 6, 0, RTL838X_SDS4_DUMMY0 + offset); + pr_debug("SERDES reset: %d\n", mac); +} + +int rtl8380_sds_power(int mac, int val) +{ + u32 mode = (val == 1) ? 0x4 : 0x9; + u32 offset = (mac == 24) ? 5 : 0; + + if ((mac != 24) && (mac != 26)) { + pr_err("%s: not a fibre port: %d\n", __func__, mac); + return -1; + } + + sw_w32_mask(0x1f << offset, mode << offset, RTL838X_SDS_MODE_SEL); + + rtl8380_sds_rst(mac); + + return 0; +} diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl838x.h b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl838x.h new file mode 100644 index 0000000000..b2097363b9 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl838x.h @@ -0,0 +1,526 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef _RTL838X_H +#define _RTL838X_H + +#include + +/* + * Register definition + */ +#define RTL838X_MAC_PORT_CTRL(port) (0xd560 + (((port) << 7))) +#define RTL839X_MAC_PORT_CTRL(port) (0x8004 + (((port) << 7))) +#define RTL930X_MAC_PORT_CTRL(port) (0x3260 + (((port) << 6))) +#define RTL930X_MAC_L2_PORT_CTRL(port) (0x3268 + (((port) << 6))) +#define RTL931X_MAC_PORT_CTRL(port) (0x6004 + (((port) << 7))) + +#define RTL838X_RST_GLB_CTRL_0 (0x003c) + +#define RTL838X_MAC_FORCE_MODE_CTRL (0xa104) +#define RTL839X_MAC_FORCE_MODE_CTRL (0x02bc) +#define RTL930X_MAC_FORCE_MODE_CTRL (0xCA1C) +#define RTL931X_MAC_FORCE_MODE_CTRL (0x0DCC) + +#define RTL838X_DMY_REG31 (0x3b28) +#define RTL838X_SDS_MODE_SEL (0x0028) +#define RTL838X_SDS_CFG_REG (0x0034) +#define RTL838X_INT_MODE_CTRL (0x005c) +#define RTL838X_CHIP_INFO (0x00d8) +#define RTL839X_CHIP_INFO (0x0ff4) +#define RTL838X_PORT_ISO_CTRL(port) (0x4100 + ((port) << 2)) +#define RTL839X_PORT_ISO_CTRL(port) (0x1400 + ((port) << 3)) + +/* Packet statistics */ +#define RTL838X_STAT_PORT_STD_MIB (0x1200) +#define RTL839X_STAT_PORT_STD_MIB (0xC000) +#define RTL930X_STAT_PORT_MIB_CNTR (0x0664) +#define RTL838X_STAT_RST (0x3100) +#define RTL839X_STAT_RST (0xF504) +#define RTL930X_STAT_RST (0x3240) +#define RTL931X_STAT_RST (0x7ef4) +#define RTL838X_STAT_PORT_RST (0x3104) +#define RTL839X_STAT_PORT_RST (0xF508) +#define RTL930X_STAT_PORT_RST (0x3244) +#define RTL931X_STAT_PORT_RST (0x7ef8) +#define RTL838X_STAT_CTRL (0x3108) +#define RTL839X_STAT_CTRL (0x04cc) +#define RTL930X_STAT_CTRL (0x3248) +#define RTL931X_STAT_CTRL (0x5720) + +/* Registers of the internal Serdes of the 8390 */ +#define RTL8390_SDS0_1_XSG0 (0xA000) +#define RTL8390_SDS0_1_XSG1 (0xA100) +#define RTL839X_SDS12_13_XSG0 (0xB800) +#define RTL839X_SDS12_13_XSG1 (0xB900) +#define RTL839X_SDS12_13_PWR0 (0xb880) +#define RTL839X_SDS12_13_PWR1 (0xb980) + +/* Registers of the internal Serdes of the 8380 */ +#define RTL838X_SDS4_FIB_REG0 (0xF800) +#define RTL838X_SDS4_REG28 (0xef80) +#define RTL838X_SDS4_DUMMY0 (0xef8c) +#define RTL838X_SDS5_EXT_REG6 (0xf18c) + +/* VLAN registers */ +#define RTL838X_VLAN_CTRL (0x3A74) +#define RTL838X_VLAN_PROFILE(idx) (0x3A88 + ((idx) << 2)) +#define RTL838X_VLAN_PORT_EGR_FLTR (0x3A84) +#define RTL838X_VLAN_PORT_PB_VLAN (0x3C00) +#define RTL838X_VLAN_PORT_IGR_FLTR(port) (0x3A7C + (((port >> 4) << 2))) +#define RTL838X_VLAN_PORT_IGR_FLTR_0 (0x3A7C) +#define RTL838X_VLAN_PORT_IGR_FLTR_1 (0x3A7C + 4) +#define RTL838X_VLAN_PORT_TAG_STS_CTRL (0xA530) + +#define RTL839X_VLAN_PROFILE(idx) (0x25C0 + (((idx) << 3))) +#define RTL839X_VLAN_CTRL (0x26D4) +#define RTL839X_VLAN_PORT_PB_VLAN (0x26D8) +#define RTL839X_VLAN_PORT_IGR_FLTR(port) (0x27B4 + (((port >> 4) << 2))) +#define RTL839X_VLAN_PORT_EGR_FLTR(port) (0x27C4 + (((port >> 5) << 2))) +#define RTL839X_VLAN_PORT_TAG_STS_CTRL (0x6828) + +#define RTL930X_VLAN_PROFILE_SET(idx) (0x9c60 + (((idx) * 20))) +#define RTL930X_VLAN_CTRL (0x82D4) +#define RTL930X_VLAN_PORT_PB_VLAN (0x82D8) +#define RTL930X_VLAN_PORT_IGR_FLTR(port) (0x83C0 + (((port >> 4) << 2))) +#define RTL930X_VLAN_PORT_EGR_FLTR (0x83C8) +#define RTL930X_VLAN_PORT_TAG_STS_CTRL (0xCE24) + +#define RTL931X_VLAN_PROFILE_SET(idx) (0x9800 + (((idx) * 28))) +#define RTL931X_VLAN_CTRL (0x94E4) +#define RTL931X_VLAN_PORT_IGR_FLTR(port) (0x96B4 + (((port >> 4) << 2))) +#define RTL931X_VLAN_PORT_EGR_FLTR(port) (0x96C4 + (((port >> 5) << 2))) +#define RTL931X_VLAN_PORT_TAG_CTRL (0x4860) + +/* Table access registers */ +#define RTL838X_TBL_ACCESS_CTRL_0 (0x6914) +#define RTL838X_TBL_ACCESS_DATA_0(idx) (0x6918 + ((idx) << 2)) +#define RTL838X_TBL_ACCESS_CTRL_1 (0xA4C8) +#define RTL838X_TBL_ACCESS_DATA_1(idx) (0xA4CC + ((idx) << 2)) + +#define RTL839X_TBL_ACCESS_CTRL_0 (0x1190) +#define RTL839X_TBL_ACCESS_DATA_0(idx) (0x1194 + ((idx) << 2)) +#define RTL839X_TBL_ACCESS_CTRL_1 (0x6b80) +#define RTL839X_TBL_ACCESS_DATA_1(idx) (0x6b84 + ((idx) << 2)) +#define RTL839X_TBL_ACCESS_CTRL_2 (0x611C) +#define RTL839X_TBL_ACCESS_DATA_2(i) (0x6120 + (((i) << 2))) + +#define RTL930X_TBL_ACCESS_CTRL_0 (0xB340) +#define RTL930X_TBL_ACCESS_DATA_0(idx) (0xB344 + ((idx) << 2)) +#define RTL930X_TBL_ACCESS_CTRL_1 (0xB3A0) +#define RTL930X_TBL_ACCESS_DATA_1(idx) (0xB3A4 + ((idx) << 2)) +#define RTL930X_TBL_ACCESS_CTRL_2 (0xCE04) +#define RTL930X_TBL_ACCESS_DATA_2(i) (0xCE08 + (((i) << 2))) + +#define RTL931X_TBL_ACCESS_CTRL_0 (0x8500) +#define RTL931X_TBL_ACCESS_DATA_0(idx) (0x8508 + ((idx) << 2)) +#define RTL931X_TBL_ACCESS_CTRL_1 (0x40C0) +#define RTL931X_TBL_ACCESS_DATA_1(idx) (0x40C4 + ((idx) << 2)) +#define RTL931X_TBL_ACCESS_CTRL_2 (0x8528) +#define RTL931X_TBL_ACCESS_DATA_2(i) (0x852C + (((i) << 2))) +#define RTL931X_TBL_ACCESS_CTRL_3 (0x0200) +#define RTL931X_TBL_ACCESS_DATA_3(i) (0x0204 + (((i) << 2))) +#define RTL931X_TBL_ACCESS_CTRL_4 (0x20DC) +#define RTL931X_TBL_ACCESS_DATA_4(i) (0x20E0 + (((i) << 2))) +#define RTL931X_TBL_ACCESS_CTRL_5 (0x7E1C) +#define RTL931X_TBL_ACCESS_DATA_5(i) (0x7E20 + (((i) << 2))) + +/* MAC handling */ +#define RTL838X_MAC_LINK_STS (0xa188) +#define RTL839X_MAC_LINK_STS (0x0390) +#define RTL930X_MAC_LINK_STS (0xCB10) +#define RTL931X_MAC_LINK_STS (0x0EC0) +#define RTL838X_MAC_LINK_SPD_STS(p) (0xa190 + (((p >> 4) << 2))) +#define RTL839X_MAC_LINK_SPD_STS(p) (0x03a0 + (((p >> 4) << 2))) +#define RTL930X_MAC_LINK_SPD_STS(p) (0xCB18 + (((p >> 3) << 2))) +#define RTL931X_MAC_LINK_SPD_STS(p) (0x0ED0 + (((p >> 3) << 2))) +#define RTL838X_MAC_LINK_DUP_STS (0xa19c) +#define RTL839X_MAC_LINK_DUP_STS (0x03b0) +#define RTL930X_MAC_LINK_DUP_STS (0xCB28) +#define RTL931X_MAC_LINK_DUP_STS (0x0EF0) +#define RTL838X_MAC_TX_PAUSE_STS (0xa1a0) +#define RTL839X_MAC_TX_PAUSE_STS (0x03b8) +#define RTL930X_MAC_TX_PAUSE_STS (0xCB2C) +#define RTL931X_MAC_TX_PAUSE_STS (0x0EF8) +#define RTL838X_MAC_RX_PAUSE_STS (0xa1a4) +#define RTL839X_MAC_RX_PAUSE_STS (0x03c0) +#define RTL930X_MAC_RX_PAUSE_STS (0xCB30) +#define RTL931X_MAC_RX_PAUSE_STS (0x0F00) + +/* MAC link state bits */ +#define FORCE_EN (1 << 0) +#define FORCE_LINK_EN (1 << 1) +#define NWAY_EN (1 << 2) +#define DUPLX_MODE (1 << 3) +#define TX_PAUSE_EN (1 << 6) +#define RX_PAUSE_EN (1 << 7) + +/* EEE */ +#define RTL838X_MAC_EEE_ABLTY (0xa1a8) +#define RTL838X_EEE_PORT_TX_EN (0x014c) +#define RTL838X_EEE_PORT_RX_EN (0x0150) +#define RTL838X_EEE_CLK_STOP_CTRL (0x0148) +#define RTL838X_EEE_TX_TIMER_GIGA_CTRL (0xaa04) +#define RTL838X_EEE_TX_TIMER_GELITE_CTRL (0xaa08) + +#define RTL839X_EEE_TX_TIMER_GELITE_CTRL (0x042C) +#define RTL839X_EEE_TX_TIMER_GIGA_CTRL (0x0430) +#define RTL839X_EEE_TX_TIMER_10G_CTRL (0x0434) +#define RTL839X_EEE_CTRL(p) (0x8008 + ((p) << 7)) +#define RTL839X_MAC_EEE_ABLTY (0x03C8) + +#define RTL930X_MAC_EEE_ABLTY (0xCB34) +#define RTL930X_EEE_CTRL(p) (0x3274 + ((p) << 6)) +#define RTL930X_EEEP_PORT_CTRL(p) (0x3278 + ((p) << 6)) + +/* L2 functionality */ +#define RTL838X_L2_CTRL_0 (0x3200) +#define RTL839X_L2_CTRL_0 (0x3800) +#define RTL930X_L2_CTRL (0x8FD8) +#define RTL931X_L2_CTRL (0xC800) +#define RTL838X_L2_CTRL_1 (0x3204) +#define RTL839X_L2_CTRL_1 (0x3804) +#define RTL930X_L2_AGE_CTRL (0x8FDC) +#define RTL931X_L2_AGE_CTRL (0xC804) +#define RTL838X_L2_PORT_AGING_OUT (0x3358) +#define RTL839X_L2_PORT_AGING_OUT (0x3b74) +#define RTL930X_L2_PORT_AGE_CTRL (0x8FE0) +#define RTL931X_L2_PORT_AGE_CTRL (0xc808) +#define RTL838X_TBL_ACCESS_L2_CTRL (0x6900) +#define RTL839X_TBL_ACCESS_L2_CTRL (0x1180) +#define RTL930X_TBL_ACCESS_L2_CTRL (0xB320) +#define RTL930X_TBL_ACCESS_L2_METHOD_CTRL (0xB324) +#define RTL838X_TBL_ACCESS_L2_DATA(idx) (0x6908 + ((idx) << 2)) +#define RTL839X_TBL_ACCESS_L2_DATA(idx) (0x1184 + ((idx) << 2)) +#define RTL930X_TBL_ACCESS_L2_DATA(idx) (0xab08 + ((idx) << 2)) +#define RTL838X_L2_TBL_FLUSH_CTRL (0x3370) +#define RTL839X_L2_TBL_FLUSH_CTRL (0x3ba0) +#define RTL930X_L2_TBL_FLUSH_CTRL (0x9404) +#define RTL931X_L2_TBL_FLUSH_CTRL (0xCD9C) + +#define RTL838X_L2_PORT_NEW_SALRN(p) (0x328c + (((p >> 4) << 2))) +#define RTL839X_L2_PORT_NEW_SALRN(p) (0x38F0 + (((p >> 4) << 2))) +#define RTL930X_L2_PORT_SALRN(p) (0x8FEC + (((p >> 4) << 2))) +#define RTL931X_L2_PORT_NEW_SALRN(p) (0xC820 + (((p >> 4) << 2))) +#define RTL838X_L2_PORT_NEW_SA_FWD(p) (0x3294 + (((p >> 4) << 2))) +#define RTL839X_L2_PORT_NEW_SA_FWD(p) (0x3900 + (((p >> 4) << 2))) +#define RTL930X_L2_PORT_NEW_SA_FWD(p) (0x8FF4 + (((p / 10) << 2))) +#define RTL931X_L2_PORT_NEW_SA_FWD(p) (0xC830 + (((p / 10) << 2))) + +#define RTL930X_ST_CTRL (0x8798) + +#define RTL930X_L2_PORT_SABLK_CTRL (0x905c) +#define RTL930X_L2_PORT_DABLK_CTRL (0x9060) + +#define RTL838X_RMA_BPDU_FLD_PMSK (0x4348) +#define RTL930X_RMA_BPDU_FLD_PMSK (0x9F18) +#define RTL931X_RMA_BPDU_FLD_PMSK (0x8950) +#define RTL839X_RMA_BPDU_FLD_PMSK (0x125C) + +#define RTL838X_L2_PORT_LM_ACT(p) (0x3208 + ((p) << 2)) +#define RTL838X_VLAN_PORT_FWD (0x3A78) +#define RTL839X_VLAN_PORT_FWD (0x27AC) +#define RTL930X_VLAN_PORT_FWD (0x834C) +#define RTL838X_VLAN_FID_CTRL (0x3aa8) + +/* Port Mirroring */ +#define RTL838X_MIR_CTRL (0x5D00) +#define RTL838X_MIR_DPM_CTRL (0x5D20) +#define RTL838X_MIR_SPM_CTRL (0x5D10) + +#define RTL839X_MIR_CTRL (0x2500) +#define RTL839X_MIR_DPM_CTRL (0x2530) +#define RTL839X_MIR_SPM_CTRL (0x2510) + +#define RTL930X_MIR_CTRL (0xA2A0) +#define RTL930X_MIR_DPM_CTRL (0xA2C0) +#define RTL930X_MIR_SPM_CTRL (0xA2B0) + +#define RTL931X_MIR_CTRL (0xAF00) +#define RTL931X_MIR_DPM_CTRL (0xAF30) +#define RTL931X_MIR_SPM_CTRL (0xAF10) + +/* Storm/rate control and scheduling */ +#define RTL838X_STORM_CTRL (0x4700) +#define RTL839X_STORM_CTRL (0x1800) +#define RTL838X_STORM_CTRL_LB_CTRL(p) (0x4884 + (((p) << 2))) +#define RTL838X_STORM_CTRL_BURST_PPS_0 (0x4874) +#define RTL838X_STORM_CTRL_BURST_PPS_1 (0x4878) +#define RTL838X_STORM_CTRL_BURST_0 (0x487c) +#define RTL838X_STORM_CTRL_BURST_1 (0x4880) +#define RTL839X_STORM_CTRL_LB_TICK_TKN_CTRL_0 (0x1804) +#define RTL839X_STORM_CTRL_LB_TICK_TKN_CTRL_1 (0x1808) +#define RTL838X_SCHED_CTRL (0xB980) +#define RTL839X_SCHED_CTRL (0x60F4) +#define RTL838X_SCHED_LB_TICK_TKN_CTRL_0 (0xAD58) +#define RTL838X_SCHED_LB_TICK_TKN_CTRL_1 (0xAD5C) +#define RTL839X_SCHED_LB_TICK_TKN_CTRL_0 (0x1804) +#define RTL839X_SCHED_LB_TICK_TKN_CTRL_1 (0x1808) +#define RTL839X_STORM_CTRL_SPCL_LB_TICK_TKN_CTRL (0x2000) +#define RTL839X_IGR_BWCTRL_LB_TICK_TKN_CTRL_0 (0x1604) +#define RTL839X_IGR_BWCTRL_LB_TICK_TKN_CTRL_1 (0x1608) +#define RTL839X_SCHED_LB_TICK_TKN_CTRL (0x60F8) +#define RTL839X_SCHED_LB_TICK_TKN_PPS_CTRL (0x6200) +#define RTL838X_SCHED_LB_THR (0xB984) +#define RTL839X_SCHED_LB_THR (0x60FC) +#define RTL838X_SCHED_P_EGR_RATE_CTRL(p) (0xC008 + (((p) << 7))) +#define RTL838X_SCHED_Q_EGR_RATE_CTRL(p, q) (0xC00C + (p << 7) + (((q) << 2))) +#define RTL838X_STORM_CTRL_PORT_BC_EXCEED (0x470C) +#define RTL838X_STORM_CTRL_PORT_MC_EXCEED (0x4710) +#define RTL838X_STORM_CTRL_PORT_UC_EXCEED (0x4714) +#define RTL839X_STORM_CTRL_PORT_BC_EXCEED(p) (0x180c + (((p >> 5) << 2))) +#define RTL839X_STORM_CTRL_PORT_MC_EXCEED(p) (0x1814 + (((p >> 5) << 2))) +#define RTL839X_STORM_CTRL_PORT_UC_EXCEED(p) (0x181c + (((p >> 5) << 2))) +#define RTL838X_STORM_CTRL_PORT_UC(p) (0x4718 + (((p) << 2))) +#define RTL838X_STORM_CTRL_PORT_MC(p) (0x478c + (((p) << 2))) +#define RTL838X_STORM_CTRL_PORT_BC(p) (0x4800 + (((p) << 2))) +#define RTL839X_STORM_CTRL_PORT_UC_0(p) (0x185C + (((p) << 3))) +#define RTL839X_STORM_CTRL_PORT_UC_1(p) (0x1860 + (((p) << 3))) +#define RTL839X_STORM_CTRL_PORT_MC_0(p) (0x19FC + (((p) << 3))) +#define RTL839X_STORM_CTRL_PORT_MC_1(p) (0x1a00 + (((p) << 3))) +#define RTL839X_STORM_CTRL_PORT_BC_0(p) (0x1B9C + (((p) << 3))) +#define RTL839X_STORM_CTRL_PORT_BC_1(p) (0x1BA0 + (((p) << 3))) +#define RTL839X_TBL_ACCESS_CTRL_2 (0x611C) +#define RTL839X_TBL_ACCESS_DATA_2(i) (0x6120 + (((i) << 2))) +#define RTL839X_IGR_BWCTRL_PORT_CTRL_10G_0(p) (0x1618 + (((p) << 3))) +#define RTL839X_IGR_BWCTRL_PORT_CTRL_10G_1(p) (0x161C + (((p) << 3))) +#define RTL839X_IGR_BWCTRL_PORT_CTRL_0(p) (0x1640 + (((p) << 3))) +#define RTL839X_IGR_BWCTRL_PORT_CTRL_1(p) (0x1644 + (((p) << 3))) +#define RTL839X_IGR_BWCTRL_CTRL_LB_THR (0x1614) + +/* Link aggregation (Trunking) */ +#define RTL839X_TRK_MBR_CTR (0x2200) +#define RTL838X_TRK_MBR_CTR (0x3E00) +#define RTL930X_TRK_MBR_CTRL (0xA41C) +#define RTL931X_TRK_MBR_CTRL (0xB8D0) + +/* Attack prevention */ +#define RTL838X_ATK_PRVNT_PORT_EN (0x5B00) +#define RTL838X_ATK_PRVNT_CTRL (0x5B04) +#define RTL838X_ATK_PRVNT_ACT (0x5B08) +#define RTL838X_ATK_PRVNT_STS (0x5B1C) + +/* 802.1X */ +#define RTL838X_SPCL_TRAP_EAPOL_CTRL (0x6988) +#define RTL839X_SPCL_TRAP_EAPOL_CTRL (0x105C) + +/* QoS */ +#define RTL838X_QM_INTPRI2QID_CTRL (0x5F00) +#define RTL839X_QM_INTPRI2QID_CTRL(q) (0x1110 + (q << 2)) +#define RTL839X_QM_PORT_QNUM(p) (0x1130 + (((p / 10) << 2))) +#define RTL838X_PRI_SEL_PORT_PRI(p) (0x5FB8 + (((p / 10) << 2))) +#define RTL839X_PRI_SEL_PORT_PRI(p) (0x10A8 + (((p / 10) << 2))) +#define RTL838X_QM_PKT2CPU_INTPRI_MAP (0x5F10) +#define RTL839X_QM_PKT2CPU_INTPRI_MAP (0x1154) +#define RTL838X_PRI_SEL_CTRL (0x10E0) +#define RTL839X_PRI_SEL_CTRL (0x10E0) +#define RTL838X_PRI_SEL_TBL_CTRL(i) (0x5FD8 + (((i) << 2))) +#define RTL839X_PRI_SEL_TBL_CTRL(i) (0x10D0 + (((i) << 2))) +#define RTL838X_QM_PKT2CPU_INTPRI_0 (0x5F04) +#define RTL838X_QM_PKT2CPU_INTPRI_1 (0x5F08) +#define RTL838X_QM_PKT2CPU_INTPRI_2 (0x5F0C) +#define RTL839X_OAM_CTRL (0x2100) +#define RTL839X_OAM_PORT_ACT_CTRL(p) (0x2104 + (((p) << 2))) +#define RTL839X_RMK_PORT_DEI_TAG_CTRL(p) (0x6A9C + (((p >> 5) << 2))) +#define RTL839X_PRI_SEL_IPRI_REMAP (0x1080) +#define RTL838X_PRI_SEL_IPRI_REMAP (0x5F8C) +#define RTL839X_PRI_SEL_DEI2DP_REMAP (0x10EC) +#define RTL839X_PRI_SEL_DSCP2DP_REMAP_ADDR(i) (0x10F0 + (((i >> 4) << 2))) +#define RTL839X_RMK_DEI_CTRL (0x6AA4) +#define RTL839X_WRED_PORT_THR_CTRL(i) (0x6084 + ((i) << 2)) +#define RTL839X_WRED_QUEUE_THR_CTRL(q, i) (0x6090 + ((q) * 12) + ((i) << 2)) +#define RTL838X_PRI_DSCP_INVLD_CTRL0 (0x5FE8) +#define RTL838X_RMK_IPRI_CTRL (0xA460) +#define RTL838X_RMK_OPRI_CTRL (0xA464) +#define RTL838X_SCHED_P_TYPE_CTRL(p) (0xC04C + (((p) << 7))) +#define RTL838X_SCHED_LB_CTRL(p) (0xC004 + (((p) << 7))) +#define RTL838X_FC_P_EGR_DROP_CTRL(p) (0x6B1C + (((p) << 2))) + +/* Debug features */ +#define RTL930X_STAT_PRVTE_DROP_COUNTER0 (0xB5B8) + +#define MAX_VLANS 4096 +#define MAX_LAGS 16 +#define MAX_PRIOS 8 +#define RTL930X_PORT_IGNORE 0x3f +#define MAX_MC_GROUPS 512 +#define UNKNOWN_MC_PMASK (MAX_MC_GROUPS - 1) + +enum phy_type { + PHY_NONE = 0, + PHY_RTL838X_SDS = 1, + PHY_RTL8218B_INT = 2, + PHY_RTL8218B_EXT = 3, + PHY_RTL8214FC = 4, + PHY_RTL839X_SDS = 5, +}; + +struct rtl838x_port { + bool enable; + u64 pm; + u16 pvid; + bool eee_enabled; + enum phy_type phy; + bool is10G; + bool is2G5; + u8 sds_num; + const struct dsa_port *dp; +}; + +struct rtl838x_vlan_info { + u64 untagged_ports; + u64 tagged_ports; + u8 profile_id; + bool hash_mc_fid; + bool hash_uc_fid; + u8 fid; +}; + +enum l2_entry_type { + L2_INVALID = 0, + L2_UNICAST = 1, + L2_MULTICAST = 2, + IP4_MULTICAST = 3, + IP6_MULTICAST = 4, +}; + +struct rtl838x_l2_entry { + u8 mac[6]; + u16 vid; + u16 rvid; + u8 port; + bool valid; + enum l2_entry_type type; + bool is_static; + bool is_ip_mc; + bool is_ipv6_mc; + bool block_da; + bool block_sa; + bool suspended; + bool next_hop; + int age; + u8 trunk; + bool is_trunk; + u8 stack_dev; + u16 mc_portmask_index; + u32 mc_gip; + u32 mc_sip; + u16 mc_mac_index; + u16 nh_route_id; + bool nh_vlan_target; // Only RTL83xx: VLAN used for next hop +}; + +struct rtl838x_nexthop { + u16 id; // ID in HW Nexthop table + u32 ip; // IP Addres of nexthop + u32 dev_id; + u16 port; + u16 vid; + u16 fid; + u64 mac; + u16 mac_id; + u16 l2_id; // Index of this next hop forwarding entry in L2 FIB table + u16 if_id; +}; + +struct rtl838x_switch_priv; + +struct rtl838x_reg { + void (*mask_port_reg_be)(u64 clear, u64 set, int reg); + void (*set_port_reg_be)(u64 set, int reg); + u64 (*get_port_reg_be)(int reg); + void (*mask_port_reg_le)(u64 clear, u64 set, int reg); + void (*set_port_reg_le)(u64 set, int reg); + u64 (*get_port_reg_le)(int reg); + int stat_port_rst; + int stat_rst; + int stat_port_std_mib; + int (*port_iso_ctrl)(int p); + void (*traffic_enable)(int source, int dest); + void (*traffic_disable)(int source, int dest); + void (*traffic_set)(int source, u64 dest_matrix); + u64 (*traffic_get)(int source); + int l2_ctrl_0; + int l2_ctrl_1; + int l2_port_aging_out; + int smi_poll_ctrl; + int l2_tbl_flush_ctrl; + void (*exec_tbl0_cmd)(u32 cmd); + void (*exec_tbl1_cmd)(u32 cmd); + int (*tbl_access_data_0)(int i); + int isr_glb_src; + int isr_port_link_sts_chg; + int imr_port_link_sts_chg; + int imr_glb; + void (*vlan_tables_read)(u32 vlan, struct rtl838x_vlan_info *info); + void (*vlan_set_tagged)(u32 vlan, struct rtl838x_vlan_info *info); + void (*vlan_set_untagged)(u32 vlan, u64 portmask); + void (*vlan_profile_dump)(int index); + void (*vlan_profile_setup)(int profile); + void (*stp_get)(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]); + void (*stp_set)(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]); + int (*mac_force_mode_ctrl)(int port); + int (*mac_port_ctrl)(int port); + int (*l2_port_new_salrn)(int port); + int (*l2_port_new_sa_fwd)(int port); + int mir_ctrl; + int mir_dpm; + int mir_spm; + int mac_link_sts; + int mac_link_dup_sts; + int (*mac_link_spd_sts)(int port); + int mac_rx_pause_sts; + int mac_tx_pause_sts; + u64 (*read_l2_entry_using_hash)(u32 hash, u32 position, struct rtl838x_l2_entry *e); + void (*write_l2_entry_using_hash)(u32 hash, u32 pos, struct rtl838x_l2_entry *e); + u64 (*read_cam)(int idx, struct rtl838x_l2_entry *e); + void (*write_cam)(int idx, struct rtl838x_l2_entry *e); + int vlan_port_egr_filter; + int vlan_port_igr_filter; + int vlan_port_pb; + int vlan_port_tag_sts_ctrl; + int (*rtl838x_vlan_port_tag_sts_ctrl)(int port); + int (*trk_mbr_ctr)(int group); + int rma_bpdu_fld_pmask; + int spcl_trap_eapol_ctrl; + void (*init_eee)(struct rtl838x_switch_priv *priv, bool enable); + void (*port_eee_set)(struct rtl838x_switch_priv *priv, int port, bool enable); + int (*eee_port_ability)(struct rtl838x_switch_priv *priv, + struct ethtool_eee *e, int port); + u64 (*l2_hash_seed)(u64 mac, u32 vid); + u32 (*l2_hash_key)(struct rtl838x_switch_priv *priv, u64 seed); + u64 (*read_mcast_pmask)(int idx); + void (*write_mcast_pmask)(int idx, u64 portmask); + void (*vlan_fwd_on_inner)(int port, bool is_set); +}; + +struct rtl838x_switch_priv { + /* Switch operation */ + struct dsa_switch *ds; + struct device *dev; + u16 id; + u16 family_id; + char version; + struct rtl838x_port ports[57]; + struct mutex reg_mutex; + int link_state_irq; + int mirror_group_ports[4]; + struct mii_bus *mii_bus; + const struct rtl838x_reg *r; + u8 cpu_port; + u8 port_mask; + u8 port_width; + u64 irq_mask; + u32 fib_entries; + int l2_bucket_size; + struct dentry *dbgfs_dir; + int n_lags; + u64 lags_port_members[MAX_LAGS]; + struct net_device *lag_devs[MAX_LAGS]; + struct notifier_block nb; + bool eee_enabled; + unsigned long int mc_group_bm[MAX_MC_GROUPS >> 5]; +}; + +void rtl838x_dbgfs_init(struct rtl838x_switch_priv *priv); + +#endif /* _RTL838X_H */ diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl839x.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl839x.c new file mode 100644 index 0000000000..c62dc441c1 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl839x.c @@ -0,0 +1,807 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include "rtl83xx.h" + +extern struct mutex smi_lock; +extern struct rtl83xx_soc_info soc_info; + +void rtl839x_print_matrix(void) +{ + volatile u64 *ptr9; + int i; + + ptr9 = RTL838X_SW_BASE + RTL839X_PORT_ISO_CTRL(0); + for (i = 0; i < 52; i += 4) + pr_debug("> %16llx %16llx %16llx %16llx\n", + ptr9[i + 0], ptr9[i + 1], ptr9[i + 2], ptr9[i + 3]); + pr_debug("CPU_PORT> %16llx\n", ptr9[52]); +} + +static inline int rtl839x_port_iso_ctrl(int p) +{ + return RTL839X_PORT_ISO_CTRL(p); +} + +static inline void rtl839x_exec_tbl0_cmd(u32 cmd) +{ + sw_w32(cmd, RTL839X_TBL_ACCESS_CTRL_0); + do { } while (sw_r32(RTL839X_TBL_ACCESS_CTRL_0) & BIT(16)); +} + +static inline void rtl839x_exec_tbl1_cmd(u32 cmd) +{ + sw_w32(cmd, RTL839X_TBL_ACCESS_CTRL_1); + do { } while (sw_r32(RTL839X_TBL_ACCESS_CTRL_1) & BIT(16)); +} + +inline void rtl839x_exec_tbl2_cmd(u32 cmd) +{ + sw_w32(cmd, RTL839X_TBL_ACCESS_CTRL_2); + do { } while (sw_r32(RTL839X_TBL_ACCESS_CTRL_2) & (1 << 9)); +} + +static inline int rtl839x_tbl_access_data_0(int i) +{ + return RTL839X_TBL_ACCESS_DATA_0(i); +} + +static void rtl839x_vlan_tables_read(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 u, v, w; + // Read VLAN table (0) via register 0 + struct table_reg *r = rtl_table_get(RTL8390_TBL_0, 0); + + rtl_table_read(r, vlan); + u = sw_r32(rtl_table_data(r, 0)); + v = sw_r32(rtl_table_data(r, 1)); + w = sw_r32(rtl_table_data(r, 2)); + rtl_table_release(r); + + info->tagged_ports = u; + info->tagged_ports = (info->tagged_ports << 21) | ((v >> 11) & 0x1fffff); + info->profile_id = w >> 30 | ((v & 1) << 2); + info->hash_mc_fid = !!(w & BIT(2)); + info->hash_uc_fid = !!(w & BIT(3)); + info->fid = (v >> 3) & 0xff; + + // Read UNTAG table (0) via table register 1 + r = rtl_table_get(RTL8390_TBL_1, 0); + rtl_table_read(r, vlan); + u = sw_r32(rtl_table_data(r, 0)); + v = sw_r32(rtl_table_data(r, 1)); + rtl_table_release(r); + + info->untagged_ports = u; + info->untagged_ports = (info->untagged_ports << 21) | ((v >> 11) & 0x1fffff); +} + +static void rtl839x_vlan_set_tagged(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 u, v, w; + // Access VLAN table (0) via register 0 + struct table_reg *r = rtl_table_get(RTL8390_TBL_0, 0); + + u = info->tagged_ports >> 21; + v = info->tagged_ports << 11; + v |= ((u32)info->fid) << 3; + v |= info->hash_uc_fid ? BIT(2) : 0; + v |= info->hash_mc_fid ? BIT(1) : 0; + v |= (info->profile_id & 0x4) ? 1 : 0; + w = ((u32)(info->profile_id & 3)) << 30; + + sw_w32(u, rtl_table_data(r, 0)); + sw_w32(v, rtl_table_data(r, 1)); + sw_w32(w, rtl_table_data(r, 2)); + + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +static void rtl839x_vlan_set_untagged(u32 vlan, u64 portmask) +{ + u32 u, v; + + // Access UNTAG table (0) via table register 1 + struct table_reg *r = rtl_table_get(RTL8390_TBL_1, 0); + + u = portmask >> 21; + v = portmask << 11; + + sw_w32(u, rtl_table_data(r, 0)); + sw_w32(v, rtl_table_data(r, 1)); + rtl_table_write(r, vlan); + + rtl_table_release(r); +} + +/* Sets the L2 forwarding to be based on either the inner VLAN tag or the outer + */ +static void rtl839x_vlan_fwd_on_inner(int port, bool is_set) +{ + if (is_set) + rtl839x_mask_port_reg_be(BIT_ULL(port), 0ULL, RTL839X_VLAN_PORT_FWD); + else + rtl839x_mask_port_reg_be(0ULL, BIT_ULL(port), RTL839X_VLAN_PORT_FWD); +} + +/* + * Hash seed is vid (actually rvid) concatenated with the MAC address + */ +static u64 rtl839x_l2_hash_seed(u64 mac, u32 vid) +{ + u64 v = vid; + + v <<= 48; + v |= mac; + + return v; +} + +/* + * Applies the same hash algorithm as the one used currently by the ASIC to the seed + * and returns a key into the L2 hash table + */ +static u32 rtl839x_l2_hash_key(struct rtl838x_switch_priv *priv, u64 seed) +{ + u32 h1, h2, h; + + if (sw_r32(priv->r->l2_ctrl_0) & 1) { + h1 = (u32) (((seed >> 60) & 0x3f) ^ ((seed >> 54) & 0x3f) + ^ ((seed >> 36) & 0x3f) ^ ((seed >> 30) & 0x3f) + ^ ((seed >> 12) & 0x3f) ^ ((seed >> 6) & 0x3f)); + h2 = (u32) (((seed >> 48) & 0x3f) ^ ((seed >> 42) & 0x3f) + ^ ((seed >> 24) & 0x3f) ^ ((seed >> 18) & 0x3f) + ^ (seed & 0x3f)); + h = (h1 << 6) | h2; + } else { + h = (seed >> 60) + ^ ((((seed >> 48) & 0x3f) << 6) | ((seed >> 54) & 0x3f)) + ^ ((seed >> 36) & 0xfff) ^ ((seed >> 24) & 0xfff) + ^ ((seed >> 12) & 0xfff) ^ (seed & 0xfff); + } + + return h; +} + +static inline int rtl839x_mac_force_mode_ctrl(int p) +{ + return RTL839X_MAC_FORCE_MODE_CTRL + (p << 2); +} + +static inline int rtl839x_mac_port_ctrl(int p) +{ + return RTL839X_MAC_PORT_CTRL(p); +} + +static inline int rtl839x_l2_port_new_salrn(int p) +{ + return RTL839X_L2_PORT_NEW_SALRN(p); +} + +static inline int rtl839x_l2_port_new_sa_fwd(int p) +{ + return RTL839X_L2_PORT_NEW_SA_FWD(p); +} + +static inline int rtl839x_mac_link_spd_sts(int p) +{ + return RTL839X_MAC_LINK_SPD_STS(p); +} + +static inline int rtl839x_trk_mbr_ctr(int group) +{ + return RTL839X_TRK_MBR_CTR + (group << 3); +} + +static void rtl839x_fill_l2_entry(u32 r[], struct rtl838x_l2_entry *e) +{ + /* Table contains different entry types, we need to identify the right one: + * Check for MC entries, first + */ + e->is_ip_mc = !!(r[2] & BIT(31)); + e->is_ipv6_mc = !!(r[2] & BIT(30)); + e->type = L2_INVALID; + if (!e->is_ip_mc) { + e->mac[0] = (r[0] >> 12); + e->mac[1] = (r[0] >> 4); + e->mac[2] = ((r[1] >> 28) | (r[0] << 4)); + e->mac[3] = (r[1] >> 20); + e->mac[4] = (r[1] >> 12); + e->mac[5] = (r[1] >> 4); + + /* Is it a unicast entry? check multicast bit */ + if (!(e->mac[0] & 1)) { + e->is_static = !!((r[2] >> 18) & 1); + e->vid = (r[2] >> 4) & 0xfff; + e->rvid = (r[0] >> 20) & 0xfff; + e->port = (r[2] >> 24) & 0x3f; + e->block_da = !!(r[2] & (1 << 19)); + e->block_sa = !!(r[2] & (1 << 20)); + e->suspended = !!(r[2] & (1 << 17)); + e->next_hop = !!(r[2] & (1 << 16)); + if (e->next_hop) + pr_info("Found next hop entry, need to read data\n"); + e->age = (r[2] >> 21) & 3; + e->valid = true; + if (!(r[2] & 0xc0fd0000)) /* Check for valid entry */ + e->valid = false; + else + e->type = L2_UNICAST; + } else { + e->valid = true; + e->type = L2_MULTICAST; + e->mc_portmask_index = (r[2]>>6) & 0xfff; + } + } + if (e->is_ip_mc) { + e->valid = true; + e->type = IP4_MULTICAST; + } + if (e->is_ipv6_mc) { + e->valid = true; + e->type = IP6_MULTICAST; + } +} + +/* + * Fills the 3 SoC table registers r[] with the information of in the rtl838x_l2_entry + */ +static void rtl839x_fill_l2_row(u32 r[], struct rtl838x_l2_entry *e) +{ + if (!e->valid) { + r[0] = r[1] = r[2] = 0; + return; + } + + r[2] = e->is_ip_mc ? BIT(31) : 0; + r[2] |= e->is_ipv6_mc ? BIT(30) : 0; + + if (!e->is_ip_mc && !e->is_ipv6_mc) { + r[0] = ((u32)e->mac[0]) << 12; + r[0] |= ((u32)e->mac[1]) << 4; + r[0] |= ((u32)e->mac[2]) >> 4; + r[1] = ((u32)e->mac[2]) << 28; + r[1] |= ((u32)e->mac[3]) << 20; + r[1] |= ((u32)e->mac[4]) << 12; + r[1] |= ((u32)e->mac[5]) << 4; + + if (!