diff options
-rw-r--r-- | src/soc/sifive/fu540/include/soc/spi.h | 1 | ||||
-rw-r--r-- | src/soc/sifive/fu740/Kconfig | 63 | ||||
-rw-r--r-- | src/soc/sifive/fu740/Makefile.inc | 32 | ||||
-rw-r--r-- | src/soc/sifive/fu740/TODO | 51 | ||||
-rw-r--r-- | src/soc/sifive/fu740/cbmem.c | 13 | ||||
-rw-r--r-- | src/soc/sifive/fu740/chip.c | 17 | ||||
-rw-r--r-- | src/soc/sifive/fu740/clint.c | 21 | ||||
-rw-r--r-- | src/soc/sifive/fu740/clock.c | 448 | ||||
-rw-r--r-- | src/soc/sifive/fu740/ddrregs.c | 1496 | ||||
-rw-r--r-- | src/soc/sifive/fu740/gpio.c | 64 | ||||
-rw-r--r-- | src/soc/sifive/fu740/include/soc/addressmap.h | 41 | ||||
-rw-r--r-- | src/soc/sifive/fu740/include/soc/clock.h | 9 | ||||
-rw-r--r-- | src/soc/sifive/fu740/include/soc/gpio.h | 36 | ||||
-rw-r--r-- | src/soc/sifive/fu740/include/soc/otp.h | 11 | ||||
-rw-r--r-- | src/soc/sifive/fu740/include/soc/sdram.h | 12 | ||||
-rw-r--r-- | src/soc/sifive/fu740/include/soc/spi.h | 56 | ||||
-rw-r--r-- | src/soc/sifive/fu740/memlayout.ld | 26 | ||||
-rw-r--r-- | src/soc/sifive/fu740/otp.c | 90 | ||||
-rw-r--r-- | src/soc/sifive/fu740/sdram.c | 246 | ||||
-rw-r--r-- | src/soc/sifive/fu740/spi.c | 209 | ||||
-rw-r--r-- | src/soc/sifive/fu740/spi_internal.h | 227 | ||||
-rw-r--r-- | src/soc/sifive/fu740/uart.c | 21 |
22 files changed, 3190 insertions, 0 deletions
diff --git a/src/soc/sifive/fu540/include/soc/spi.h b/src/soc/sifive/fu540/include/soc/spi.h index 3be5baf5cf..1399620884 100644 --- a/src/soc/sifive/fu540/include/soc/spi.h +++ b/src/soc/sifive/fu540/include/soc/spi.h @@ -2,6 +2,7 @@ #ifndef __SOC_SIFIVE_HIFIVE_U_SPI_H__ #define __SOC_SIFIVE_HIFIVE_U_SPI_H__ + #include <spi-generic.h> /* Data Pins: MOSI MISO */ diff --git a/src/soc/sifive/fu740/Kconfig b/src/soc/sifive/fu740/Kconfig new file mode 100644 index 0000000000..0c62e1e821 --- /dev/null +++ b/src/soc/sifive/fu740/Kconfig @@ -0,0 +1,63 @@ +# SPDX-License-Identifier: GPL-2.0-only + +config SOC_SIFIVE_FU740 + bool + select ARCH_RISCV_RV64 + select ARCH_RISCV_S + select ARCH_RISCV_U + select ARCH_RISCV_PMP + select ARCH_BOOTBLOCK_RISCV + select ARCH_VERSTAGE_RISCV + select ARCH_ROMSTAGE_RISCV + select ARCH_RAMSTAGE_RISCV + select DRIVERS_UART_SIFIVE + select RISCV_USE_ARCH_TIMER + select UART_OVERRIDE_REFCLK + select RISCV_HAS_OPENSBI + +config SEPARATE_ROMSTAGE + default n if SOC_SIFIVE_FU740 + +if SOC_SIFIVE_FU740 + +config MEMLAYOUT_LD_FILE + string + default "src/soc/sifive/fu740/memlayout.ld" + +config RISCV_ARCH + string + default "rv64imac" + +config RISCV_ABI + string + default "lp64" + +config RISCV_CODEMODEL + string + default "medany" + +# 4x U7 cores (RV64IMAFDC) + 1x S7 core (RV64IMAC) +config MAX_CPUS + int + default 5 + +config RISCV_WORKING_HARTID + int + default 1 # use U7 core as S7 core does not support supervisor mode + +config OPENSBI_PLATFORM + string + default "generic" + +config OPENSBI_TEXT_START + hex + default 0x80000000 + +config OPENSBI_FW_DYNAMIC_BOOT_HART + int + default 1 + help + Choose the first U74 core as boot hart since + hart 0 is the S7 which does not support Supervisor mode + +endif diff --git a/src/soc/sifive/fu740/Makefile.inc b/src/soc/sifive/fu740/Makefile.inc new file mode 100644 index 0000000000..86c90dfb77 --- /dev/null +++ b/src/soc/sifive/fu740/Makefile.inc @@ -0,0 +1,32 @@ +# SPDX-License-Identifier: GPL-2.0-only + +ifeq ($(CONFIG_SOC_SIFIVE_FU740),y) + +CPPFLAGS_common += -Isrc/soc/sifive/fu740/include + +bootblock-y += uart.c +bootblock-y += clint.c +bootblock-y += spi.c +bootblock-y += sdram.c +bootblock-y += cbmem.c +bootblock-y += otp.c +bootblock-y += clock.c +bootblock-y += ddrregs.c +bootblock-y += chip.c +bootblock-y += gpio.c + + +ramstage-y += uart.c +ramstage-y += clint.c +ramstage-y += spi.c +ramstage-y += sdram.c +ramstage-y += cbmem.c +ramstage-y += otp.c +ramstage-y += clock.c +ramstage-y += chip.c + +$(objcbfs)/bootblock.bin: $(objcbfs)/bootblock.raw.bin + @printf " GPT $(notdir $(@))\n" + @util/riscv/sifive-gpt.py $< $@ + +endif diff --git a/src/soc/sifive/fu740/TODO b/src/soc/sifive/fu740/TODO new file mode 100644 index 0000000000..6e38653182 --- /dev/null +++ b/src/soc/sifive/fu740/TODO @@ -0,0 +1,51 @@ +1. refactor SPI code. It works but there are quite some TODO left and it also currently only supports 1 MSEL configuration +2. sometimes PCIe is not working with the following error message in Linux: +[ 0.619711] shpchp: Standard Hot Plug PCI Controller Driver version: 0.4 +[ 0.621521] fu740-pcie e00000000.pcie: host bridge /soc/pcie@e00000000 ranges: +[ 0.621603] fu740-pcie e00000000.pcie: IO 0x0060080000..0x006008ffff -> 0x0060080000 +[ 0.621659] fu740-pcie e00000000.pcie: MEM 0x0060090000..0x007fffffff -> 0x0060090000 +[ 0.621685] fu740-pcie e00000000.pcie: MEM 0x2000000000..0x3fffffffff -> 0x2000000000 +[ 0.727890] fu740-pcie e00000000.pcie: iATU: unroll T, 8 ob, 8 ib, align 4K, limit 4096G +[ 0.828041] fu740-pcie e00000000.pcie: PCIe Gen.1 x8 link up +[ 1.828944] fu740-pcie e00000000.pcie: Phy link never came up +[ 1.828961] fu740-pcie e00000000.pcie: error: link did not start at new speed +[ 1.829142] ------------[ cut here ]------------ +[ 1.829152] WARNING: CPU: 2 PID: 1 at drivers/pci/controller/dwc/pcie-fu740.c:232 fu740_pcie_start_link+0x1b4/0x1ce +[ 1.829191] Modules linked in: +[ 1.829205] CPU: 2 PID: 1 Comm: swapper/0 Not tainted 6.5.0-9-generic #9.1-Ubuntu +[ 1.829215] Hardware name: SiFive HiFive Unmatched A00 (DT) +[ 1.829221] epc : fu740_pcie_start_link+0x1b4/0x1ce +[ 1.829234] ra : fu740_pcie_start_link+0x1ca/0x1ce +[ 1.829247] epc : ffffffff806fa1ac ra : ffffffff806fa1c2 sp : ffffffc800023b30 +[ 1.829256] gp : ffffffff822602d8 tp : ffffffd88027b600 t0 : ffffffff82029670 +[ 1.829263] t1 : 0000000000000000 t2 : 0000000000000000 s0 : ffffffc800023b70 +[ 1.829270] s1 : ffffffd88095d840 a0 : 0000000000000000 a1 : 0000000000000000 +[ 1.829276] a2 : 0000000000000000 a3 : 0000000000000000 a4 : 0000000000000000 +[ 1.829282] a5 : 0000000000000000 a6 : 0000000000000000 a7 : 0000000000000000 +[ 1.829288] s2 : ffffffffffffff92 s3 : 0000000000716c81 s4 : ffffffd8802b2c10 +[ 1.829295] s5 : 0000000000000003 s6 : ffffffffffffff92 s7 : ffffffff8108b448 +[ 1.829301] s8 : 0000000000000008 s9 : ffffffff80e00106 s10: 0000000000000000 +[ 1.829307] s11: 0000000000000000 t3 : 0000000000000000 t4 : 0000000000000000 +[ 1.829313] t5 : 0000000000000000 t6 : 0000000000000000 +[ 1.829317] status: 0000000200000120 badaddr: ffffffffffffff92 cause: 0000000000000003 +[ 1.829326] [<ffffffff806fa1ac>] fu740_pcie_start_link+0x1b4/0x1ce +[ 1.829341] [<ffffffff806f8692>] dw_pcie_host_init+0x21e/0x2cc +[ 1.829355] [<ffffffff806fa2ca>] fu740_pcie_probe+0x104/0x15a +[ 1.829366] [<ffffffff8083e510>] platform_probe+0x5e/0xc6 +[ 1.829388] [<ffffffff8083a7b4>] call_driver_probe+0x22/0x142 +[ 1.829400] [<ffffffff8083b36e>] really_probe+0x9a/0x2a2 +[ 1.829413] [<ffffffff8083b5f4>] __driver_probe_device+0x7e/0x146 +[ 1.829425] [<ffffffff8083b6f4>] driver_probe_device+0x38/0xd0 +[ 1.829436] [<ffffffff8083b966>] __driver_attach+0xee/0x1e8 +[ 1.829448] [<ffffffff80838e78>] bus_for_each_dev+0x6c/0xc4 +[ 1.829460] [<ffffffff8083acbe>] driver_attach+0x26/0x34 +[ 1.829471] [<ffffffff8083a1fe>] bus_add_driver+0x112/0x21e +[ 1.829483] [<ffffffff8083cb12>] driver_register+0x52/0x106 +[ 1.829497] [<ffffffff8083e0b6>] __platform_driver_register+0x28/0x34 +[ 1.829511] [<ffffffff80e3322e>] fu740_pcie_driver_init+0x22/0x2c +[ 1.829528] [<ffffffff80002962>] do_one_initcall+0x5c/0x1e2 +[ 1.829542] [<ffffffff80e01836>] kernel_init_freeable+0x286/0x300 +[ 1.829560] [<ffffffff80ce5b40>] kernel_init+0x2a/0x16e +[ 1.829584] [<ffffffff80003f82>] ret_from_fork+0xe/0x20 +[ 1.829597] ---[ end trace 0000000000000000 ]--- +[ 1.829635] fu740-pcie: probe of e00000000.pcie failed with error -110 diff --git a/src/soc/sifive/fu740/cbmem.c b/src/soc/sifive/fu740/cbmem.c new file mode 100644 index 0000000000..e3ccf3ae75 --- /dev/null +++ b/src/soc/sifive/fu740/cbmem.c @@ -0,0 +1,13 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <cbmem.h> +#include <commonlib/helpers.h> +#include <soc/addressmap.h> +#include <soc/sdram.h> +#include <symbols.h> + +uintptr_t cbmem_top_chipset(void) +{ +#define FU740_MAXDRAM 0x800000000ULL // 32 GiB + return MIN((uintptr_t)FU740_DRAM + sdram_size(), FU740_MAXDRAM); +} diff --git a/src/soc/sifive/fu740/chip.c b/src/soc/sifive/fu740/chip.c new file mode 100644 index 0000000000..cd5052be1a --- /dev/null +++ b/src/soc/sifive/fu740/chip.c @@ -0,0 +1,17 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <cbmem.h> +#include <device/device.h> +#include <soc/addressmap.h> +#include <symbols.h> + +static void fu740_init(struct device *dev) +{ + int index = 0; + ram_from_to(dev, index++, FU740_DRAM, (uintptr_t)cbmem_top()); +} + +struct chip_operations soc_sifive_fu740_ops = { + .name = "SIFIVE FU740", + .enable_dev = fu740_init, +}; diff --git a/src/soc/sifive/fu740/clint.c b/src/soc/sifive/fu740/clint.c new file mode 100644 index 0000000000..818b62821d --- /dev/null +++ b/src/soc/sifive/fu740/clint.c @@ -0,0 +1,21 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <mcall.h> +#include <stdint.h> +#include <device/mmio.h> +#include <soc/addressmap.h> + +#define CLINT_MTIME 0xBFF8 +#define CLINT_MTIMECMP 0x4000 + +void mtime_init(void) +{ + long hart_id = read_csr(mhartid); + HLS()->time = (uint64_t *)(FU740_CLINT + CLINT_MTIME); + HLS()->timecmp = (uint64_t *)(FU740_CLINT + CLINT_MTIMECMP + 8 * hart_id); +} + +void set_msip(int hartid, int val) +{ + write32((void *)(FU740_CLINT + 4 * (uintptr_t)hartid), !!val); +} diff --git a/src/soc/sifive/fu740/clock.c b/src/soc/sifive/fu740/clock.c new file mode 100644 index 0000000000..419a0e2936 --- /dev/null +++ b/src/soc/sifive/fu740/clock.c @@ -0,0 +1,448 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +// This file is used for setting up clocks and get devices out of reset +// For more Information see FU740-C000 Manual Chapter 7 Clocking and Reset + +#include <console/console.h> +#include <delay.h> +#include <device/mmio.h> +#include <soc/addressmap.h> +#include <soc/clock.h> +#include <soc/gpio.h> +#include <gpio.h> +#include <stdint.h> + +// Clock frequencies for the cores, ddr and the peripherals are all derived from the hfclk (high frequency clock) and it is always 26 MHz +#define FU740_HFCLK_FREQ (26 * MHz) + +struct prci_ctlr { + u32 hfxosccfg; // offset 0x00 + u32 core_pllcfg; // offset 0x04 + u32 core_plloutdiv; // offset 0x08 + u32 ddr_pllcfg; // offset 0x0c + u32 ddr_plloutdiv; // offset 0x10 + u32 pcieaux_plloutdiv; // offset 0x14 (undocumented) + u32 reserved18; // offset 0x18 + u32 gemgxl_pllcfg; // offset 0x1c + u32 gemgxl_plloutdiv; // offset 0x20 + u32 core_clk_sel_reg; // offset 0x24 + u32 devices_reset_n; // offset 0x28 + u32 clk_mux_status; // offset 0x2C + u32 cltx_pllcfg; // offset 0x30 chiplink (undocumented) + u32 cltx_plloutdiv; // offset 0x34 chiplink (undocumented) + u32 dvfs_core_pllcfg; // offset 0x38 + u32 dvfs_core_plloutdiv; // offset 0x3C + u32 corepllsel; // offset 0x40 (undocumented, but probably same as last gen) + u8 reserved44[12]; // offset 0x44 + u32 hfpclk_pllcfg; // offset 0x50 + u32 hfpclk_plloutdiv; // offset 0x54 + u32 hfpclkpllsel; // offset 0x58 (undocumented, but probably same as last gen) + u32 hfpclk_div_reg; // offset 0x5C + u8 reserved60[128]; // offset 0x60 + u32 prci_plls; // offset 0xE0 + u8 reservedE4[12]; // offset 0xE4 + u32 procmoncfg_core_clock; // offset 0xF0 (undocumented) +} __packed; + +static struct prci_ctlr *prci = (void *)FU740_PRCI; + +// ================================= +// clock selections +// ================================= + +#define PRCI_COREPLLSEL_MASK 1 +#define PRCI_COREPLLSEL_COREPLL 0 +#define PRCI_COREPLLSEL_DVFSCOREPLL 1 + +#define PRCI_CORECLKSEL_MASK 1 +#define PRCI_CORECLKSEL_CORECLKPLL 0 +#define PRCI_CORECLKSEL_HFCLK 1 + +#define PRCI_HFPCLKSEL_MASK 1 +#define PRCI_HFPCLKSEL_PLL 0 +#define