(e->mac[0] & 1)) { // Not multicast + r[2] |= e->is_static ? BIT(18) : 0; + r[2] |= e->vid << 4; + r[0] |= ((u32)e->rvid) << 20; + r[2] |= e->port << 24; + r[2] |= e->block_da ? BIT(19) : 0; + r[2] |= e->block_sa ? BIT(20) : 0; + r[2] |= e->suspended ? BIT(17) : 0; + if (e->next_hop) { + r[2] |= BIT(16); + r[2] |= e->nh_vlan_target ? BIT(15) : 0; + r[2] |= (e->nh_route_id & 0x7ff) << 4; + } + r[2] |= ((u32)e->age) << 21; + } else { // L2 Multicast + r[0] |= ((u32)e->rvid) << 20; + r[2] |= ((u32)e->mc_portmask_index) << 6; + pr_debug("Write L2 MC entry: %08x %08x %08x\n", r[0], r[1], r[2]); + } + } else { // IPv4 or IPv6 MC entry + r[0] = ((u32)e->rvid) << 20; + r[2] |= ((u32)e->mc_portmask_index) << 6; + r[1] = e->mc_gip; + } +} + +/* + * Read an L2 UC or MC entry out of a hash bucket of the L2 forwarding table + * hash is the id of the bucket and pos is the position of the entry in that bucket + * The data read from the SoC is filled into rtl838x_l2_entry + */ +static u64 rtl839x_read_l2_entry_using_hash(u32 hash, u32 pos, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8390_TBL_L2, 0); + u32 idx = (0 << 14) | (hash << 2) | pos; // Search SRAM, with hash and at pos in bucket + int i; + + rtl_table_read(q, idx); + for (i= 0; i < 3; i++) + r[i] = sw_r32(rtl_table_data(q, i)); + + rtl_table_release(q); + + rtl839x_fill_l2_entry(r, e); + if (!e->valid) + return 0; + + return rtl839x_l2_hash_seed(ether_addr_to_u64(&e->mac[0]), e->rvid); +} + +static void rtl839x_write_l2_entry_using_hash(u32 hash, u32 pos, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8390_TBL_L2, 0); + int i; + + u32 idx = (0 << 14) | (hash << 2) | pos; // Access SRAM, with hash and at pos in bucket + + rtl839x_fill_l2_row(r, e); + + for (i= 0; i < 3; i++) + sw_w32(r[i], rtl_table_data(q, i)); + + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static u64 rtl839x_read_cam(int idx, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8390_TBL_L2, 1); // Access L2 Table 1 + int i; + + rtl_table_read(q, idx); + for (i= 0; i < 3; i++) + r[i] = sw_r32(rtl_table_data(q, i)); + + rtl_table_release(q); + + rtl839x_fill_l2_entry(r, e); + if (!e->valid) + return 0; + + pr_debug("Found in CAM: R1 %x R2 %x R3 %x\n", r[0], r[1], r[2]); + + // Return MAC with concatenated VID ac concatenated ID + return rtl839x_l2_hash_seed(ether_addr_to_u64(&e->mac[0]), e->rvid); +} + +static void rtl839x_write_cam(int idx, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL8390_TBL_L2, 1); // Access L2 Table 1 + int i; + + rtl839x_fill_l2_row(r, e); + + for (i= 0; i < 3; i++) + sw_w32(r[i], rtl_table_data(q, i)); + + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static u64 rtl839x_read_mcast_pmask(int idx) +{ + u64 portmask; + // Read MC_PMSK (2) via register RTL8390_TBL_L2 + struct table_reg *q = rtl_table_get(RTL8390_TBL_L2, 2); + + rtl_table_read(q, idx); + portmask = sw_r32(rtl_table_data(q, 0)); + portmask <<= 32; + portmask |= sw_r32(rtl_table_data(q, 1)); + portmask >>= 11; // LSB is bit 11 in data registers + rtl_table_release(q); + + return portmask; +} + +static void rtl839x_write_mcast_pmask(int idx, u64 portmask) +{ + // Access MC_PMSK (2) via register RTL8380_TBL_L2 + struct table_reg *q = rtl_table_get(RTL8390_TBL_L2, 2); + + portmask <<= 11; // LSB is bit 11 in data registers + sw_w32((u32)(portmask >> 32), rtl_table_data(q, 0)); + sw_w32((u32)((portmask & 0xfffff800)), rtl_table_data(q, 1)); + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static void rtl839x_vlan_profile_setup(int profile) +{ + u32 p[2]; + u32 pmask_id = UNKNOWN_MC_PMASK; + + p[0] = pmask_id; // Use portmaks 0xfff for unknown IPv6 MC flooding + // Enable L2 Learning BIT 0, portmask UNKNOWN_MC_PMASK for IP/L2-MC traffic flooding + p[1] = 1 | pmask_id << 1 | pmask_id << 13; + + sw_w32(p[0], RTL839X_VLAN_PROFILE(profile)); + sw_w32(p[1], RTL839X_VLAN_PROFILE(profile) + 4); + + rtl839x_write_mcast_pmask(UNKNOWN_MC_PMASK, 0x001fffffffffffff); +} + +static inline int rtl839x_vlan_port_egr_filter(int port) +{ + return RTL839X_VLAN_PORT_EGR_FLTR(port); +} + +static inline int rtl839x_vlan_port_igr_filter(int port) +{ + return RTL839X_VLAN_PORT_IGR_FLTR(port); +} + +u64 rtl839x_traffic_get(int source) +{ + return rtl839x_get_port_reg_be(rtl839x_port_iso_ctrl(source)); +} + +void rtl839x_traffic_set(int source, u64 dest_matrix) +{ + rtl839x_set_port_reg_be(dest_matrix, rtl839x_port_iso_ctrl(source)); +} + +void rtl839x_traffic_enable(int source, int dest) +{ + rtl839x_mask_port_reg_be(0, BIT_ULL(dest), rtl839x_port_iso_ctrl(source)); +} + +void rtl839x_traffic_disable(int source, int dest) +{ + rtl839x_mask_port_reg_be(BIT_ULL(dest), 0, rtl839x_port_iso_ctrl(source)); +} + +irqreturn_t rtl839x_switch_irq(int irq, void *dev_id) +{ + struct dsa_switch *ds = dev_id; + u32 status = sw_r32(RTL839X_ISR_GLB_SRC); + u64 ports = rtl839x_get_port_reg_le(RTL839X_ISR_PORT_LINK_STS_CHG); + u64 link; + int i; + + /* Clear status */ + rtl839x_set_port_reg_le(ports, RTL839X_ISR_PORT_LINK_STS_CHG); + pr_debug("RTL8390 Link change: status: %x, ports %llx\n", status, ports); + + for (i = 0; i < RTL839X_CPU_PORT; i++) { + if (ports & BIT_ULL(i)) { + link = rtl839x_get_port_reg_le(RTL839X_MAC_LINK_STS); + if (link & BIT_ULL(i)) + dsa_port_phylink_mac_change(ds, i, true); + else + dsa_port_phylink_mac_change(ds, i, false); + } + } + return IRQ_HANDLED; +} + +// TODO: unused +int rtl8390_sds_power(int mac, int val) +{ + u32 offset = (mac == 48) ? 0x0 : 0x100; + u32 mode = val ? 0 : 1; + + pr_debug("In %s: mac %d, set %d\n", __func__, mac, val); + + if ((mac != 48) && (mac != 49)) { + pr_err("%s: not an SFP port: %d\n", __func__, mac); + return -1; + } + + // Set bit 1003. 1000 starts at 7c + sw_w32_mask(BIT(11), mode << 11, RTL839X_SDS12_13_PWR0 + offset); + + return 0; +} + +int rtl839x_read_phy(u32 port, u32 page, u32 reg, u32 *val) +{ + u32 v; + + if (port > 63 || page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + + sw_w32_mask(0xffff0000, port << 16, RTL839X_PHYREG_DATA_CTRL); + v = reg << 5 | page << 10 | ((page == 0x1fff) ? 0x1f : 0) << 23; + sw_w32(v, RTL839X_PHYREG_ACCESS_CTRL); + + sw_w32(0x1ff, RTL839X_PHYREG_CTRL); + + v |= 1; + sw_w32(v, RTL839X_PHYREG_ACCESS_CTRL); + + do { + } while (sw_r32(RTL839X_PHYREG_ACCESS_CTRL) & 0x1); + + *val = sw_r32(RTL839X_PHYREG_DATA_CTRL) & 0xffff; + + mutex_unlock(&smi_lock); + return 0; +} + +int rtl839x_write_phy(u32 port, u32 page, u32 reg, u32 val) +{ + u32 v; + int err = 0; + + val &= 0xffff; + if (port > 63 || page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + + // Set PHY to access + rtl839x_set_port_reg_le(BIT_ULL(port), RTL839X_PHYREG_PORT_CTRL); + + sw_w32_mask(0xffff0000, val << 16, RTL839X_PHYREG_DATA_CTRL); + + v = reg << 5 | page << 10 | ((page == 0x1fff) ? 0x1f : 0) << 23; + sw_w32(v, RTL839X_PHYREG_ACCESS_CTRL); + + sw_w32(0x1ff, RTL839X_PHYREG_CTRL); + + v |= BIT(3) | 1; /* Write operation and execute */ + sw_w32(v, RTL839X_PHYREG_ACCESS_CTRL); + + do { + } while (sw_r32(RTL839X_PHYREG_ACCESS_CTRL) & 0x1); + + if (sw_r32(RTL839X_PHYREG_ACCESS_CTRL) & 0x2) + err = -EIO; + + mutex_unlock(&smi_lock); + return err; +} + +/* + * Read an mmd register of the PHY + */ +int rtl839x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val) +{ + int err = 0; + u32 v; + + mutex_lock(&smi_lock); + + // Set PHY to access + sw_w32_mask(0xffff << 16, port << 16, RTL839X_PHYREG_DATA_CTRL); + + // Set MMD device number and register to write to + sw_w32(devnum << 16 | (regnum & 0xffff), RTL839X_PHYREG_MMD_CTRL); + + v = BIT(2) | BIT(0); // MMD-access | EXEC + sw_w32(v, RTL839X_PHYREG_ACCESS_CTRL); + + do { + v = sw_r32(RTL839X_PHYREG_ACCESS_CTRL); + } while (v & BIT(0)); + // There is no error-checking via BIT 1 of v, as it does not seem to be set correctly + *val = (sw_r32(RTL839X_PHYREG_DATA_CTRL) & 0xffff); + pr_debug("%s: port %d, regnum: %x, val: %x (err %d)\n", __func__, port, regnum, *val, err); + + mutex_unlock(&smi_lock); + + return err; +} + +/* + * Write to an mmd register of the PHY + */ +int rtl839x_write_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 val) +{ + int err = 0; + u32 v; + + mutex_lock(&smi_lock); + + // Set PHY to access + rtl839x_set_port_reg_le(BIT_ULL(port), RTL839X_PHYREG_PORT_CTRL); + + // Set data to write + sw_w32_mask(0xffff << 16, val << 16, RTL839X_PHYREG_DATA_CTRL); + + // Set MMD device number and register to write to + sw_w32(devnum << 16 | (regnum & 0xffff), RTL839X_PHYREG_MMD_CTRL); + + v = BIT(3) | BIT(2) | BIT(0); // WRITE | MMD-access | EXEC + sw_w32(v, RTL839X_PHYREG_ACCESS_CTRL); + + do { + v = sw_r32(RTL839X_PHYREG_ACCESS_CTRL); + } while (v & BIT(0)); + + pr_debug("%s: port %d, regnum: %x, val: %x (err %d)\n", __func__, port, regnum, val, err); + mutex_unlock(&smi_lock); + return err; +} + +void rtl8390_get_version(struct rtl838x_switch_priv *priv) +{ + u32 info; + + sw_w32_mask(0xf << 28, 0xa << 28, RTL839X_CHIP_INFO); + info = sw_r32(RTL839X_CHIP_INFO); + pr_debug("Chip-Info: %x\n", info); + priv->version = RTL8390_VERSION_A; +} + +void rtl839x_vlan_profile_dump(int profile) +{ + u32 p[2]; + + if (profile < 0 || profile > 7) + return; + + p[0] = sw_r32(RTL839X_VLAN_PROFILE(profile)); + p[1] = sw_r32(RTL839X_VLAN_PROFILE(profile) + 4); + + pr_info("VLAN profile %d: L2 learning: %d, UNKN L2MC FLD PMSK %d, \ + UNKN IPMC FLD PMSK %d, UNKN IPv6MC FLD PMSK: %d", + profile, p[1] & 1, (p[1] >> 1) & 0xfff, (p[1] >> 13) & 0xfff, + (p[0]) & 0xfff); + pr_info("VLAN profile %d: raw %08x, %08x\n", profile, p[0], p[1]); +} + +static void rtl839x_stp_get(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 16 /* Execute cmd */ + | 0 << 15 /* Read */ + | 5 << 12 /* Table type 0b101 */ + | (msti & 0xfff); + priv->r->exec_tbl0_cmd(cmd); + + for (i = 0; i < 4; i++) + port_state[i] = sw_r32(priv->r->tbl_access_data_0(i)); +} + +static void rtl839x_stp_set(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 16 /* Execute cmd */ + | 1 << 15 /* Write */ + | 5 << 12 /* Table type 0b101 */ + | (msti & 0xfff); + for (i = 0; i < 4; i++) + sw_w32(port_state[i], priv->r->tbl_access_data_0(i)); + priv->r->exec_tbl0_cmd(cmd); +} + +/* + * Enables or disables the EEE/EEEP capability of a port + */ +void rtl839x_port_eee_set(struct rtl838x_switch_priv *priv, int port, bool enable) +{ + u32 v; + + // This works only for Ethernet ports, and on the RTL839X, ports above 47 are SFP + if (port >= 48) + return; + + enable = true; + pr_debug("In %s: setting port %d to %d\n", __func__, port, enable); + v = enable ? 0xf : 0x0; + + // Set EEE for 100, 500, 1000MBit and 10GBit + sw_w32_mask(0xf << 8, v << 8, rtl839x_mac_force_mode_ctrl(port)); + + // Set TX/RX EEE state + v = enable ? 0x3 : 0x0; + sw_w32(v, RTL839X_EEE_CTRL(port)); + + priv->ports[port].eee_enabled = enable; +} + +/* + * Get EEE own capabilities and negotiation result + */ +int rtl839x_eee_port_ability(struct rtl838x_switch_priv *priv, struct ethtool_eee *e, int port) +{ + u64 link, a; + + if (port >= 48) + return 0; + + link = rtl839x_get_port_reg_le(RTL839X_MAC_LINK_STS); + if (!(link & BIT_ULL(port))) + return 0; + + if (sw_r32(rtl839x_mac_force_mode_ctrl(port)) & BIT(8)) + e->advertised |= ADVERTISED_100baseT_Full; + + if (sw_r32(rtl839x_mac_force_mode_ctrl(port)) & BIT(10)) + e->advertised |= ADVERTISED_1000baseT_Full; + + a = rtl839x_get_port_reg_le(RTL839X_MAC_EEE_ABLTY); + pr_info("Link partner: %016llx\n", a); + if (rtl839x_get_port_reg_le(RTL839X_MAC_EEE_ABLTY) & BIT_ULL(port)) { + e->lp_advertised = ADVERTISED_100baseT_Full; + e->lp_advertised |= ADVERTISED_1000baseT_Full; + return 1; + } + + return 0; +} + +static void rtl839x_init_eee(struct rtl838x_switch_priv *priv, bool enable) +{ + int i; + + pr_info("Setting up EEE, state: %d\n", enable); + + // Set wake timer for TX and pause timer both to 0x21 + sw_w32_mask(0xff << 20| 0xff, 0x21 << 20| 0x21, RTL839X_EEE_TX_TIMER_GELITE_CTRL); + // Set pause wake timer for GIGA-EEE to 0x11 + sw_w32_mask(0xff << 20, 0x11 << 20, RTL839X_EEE_TX_TIMER_GIGA_CTRL); + // Set pause wake timer for 10GBit ports to 0x11 + sw_w32_mask(0xff << 20, 0x11 << 20, RTL839X_EEE_TX_TIMER_10G_CTRL); + + // Setup EEE on all ports + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) + rtl839x_port_eee_set(priv, i, enable); + } + priv->eee_enabled = enable; +} + +const struct rtl838x_reg rtl839x_reg = { + .mask_port_reg_be = rtl839x_mask_port_reg_be, + .set_port_reg_be = rtl839x_set_port_reg_be, + .get_port_reg_be = rtl839x_get_port_reg_be, + .mask_port_reg_le = rtl839x_mask_port_reg_le, + .set_port_reg_le = rtl839x_set_port_reg_le, + .get_port_reg_le = rtl839x_get_port_reg_le, + .stat_port_rst = RTL839X_STAT_PORT_RST, + .stat_rst = RTL839X_STAT_RST, + .stat_port_std_mib = RTL839X_STAT_PORT_STD_MIB, + .traffic_enable = rtl839x_traffic_enable, + .traffic_disable = rtl839x_traffic_disable, + .traffic_get = rtl839x_traffic_get, + .traffic_set = rtl839x_traffic_set, + .port_iso_ctrl = rtl839x_port_iso_ctrl, + .l2_ctrl_0 = RTL839X_L2_CTRL_0, + .l2_ctrl_1 = RTL839X_L2_CTRL_1, + .l2_port_aging_out = RTL839X_L2_PORT_AGING_OUT, + .smi_poll_ctrl = RTL839X_SMI_PORT_POLLING_CTRL, + .l2_tbl_flush_ctrl = RTL839X_L2_TBL_FLUSH_CTRL, + .exec_tbl0_cmd = rtl839x_exec_tbl0_cmd, + .exec_tbl1_cmd = rtl839x_exec_tbl1_cmd, + .tbl_access_data_0 = rtl839x_tbl_access_data_0, + .isr_glb_src = RTL839X_ISR_GLB_SRC, + .isr_port_link_sts_chg = RTL839X_ISR_PORT_LINK_STS_CHG, + .imr_port_link_sts_chg = RTL839X_IMR_PORT_LINK_STS_CHG, + .imr_glb = RTL839X_IMR_GLB, + .vlan_tables_read = rtl839x_vlan_tables_read, + .vlan_set_tagged = rtl839x_vlan_set_tagged, + .vlan_set_untagged = rtl839x_vlan_set_untagged, + .vlan_profile_dump = rtl839x_vlan_profile_dump, + .vlan_profile_setup = rtl839x_vlan_profile_setup, + .vlan_fwd_on_inner = rtl839x_vlan_fwd_on_inner, + .stp_get = rtl839x_stp_get, + .stp_set = rtl839x_stp_set, + .mac_force_mode_ctrl = rtl839x_mac_force_mode_ctrl, + .mac_port_ctrl = rtl839x_mac_port_ctrl, + .l2_port_new_salrn = rtl839x_l2_port_new_salrn, + .l2_port_new_sa_fwd = rtl839x_l2_port_new_sa_fwd, + .mir_ctrl = RTL839X_MIR_CTRL, + .mir_dpm = RTL839X_MIR_DPM_CTRL, + .mir_spm = RTL839X_MIR_SPM_CTRL, + .mac_link_sts = RTL839X_MAC_LINK_STS, + .mac_link_dup_sts = RTL839X_MAC_LINK_DUP_STS, + .mac_link_spd_sts = rtl839x_mac_link_spd_sts, + .mac_rx_pause_sts = RTL839X_MAC_RX_PAUSE_STS, + .mac_tx_pause_sts = RTL839X_MAC_TX_PAUSE_STS, + .read_l2_entry_using_hash = rtl839x_read_l2_entry_using_hash, + .write_l2_entry_using_hash = rtl839x_write_l2_entry_using_hash, + .read_cam = rtl839x_read_cam, + .write_cam = rtl839x_write_cam, + .vlan_port_egr_filter = RTL839X_VLAN_PORT_EGR_FLTR(0), + .vlan_port_igr_filter = RTL839X_VLAN_PORT_IGR_FLTR(0), + .vlan_port_pb = RTL839X_VLAN_PORT_PB_VLAN, + .vlan_port_tag_sts_ctrl = RTL839X_VLAN_PORT_TAG_STS_CTRL, + .trk_mbr_ctr = rtl839x_trk_mbr_ctr, + .rma_bpdu_fld_pmask = RTL839X_RMA_BPDU_FLD_PMSK, + .spcl_trap_eapol_ctrl = RTL839X_SPCL_TRAP_EAPOL_CTRL, + .init_eee = rtl839x_init_eee, + .port_eee_set = rtl839x_port_eee_set, + .eee_port_ability = rtl839x_eee_port_ability, + .l2_hash_seed = rtl839x_l2_hash_seed, + .l2_hash_key = rtl839x_l2_hash_key, + .read_mcast_pmask = rtl839x_read_mcast_pmask, + .write_mcast_pmask = rtl839x_write_mcast_pmask, +}; diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl83xx.h b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl83xx.h new file mode 100644 index 0000000000..fd0455a6cd --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl83xx.h @@ -0,0 +1,125 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef _NET_DSA_RTL83XX_H +#define _NET_DSA_RTL83XX_H + +#include +#include "rtl838x.h" + + +#define RTL8380_VERSION_A 'A' +#define RTL8390_VERSION_A 'A' +#define RTL8380_VERSION_B 'B' + +struct fdb_update_work { + struct work_struct work; + struct net_device *ndev; + u64 macs[]; +}; + +#define MIB_DESC(_size, _offset, _name) {.size = _size, .offset = _offset, .name = _name} +struct rtl83xx_mib_desc { + unsigned int size; + unsigned int offset; + const char *name; +}; + +/* API for switch table access */ +struct table_reg { + u16 addr; + u16 data; + u8 max_data; + u8 c_bit; + u8 t_bit; + u8 rmode; + u8 tbl; + struct mutex lock; +}; + +#define TBL_DESC(_addr, _data, _max_data, _c_bit, _t_bit, _rmode) \ + { .addr = _addr, .data = _data, .max_data = _max_data, .c_bit = _c_bit, \ + .t_bit = _t_bit, .rmode = _rmode \ + } + +typedef enum { + RTL8380_TBL_L2 = 0, + RTL8380_TBL_0, + RTL8380_TBL_1, + RTL8390_TBL_L2, + RTL8390_TBL_0, + RTL8390_TBL_1, + RTL8390_TBL_2, + RTL9300_TBL_L2, + RTL9300_TBL_0, + RTL9300_TBL_1, + RTL9300_TBL_2, + RTL9300_TBL_HSB, + RTL9300_TBL_HSA, + RTL9310_TBL_0, + RTL9310_TBL_1, + RTL9310_TBL_2, + RTL9310_TBL_3, + RTL9310_TBL_4, + RTL9310_TBL_5, + RTL_TBL_END +} rtl838x_tbl_reg_t; + +void rtl_table_init(void); +struct table_reg *rtl_table_get(rtl838x_tbl_reg_t r, int t); +void rtl_table_release(struct table_reg *r); +void rtl_table_read(struct table_reg *r, int idx); +void rtl_table_write(struct table_reg *r, int idx); +inline u16 rtl_table_data(struct table_reg *r, int i); +inline u32 rtl_table_data_r(struct table_reg *r, int i); +inline void rtl_table_data_w(struct table_reg *r, u32 v, int i); + +void __init rtl83xx_setup_qos(struct rtl838x_switch_priv *priv); +int read_phy(u32 port, u32 page, u32 reg, u32 *val); +int write_phy(u32 port, u32 page, u32 reg, u32 val); + +/* Port register accessor functions for the RTL839x and RTL931X SoCs */ +void rtl839x_mask_port_reg_be(u64 clear, u64 set, int reg); +u64 rtl839x_get_port_reg_be(int reg); +void rtl839x_set_port_reg_be(u64 set, int reg); +void rtl839x_mask_port_reg_le(u64 clear, u64 set, int reg); +void rtl839x_set_port_reg_le(u64 set, int reg); +u64 rtl839x_get_port_reg_le(int reg); + +/* Port register accessor functions for the RTL838x and RTL930X SoCs */ +void rtl838x_mask_port_reg(u64 clear, u64 set, int reg); +void rtl838x_set_port_reg(u64 set, int reg); +u64 rtl838x_get_port_reg(int reg); + +/* RTL838x-specific */ +u32 rtl838x_hash(struct rtl838x_switch_priv *priv, u64 seed); +irqreturn_t rtl838x_switch_irq(int irq, void *dev_id); +void rtl8380_get_version(struct rtl838x_switch_priv *priv); +void rtl838x_vlan_profile_dump(int index); +int rtl83xx_dsa_phy_read(struct dsa_switch *ds, int phy_addr, int phy_reg); +void rtl8380_sds_rst(int mac); +int rtl8380_sds_power(int mac, int val); +void rtl838x_print_matrix(void); + +/* RTL839x-specific */ +u32 rtl839x_hash(struct rtl838x_switch_priv *priv, u64 seed); +irqreturn_t rtl839x_switch_irq(int irq, void *dev_id); +void rtl8390_get_version(struct rtl838x_switch_priv *priv); +void rtl839x_vlan_profile_dump(int index); +int rtl83xx_dsa_phy_write(struct dsa_switch *ds, int phy_addr, int phy_reg, u16 val); +void rtl839x_exec_tbl2_cmd(u32 cmd); +void rtl839x_print_matrix(void); + +/* RTL930x-specific */ +u32 rtl930x_hash(struct rtl838x_switch_priv *priv, u64 seed); +irqreturn_t rtl930x_switch_irq(int irq, void *dev_id); +irqreturn_t rtl839x_switch_irq(int irq, void *dev_id); +void rtl930x_vlan_profile_dump(int index); +int rtl9300_sds_power(int mac, int val); +void rtl9300_sds_rst(int sds_num, u32 mode); +void rtl930x_print_matrix(void); + +/* RTL931x-specific */ +irqreturn_t rtl931x_switch_irq(int irq, void *dev_id); + +#endif /* _NET_DSA_RTL83XX_H */ + diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl930x.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl930x.c new file mode 100644 index 0000000000..f1de39f0bc --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl930x.c @@ -0,0 +1,1039 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include "rtl83xx.h" + +extern struct mutex smi_lock; +extern struct rtl83xx_soc_info soc_info; + +void rtl930x_print_matrix(void) +{ + int i; + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 6); + + for (i = 0; i < 29; i++) { + rtl_table_read(r, i); + pr_debug("> %08x\n", sw_r32(rtl_table_data(r, 0))); + } + rtl_table_release(r); +} + +inline void rtl930x_exec_tbl0_cmd(u32 cmd) +{ + sw_w32(cmd, RTL930X_TBL_ACCESS_CTRL_0); + do { } while (sw_r32(RTL930X_TBL_ACCESS_CTRL_0) & (1 << 17)); +} + +inline void rtl930x_exec_tbl1_cmd(u32 cmd) +{ + sw_w32(cmd, RTL930X_TBL_ACCESS_CTRL_1); + do { } while (sw_r32(RTL930X_TBL_ACCESS_CTRL_1) & (1 << 17)); +} + +inline int rtl930x_tbl_access_data_0(int i) +{ + return RTL930X_TBL_ACCESS_DATA_0(i); +} + +static inline int rtl930x_l2_port_new_salrn(int p) +{ + return RTL930X_L2_PORT_SALRN(p); +} + +static inline int rtl930x_l2_port_new_sa_fwd(int p) +{ + // TODO: The definition of the fields changed, because of the master-cpu in a stack + return RTL930X_L2_PORT_NEW_SA_FWD(p); +} + +inline static int rtl930x_trk_mbr_ctr(int group) +{ + return RTL930X_TRK_MBR_CTRL + (group << 2); +} + +static void rtl930x_vlan_tables_read(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 v, w; + // Read VLAN table (1) via register 0 + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 1); + + rtl_table_read(r, vlan); + v = sw_r32(rtl_table_data(r, 0)); + w = sw_r32(rtl_table_data(r, 1)); + pr_debug("VLAN_READ %d: %08x %08x\n", vlan, v, w); + rtl_table_release(r); + + info->tagged_ports = v >> 3; + info->profile_id = (w >> 24) & 7; + info->hash_mc_fid = !!(w & BIT(27)); + info->hash_uc_fid = !!(w & BIT(28)); + info->fid = ((v & 0x7) << 3) | ((w >> 29) & 0x7); + + // Read UNTAG table via table register 2 + r = rtl_table_get(RTL9300_TBL_2, 0); + rtl_table_read(r, vlan); + v = sw_r32(rtl_table_data(r, 0)); + rtl_table_release(r); + + info->untagged_ports = v >> 3; +} + +static void rtl930x_vlan_set_tagged(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 v, w; + // Access VLAN table (1) via register 0 + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 1); + + v = info->tagged_ports << 3; + v |= ((u32)info->fid) >> 3; + + w = ((u32)info->fid) << 29; + w |= info->hash_mc_fid ? BIT(27) : 0; + w |= info->hash_uc_fid ? BIT(28) : 0; + w |= info->profile_id << 24; + + sw_w32(v, rtl_table_data(r, 0)); + sw_w32(w, rtl_table_data(r, 1)); + + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +void rtl930x_vlan_profile_dump(int profile) +{ + u32 p[5]; + + if (profile < 0 || profile > 7) + return; + + p[0] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile)); + p[1] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile) + 4); + p[2] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile) + 8) & 0x1FFFFFFF; + p[3] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile) + 12) & 0x1FFFFFFF; + p[4] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile) + 16) & 0x1FFFFFFF; + + pr_info("VLAN %d: L2 learn: %d; Unknown MC PMasks: L2 %0x, IPv4 %0x, IPv6: %0x", + profile, p[0] & (3 << 21), p[2], p[3], p[4]); + pr_info(" Routing enabled: IPv4 UC %c, IPv6 UC %c, IPv4 MC %c, IPv6 MC %c\n", + p[0] & BIT(17) ? 'y' : 'n', p[0] & BIT(16) ? 'y' : 'n', + p[0] & BIT(13) ? 'y' : 'n', p[0] & BIT(12) ? 'y' : 'n'); + pr_info(" Bridge enabled: IPv4 MC %c, IPv6 MC %c,\n", + p[0] & BIT(15) ? 'y' : 'n', p[0] & BIT(14) ? 'y' : 'n'); + pr_info("VLAN profile %d: raw %08x %08x %08x %08x %08x\n", + profile, p[0], p[1], p[2], p[3], p[4]); +} + +static void rtl930x_vlan_set_untagged(u32 vlan, u64 portmask) +{ + struct table_reg *r = rtl_table_get(RTL9300_TBL_2, 0); + + sw_w32(portmask << 3, rtl_table_data(r, 0)); + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +/* Sets the L2 forwarding to be based on either the inner VLAN tag or the outer + */ +static void rtl930x_vlan_fwd_on_inner(int port, bool is_set) +{ + // Always set all tag modes to fwd based on either inner or outer tag + if (is_set) + sw_w32_mask(0, 0xf, RTL930X_VLAN_PORT_FWD + (port << 2)); + else + sw_w32_mask(0xf, 0, RTL930X_VLAN_PORT_FWD + (port << 2)); +} + +static void rtl930x_vlan_profile_setup(int profile) +{ + u32 p[5]; + + pr_info("In %s\n", __func__); + p[0] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile)); + p[1] = sw_r32(RTL930X_VLAN_PROFILE_SET(profile) + 4); + + // Enable routing of Ipv4/6 Unicast and IPv4/6 Multicast traffic + p[0] |= BIT(17) | BIT(16) | BIT(13) | BIT(12); + p[2] = 0x1fffffff; // L2 unknown MC flooding portmask all ports, including the CPU-port + p[3] = 0x1fffffff; // IPv4 unknown MC flooding portmask + p[4] = 0x1fffffff; // IPv6 unknown MC flooding portmask + + sw_w32(p[0], RTL930X_VLAN_PROFILE_SET(profile)); + sw_w32(p[1], RTL930X_VLAN_PROFILE_SET(profile) + 4); + sw_w32(p[2], RTL930X_VLAN_PROFILE_SET(profile) + 8); + sw_w32(p[3], RTL930X_VLAN_PROFILE_SET(profile) + 12); + sw_w32(p[4], RTL930X_VLAN_PROFILE_SET(profile) + 16); + pr_info("Leaving %s\n", __func__); +} + +static void rtl930x_stp_get(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 17 /* Execute cmd */ + | 0 << 16 /* Read */ + | 4 << 12 /* Table type 0b10 */ + | (msti & 0xfff); + priv->r->exec_tbl0_cmd(cmd); + + for (i = 0; i < 2; i++) + port_state[i] = sw_r32(RTL930X_TBL_ACCESS_DATA_0(i)); + pr_debug("MSTI: %d STATE: %08x, %08x\n", msti, port_state[0], port_state[1]); +} + +static void rtl930x_stp_set(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 17 /* Execute cmd */ + | 1 << 16 /* Write */ + | 4 << 12 /* Table type 4 */ + | (msti & 0xfff); + + for (i = 0; i < 2; i++) + sw_w32(port_state[i], RTL930X_TBL_ACCESS_DATA_0(i)); + priv->r->exec_tbl0_cmd(cmd); +} + +static inline int rtl930x_mac_force_mode_ctrl(int p) +{ + return RTL930X_MAC_FORCE_MODE_CTRL + (p << 2); +} + +static inline int rtl930x_mac_port_ctrl(int p) +{ + return RTL930X_MAC_L2_PORT_CTRL(p); +} + +static inline int rtl930x_mac_link_spd_sts(int p) +{ + return RTL930X_MAC_LINK_SPD_STS(p); +} + +static u64 rtl930x_l2_hash_seed(u64 mac, u32 vid) +{ + u64 v = vid; + + v <<= 48; + v |= mac; + + return v; +} + +/* + * Calculate both the block 0 and the block 1 hash by applyingthe same hash + * algorithm as the one used currently by the ASIC to the seed, and return + * both hashes in the lower and higher word of the return value since only 12 bit of + * the hash are significant + */ +static u32 rtl930x_l2_hash_key(struct rtl838x_switch_priv *priv, u64 seed) +{ + u32 k0, k1, h1, h2, h; + + k0 = (u32) (((seed >> 55) & 0x1f) ^ ((seed >> 44) & 0x7ff) + ^ ((seed >> 33) & 0x7ff) ^ ((seed >> 22) & 0x7ff) + ^ ((seed >> 11) & 0x7ff) ^ (seed & 0x7ff)); + + h1 = (seed >> 11) & 0x7ff; + h1 = ((h1 & 0x1f) << 6) | ((h1 >> 5) & 0x3f); + + h2 = (seed >> 33) & 0x7ff; + h2 = ((h2 & 0x3f) << 5)| ((h2 >> 6) & 0x3f); + + k1 = (u32) (((seed << 55) & 0x1f) ^ ((seed >> 44) & 0x7ff) ^ h2 + ^ ((seed >> 22) & 0x7ff) ^ h1 + ^ (seed & 0x7ff)); + + // Algorithm choice for block 0 + if (sw_r32(RTL930X_L2_CTRL) & BIT(0)) + h = k1; + else + h = k0; + + /* Algorithm choice for block 1 + * Since k0 and k1 are < 2048, adding 2048 will offset the hash into the second + * half of hash-space + * 2048 is in fact the hash-table size 16384 divided by 4 hashes per bucket + * divided by 2 to divide the hash space in 2 + */ + if (sw_r32(RTL930X_L2_CTRL) & BIT(1)) + h |= (k1 + 2048) << 16; + else + h |= (k0 + 2048) << 16; + + return h; +} + +/* + * Fills an L2 entry structure from the SoC registers + */ +static void rtl930x_fill_l2_entry(u32 r[], struct rtl838x_l2_entry *e) +{ + pr_debug("In %s valid?\n", __func__); + e->valid = !!(r[2] & BIT(31)); + if (!e->valid) + return; + + pr_debug("In %s is valid\n", __func__); + e->is_ip_mc = false; + e->is_ipv6_mc = false; + + // TODO: Is there not a function to copy directly MAC memory? + e->mac[0] = (r[0] >> 24); + e->mac[1] = (r[0] >> 16); + e->mac[2] = (r[0] >> 8); + e->mac[3] = r[0]; + e->mac[4] = (r[1] >> 24); + e->mac[5] = (r[1] >> 16); + + e->next_hop = !!(r[2] & BIT(12)); + e->rvid = r[1] & 0xfff; + + /* Is it a unicast entry? check multicast bit */ + if (!(e->mac[0] & 1)) { + e->type = L2_UNICAST; + e->is_static = !!(r[2] & BIT(14)); + e->port = (r[2] >> 20) & 0x3ff; + // Check for trunk port + if (r[2] & BIT(30)) { + e->is_trunk = true; + e->stack_dev = (e->port >> 9) & 1; + e->trunk = e->port & 0x3f; + } else { + e->is_trunk = false; + e->stack_dev = (e->port >> 6) & 0xf; + e->port = e->port & 0x3f; + } + + e->block_da = !!(r[2] & BIT(15)); + e->block_sa = !!(r[2] & BIT(16)); + e->suspended = !!(r[2] & BIT(13)); + e->age = (r[2] >> 17) & 3; + e->valid = true; + // the UC_VID field in hardware is used for the VID or for the route id + if (e->next_hop) { + e->nh_route_id = r[2] & 0xfff; + e->vid = 0; + } else { + e->vid = r[2] & 0xfff; + e->nh_route_id = 0; + } + } else { + e->valid = true; + e->type = L2_MULTICAST; + e->mc_portmask_index = (r[2] >> 16) & 0x3ff; + } +} + +/* + * Fills the 3 SoC table registers r[] with the information of in the rtl838x_l2_entry + */ +static void rtl930x_fill_l2_row(u32 r[], struct rtl838x_l2_entry *e) +{ + u32 port; + + if (!e->valid) { + r[0] = r[1] = r[2] = 0; + return; + } + + r[2] = BIT(31); // Set valid bit + + r[0] = ((u32)e->mac[0]) << 24 | ((u32)e->mac[1]) << 16 + | ((u32)e->mac[2]) << 8 | ((u32)e->mac[3]); + r[1] = ((u32)e->mac[4]) << 24 | ((u32)e->mac[5]) << 16; + + r[2] |= e->next_hop ? BIT(12) : 0; + + if (e->type == L2_UNICAST) { + r[2] |= e->is_static ? BIT(14) : 0; + r[1] |= e->rvid & 0xfff; + r[2] |= (e->port & 0x3ff) << 20; + if (e->is_trunk) { + r[2] |= BIT(30); + port = e->stack_dev << 9 | (e->port & 0x3f); + } else { + port = (e->stack_dev & 0xf) << 6; + port |= e->port & 0x3f; + } + r[2] |= port << 20; + r[2] |= e->block_da ? BIT(15) : 0; + r[2] |= e->block_sa ? BIT(17) : 0; + r[2] |= e->suspended ? BIT(13) : 0; + r[2] |= (e->age & 0x3) << 17; + // the UC_VID field in hardware is used for the VID or for the route id + if (e->next_hop) + r[2] |= e->nh_route_id & 0xfff; + else + r[2] |= e->vid & 0xfff; + } else { // L2_MULTICAST + r[2] |= (e->mc_portmask_index & 0x3ff) << 16; + r[2] |= e->mc_mac_index & 0x7ff; + } +} + +/* + * Read an L2 UC or MC entry out of a hash bucket of the L2 forwarding table + * hash is the id of the bucket and pos is the position of the entry in that bucket + * The data read from the SoC is filled into rtl838x_l2_entry + */ +static u64 rtl930x_read_l2_entry_using_hash(u32 hash, u32 pos, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL9300_TBL_L2, 0); + u32 idx; + int i; + u64 mac; + u64 seed; + + pr_debug("%s: hash %08x, pos: %d\n", __func__, hash, pos); + + /* On the RTL93xx, 2 different hash algorithms are used making it a total of + * 8 buckets that need to be searched, 4 for each hash-half + * Use second hash space when bucket is between 4 and 8 */ + if (pos >= 4) { + pos -= 4; + hash >>= 16; + } else { + hash &= 0xffff; + } + + idx = (0 << 14) | (hash << 2) | pos; // Search SRAM, with hash and at pos in bucket + pr_debug("%s: NOW hash %08x, pos: %d\n", __func__, hash, pos); + + rtl_table_read(q, idx); + for (i = 0; i < 3; i++) + r[i] = sw_r32(rtl_table_data(q, i)); + + rtl_table_release(q); + + rtl930x_fill_l2_entry(r, e); + + pr_debug("%s: valid: %d, nh: %d\n", __func__, e->valid, e->next_hop); + if (!e->valid) + return 0; + + mac = ((u64)e->mac[0]) << 40 | ((u64)e->mac[1]) << 32 | ((u64)e->mac[2]) << 24 + | ((u64)e->mac[3]) << 16 | ((u64)e->mac[4]) << 8 | ((u64)e->mac[5]); + + seed = rtl930x_l2_hash_seed(mac, e->rvid); + pr_debug("%s: mac %016llx, seed %016llx\n", __func__, mac, seed); + // return vid with concatenated mac as unique id + return seed; +} + +static void rtl930x_write_l2_entry_using_hash(u32 hash, u32 pos, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL9300_TBL_L2, 0); + u32 idx = (0 << 14) | (hash << 2) | pos; // Access SRAM, with hash and at pos in bucket + int i; + + pr_info("%s: hash %d, pos %d\n", __func__, hash, pos); + pr_info("%s: index %d -> mac %02x:%02x:%02x:%02x:%02x:%02x\n", __func__, idx, + e->mac[0], e->mac[1], e->mac[2], e->mac[3],e->mac[4],e->mac[5]); + + rtl930x_fill_l2_row(r, e); + + for (i= 0; i < 3; i++) + sw_w32(r[i], rtl_table_data(q, i)); + + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static u64 rtl930x_read_cam(int idx, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL9300_TBL_L2, 1); + int i; + + rtl_table_read(q, idx); + for (i= 0; i < 3; i++) + r[i] = sw_r32(rtl_table_data(q, i)); + + rtl_table_release(q); + + rtl930x_fill_l2_entry(r, e); + if (!e->valid) + return 0; + + // return mac with concatenated vid as unique id + return ((u64)r[0] << 28) | ((r[1] & 0xffff0000) >> 4) | e->vid; +} + +static void rtl930x_write_cam(int idx, struct rtl838x_l2_entry *e) +{ + u32 r[3]; + struct table_reg *q = rtl_table_get(RTL9300_TBL_L2, 1); // Access L2 Table 1 + int i; + + rtl930x_fill_l2_row(r, e); + + for (i= 0; i < 3; i++) + sw_w32(r[i], rtl_table_data(q, i)); + + rtl_table_write(q, idx); + rtl_table_release(q); +} + +static void dump_l2_entry(struct rtl838x_l2_entry *e) +{ + pr_info("MAC: %02x:%02x:%02x:%02x:%02x:%02x vid: %d, rvid: %d, port: %d, valid: %d\n", + e->mac[0], e->mac[1], e->mac[2], e->mac[3], e->mac[4], e->mac[5], + e->vid, e->rvid, e->port, e->valid); + pr_info("Type: %d, is_static: %d, is_ip_mc: %d, is_ipv6_mc: %d, block_da: %d\n", + e->type, e->is_static, e->is_ip_mc, e->is_ipv6_mc, e->block_da); + pr_info(" block_sa: %d, suspended: %d, next_hop: %d, age: %d, is_trunk: %d, trunk: %d\n", + e->block_sa, e->suspended, e->next_hop, e->age, e->is_trunk, e->trunk); + if (e->is_ip_mc || e->is_ipv6_mc) + pr_info(" mc_portmask_index: %d, mc_gip: %d, mc_sip: %d\n", + e->mc_portmask_index, e->mc_gip, e->mc_sip); + pr_info(" stac_dev: %d, nh_route_id: %d, port: %d, dev_id\n", + e->stack_dev, e->nh_route_id, e->port); +} + +/* + * Add an L2 nexthop entry for the L3 routing system in the SoC + * Use VID and MAC in rtl838x_l2_entry to identify either a free slot in the L2 hash table + * or mark an existing entry as a nexthop by setting it's nexthop bit + * Called from the L3 layer + * The index in the L2 hash table is filled into nh->l2_id; + */ +static int rtl930x_l2_nexthop_add(struct rtl838x_switch_priv *priv, struct rtl838x_nexthop *nh) +{ + struct rtl838x_l2_entry e; + u64 seed = rtl930x_l2_hash_seed(nh->mac, nh->vid); + u32 key = rtl930x_l2_hash_key(priv, seed); + int i, idx = -1; + u64 entry; + + pr_info("%s searching for %08llx vid %d with key %d, seed: %016llx\n", + __func__, nh->mac, nh->vid, key, seed); + + e.type = L2_UNICAST; + e.rvid = nh->fid; // Verify its the forwarding ID!!! l2_entry.un.unicast.fid + u64_to_ether_addr(nh->mac, &e.mac[0]); + e.port = RTL930X_PORT_IGNORE; + + // Loop over all entries in the hash-bucket and over the second block on 93xx SoCs + for (i = 0; i < priv->l2_bucket_size; i++) { + entry = rtl930x_read_l2_entry_using_hash(key, i, &e); + pr_info("%s i: %d, entry %016llx, seed %016llx\n", __func__, i, entry, seed); + if (e.valid && e.next_hop) + continue; + if (!e.valid || ((entry & 0x0fffffffffffffffULL) == seed)) { + idx = i > 3 ? ((key >> 14) & 0xffff) | i >> 1 + : ((key << 2) | i) & 0xffff; + break; + } + } + + pr_info("%s: found idx %d and i %d\n", __func__, idx, i); + + if (idx < 0) { + pr_err("%s: No more L2 forwarding entries available\n", __func__); + return -1; + } + + // Found an existing or empty entry, make it a nexthop entry + pr_info("%s BEFORE -> key %d, pos: %d, index: %d\n", __func__, key, i, idx); + dump_l2_entry(&e); + nh->l2_id = idx; + + // Found an existing (e->valid is true) or empty entry, make it a nexthop entry + if (e.valid) { + nh->port = e.port; + nh->fid = e.rvid; + nh->vid = e.vid; + nh->dev_id = e.stack_dev; + } else { + e.valid = true; + e.is_static = false; + e.vid = nh->vid; + e.rvid = nh->fid; + e.port = RTL930X_PORT_IGNORE; + u64_to_ether_addr(nh->mac, &e.mac[0]); + } + e.next_hop = true; + // For nexthop entries, the vid field in the table is used to denote the dest mac_id + e.nh_route_id = nh->mac_id; + pr_info("%s AFTER\n", __func__); + dump_l2_entry(&e); + + rtl930x_write_l2_entry_using_hash(idx >> 2, idx & 0x3, &e); + + // _dal_longan_l2_nexthop_add + return 0; +} + +static u64 rtl930x_read_mcast_pmask(int idx) +{ + u32 portmask; + // Read MC_PORTMASK (2) via register RTL9300_TBL_L2 + struct table_reg *q = rtl_table_get(RTL9300_TBL_L2, 2); + + rtl_table_read(q, idx); + portmask = sw_r32(rtl_table_data(q, 0)); + portmask >>= 3; + rtl_table_release(q); + + pr_debug("%s: Index idx %d has portmask %08x\n", __func__, idx, portmask); + return portmask; +} + +static void rtl930x_write_mcast_pmask(int idx, u64 portmask) +{ + u32 pm = portmask; + + // Access MC_PORTMASK (2) via register RTL9300_TBL_L2 + struct table_reg *q = rtl_table_get(RTL9300_TBL_L2, 2); + + pr_debug("%s: Index idx %d has portmask %08x\n", __func__, idx, pm); + pm <<= 3; + sw_w32(pm, rtl_table_data(q, 0)); + rtl_table_write(q, idx); + rtl_table_release(q); +} + +u64 rtl930x_traffic_get(int source) +{ + u32 v; + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 6); + + rtl_table_read(r, source); + v = sw_r32(rtl_table_data(r, 0)); + rtl_table_release(r); + return v >> 3; +} + +/* + * Enable traffic between a source port and a destination port matrix + */ +void rtl930x_traffic_set(int source, u64 dest_matrix) +{ + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 6); + + sw_w32((dest_matrix << 3), rtl_table_data(r, 0)); + rtl_table_write(r, source); + rtl_table_release(r); +} + +void rtl930x_traffic_enable(int source, int dest) +{ + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 6); + rtl_table_read(r, source); + sw_w32_mask(0, BIT(dest + 3), rtl_table_data(r, 0)); + rtl_table_write(r, source); + rtl_table_release(r); +} + +void rtl930x_traffic_disable(int source, int dest) +{ + struct table_reg *r = rtl_table_get(RTL9300_TBL_0, 6); + rtl_table_read(r, source); + sw_w32_mask(BIT(dest + 3), 0, rtl_table_data(r, 0)); + rtl_table_write(r, source); + rtl_table_release(r); +} + +void rtl9300_dump_debug(void) +{ + int i; + u16 r = RTL930X_STAT_PRVTE_DROP_COUNTER0; + + for (i = 0; i < 10; i ++) { + pr_info("# %d %08x %08x %08x %08x %08x %08x %08x %08x\n", i * 8, + sw_r32(r), sw_r32(r + 4), sw_r32(r + 8), sw_r32(r + 12), + sw_r32(r + 16), sw_r32(r + 20), sw_r32(r + 24), sw_r32(r + 28)); + r += 32; + } + pr_info("# %08x %08x %08x %08x %08x\n", + sw_r32(r), sw_r32(r + 4), sw_r32(r + 8), sw_r32(r + 12), sw_r32(r + 16)); + rtl930x_print_matrix(); + pr_info("RTL930X_L2_PORT_SABLK_CTRL: %08x, RTL930X_L2_PORT_DABLK_CTRL %08x\n", + sw_r32(RTL930X_L2_PORT_SABLK_CTRL), sw_r32(RTL930X_L2_PORT_DABLK_CTRL) + + ); +} + +irqreturn_t rtl930x_switch_irq(int irq, void *dev_id) +{ + struct dsa_switch *ds = dev_id; + u32 status = sw_r32(RTL930X_ISR_GLB); + u32 ports = sw_r32(RTL930X_ISR_PORT_LINK_STS_CHG); + u32 link; + int i; + + /* Clear status */ + sw_w32(ports, RTL930X_ISR_PORT_LINK_STS_CHG); + pr_info("RTL9300 Link change: status: %x, ports %x\n", status, ports); + + rtl9300_dump_debug(); + + for (i = 0; i < 28; i++) { + if (ports & BIT(i)) { + /* Read the register twice because of issues with latency at least + * with the external RTL8226 PHY on the XGS1210 */ + link = sw_r32(RTL930X_MAC_LINK_STS); + link = sw_r32(RTL930X_MAC_LINK_STS); + if (link & BIT(i)) + dsa_port_phylink_mac_change(ds, i, true); + else + dsa_port_phylink_mac_change(ds, i, false); + } + } + + return IRQ_HANDLED; +} + +int rtl9300_sds_power(int mac, int val) +{ + int sds_num; + u32 mode; + + // TODO: these numbers are hard-coded for the Zyxel XGS1210 12 Switch + pr_info("SerDes: %s %d\n", __func__, mac); + switch (mac) { + case 24: + sds_num = 6; + mode = 0x12; // HISGMII + break; + case 25: + sds_num = 7; + mode = 0x12; // HISGMII + break; + case 26: + sds_num = 8; + mode = 0x1b; // 10GR/1000BX auto + break; + case 27: + sds_num = 9; + mode = 0x1b; // 10GR/1000BX auto + break; + default: + return -1; + } + if (!val) + mode = 0x1f; // OFF + + rtl9300_sds_rst(sds_num, mode); + + return 0; +} + +int rtl930x_write_phy(u32 port, u32 page, u32 reg, u32 val) +{ + u32 v; + int err = 0; + + pr_debug("%s: port %d, page: %d, reg: %x, val: %x\n", __func__, port, page, reg, val); + + if (port > 63 || page > 4095 || reg > 31) + return -ENOTSUPP; + + val &= 0xffff; + mutex_lock(&smi_lock); + + sw_w32(BIT(port), RTL930X_SMI_ACCESS_PHY_CTRL_0); + sw_w32_mask(0xffff << 16, val << 16, RTL930X_SMI_ACCESS_PHY_CTRL_2); + v = reg << 20 | page << 3 | 0x1f << 15 | BIT(2) | BIT(0); + sw_w32(v, RTL930X_SMI_ACCESS_PHY_CTRL_1); + + do { + v = sw_r32(RTL930X_SMI_ACCESS_PHY_CTRL_1); + } while (v & 0x1); + + if (v & 0x2) + err = -EIO; + + mutex_unlock(&smi_lock); + + return err; +} + +int rtl930x_read_phy(u32 port, u32 page, u32 reg, u32 *val) +{ + u32 v; + int err = 0; + + if (port > 63 || page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + + sw_w32_mask(0xffff << 16, port << 16, RTL930X_SMI_ACCESS_PHY_CTRL_2); + v = reg << 20 | page << 3 | 0x1f << 15 | 1; + sw_w32(v, RTL930X_SMI_ACCESS_PHY_CTRL_1); + + do { + v = sw_r32(RTL930X_SMI_ACCESS_PHY_CTRL_1); + } while ( v & 0x1); + + if (v & BIT(25)) { + pr_debug("Error reading phy %d, register %d\n", port, reg); + err = -EIO; + } + *val = (sw_r32(RTL930X_SMI_ACCESS_PHY_CTRL_2) & 0xffff); + + pr_debug("%s: port %d, page: %d, reg: %x, val: %x\n", __func__, port, page, reg, *val); + + mutex_unlock(&smi_lock); + + return err; +} + +/* + * Write to an mmd register of the PHY + */ +int rtl930x_write_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 val) +{ + int err = 0; + u32 v; + + mutex_lock(&smi_lock); + + // Set PHY to access + sw_w32(BIT(port), RTL930X_SMI_ACCESS_PHY_CTRL_0); + + // Set data to write + sw_w32_mask(0xffff << 16, val << 16, RTL930X_SMI_ACCESS_PHY_CTRL_2); + + // Set MMD device number and register to write to + sw_w32(devnum << 16 | (regnum & 0xffff), RTL930X_SMI_ACCESS_PHY_CTRL_3); + + v = BIT(2) | BIT(1) | BIT(0); // WRITE | MMD-access | EXEC + sw_w32(v, RTL930X_SMI_ACCESS_PHY_CTRL_1); + + do { + v = sw_r32(RTL930X_SMI_ACCESS_PHY_CTRL_1); + } while (v & BIT(0)); + + pr_debug("%s: port %d, regnum: %x, val: %x (err %d)\n", __func__, port, regnum, val, err); + mutex_unlock(&smi_lock); + return err; +} + +/* + * Read an mmd register of the PHY + */ +int rtl930x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val) +{ + int err = 0; + u32 v; + + mutex_lock(&smi_lock); + + // Set PHY to access + sw_w32_mask(0xffff << 16, port << 16, RTL930X_SMI_ACCESS_PHY_CTRL_2); + + // Set MMD device number and register to write to + sw_w32(devnum << 16 | (regnum & 0xffff), RTL930X_SMI_ACCESS_PHY_CTRL_3); + + v = BIT(1) | BIT(0); // MMD-access | EXEC + sw_w32(v, RTL930X_SMI_ACCESS_PHY_CTRL_1); + + do { + v = sw_r32(RTL930X_SMI_ACCESS_PHY_CTRL_1); + } while (v & BIT(0)); + // There is no error-checking via BIT 25 of v, as it does not seem to be set correctly + *val = (sw_r32(RTL930X_SMI_ACCESS_PHY_CTRL_2) & 0xffff); + pr_debug("%s: port %d, regnum: %x, val: %x (err %d)\n", __func__, port, regnum, *val, err); + + mutex_unlock(&smi_lock); + + return err; +} + +/* + * Calculate both the block 0 and the block 1 hash, and return in + * lower and higher word of the return value since only 12 bit of + * the hash are significant + */ +u32 rtl930x_hash(struct rtl838x_switch_priv *priv, u64 seed) +{ + u32 k0, k1, h1, h2, h; + + k0 = (u32) (((seed >> 55) & 0x1f) ^ ((seed >> 44) & 0x7ff) + ^ ((seed >> 33) & 0x7ff) ^ ((seed >> 22) & 0x7ff) + ^ ((seed >> 11) & 0x7ff) ^ (seed & 0x7ff)); + + h1 = (seed >> 11) & 0x7ff; + h1 = ((h1 & 0x1f) << 6) | ((h1 >> 5) & 0x3f); + + h2 = (seed >> 33) & 0x7ff; + h2 = ((h2 & 0x3f) << 5)| ((h2 >> 6) & 0x3f); + + k1 = (u32) (((seed << 55) & 0x1f) ^ ((seed >> 44) & 0x7ff) ^ h2 + ^ ((seed >> 22) & 0x7ff) ^ h1 + ^ (seed & 0x7ff)); + + // Algorithm choice for block 0 + if (sw_r32(RTL930X_L2_CTRL) & BIT(0)) + h = k1; + else + h = k0; + + /* Algorithm choice for block 1 + * Since k0 and k1 are < 2048, adding 2048 will offset the hash into the second + * half of hash-space + * 2048 is in fact the hash-table size 16384 divided by 4 hashes per bucket + * divided by 2 to divide the hash space in 2 + */ + if (sw_r32(RTL930X_L2_CTRL) & BIT(1)) + h |= (k1 + 2048) << 16; + else + h |= (k0 + 2048) << 16; + + return h; +} + +/* + * Enables or disables the EEE/EEEP capability of a port + */ +void rtl930x_port_eee_set(struct rtl838x_switch_priv *priv, int port, bool enable) +{ + u32 v; + + // This works only for Ethernet ports, and on the RTL930X, ports from 26 are SFP + if (port >= 26) + return; + + pr_debug("In %s: setting port %d to %d\n", __func__, port, enable); + v = enable ? 0x3f : 0x0; + + // Set EEE/EEEP state for 100, 500, 1000MBit and 2.5, 5 and 10GBit + sw_w32_mask(0, v << 10, rtl930x_mac_force_mode_ctrl(port)); + + // Set TX/RX EEE state + v = enable ? 0x3 : 0x0; + sw_w32(v, RTL930X_EEE_CTRL(port)); + + priv->ports[port].eee_enabled = enable; +} + +/* + * Get EEE own capabilities and negotiation result + */ +int rtl930x_eee_port_ability(struct rtl838x_switch_priv *priv, struct ethtool_eee *e, int port) +{ + u32 link, a; + + if (port >= 26) + return -ENOTSUPP; + + pr_info("In %s, port %d\n", __func__, port); + link = sw_r32(RTL930X_MAC_LINK_STS); + link = sw_r32(RTL930X_MAC_LINK_STS); + if (!(link & BIT(port))) + return 0; + + pr_info("Setting advertised\n"); + if (sw_r32(rtl930x_mac_force_mode_ctrl(port)) & BIT(10)) + e->advertised |= ADVERTISED_100baseT_Full; + + if (sw_r32(rtl930x_mac_force_mode_ctrl(port)) & BIT(12)) + e->advertised |= ADVERTISED_1000baseT_Full; + + if (priv->ports[port].is2G5 && sw_r32(rtl930x_mac_force_mode_ctrl(port)) & BIT(13)) { + pr_info("ADVERTISING 2.5G EEE\n"); + e->advertised |= ADVERTISED_2500baseX_Full; + } + + if (priv->ports[port].is10G && sw_r32(rtl930x_mac_force_mode_ctrl(port)) & BIT(15)) + e->advertised |= ADVERTISED_10000baseT_Full; + + a = sw_r32(RTL930X_MAC_EEE_ABLTY); + a = sw_r32(RTL930X_MAC_EEE_ABLTY); + pr_info("Link partner: %08x\n", a); + if (a & BIT(port)) { + e->lp_advertised = ADVERTISED_100baseT_Full; + e->lp_advertised |= ADVERTISED_1000baseT_Full; + if (priv->ports[port].is2G5) + e->lp_advertised |= ADVERTISED_2500baseX_Full; + if (priv->ports[port].is10G) + e->lp_advertised |= ADVERTISED_10000baseT_Full; + } + + // Read 2x to clear latched state + a = sw_r32(RTL930X_EEEP_PORT_CTRL(port)); + a = sw_r32(RTL930X_EEEP_PORT_CTRL(port)); + pr_info("%s RTL930X_EEEP_PORT_CTRL: %08x\n", __func__, a); + + return 0; +} + +static void rtl930x_init_eee(struct rtl838x_switch_priv *priv, bool enable) +{ + int i; + + pr_info("Setting up EEE, state: %d\n", enable); + + // Setup EEE on all ports + for (i = 0; i < priv->cpu_port; i++) { + if (priv->ports[i].phy) + rtl930x_port_eee_set(priv, i, enable); + } + + priv->eee_enabled = enable; +} + +const struct rtl838x_reg rtl930x_reg = { + .mask_port_reg_be = rtl838x_mask_port_reg, + .set_port_reg_be = rtl838x_set_port_reg, + .get_port_reg_be = rtl838x_get_port_reg, + .mask_port_reg_le = rtl838x_mask_port_reg, + .set_port_reg_le = rtl838x_set_port_reg, + .get_port_reg_le = rtl838x_get_port_reg, + .stat_port_rst = RTL930X_STAT_PORT_RST, + .stat_rst = RTL930X_STAT_RST, + .stat_port_std_mib = RTL930X_STAT_PORT_MIB_CNTR, + .traffic_enable = rtl930x_traffic_enable, + .traffic_disable = rtl930x_traffic_disable, + .traffic_get = rtl930x_traffic_get, + .traffic_set = rtl930x_traffic_set, + .l2_ctrl_0 = RTL930X_L2_CTRL, + .l2_ctrl_1 = RTL930X_L2_AGE_CTRL, + .l2_port_aging_out = RTL930X_L2_PORT_AGE_CTRL, + .smi_poll_ctrl = RTL930X_SMI_POLL_CTRL, // TODO: Difference to RTL9300_SMI_PRVTE_POLLING_CTRL + .l2_tbl_flush_ctrl = RTL930X_L2_TBL_FLUSH_CTRL, + .exec_tbl0_cmd = rtl930x_exec_tbl0_cmd, + .exec_tbl1_cmd = rtl930x_exec_tbl1_cmd, + .tbl_access_data_0 = rtl930x_tbl_access_data_0, + .isr_glb_src = RTL930X_ISR_GLB, + .isr_port_link_sts_chg = RTL930X_ISR_PORT_LINK_STS_CHG, + .imr_port_link_sts_chg = RTL930X_IMR_PORT_LINK_STS_CHG, + .imr_glb = RTL930X_IMR_GLB, + .vlan_tables_read = rtl930x_vlan_tables_read, + .vlan_set_tagged = rtl930x_vlan_set_tagged, + .vlan_set_untagged = rtl930x_vlan_set_untagged, + .vlan_profile_dump = rtl930x_vlan_profile_dump, + .vlan_profile_setup = rtl930x_vlan_profile_setup, + .vlan_fwd_on_inner = rtl930x_vlan_fwd_on_inner, + .stp_get = rtl930x_stp_get, + .stp_set = rtl930x_stp_set, + .mac_force_mode_ctrl = rtl930x_mac_force_mode_ctrl, + .mac_port_ctrl = rtl930x_mac_port_ctrl, + .l2_port_new_salrn = rtl930x_l2_port_new_salrn, + .l2_port_new_sa_fwd = rtl930x_l2_port_new_sa_fwd, + .mir_ctrl = RTL930X_MIR_CTRL, + .mir_dpm = RTL930X_MIR_DPM_CTRL, + .mir_spm = RTL930X_MIR_SPM_CTRL, + .mac_link_sts = RTL930X_MAC_LINK_STS, + .mac_link_dup_sts = RTL930X_MAC_LINK_DUP_STS, + .mac_link_spd_sts = rtl930x_mac_link_spd_sts, + .mac_rx_pause_sts = RTL930X_MAC_RX_PAUSE_STS, + .mac_tx_pause_sts = RTL930X_MAC_TX_PAUSE_STS, + .read_l2_entry_using_hash = rtl930x_read_l2_entry_using_hash, + .write_l2_entry_using_hash = rtl930x_write_l2_entry_using_hash, + .read_cam = rtl930x_read_cam, + .write_cam = rtl930x_write_cam, + .vlan_port_egr_filter = RTL930X_VLAN_PORT_EGR_FLTR, + .vlan_port_igr_filter = RTL930X_VLAN_PORT_IGR_FLTR(0), + .vlan_port_pb = RTL930X_VLAN_PORT_PB_VLAN, + .vlan_port_tag_sts_ctrl = RTL930X_VLAN_PORT_TAG_STS_CTRL, + .trk_mbr_ctr = rtl930x_trk_mbr_ctr, + .rma_bpdu_fld_pmask = RTL930X_RMA_BPDU_FLD_PMSK, + .init_eee = rtl930x_init_eee, + .port_eee_set = rtl930x_port_eee_set, + .eee_port_ability = rtl930x_eee_port_ability, + .read_mcast_pmask = rtl930x_read_mcast_pmask, + .write_mcast_pmask = rtl930x_write_mcast_pmask, +}; diff --git a/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl931x.c b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl931x.c new file mode 100644 index 0000000000..f98bf7df29 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/dsa/rtl83xx/rtl931x.c @@ -0,0 +1,393 @@ +// SPDX-License-Identifier: GPL-2.0-only + +#include +#include "rtl83xx.h" + +extern struct mutex smi_lock; +extern struct rtl83xx_soc_info soc_info; + +inline void rtl931x_exec_tbl0_cmd(u32 cmd) +{ + sw_w32(cmd, RTL931X_TBL_ACCESS_CTRL_0); + do { } while (sw_r32(RTL931X_TBL_ACCESS_CTRL_0) & (1 << 20)); +} + +inline void rtl931x_exec_tbl1_cmd(u32 cmd) +{ + sw_w32(cmd, RTL931X_TBL_ACCESS_CTRL_1); + do { } while (sw_r32(RTL931X_TBL_ACCESS_CTRL_1) & (1 << 17)); +} + +inline int rtl931x_tbl_access_data_0(int i) +{ + return RTL931X_TBL_ACCESS_DATA_0(i); +} + +void rtl931x_vlan_profile_dump(int index) +{ + u64 profile[4]; + + if (index < 0 || index > 15) + return; + + profile[0] = sw_r32(RTL931X_VLAN_PROFILE_SET(index)); + profile[1] = (sw_r32(RTL931X_VLAN_PROFILE_SET(index) + 4) & 0x1FFFFFFFULL) << 32 + | (sw_r32(RTL931X_VLAN_PROFILE_SET(index) + 8) & 0xFFFFFFFF); + profile[2] = (sw_r32(RTL931X_VLAN_PROFILE_SET(index) + 16) & 0xFFFFFFFFULL) << 32 + | (sw_r32(RTL931X_VLAN_PROFILE_SET(index) + 12) & 0x1FFFFFFULL); + profile[3] = (sw_r32(RTL931X_VLAN_PROFILE_SET(index) + 20) & 0x1FFFFFFFULL) << 32 + | (sw_r32(RTL931X_VLAN_PROFILE_SET(index) + 24) & 0xFFFFFFFF); + + pr_info("VLAN %d: L2 learning: %d, L2 Unknown MultiCast Field %llx, \ + IPv4 Unknown MultiCast Field %llx, IPv6 Unknown MultiCast Field: %llx", + index, (u32) (profile[0] & (3 << 14)), profile[1], profile[2], profile[3]); +} + +static void rtl931x_stp_get(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 20 /* Execute cmd */ + | 0 << 19 /* Read */ + | 2 << 15 /* Table type 0b10 */ + | (msti & 0x3fff); + priv->r->exec_tbl0_cmd(cmd); + + for (i = 0; i < 4; i++) + port_state[i] = sw_r32(priv->r->tbl_access_data_0(i)); +} + +static void rtl931x_stp_set(struct rtl838x_switch_priv *priv, u16 msti, u32 port_state[]) +{ + int i; + u32 cmd = 1 << 20 /* Execute cmd */ + | 1 << 19 /* Write */ + | 5 << 15 /* Table type 0b101 */ + | (msti & 0x3fff); + for (i = 0; i < 4; i++) + sw_w32(port_state[i], priv->r->tbl_access_data_0(i)); + priv->r->exec_tbl0_cmd(cmd); +} + +inline static int rtl931x_trk_mbr_ctr(int group) +{ + return RTL931X_TRK_MBR_CTRL + (group << 2); +} + +static void rtl931x_vlan_tables_read(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 v, w, x, y; + // Read VLAN table (3) via register 0 + struct table_reg *r = rtl_table_get(RTL9310_TBL_0, 3); + + rtl_table_read(r, vlan); + v = sw_r32(rtl_table_data(r, 0)); + w = sw_r32(rtl_table_data(r, 1)); + x = sw_r32(rtl_table_data(r, 2)); + y = sw_r32(rtl_table_data(r, 3)); + pr_debug("VLAN_READ %d: %08x %08x\n", vlan, v, w); + rtl_table_release(r); + + info->tagged_ports = ((u64) v) << 25 | (w >> 7); + info->profile_id = (x >> 16) & 0xf; + info->hash_mc_fid = !!(x & BIT(30)); + info->hash_uc_fid = !!(x & BIT(31)); + info->fid = w & 0x7f; + // TODO: use also info in 4th register + + // Read UNTAG table via table register 3 + r = rtl_table_get(RTL9310_TBL_3, 0); + rtl_table_read(r, vlan); + v = ((u64)sw_r32(rtl_table_data(r, 0))) << 25; + v |= sw_r32(rtl_table_data(r, 1)) >> 7; + rtl_table_release(r); + + info->untagged_ports = v; +} + +static void rtl931x_vlan_set_tagged(u32 vlan, struct rtl838x_vlan_info *info) +{ + u32 v, w, x; + // Access VLAN table (1) via register 0 + struct table_reg *r = rtl_table_get(RTL9310_TBL_0, 3); + + v = info->tagged_ports << 7; + w = (info->tagged_ports & 0x7f000000) << 25; + w |= (u32)info->fid; + x = info->profile_id << 16; + w |= info->hash_mc_fid ? BIT(30) : 0; + w |= info->hash_uc_fid ? BIT(31) : 0; + // TODO: use also info in 4th register + + sw_w32(v, rtl_table_data(r, 0)); + sw_w32(w, rtl_table_data(r, 1)); + sw_w32(x, rtl_table_data(r, 2)); + + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +static void rtl931x_vlan_set_untagged(u32 vlan, u64 portmask) +{ + struct table_reg *r = rtl_table_get(RTL9310_TBL_3, 0); + + rtl839x_set_port_reg_be(portmask << 7, rtl_table_data(r, 0)); + rtl_table_write(r, vlan); + rtl_table_release(r); +} + +static inline int rtl931x_mac_force_mode_ctrl(int p) +{ + return RTL931X_MAC_FORCE_MODE_CTRL + (p << 2); +} + +static inline int rtl931x_mac_link_spd_sts(int p) +{ + return RTL931X_MAC_LINK_SPD_STS(p); +} + +static inline int rtl931x_mac_port_ctrl(int p) +{ + return RTL931X_MAC_PORT_CTRL(p); +} + +static inline int rtl931x_l2_port_new_salrn(int p) +{ + return RTL931X_L2_PORT_NEW_SALRN(p); +} + +static inline int rtl931x_l2_port_new_sa_fwd(int p) +{ + return RTL931X_L2_PORT_NEW_SA_FWD(p); +} + +static u64 rtl931x_read_l2_entry_using_hash(u32 hash, u32 position, struct rtl838x_l2_entry *e) +{ + u64 entry = 0; + + // TODO: Implement + return entry; +} + +static u64 rtl931x_read_cam(int idx, struct rtl838x_l2_entry *e) +{ + u64 entry = 0; + + // TODO: Implement + return entry; +} + +irqreturn_t rtl931x_switch_irq(int irq, void *dev_id) +{ + struct dsa_switch *ds = dev_id; + u32 status = sw_r32(RTL931X_ISR_GLB_SRC); + u64 ports = rtl839x_get_port_reg_le(RTL931X_ISR_PORT_LINK_STS_CHG); + u64 link; + int i; + + /* Clear status */ + rtl839x_set_port_reg_le(ports, RTL931X_ISR_PORT_LINK_STS_CHG); + pr_info("RTL9310 Link change: status: %x, ports %llx\n", status, ports); + + for (i = 0; i < 56; i++) { + if (ports & BIT_ULL(i)) { + link = rtl839x_get_port_reg_le(RTL931X_MAC_LINK_STS); + if (link & BIT_ULL(i)) + dsa_port_phylink_mac_change(ds, i, true); + else + dsa_port_phylink_mac_change(ds, i, false); + } + } + return IRQ_HANDLED; +} + +int rtl931x_write_phy(u32 port, u32 page, u32 reg, u32 val) +{ + u32 v; + int err = 0; + + val &= 0xffff; + if (port > 63 || page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + /* Clear both port registers */ + sw_w32(0, RTL931X_SMI_INDRT_ACCESS_CTRL_2); + sw_w32(0, RTL931X_SMI_INDRT_ACCESS_CTRL_2 + 4); + sw_w32_mask(0, BIT(port), RTL931X_SMI_INDRT_ACCESS_CTRL_2+ (port % 32) * 4); + + sw_w32_mask(0xffff0000, val << 16, RTL931X_SMI_INDRT_ACCESS_CTRL_3); + + v = reg << 6 | page << 11 ; + sw_w32(v, RTL931X_SMI_INDRT_ACCESS_CTRL_0); + + sw_w32(0x1ff, RTL931X_SMI_INDRT_ACCESS_CTRL_1); + + v |= 1 << 3 | 1; /* Write operation and execute */ + sw_w32(v, RTL931X_SMI_INDRT_ACCESS_CTRL_0); + + do { + } while (sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_0) & 0x1); + + if (sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_0) & 0x2) + err = -EIO; + + mutex_unlock(&smi_lock); + return err; +} + +int rtl931x_read_phy(u32 port, u32 page, u32 reg, u32 *val) +{ + u32 v; + + if (port > 63 || page > 4095 || reg > 31) + return -ENOTSUPP; + + mutex_lock(&smi_lock); + + sw_w32_mask(0xffff, port, RTL931X_SMI_INDRT_ACCESS_CTRL_3); + v = reg << 6 | page << 11; // TODO: ACCESS Offset? Park page + sw_w32(v, RTL931X_SMI_INDRT_ACCESS_CTRL_0); + + sw_w32(0x1ff, RTL931X_SMI_INDRT_ACCESS_CTRL_1); + + v |= 1; + sw_w32(v, RTL931X_SMI_INDRT_ACCESS_CTRL_0); + + do { + } while (sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_0) & 0x1); + + *val = (sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_3) & 0xffff0000) >> 16; + + pr_info("%s: port %d, page: %d, reg: %x, val: %x\n", __func__, port, page, reg, *val); + + mutex_unlock(&smi_lock); + return 0; +} + +/* + * Read an mmd register of the PHY + */ +int rtl931x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val) +{ + int err = 0; + u32 v; + int type = 1; // TODO: For C45 PHYs need to set to 2 + + mutex_lock(&smi_lock); + + // Set PHY to access via port-number + sw_w32(port << 5, RTL931X_SMI_INDRT_ACCESS_BC_PHYID_CTRL); + + // Set MMD device number and register to write to + sw_w32(devnum << 16 | (regnum & 0xffff), RTL931X_SMI_INDRT_ACCESS_MMD_CTRL); + + v = type << 2 | BIT(0); // MMD-access-type | EXEC + sw_w32(v, RTL931X_SMI_INDRT_ACCESS_CTRL_0); + + do { + v = sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_0); + } while (v & BIT(0)); + + // There is no error-checking via BIT 1 of v, as it does not seem to be set correctly + + *val = (sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_3) & 0xffff); + + pr_debug("%s: port %d, regnum: %x, val: %x (err %d)\n", __func__, port, regnum, *val, err); + + mutex_unlock(&smi_lock); + + return err; +} + +/* + * Write to an mmd register of the PHY + */ +int rtl931x_write_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 val) +{ + int err = 0; + u32 v; + int type = 1; // TODO: For C45 PHYs need to set to 2 + + mutex_lock(&smi_lock); + + // Set PHY to access via port-number + sw_w32(port << 5, RTL931X_SMI_INDRT_ACCESS_BC_PHYID_CTRL); + + // Set data to write + sw_w32_mask(0xffff << 16, val << 16, RTL931X_SMI_INDRT_ACCESS_CTRL_3); + + // Set MMD device number and register to write to + sw_w32(devnum << 16 | (regnum & 0xffff), RTL931X_SMI_INDRT_ACCESS_MMD_CTRL); + + v = BIT(4) | type << 2 | BIT(0); // WRITE | MMD-access-type | EXEC + sw_w32(v, RTL931X_SMI_INDRT_ACCESS_CTRL_0); + + do { + v = sw_r32(RTL931X_SMI_INDRT_ACCESS_CTRL_0); + } while (v & BIT(0)); + + pr_debug("%s: port %d, regnum: %x, val: %x (err %d)\n", __func__, port, regnum, val, err); + mutex_unlock(&smi_lock); + return err; +} + +void rtl931x_print_matrix(void) +{ + volatile u64 *ptr = RTL838X_SW_BASE + RTL839X_PORT_ISO_CTRL(0); + int i; + + for (i = 0; i < 52; i += 4) + pr_info("> %16llx %16llx %16llx %16llx\n", + ptr[i + 0], ptr[i + 1], ptr[i + 2], ptr[i + 3]); + pr_info("CPU_PORT> %16llx\n", ptr[52]); +} + +const struct rtl838x_reg rtl931x_reg = { + .mask_port_reg_be = rtl839x_mask_port_reg_be, + .set_port_reg_be = rtl839x_set_port_reg_be, + .get_port_reg_be = rtl839x_get_port_reg_be, + .mask_port_reg_le = rtl839x_mask_port_reg_le, + .set_port_reg_le = rtl839x_set_port_reg_le, + .get_port_reg_le = rtl839x_get_port_reg_le, + .stat_port_rst = RTL931X_STAT_PORT_RST, + .stat_rst = RTL931X_STAT_RST, + .stat_port_std_mib = 0, // Not defined + .l2_ctrl_0 = RTL931X_L2_CTRL, + .l2_ctrl_1 = RTL931X_L2_AGE_CTRL, + .l2_port_aging_out = RTL931X_L2_PORT_AGE_CTRL, + // .smi_poll_ctrl does not exist + .l2_tbl_flush_ctrl = RTL931X_L2_TBL_FLUSH_CTRL, + .exec_tbl0_cmd = rtl931x_exec_tbl0_cmd, + .exec_tbl1_cmd = rtl931x_exec_tbl1_cmd, + .tbl_access_data_0 = rtl931x_tbl_access_data_0, + .isr_glb_src = RTL931X_ISR_GLB_SRC, + .isr_port_link_sts_chg = RTL931X_ISR_PORT_LINK_STS_CHG, + .imr_port_link_sts_chg = RTL931X_IMR_PORT_LINK_STS_CHG, + // imr_glb does not exist on RTL931X + .vlan_tables_read = rtl931x_vlan_tables_read, + .vlan_set_tagged = rtl931x_vlan_set_tagged, + .vlan_set_untagged = rtl931x_vlan_set_untagged, + .vlan_profile_dump = rtl931x_vlan_profile_dump, + .stp_get = rtl931x_stp_get, + .stp_set = rtl931x_stp_set, + .mac_force_mode_ctrl = rtl931x_mac_force_mode_ctrl, + .mac_port_ctrl = rtl931x_mac_port_ctrl, + .l2_port_new_salrn = rtl931x_l2_port_new_salrn, + .l2_port_new_sa_fwd = rtl931x_l2_port_new_sa_fwd, + .mir_ctrl = RTL931X_MIR_CTRL, + .mir_dpm = RTL931X_MIR_DPM_CTRL, + .mir_spm = RTL931X_MIR_SPM_CTRL, + .mac_link_sts = RTL931X_MAC_LINK_STS, + .mac_link_dup_sts = RTL931X_MAC_LINK_DUP_STS, + .mac_link_spd_sts = rtl931x_mac_link_spd_sts, + .mac_rx_pause_sts = RTL931X_MAC_RX_PAUSE_STS, + .mac_tx_pause_sts = RTL931X_MAC_TX_PAUSE_STS, + .read_l2_entry_using_hash = rtl931x_read_l2_entry_using_hash, + .read_cam = rtl931x_read_cam, + .vlan_port_egr_filter = RTL931X_VLAN_PORT_EGR_FLTR(0), + .vlan_port_igr_filter = RTL931X_VLAN_PORT_IGR_FLTR(0), +// .vlan_port_pb = does not exist + .vlan_port_tag_sts_ctrl = RTL931X_VLAN_PORT_TAG_CTRL, + .trk_mbr_ctr = rtl931x_trk_mbr_ctr, +}; + diff --git a/target/linux/realtek/files-5.10/drivers/net/ethernet/rtl838x_eth.c b/target/linux/realtek/files-5.10/drivers/net/ethernet/rtl838x_eth.c new file mode 100644 index 0000000000..3f98e3bf81 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/ethernet/rtl838x_eth.c @@ -0,0 +1,2201 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* + * linux/drivers/net/ethernet/rtl838x_eth.c + * Copyright (C) 2020 B. Koblitz + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include +#include "rtl838x_eth.h" + +extern struct rtl83xx_soc_info soc_info; + +/* + * Maximum number of RX rings is 8 on RTL83XX and 32 on the 93XX + * The ring is assigned by switch based on packet/port priortity + * Maximum number of TX rings is 2, Ring 2 being the high priority + * ring on the RTL93xx SoCs. MAX_RING_SIZE * RING_BUFFER gives + * the memory used for the ring buffer. + */ +#define MAX_RXRINGS 32 +#define MAX_RXLEN 100 +#define MAX_ENTRIES (200 * 8) +#define TXRINGS 2 +// BUG: TXRINGLEN can be 160 +#define TXRINGLEN 16 +#define NOTIFY_EVENTS 10 +#define NOTIFY_BLOCKS 10 +#define TX_EN 0x8 +#define RX_EN 0x4 +#define TX_EN_93XX 0x20 +#define RX_EN_93XX 0x10 +#define TX_DO 0x2 +#define WRAP 0x2 + +#define RING_BUFFER 1600 + +#define RTL838X_STORM_CTRL_PORT_BC_EXCEED (0x470C) +#define RTL838X_STORM_CTRL_PORT_MC_EXCEED (0x4710) +#define RTL838X_STORM_CTRL_PORT_UC_EXCEED (0x4714) +#define RTL838X_ATK_PRVNT_STS (0x5B1C) + +struct p_hdr { + uint8_t *buf; + uint16_t reserved; + uint16_t size; /* buffer size */ + uint16_t offset; + uint16_t len; /* pkt len */ + uint16_t cpu_tag[10]; +} __packed __aligned(1); + +struct n_event { + uint32_t type:2; + uint32_t fidVid:12; + uint64_t mac:48; + uint32_t slp:6; + uint32_t valid:1; + uint32_t reserved:27; +} __packed __aligned(1); + +struct ring_b { + uint32_t rx_r[MAX_RXRINGS][MAX_RXLEN]; + uint32_t tx_r[TXRINGS][TXRINGLEN]; + struct p_hdr rx_header[MAX_RXRINGS][MAX_RXLEN]; + struct p_hdr tx_header[TXRINGS][TXRINGLEN]; + uint32_t c_rx[MAX_RXRINGS]; + uint32_t c_tx[TXRINGS]; + uint8_t tx_space[TXRINGS * TXRINGLEN * RING_BUFFER]; + uint8_t *rx_space; +}; + +struct notify_block { + struct n_event events[NOTIFY_EVENTS]; +}; + +struct notify_b { + struct notify_block blocks[NOTIFY_BLOCKS]; + u32 reserved1[8]; + u32 ring[NOTIFY_BLOCKS]; + u32 reserved2[8]; +}; + +void rtl838x_create_tx_header(struct p_hdr *h, int dest_port, int prio) +{ + prio &= 0x7; + + if (dest_port > 0) { + // cpu_tag[0] is reserved on the RTL83XX SoCs + h->cpu_tag[1] = 0x0400; + h->cpu_tag[2] = 0x0200; + h->cpu_tag[3] = 0x0000; + h->cpu_tag[4] = BIT(dest_port) >> 16; + h->cpu_tag[5] = BIT(dest_port) & 0xffff; + // Set internal priority and AS_PRIO + if (prio >= 0) + h->cpu_tag[2] |= (prio | 0x8) << 12; + } +} + +void rtl839x_create_tx_header(struct p_hdr *h, int dest_port, int prio) +{ + prio &= 0x7; + + if (dest_port > 0) { + // cpu_tag[0] is reserved on the RTL83XX SoCs + h->cpu_tag[1] = 0x0100; + h->cpu_tag[2] = h->cpu_tag[3] = h->cpu_tag[4] = h->cpu_tag[5] = 0; + if (dest_port >= 32) { + dest_port -= 32; + h->cpu_tag[2] = BIT(dest_port) >> 16; + h->cpu_tag[3] = BIT(dest_port) & 0xffff; + } else { + h->cpu_tag[4] = BIT(dest_port) >> 16; + h->cpu_tag[5] = BIT(dest_port) & 0xffff; + } + h->cpu_tag[6] |= BIT(21); // Enable destination port mask use + // Set internal priority and AS_PRIO + if (prio >= 0) + h->cpu_tag[1] |= prio | BIT(3); + } +} + +void rtl930x_create_tx_header(struct p_hdr *h, int dest_port, int prio) +{ + h->cpu_tag[0] = 0x8000; + h->cpu_tag[1] = 0; // TODO: Fill port and prio + h->cpu_tag[2] = 0; + h->cpu_tag[3] = 0; + h->cpu_tag[4] = 0; + h->cpu_tag[5] = 0; + h->cpu_tag[6] = 0; + h->cpu_tag[7] = 0xffff; +} + +void rtl931x_create_tx_header(struct p_hdr *h, int dest_port, int prio) +{ + h->cpu_tag[0] = 0x8000; + h->cpu_tag[1] = 0; // TODO: Fill port and prio + h->cpu_tag[2] = 0; + h->cpu_tag[3] = 0; + h->cpu_tag[4] = 0; + h->cpu_tag[5] = 0; + h->cpu_tag[6] = 0; + h->cpu_tag[7] = 0xffff; +} + +struct rtl838x_rx_q { + int id; + struct rtl838x_eth_priv *priv; + struct napi_struct napi; +}; + +struct rtl838x_eth_priv { + struct net_device *netdev; + struct platform_device *pdev; + void *membase; + spinlock_t lock; + struct mii_bus *mii_bus; + struct rtl838x_rx_q rx_qs[MAX_RXRINGS]; + struct phylink *phylink; + struct phylink_config phylink_config; + u16 id; + u16 family_id; + const struct rtl838x_reg *r; + u8 cpu_port; + u32 lastEvent; + u16 rxrings; + u16 rxringlen; +}; + +extern int rtl838x_phy_init(struct rtl838x_eth_priv *priv); +extern int rtl838x_read_sds_phy(int phy_addr, int phy_reg); +extern int rtl839x_read_sds_phy(int phy_addr, int phy_reg); +extern int rtl839x_write_sds_phy(int phy_addr, int phy_reg, u16 v); +extern int rtl930x_read_sds_phy(int phy_addr, int page, int phy_reg); +extern int rtl930x_write_sds_phy(int phy_addr, int page, int phy_reg, u16 v); +extern int rtl930x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val); +extern int rtl930x_write_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 val); + +/* + * On the RTL93XX, the RTL93XX_DMA_IF_RX_RING_CNTR track the fill level of + * the rings. Writing x into these registers substracts x from its content. + * When the content reaches the ring size, the ASIC no longer adds + * packets to this receive queue. + */ +void rtl838x_update_cntr(int r, int released) +{ + // This feature is not available on RTL838x SoCs +} + +void rtl839x_update_cntr(int r, int released) +{ + // This feature is not available on RTL839x SoCs +} + +void rtl930x_update_cntr(int r, int released) +{ + int pos = (r % 3) * 10; + u32 reg = RTL930X_DMA_IF_RX_RING_CNTR + ((r / 3) << 2); + u32 v = sw_r32(reg); + + v = (v >> pos) & 0x3ff; + pr_debug("RX: Work done %d, old value: %d, pos %d, reg %04x\n", released, v, pos, reg); + sw_w32_mask(0x3ff << pos, released << pos, reg); + sw_w32(v, reg); +} + +void rtl931x_update_cntr(int r, int released) +{ + int pos = (r % 3) * 10; + u32 reg = RTL931X_DMA_IF_RX_RING_CNTR + ((r / 3) << 2); + + sw_w32_mask(0x3ff << pos, released << pos, reg); +} + +struct dsa_tag { + u8 reason; + u8 queue; + u16 port; + u8 l2_offloaded; + u8 prio; + bool crc_error; +}; + +bool rtl838x_decode_tag(struct p_hdr *h, struct dsa_tag *t) +{ + t->reason = h->cpu_tag[3] & 0xf; + t->queue = (h->cpu_tag[0] & 0xe0) >> 5; + t->port = h->cpu_tag[1] & 0x1f; + t->crc_error = t->reason == 13; + + pr_debug("Reason: %d\n", t->reason); + if (t->reason != 4) // NIC_RX_REASON_SPECIAL_TRAP + t->l2_offloaded = 1; + else + t->l2_offloaded = 0; + + return t->l2_offloaded; +} + +bool rtl839x_decode_tag(struct p_hdr *h, struct dsa_tag *t) +{ + t->reason = h->cpu_tag[4] & 0x1f; + t->queue = (h->cpu_tag[3] & 0xe000) >> 13; + t->port = h->cpu_tag[1] & 0x3f; + t->crc_error = h->cpu_tag[3] & BIT(2); + + pr_debug("Reason: %d\n", t->reason); + if ((t->reason != 7) && (t->reason != 8)) // NIC_RX_REASON_RMA_USR + t->l2_offloaded = 1; + else + t->l2_offloaded = 0; + + return t->l2_offloaded; +} + +bool rtl930x_decode_tag(struct p_hdr *h, struct dsa_tag *t) +{ + t->reason = h->cpu_tag[7] & 0x3f; + t->queue = (h->cpu_tag[2] >> 11) & 0x1f; + t->port = (h->cpu_tag[0] >> 8) & 0x1f; + t->crc_error = h->cpu_tag[1] & BIT(6); + + pr_debug("Reason %d, port %d, queue %d\n", t->reason, t->port, t->queue); + if (t->reason >= 19 && t->reason <= 27) + t->l2_offloaded = 0; + else + t->l2_offloaded = 1; + + return t->l2_offloaded; +} + +bool rtl931x_decode_tag(struct p_hdr *h, struct dsa_tag *t) +{ + t->reason = h->cpu_tag[7] & 0x3f; + t->queue = (h->cpu_tag[2] >> 11) & 0x1f; + t->port = (h->cpu_tag[0] >> 8) & 0x3f; + t->crc_error = h->cpu_tag[1] & BIT(6); + + pr_debug("Reason %d, port %d, queue %d\n", t->reason, t->port, t->queue); + if (t->reason >= 19 && t->reason <= 27) + t->l2_offloaded = 0; + else + t->l2_offloaded = 1; + + return t->l2_offloaded; +} + +/* + * Discard the RX ring-buffers, called as part of the net-ISR + * when the buffer runs over + * Caller needs to hold priv->lock + */ +static void rtl838x_rb_cleanup(struct rtl838x_eth_priv *priv, int status) +{ + int r; + u32 *last; + struct p_hdr *h; + struct ring_b *ring = priv->membase; + + for (r = 0; r < priv->rxrings; r++) { + pr_debug("In %s working on r: %d\n", __func__, r); + last = (u32 *)KSEG1ADDR(sw_r32(priv->r->dma_if_rx_cur + r * 4)); + do { + if ((ring->rx_r[r][ring->c_rx[r]] & 0x1)) + break; + pr_debug("Got something: %d\n", ring->c_rx[r]); + h = &ring->rx_header[r][ring->c_rx[r]]; + memset(h, 0, sizeof(struct p_hdr)); + h->buf = (u8 *)KSEG1ADDR(ring->rx_space + + r * priv->rxringlen * RING_BUFFER + + ring->c_rx[r] * RING_BUFFER); + h->size = RING_BUFFER; + /* make sure the header is visible to the ASIC */ + mb(); + + ring->rx_r[r][ring->c_rx[r]] = KSEG1ADDR(h) | 0x1 + | (ring->c_rx[r] == (priv->rxringlen - 1) ? WRAP : 0x1); + ring->c_rx[r] = (ring->c_rx[r] + 1) % priv->rxringlen; + } while (&ring->rx_r[r][ring->c_rx[r]] != last); + } +} + +struct fdb_update_work { + struct work_struct work; + struct net_device *ndev; + u64 macs[NOTIFY_EVENTS + 1]; +}; + +void rtl838x_fdb_sync(struct work_struct *work) +{ + const struct fdb_update_work *uw = + container_of(work, struct fdb_update_work, work); + struct switchdev_notifier_fdb_info info; + u8 addr[ETH_ALEN]; + int i = 0; + int action; + + while (uw->macs[i]) { + action = (uw->macs[i] & (1ULL << 63)) ? SWITCHDEV_FDB_ADD_TO_BRIDGE + : SWITCHDEV_FDB_DEL_TO_BRIDGE; + u64_to_ether_addr(uw->macs[i] & 0xffffffffffffULL, addr); + info.addr = &addr[0]; + info.vid = 0; + info.offloaded = 1; + pr_debug("FDB entry %d: %llx, action %d\n", i, uw->macs[0], action); + call_switchdev_notifiers(action, uw->ndev, &info.info, NULL); + i++; + } + kfree(work); +} + +static void rtl839x_l2_notification_handler(struct rtl838x_eth_priv *priv) +{ + struct notify_b *nb = priv->membase + sizeof(struct ring_b); + u32 e = priv->lastEvent; + struct n_event *event; + int i; + u64 mac; + struct fdb_update_work *w; + + while (!(nb->ring[e] & 1)) { + w = kzalloc(sizeof(*w), GFP_ATOMIC); + if (!w) { + pr_err("Out of memory: %s", __func__); + return; + } + INIT_WORK(&w->work, rtl838x_fdb_sync); + + for (i = 0; i < NOTIFY_EVENTS; i++) { + event = &nb->blocks[e].events[i]; + if (!event->valid) + continue; + mac = event->mac; + if (event->type) + mac |= 1ULL << 63; + w->ndev = priv->netdev; + w->macs[i] = mac; + } + + /* Hand the ring entry back to the switch */ + nb->ring[e] = nb->ring[e] | 1; + e = (e + 1) % NOTIFY_BLOCKS; + + w->macs[i] = 0ULL; + schedule_work(&w->work); + } + priv->lastEvent = e; +} + +static irqreturn_t rtl83xx_net_irq(int irq, void *dev_id) +{ + struct net_device *dev = dev_id; + struct rtl838x_eth_priv *priv = netdev_priv(dev); + u32 status = sw_r32(priv->r->dma_if_intr_sts); + bool triggered = false; + u32 atk = sw_r32(RTL838X_ATK_PRVNT_STS); + int i; + u32 storm_uc = sw_r32(RTL838X_STORM_CTRL_PORT_UC_EXCEED); + u32 storm_mc = sw_r32(RTL838X_STORM_CTRL_PORT_MC_EXCEED); + u32 storm_bc = sw_r32(RTL838X_STORM_CTRL_PORT_BC_EXCEED); + + pr_debug("IRQ: %08x\n", status); + if (storm_uc || storm_mc || storm_bc) { + pr_warn("Storm control UC: %08x, MC: %08x, BC: %08x\n", + storm_uc, storm_mc, storm_bc); + + sw_w32(storm_uc, RTL838X_STORM_CTRL_PORT_UC_EXCEED); + sw_w32(storm_mc, RTL838X_STORM_CTRL_PORT_MC_EXCEED); + sw_w32(storm_bc, RTL838X_STORM_CTRL_PORT_BC_EXCEED); + + triggered = true; + } + + if (atk) { + pr_debug("Attack prevention triggered: %08x\n", atk); + sw_w32(atk, RTL838X_ATK_PRVNT_STS); + } + + spin_lock(&priv->lock); + /* Ignore TX interrupt */ + if ((status & 0xf0000)) { + /* Clear ISR */ + sw_w32(0x000f0000, priv->r->dma_if_intr_sts); + } + + /* RX interrupt */ + if (status & 0x0ff00) { + /* ACK and disable RX interrupt for this ring */ + sw_w32_mask(0xff00 & status, 0, priv->r->dma_if_intr_msk); + sw_w32(0x0000ff00 & status, priv->r->dma_if_intr_sts); + for (i = 0; i < priv->rxrings; i++) { + if (status & BIT(i + 8)) { + pr_debug("Scheduling queue: %d\n", i); + napi_schedule(&priv->rx_qs[i].napi); + } + } + } + + /* RX buffer overrun */ + if (status & 0x000ff) { + pr_info("RX buffer overrun: status %x, mask: %x\n", + status, sw_r32(priv->r->dma_if_intr_msk)); + sw_w32(status, priv->r->dma_if_intr_sts); + rtl838x_rb_cleanup(priv, status & 0xff); + } + + if (priv->family_id == RTL8390_FAMILY_ID && status & 0x00100000) { + sw_w32(0x00100000, priv->r->dma_if_intr_sts); + rtl839x_l2_notification_handler(priv); + } + + if (priv->family_id == RTL8390_FAMILY_ID && status & 0x00200000) { + sw_w32(0x00200000, priv->r->dma_if_intr_sts); + rtl839x_l2_notification_handler(priv); + } + + if (priv->family_id == RTL8390_FAMILY_ID && status & 0x00400000) { + sw_w32(0x00400000, priv->r->dma_if_intr_sts); + rtl839x_l2_notification_handler(priv); + } + + spin_unlock(&priv->lock); + return IRQ_HANDLED; +} + +static irqreturn_t rtl93xx_net_irq(int irq, void *dev_id) +{ + struct net_device *dev = dev_id; + struct rtl838x_eth_priv *priv = netdev_priv(dev); + u32 status_rx_r = sw_r32(priv->r->dma_if_intr_rx_runout_sts); + u32 status_rx = sw_r32(priv->r->dma_if_intr_rx_done_sts); + u32 status_tx = sw_r32(priv->r->dma_if_intr_tx_done_sts); + int i; + + pr_debug("In %s, status_tx: %08x, status_rx: %08x, status_rx_r: %08x\n", + __func__, status_tx, status_rx, status_rx_r); + spin_lock(&priv->lock); + + /* Ignore TX interrupt */ + if (status_tx) { + /* Clear ISR */ + pr_debug("TX done\n"); + sw_w32(status_tx, priv->r->dma_if_intr_tx_done_sts); + } + + /* RX interrupt */ + if (status_rx) { + pr_debug("RX IRQ\n"); + /* ACK and disable RX interrupt for given rings */ + sw_w32(status_rx, priv->r->dma_if_intr_rx_done_sts); + sw_w32_mask(status_rx, 0, priv->r->dma_if_intr_rx_done_msk); + for (i = 0; i < priv->rxrings; i++) { + if (status_rx & BIT(i)) { + pr_debug("Scheduling queue: %d\n", i); + napi_schedule(&priv->rx_qs[i].napi); + } + } + } + + /* RX buffer overrun */ + if (status_rx_r) { + pr_debug("RX buffer overrun: status %x, mask: %x\n", + status_rx_r, sw_r32(priv->r->dma_if_intr_rx_runout_msk)); + sw_w32(status_rx_r, priv->r->dma_if_intr_rx_runout_sts); + rtl838x_rb_cleanup(priv, status_rx_r); + } + + spin_unlock(&priv->lock); + return IRQ_HANDLED; +} + +static const struct rtl838x_reg rtl838x_reg = { + .net_irq = rtl83xx_net_irq, + .mac_port_ctrl = rtl838x_mac_port_ctrl, + .dma_if_intr_sts = RTL838X_DMA_IF_INTR_STS, + .dma_if_intr_msk = RTL838X_DMA_IF_INTR_MSK, + .dma_if_ctrl = RTL838X_DMA_IF_CTRL, + .mac_force_mode_ctrl = RTL838X_MAC_FORCE_MODE_CTRL, + .dma_rx_base = RTL838X_DMA_RX_BASE, + .dma_tx_base = RTL838X_DMA_TX_BASE, + .dma_if_rx_ring_size = rtl838x_dma_if_rx_ring_size, + .dma_if_rx_ring_cntr = rtl838x_dma_if_rx_ring_cntr, + .dma_if_rx_cur = RTL838X_DMA_IF_RX_CUR, + .rst_glb_ctrl = RTL838X_RST_GLB_CTRL_0, + .get_mac_link_sts = rtl838x_get_mac_link_sts, + .get_mac_link_dup_sts = rtl838x_get_mac_link_dup_sts, + .get_mac_link_spd_sts = rtl838x_get_mac_link_spd_sts, + .get_mac_rx_pause_sts = rtl838x_get_mac_rx_pause_sts, + .get_mac_tx_pause_sts = rtl838x_get_mac_tx_pause_sts, + .mac = RTL838X_MAC, + .l2_tbl_flush_ctrl = RTL838X_L2_TBL_FLUSH_CTRL, + .update_cntr = rtl838x_update_cntr, + .create_tx_header = rtl838x_create_tx_header, + .decode_tag = rtl838x_decode_tag, +}; + +static const struct rtl838x_reg rtl839x_reg = { + .net_irq = rtl83xx_net_irq, + .mac_port_ctrl = rtl839x_mac_port_ctrl, + .dma_if_intr_sts = RTL839X_DMA_IF_INTR_STS, + .dma_if_intr_msk = RTL839X_DMA_IF_INTR_MSK, + .dma_if_ctrl = RTL839X_DMA_IF_CTRL, + .mac_force_mode_ctrl = RTL839X_MAC_FORCE_MODE_CTRL, + .dma_rx_base = RTL839X_DMA_RX_BASE, + .dma_tx_base = RTL839X_DMA_TX_BASE, + .dma_if_rx_ring_size = rtl839x_dma_if_rx_ring_size, + .dma_if_rx_ring_cntr = rtl839x_dma_if_rx_ring_cntr, + .dma_if_rx_cur = RTL839X_DMA_IF_RX_CUR, + .rst_glb_ctrl = RTL839X_RST_GLB_CTRL, + .get_mac_link_sts = rtl839x_get_mac_link_sts, + .get_mac_link_dup_sts = rtl839x_get_mac_link_dup_sts, + .get_mac_link_spd_sts = rtl839x_get_mac_link_spd_sts, + .get_mac_rx_pause_sts = rtl839x_get_mac_rx_pause_sts, + .get_mac_tx_pause_sts = rtl839x_get_mac_tx_pause_sts, + .mac = RTL839X_MAC, + .l2_tbl_flush_ctrl = RTL839X_L2_TBL_FLUSH_CTRL, + .update_cntr = rtl839x_update_cntr, + .create_tx_header = rtl839x_create_tx_header, + .decode_tag = rtl839x_decode_tag, +}; + +static const struct rtl838x_reg rtl930x_reg = { + .net_irq = rtl93xx_net_irq, + .mac_port_ctrl = rtl930x_mac_port_ctrl, + .dma_if_intr_rx_runout_sts = RTL930X_DMA_IF_INTR_RX_RUNOUT_STS, + .dma_if_intr_rx_done_sts = RTL930X_DMA_IF_INTR_RX_DONE_STS, + .dma_if_intr_tx_done_sts = RTL930X_DMA_IF_INTR_TX_DONE_STS, + .dma_if_intr_rx_runout_msk = RTL930X_DMA_IF_INTR_RX_RUNOUT_MSK, + .dma_if_intr_rx_done_msk = RTL930X_DMA_IF_INTR_RX_DONE_MSK, + .dma_if_intr_tx_done_msk = RTL930X_DMA_IF_INTR_TX_DONE_MSK, + .l2_ntfy_if_intr_sts = RTL930X_L2_NTFY_IF_INTR_STS, + .l2_ntfy_if_intr_msk = RTL930X_L2_NTFY_IF_INTR_MSK, + .dma_if_ctrl = RTL930X_DMA_IF_CTRL, + .mac_force_mode_ctrl = RTL930X_MAC_FORCE_MODE_CTRL, + .dma_rx_base = RTL930X_DMA_RX_BASE, + .dma_tx_base = RTL930X_DMA_TX_BASE, + .dma_if_rx_ring_size = rtl930x_dma_if_rx_ring_size, + .dma_if_rx_ring_cntr = rtl930x_dma_if_rx_ring_cntr, + .dma_if_rx_cur = RTL930X_DMA_IF_RX_CUR, + .rst_glb_ctrl = RTL930X_RST_GLB_CTRL_0, + .get_mac_link_sts = rtl930x_get_mac_link_sts, + .get_mac_link_dup_sts = rtl930x_get_mac_link_dup_sts, + .get_mac_link_spd_sts = rtl930x_get_mac_link_spd_sts, + .get_mac_rx_pause_sts = rtl930x_get_mac_rx_pause_sts, + .get_mac_tx_pause_sts = rtl930x_get_mac_tx_pause_sts, + .mac = RTL930X_MAC_L2_ADDR_CTRL, + .l2_tbl_flush_ctrl = RTL930X_L2_TBL_FLUSH_CTRL, + .update_cntr = rtl930x_update_cntr, + .create_tx_header = rtl930x_create_tx_header, + .decode_tag = rtl930x_decode_tag, +}; + +static const struct rtl838x_reg rtl931x_reg = { + .net_irq = rtl93xx_net_irq, + .mac_port_ctrl = rtl931x_mac_port_ctrl, + .dma_if_intr_rx_runout_sts = RTL931X_DMA_IF_INTR_RX_RUNOUT_STS, + .dma_if_intr_rx_done_sts = RTL931X_DMA_IF_INTR_RX_DONE_STS, + .dma_if_intr_tx_done_sts = RTL931X_DMA_IF_INTR_TX_DONE_STS, + .dma_if_intr_rx_runout_msk = RTL931X_DMA_IF_INTR_RX_RUNOUT_MSK, + .dma_if_intr_rx_done_msk = RTL931X_DMA_IF_INTR_RX_DONE_MSK, + .dma_if_intr_tx_done_msk = RTL931X_DMA_IF_INTR_TX_DONE_MSK, + .l2_ntfy_if_intr_sts = RTL931X_L2_NTFY_IF_INTR_STS, + .l2_ntfy_if_intr_msk = RTL931X_L2_NTFY_IF_INTR_MSK, + .dma_if_ctrl = RTL931X_DMA_IF_CTRL, + .mac_force_mode_ctrl = RTL931X_MAC_FORCE_MODE_CTRL, + .dma_rx_base = RTL931X_DMA_RX_BASE, + .dma_tx_base = RTL931X_DMA_TX_BASE, + .dma_if_rx_ring_size = rtl931x_dma_if_rx_ring_size, + .dma_if_rx_ring_cntr = rtl931x_dma_if_rx_ring_cntr, + .dma_if_rx_cur = RTL931X_DMA_IF_RX_CUR, + .rst_glb_ctrl = RTL931X_RST_GLB_CTRL, + .get_mac_link_sts = rtl931x_get_mac_link_sts, + .get_mac_link_dup_sts = rtl931x_get_mac_link_dup_sts, + .get_mac_link_spd_sts = rtl931x_get_mac_link_spd_sts, + .get_mac_rx_pause_sts = rtl931x_get_mac_rx_pause_sts, + .get_mac_tx_pause_sts = rtl931x_get_mac_tx_pause_sts, + .mac = RTL931X_MAC_L2_ADDR_CTRL, + .l2_tbl_flush_ctrl = RTL931X_L2_TBL_FLUSH_CTRL, + .update_cntr = rtl931x_update_cntr, + .create_tx_header = rtl931x_create_tx_header, + .decode_tag = rtl931x_decode_tag, +}; + +static void rtl838x_hw_reset(struct rtl838x_eth_priv *priv) +{ + u32 int_saved, nbuf; + int i, pos; + + pr_info("RESETTING %x, CPU_PORT %d\n", priv->family_id, priv->cpu_port); + sw_w32_mask(0x3, 0, priv->r->mac_port_ctrl(priv->cpu_port)); + mdelay(100); + + /* Disable and clear interrupts */ + if (priv->family_id == RTL9300_FAMILY_ID || priv->family_id == RTL9310_FAMILY_ID) { + sw_w32(0x00000000, priv->r->dma_if_intr_rx_runout_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_runout_sts); + sw_w32(0x00000000, priv->r->dma_if_intr_rx_done_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_done_sts); + sw_w32(0x00000000, priv->r->dma_if_intr_tx_done_msk); + sw_w32(0x0000000f, priv->r->dma_if_intr_tx_done_sts); + } else { + sw_w32(0x00000000, priv->r->dma_if_intr_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_sts); + } + + if (priv->family_id == RTL8390_FAMILY_ID) { + /* Preserve L2 notification and NBUF settings */ + int_saved = sw_r32(priv->r->dma_if_intr_msk); + nbuf = sw_r32(RTL839X_DMA_IF_NBUF_BASE_DESC_ADDR_CTRL); + + /* Disable link change interrupt on RTL839x */ + sw_w32(0, RTL839X_IMR_PORT_LINK_STS_CHG); + sw_w32(0, RTL839X_IMR_PORT_LINK_STS_CHG + 4); + + sw_w32(0x00000000, priv->r->dma_if_intr_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_sts); + } + + /* Reset NIC */ + if (priv->family_id == RTL9300_FAMILY_ID || priv->family_id == RTL9310_FAMILY_ID) + sw_w32(0x4, priv->r->rst_glb_ctrl); + else + sw_w32(0x8, priv->r->rst_glb_ctrl); + + do { /* Wait for reset of NIC and Queues done */ + udelay(20); + } while (sw_r32(priv->r->rst_glb_ctrl) & 0xc); + mdelay(100); + + /* Setup Head of Line */ + if (priv->family_id == RTL8380_FAMILY_ID) + sw_w32(0, RTL838X_DMA_IF_RX_RING_SIZE); // Disabled on RTL8380 + if (priv->family_id == RTL8390_FAMILY_ID) + sw_w32(0xffffffff, RTL839X_DMA_IF_RX_RING_CNTR); + if (priv->family_id == RTL9300_FAMILY_ID) { + for (i = 0; i < priv->rxrings; i++) { + pos = (i % 3) * 10; + sw_w32_mask(0x3ff << pos, 0, priv->r->dma_if_rx_ring_size(i)); + sw_w32_mask(0x3ff << pos, priv->rxringlen, + priv->r->dma_if_rx_ring_cntr(i)); + } + } + + /* Re-enable link change interrupt */ + if (priv->family_id == RTL8390_FAMILY_ID) { + sw_w32(0xffffffff, RTL839X_ISR_PORT_LINK_STS_CHG); + sw_w32(0xffffffff, RTL839X_ISR_PORT_LINK_STS_CHG + 4); + sw_w32(0xffffffff, RTL839X_IMR_PORT_LINK_STS_CHG); + sw_w32(0xffffffff, RTL839X_IMR_PORT_LINK_STS_CHG + 4); + + /* Restore notification settings: on RTL838x these bits are null */ + sw_w32_mask(7 << 20, int_saved & (7 << 20), priv->r->dma_if_intr_msk); + sw_w32(nbuf, RTL839X_DMA_IF_NBUF_BASE_DESC_ADDR_CTRL); + } +} + +static void rtl838x_hw_ring_setup(struct rtl838x_eth_priv *priv) +{ + int i; + struct ring_b *ring = priv->membase; + + for (i = 0; i < priv->rxrings; i++) + sw_w32(KSEG1ADDR(&ring->rx_r[i]), priv->r->dma_rx_base + i * 4); + + for (i = 0; i < TXRINGS; i++) + sw_w32(KSEG1ADDR(&ring->tx_r[i]), priv->r->dma_tx_base + i * 4); +} + +static void rtl838x_hw_en_rxtx(struct rtl838x_eth_priv *priv) +{ + /* Disable Head of Line features for all RX rings */ + sw_w32(0xffffffff, priv->r->dma_if_rx_ring_size(0)); + + /* Truncate RX buffer to 0x640 (1600) bytes, pad TX */ + sw_w32(0x06400020, priv->r->dma_if_ctrl); + + /* Enable RX done, RX overflow and TX done interrupts */ + sw_w32(0xfffff, priv->r->dma_if_intr_msk); + + /* Enable DMA, engine expects empty FCS field */ + sw_w32_mask(0, RX_EN | TX_EN, priv->r->dma_if_ctrl); + + /* Restart TX/RX to CPU port */ + sw_w32_mask(0x0, 0x3, priv->r->mac_port_ctrl(priv->cpu_port)); + /* Set Speed, duplex, flow control + * FORCE_EN | LINK_EN | NWAY_EN | DUP_SEL + * | SPD_SEL = 0b10 | FORCE_FC_EN | PHY_MASTER_SLV_MANUAL_EN + * | MEDIA_SEL + */ + sw_w32(0x6192F, priv->r->mac_force_mode_ctrl + priv->cpu_port * 4); + + /* Enable CRC checks on CPU-port */ + sw_w32_mask(0, BIT(3), priv->r->mac_port_ctrl(priv->cpu_port)); +} + +static void rtl839x_hw_en_rxtx(struct rtl838x_eth_priv *priv) +{ + /* Setup CPU-Port: RX Buffer */ + sw_w32(0x0000c808, priv->r->dma_if_ctrl); + + /* Enable Notify, RX done, RX overflow and TX done interrupts */ + sw_w32(0x007fffff, priv->r->dma_if_intr_msk); // Notify IRQ! + + /* Enable DMA */ + sw_w32_mask(0, RX_EN | TX_EN, priv->r->dma_if_ctrl); + + /* Restart TX/RX to CPU port, enable CRC checking */ + sw_w32_mask(0x0, 0x3 | BIT(3), priv->r->mac_port_ctrl(priv->cpu_port)); + + /* CPU port joins Lookup Miss Flooding Portmask */ + // TODO: The code below should also work for the RTL838x + sw_w32(0x28000, RTL839X_TBL_ACCESS_L2_CTRL); + sw_w32_mask(0, 0x80000000, RTL839X_TBL_ACCESS_L2_DATA(0)); + sw_w32(0x38000, RTL839X_TBL_ACCESS_L2_CTRL); + + /* Force CPU port link up */ + sw_w32_mask(0, 3, priv->r->mac_force_mode_ctrl + priv->cpu_port * 4); +} + +static void rtl93xx_hw_en_rxtx(struct rtl838x_eth_priv *priv) +{ + int i, pos; + u32 v; + + /* Setup CPU-Port: RX Buffer truncated at 1600 Bytes */ + sw_w32(0x06400040, priv->r->dma_if_ctrl); + + for (i = 0; i < priv->rxrings; i++) { + pos = (i % 3) * 10; + sw_w32_mask(0x3ff << pos, priv->rxringlen << pos, priv->r->dma_if_rx_ring_size(i)); + + // Some SoCs have issues with missing underflow protection + v = (sw_r32(priv->r->dma_if_rx_ring_cntr(i)) >> pos) & 0x3ff; + sw_w32_mask(0x3ff << pos, v, priv->r->dma_if_rx_ring_cntr(i)); + } + + /* Enable Notify, RX done, RX overflow and TX done interrupts */ + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_runout_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_done_msk); + sw_w32(0x0000000f, priv->r->dma_if_intr_tx_done_msk); + + /* Enable DMA */ + sw_w32_mask(0, RX_EN_93XX | TX_EN_93XX, priv->r->dma_if_ctrl); + + /* Restart TX/RX to CPU port, enable CRC checking */ + sw_w32_mask(0x0, 0x3 | BIT(4), priv->r->mac_port_ctrl(priv->cpu_port)); + + sw_w32_mask(0, BIT(priv->cpu_port), RTL930X_L2_UNKN_UC_FLD_PMSK); + sw_w32(0x217, priv->r->mac_force_mode_ctrl + priv->cpu_port * 4); +} + +static void rtl838x_setup_ring_buffer(struct rtl838x_eth_priv *priv, struct ring_b *ring) +{ + int i, j; + + struct p_hdr *h; + + for (i = 0; i < priv->rxrings; i++) { + for (j = 0; j < priv->rxringlen; j++) { + h = &ring->rx_header[i][j]; + memset(h, 0, sizeof(struct p_hdr)); + h->buf = (u8 *)KSEG1ADDR(ring->rx_space + + i * priv->rxringlen * RING_BUFFER + + j * RING_BUFFER); + h->size = RING_BUFFER; + /* All rings owned by switch, last one wraps */ + ring->rx_r[i][j] = KSEG1ADDR(h) | 1 + | (j == (priv->rxringlen - 1) ? WRAP : 0); + } + ring->c_rx[i] = 0; + } + + for (i = 0; i < TXRINGS; i++) { + for (j = 0; j < TXRINGLEN; j++) { + h = &ring->tx_header[i][j]; + memset(h, 0, sizeof(struct p_hdr)); + h->buf = (u8 *)KSEG1ADDR(ring->tx_space + + i * TXRINGLEN * RING_BUFFER + + j * RING_BUFFER); + h->size = RING_BUFFER; + ring->tx_r[i][j] = KSEG1ADDR(&ring->tx_header[i][j]); + } + /* Last header is wrapping around */ + ring->tx_r[i][j-1] |= WRAP; + ring->c_tx[i] = 0; + } +} + +static void rtl839x_setup_notify_ring_buffer(struct rtl838x_eth_priv *priv) +{ + int i; + struct notify_b *b = priv->membase + sizeof(struct ring_b); + + for (i = 0; i < NOTIFY_BLOCKS; i++) + b->ring[i] = KSEG1ADDR(&b->blocks[i]) | 1 | (i == (NOTIFY_BLOCKS - 1) ? WRAP : 0); + + sw_w32((u32) b->ring, RTL839X_DMA_IF_NBUF_BASE_DESC_ADDR_CTRL); + sw_w32_mask(0x3ff << 2, 100 << 2, RTL839X_L2_NOTIFICATION_CTRL); + + /* Setup notification events */ + sw_w32_mask(0, 1 << 14, RTL839X_L2_CTRL_0); // RTL8390_L2_CTRL_0_FLUSH_NOTIFY_EN + sw_w32_mask(0, 1 << 12, RTL839X_L2_NOTIFICATION_CTRL); // SUSPEND_NOTIFICATION_EN + + /* Enable Notification */ + sw_w32_mask(0, 1 << 0, RTL839X_L2_NOTIFICATION_CTRL); + priv->lastEvent = 0; +} + +static int rtl838x_eth_open(struct net_device *ndev) +{ + unsigned long flags; + struct rtl838x_eth_priv *priv = netdev_priv(ndev); + struct ring_b *ring = priv->membase; + int i, err; + + pr_debug("%s called: RX rings %d(length %d), TX rings %d(length %d)\n", + __func__, priv->rxrings, priv->rxringlen, TXRINGS, TXRINGLEN); + + spin_lock_irqsave(&priv->lock, flags); + rtl838x_hw_reset(priv); + rtl838x_setup_ring_buffer(priv, ring); + if (priv->family_id == RTL8390_FAMILY_ID) { + rtl839x_setup_notify_ring_buffer(priv); + /* Make sure the ring structure is visible to the ASIC */ + mb(); + flush_cache_all(); + } + + rtl838x_hw_ring_setup(priv); + err = request_irq(ndev->irq, priv->r->net_irq, IRQF_SHARED, ndev->name, ndev); + if (err) { + netdev_err(ndev, "%s: could not acquire interrupt: %d\n", + __func__, err); + return err; + } + phylink_start(priv->phylink); + + for (i = 0; i < priv->rxrings; i++) + napi_enable(&priv->rx_qs[i].napi); + + switch (priv->family_id) { + case RTL8380_FAMILY_ID: + rtl838x_hw_en_rxtx(priv); + /* Trap IGMP/MLD traffic to CPU-Port */ + sw_w32(0x3, RTL838X_SPCL_TRAP_IGMP_CTRL); + /* Flush learned FDB entries on link down of a port */ + sw_w32_mask(0, BIT(7), RTL838X_L2_CTRL_0); + break; + + case RTL8390_FAMILY_ID: + rtl839x_hw_en_rxtx(priv); + // Trap MLD and IGMP messages to CPU_PORT + sw_w32(0x3, RTL839X_SPCL_TRAP_IGMP_CTRL); + /* Flush learned FDB entries on link down of a port */ + sw_w32_mask(0, BIT(7), RTL839X_L2_CTRL_0); + break; + + case RTL9300_FAMILY_ID: + rtl93xx_hw_en_rxtx(priv); + /* Flush learned FDB entries on link down of a port */ + sw_w32_mask(0, BIT(7), RTL930X_L2_CTRL); + // Trap MLD and IGMP messages to CPU_PORT + sw_w32((0x2 << 3) | 0x2, RTL930X_VLAN_APP_PKT_CTRL); + break; + + case RTL9310_FAMILY_ID: + rtl93xx_hw_en_rxtx(priv); + break; + } + + netif_tx_start_all_queues(ndev); + + spin_unlock_irqrestore(&priv->lock, flags); + + return 0; +} + +static void rtl838x_hw_stop(struct rtl838x_eth_priv *priv) +{ + u32 force_mac = priv->family_id == RTL8380_FAMILY_ID ? 