PRCI_HFPCLKSEL_HFCLK 1 + +// =================================== +// pllcfg register format is used by all PLLs +// =================================== + +#define PRCI_PLLCFG_DIVR_SHIFT 0 +#define PRCI_PLLCFG_DIVF_SHIFT 6 +#define PRCI_PLLCFG_DIVQ_SHIFT 15 +#define PRCI_PLLCFG_RANGE_SHIFT 18 +#define PRCI_PLLCFG_BYPASS_SHIFT 24 +#define PRCI_PLLCFG_FSEBYPASS_SHIFT 25 +#define PRCI_PLLCFG_LOCK_SHIFT 31 + +#define PRCI_PLLCFG_DIVR_MASK (0x03f << PRCI_PLLCFG_DIVR_SHIFT) +#define PRCI_PLLCFG_DIVF_MASK (0x1ff << PRCI_PLLCFG_DIVF_SHIFT) +#define PRCI_PLLCFG_DIVQ_MASK (0x007 << PRCI_PLLCFG_DIVQ_SHIFT) +#define PRCI_PLLCFG_RANGE_MASK (0x007 << PRCI_PLLCFG_RANGE_SHIFT) +#define PRCI_PLLCFG_BYPASS_MASK (0x001 << PRCI_PLLCFG_BYPASS_SHIFT) +#define PRCI_PLLCFG_FSEBYPASS_MASK (0x001 << PRCI_PLLCFG_FSEBYPASS_SHIFT) +#define PRCI_PLLCFG_LOCK_MASK (0x001 << PRCI_PLLCFG_LOCK_SHIFT) + +// =================================== +// plloutdiv register formats +// =================================== + +// registered are used to enable/disable PLLs +#define PRCI_DVFSCORE_PLLOUTDIV_MASK (1 << 24) // Note: u-boot and fu740 manual differ here ... +#define PRCI_HFPCLK_PLLOUTDIV_MASK (1 << 31) // Note: according to u-boot it is (1 << 24) but if I use that it gets stuck +#define PRCI_DDR_PLLOUTDIV_MASK (1 << 31) +#define PRCI_GEMGXL_PLLOUTDIV_MASK (1 << 31) +#define PRCI_CLTX_PLLOUTDIV_MASK (1 << 24) // undocumented (chiplink tx) +#define PRCI_PCIEAUX_PLLOUTDIV_MASK (1 << 0) // undocumented +#define PRCI_CORE_PLLOUTDIV_MASK (1 << 31) // undocumented + +// =================================== +// devicereset register formats +// =================================== + +// used to get devices in or out of reset +#define PRCI_DEVICES_RESET_DDR_CTRL_RST (1 << 0) // DDR Controller +#define PRCI_DEVICES_RESET_DDR_AXI_RST (1 << 1) // DDR Controller AXI Interface +#define PRCI_DEVICES_RESET_DDR_AHB_RST (1 << 2) // DDR Controller AHB Interface +#define PRCI_DEVICES_RESET_DDR_PHY_RST (1 << 3) // DDR PHY +#define PRCI_DEVICES_RESET_PCIEAUX_RST (1 << 4) +#define PRCI_DEVICES_RESET_GEMGXL_RST (1 << 5) // Gigabit Ethernet Subsystem +#define PRCI_DEVICES_RESET_CLTX_RST (1 << 6) // chiplink reset (undocumented) + +// =================================== +// prci_plls register format +// =================================== + +// used to check if certain PLLs are present in the SOC +#define PRCI_PLLS_CLTXPLL (1 << 0) +#define PRCI_PLLS_GEMGXLPLL (1 << 1) +#define PRCI_PLLS_DDRPLL (1 << 2) +#define PRCI_PLLS_HFPCLKPLL (1 << 3) +#define PRCI_PLLS_DVFSCOREPLL (1 << 4) +#define PRCI_PLLS_COREPLL (1 << 5) + +// =================================== +// clk_mux_status register format +// =================================== + +// read only register which is used to set some clock multiplex settings +// the value of this register depends on the state of pins connected to the FU740 SOC +// on the hifive-unmatched board the state of the pins is set by a hardware switch +#define PRCI_CLK_MUX_STATUS_CORECLKPLLSEL (1 << 0) + // 0 - HFCLK or CORECLK + // 1 - only HFCLK +#define PRCI_CLK_MUX_STATUS_TLCLKSEL (1 << 1) + // 0 - CORECLK/2 + // 1 - CORECLK +#define PRCI_CLK_MUX_STATUS_RTCXSEL (1 << 2) + // 0 - use HFXCLK for RTC + // 1 - use RTCXALTCLKIN for RTC +#define PRCI_CLK_MUX_STATUS_DDRCTRLCLKSEL (1 << 3) +#define PRCI_CLK_MUX_STATUS_DDRPHYCLKSEL (1 << 4) +#define PRCI_CLK_MUX_STATUS_RESERVED (1 << 5) +#define PRCI_CLK_MUX_STATUS_GEMGXLCLKSEL (1 << 6) +#define PRCI_CLK_MUX_STATUS_MAINMEMCLKSEL (1 << 7) + +// =================================== +// hfxosccfg register format +// =================================== + +#define PRCI_HFXOSCCFG_HFXOSEN (1 << 30) // Crystal oscillator enable + // Note: I guess (it is not documented) + // 0 - XTAL PADS + // 1 - OSC PADS +#define PRCI_HFXOSCCFG_HFXOSCRDY (1 << 31) // Crystal oscillator ready + +struct pll_settings { + unsigned int divr:6; // divider before PLL loop (reference), equal to divr + 1 + unsigned int divf:9; // VCO