0x6192C : 0x75; + u32 clear_irq = priv->family_id == RTL8380_FAMILY_ID ? 0x000fffff : 0x007fffff; + int i; + + // Disable RX/TX from/to CPU-port + sw_w32_mask(0x3, 0, priv->r->mac_port_ctrl(priv->cpu_port)); + + /* Disable traffic */ + if (priv->family_id == RTL9300_FAMILY_ID || priv->family_id == RTL9310_FAMILY_ID) + sw_w32_mask(RX_EN_93XX | TX_EN_93XX, 0, priv->r->dma_if_ctrl); + else + sw_w32_mask(RX_EN | TX_EN, 0, priv->r->dma_if_ctrl); + mdelay(200); // Test, whether this is needed + + /* Block all ports */ + if (priv->family_id == RTL8380_FAMILY_ID) { + sw_w32(0x03000000, RTL838X_TBL_ACCESS_DATA_0(0)); + sw_w32(0x00000000, RTL838X_TBL_ACCESS_DATA_0(1)); + sw_w32(1 << 15 | 2 << 12, RTL838X_TBL_ACCESS_CTRL_0); + } + + /* Flush L2 address cache */ + if (priv->family_id == RTL8380_FAMILY_ID) { + for (i = 0; i <= priv->cpu_port; i++) { + sw_w32(1 << 26 | 1 << 23 | i << 5, priv->r->l2_tbl_flush_ctrl); + do { } while (sw_r32(priv->r->l2_tbl_flush_ctrl) & (1 << 26)); + } + } else if (priv->family_id == RTL8390_FAMILY_ID) { + for (i = 0; i <= priv->cpu_port; i++) { + sw_w32(1 << 28 | 1 << 25 | i << 5, priv->r->l2_tbl_flush_ctrl); + do { } while (sw_r32(priv->r->l2_tbl_flush_ctrl) & (1 << 28)); + } + } + // TODO: L2 flush register is 64 bit on RTL931X and 930X + + /* CPU-Port: Link down */ + if (priv->family_id == RTL8380_FAMILY_ID || priv->family_id == RTL8390_FAMILY_ID) + sw_w32(force_mac, priv->r->mac_force_mode_ctrl + priv->cpu_port * 4); + else + sw_w32_mask(0x3, 0, priv->r->mac_force_mode_ctrl + priv->cpu_port *4); + mdelay(100); + + /* Disable all TX/RX interrupts */ + if (priv->family_id == RTL9300_FAMILY_ID || priv->family_id == RTL9310_FAMILY_ID) { + sw_w32(0x00000000, priv->r->dma_if_intr_rx_runout_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_runout_sts); + sw_w32(0x00000000, priv->r->dma_if_intr_rx_done_msk); + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_done_sts); + sw_w32(0x00000000, priv->r->dma_if_intr_tx_done_msk); + sw_w32(0x0000000f, priv->r->dma_if_intr_tx_done_sts); + } else { + sw_w32(0x00000000, priv->r->dma_if_intr_msk); + sw_w32(clear_irq, priv->r->dma_if_intr_sts); + } + + /* Disable TX/RX DMA */ + sw_w32(0x00000000, priv->r->dma_if_ctrl); + mdelay(200); +} + +static int rtl838x_eth_stop(struct net_device *ndev) +{ + unsigned long flags; + int i; + struct rtl838x_eth_priv *priv = netdev_priv(ndev); + + pr_info("in %s\n", __func__); + + spin_lock_irqsave(&priv->lock, flags); + phylink_stop(priv->phylink); + rtl838x_hw_stop(priv); + free_irq(ndev->irq, ndev); + + for (i = 0; i < priv->rxrings; i++) + napi_disable(&priv->rx_qs[i].napi); + + netif_tx_stop_all_queues(ndev); + + spin_unlock_irqrestore(&priv->lock, flags); + + return 0; +} + +static void rtl839x_eth_set_multicast_list(struct net_device *ndev) +{ + if (!(ndev->flags & (IFF_PROMISC | IFF_ALLMULTI))) { + sw_w32(0x0, RTL839X_RMA_CTRL_0); + sw_w32(0x0, RTL839X_RMA_CTRL_1); + sw_w32(0x0, RTL839X_RMA_CTRL_2); + sw_w32(0x0, RTL839X_RMA_CTRL_3); + } + if (ndev->flags & IFF_ALLMULTI) { + sw_w32(0x7fffffff, RTL839X_RMA_CTRL_0); + sw_w32(0x7fffffff, RTL839X_RMA_CTRL_1); + sw_w32(0x7fffffff, RTL839X_RMA_CTRL_2); + } + if (ndev->flags & IFF_PROMISC) { + sw_w32(0x7fffffff, RTL839X_RMA_CTRL_0); + sw_w32(0x7fffffff, RTL839X_RMA_CTRL_1); + sw_w32(0x7fffffff, RTL839X_RMA_CTRL_2); + sw_w32(0x3ff, RTL839X_RMA_CTRL_3); + } +} + +static void rtl838x_eth_set_multicast_list(struct net_device *ndev) +{ + struct rtl838x_eth_priv *priv = netdev_priv(ndev); + + if (priv->family_id == RTL8390_FAMILY_ID) + return rtl839x_eth_set_multicast_list(ndev); + + if (!(ndev->flags & (IFF_PROMISC | IFF_ALLMULTI))) { + sw_w32(0x0, RTL838X_RMA_CTRL_0); + sw_w32(0x0, RTL838X_RMA_CTRL_1); + } + if (ndev->flags & IFF_ALLMULTI) + sw_w32(0x1fffff, RTL838X_RMA_CTRL_0); + if (ndev->flags & IFF_PROMISC) { + sw_w32(0x1fffff, RTL838X_RMA_CTRL_0); + sw_w32(0x7fff, RTL838X_RMA_CTRL_1); + } +} + +static void rtl930x_eth_set_multicast_list(struct net_device *ndev) +{ + if (!(ndev->flags & (IFF_PROMISC | IFF_ALLMULTI))) { + sw_w32(0x0, RTL930X_RMA_CTRL_0); + sw_w32(0x0, RTL930X_RMA_CTRL_1); + sw_w32(0x0, RTL930X_RMA_CTRL_2); + } + if (ndev->flags & IFF_ALLMULTI) { + sw_w32(0x7fffffff, RTL930X_RMA_CTRL_0); + sw_w32(0x7fffffff, RTL930X_RMA_CTRL_1); + sw_w32(0x7fffffff, RTL930X_RMA_CTRL_2); + } + if (ndev->flags & IFF_PROMISC) { + sw_w32(0x7fffffff, RTL930X_RMA_CTRL_0); + sw_w32(0x7fffffff, RTL930X_RMA_CTRL_1); + sw_w32(0x7fffffff, RTL930X_RMA_CTRL_2); + } +} + +static void rtl931x_eth_set_multicast_list(struct net_device *ndev) +{ + if (!(ndev->flags & (IFF_PROMISC | IFF_ALLMULTI))) { + sw_w32(0x0, RTL931X_RMA_CTRL_0); + sw_w32(0x0, RTL931X_RMA_CTRL_1); + sw_w32(0x0, RTL931X_RMA_CTRL_2); + } + if (ndev->flags & IFF_ALLMULTI) { + sw_w32(0x7fffffff, RTL931X_RMA_CTRL_0); + sw_w32(0x7fffffff, RTL931X_RMA_CTRL_1); + sw_w32(0x7fffffff, RTL931X_RMA_CTRL_2); + } + if (ndev->flags & IFF_PROMISC) { + sw_w32(0x7fffffff, RTL931X_RMA_CTRL_0); + sw_w32(0x7fffffff, RTL931X_RMA_CTRL_1); + sw_w32(0x7fffffff, RTL931X_RMA_CTRL_2); + } +} + +static void rtl838x_eth_tx_timeout(struct net_device *ndev) +{ + unsigned long flags; + struct rtl838x_eth_priv *priv = netdev_priv(ndev); + + pr_warn("%s\n", __func__); + spin_lock_irqsave(&priv->lock, flags); + rtl838x_hw_stop(priv); + rtl838x_hw_ring_setup(priv); + rtl838x_hw_en_rxtx(priv); + netif_trans_update(ndev); + netif_start_queue(ndev); + spin_unlock_irqrestore(&priv->lock, flags); +} + +static int rtl838x_eth_tx(struct sk_buff *skb, struct net_device *dev) +{ + int len, i; + struct rtl838x_eth_priv *priv = netdev_priv(dev); + struct ring_b *ring = priv->membase; + uint32_t val; + int ret; + unsigned long flags; + struct p_hdr *h; + int dest_port = -1; + int q = skb_get_queue_mapping(skb) % TXRINGS; + + if (q) // Check for high prio queue + pr_debug("SKB priority: %d\n", skb->priority); + + spin_lock_irqsave(&priv->lock, flags); + len = skb->len; + + /* Check for DSA tagging at the end of the buffer */ + if (netdev_uses_dsa(dev) && skb->data[len-4] == 0x80 && skb->data[len-3] > 0 + && skb->data[len-3] < priv->cpu_port && skb->data[len-2] == 0x10 + && skb->data[len-1] == 0x00) { + /* Reuse tag space for CRC if possible */ + dest_port = skb->data[len-3]; + skb->data[len-4] = skb->data[len-3] = skb->data[len-2] = skb->data[len-1] = 0x00; + len -= 4; + } + + len += 4; // Add space for CRC + + if (skb_padto(skb, len)) { + ret = NETDEV_TX_OK; + goto txdone; + } + + /* We can send this packet if CPU owns the descriptor */ + if (!(ring->tx_r[q][ring->c_tx[q]] & 0x1)) { + + /* Set descriptor for tx */ + h = &ring->tx_header[q][ring->c_tx[q]]; + h->size = len; + h->len = len; + // On RTL8380 SoCs, small packet lengths being sent need adjustments + if (priv->family_id == RTL8380_FAMILY_ID) { + if (len < ETH_ZLEN - 4) + h->len -= 4; + } + + priv->r->create_tx_header(h, dest_port, skb->priority >> 1); + + /* Copy packet data to tx buffer */ + memcpy((void *)KSEG1ADDR(h->buf), skb->data, len); + /* Make sure packet data is visible to ASIC */ + wmb(); + + /* Hand over to switch */ + ring->tx_r[q][ring->c_tx[q]] |= 1; + + // Before starting TX, prevent a Lextra bus bug on RTL8380 SoCs + if (priv->family_id == RTL8380_FAMILY_ID) { + for (i = 0; i < 10; i++) { + val = sw_r32(priv->r->dma_if_ctrl); + if ((val & 0xc) == 0xc) + break; + } + } + + /* Tell switch to send data */ + if (priv->family_id == RTL9310_FAMILY_ID + || priv->family_id == RTL9300_FAMILY_ID) { + // Ring ID q == 0: Low priority, Ring ID = 1: High prio queue + if (!q) + sw_w32_mask(0, BIT(2), priv->r->dma_if_ctrl); + else + sw_w32_mask(0, BIT(3), priv->r->dma_if_ctrl); + } else { + sw_w32_mask(0, TX_DO, priv->r->dma_if_ctrl); + } + + dev->stats.tx_packets++; + dev->stats.tx_bytes += len; + dev_kfree_skb(skb); + ring->c_tx[q] = (ring->c_tx[q] + 1) % TXRINGLEN; + ret = NETDEV_TX_OK; + } else { + dev_warn(&priv->pdev->dev, "Data is owned by switch\n"); + ret = NETDEV_TX_BUSY; + } +txdone: + spin_unlock_irqrestore(&priv->lock, flags); + return ret; +} + +/* + * Return queue number for TX. On the RTL83XX, these queues have equal priority + * so we do round-robin + */ +u16 rtl83xx_pick_tx_queue(struct net_device *dev, struct sk_buff *skb, + struct net_device *sb_dev) +{ + static u8 last = 0; + + last++; + return last % TXRINGS; +} + +/* + * Return queue number for TX. On the RTL93XX, queue 1 is the high priority queue + */ +u16 rtl93xx_pick_tx_queue(struct net_device *dev, struct sk_buff *skb, + struct net_device *sb_dev) +{ + if (skb->priority >= TC_PRIO_CONTROL) + return 1; + return 0; +} + +static int rtl838x_hw_receive(struct net_device *dev, int r, int budget) +{ + struct rtl838x_eth_priv *priv = netdev_priv(dev); + struct ring_b *ring = priv->membase; + struct sk_buff *skb; + unsigned long flags; + int i, len, work_done = 0; + u8 *data, *skb_data; + unsigned int val; + u32 *last; + struct p_hdr *h; + bool dsa = netdev_uses_dsa(dev); + struct dsa_tag tag; + + spin_lock_irqsave(&priv->lock, flags); + last = (u32 *)KSEG1ADDR(sw_r32(priv->r->dma_if_rx_cur + r * 4)); + pr_debug("---------------------------------------------------------- RX - %d\n", r); + + do { + if ((ring->rx_r[r][ring->c_rx[r]] & 0x1)) { + if (&ring->rx_r[r][ring->c_rx[r]] != last) { + netdev_warn(dev, "Ring contention: r: %x, last %x, cur %x\n", + r, (uint32_t)last, (u32) &ring->rx_r[r][ring->c_rx[r]]); + } + break; + } + + h = &ring->rx_header[r][ring->c_rx[r]]; + data = (u8 *)KSEG1ADDR(h->buf); + len = h->len; + if (!len) + break; + work_done++; + + len -= 4; /* strip the CRC */ + /* Add 4 bytes for cpu_tag */ + if (dsa) + len += 4; + + skb = alloc_skb(len + 4, GFP_KERNEL); + skb_reserve(skb, NET_IP_ALIGN); + + if (likely(skb)) { + /* BUG: Prevent bug on RTL838x SoCs*/ + if (priv->family_id == RTL8380_FAMILY_ID) { + sw_w32(0xffffffff, priv->r->dma_if_rx_ring_size(0)); + for (i = 0; i < priv->rxrings; i++) { + /* Update each ring cnt */ + val = sw_r32(priv->r->dma_if_rx_ring_cntr(i)); + sw_w32(val, priv->r->dma_if_rx_ring_cntr(i)); + } + } + + skb_data = skb_put(skb, len); + /* Make sure data is visible */ + mb(); + memcpy(skb->data, (u8 *)KSEG1ADDR(data), len); + /* Overwrite CRC with cpu_tag */ + if (dsa) { + priv->r->decode_tag(h, &tag); + skb->data[len-4] = 0x80; + skb->data[len-3] = tag.port; + skb->data[len-2] = 0x10; + skb->data[len-1] = 0x00; + if (tag.l2_offloaded) + skb->data[len-3] |= 0x40; + } + + if (tag.queue >= 0) + pr_debug("Queue: %d, len: %d, reason %d port %d\n", + tag.queue, len, tag.reason, tag.port); + + skb->protocol = eth_type_trans(skb, dev); + if (dev->features & NETIF_F_RXCSUM) { + if (tag.crc_error) + skb_checksum_none_assert(skb); + else + skb->ip_summed = CHECKSUM_UNNECESSARY; + } + dev->stats.rx_packets++; + dev->stats.rx_bytes += len; + + netif_receive_skb(skb); + } else { + if (net_ratelimit()) + dev_warn(&dev->dev, "low on memory - packet dropped\n"); + dev->stats.rx_dropped++; + } + + /* Reset header structure */ + memset(h, 0, sizeof(struct p_hdr)); + h->buf = data; + h->size = RING_BUFFER; + + ring->rx_r[r][ring->c_rx[r]] = KSEG1ADDR(h) | 0x1 + | (ring->c_rx[r] == (priv->rxringlen - 1) ? WRAP : 0x1); + ring->c_rx[r] = (ring->c_rx[r] + 1) % priv->rxringlen; + last = (u32 *)KSEG1ADDR(sw_r32(priv->r->dma_if_rx_cur + r * 4)); + } while (&ring->rx_r[r][ring->c_rx[r]] != last && work_done < budget); + + // Update counters + priv->r->update_cntr(r, 0); + + spin_unlock_irqrestore(&priv->lock, flags); + return work_done; +} + +static int rtl838x_poll_rx(struct napi_struct *napi, int budget) +{ + struct rtl838x_rx_q *rx_q = container_of(napi, struct rtl838x_rx_q, napi); + struct rtl838x_eth_priv *priv = rx_q->priv; + int work_done = 0; + int r = rx_q->id; + int work; + + while (work_done < budget) { + work = rtl838x_hw_receive(priv->netdev, r, budget - work_done); + if (!work) + break; + work_done += work; + } + + if (work_done < budget) { + napi_complete_done(napi, work_done); + + /* Enable RX interrupt */ + if (priv->family_id == RTL9300_FAMILY_ID || priv->family_id == RTL9310_FAMILY_ID) + sw_w32(0xffffffff, priv->r->dma_if_intr_rx_done_msk); + else + sw_w32_mask(0, 0xf00ff | BIT(r + 8), priv->r->dma_if_intr_msk); + } + return work_done; +} + + +static void rtl838x_validate(struct phylink_config *config, + unsigned long *supported, + struct phylink_link_state *state) +{ + __ETHTOOL_DECLARE_LINK_MODE_MASK(mask) = { 0, }; + + pr_debug("In %s\n", __func__); + + if (!phy_interface_mode_is_rgmii(state->interface) && + state->interface != PHY_INTERFACE_MODE_1000BASEX && + state->interface != PHY_INTERFACE_MODE_MII && + state->interface != PHY_INTERFACE_MODE_REVMII && + state->interface != PHY_INTERFACE_MODE_GMII && + state->interface != PHY_INTERFACE_MODE_QSGMII && + state->interface != PHY_INTERFACE_MODE_INTERNAL && + state->interface != PHY_INTERFACE_MODE_SGMII) { + bitmap_zero(supported, __ETHTOOL_LINK_MODE_MASK_NBITS); + pr_err("Unsupported interface: %d\n", state->interface); + return; + } + + /* Allow all the expected bits */ + phylink_set(mask, Autoneg); + phylink_set_port_modes(mask); + phylink_set(mask, Pause); + phylink_set(mask, Asym_Pause); + + /* With the exclusion of MII and Reverse MII, we support Gigabit, + * including Half duplex + */ + if (state->interface != PHY_INTERFACE_MODE_MII && + state->interface != PHY_INTERFACE_MODE_REVMII) { + phylink_set(mask, 1000baseT_Full); + phylink_set(mask, 1000baseT_Half); + } + + phylink_set(mask, 10baseT_Half); + phylink_set(mask, 10baseT_Full); + phylink_set(mask, 100baseT_Half); + phylink_set(mask, 100baseT_Full); + + bitmap_and(supported, supported, mask, + __ETHTOOL_LINK_MODE_MASK_NBITS); + bitmap_and(state->advertising, state->advertising, mask, + __ETHTOOL_LINK_MODE_MASK_NBITS); +} + + +static void rtl838x_mac_config(struct phylink_config *config, + unsigned int mode, + const struct phylink_link_state *state) +{ + /* This is only being called for the master device, + * i.e. the CPU-Port. We don't need to do anything. + */ + + pr_info("In %s, mode %x\n", __func__, mode); +} + +static void rtl838x_mac_an_restart(struct phylink_config *config) +{ + struct net_device *dev = container_of(config->dev, struct net_device, dev); + struct rtl838x_eth_priv *priv = netdev_priv(dev); + + /* This works only on RTL838x chips */ + if (priv->family_id != RTL8380_FAMILY_ID) + return; + + pr_debug("In %s\n", __func__); + /* Restart by disabling and re-enabling link */ + sw_w32(0x6192D, priv->r->mac_force_mode_ctrl + priv->cpu_port * 4); + mdelay(20); + sw_w32(0x6192F, priv->r->mac_force_mode_ctrl + priv->cpu_port * 4); +} + +static int rtl838x_mac_pcs_get_state(struct phylink_config *config, + struct phylink_link_state *state) +{ + u32 speed; + struct net_device *dev = container_of(config->dev, struct net_device, dev); + struct rtl838x_eth_priv *priv = netdev_priv(dev); + int port = priv->cpu_port; + + pr_debug("In %s\n", __func__); + + state->link = priv->r->get_mac_link_sts(port) ? 1 : 0; + state->duplex = priv->r->get_mac_link_dup_sts(port) ? 1 : 0; + + speed = priv->r->get_mac_link_spd_sts(port); + switch (speed) { + case 0: + state->speed = SPEED_10; + break; + case 1: + state->speed = SPEED_100; + break; + case 2: + state->speed = SPEED_1000; + break; + default: + state->speed = SPEED_UNKNOWN; + break; + } + + state->pause &= (MLO_PAUSE_RX | MLO_PAUSE_TX); + if (priv->r->get_mac_rx_pause_sts(port)) + state->pause |= MLO_PAUSE_RX; + if (priv->r->get_mac_tx_pause_sts(port)) + state->pause |= MLO_PAUSE_TX; + + return 1; +} + +static void rtl838x_mac_link_down(struct phylink_config *config, + unsigned int mode, + phy_interface_t interface) +{ + struct net_device *dev = container_of(config->dev, struct net_device, dev); + struct rtl838x_eth_priv *priv = netdev_priv(dev); + + pr_debug("In %s\n", __func__); + /* Stop TX/RX to port */ + sw_w32_mask(0x03, 0, priv->r->mac_port_ctrl(priv->cpu_port)); +} + +static void rtl838x_mac_link_up(struct phylink_config *config, unsigned int mode, + phy_interface_t interface, + struct phy_device *phy) +{ + struct net_device *dev = container_of(config->dev, struct net_device, dev); + struct rtl838x_eth_priv *priv = netdev_priv(dev); + + pr_debug("In %s\n", __func__); + /* Restart TX/RX to port */ + sw_w32_mask(0, 0x03, priv->r->mac_port_ctrl(priv->cpu_port)); +} + +static void rtl838x_set_mac_hw(struct net_device *dev, u8 *mac) +{ + struct rtl838x_eth_priv *priv = netdev_priv(dev); + unsigned long flags; + + spin_lock_irqsave(&priv->lock, flags); + pr_debug("In %s\n", __func__); + sw_w32((mac[0] << 8) | mac[1], priv->r->mac); + sw_w32((mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) | mac[5], priv->r->mac + 4); + + if (priv->family_id == RTL8380_FAMILY_ID) { + /* 2 more registers, ALE/MAC block */ + sw_w32((mac[0] << 8) | mac[1], RTL838X_MAC_ALE); + sw_w32((mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) | mac[5], + (RTL838X_MAC_ALE + 4)); + + sw_w32((mac[0] << 8) | mac[1], RTL838X_MAC2); + sw_w32((mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) | mac[5], + RTL838X_MAC2 + 4); + } + spin_unlock_irqrestore(&priv->lock, flags); +} + +static int rtl838x_set_mac_address(struct net_device *dev, void *p) +{ + struct rtl838x_eth_priv *priv = netdev_priv(dev); + const struct sockaddr *addr = p; + u8 *mac = (u8 *) (addr->sa_data); + + if (!is_valid_ether_addr(addr->sa_data)) + return -EADDRNOTAVAIL; + + memcpy(dev->dev_addr, addr->sa_data, ETH_ALEN); + rtl838x_set_mac_hw(dev, mac); + + pr_info("Using MAC %08x%08x\n", sw_r32(priv->r->mac), sw_r32(priv->r->mac + 4)); + return 0; +} + +static int rtl8390_init_mac(struct rtl838x_eth_priv *priv) +{ + // We will need to set-up EEE and the egress-rate limitation + return 0; +} + +static int rtl8380_init_mac(struct rtl838x_eth_priv *priv) +{ + int i; + + if (priv->family_id == 0x8390) + return rtl8390_init_mac(priv); + + pr_info("%s\n", __func__); + /* fix timer for EEE */ + sw_w32(0x5001411, RTL838X_EEE_TX_TIMER_GIGA_CTRL); + sw_w32(0x5001417, RTL838X_EEE_TX_TIMER_GELITE_CTRL); + + /* Init VLAN */ + if (priv->id == 0x8382) { + for (i = 0; i <= 28; i++) + sw_w32(0, 0xd57c + i * 0x80); + } + if (priv->id == 0x8380) { + for (i = 8; i <= 28; i++) + sw_w32(0, 0xd57c + i * 0x80); + } + return 0; +} + +static int rtl838x_get_link_ksettings(struct net_device *ndev, + struct ethtool_link_ksettings *cmd) +{ + struct rtl838x_eth_priv *priv = netdev_priv(ndev); + + pr_debug("%s called\n", __func__); + return phylink_ethtool_ksettings_get(priv->phylink, cmd); +} + +static int rtl838x_set_link_ksettings(struct net_device *ndev, + const struct ethtool_link_ksettings *cmd) +{ + struct rtl838x_eth_priv *priv = netdev_priv(ndev); + + pr_debug("%s called\n", __func__); + return phylink_ethtool_ksettings_set(priv->phylink, cmd); +} + +static int rtl838x_mdio_read(struct mii_bus *bus, int mii_id, int regnum) +{ + u32 val; + int err; + struct rtl838x_eth_priv *priv = bus->priv; + + if (mii_id >= 24 && mii_id <= 27 && priv->id == 0x8380) + return rtl838x_read_sds_phy(mii_id, regnum); + err = rtl838x_read_phy(mii_id, 0, regnum, &val); + if (err) + return err; + return val; +} + +static int rtl839x_mdio_read(struct mii_bus *bus, int mii_id, int regnum) +{ + u32 val; + int err; + struct rtl838x_eth_priv *priv = bus->priv; + + if (mii_id >= 48 && mii_id <= 49 && priv->id == 0x8393) + return rtl839x_read_sds_phy(mii_id, regnum); + + err = rtl839x_read_phy(mii_id, 0, regnum, &val); + if (err) + return err; + return val; +} + +static int rtl930x_mdio_read(struct mii_bus *bus, int mii_id, int regnum) +{ + u32 val; + int err; + + // TODO: These are hard-coded for the 2 Fibre Ports of the XGS1210 + if (mii_id >= 26 && mii_id <= 27) + return rtl930x_read_sds_phy(mii_id - 18, 0, regnum); + + if (regnum & MII_ADDR_C45) { + regnum &= ~MII_ADDR_C45; + err = rtl930x_read_mmd_phy(mii_id, regnum >> 16, regnum & 0xffff, &val); + } else { + err = rtl930x_read_phy(mii_id, 0, regnum, &val); + } + if (err) + return err; + return val; +} + +static int rtl931x_mdio_read(struct mii_bus *bus, int mii_id, int regnum) +{ + u32 val; + int err; +// struct rtl838x_eth_priv *priv = bus->priv; + +// if (mii_id >= 48 && mii_id <= 49 && priv->id == 0x8393) +// return rtl839x_read_sds_phy(mii_id, regnum); + + err = rtl931x_read_phy(mii_id, 0, regnum, &val); + if (err) + return err; + return val; +} + +static int rtl838x_mdio_write(struct mii_bus *bus, int mii_id, + int regnum, u16 value) +{ + u32 offset = 0; + struct rtl838x_eth_priv *priv = bus->priv; + + if (mii_id >= 24 && mii_id <= 27 && priv->id == 0x8380) { + if (mii_id == 26) + offset = 0x100; + sw_w32(value, RTL838X_SDS4_FIB_REG0 + offset + (regnum << 2)); + return 0; + } + return rtl838x_write_phy(mii_id, 0, regnum, value); +} + +static int rtl839x_mdio_write(struct mii_bus *bus, int mii_id, + int regnum, u16 value) +{ + struct rtl838x_eth_priv *priv = bus->priv; + + if (mii_id >= 48 && mii_id <= 49 && priv->id == 0x8393) + return rtl839x_write_sds_phy(mii_id, regnum, value); + + return rtl839x_write_phy(mii_id, 0, regnum, value); +} + +static int rtl930x_mdio_write(struct mii_bus *bus, int mii_id, + int regnum, u16 value) +{ +// struct rtl838x_eth_priv *priv = bus->priv; + +// if (mii_id >= 48 && mii_id <= 49 && priv->id == 0x8393) +// return rtl839x_write_sds_phy(mii_id, regnum, value); + if (regnum & MII_ADDR_C45) { + regnum &= ~MII_ADDR_C45; + return rtl930x_write_mmd_phy(mii_id, regnum >> 16, regnum & 0xffff, value); + } + + return rtl930x_write_phy(mii_id, 0, regnum, value); +} + +static int rtl931x_mdio_write(struct mii_bus *bus, int mii_id, + int regnum, u16 value) +{ +// struct rtl838x_eth_priv *priv = bus->priv; + +// if (mii_id >= 48 && mii_id <= 49 && priv->id == 0x8393) +// return rtl839x_write_sds_phy(mii_id, regnum, value); + + return rtl931x_write_phy(mii_id, 0, regnum, value); +} + +static int rtl838x_mdio_reset(struct mii_bus *bus) +{ + pr_debug("%s called\n", __func__); + /* Disable MAC polling the PHY so that we can start configuration */ + sw_w32(0x00000000, RTL838X_SMI_POLL_CTRL); + + /* Enable PHY control via SoC */ + sw_w32_mask(0, 1 << 15, RTL838X_SMI_GLB_CTRL); + + // Probably should reset all PHYs here... + return 0; +} + +static int rtl839x_mdio_reset(struct mii_bus *bus) +{ + return 0; + + pr_debug("%s called\n", __func__); + /* BUG: The following does not work, but should! */ + /* Disable MAC polling the PHY so that we can start configuration */ + sw_w32(0x00000000, RTL839X_SMI_PORT_POLLING_CTRL); + sw_w32(0x00000000, RTL839X_SMI_PORT_POLLING_CTRL + 4); + /* Disable PHY polling via SoC */ + sw_w32_mask(1 << 7, 0, RTL839X_SMI_GLB_CTRL); + + // Probably should reset all PHYs here... + return 0; +} + +static int rtl931x_mdio_reset(struct mii_bus *bus) +{ + sw_w32(0x00000000, RTL931X_SMI_PORT_POLLING_CTRL); + sw_w32(0x00000000, RTL931X_SMI_PORT_POLLING_CTRL + 4); + + pr_debug("%s called\n", __func__); + + return 0; +} + +static int rtl930x_mdio_reset(struct mii_bus *bus) +{ + int i; + int pos; + + pr_info("RTL930X_SMI_PORT0_15_POLLING_SEL %08x 16-27: %08x\n", + sw_r32(RTL930X_SMI_PORT0_15_POLLING_SEL), + sw_r32(RTL930X_SMI_PORT16_27_POLLING_SEL)); + + pr_info("%s: Enable SMI polling on SMI bus 0, SMI1, SMI2, disable on SMI3\n", __func__); + sw_w32_mask(BIT(20) | BIT(21) | BIT(22), BIT(23), RTL930X_SMI_GLB_CTRL); + + pr_info("RTL9300 Powering on SerDes ports\n"); + rtl9300_sds_power(24, 1); + rtl9300_sds_power(25, 1); + rtl9300_sds_power(26, 1); + rtl9300_sds_power(27, 1); + mdelay(200); + + // RTL930X_SMI_PORT0_15_POLLING_SEL 55550000 16-27: 00f9aaaa + // i.e SMI=0 for all ports + for (i = 0; i < 5; i++) + pr_info("port phy: %08x\n", sw_r32(RTL930X_SMI_PORT0_5_ADDR + i *4)); + + // 1-to-1 mapping of port to phy-address + for (i = 0; i < 24; i++) { + pos = (i % 6) * 5; + sw_w32_mask(0x1f << pos, i << pos, RTL930X_SMI_PORT0_5_ADDR + (i / 6) * 4); + } + + // ports 24 and 25 have PHY addresses 8 and 9, ports 26/27 PHY 26/27 + sw_w32(8 | 9 << 5 | 26 << 10 | 27 << 15, RTL930X_SMI_PORT0_5_ADDR + 4 * 4); + + // Ports 24 and 25 live on SMI bus 1 and 2 + sw_w32_mask(0x3 << 16, 0x1 << 16, RTL930X_SMI_PORT16_27_POLLING_SEL); + sw_w32_mask(0x3 << 18, 0x2 << 18, RTL930X_SMI_PORT16_27_POLLING_SEL); + + // SMI bus 1 and 2 speak Clause 45 TODO: Configure from .dts + sw_w32_mask(0, BIT(17) | BIT(18), RTL930X_SMI_GLB_CTRL); + + // Ports 24 and 25 are 2.5 Gig, set this type (1) + sw_w32_mask(0x7 << 12, 1 << 12, RTL930X_SMI_MAC_TYPE_CTRL); + sw_w32_mask(0x7 << 15, 1 << 15, RTL930X_SMI_MAC_TYPE_CTRL); + + return 0; +} + +static int rtl838x_mdio_init(struct rtl838x_eth_priv *priv) +{ + struct device_node *mii_np; + int ret; + + pr_debug("%s called\n", __func__); + mii_np = of_get_child_by_name(priv->pdev->dev.of_node, "mdio-bus"); + + if (!mii_np) { + dev_err(&priv->pdev->dev, "no %s child node found", "mdio-bus"); + return -ENODEV; + } + + if (!of_device_is_available(mii_np)) { + ret = -ENODEV; + goto err_put_node; + } + + priv->mii_bus = devm_mdiobus_alloc(&priv->pdev->dev); + if (!priv->mii_bus) { + ret = -ENOMEM; + goto err_put_node; + } + + switch(priv->family_id) { + case RTL8380_FAMILY_ID: + priv->mii_bus->name = "rtl838x-eth-mdio"; + priv->mii_bus->read = rtl838x_mdio_read; + priv->mii_bus->write = rtl838x_mdio_write; + priv->mii_bus->reset = rtl838x_mdio_reset; + break; + case RTL8390_FAMILY_ID: + priv->mii_bus->name = "rtl839x-eth-mdio"; + priv->mii_bus->read = rtl839x_mdio_read; + priv->mii_bus->write = rtl839x_mdio_write; + priv->mii_bus->reset = rtl839x_mdio_reset; + break; + case RTL9300_FAMILY_ID: + priv->mii_bus->name = "rtl930x-eth-mdio"; + priv->mii_bus->read = rtl930x_mdio_read; + priv->mii_bus->write = rtl930x_mdio_write; + priv->mii_bus->reset = rtl930x_mdio_reset; + // priv->mii_bus->probe_capabilities = MDIOBUS_C22_C45; TODO for linux 5.9 + break; + case RTL9310_FAMILY_ID: + priv->mii_bus->name = "rtl931x-eth-mdio"; + priv->mii_bus->read = rtl931x_mdio_read; + priv->mii_bus->write = rtl931x_mdio_write; + priv->mii_bus->reset = rtl931x_mdio_reset; +// priv->mii_bus->probe_capabilities = MDIOBUS_C22_C45; TODO for linux 5.9 + break; + } + priv->mii_bus->priv = priv; + priv->mii_bus->parent = &priv->pdev->dev; + + snprintf(priv->mii_bus->id, MII_BUS_ID_SIZE, "%pOFn", mii_np); + ret = of_mdiobus_register(priv->mii_bus, mii_np); + +err_put_node: + of_node_put(mii_np); + return ret; +} + +static int rtl838x_mdio_remove(struct rtl838x_eth_priv *priv) +{ + pr_debug("%s called\n", __func__); + if (!priv->mii_bus) + return 0; + + mdiobus_unregister(priv->mii_bus); + mdiobus_free(priv->mii_bus); + + return 0; +} + +static netdev_features_t rtl838x_fix_features(struct net_device *dev, + netdev_features_t features) +{ + return features; +} + +static int rtl83xx_set_features(struct net_device *dev, netdev_features_t features) +{ + struct rtl838x_eth_priv *priv = netdev_priv(dev); + + if ((features ^ dev->features) & NETIF_F_RXCSUM) { + if (!(features & NETIF_F_RXCSUM)) + sw_w32_mask(BIT(3), 0, priv->r->mac_port_ctrl(priv->cpu_port)); + else + sw_w32_mask(0, BIT(4), priv->r->mac_port_ctrl(priv->cpu_port)); + } + + return 0; +} + +static int rtl93xx_set_features(struct net_device *dev, netdev_features_t features) +{ + struct rtl838x_eth_priv *priv = netdev_priv(dev); + + if ((features ^ dev->features) & NETIF_F_RXCSUM) { + if (!(features & NETIF_F_RXCSUM)) + sw_w32_mask(BIT(4), 0, priv->r->mac_port_ctrl(priv->cpu_port)); + else + sw_w32_mask(0, BIT(4), priv->r->mac_port_ctrl(priv->cpu_port)); + } + + return 0; +} + +static const struct net_device_ops rtl838x_eth_netdev_ops = { + .ndo_open = rtl838x_eth_open, + .ndo_stop = rtl838x_eth_stop, + .ndo_start_xmit = rtl838x_eth_tx, + .ndo_select_queue = rtl83xx_pick_tx_queue, + .ndo_set_mac_address = rtl838x_set_mac_address, + .ndo_validate_addr = eth_validate_addr, + .ndo_set_rx_mode = rtl838x_eth_set_multicast_list, + .ndo_tx_timeout = rtl838x_eth_tx_timeout, + .ndo_set_features = rtl83xx_set_features, + .ndo_fix_features = rtl838x_fix_features, +}; + +static const struct net_device_ops rtl839x_eth_netdev_ops = { + .ndo_open = rtl838x_eth_open, + .ndo_stop = rtl838x_eth_stop, + .ndo_start_xmit = rtl838x_eth_tx, + .ndo_select_queue = rtl83xx_pick_tx_queue, + .ndo_set_mac_address = rtl838x_set_mac_address, + .ndo_validate_addr = eth_validate_addr, + .ndo_set_rx_mode = rtl839x_eth_set_multicast_list, + .ndo_tx_timeout = rtl838x_eth_tx_timeout, + .ndo_set_features = rtl83xx_set_features, + .ndo_fix_features = rtl838x_fix_features, +}; + +static const struct net_device_ops rtl930x_eth_netdev_ops = { + .ndo_open = rtl838x_eth_open, + .ndo_stop = rtl838x_eth_stop, + .ndo_start_xmit = rtl838x_eth_tx, + .ndo_select_queue = rtl93xx_pick_tx_queue, + .ndo_set_mac_address = rtl838x_set_mac_address, + .ndo_validate_addr = eth_validate_addr, + .ndo_set_rx_mode = rtl930x_eth_set_multicast_list, + .ndo_tx_timeout = rtl838x_eth_tx_timeout, + .ndo_set_features = rtl93xx_set_features, + .ndo_fix_features = rtl838x_fix_features, +}; + +static const struct net_device_ops rtl931x_eth_netdev_ops = { + .ndo_open = rtl838x_eth_open, + .ndo_stop = rtl838x_eth_stop, + .ndo_start_xmit = rtl838x_eth_tx, + .ndo_select_queue = rtl93xx_pick_tx_queue, + .ndo_set_mac_address = rtl838x_set_mac_address, + .ndo_validate_addr = eth_validate_addr, + .ndo_set_rx_mode = rtl931x_eth_set_multicast_list, + .ndo_tx_timeout = rtl838x_eth_tx_timeout, + .ndo_set_features = rtl93xx_set_features, + .ndo_fix_features = rtl838x_fix_features, +}; + +static const struct phylink_mac_ops rtl838x_phylink_ops = { + .validate = rtl838x_validate, + .mac_link_state = rtl838x_mac_pcs_get_state, + .mac_an_restart = rtl838x_mac_an_restart, + .mac_config = rtl838x_mac_config, + .mac_link_down = rtl838x_mac_link_down, + .mac_link_up = rtl838x_mac_link_up, +}; + +static const struct ethtool_ops rtl838x_ethtool_ops = { + .get_link_ksettings = rtl838x_get_link_ksettings, + .set_link_ksettings = rtl838x_set_link_ksettings, +}; + +static int __init rtl838x_eth_probe(struct platform_device *pdev) +{ + struct net_device *dev; + struct device_node *dn = pdev->dev.of_node; + struct rtl838x_eth_priv *priv; + struct resource *res, *mem; + phy_interface_t phy_mode; + struct phylink *phylink; + int err = 0, i, rxrings, rxringlen; + struct ring_b *ring; + + pr_info("Probing RTL838X eth device pdev: %x, dev: %x\n", + (u32)pdev, (u32)(&(pdev->dev))); + + if (!dn) { + dev_err(&pdev->dev, "No DT found\n"); + return -EINVAL; + } + + rxrings = (soc_info.family == RTL8380_FAMILY_ID + || soc_info.family == RTL8390_FAMILY_ID) ? 8 : 32; + rxrings = rxrings > MAX_RXRINGS ? MAX_RXRINGS : rxrings; + rxringlen = MAX_ENTRIES / rxrings; + rxringlen = rxringlen > MAX_RXLEN ? MAX_RXLEN : rxringlen; + + dev = alloc_etherdev_mqs(sizeof(struct rtl838x_eth_priv), TXRINGS, rxrings); + if (!dev) { + err = -ENOMEM; + goto err_free; + } + SET_NETDEV_DEV(dev, &pdev->dev); + priv = netdev_priv(dev); + + /* obtain buffer memory space */ + res = platform_get_resource(pdev, IORESOURCE_MEM, 0); + if (res) { + mem = devm_request_mem_region(&pdev->dev, res->start, + resource_size(res), res->name); + if (!mem) { + dev_err(&pdev->dev, "cannot request memory space\n"); + err = -ENXIO; + goto err_free; + } + + dev->mem_start = mem->start; + dev->mem_end = mem->end; + } else { + dev_err(&pdev->dev, "cannot request IO resource\n"); + err = -ENXIO; + goto err_free; + } + + /* Allocate buffer memory */ + priv->membase = dmam_alloc_coherent(&pdev->dev, rxrings * rxringlen * RING_BUFFER + + sizeof(struct ring_b) + sizeof(struct notify_b), + (void *)&dev->mem_start, GFP_KERNEL); + if (!priv->membase) { + dev_err(&pdev->dev, "cannot allocate DMA buffer\n"); + err = -ENOMEM; + goto err_free; + } + + // Allocate ring-buffer space at the end of the allocated memory + ring = priv->membase; + ring->rx_space = priv->membase + sizeof(struct ring_b) + sizeof(struct notify_b); + + spin_lock_init(&priv->lock); + + /* obtain device IRQ number */ + res = platform_get_resource(pdev, IORESOURCE_IRQ, 0); + if (!res) { + dev_err(&pdev->dev, "cannot obtain IRQ, using default 24\n"); + dev->irq = 24; + } else { + dev->irq = res->start; + } + dev->ethtool_ops = &rtl838x_ethtool_ops; + dev->min_mtu = ETH_ZLEN; + dev->max_mtu = 1536; + dev->features = NETIF_F_RXCSUM | NETIF_F_HW_CSUM; + dev->hw_features = NETIF_F_RXCSUM; + + priv->id = soc_info.id; + priv->family_id = soc_info.family; + if (priv->id) { + pr_info("Found SoC ID: %4x: %s, family %x\n", + priv->id, soc_info.name, priv->family_id); + } else { + pr_err("Unknown chip id (%04x)\n", priv->id); + return -ENODEV; + } + + switch (priv->family_id) { + case RTL8380_FAMILY_ID: + priv->cpu_port = RTL838X_CPU_PORT; + priv->r = &rtl838x_reg; + dev->netdev_ops = &rtl838x_eth_netdev_ops; + break; + case RTL8390_FAMILY_ID: + priv->cpu_port = RTL839X_CPU_PORT; + priv->r = &rtl839x_reg; + dev->netdev_ops = &rtl839x_eth_netdev_ops; + break; + case RTL9300_FAMILY_ID: + priv->cpu_port = RTL930X_CPU_PORT; + priv->r = &rtl930x_reg; + dev->netdev_ops = &rtl930x_eth_netdev_ops; + break; + case RTL9310_FAMILY_ID: + priv->cpu_port = RTL931X_CPU_PORT; + priv->r = &rtl931x_reg; + dev->netdev_ops = &rtl931x_eth_netdev_ops; + break; + default: + pr_err("Unknown SoC family\n"); + return -ENODEV; + } + priv->rxringlen = rxringlen; + priv->rxrings = rxrings; + + rtl8380_init_mac(priv); + + /* try to get mac address in the following order: + * 1) from device tree data + * 2) from internal registers set by bootloader + */ + of_get_mac_address(pdev->dev.of_node, dev->dev_addr); + if (is_valid_ether_addr(dev->dev_addr)) { + rtl838x_set_mac_hw(dev, (u8 *)dev->dev_addr); + } else { + dev->dev_addr[0] = (sw_r32(priv->r->mac) >> 8) & 0xff; + dev->dev_addr[1] = sw_r32(priv->r->mac) & 0xff; + dev->dev_addr[2] = (sw_r32(priv->r->mac + 4) >> 24) & 0xff; + dev->dev_addr[3] = (sw_r32(priv->r->mac + 4) >> 16) & 0xff; + dev->dev_addr[4] = (sw_r32(priv->r->mac + 4) >> 8) & 0xff; + dev->dev_addr[5] = sw_r32(priv->r->mac + 4) & 0xff; + } + /* if the address is invalid, use a random value */ + if (!is_valid_ether_addr(dev->dev_addr)) { + struct sockaddr sa = { AF_UNSPEC }; + + netdev_warn(dev, "Invalid MAC address, using random\n"); + eth_hw_addr_random(dev); + memcpy(sa.sa_data, dev->dev_addr, ETH_ALEN); + if (rtl838x_set_mac_address(dev, &sa)) + netdev_warn(dev, "Failed to set MAC address.\n"); + } + pr_info("Using MAC %08x%08x\n", sw_r32(priv->r->mac), + sw_r32(priv->r->mac + 4)); + strcpy(dev->name, "eth%d"); + priv->pdev = pdev; + priv->netdev = dev; + + err = rtl838x_mdio_init(priv); + if (err) + goto err_free; + + err = register_netdev(dev); + if (err) + goto err_free; + + for (i = 0; i < priv->rxrings; i++) { + priv->rx_qs[i].id = i; + priv->rx_qs[i].priv = priv; + netif_napi_add(dev, &priv->rx_qs[i].napi, rtl838x_poll_rx, 64); + } + + platform_set_drvdata(pdev, dev); + + phy_mode = of_get_phy_mode(dn); + if (phy_mode < 0) { + dev_err(&pdev->dev, "incorrect phy-mode\n"); + err = -EINVAL; + goto err_free; + } + priv->phylink_config.dev = &dev->dev; + priv->phylink_config.type = PHYLINK_NETDEV; + + phylink = phylink_create(&priv->phylink_config, pdev->dev.fwnode, + phy_mode, &rtl838x_phylink_ops); + if (IS_ERR(phylink)) { + err = PTR_ERR(phylink); + goto err_free; + } + priv->phylink = phylink; + + return 0; + +err_free: + pr_err("Error setting up netdev, freeing it again.\n"); + free_netdev(dev); + return err; +} + +static int rtl838x_eth_remove(struct platform_device *pdev) +{ + struct net_device *dev = platform_get_drvdata(pdev); + struct rtl838x_eth_priv *priv = netdev_priv(dev); + int i; + + if (dev) { + pr_info("Removing platform driver for rtl838x-eth\n"); + rtl838x_mdio_remove(priv); + rtl838x_hw_stop(priv); + + netif_tx_stop_all_queues(dev); + + for (i = 0; i < priv->rxrings; i++) + netif_napi_del(&priv->rx_qs[i].napi); + + unregister_netdev(dev); + free_netdev(dev); + } + return 0; +} + +static const struct of_device_id rtl838x_eth_of_ids[] = { + { .compatible = "realtek,rtl838x-eth"}, + { /* sentinel */ } +}; +MODULE_DEVICE_TABLE(of, rtl838x_eth_of_ids); + +static struct platform_driver rtl838x_eth_driver = { + .probe = rtl838x_eth_probe, + .remove = rtl838x_eth_remove, + .driver = { + .name = "rtl838x-eth", + .pm = NULL, + .of_match_table = rtl838x_eth_of_ids, + }, +}; + +module_platform_driver(rtl838x_eth_driver); + +MODULE_AUTHOR("B. Koblitz"); +MODULE_DESCRIPTION("RTL838X SoC Ethernet Driver"); +MODULE_LICENSE("GPL"); diff --git a/target/linux/realtek/files-5.10/drivers/net/ethernet/rtl838x_eth.h b/target/linux/realtek/files-5.10/drivers/net/ethernet/rtl838x_eth.h new file mode 100644 index 0000000000..c7e97057b3 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/ethernet/rtl838x_eth.h @@ -0,0 +1,429 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef _RTL838X_ETH_H +#define _RTL838X_ETH_H + +/* + * Register definition + */ + +/* Per port MAC control */ +#define RTL838X_MAC_PORT_CTRL (0xd560) +#define RTL839X_MAC_PORT_CTRL (0x8004) +#define RTL930X_MAC_L2_PORT_CTRL (0x3268) +#define RTL930X_MAC_PORT_CTRL (0x3260) +#define RTL931X_MAC_L2_PORT_CTRL (0x6000) +#define RTL931X_MAC_PORT_CTRL (0x6004) + +/* DMA interrupt control and status registers */ +#define RTL838X_DMA_IF_CTRL (0x9f58) +#define RTL838X_DMA_IF_INTR_STS (0x9f54) +#define RTL838X_DMA_IF_INTR_MSK (0x9f50) + +#define RTL839X_DMA_IF_CTRL (0x786c) +#define RTL839X_DMA_IF_INTR_STS (0x7868) +#define RTL839X_DMA_IF_INTR_MSK (0x7864) + +#define RTL930X_DMA_IF_CTRL (0xe028) +#define RTL930X_DMA_IF_INTR_RX_RUNOUT_STS (0xe01C) +#define RTL930X_DMA_IF_INTR_RX_DONE_STS (0xe020) +#define RTL930X_DMA_IF_INTR_TX_DONE_STS (0xe024) +#define RTL930X_DMA_IF_INTR_RX_RUNOUT_MSK (0xe010) +#define RTL930X_DMA_IF_INTR_RX_DONE_MSK (0xe014) +#define RTL930X_DMA_IF_INTR_TX_DONE_MSK (0xe018) +#define RTL930X_L2_NTFY_IF_INTR_MSK (0xe04C) +#define RTL930X_L2_NTFY_IF_INTR_STS (0xe050) + +/* TODO: RTL931X_DMA_IF_CTRL has different bits meanings */ +#define RTL931X_DMA_IF_CTRL (0x0928) +#define RTL931X_DMA_IF_INTR_RX_RUNOUT_STS (0x091c) +#define RTL931X_DMA_IF_INTR_RX_DONE_STS (0x0920) +#define RTL931X_DMA_IF_INTR_TX_DONE_STS (0x0924) +#define RTL931X_DMA_IF_INTR_RX_RUNOUT_MSK (0x0910) +#define RTL931X_DMA_IF_INTR_RX_DONE_MSK (0x0914) +#define RTL931X_DMA_IF_INTR_TX_DONE_MSK (0x0918) +#define RTL931X_L2_NTFY_IF_INTR_MSK (0x09E4) +#define RTL931X_L2_NTFY_IF_INTR_STS (0x09E8) + +#define RTL838X_MAC_FORCE_MODE_CTRL (0xa104) +#define RTL839X_MAC_FORCE_MODE_CTRL (0x02bc) +#define RTL930X_MAC_FORCE_MODE_CTRL (0xCA1C) +#define RTL931X_MAC_FORCE_MODE_CTRL (0x0ddc) + +/* MAC address settings */ +#define RTL838X_MAC (0xa9ec) +#define RTL839X_MAC (0x02b4) +#define RTL838X_MAC_ALE (0x6b04) +#define RTL838X_MAC2 (0xa320) +#define RTL930X_MAC_L2_ADDR_CTRL (0xC714) +#define RTL931X_MAC_L2_ADDR_CTRL (0x135c) + +/* Ringbuffer setup */ +#define RTL838X_DMA_RX_BASE (0x9f00) +#define RTL839X_DMA_RX_BASE (0x780c) +#define RTL930X_DMA_RX_BASE (0xdf00) +#define RTL931X_DMA_RX_BASE (0x0800) + +#define RTL838X_DMA_TX_BASE (0x9f40) +#define RTL839X_DMA_TX_BASE (0x784c) +#define RTL930X_DMA_TX_BASE (0xe000) +#define RTL931X_DMA_TX_BASE (0x0900) + +#define RTL838X_DMA_IF_RX_RING_SIZE (0xB7E4) +#define RTL839X_DMA_IF_RX_RING_SIZE (0x6038) +#define RTL930X_DMA_IF_RX_RING_SIZE (0x7C60) +#define RTL931X_DMA_IF_RX_RING_SIZE (0x2080) + +#define RTL838X_DMA_IF_RX_RING_CNTR (0xB7E8) +#define RTL839X_DMA_IF_RX_RING_CNTR (0x603c) +#define RTL930X_DMA_IF_RX_RING_CNTR (0x7C8C) +#define RTL931X_DMA_IF_RX_RING_CNTR (0x20AC) + +#define RTL838X_DMA_IF_RX_CUR (0x9F20) +#define RTL839X_DMA_IF_RX_CUR (0x782c) +#define RTL930X_DMA_IF_RX_CUR (0xdf80) +#define RTL931X_DMA_IF_RX_CUR (0x0880) + +#define RTL838X_DMA_IF_TX_CUR_DESC_ADDR_CTRL (0x9F48) +#define RTL930X_DMA_IF_TX_CUR_DESC_ADDR_CTRL (0xE008) + +#define RTL838X_DMY_REG31 (0x3b28) +#define RTL838X_SDS_MODE_SEL (0x0028) +#define RTL838X_SDS_CFG_REG (0x0034) +#define RTL838X_INT_MODE_CTRL (0x005c) +#define RTL838X_CHIP_INFO (0x00d8) +#define RTL838X_SDS4_REG28 (0xef80) +#define RTL838X_SDS4_DUMMY0 (0xef8c) +#define RTL838X_SDS5_EXT_REG6 (0xf18c) + +/* L2 features */ +#define RTL839X_TBL_ACCESS_L2_CTRL (0x1180) +#define RTL839X_TBL_ACCESS_L2_DATA(idx) (0x1184 + ((idx) << 2)) +#define RTL838X_TBL_ACCESS_CTRL_0 (0x6914) +#define RTL838X_TBL_ACCESS_DATA_0(idx) (0x6918 + ((idx) << 2)) + +/* MAC-side link state handling */ +#define RTL838X_MAC_LINK_STS (0xa188) +#define RTL839X_MAC_LINK_STS (0x0390) +#define RTL930X_MAC_LINK_STS (0xCB10) +#define RTL931X_MAC_LINK_STS (0x0ec0) + +#define RTL838X_MAC_LINK_SPD_STS (0xa190) +#define RTL839X_MAC_LINK_SPD_STS (0x03a0) +#define RTL930X_MAC_LINK_SPD_STS (0xCB18) +#define RTL931X_MAC_LINK_SPD_STS (0x0ed0) + +#define RTL838X_MAC_LINK_DUP_STS (0xa19c) +#define RTL839X_MAC_LINK_DUP_STS (0x03b0) +#define RTL930X_MAC_LINK_DUP_STS (0xCB28) +#define RTL931X_MAC_LINK_DUP_STS (0x0ef0) + +// TODO: RTL8390_MAC_LINK_MEDIA_STS_ADDR ??? + +#define RTL838X_MAC_TX_PAUSE_STS (0xa1a0) +#define RTL839X_MAC_TX_PAUSE_STS (0x03b8) +#define RTL930X_MAC_TX_PAUSE_STS (0xCB2C) +#define RTL931X_MAC_TX_PAUSE_STS (0x0ef8) + +#define RTL838X_MAC_RX_PAUSE_STS (0xa1a4) +#define RTL839X_MAC_RX_PAUSE_STS (0xCB30) +#define RTL930X_MAC_RX_PAUSE_STS (0xC2F8) +#define RTL931X_MAC_RX_PAUSE_STS (0x0f00) + +#define RTL838X_EEE_TX_TIMER_GIGA_CTRL (0xaa04) +#define RTL838X_EEE_TX_TIMER_GELITE_CTRL (0xaa08) + +#define RTL930X_L2_UNKN_UC_FLD_PMSK (0x9064) + +#define RTL839X_MAC_GLB_CTRL (0x02a8) +#define RTL839X_SCHED_LB_TICK_TKN_CTRL (0x60f8) + +#define RTL838X_L2_TBL_FLUSH_CTRL (0x3370) +#define RTL839X_L2_TBL_FLUSH_CTRL (0x3ba0) +#define RTL930X_L2_TBL_FLUSH_CTRL (0x9404) +#define RTL931X_L2_TBL_FLUSH_CTRL (0xCD9C) + +#define RTL930X_L2_PORT_SABLK_CTRL (0x905c) +#define RTL930X_L2_PORT_DABLK_CTRL (0x9060) + +/* MAC link state bits */ +#define FORCE_EN (1 << 0) +#define FORCE_LINK_EN (1 << 1) +#define NWAY_EN (1 << 2) +#define DUPLX_MODE (1 << 3) +#define TX_PAUSE_EN (1 << 6) +#define RX_PAUSE_EN (1 << 7) + +/* L2 Notification DMA interface */ +#define RTL839X_DMA_IF_NBUF_BASE_DESC_ADDR_CTRL (0x785C) +#define RTL839X_L2_NOTIFICATION_CTRL (0x7808) +#define RTL931X_L2_NTFY_RING_BASE_ADDR (0x09DC) +#define RTL931X_L2_NTFY_RING_CUR_ADDR (0x09E0) +#define RTL839X_L2_NOTIFICATION_CTRL (0x7808) +#define RTL931X_L2_NTFY_CTRL (0xCDC8) +#define RTL838X_L2_CTRL_0 (0x3200) +#define RTL839X_L2_CTRL_0 (0x3800) +#define RTL930X_L2_CTRL (0x8FD8) +#define RTL931X_L2_CTRL (0xC800) + +/* TRAPPING to CPU-PORT */ +#define RTL838X_SPCL_TRAP_IGMP_CTRL (0x6984) +#define RTL838X_RMA_CTRL_0 (0x4300) +#define RTL838X_RMA_CTRL_1 (0x4304) +#define RTL839X_RMA_CTRL_0 (0x1200) + +#define RTL839X_SPCL_TRAP_IGMP_CTRL (0x1058) +#define RTL839X_RMA_CTRL_1 (0x1204) +#define RTL839X_RMA_CTRL_2 (0x1208) +#define RTL839X_RMA_CTRL_3 (0x120C) + +#define RTL930X_VLAN_APP_PKT_CTRL (0xA23C) +#define RTL930X_RMA_CTRL_0 (0x9E60) +#define RTL930X_RMA_CTRL_1 (0x9E64) +#define RTL930X_RMA_CTRL_2 (0x9E68) + +#define RTL931X_RMA_CTRL_0 (0x8800) +#define RTL931X_RMA_CTRL_1 (0x8804) +#define RTL931X_RMA_CTRL_2 (0x8808) + +/* Advanced SMI control for clause 45 PHYs */ +#define RTL930X_SMI_MAC_TYPE_CTRL (0xCA04) +#define RTL930X_SMI_PORT24_27_ADDR_CTRL (0xCB90) +#define RTL930X_SMI_PORT0_15_POLLING_SEL (0xCA08) +#define RTL930X_SMI_PORT16_27_POLLING_SEL (0xCA0C) + +/* Registers of the internal Serdes of the 8390 */ +#define RTL839X_SDS12_13_XSG0 (0xB800) + +/* Registers of the internal Serdes of the 8380 */ +#define RTL838X_SDS4_FIB_REG0 (0xF800) + +inline int rtl838x_mac_port_ctrl(int p) +{ + return RTL838X_MAC_PORT_CTRL + (p << 7); +} + +inline int rtl839x_mac_port_ctrl(int p) +{ + return RTL839X_MAC_PORT_CTRL + (p << 7); +} + +/* On the RTL931XX, the functionality of the MAC port control register is split up + * into RTL931X_MAC_L2_PORT_CTRL and RTL931X_MAC_PORT_CTRL the functionality used + * by the Ethernet driver is in the same bits now in RTL931X_MAC_L2_PORT_CTRL + */ + +inline int rtl930x_mac_port_ctrl(int p) +{ + return RTL930X_MAC_L2_PORT_CTRL + (p << 6); +} + +inline int rtl931x_mac_port_ctrl(int p) +{ + return RTL931X_MAC_L2_PORT_CTRL + (p << 7); +} + +inline int rtl838x_dma_if_rx_ring_size(int i) +{ + return RTL838X_DMA_IF_RX_RING_SIZE + ((i >> 3) << 2); +} + +inline int rtl839x_dma_if_rx_ring_size(int i) +{ + return RTL839X_DMA_IF_RX_RING_SIZE + ((i >> 3) << 2); +} + +inline int rtl930x_dma_if_rx_ring_size(int i) +{ + return RTL930X_DMA_IF_RX_RING_SIZE + ((i / 3) << 2); +} + +inline int rtl931x_dma_if_rx_ring_size(int i) +{ + return RTL931X_DMA_IF_RX_RING_SIZE + ((i / 3) << 2); +} + +inline int rtl838x_dma_if_rx_ring_cntr(int i) +{ + return RTL838X_DMA_IF_RX_RING_CNTR + ((i >> 3) << 2); +} + +inline int rtl839x_dma_if_rx_ring_cntr(int i) +{ + return RTL839X_DMA_IF_RX_RING_CNTR + ((i >> 3) << 2); +} + +inline int rtl930x_dma_if_rx_ring_cntr(int i) +{ + return RTL930X_DMA_IF_RX_RING_CNTR + ((i / 3) << 2); +} + +inline int rtl931x_dma_if_rx_ring_cntr(int i) +{ + return RTL931X_DMA_IF_RX_RING_CNTR + ((i / 3) << 2); +} + +inline u32 rtl838x_get_mac_link_sts(int port) +{ + return (sw_r32(RTL838X_MAC_LINK_STS) & BIT(port)); +} + +inline u32 rtl839x_get_mac_link_sts(int p) +{ + return (sw_r32(RTL839X_MAC_LINK_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl930x_get_mac_link_sts(int port) +{ + return (sw_r32(RTL930X_MAC_LINK_STS) & BIT(port)); +} + +inline u32 rtl931x_get_mac_link_sts(int p) +{ + return (sw_r32(RTL931X_MAC_LINK_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl838x_get_mac_link_dup_sts(int port) +{ + return (sw_r32(RTL838X_MAC_LINK_DUP_STS) & BIT(port)); +} + +inline u32 rtl839x_get_mac_link_dup_sts(int p) +{ + return (sw_r32(RTL839X_MAC_LINK_DUP_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl930x_get_mac_link_dup_sts(int port) +{ + return (sw_r32(RTL930X_MAC_LINK_DUP_STS) & BIT(port)); +} + +inline u32 rtl931x_get_mac_link_dup_sts(int p) +{ + return (sw_r32(RTL931X_MAC_LINK_DUP_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl838x_get_mac_link_spd_sts(int port) +{ + int r = RTL838X_MAC_LINK_SPD_STS + ((port >> 4) << 2); + u32 speed = sw_r32(r); + + speed >>= (port % 16) << 1; + return (speed & 0x3); +} + +inline u32 rtl839x_get_mac_link_spd_sts(int port) +{ + int r = RTL839X_MAC_LINK_SPD_STS + ((port >> 4) << 2); + u32 speed = sw_r32(r); + + speed >>= (port % 16) << 1; + return (speed & 0x3); +} + + +inline u32 rtl930x_get_mac_link_spd_sts(int port) +{ + int r = RTL930X_MAC_LINK_SPD_STS + ((port / 10) << 2); + u32 speed = sw_r32(r); + + speed >>= (port % 10) * 3; + return (speed & 0x7); +} + +inline u32 rtl931x_get_mac_link_spd_sts(int port) +{ + int r = RTL931X_MAC_LINK_SPD_STS + ((port >> 3) << 2); + u32 speed = sw_r32(r); + + speed >>= (port % 8) << 2; + return (speed & 0xf); +} + +inline u32 rtl838x_get_mac_rx_pause_sts(int port) +{ + return (sw_r32(RTL838X_MAC_RX_PAUSE_STS) & (1 << port)); +} + +inline u32 rtl839x_get_mac_rx_pause_sts(int p) +{ + return (sw_r32(RTL839X_MAC_RX_PAUSE_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl930x_get_mac_rx_pause_sts(int port) +{ + return (sw_r32(RTL930X_MAC_RX_PAUSE_STS) & (1 << port)); +} + +inline u32 rtl931x_get_mac_rx_pause_sts(int p) +{ + return (sw_r32(RTL931X_MAC_RX_PAUSE_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl838x_get_mac_tx_pause_sts(int port) +{ + return (sw_r32(RTL838X_MAC_TX_PAUSE_STS) & (1 << port)); +} + +inline u32 rtl839x_get_mac_tx_pause_sts(int p) +{ + return (sw_r32(RTL839X_MAC_TX_PAUSE_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +inline u32 rtl930x_get_mac_tx_pause_sts(int port) +{ + return (sw_r32(RTL930X_MAC_TX_PAUSE_STS) & (1 << port)); +} + +inline u32 rtl931x_get_mac_tx_pause_sts(int p) +{ + return (sw_r32(RTL931X_MAC_TX_PAUSE_STS + ((p >> 5) << 2)) & BIT(p % 32)); +} + +struct p_hdr; +struct dsa_tag; + +struct rtl838x_reg { + irqreturn_t (*net_irq)(int irq, void *dev_id); + int (*mac_port_ctrl)(int port); + int dma_if_intr_sts; + int dma_if_intr_msk; + int dma_if_intr_rx_runout_sts; + int dma_if_intr_rx_done_sts; + int dma_if_intr_tx_done_sts; + int dma_if_intr_rx_runout_msk; + int dma_if_intr_rx_done_msk; + int dma_if_intr_tx_done_msk; + int l2_ntfy_if_intr_sts; + int l2_ntfy_if_intr_msk; + int dma_if_ctrl; + int mac_force_mode_ctrl; + int dma_rx_base; + int dma_tx_base; + int (*dma_if_rx_ring_size)(int ring); + int (*dma_if_rx_ring_cntr)(int ring); + int dma_if_rx_cur; + int rst_glb_ctrl; + u32 (*get_mac_link_sts)(int port); + u32 (*get_mac_link_dup_sts)(int port); + u32 (*get_mac_link_spd_sts)(int port); + u32 (*get_mac_rx_pause_sts)(int port); + u32 (*get_mac_tx_pause_sts)(int port); + int mac; + int l2_tbl_flush_ctrl; + void (*update_cntr)(int r, int work_done); + void (*create_tx_header)(struct p_hdr *h, int dest_port, int prio); + bool (*decode_tag)(struct p_hdr *h, struct dsa_tag *tag); +}; + +int rtl838x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl838x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl839x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl839x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl930x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl930x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +int rtl931x_write_phy(u32 port, u32 page, u32 reg, u32 val); +int rtl931x_read_phy(u32 port, u32 page, u32 reg, u32 *val); +void rtl9300_sds_power(int sds_num, int val); + +#endif /* _RTL838X_ETH_H */ diff --git a/target/linux/realtek/files-5.10/drivers/net/phy/rtl83xx-phy.c b/target/linux/realtek/files-5.10/drivers/net/phy/rtl83xx-phy.c new file mode 100644 index 0000000000..3e187228a9 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/phy/rtl83xx-phy.c @@ -0,0 +1,1983 @@ +// SPDX-License-Identifier: GPL-2.0-only +/* Realtek RTL838X Ethernet MDIO interface driver + * + * Copyright (C) 2020 B. Koblitz + */ + +#include +#include +#include +#include +#include +#include + +#include +#include "rtl83xx-phy.h" + + +extern struct rtl83xx_soc_info soc_info; +extern struct mutex smi_lock; + +/* + * This lock protects the state of the SoC automatically polling the PHYs over the SMI + * bus to detect e.g. link and media changes. For operations on the PHYs such as + * patching or other configuration changes such as EEE, polling needs to be disabled + * since otherwise these operations may fails or lead to unpredictable results. + */ +DEFINE_MUTEX(poll_lock); + +static const struct firmware rtl838x_8380_fw; +static const struct firmware rtl838x_8214fc_fw; +static const struct firmware rtl838x_8218b_fw; + +int rtl838x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val); +int rtl838x_write_mmd_phy(u32 port, u32 devnum, u32 reg, u32 val); +int rtl839x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val); +int rtl839x_write_mmd_phy(u32 port, u32 devnum, u32 reg, u32 val); +int rtl930x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val); +int rtl930x_write_mmd_phy(u32 port, u32 devnum, u32 reg, u32 val); +int rtl931x_read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val); +int rtl931x_write_mmd_phy(u32 port, u32 devnum, u32 reg, u32 val); + +static int read_phy(u32 port, u32 page, u32 reg, u32 *val) +{ switch (soc_info.family) { + case RTL8380_FAMILY_ID: + return rtl838x_read_phy(port, page, reg, val); + case RTL8390_FAMILY_ID: + return rtl839x_read_phy(port, page, reg, val); + case RTL9300_FAMILY_ID: + return rtl930x_read_phy(port, page, reg, val); + case RTL9310_FAMILY_ID: + return rtl931x_read_phy(port, page, reg, val); + } + return -1; +} + +static int write_phy(u32 port, u32 page, u32 reg, u32 val) +{ + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + return rtl838x_write_phy(port, page, reg, val); + case RTL8390_FAMILY_ID: + return rtl839x_write_phy(port, page, reg, val); + case RTL9300_FAMILY_ID: + return rtl930x_write_phy(port, page, reg, val); + case RTL9310_FAMILY_ID: + return rtl931x_write_phy(port, page, reg, val); + } + return -1; +} + +static int read_mmd_phy(u32 port, u32 devnum, u32 regnum, u32 *val) +{ + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + return rtl838x_read_mmd_phy(port, devnum, regnum, val); + case RTL8390_FAMILY_ID: + return rtl839x_read_mmd_phy(port, devnum, regnum, val); + case RTL9300_FAMILY_ID: + return rtl930x_read_mmd_phy(port, devnum, regnum, val); + case RTL9310_FAMILY_ID: + return rtl931x_read_mmd_phy(port, devnum, regnum, val); + } + return -1; +} + +int write_mmd_phy(u32 port, u32 devnum, u32 reg, u32 val) +{ + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + return rtl838x_write_mmd_phy(port, devnum, reg, val); + case RTL8390_FAMILY_ID: + return rtl839x_write_mmd_phy(port, devnum, reg, val); + case RTL9300_FAMILY_ID: + return rtl930x_write_mmd_phy(port, devnum, reg, val); + case RTL9310_FAMILY_ID: + return rtl931x_write_mmd_phy(port, devnum, reg, val); + } + return -1; +} + +static u64 disable_polling(int port) +{ + u64 saved_state; + + mutex_lock(&poll_lock); + + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + saved_state = sw_r32(RTL838X_SMI_POLL_CTRL); + sw_w32_mask(BIT(port), 0, RTL838X_SMI_POLL_CTRL); + break; + case RTL8390_FAMILY_ID: + saved_state = sw_r32(RTL839X_SMI_PORT_POLLING_CTRL + 4); + saved_state <<= 32; + saved_state |= sw_r32(RTL839X_SMI_PORT_POLLING_CTRL); + sw_w32_mask(BIT(port % 32), 0, + RTL839X_SMI_PORT_POLLING_CTRL + ((port >> 5) << 2)); + break; + case RTL9300_FAMILY_ID: + saved_state = sw_r32(RTL930X_SMI_POLL_CTRL); + sw_w32_mask(BIT(port), 0, RTL930X_SMI_POLL_CTRL); + break; + case RTL9310_FAMILY_ID: + pr_warn("%s not implemented for RTL931X\n", __func__); + break; + } + + mutex_unlock(&poll_lock); + + return saved_state; +} + +static int resume_polling(u64 saved_state) +{ + mutex_lock(&poll_lock); + + switch (soc_info.family) { + case RTL8380_FAMILY_ID: + sw_w32(saved_state, RTL838X_SMI_POLL_CTRL); + break; + case RTL8390_FAMILY_ID: + sw_w32(saved_state >> 32, RTL839X_SMI_PORT_POLLING_CTRL + 4); + sw_w32(saved_state, RTL839X_SMI_PORT_POLLING_CTRL); + break; + case RTL9300_FAMILY_ID: + sw_w32(saved_state, RTL930X_SMI_POLL_CTRL); + break; + case RTL9310_FAMILY_ID: + pr_warn("%s not implemented for RTL931X\n", __func__); + break; + } + + mutex_unlock(&poll_lock); + + return 0; +} + +static void rtl8380_int_phy_on_off(int mac, bool on) +{ + u32 val; + + read_phy(mac, 0, 0, &val); + if (on) + write_phy(mac, 0, 0, val & ~BIT(11)); + else + write_phy(mac, 0, 0, val | BIT(11)); +} + +static void rtl8380_rtl8214fc_on_off(int mac, bool on) +{ + u32 val; + + /* fiber ports */ + write_phy(mac, 4095, 30, 3); + read_phy(mac, 0, 16, &val); + if (on) + write_phy(mac, 0, 16, val & ~BIT(11)); + else + write_phy(mac, 0, 16, val | BIT(11)); + + /* copper ports */ + write_phy(mac, 4095, 30, 1); + read_phy(mac, 0, 16, &val); + if (on) + write_phy(mac, 0xa40, 16, val & ~BIT(11)); + else + write_phy(mac, 0xa40, 16, val | BIT(11)); +} + +static void rtl8380_phy_reset(int mac) +{ + u32 val; + + read_phy(mac, 0, 0, &val); + write_phy(mac, 0, 0, val | BIT(15)); +} + +/* + * Reset the SerDes by powering it off and set a new operations mode + * of the SerDes. 