feedback divider value, equal to 2 * (divf + 1) + unsigned int divq:3; // divider after PLL loop, equal to 2^divq + // PLL filter range (TODO documentation is not really clear on how to set it) + unsigned int range:3; + unsigned int bypass:1; // probably used to bypass the PLL + // internal or external input path (internal = 1, external = 0) + //WARN this is only a guess since it is undocumented + unsigned int fsebypass:1; +}; + +static void configure_pll(u32 *reg, const struct pll_settings *s) +{ + // Write the settings to the register + u32 c = read32(reg); + clrsetbits32(&c, PRCI_PLLCFG_DIVR_MASK + | PRCI_PLLCFG_DIVF_MASK + | PRCI_PLLCFG_DIVQ_MASK + | PRCI_PLLCFG_RANGE_MASK + | PRCI_PLLCFG_BYPASS_MASK + | PRCI_PLLCFG_FSEBYPASS_MASK, + (s->divr << PRCI_PLLCFG_DIVR_SHIFT) + | (s->divf << PRCI_PLLCFG_DIVF_SHIFT) + | (s->divq << PRCI_PLLCFG_DIVQ_SHIFT) + | (s->range << PRCI_PLLCFG_RANGE_SHIFT) + | (s->bypass << PRCI_PLLCFG_BYPASS_SHIFT) + | (s->fsebypass << PRCI_PLLCFG_FSEBYPASS_SHIFT)); + write32(reg, c); + + // Wait for PLL lock + while (!(read32(reg) & PRCI_PLLCFG_LOCK_MASK)) + ; +} + +/* + * Section 7.1 recommends a frequency of 1.0 GHz (up to 1.5 GHz is possible) + * Section 7.4.2 provides the necessary values + * + * COREPLL is set up for ~1 GHz output frequency. + * divr = 0 (x1), divf = 76 (x154) => (4004 MHz VCO), divq = 2 (/4 Output divider) + */ +static const struct pll_settings corepll_settings = { + .divr = 0, + .divf = 76, + .divq = 2, + .range = 4, + .bypass = 0, + .fsebypass = 1, // external feedback mode is not supported +}; + +/* + * Section 7.4.3: DDR and Ethernet Subsystem Clocking and Reset + * + * DDRPLL is set up for 933 MHz output frequency. + * divr = 0 (x1), divf = 71 (x144) => (3744 MHz VCO), divq = 2 (/4 output divider) + */ +static const struct pll_settings ddrpll_settings = { + .divr = 0, + .divf = 71, + .divq = 2, + .range = 4, + .bypass = 0, + .fsebypass = 1, // external feedback mode is not supported +}; + +/* + * GEMGXLPLL is set up for 125 MHz output frequency. + * divr = 0 (x1), divf = 76 (x154) => (4004 MHz VCO), divq = 5 (/32 output divider) + */ +static const struct pll_settings gemgxlpll_settings = { + .divr = 0, + .divf = 76, + .divq = 5, + .range = 4, + .bypass = 0, + .fsebypass = 1, // external feedback mode is not supported +}; + +/* + * HFPCLKPLL is set up for 520 MHz output frequency. + * TODO a lower value should also suffice as well as safe some power + * divr = 1 (/2), divf = 39 (x80) => (2080 MHz VCO), divq = 2 (/4 output divider) + */ +static const struct pll_settings hfpclkpll_settings = { + .divr = 1, + //.divf = 122, + .divf = 39, + .divq = 2, + .range = 4, + .bypass = 0, + .fsebypass = 1, // external feedback mode is not supported +}; + +/* + * CLTXCLKPLL is set up for 520 MHz output frequency. + * divr = 1 (/2), divf = 122 (x154) => (4004 MHz VCO), divq = 2 (/4 output divider) + */ +static const struct pll_settings cltxpll_settings = { + .divr = 1, + .divf = 39, + .divq = 2, + .range = 4, + .bypass = 0, + .fsebypass = 1, // external feedback mode is not supported +}; + +static void init_coreclk(void) +{ + // we can't modify the coreclk PLL while we are running on it, so let coreclk devise + // its clock from hfclk before modifying PLL + clrsetbits32(&prci->core_clk_sel_reg, PRCI_CORECLKSEL_MASK, PRCI_CORECLKSEL_HFCLK); + + // only configure pll if it is present + if (!(read32(&prci->prci_plls) & PRCI_PLLS_COREPLL)) { + return; + } + + configure_pll(&prci->core_pllcfg, &corepll_settings); + + // switch coreclk multiplexer to use corepll as clock source again + clrsetbits32(&prci->core_clk_sel_reg, PRCI_CORECLKSEL_MASK, PRCI_CORECLKSEL_CORECLKPLL); +} + +static void init_ddrclk(void) +{ + // only configure pll if it is present + if (!