0x1f is off. Other modes are + * 0x01: QSGMII 0x04: 1000BX_FIBER 0x05: FIBER100 + * 0x06: QSGMII 0x09: RSGMII 0x0d: USXGMII + * 0x10: XSGMII 0x12: HISGMII 0x16: 2500Base_X + * 0x17: RXAUI_LITE 0x19: RXAUI_PLUS 0x1a: 10G Base-R + * 0x1b: 10GR1000BX_AUTO 0x1f: OFF + */ +void rtl9300_sds_rst(int sds_num, u32 mode) +{ + // The access registers for SDS_MODE_SEL and the LSB for each SDS within + u16 regs[] = { 0x0194, 0x0194, 0x0194, 0x0194, 0x02a0, 0x02a0, 0x02a0, 0x02a0, + 0x02A4, 0x02A4, 0x0198, 0x0198 }; + u8 lsb[] = { 0, 6, 12, 18, 0, 6, 12, 18, 0, 6, 0, 6}; + + pr_info("SerDes: %s %d\n", __func__, mode); + if (sds_num < 0 || sds_num > 11) { + pr_err("Wrong SerDes number: %d\n", sds_num); + return; + } + + sw_w32_mask(0x1f << lsb[sds_num], 0x1f << lsb[sds_num], regs[sds_num]); + mdelay(10); + + sw_w32_mask(0x1f << lsb[sds_num], mode << lsb[sds_num], regs[sds_num]); + mdelay(10); + + pr_info("SDS: 194:%08x 198:%08x 2a0:%08x 2a4:%08x\n", + sw_r32(0x194), sw_r32(0x198), sw_r32(0x2a0), sw_r32(0x2a4)); +} + +/* + * On the RTL839x family of SoCs with inbuilt SerDes, these SerDes are accessed through + * a 2048 bit register that holds the contents of the PHY being simulated by the SoC. + */ +int rtl839x_read_sds_phy(int phy_addr, int phy_reg) +{ + int offset = 0; + int reg; + u32 val; + + if (phy_addr == 49) + offset = 0x100; + + /* + * For the RTL8393 internal SerDes, we simulate a PHY ID in registers 2/3 + * which would otherwise read as 0. + */ + if (soc_info.id == 0x8393) { + if (phy_reg == 2) + return 0x1c; + if (phy_reg == 3) + return 0x8393; + } + + /* + * Register RTL839X_SDS12_13_XSG0 is 2048 bit broad, the MSB (bit 15) of the + * 0th PHY register is bit 1023 (in byte 0x80). Because PHY-registers are 16 + * bit broad, we offset by reg << 1. In the SoC 2 registers are stored in + * one 32 bit register. + */ + reg = (phy_reg << 1) & 0xfc; + val = sw_r32(RTL839X_SDS12_13_XSG0 + offset + 0x80 + reg); + + if (phy_reg & 1) + val = (val >> 16) & 0xffff; + else + val &= 0xffff; + return val; +} + +/* + * On the RTL930x family of SoCs, the internal SerDes are accessed through an IO + * register which simulates commands to an internal MDIO bus. + */ +int rtl930x_read_sds_phy(int phy_addr, int page, int phy_reg) +{ + int i; + u32 cmd = phy_addr << 2 | page << 7 | phy_reg << 13 | 1; + + pr_info("%s: phy_addr %d, phy_reg: %d\n", __func__, phy_addr, phy_reg); + sw_w32(cmd, RTL930X_SDS_INDACS_CMD); + + for (i = 0; i < 100; i++) { + if (!(sw_r32(RTL930X_SDS_INDACS_CMD) & 0x1)) + break; + mdelay(1); + } + + if (i >= 100) + return -EIO; + + pr_info("%s: returning %04x\n", __func__, sw_r32(RTL930X_SDS_INDACS_DATA) & 0xffff); + return sw_r32(RTL930X_SDS_INDACS_DATA) & 0xffff; +} + +int rtl930x_write_sds_phy(int phy_addr, int page, int phy_reg, u16 v) +{ + int i; + u32 cmd; + + sw_w32(v, RTL930X_SDS_INDACS_DATA); + cmd = phy_addr << 2 | page << 7 | phy_reg << 13 | 0x3; + + for (i = 0; i < 100; i++) { + if (!(sw_r32(RTL930X_SDS_INDACS_CMD) & 0x1)) + break; + mdelay(1); + } + + if (i >= 100) + return -EIO; + + return 0; +} + +/* + * On the RTL838x SoCs, the internal SerDes is accessed through direct access to + * standard PHY registers, where a 32 bit register holds a 16 bit word as found + * in a standard page 0 of a PHY + */ +int rtl838x_read_sds_phy(int phy_addr, int phy_reg) +{ + int offset = 0; + u32 val; + + if (phy_addr == 26) + offset = 0x100; + val = sw_r32(RTL838X_SDS4_FIB_REG0 + offset + (phy_reg << 2)) & 0xffff; + + return val; +} + +int rtl839x_write_sds_phy(int phy_addr, int phy_reg, u16 v) +{ + int offset = 0; + int reg; + u32 val; + + if (phy_addr == 49) + offset = 0x100; + + reg = (phy_reg << 1) & 0xfc; + val = v; + if (phy_reg & 1) { + val = val << 16; + sw_w32_mask(0xffff0000, val, + RTL839X_SDS12_13_XSG0 + offset + 0x80 + reg); + } else { + sw_w32_mask(0xffff, val, + RTL839X_SDS12_13_XSG0 + offset + 0x80 + reg); + } + + return 0; +} + +/* Read the link and speed status of the 2 internal SGMII/1000Base-X + * ports of the RTL838x SoCs + */ +static int rtl8380_read_status(struct phy_device *phydev) +{ + int err; + + err = genphy_read_status(phydev); + + if (phydev->link) { + phydev->speed = SPEED_1000; + phydev->duplex = DUPLEX_FULL; + } + + return err; +} + +/* Read the link and speed status of the 2 internal SGMII/1000Base-X + * ports of the RTL8393 SoC + */ +static int rtl8393_read_status(struct phy_device *phydev) +{ + int offset = 0; + int err; + int phy_addr = phydev->mdio.addr; + u32 v; + + err = genphy_read_status(phydev); + if (phy_addr == 49) + offset = 0x100; + + if (phydev->link) { + phydev->speed = SPEED_100; + /* Read SPD_RD_00 (bit 13) and SPD_RD_01 (bit 6) out of the internal + * PHY registers + */ + v = sw_r32(RTL839X_SDS12_13_XSG0 + offset + 0x80); + if (!(v & (1 << 13)) && (v & (1 << 6))) + phydev->speed = SPEED_1000; + phydev->duplex = DUPLEX_FULL; + } + + return err; +} + +static int rtl8226_read_page(struct phy_device *phydev) +{ + return __phy_read(phydev, 0x1f); +} + +static int rtl8226_write_page(struct phy_device *phydev, int page) +{ + return __phy_write(phydev, 0x1f, page); +} + +static int rtl8226_read_status(struct phy_device *phydev) +{ + int ret = 0, i; + u32 val; + int port = phydev->mdio.addr; + +// TODO: ret = genphy_read_status(phydev); +// if (ret < 0) { +// pr_info("%s: genphy_read_status failed\n", __func__); +// return ret; +// } + + // Link status must be read twice + for (i = 0; i < 2; i++) { + read_mmd_phy(port, MMD_VEND2, 0xA402, &val); + } + phydev->link = val & BIT(2) ? 1 : 0; + if (!phydev->link) + goto out; + + // Read duplex status + ret = read_mmd_phy(port, MMD_VEND2, 0xA434, &val); + if (ret) + goto out; + phydev->duplex = !!(val & BIT(3)); + + // Read speed + ret = read_mmd_phy(port, MMD_VEND2, 0xA434, &val); + switch (val & 0x0630) { + case 0x0000: + phydev->speed = SPEED_10; + break; + case 0x0010: + phydev->speed = SPEED_100; + break; + case 0x0020: + phydev->speed = SPEED_1000; + break; + case 0x0200: + phydev->speed = SPEED_10000; + break; + case 0x0210: + phydev->speed = SPEED_2500; + break; + case 0x0220: + phydev->speed = SPEED_5000; + break; + default: + break; + } +out: + return ret; +} + +static int rtl8226_advertise_aneg(struct phy_device *phydev) +{ + int ret = 0; + u32 v; + int port = phydev->mdio.addr; + + pr_info("In %s\n", __func__); + + ret = read_mmd_phy(port, MMD_AN, 16, &v); + if (ret) + goto out; + + v |= BIT(5); // HD 10M + v |= BIT(6); // FD 10M + v |= BIT(7); // HD 100M + v |= BIT(8); // FD 100M + + ret = write_mmd_phy(port, MMD_AN, 16, v); + + // Allow 1GBit + ret = read_mmd_phy(port, MMD_VEND2, 0xA412, &v); + if (ret) + goto out; + v |= BIT(9); // FD 1000M + + ret = write_mmd_phy(port, MMD_VEND2, 0xA412, v); + if (ret) + goto out; + + // Allow 2.5G + ret = read_mmd_phy(port, MMD_AN, 32, &v); + if (ret) + goto out; + + v |= BIT(7); + ret = write_mmd_phy(port, MMD_AN, 32, v); + +out: + return ret; +} + +static int rtl8226_config_aneg(struct phy_device *phydev) +{ + int ret = 0; + u32 v; + int port = phydev->mdio.addr; + + pr_info("In %s\n", __func__); + if (phydev->autoneg == AUTONEG_ENABLE) { + ret = rtl8226_advertise_aneg(phydev); + if (ret) + goto out; + // AutoNegotiationEnable + ret = read_mmd_phy(port, MMD_AN, 0, &v); + if (ret) + goto out; + + v |= BIT(12); // Enable AN + ret = write_mmd_phy(port, MMD_AN, 0, v); + if (ret) + goto out; + + // RestartAutoNegotiation + ret = read_mmd_phy(port, MMD_VEND2, 0xA400, &v); + if (ret) + goto out; + v |= BIT(9); + + ret = write_mmd_phy(port, MMD_VEND2, 0xA400, v); + } + + pr_info("%s: Ret is already: %d\n", __func__, ret); +// TODO: ret = __genphy_config_aneg(phydev, ret); + +out: + pr_info("%s: And ret is now: %d\n", __func__, ret); + return ret; +} + +static int rtl8226_get_eee(struct phy_device *phydev, + struct ethtool_eee *e) +{ + u32 val; + int addr = phydev->mdio.addr; + + pr_debug("In %s, port %d, was enabled: %d\n", __func__, addr, e->eee_enabled); + + read_mmd_phy(addr, MMD_AN, 60, &val); + if (e->eee_enabled) { + e->eee_enabled = !!(val & BIT(1)); + if (!e->eee_enabled) { + read_mmd_phy(addr, MMD_AN, 62, &val); + e->eee_enabled = !!(val & BIT(0)); + } + } + pr_debug("%s: enabled: %d\n", __func__, e->eee_enabled); + + return 0; +} + +static int rtl8226_set_eee(struct phy_device *phydev, struct ethtool_eee *e) +{ + int port = phydev->mdio.addr; + u64 poll_state; + bool an_enabled; + u32 val; + + pr_info("In %s, port %d, enabled %d\n", __func__, port, e->eee_enabled); + + poll_state = disable_polling(port); + + // Remember aneg state + read_mmd_phy(port, MMD_AN, 0, &val); + an_enabled = !!(val & BIT(12)); + + // Setup 100/1000MBit + read_mmd_phy(port, MMD_AN, 60, &val); + if (e->eee_enabled) + val |= 0x6; + else + val &= 0x6; + write_mmd_phy(port, MMD_AN, 60, val); + + // Setup 2.5GBit + read_mmd_phy(port, MMD_AN, 62, &val); + if (e->eee_enabled) + val |= 0x1; + else + val &= 0x1; + write_mmd_phy(port, MMD_AN, 62, val); + + // RestartAutoNegotiation + read_mmd_phy(port, MMD_VEND2, 0xA400, &val); + val |= BIT(9); + write_mmd_phy(port, MMD_VEND2, 0xA400, val); + + resume_polling(poll_state); + + return 0; +} + +static struct fw_header *rtl838x_request_fw(struct phy_device *phydev, + const struct firmware *fw, + const char *name) +{ + struct device *dev = &phydev->mdio.dev; + int err; + struct fw_header *h; + uint32_t checksum, my_checksum; + + err = request_firmware(&fw, name, dev); + if (err < 0) + goto out; + + if (fw->size < sizeof(struct fw_header)) { + pr_err("Firmware size too small.\n"); + err = -EINVAL; + goto out; + } + + h = (struct fw_header *) fw->data; + pr_info("Firmware loaded. Size %d, magic: %08x\n", fw->size, h->magic); + + if (h->magic != 0x83808380) { + pr_err("Wrong firmware file: MAGIC mismatch.\n"); + goto out; + } + + checksum = h->checksum; + h->checksum = 0; + my_checksum = ~crc32(0xFFFFFFFFU, fw->data, fw->size); + if (checksum != my_checksum) { + pr_err("Firmware checksum mismatch.\n"); + err = -EINVAL; + goto out; + } + h->checksum = checksum; + + return h; +out: + dev_err(dev, "Unable to load firmware %s (%d)\n", name, err); + return NULL; +} + +static int rtl8390_configure_generic(struct phy_device *phydev) +{ + u32 val, phy_id; + int mac = phydev->mdio.addr; + + read_phy(mac, 0, 2, &val); + phy_id = val << 16; + read_phy(mac, 0, 3, &val); + phy_id |= val; + pr_debug("Phy on MAC %d: %x\n", mac, phy_id); + + /* Read internal PHY ID */ + write_phy(mac, 31, 27, 0x0002); + read_phy(mac, 31, 28, &val); + + /* Internal RTL8218B, version 2 */ + phydev_info(phydev, "Detected unknown %x\n", val); + return 0; +} + +static int rtl8380_configure_int_rtl8218b(struct phy_device *phydev) +{ + u32 val, phy_id; + int i, p, ipd_flag; + int mac = phydev->mdio.addr; + struct fw_header *h; + u32 *rtl838x_6275B_intPhy_perport; + u32 *rtl8218b_6276B_hwEsd_perport; + + + read_phy(mac, 0, 2, &val); + phy_id = val << 16; + read_phy(mac, 0, 3, &val); + phy_id |= val; + pr_debug("Phy on MAC %d: %x\n", mac, phy_id); + + /* Read internal PHY ID */ + write_phy(mac, 31, 27, 0x0002); + read_phy(mac, 31, 28, &val); + if (val != 0x6275) { + phydev_err(phydev, "Expected internal RTL8218B, found PHY-ID %x\n", val); + return -1; + } + + /* Internal RTL8218B, version 2 */ + phydev_info(phydev, "Detected internal RTL8218B\n"); + + h = rtl838x_request_fw(phydev, &rtl838x_8380_fw, FIRMWARE_838X_8380_1); + if (!h) + return -1; + + if (h->phy != 0x83800000) { + phydev_err(phydev, "Wrong firmware file: PHY mismatch.\n"); + return -1; + } + + rtl838x_6275B_intPhy_perport = (void *)h + sizeof(struct fw_header) + + h->parts[8].start; + + rtl8218b_6276B_hwEsd_perport = (void *)h + sizeof(struct fw_header) + + h->parts[9].start; + + if (sw_r32(RTL838X_DMY_REG31) == 0x1) + ipd_flag = 1; + + read_phy(mac, 0, 0, &val); + if (val & (1 << 11)) + rtl8380_int_phy_on_off(mac, true); + else + rtl8380_phy_reset(mac); + msleep(100); + + /* Ready PHY for patch */ + for (p = 0; p < 8; p++) { + write_phy(mac + p, 0xfff, 0x1f, 0x0b82); + write_phy(mac + p, 0xfff, 0x10, 0x0010); + } + msleep(500); + for (p = 0; p < 8; p++) { + for (i = 0; i < 100 ; i++) { + read_phy(mac + p, 0x0b80, 0x10, &val); + if (val & 0x40) + break; + } + if (i >= 100) { + phydev_err(phydev, + "ERROR: Port %d not ready for patch.\n", + mac + p); + return -1; + } + } + for (p = 0; p < 8; p++) { + i = 0; + while (rtl838x_6275B_intPhy_perport[i * 2]) { + write_phy(mac + p, 0xfff, + rtl838x_6275B_intPhy_perport[i * 2], + rtl838x_6275B_intPhy_perport[i * 2 + 1]); + i++; + } + i = 0; + while (rtl8218b_6276B_hwEsd_perport[i * 2]) { + write_phy(mac + p, 0xfff, + rtl8218b_6276B_hwEsd_perport[i * 2], + rtl8218b_6276B_hwEsd_perport[i * 2 + 1]); + i++; + } + } + return 0; +} + +static int rtl8380_configure_ext_rtl8218b(struct phy_device *phydev) +{ + u32 val, ipd, phy_id; + int i, l; + int mac = phydev->mdio.addr; + struct fw_header *h; + u32 *rtl8380_rtl8218b_perchip; + u32 *rtl8218B_6276B_rtl8380_perport; + u32 *rtl8380_rtl8218b_perport; + + if (soc_info.family == RTL8380_FAMILY_ID && mac != 0 && mac != 16) { + phydev_err(phydev, "External RTL8218B must have PHY-IDs 0 or 16!\n"); + return -1; + } + read_phy(mac, 0, 2, &val); + phy_id = val << 16; + read_phy(mac, 0, 3, &val); + phy_id |= val; + pr_info("Phy on MAC %d: %x\n", mac, phy_id); + + /* Read internal PHY ID */ + write_phy(mac, 31, 27, 0x0002); + read_phy(mac, 31, 28, &val); + if (val != 0x6276) { + phydev_err(phydev, "Expected external RTL8218B, found PHY-ID %x\n", val); + return -1; + } + phydev_info(phydev, "Detected external RTL8218B\n"); + + h = rtl838x_request_fw(phydev, &rtl838x_8218b_fw, FIRMWARE_838X_8218b_1); + if (!h) + return -1; + + if (h->phy != 0x8218b000) { + phydev_err(phydev, "Wrong firmware file: PHY mismatch.\n"); + return -1; + } + + rtl8380_rtl8218b_perchip = (void *)h + sizeof(struct fw_header) + + h->parts[0].start; + + rtl8218B_6276B_rtl8380_perport = (void *)h + sizeof(struct fw_header) + + h->parts[1].start; + + rtl8380_rtl8218b_perport = (void *)h + sizeof(struct fw_header) + + h->parts[2].start; + + read_phy(mac, 0, 0, &val); + if (val & (1 << 11)) + rtl8380_int_phy_on_off(mac, true); + else + rtl8380_phy_reset(mac); + msleep(100); + + /* Get Chip revision */ + write_phy(mac, 0xfff, 0x1f, 0x0); + write_phy(mac, 0xfff, 0x1b, 0x4); + read_phy(mac, 0xfff, 0x1c, &val); + + i = 0; + while (rtl8380_rtl8218b_perchip[i * 3] + && rtl8380_rtl8218b_perchip[i * 3 + 1]) { + write_phy(mac + rtl8380_rtl8218b_perchip[i * 3], + 0xfff, rtl8380_rtl8218b_perchip[i * 3 + 1], + rtl8380_rtl8218b_perchip[i * 3 + 2]); + i++; + } + + /* Enable PHY */ + for (i = 0; i < 8; i++) { + write_phy(mac + i, 0xfff, 0x1f, 0x0000); + write_phy(mac + i, 0xfff, 0x00, 0x1140); + } + mdelay(100); + + /* Request patch */ + for (i = 0; i < 8; i++) { + write_phy(mac + i, 0xfff, 0x1f, 0x0b82); + write_phy(mac + i, 0xfff, 0x10, 0x0010); + } + mdelay(300); + + /* Verify patch readiness */ + for (i = 0; i < 8; i++) { + for (l = 0; l < 100; l++) { + read_phy(mac + i, 0xb80, 0x10, &val); + if (val & 0x40) + break; + } + if (l >= 100) { + phydev_err(phydev, "Could not patch PHY\n"); + return -1; + } + } + + /* Use Broadcast ID method for patching */ + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0008); + write_phy(mac, 0xfff, 0x1f, 0x0266); + write_phy(mac, 0xfff, 0x16, 0xff00 + mac); + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0000); + mdelay(1); + + write_phy(mac, 0xfff, 30, 8); + write_phy(mac, 0x26e, 17, 0xb); + write_phy(mac, 0x26e, 16, 0x2); + mdelay(1); + read_phy(mac, 0x26e, 19, &ipd); + write_phy(mac, 0, 30, 0); + ipd = (ipd >> 4) & 0xf; + + i = 0; + while (rtl8218B_6276B_rtl8380_perport[i * 2]) { + write_phy(mac, 0xfff, rtl8218B_6276B_rtl8380_perport[i * 2], + rtl8218B_6276B_rtl8380_perport[i * 2 + 1]); + i++; + } + + /*Disable broadcast ID*/ + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0008); + write_phy(mac, 0xfff, 0x1f, 0x0266); + write_phy(mac, 0xfff, 0x16, 0x00 + mac); + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0000); + mdelay(1); + + return 0; +} + +static int rtl8218b_ext_match_phy_device(struct phy_device *phydev) +{ + int addr = phydev->mdio.addr; + + /* Both the RTL8214FC and the external RTL8218B have the same + * PHY ID. On the RTL838x, the RTL8218B can only be attached_dev + * at PHY IDs 0-7, while the RTL8214FC must be attached via + * the pair of SGMII/1000Base-X with higher PHY-IDs + */ + if (soc_info.family == RTL8380_FAMILY_ID) + return phydev->phy_id == PHY_ID_RTL8218B_E && addr < 8; + else + return phydev->phy_id == PHY_ID_RTL8218B_E; +} + +static int rtl8218b_read_mmd(struct phy_device *phydev, + int devnum, u16 regnum) +{ + int ret; + u32 val; + int addr = phydev->mdio.addr; + + ret = read_mmd_phy(addr, devnum, regnum, &val); + if (ret) + return ret; + return val; +} + +static int rtl8218b_write_mmd(struct phy_device *phydev, + int devnum, u16 regnum, u16 val) +{ + int addr = phydev->mdio.addr; + + return rtl838x_write_mmd_phy(addr, devnum, regnum, val); +} + +static int rtl8226_read_mmd(struct phy_device *phydev, int devnum, u16 regnum) +{ + int port = phydev->mdio.addr; // the SoC translates port addresses to PHY addr + int err; + u32 val; + + err = read_mmd_phy(port, devnum, regnum, &val); + if (err) + return err; + return val; +} + +static int rtl8226_write_mmd(struct phy_device *phydev, int devnum, u16 regnum, u16 val) +{ + int port = phydev->mdio.addr; // the SoC translates port addresses to PHY addr + + return write_mmd_phy(port, devnum, regnum, val); +} + +static void rtl8380_rtl8214fc_media_set(int mac, bool set_fibre) +{ + int base = mac - (mac % 4); + static int reg[] = {16, 19, 20, 21}; + int val, media, power; + + pr_info("%s: port %d, set_fibre: %d\n", __func__, mac, set_fibre); + write_phy(base, 0xfff, 29, 8); + read_phy(base, 0x266, reg[mac % 4], &val); + + media = (val >> 10) & 0x3; + pr_info("Current media %x\n", media); + if (media & 0x2) { + pr_info("Powering off COPPER\n"); + write_phy(base, 0xfff, 29, 1); + /* Ensure power is off */ + read_phy(base, 0xa40, 16, &power); + if (!(power & (1 << 11))) + write_phy(base, 0xa40, 16, power | (1 << 11)); + } else { + pr_info("Powering off FIBRE"); + write_phy(base, 0xfff, 29, 3); + /* Ensure power is off */ + read_phy(base, 0xa40, 16, &power); + if (!(power & (1 << 11))) + write_phy(base, 0xa40, 16, power | (1 << 11)); + } + + if (set_fibre) { + val |= 1 << 10; + val &= ~(1 << 11); + } else { + val |= 1 << 10; + val |= 1 << 11; + } + write_phy(base, 0xfff, 29, 8); + write_phy(base, 0x266, reg[mac % 4], val); + write_phy(base, 0xfff, 29, 0); + + if (set_fibre) { + pr_info("Powering on FIBRE"); + write_phy(base, 0xfff, 29, 3); + /* Ensure power is off */ + read_phy(base, 0xa40, 16, &power); + if (power & (1 << 11)) + write_phy(base, 0xa40, 16, power & ~(1 << 11)); + } else { + pr_info("Powering on COPPER\n"); + write_phy(base, 0xfff, 29, 1); + /* Ensure power is off */ + read_phy(base, 0xa40, 16, &power); + if (power & (1 << 11)) + write_phy(base, 0xa40, 16, power & ~(1 << 11)); + } + + write_phy(base, 0xfff, 29, 0); +} + +static bool rtl8380_rtl8214fc_media_is_fibre(int mac) +{ + int base = mac - (mac % 4); + static int reg[] = {16, 19, 20, 21}; + u32 val; + + write_phy(base, 0xfff, 29, 8); + read_phy(base, 0x266, reg[mac % 4], &val); + write_phy(base, 0xfff, 29, 0); + if (val & (1 << 11)) + return false; + return true; +} + +static int rtl8214fc_set_port(struct phy_device *phydev, int port) +{ + bool is_fibre = (port == PORT_FIBRE ? true : false); + int addr = phydev->mdio.addr; + + pr_debug("%s port %d to %d\n", __func__, addr, port); + + rtl8380_rtl8214fc_media_set(addr, is_fibre); + return 0; +} + +static int rtl8214fc_get_port(struct phy_device *phydev) +{ + int addr = phydev->mdio.addr; + + pr_debug("%s: port %d\n", __func__, addr); + if (rtl8380_rtl8214fc_media_is_fibre(addr)) + return PORT_FIBRE; + return PORT_MII; +} + +/* + * Enable EEE on the RTL8218B PHYs + * The method used is not the preferred way (which would be based on the MAC-EEE state, + * but the only way that works since the kernel first enables EEE in the MAC + * and then sets up the PHY. The MAC-based approach would require the oppsite. + */ +void rtl8218d_eee_set(int port, bool enable) +{ + u32 val; + bool an_enabled; + + pr_debug("In %s %d, enable %d\n", __func__, port, enable); + /* Set GPHY page to copper */ + write_phy(port, 0xa42, 30, 0x0001); + + read_phy(port, 0, 0, &val); + an_enabled = val & BIT(12); + + /* Enable 100M (bit 1) / 1000M (bit 2) EEE */ + read_mmd_phy(port, 7, 60, &val); + val |= BIT(2) | BIT(1); + write_mmd_phy(port, 7, 60, enable ? 0x6 : 0); + + /* 500M EEE ability */ + read_phy(port, 0xa42, 20, &val); + if (enable) + val |= BIT(7); + else + val &= ~BIT(7); + write_phy(port, 0xa42, 20, val); + + /* Restart AN if enabled */ + if (an_enabled) { + read_phy(port, 0, 0, &val); + val |= BIT(9); + write_phy(port, 0, 0, val); + } + + /* GPHY page back to auto*/ + write_phy(port, 0xa42, 30, 0); +} + +static int rtl8218b_get_eee(struct phy_device *phydev, + struct ethtool_eee *e) +{ + u32 val; + int addr = phydev->mdio.addr; + + pr_debug("In %s, port %d, was enabled: %d\n", __func__, addr, e->eee_enabled); + + /* Set GPHY page to copper */ + write_phy(addr, 0xa42, 29, 0x0001); + + read_phy(addr, 7, 60, &val); + if (e->eee_enabled) { + // Verify vs MAC-based EEE + e->eee_enabled = !!(val & BIT(7)); + if (!e->eee_enabled) { + read_phy(addr, 0x0A43, 25, &val); + e->eee_enabled = !!(val & BIT(4)); + } + } + pr_debug("%s: enabled: %d\n", __func__, e->eee_enabled); + + /* GPHY page to auto */ + write_phy(addr, 0xa42, 29, 0x0000); + + return 0; +} + +static int rtl8218d_get_eee(struct phy_device *phydev, + struct ethtool_eee *e) +{ + u32 val; + int addr = phydev->mdio.addr; + + pr_debug("In %s, port %d, was enabled: %d\n", __func__, addr, e->eee_enabled); + + /* Set GPHY page to copper */ + write_phy(addr, 0xa42, 30, 0x0001); + + read_phy(addr, 7, 60, &val); + if (e->eee_enabled) + e->eee_enabled = !!(val & BIT(7)); + pr_debug("%s: enabled: %d\n", __func__, e->eee_enabled); + + /* GPHY page to auto */ + write_phy(addr, 0xa42, 30, 0x0000); + + return 0; +} + +static int rtl8214fc_set_eee(struct phy_device *phydev, + struct ethtool_eee *e) +{ + u32 poll_state; + int port = phydev->mdio.addr; + bool an_enabled; + u32 val; + + pr_debug("In %s port %d, enabled %d\n", __func__, port, e->eee_enabled); + + if (rtl8380_rtl8214fc_media_is_fibre(port)) { + netdev_err(phydev->attached_dev, "Port %d configured for FIBRE", port); + return -ENOTSUPP; + } + + poll_state = disable_polling(port); + + /* Set GPHY page to copper */ + write_phy(port, 0xa42, 29, 0x0001); + + // Get auto-negotiation status + read_phy(port, 0, 0, &val); + an_enabled = val & BIT(12); + + pr_info("%s: aneg: %d\n", __func__, an_enabled); + read_phy(port, 0x0A43, 25, &val); + val &= ~BIT(5); // Use MAC-based EEE + write_phy(port, 0x0A43, 25, val); + + /* Enable 100M (bit 1) / 1000M (bit 2) EEE */ + write_phy(port, 7, 60, e->eee_enabled ? 0x6 : 0); + + /* 500M EEE ability */ + read_phy(port, 0xa42, 20, &val); + if (e->eee_enabled) + val |= BIT(7); + else + val &= ~BIT(7); + write_phy(port, 0xa42, 20, val); + + /* Restart AN if enabled */ + if (an_enabled) { + pr_info("%s: doing aneg\n", __func__); + read_phy(port, 0, 0, &val); + val |= BIT(9); + write_phy(port, 0, 0, val); + } + + /* GPHY page back to auto*/ + write_phy(port, 0xa42, 29, 0); + + resume_polling(poll_state); + + return 0; +} + +static int rtl8214fc_get_eee(struct phy_device *phydev, + struct ethtool_eee *e) +{ + int addr = phydev->mdio.addr; + + pr_debug("In %s port %d, enabled %d\n", __func__, addr, e->eee_enabled); + if (rtl8380_rtl8214fc_media_is_fibre(addr)) { + netdev_err(phydev->attached_dev, "Port %d configured for FIBRE", addr); + return -ENOTSUPP; + } + + return rtl8218b_get_eee(phydev, e); +} + +static int rtl8218b_set_eee(struct phy_device *phydev, struct ethtool_eee *e) +{ + int port = phydev->mdio.addr; + u64 poll_state; + u32 val; + bool an_enabled; + + pr_info("In %s, port %d, enabled %d\n", __func__, port, e->eee_enabled); + + poll_state = disable_polling(port); + + /* Set GPHY page to copper */ + write_phy(port, 0, 30, 0x0001); + read_phy(port, 0, 0, &val); + an_enabled = val & BIT(12); + + if (e->eee_enabled) { + /* 100/1000M EEE Capability */ + write_phy(port, 0, 13, 0x0007); + write_phy(port, 0, 14, 0x003C); + write_phy(port, 0, 13, 0x4007); + write_phy(port, 0, 14, 0x0006); + + read_phy(port, 0x0A43, 25, &val); + val |= BIT(4); + write_phy(port, 0x0A43, 25, val); + } else { + /* 100/1000M EEE Capability */ + write_phy(port, 0, 13, 0x0007); + write_phy(port, 0, 14, 0x003C); + write_phy(port, 0, 13, 0x0007); + write_phy(port, 0, 14, 0x0000); + + read_phy(port, 0x0A43, 25, &val); + val &= ~BIT(4); + write_phy(port, 0x0A43, 25, val); + } + + /* Restart AN if enabled */ + if (an_enabled) { + read_phy(port, 0, 0, &val); + val |= BIT(9); + write_phy(port, 0, 0, val); + } + + /* GPHY page back to auto*/ + write_phy(port, 0xa42, 30, 0); + + pr_info("%s done\n", __func__); + resume_polling(poll_state); + + return 0; +} + +static int rtl8218d_set_eee(struct phy_device *phydev, struct ethtool_eee *e) +{ + int addr = phydev->mdio.addr; + u64 poll_state; + + pr_info("In %s, port %d, enabled %d\n", __func__, addr, e->eee_enabled); + + poll_state = disable_polling(addr); + + rtl8218d_eee_set(addr, (bool) e->eee_enabled); + + resume_polling(poll_state); + + return 0; +} + +static int rtl8214c_match_phy_device(struct phy_device *phydev) +{ + return phydev->phy_id == PHY_ID_RTL8214C; +} + +static int rtl8380_configure_rtl8214c(struct phy_device *phydev) +{ + u32 phy_id, val; + int mac = phydev->mdio.addr; + + read_phy(mac, 0, 2, &val); + phy_id = val << 16; + read_phy(mac, 0, 3, &val); + phy_id |= val; + pr_debug("Phy on MAC %d: %x\n", mac, phy_id); + + phydev_info(phydev, "Detected external RTL8214C\n"); + + /* GPHY auto conf */ + write_phy(mac, 0xa42, 29, 0); + return 0; +} + +static int rtl8380_configure_rtl8214fc(struct phy_device *phydev) +{ + u32 phy_id, val, page = 0; + int i, l; + int mac = phydev->mdio.addr; + struct fw_header *h; + u32 *rtl8380_rtl8214fc_perchip; + u32 *rtl8380_rtl8214fc_perport; + + read_phy(mac, 0, 2, &val); + phy_id = val << 16; + read_phy(mac, 0, 3, &val); + phy_id |= val; + pr_debug("Phy on MAC %d: %x\n", mac, phy_id); + + /* Read internal PHY id */ + write_phy(mac, 0, 30, 0x0001); + write_phy(mac, 0, 31, 0x0a42); + write_phy(mac, 31, 27, 0x0002); + read_phy(mac, 31, 28, &val); + if (val != 0x6276) { + phydev_err(phydev, "Expected external RTL8214FC, found PHY-ID %x\n", val); + return -1; + } + phydev_info(phydev, "Detected external RTL8214FC\n"); + + h = rtl838x_request_fw(phydev, &rtl838x_8214fc_fw, FIRMWARE_838X_8214FC_1); + if (!h) + return -1; + + if (h->phy != 0x8214fc00) { + phydev_err(phydev, "Wrong firmware file: PHY mismatch.\n"); + return -1; + } + + rtl8380_rtl8214fc_perchip = (void *)h + sizeof(struct fw_header) + + h->parts[0].start; + + rtl8380_rtl8214fc_perport = (void *)h + sizeof(struct fw_header) + + h->parts[1].start; + + /* detect phy version */ + write_phy(mac, 0xfff, 27, 0x0004); + read_phy(mac, 0xfff, 28, &val); + + read_phy(mac, 0, 16, &val); + if (val & (1 << 11)) + rtl8380_rtl8214fc_on_off(mac, true); + else + rtl8380_phy_reset(mac); + + msleep(100); + write_phy(mac, 0, 30, 0x0001); + + i = 0; + while (rtl8380_rtl8214fc_perchip[i * 3] + && rtl8380_rtl8214fc_perchip[i * 3 + 1]) { + if (rtl8380_rtl8214fc_perchip[i * 3 + 1] == 0x1f) + page = rtl8380_rtl8214fc_perchip[i * 3 + 2]; + if (rtl8380_rtl8214fc_perchip[i * 3 + 1] == 0x13 && page == 0x260) { + read_phy(mac + rtl8380_rtl8214fc_perchip[i * 3], 0x260, 13, &val); + val = (val & 0x1f00) | (rtl8380_rtl8214fc_perchip[i * 3 + 2] + & 0xe0ff); + write_phy(mac + rtl8380_rtl8214fc_perchip[i * 3], + 0xfff, rtl8380_rtl8214fc_perchip[i * 3 + 1], val); + } else { + write_phy(mac + rtl8380_rtl8214fc_perchip[i * 3], + 0xfff, rtl8380_rtl8214fc_perchip[i * 3 + 1], + rtl8380_rtl8214fc_perchip[i * 3 + 2]); + } + i++; + } + + /* Force copper medium */ + for (i = 0; i < 4; i++) { + write_phy(mac + i, 0xfff, 0x1f, 0x0000); + write_phy(mac + i, 0xfff, 0x1e, 0x0001); + } + + /* Enable PHY */ + for (i = 0; i < 4; i++) { + write_phy(mac + i, 0xfff, 0x1f, 0x0000); + write_phy(mac + i, 0xfff, 0x00, 0x1140); + } + mdelay(100); + + /* Disable Autosensing */ + for (i = 0; i < 4; i++) { + for (l = 0; l < 100; l++) { + read_phy(mac + i, 0x0a42, 0x10, &val); + if ((val & 0x7) >= 3) + break; + } + if (l >= 100) { + phydev_err(phydev, "Could not disable autosensing\n"); + return -1; + } + } + + /* Request patch */ + for (i = 0; i < 4; i++) { + write_phy(mac + i, 0xfff, 0x1f, 0x0b82); + write_phy(mac + i, 0xfff, 0x10, 0x0010); + } + mdelay(300); + + /* Verify patch readiness */ + for (i = 0; i < 4; i++) { + for (l = 0; l < 100; l++) { + read_phy(mac + i, 0xb80, 0x10, &val); + if (val & 0x40) + break; + } + if (l >= 100) { + phydev_err(phydev, "Could not patch PHY\n"); + return -1; + } + } + + /* Use Broadcast ID method for patching */ + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0008); + write_phy(mac, 0xfff, 0x1f, 0x0266); + write_phy(mac, 0xfff, 0x16, 0xff00 + mac); + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0000); + mdelay(1); + + i = 0; + while (rtl8380_rtl8214fc_perport[i * 2]) { + write_phy(mac, 0xfff, rtl8380_rtl8214fc_perport[i * 2], + rtl8380_rtl8214fc_perport[i * 2 + 1]); + i++; + } + + /*Disable broadcast ID*/ + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0008); + write_phy(mac, 0xfff, 0x1f, 0x0266); + write_phy(mac, 0xfff, 0x16, 0x00 + mac); + write_phy(mac, 0xfff, 0x1f, 0x0000); + write_phy(mac, 0xfff, 0x1d, 0x0000); + mdelay(1); + + /* Auto medium selection */ + for (i = 0; i < 4; i++) { + write_phy(mac + i, 0xfff, 0x1f, 0x0000); + write_phy(mac + i, 0xfff, 0x1e, 0x0000); + } + + return 0; +} + +static int rtl8214fc_match_phy_device(struct phy_device *phydev) +{ + int addr = phydev->mdio.addr; + + return phydev->phy_id == PHY_ID_RTL8214FC && addr >= 24; +} + +static int rtl8380_configure_serdes(struct phy_device *phydev) +{ + u32 v; + u32 sds_conf_value; + int i; + struct fw_header *h; + u32 *rtl8380_sds_take_reset; + u32 *rtl8380_sds_common; + u32 *rtl8380_sds01_qsgmii_6275b; + u32 *rtl8380_sds23_qsgmii_6275b; + u32 *rtl8380_sds4_fiber_6275b; + u32 *rtl8380_sds5_fiber_6275b; + u32 *rtl8380_sds_reset; + u32 *rtl8380_sds_release_reset; + + phydev_info(phydev, "Detected internal RTL8380 SERDES\n"); + + h = rtl838x_request_fw(phydev, &rtl838x_8218b_fw, FIRMWARE_838X_8380_1); + if (!h) + return -1; + + if (h->magic != 0x83808380) { + phydev_err(phydev, "Wrong firmware file: magic number mismatch.\n"); + return -1; + } + + rtl8380_sds_take_reset = (void *)h + sizeof(struct fw_header) + + h->parts[0].start; + + rtl8380_sds_common = (void *)h + sizeof(struct fw_header) + + h->parts[1].start; + + rtl8380_sds01_qsgmii_6275b = (void *)h + sizeof(struct fw_header) + + h->parts[2].start; + + rtl8380_sds23_qsgmii_6275b = (void *)h + sizeof(struct fw_header) + + h->parts[3].start; + + rtl8380_sds4_fiber_6275b = (void *)h + sizeof(struct fw_header) + + h->parts[4].start; + + rtl8380_sds5_fiber_6275b = (void *)h + sizeof(struct fw_header) + + h->parts[5].start; + + rtl8380_sds_reset = (void *)h + sizeof(struct fw_header) + + h->parts[6].start; + + rtl8380_sds_release_reset = (void *)h + sizeof(struct fw_header) + + h->parts[7].start; + + /* Back up serdes power off value */ + sds_conf_value = sw_r32(RTL838X_SDS_CFG_REG); + pr_info("SDS power down value: %x\n", sds_conf_value); + + /* take serdes into reset */ + i = 0; + while (rtl8380_sds_take_reset[2 * i]) { + sw_w32(rtl8380_sds_take_reset[2 * i + 1], rtl8380_sds_take_reset[2 * i]); + i++; + udelay(1000); + } + + /* apply common serdes patch */ + i = 0; + while (rtl8380_sds_common[2 * i]) { + sw_w32(rtl8380_sds_common[2 * i + 1], rtl8380_sds_common[2 * i]); + i++; + udelay(1000); + } + + /* internal R/W enable */ + sw_w32(3, RTL838X_INT_RW_CTRL); + + /* SerDes ports 4 and 5 are FIBRE ports */ + sw_w32_mask(0x7 | 0x38, 1 | (1 << 3), RTL838X_INT_MODE_CTRL); + + /* SerDes module settings, SerDes 0-3 are QSGMII */ + v = 0x6 << 25 | 0x6 << 20 | 0x6 << 15 | 0x6 << 10; + /* SerDes 4 and 5 are 1000BX FIBRE */ + v |= 0x4 << 5 | 0x4; + sw_w32(v, RTL838X_SDS_MODE_SEL); + + pr_info("PLL control register: %x\n", sw_r32(RTL838X_PLL_CML_CTRL)); + sw_w32_mask(0xfffffff0, 0xaaaaaaaf & 0xf, RTL838X_PLL_CML_CTRL); + i = 0; + while (rtl8380_sds01_qsgmii_6275b[2 * i]) { + sw_w32(rtl8380_sds01_qsgmii_6275b[2 * i + 1], + rtl8380_sds01_qsgmii_6275b[2 * i]); + i++; + } + + i = 0; + while (rtl8380_sds23_qsgmii_6275b[2 * i]) { + sw_w32(rtl8380_sds23_qsgmii_6275b[2 * i + 1], rtl8380_sds23_qsgmii_6275b[2 * i]); + i++; + } + + i = 0; + while (rtl8380_sds4_fiber_6275b[2 * i]) { + sw_w32(rtl8380_sds4_fiber_6275b[2 * i + 1], rtl8380_sds4_fiber_6275b[2 * i]); + i++; + } + + i = 0; + while (rtl8380_sds5_fiber_6275b[2 * i]) { + sw_w32(rtl8380_sds5_fiber_6275b[2 * i + 1], rtl8380_sds5_fiber_6275b[2 * i]); + i++; + } + + i = 0; + while (rtl8380_sds_reset[2 * i]) { + sw_w32(rtl8380_sds_reset[2 * i + 1], rtl8380_sds_reset[2 * i]); + i++; + } + + i = 0; + while (rtl8380_sds_release_reset[2 * i]) { + sw_w32(rtl8380_sds_release_reset[2 * i + 1], rtl8380_sds_release_reset[2 * i]); + i++; + } + + pr_info("SDS power down value now: %x\n", sw_r32(RTL838X_SDS_CFG_REG)); + sw_w32(sds_conf_value, RTL838X_SDS_CFG_REG); + + pr_info("Configuration of SERDES done\n"); + return 0; +} + +static int rtl8390_configure_serdes(struct phy_device *phydev) +{ + phydev_info(phydev, "Detected internal RTL8390 SERDES\n"); + + /* In autoneg state, force link, set SR4_CFG_EN_LINK_FIB1G */ + sw_w32_mask(0, 1 << 18, RTL839X_SDS12_13_XSG0 + 0x0a); + + /* Disable EEE: Clear FRE16_EEE_RSG_FIB1G, FRE16_EEE_STD_FIB1G, + * FRE16_C1_PWRSAV_EN_FIB1G, FRE16_C2_PWRSAV_EN_FIB1G + * and FRE16_EEE_QUIET_FIB1G + */ + sw_w32_mask(0x1f << 10, 0, RTL839X_SDS12_13_XSG0 + 0xe0); + + return 0; +} + +int rtl9300_configure_serdes(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + int phy_addr = phydev->mdio.addr; + int sds_num = 0; + int v; + + phydev_info(phydev, "Configuring internal RTL9300 SERDES\n"); + + switch (phy_addr) { + case 26: + sds_num = 8; + break; + case 27: + sds_num = 9; + break; + default: + dev_err(dev, "Not a SerDes PHY\n"); + return -EINVAL; + } + + /* Set default Medium to fibre */ + v = rtl930x_read_sds_phy(sds_num, 0x1f, 11); + if (v < 0) { + dev_err(dev, "Cannot access SerDes PHY %d\n", phy_addr); + return -EINVAL; + } + v |= BIT(2); + rtl930x_write_sds_phy(sds_num, 0x1f, 11, v); + + // TODO: this needs to be configurable via ethtool/.dts + pr_info("Setting 10G/1000BX auto fibre medium\n"); + rtl9300_sds_rst(sds_num, 0x1b); + + // TODO: Apply patch set for fibre type + + return 0; +} + +static int rtl8214fc_phy_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + /* 839x has internal SerDes */ + if (soc_info.id == 0x8393) + return -ENODEV; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8214FC"; + + /* All base addresses of the PHYs start at multiples of 8 */ + if (!(addr % 8)) { + /* Configuration must be done whil patching still possible */ + return rtl8380_configure_rtl8214fc(phydev); + } + return 0; +} + +static int rtl8214c_phy_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8214C"; + + /* All base addresses of the PHYs start at multiples of 8 */ + if (!(addr % 8)) { + /* Configuration must be done whil patching still possible */ + return rtl8380_configure_rtl8214c(phydev); + } + return 0; +} + +static int rtl8218b_ext_phy_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8218B (external)"; + + /* All base addresses of the PHYs start at multiples of 8 */ + if (!(addr % 8) && soc_info.family == RTL8380_FAMILY_ID) { + /* Configuration must be done while patching still possible */ + return rtl8380_configure_ext_rtl8218b(phydev); + } + return 0; +} + +static int rtl8218b_int_phy_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + if (soc_info.family != RTL8380_FAMILY_ID) + return -ENODEV; + if (addr >= 24) + return -ENODEV; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8218B (internal)"; + + /* All base addresses of the PHYs start at multiples of 8 */ + if (!(addr % 8)) { + /* Configuration must be done while patching still possible */ + return rtl8380_configure_int_rtl8218b(phydev); + } + return 0; +} + +static int rtl8218d_phy_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + pr_info("%s: id: %d\n", __func__, addr); + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8218D"; + + /* All base addresses of the PHYs start at multiples of 8 */ + if (!(addr % 8)) { + /* Configuration must be done while patching still possible */ +// TODO: return configure_rtl8218d(phydev); + } + return 0; +} + +static int rtl8226_phy_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + pr_info("%s: id: %d\n", __func__, addr); + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8226"; + + return 0; +} + +static int rtl838x_serdes_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + if (soc_info.family != RTL8380_FAMILY_ID) + return -ENODEV; + if (addr < 24) + return -ENODEV; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8380 Serdes"; + + /* On the RTL8380M, PHYs 24-27 connect to the internal SerDes */ + if (soc_info.id == 0x8380) { + if (addr == 24) + return rtl8380_configure_serdes(phydev); + return 0; + } + return -ENODEV; +} + +static int rtl8393_serdes_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + pr_info("%s: id: %d\n", __func__, addr); + if (soc_info.family != RTL8390_FAMILY_ID) + return -ENODEV; + + if (addr < 24) + return -ENODEV; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8393 Serdes"; + return rtl8390_configure_serdes(phydev); +} + +static int rtl8390_serdes_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + if (soc_info.family != RTL8390_FAMILY_ID) + return -ENODEV; + + if (addr < 24) + return -ENODEV; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL8390 Serdes"; + return rtl8390_configure_generic(phydev); +} + +static int rtl9300_serdes_probe(struct phy_device *phydev) +{ + struct device *dev = &phydev->mdio.dev; + struct rtl838x_phy_priv *priv; + int addr = phydev->mdio.addr; + + if (soc_info.family != RTL9300_FAMILY_ID) + return -ENODEV; + + if (addr < 24) + return -ENODEV; + + priv = devm_kzalloc(dev, sizeof(*priv), GFP_KERNEL); + if (!priv) + return -ENOMEM; + + priv->name = "RTL9300 Serdes"; + return rtl9300_configure_serdes(phydev); +} + +static struct phy_driver rtl83xx_phy_driver[] = { + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8214C), + .name = "Realtek RTL8214C", + .features = PHY_GBIT_FEATURES, + .match_phy_device = rtl8214c_match_phy_device, + .probe = rtl8214c_phy_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8214FC), + .name = "Realtek RTL8214FC", + .features = PHY_GBIT_FIBRE_FEATURES, + .match_phy_device = rtl8214fc_match_phy_device, + .probe = rtl8214fc_phy_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .read_mmd = rtl8218b_read_mmd, + .write_mmd = rtl8218b_write_mmd, + .set_port = rtl8214fc_set_port, + .get_port = rtl8214fc_get_port, + .set_eee = rtl8214fc_set_eee, + .get_eee = rtl8214fc_get_eee, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8218B_E), + .name = "Realtek RTL8218B (external)", + .features = PHY_GBIT_FEATURES, + .match_phy_device = rtl8218b_ext_match_phy_device, + .probe = rtl8218b_ext_phy_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .read_mmd = rtl8218b_read_mmd, + .write_mmd = rtl8218b_write_mmd, + .set_eee = rtl8218b_set_eee, + .get_eee = rtl8218b_get_eee, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8218D), + .name = "REALTEK RTL8218D", + .features = PHY_GBIT_FEATURES, + .probe = rtl8218d_phy_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .set_eee = rtl8218d_set_eee, + .get_eee = rtl8218d_get_eee, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8226), + .name = "REALTEK RTL8226", + .features = PHY_GBIT_FEATURES, + .probe = rtl8226_phy_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .read_mmd = rtl8226_read_mmd, + .write_mmd = rtl8226_write_mmd, + .read_page = rtl8226_read_page, + .write_page = rtl8226_write_page, + .read_status = rtl8226_read_status, + .config_aneg = rtl8226_config_aneg, + .set_eee = rtl8226_set_eee, + .get_eee = rtl8226_get_eee, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8218B_I), + .name = "Realtek RTL8218B (internal)", + .features = PHY_GBIT_FEATURES, + .probe = rtl8218b_int_phy_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .read_mmd = rtl8218b_read_mmd, + .write_mmd = rtl8218b_write_mmd, + .set_eee = rtl8218b_set_eee, + .get_eee = rtl8218b_get_eee, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8218B_I), + .name = "Realtek RTL8380 SERDES", + .features = PHY_GBIT_FIBRE_FEATURES, + .probe = rtl838x_serdes_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .read_mmd = rtl8218b_read_mmd, + .write_mmd = rtl8218b_write_mmd, + .read_status = rtl8380_read_status, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8393_I), + .name = "Realtek RTL8393 SERDES", + .features = PHY_GBIT_FIBRE_FEATURES, + .probe = rtl8393_serdes_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + .read_status = rtl8393_read_status, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL8390_GENERIC), + .name = "Realtek RTL8390 Generic", + .features = PHY_GBIT_FIBRE_FEATURES, + .probe = rtl8390_serdes_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + }, + { + PHY_ID_MATCH_MODEL(PHY_ID_RTL9300_I), + .name = "REALTEK RTL9300 SERDES", + .features = PHY_GBIT_FIBRE_FEATURES, + .probe = rtl9300_serdes_probe, + .suspend = genphy_suspend, + .resume = genphy_resume, + .set_loopback = genphy_loopback, + }, +}; + +module_phy_driver(rtl83xx_phy_driver); + +static struct mdio_device_id __maybe_unused rtl83xx_tbl[] = { + { PHY_ID_MATCH_MODEL(PHY_ID_RTL8214FC) }, + { } +}; + +MODULE_DEVICE_TABLE(mdio, rtl83xx_tbl); + +MODULE_AUTHOR("B. Koblitz"); +MODULE_DESCRIPTION("RTL83xx PHY driver"); +MODULE_LICENSE("GPL"); diff --git a/target/linux/realtek/files-5.10/drivers/net/phy/rtl83xx-phy.h b/target/linux/realtek/files-5.10/drivers/net/phy/rtl83xx-phy.h new file mode 100644 index 0000000000..031ec8a0e9 --- /dev/null +++ b/target/linux/realtek/files-5.10/drivers/net/phy/rtl83xx-phy.h @@ -0,0 +1,60 @@ +// SPDX-License-Identifier: GPL-2.0-only + +// TODO: not really used +struct rtl838x_phy_priv { + char *name; +}; + +struct __attribute__ ((__packed__)) part { + uint16_t start; + uint8_t wordsize; + uint8_t words; +}; + +struct __attribute__ ((__packed__)) fw_header { + uint32_t magic; + uint32_t phy; + uint32_t checksum; + uint32_t version; + struct part parts[10]; +}; + +// TODO: fixed path? +#define FIRMWARE_838X_8380_1 "rtl838x_phy/rtl838x_8380.fw" +#define FIRMWARE_838X_8214FC_1 "rtl838x_phy/rtl838x_8214fc.fw" +#define FIRMWARE_838X_8218b_1 "rtl838x_phy/rtl838x_8218b.fw" + +/* External RTL8218B and RTL8214FC IDs are identical */ +#define PHY_ID_RTL8214C 0x001cc942 +#define PHY_ID_RTL8214FC 0x001cc981 +#define PHY_ID_RTL8218B_E 0x001cc981 +#define PHY_ID_RTL8218D 0x001cc983 +#define PHY_ID_RTL8218B_I 0x001cca40 +#define PHY_ID_RTL8226 0x001cc838 +#define PHY_ID_RTL8390_GENERIC 0x001ccab0 +#define PHY_ID_RTL8393_I 0x001c8393 +#define PHY_ID_RTL9300_I 0x70d03106 + +// PHY MMD devices +#define MMD_AN 7 +#define MMD_VEND2 31 + +/* Registers of the internal Serdes of the 8380 */ +#define RTL838X_SDS_MODE_SEL (0x0028) +#define RTL838X_SDS_CFG_REG (0x0034) +#define RTL838X_INT_MODE_CTRL (0x005c) +#define RTL838X_DMY_REG31 (0x3b28) + +#define RTL8380_SDS4_FIB_REG0 (0xF800) +#define RTL838X_SDS4_REG28 (0xef80) +#define RTL838X_SDS4_DUMMY0 (0xef8c) +#define RTL838X_SDS5_EXT_REG6 (0xf18c) +#define RTL838X_SDS4_FIB_REG0 (RTL838X_SDS4_REG28 + 0x880) +#define RTL838X_SDS5_FIB_REG0 (RTL838X_SDS4_REG28 + 0x980) + +/* Registers of the internal SerDes of the RTL8390 */ +#define RTL839X_SDS12_13_XSG0 (0xB800) + +/* Registers of the internal Serdes of the 9300 */ +#define RTL930X_SDS_INDACS_CMD (0x03B0) +#define RTL930X_SDS_INDACS_DATA (0x03B4) diff --git a/target/linux/realtek/patches-5.10/300-mips-add-rtl838x-platform.patch b/target/linux/realtek/patches-5.10/300-mips-add-rtl838x-platform.patch new file mode 100644 index 0000000000..ecc77b2a73 --- /dev/null +++ b/target/linux/realtek/patches-5.10/300-mips-add-rtl838x-platform.patch @@ -0,0 +1,39 @@ +--- a/arch/mips/Kbuild.platforms ++++ b/arch/mips/Kbuild.platforms +@@ -27,6 +27,7 @@ platforms += pistachio + platforms += pmcs-msp71xx + platforms += pnx833x + platforms += ralink ++platforms += rtl838x + platforms += rb532 + platforms += sgi-ip22 + platforms += sgi-ip27 +--- a/arch/mips/Kconfig ++++ b/arch/mips/Kconfig +@@ -631,6 +631,26 @@ config RALINK + select ARCH_HAS_RESET_CONTROLLER + select RESET_CONTROLLER + ++config RTL838X ++ bool "Realtek based platforms" ++ select DMA_NONCOHERENT ++ select IRQ_MIPS_CPU ++ select CSRC_R4K ++ select CEVT_R4K ++ select SYS_HAS_CPU_MIPS32_R1 ++ select SYS_HAS_CPU_MIPS32_R2 ++ select SYS_SUPPORTS_BIG_ENDIAN ++ select SYS_SUPPORTS_32BIT_KERNEL ++ select SYS_SUPPORTS_MIPS16 ++ select SYS_HAS_EARLY_PRINTK ++ select SYS_HAS_EARLY_PRINTK_8250 ++ select USE_GENERIC_EARLY_PRINTK_8250 ++ select BOOT_RAW ++ select PINCTRL ++ select ARCH_HAS_RESET_CONTROLLER ++ select RESET_CONTROLLER ++ select USE_OF ++ + config SGI_IP22 + bool "SGI IP22 (Indy/Indigo2)" + select FW_ARC diff --git a/target/linux/realtek/patches-5.10/301-gpio-add-rtl838x-driver.patch b/target/linux/realtek/patches-5.10/301-gpio-add-rtl838x-driver.patch new file mode 100644 index 0000000000..4f5901d87f --- /dev/null +++ b/target/linux/realtek/patches-5.10/301-gpio-add-rtl838x-driver.patch @@ -0,0 +1,32 @@ +--- a/drivers/gpio/Kconfig ++++ b/drivers/gpio/Kconfig +@@ -441,6 +441,18 @@ config GPIO_REG + A 32-bit single register GPIO fixed in/out implementation. This + can be used to represent any register as a set of GPIO signals. + ++config GPIO_RTL8231 ++ tristate "RTL8231 GPIO" ++ depends on GPIO_RTL838X ++ help ++ Say yes here to support Realtek RTL8231 GPIO expansion chips. ++ ++config GPIO_RTL838X ++ tristate "RTL838X GPIO" ++ depends on RTL838X ++ help ++ Say yes here to support RTL838X GPIO devices. ++ + config GPIO_SAMA5D2_PIOBU + tristate "SAMA5D2 PIOBU GPIO support" + depends on MFD_SYSCON +--- a/drivers/gpio/Makefile ++++ b/drivers/gpio/Makefile +@@ -117,6 +117,8 @@ obj-$(CONFIG_GPIO_RC5T583) += gpio-rc5t + obj-$(CONFIG_GPIO_RCAR) += gpio-rcar.o + obj-$(CONFIG_GPIO_RDC321X) += gpio-rdc321x.o + obj-$(CONFIG_GPIO_REG) += gpio-reg.o ++obj-$(CONFIG_GPIO_RTL8231) += gpio-rtl8231.o ++obj-$(CONFIG_GPIO_RTL838X) += gpio-rtl838x.o + obj-$(CONFIG_ARCH_SA1100) += gpio-sa1100.o + obj-$(CONFIG_GPIO_SAMA5D2_PIOBU) += gpio-sama5d2-piobu.o + obj-$(CONFIG_GPIO_SCH311X) += gpio-sch311x.o diff --git a/target/linux/realtek/patches-5.10/302-clocksource-add-rtl9300-driver.patch b/target/linux/realtek/patches-5.10/302-clocksource-add-rtl9300-driver.patch new file mode 100644 index 0000000000..1c41db75b2 --- /dev/null +++ b/target/linux/realtek/patches-5.10/302-clocksource-add-rtl9300-driver.patch @@ -0,0 +1,34 @@ +--- a/drivers/clocksource/Kconfig ++++ b/drivers/clocksource/Kconfig +@@ -127,6 +127,15 @@ config RDA_TIMER + help + Enables the support for the RDA Micro timer driver. + ++config RTL9300_TIMER ++ bool "Clocksource/timer for the Realtek RTL9300 family of SoCs" ++ depends on MIPS ++ select COMMON_CLK ++ select TIMER_OF ++ select CLKSRC_MMIO ++ help ++ Enables support for the Realtek RTL9300 timer driver. ++ + config SUN4I_TIMER + bool "Sun4i timer driver" if COMPILE_TEST + depends on HAS_IOMEM +@@ -696,5 +705,4 @@ config INGENIC_TIMER + select IRQ_DOMAIN + help + Support for the timer/counter unit of the Ingenic JZ SoCs. +- + endmenu +--- a/drivers/clocksource/Makefile ++++ b/drivers/clocksource/Makefile +@@ -61,6 +61,7 @@ obj-$(CONFIG_MILBEAUT_TIMER) += timer-mi + obj-$(CONFIG_SPRD_TIMER) += timer-sprd.o + obj-$(CONFIG_NPCM7XX_TIMER) += timer-npcm7xx.o + obj-$(CONFIG_RDA_TIMER) += timer-rda.o ++obj-$(CONFIG_RTL9300_TIMER) += timer-rtl9300.o + + obj-$(CONFIG_ARC_TIMERS) += arc_timer.o + obj-$(CONFIG_ARM_ARCH_TIMER) += arm_arch_timer.o diff --git a/target/linux/realtek/patches-5.10/400-mtd-add-rtl838x-spi-flash-driver.patch b/target/linux/realtek/patches-5.10/400-mtd-add-rtl838x-spi-flash-driver.patch new file mode 100644 index 0000000000..16cff75308 --- /dev/null +++ b/target/linux/realtek/patches-5.10/400-mtd-add-rtl838x-spi-flash-driver.patch @@ -0,0 +1,23 @@ +--- a/drivers/mtd/spi-nor/Kconfig ++++ b/drivers/mtd/spi-nor/Kconfig +@@ -118,4 +118,13 @@ config SPI_INTEL_SPI_PLATFORM + To compile this driver as a module, choose M here: the module + will be called intel-spi-platform. + ++config SPI_RTL838X ++ tristate "Realtek RTl838X SPI flash platform driver" ++ depends on RTL838X ++ help ++ This driver provides support for accessing SPI flash ++ in the RTL838X SoC. ++ ++ Say N here unless you know what you are doing. ++ + endif # MTD_SPI_NOR +--- a/drivers/mtd/spi-nor/Makefile ++++ b/drivers/mtd/spi-nor/Makefile +@@ -8,3 +8,4 @@ obj-$(CONFIG_SPI_NXP_SPIFI) += nxp-spifi + obj-$(CONFIG_SPI_INTEL_SPI) += intel-spi.o + obj-$(CONFIG_SPI_INTEL_SPI_PCI) += intel-spi-pci.o + obj-$(CONFIG_SPI_INTEL_SPI_PLATFORM) += intel-spi-platform.o ++obj-$(CONFIG_SPI_RTL838X) += rtl838x-nor.o diff --git a/target/linux/realtek/patches-5.10/700-net-dsa-add-support-for-rtl838x-switch.patch b/target/linux/realtek/patches-5.10/700-net-dsa-add-support-for-rtl838x-switch.patch new file mode 100644 index 0000000000..bb6f83e55d --- /dev/null +++ b/target/linux/realtek/patches-5.10/700-net-dsa-add-support-for-rtl838x-switch.patch @@ -0,0 +1,18 @@ +--- a/drivers/net/dsa/Kconfig ++++ b/drivers/net/dsa/Kconfig +@@ -63,6 +63,8 @@ config NET_DSA_QCA8K + This enables support for the Qualcomm Atheros QCA8K Ethernet + switch chips. + ++source "drivers/net/dsa/rtl83xx/Kconfig" ++ + config NET_DSA_REALTEK_SMI + tristate "Realtek SMI Ethernet switch family support" + depends on NET_DSA +--- a/drivers/net/dsa/Makefile ++++ b/drivers/net/dsa/Makefile +@@ -21,3 +21,4 @@ obj-y += b53/ + obj-y += microchip/ + obj-y += mv88e6xxx/ + obj-y += sja1105/ ++obj-y += rtl83xx/ diff --git a/target/linux/realtek/patches-5.10/701-net-dsa-add-rtl838x-support-for-tag-trailer.patch b/target/linux/realtek/patches-5.10/701-net-dsa-add-rtl838x-support-for-tag-trailer.patch new file mode 100644 index 0000000000..803614e7c0 --- /dev/null +++ b/target/linux/realtek/patches-5.10/701-net-dsa-add-rtl838x-support-for-tag-trailer.patch @@ -0,0 +1,40 @@ +--- a/net/dsa/tag_trailer.c ++++ b/net/dsa/tag_trailer.c +@@ -44,7 +44,12 @@ static struct sk_buff *trailer_xmit(stru + + trailer = skb_put(nskb, 4); + trailer[0] = 0x80; ++ ++#ifdef CONFIG_NET_DSA_RTL83XX ++ trailer[1] = dp->index; ++#else + trailer[1] = 1 << dp->index; ++#endif /* CONFIG_NET_DSA_RTL838X */ + trailer[2] = 0x10; + trailer[3] = 0x00; + +@@ -61,12 +66,23 @@ static struct sk_buff *trailer_rcv(struc + return NULL; + + trailer = skb_tail_pointer(skb) - 4; ++ ++#ifdef CONFIG_NET_DSA_RTL83XX ++ if (trailer[0] != 0x80 || (trailer[1] & 0x80) != 0x00 || ++ (trailer[2] & 0xef) != 0x00 || trailer[3] != 0x00) ++ return NULL; ++ ++ if (trailer[1] & 0x40) ++ skb->offload_fwd_mark = 1; ++ ++ source_port = trailer[1] & 0x3f; ++#else + if (trailer[0] != 0x80 || (trailer[1] & 0xf8) != 0x00 || + (trailer[2] & 0xef) != 0x00 || trailer[3] != 0x00) + return NULL; + + source_port = trailer[1] & 7; +- ++#endif + skb->dev = dsa_master_find_slave(dev, 0, source_port); + if (!skb->dev) + return NULL; diff --git a/target/linux/realtek/patches-5.10/702-net-dsa-increase-dsa-max-ports-for-rtl838x.patch b/target/linux/realtek/patches-5.10/702-net-dsa-increase-dsa-max-ports-for-rtl838x.patch new file mode 100644 index 0000000000..929f2b9444 --- /dev/null +++ b/target/linux/realtek/patches-5.10/702-net-dsa-increase-dsa-max-ports-for-rtl838x.patch @@ -0,0 +1,11 @@ +--- a/include/linux/platform_data/dsa.h ++++ b/include/linux/platform_data/dsa.h +@@ -6,7 +6,7 @@ struct device; + struct net_device; + + #define DSA_MAX_SWITCHES 4 +-#define DSA_MAX_PORTS 12 ++#define DSA_MAX_PORTS 54 + #define DSA_RTABLE_NONE -1 + + struct dsa_chip_data { diff --git a/target/linux/realtek/patches-5.10/702-net-ethernet-add-support-for-rtl838x-ethernet.patch b/target/linux/realtek/patches-5.10/702-net-ethernet-add-support-for-rtl838x-ethernet.patch new file mode 100644 index 0000000000..11e62450d5 --- /dev/null +++ b/target/linux/realtek/patches-5.10/702-net-ethernet-add-support-for-rtl838x-ethernet.patch @@ -0,0 +1,26 @@ +--- a/drivers/net/ethernet/Kconfig ++++ b/drivers/net/ethernet/Kconfig +@@ -163,6 +163,13 @@ source "drivers/net/ethernet/rdc/Kconfig + source "drivers/net/ethernet/realtek/Kconfig" + source "drivers/net/ethernet/renesas/Kconfig" + source "drivers/net/ethernet/rocker/Kconfig" ++ ++config NET_RTL838X ++ tristate "Realtek rtl838x Ethernet MAC support" ++ depends on RTL838X ++ ---help--- ++ Say Y here if you want to use the Realtek rtl838x Gbps Ethernet MAC. ++ + source "drivers/net/ethernet/samsung/Kconfig" + source "drivers/net/ethernet/seeq/Kconfig" + source "drivers/net/ethernet/sfc/Kconfig" +--- a/drivers/net/ethernet/Makefile ++++ b/drivers/net/ethernet/Makefile +@@ -76,6 +76,7 @@ obj-$(CONFIG_NET_VENDOR_REALTEK) += real + obj-$(CONFIG_NET_VENDOR_RENESAS) += renesas/ + obj-$(CONFIG_NET_VENDOR_RDC) += rdc/ + obj-$(CONFIG_NET_VENDOR_ROCKER) += rocker/ ++obj-$(CONFIG_NET_RTL838X) += rtl838x_eth.o + obj-$(CONFIG_NET_VENDOR_SAMSUNG) += samsung/ + obj-$(CONFIG_NET_VENDOR_SEEQ) += seeq/ + obj-$(CONFIG_NET_VENDOR_SILAN) += silan/ diff --git a/target/linux/realtek/patches-5.10/703-include-linux-add-phy-ops-for-rtl838x.patch b/target/linux/realtek/patches-5.10/703-include-linux-add-phy-ops-for-rtl838x.patch new file mode 100644 index 0000000000..3682eb30a3 --- /dev/null +++ b/target/linux/realtek/patches-5.10/703-include-linux-add-phy-ops-for-rtl838x.patch @@ -0,0 +1,13 @@ +--- a/include/linux/phy.h ++++ b/include/linux/phy.h +@@ -645,6 +645,10 @@ struct phy_driver { + struct ethtool_tunable *tuna, + const void *data); + int (*set_loopback)(struct phy_device *dev, bool enable); ++ int (*get_port)(struct phy_device *dev); ++ int (*set_port)(struct phy_device *dev, int port); ++ int (*get_eee)(struct phy_device *dev, struct ethtool_eee *e); ++ int (*set_eee)(struct phy_device *dev, struct ethtool_eee *e); + }; + #define to_phy_driver(d) container_of(to_mdio_common_driver(d), \ + struct phy_driver, mdiodrv) diff --git a/target/linux/realtek/patches-5.10/704-drivers-net-phy-eee-support-for-rtl838x.patch b/target/linux/realtek/patches-5.10/704-drivers-net-phy-eee-support-for-rtl838x.patch new file mode 100644 index 0000000000..7743147ea3 --- /dev/null +++ b/target/linux/realtek/patches-5.10/704-drivers-net-phy-eee-support-for-rtl838x.patch @@ -0,0 +1,41 @@ +--- a/drivers/net/phy/phylink.c ++++ b/drivers/net/phy/phylink.c +@@ -1242,6 +1242,11 @@ int phylink_ethtool_ksettings_set(struct + + /* If we have a PHY, configure the phy */ + if (pl->phydev) { ++ if (pl->phydev->drv->get_port && pl->phydev->drv->set_port) { ++ if(pl->phydev->drv->get_port(pl->phydev) != kset->base.port) { ++ pl->phydev->drv->set_port(pl->phydev, kset->base.port); ++ } ++ } + ret = phy_ethtool_ksettings_set(pl->phydev, &our_kset); + if (ret) + return ret; +@@ -1420,8 +1425,11 @@ int phylink_ethtool_get_eee(struct phyli + + ASSERT_RTNL(); + +- if (pl->phydev) ++ if (pl->phydev) { ++ if (pl->phydev->drv->get_eee) ++ return pl->phydev->drv->get_eee(pl->phydev, eee); + ret = phy_ethtool_get_eee(pl->phydev, eee); ++ } + + return ret; + } +@@ -1438,9 +1446,11 @@ int phylink_ethtool_set_eee(struct phyli + + ASSERT_RTNL(); + +- if (pl->phydev) ++ if (pl->phydev) { ++ if (pl->phydev->drv->set_eee) ++ return pl->phydev->drv->set_eee(pl->phydev, eee); + ret = phy_ethtool_set_eee(pl->phydev, eee); +- ++ } + return ret; + } + EXPORT_SYMBOL_GPL(phylink_ethtool_set_eee); diff --git a/target/linux/realtek/patches-5.10/705-add-rtl-phy.patch b/target/linux/realtek/patches-5.10/705-add-rtl-phy.patch new file mode 100644 index 0000000000..f4cd8f2d6d --- /dev/null +++ b/target/linux/realtek/patches-5.10/705-add-rtl-phy.patch @@ -0,0 +1,25 @@ +--- a/drivers/net/phy/Kconfig ++++ b/drivers/net/phy/Kconfig +@@ -540,6 +540,12 @@ config REALTEK_PHY + ---help--- + Supports the Realtek 821x PHY. + ++config REALTEK_SOC_PHY ++ tristate "Realtek SoC PHYs" ++ depends on RTL838X ++ ---help--- ++ Supports the PHYs found in combination with Realtek Switch SoCs ++ + config RENESAS_PHY + tristate "Driver for Renesas PHYs" + ---help--- +--- a/drivers/net/phy/Makefile ++++ b/drivers/net/phy/Makefile +@@ -102,6 +102,7 @@ obj-$(CONFIG_NATIONAL_PHY) += national.o + obj-$(CONFIG_NXP_TJA11XX_PHY) += nxp-tja11xx.o + obj-$(CONFIG_QSEMI_PHY) += qsemi.o + obj-$(CONFIG_REALTEK_PHY) += realtek.o ++obj-$(CONFIG_REALTEK_SOC_PHY) += rtl83xx-phy.o + obj-$(CONFIG_RENESAS_PHY) += uPD60620.o + obj-$(CONFIG_ROCKCHIP_PHY) += rockchip.o + obj-$(CONFIG_SMSC_PHY) += smsc.o diff --git a/target/linux/realtek/patches-5.10/705-include-linux-phy-increase-phy-address-number-for-rtl839x.patch b/target/linux/realtek/patches-5.10/705-include-linux-phy-increase-phy-address-number-for-rtl839x.patch new file mode 100644 index 0000000000..ca6deb74d8 --- /dev/null +++ b/target/linux/realtek/patches-5.10/705-include-linux-phy-increase-phy-address-number-for-rtl839x.patch @@ -0,0 +1,11 @@ +--- a/include/linux/phy.h ++++ b/include/linux/phy.h +@@ -188,7 +188,7 @@ static inline const char *phy_modes(phy_ + #define PHY_INIT_TIMEOUT 100000 + #define PHY_FORCE_TIMEOUT 10 + +-#define PHY_MAX_ADDR 32 ++#define PHY_MAX_ADDR 64 + + /* Used when trying to connect to a specific phy (mii bus id:phy device id) */ + #define PHY_ID_FMT "%s:%02x"