(read32(&prci->prci_plls) & PRCI_PLLS_DDRPLL)) { + return; + } + + // disable ddr clock output before reconfiguring the PLL + u32 cfg1 = read32(&prci->ddr_plloutdiv); + clrbits32(&cfg1, PRCI_DDR_PLLOUTDIV_MASK); + write32(&prci->ddr_plloutdiv, cfg1); + + configure_pll(&prci->ddr_pllcfg, &ddrpll_settings); + + // PLL is ready/locked so enable it (its gated) + setbits32(&cfg1, PRCI_DDR_PLLOUTDIV_MASK); + write32(&prci->ddr_plloutdiv, cfg1); +} + +static void init_gemgxlclk(void) +{ + // only configure pll if it is present + if (!(read32(&prci->prci_plls) & PRCI_PLLS_GEMGXLPLL)) { + return; + } + + // disable gemgxl clock output before reconfiguring the PLL + u32 cfg1 = read32(&prci->gemgxl_plloutdiv); + clrbits32(&cfg1, PRCI_GEMGXL_PLLOUTDIV_MASK); + write32(&prci->gemgxl_plloutdiv, cfg1); + + configure_pll(&prci->gemgxl_pllcfg, &gemgxlpll_settings); + + // PLL is ready/locked so enable it (its gated) + setbits32(&cfg1, PRCI_GEMGXL_PLLOUTDIV_MASK); + write32(&prci->gemgxl_plloutdiv, cfg1); +} + +/* + * Configure High Frequency peripheral clock which is used by + * UART, SPI, GPIO, I2C and PWM subsystem + */ +static void init_hfpclk(void) +{ + // we can't modify the hfpclk PLL while we are running on it, so let pclk devise + // its clock from hfclk before modifying PLL + u32 hfpclksel = read32(&prci->hfpclkpllsel); + hfpclksel |= PRCI_HFPCLKSEL_HFCLK; + write32(&prci->hfpclkpllsel, hfpclksel); + + configure_pll(&prci->hfpclk_pllcfg, &hfpclkpll_settings); + + // PLL is ready/locked so enable it (its gated) + u32 hfpclk_plloutdiv = read32(&prci->hfpclk_plloutdiv); + hfpclk_plloutdiv |= PRCI_HFPCLK_PLLOUTDIV_MASK; + write32(&prci->hfpclk_plloutdiv, hfpclk_plloutdiv); + + mdelay(1); + + // switch to using PLL for hfpclk + clrbits32(&prci->hfpclkpllsel, PRCI_HFPCLKSEL_MASK); + + udelay(70); +} + +static void reset_deassert(u8 reset_index) +{ + u32 device_reset = read32(&prci->devices_reset_n); + device_reset |= reset_index; + write32(&prci->devices_reset_n, device_reset); +} + +static void init_cltx(void) +{ + // disable hfpclkpll before configuring it + u32 cfg1 = read32(&prci->cltx_plloutdiv); + clrbits32(&cfg1, PRCI_CLTX_PLLOUTDIV_MASK); + write32(&prci->cltx_plloutdiv, cfg1); + + configure_pll(&prci->cltx_pllcfg, &cltxpll_settings); + + // PLL is ready/locked so enable it (its gated) + setbits32(&cfg1, PRCI_CLTX_PLLOUTDIV_MASK); + write32(&prci->cltx_plloutdiv, cfg1); + + // get chiplink out of reset + reset_deassert(PRCI_DEVICES_RESET_CLTX_RST); + + udelay(70); +} + +void clock_init(void) +{ + // first configure the coreclk (used by HARTs) to get maximum speed early on + init_coreclk(); + + // put all devices in reset (e.g. DDR, ethernet, pcie) before configuring their clocks + write32(&prci->devices_reset_n, 0); + + // initialize clock used by DDR subsystem + init_ddrclk(); + + // get DDR controller out of reset + reset_deassert(PRCI_DEVICES_RESET_DDR_CTRL_RST); + + // wait at least one full DDR controller clock cycle + asm volatile ("fence"); + + // get DDR controller (register interface) out of reset + // get DDR subsystem PHY out of reset + reset_deassert(PRCI_DEVICES_RESET_DDR_AXI_RST | + PRCI_DEVICES_RESET_DDR_AHB_RST | + PRCI_DEVICES_RESET_DDR_PHY_RST); + + // we need to wait 256 full ddrctrl clock cycles until we can interact with the DDR subsystem + for (int i = 0; i < 256; i++) + asm volatile ("nop"); + + if (read32(&prci->prci_plls) & PRCI_PLLS_HFPCLKPLL) { + // set hfclk as reference for peripheral clock since we don't have the PLL + //clrsetbits32(&prci->hfpclkpllsel, PRCI_HFPCLKSEL_MASK, PRCI_HFPCLKSEL_HFCLK); + init_hfpclk(); + } else if (read32(&prci->prci_plls) & PRCI_PLLS_CLTXPLL) { + // Note: this path has never been tested since the platforms tested with + // always have HFPCLKPLL + init_cltx(); + // get chiplink out of reset + reset_deassert(PRCI_DEVICES_RESET_CLTX_RST); + } + + // GEMGXL init VSC8541 PHY reset sequence; + gpio_set_direction(GEMGXL_RST, GPIO_OUTPUT); + gpio_set(GEMGXL_RST, 1); + + udelay(1); + + /* Reset PHY again to enter unmanaged mode */ + gpio_set(GEMGXL_RST, 0); + udelay(1); + gpio_set(GEMGXL_RST, 1); + mdelay(15); + + init_gemgxlclk(); + + // get ethernet out of reset + reset_deassert(PRCI_DEVICES_RESET_GEMGXL_RST); +} + +// get the peripheral clock frequency used by UART (probably also SPI, GPIO, I2C and PWM) +int clock_get_pclk(void) +{ + u64 pclk = FU740_HFCLK_FREQ; + + // check if hfpclkpll is present and + // check if hfpclkpll is selected in the multiplexer TODO + // check if hpfclkpll is enabled + if ((read32(&prci->prci_plls) & PRCI_PLLS_HFPCLKPLL) && + (read32(&prci->hfpclk_plloutdiv) & PRCI_HFPCLK_PLLOUTDIV_MASK)) { + int hfpclk_pllcfg = read32(&prci->hfpclk_pllcfg); + int divr = (hfpclk_pllcfg & PRCI_PLLCFG_DIVR_MASK) >> PRCI_PLLCFG_DIVR_SHIFT; + int divf = (hfpclk_pllcfg & PRCI_PLLCFG_DIVF_MASK) >> PRCI_PLLCFG_DIVF_SHIFT; + int divq = (hfpclk_pllcfg & PRCI_PLLCFG_DIVQ_MASK) >> PRCI_PLLCFG_DIVQ_SHIFT; + pclk /= (divr + 1); // reference divider + pclk *= (2 * (divf + 1)); // feedback divider + pclk /= (1 << divq); // output divider + } + + // divider value before pclk seems to be (hfpclkdiv + 2). Not mentioned in fu740 manual though. + return pclk / (read32(&prci->hfpclk_div_reg) + 2); +} diff --git a/src/soc/sifive/fu740/ddrregs.c b/src/soc/sifive/fu740/ddrregs.c new file mode 100644 index 0000000000..f6d5ea7ba6 --- /dev/null +++ b/src/soc/sifive/fu740/ddrregs.c @@ -0,0 +1,1496 @@ +/* SPDX-License-Identifier: GPL-2.0-or-later */ + +#include <stdint.h> + +/* + * Only a very small amount of registers is documented inside the FU740-C000 Manual and the + * rest are basically magic values + * source: u-boot + * (C) Copyright 2020 SiFive, Inc + */ + +const uint32_t denali_ddr_phy_data[1215] = { + 0x01375642, // DENALI_PHY_00_DATA + 0x0004c008, // DENALI_PHY_01_DATA + 0x000000da, // DENALI_PHY_02_DATA + 0x00000000, // DENALI_PHY_03_DATA + 0x00000000, // DENALI_PHY_04_DATA + 0x00010000, // DENALI_PHY_05_DATA + 0x01DDDD90, // DENALI_PHY_06_DATA + 0x01DDDD90, // DENALI_PHY_07_DATA + 0x01030001, // DENALI_PHY_08_DATA + 0x01000000, // DENALI_PHY_09_DATA + 0x00c00000, // DENALI_PHY_10_DATA + 0x00000007, // DENALI_PHY_11_DATA + 0x00000000, // DENALI_PHY_12_DATA + 0x00000000, // DENALI_PHY_13_DATA + 0x04000408, // DENALI_PHY_14_DATA + 0x00000408, // DENALI_PHY_15_DATA + 0x00e4e400, // DENALI_PHY_16_DATA + 0x00000000, // DENALI_PHY_17_DATA + 0x00000000, // DENALI_PHY_18_DATA + 0x00000000, // DENALI_PHY_19_DATA + 0x00000000, // DENALI_PHY_20_DATA + 0x00000000, // DENALI_PHY_21_DATA + 0x00000000, // DENALI_PHY_22_DATA + 0x00000000, // DENALI_PHY_23_DATA + 0x00000000, // DENALI_PHY_24_DATA + 0x00000000, // DENALI_PHY_25_DATA + 0x00000000, // DENALI_PHY_26_DATA + 0x00000000, // DENALI_PHY_27_DATA + 0x00000000, // DENALI_PHY_28_DATA + 0x00000000, // DENALI_PHY_29_DATA + 0x00000000, // DENALI_PHY_30_DATA + 0x00000000, // DENALI_PHY_31_DATA + 0x00000000, // DENALI_PHY_32_DATA + 0x00200000, // DENALI_PHY_33_DATA + 0x00000000, // DENALI_PHY_34_DATA + 0x00000000, // DENALI_PHY_35_DATA + 0x00000000, // DENALI_PHY_36_DATA + 0x00000000, // DENALI_PHY_37_DATA + 0x00000000, // DENALI_PHY_38_DATA + 0x00000000, // DENALI_PHY_39_DATA + 0x02800280, // DENALI_PHY_40_DATA + 0x02800280, // DENALI_PHY_41_DATA + 0x02800280, // DENALI_PHY_42_DATA + 0x02800280, // DENALI_PHY_43_DATA + 0x00000280, // DENALI_PHY_44_DATA + 0x00000000, // DENALI_PHY_45_DATA + 0x00000000, // DENALI_PHY_46_DATA + 0x00000000, // DENALI_PHY_47_DATA + 0x00000000, // DENALI_PHY_48_DATA + 0x00000000, // DENALI_PHY_49_DATA + 0x00800080, // DENALI_PHY_50_DATA + 0x00800080, // DENALI_PHY_51_DATA + 0x00800080, // DENALI_PHY_52_DATA + 0x00800080, // DENALI_PHY_53_DATA + 0x00800080, // DENALI_PHY_54_DATA + 0x00800080, // DENALI_PHY_55_DATA + 0x00800080, // DENALI_PHY_56_DATA + 0x00800080, // DENALI_PHY_57_DATA + 0x00800080, // DENALI_PHY_58_DATA + 0x000100da, // DENALI_PHY_59_DATA + 0x01ff0010, // DENALI_PHY_60_DATA + 0x00000000, // DENALI_PHY_61_DATA + 0x00000000, // DENALI_PHY_62_DATA + 0x00000002, // DENALI_PHY_63_DATA + 0x51313152, // DENALI_PHY_64_DATA + 0x80013130, // DENALI_PHY_65_DATA + 0x02000080, // DENALI_PHY_66_DATA + 0x00100001, // DENALI_PHY_67_DATA + 0x0c064208, // DENALI_PHY_68_DATA + 0x000f0c0f, // DENALI_PHY_69_DATA + 0x01000140, // DENALI_PHY_70_DATA + 0x0000000c, // DENALI_PHY_71_DATA + 0x00000000, // DENALI_PHY_72_DATA + 0x00000000, // DENALI_PHY_73_DATA + 0x00000000, // DENALI_PHY_74_DATA + 0x00000000, // DENALI_PHY_75_DATA + 0x00000000, // DENALI_PHY_76_DATA + 0x00000000, // DENALI_PHY_77_DATA + 0x00000000, // DENALI_PHY_78_DATA + 0x00000000, // DENALI_PHY_79_DATA + 0x00000000, // DENALI_PHY_80_DATA + 0x00000000, // DENALI_PHY_81_DATA + 0x00000000, // DENALI_PHY_82_DATA + 0x00000000, // DENALI_PHY_83_DATA + 0x00000000, // DENALI_PHY_84_DATA + 0x00000000, // DENALI_PHY_85_DATA + 0x00000000, // DENALI_PHY_86_DATA + 0x00000000, // DENALI_PHY_87_DATA + 0x00000000, // DENALI_PHY_88_DATA + 0x00000000, // DENALI_PHY_89_DATA + 0x00000000, // DENALI_PHY_90_DATA + 0x00000000, // DENALI_PHY_91_DATA + 0x00000000, // DENALI_PHY_92_DATA + 0x00000000, // DENALI_PHY_93_DATA + 0x00000000, // DENALI_PHY_94_DATA + 0x00000000, // DENALI_PHY_95_DATA + 0x00000000, // DENALI_PHY_96_DATA + 0x00000000, // DENALI_PHY_97_DATA + 0x00000000, // DENALI_PHY_98_DATA + 0x00000000, // DENALI_PHY_99_DATA + 0x00000000, // DENALI_PHY_100_DATA + 0x00000000, // DENALI_PHY_101_DATA + 0x00000000, // DENALI_PHY_102_DATA + 0x00000000, // DENALI_PHY_103_DATA + 0x00000000, // DENALI_PHY_104_DATA + 0x00000000, // DENALI_PHY_105_DATA + 0x00000000, // DENALI_PHY_106_DATA + 0x00000000, // DENALI_PHY_107_DATA + 0x00000000, // DENALI_PHY_108_DATA + 0x00000000, // DENALI_PHY_109_DATA + 0x00000000, // DENALI_PHY_110_DATA + 0x00000000, // DENALI_PHY_111_DATA + 0x00000000, // DENALI_PHY_112_DATA + 0x00000000, // DENALI_PHY_113_DATA + 0x00000000, // DENALI_PHY_114_DATA + 0x00000000, // DENALI_PHY_115_DATA + 0x00000000, // DENALI_PHY_116_DATA + 0x00000000, // DENALI_PHY_117_DATA + 0x00000000, // DENALI_PHY_118_DATA + 0x00000000, // DENALI_PHY_119_DATA + 0x00000000, // DENALI_PHY_120_DATA + 0x00000000, // DENALI_PHY_121_DATA + 0x00000000, // DENALI_PHY_122_DATA + 0x00000000, // DENALI_PHY_123_DATA + 0x00000000, // DENALI_PHY_124_DATA + 0x00000000, // DENALI_PHY_125_DATA + 0x00000000, // DENALI_PHY_126_DATA + 0x00000000, // DENALI_PHY_127_DATA + 0x40263571, // DENALI_PHY_128_DATA + 0x0004c008, // DENALI_PHY_129_DATA + 0x000000da, // DENALI_PHY_130_DATA + 0x00000000, // DENALI_PHY_131_DATA + 0x00000000, // DENALI_PHY_132_DATA + 0x00010000, // DENALI_PHY_133_DATA + 0x01DDDD90, // DENALI_PHY_134_DATA + 0x01DDDD90, // DENALI_PHY_135_DATA + 0x01030001, // DENALI_PHY_136_DATA + 0x01000000, // DENALI_PHY_137_DATA + 0x00c00000, // DENALI_PHY_138_DATA + 0x00000007, // DENALI_PHY_139_DATA + 0x00000000, // DENALI_PHY_140_DATA + 0x00000000, // DENALI_PHY_141_DATA + 0x04000408, // DENALI_PHY_142_DATA + 0x00000408, // DENALI_PHY_143_DATA + 0x00e4e400, // DENALI_PHY_144_DATA + 0x00000000, // DENALI_PHY_145_DATA + 0x00000000, // DENALI_PHY_146_DATA + 0x00000000, // DENALI_PHY_147_DATA + 0x00000000, // DENALI_PHY_148_DATA + 0x00000000, // DENALI_PHY_149_DATA + 0x00000000, // DENALI_PHY_150_DATA + 0x00000000, // DENALI_PHY_151_DATA + 0x00000000, // DENALI_PHY_152_DATA + 0x00000000, // DENALI_PHY_153_DATA + 0x00000000, // DENALI_PHY_154_DATA + 0x00000000, // DENALI_PHY_155_DATA + 0x00000000, // DENALI_PHY_156_DATA + 0x00000000, // DENALI_PHY_157_DATA + 0x00000000, // DENALI_PHY_158_DATA + 0x00000000, // DENALI_PHY_159_DATA + 0x00000000, // DENALI_PHY_160_DATA + 0x00200000, // DENALI_PHY_161_DATA + 0x00000000, // DENALI_PHY_162_DATA + 0x00000000, // DENALI_PHY_163_DATA + 0x00000000, // DENALI_PHY_164_DATA + 0x00000000, // DENALI_PHY_165_DATA + 0x00000000, // DENALI_PHY_166_DATA + 0x00000000, // DENALI_PHY_167_DATA + 0x02800280, // DENALI_PHY_168_DATA + 0x02800280, // DENALI_PHY_169_DATA + 0x02800280, // DENALI_PHY_170_DATA + 0x02800280, // DENALI_PHY_171_DATA + 0x00000280, // DENALI_PHY_172_DATA + 0x00000000, // DENALI_PHY_173_DATA + 0x00000000, // DENALI_PHY_174_DATA + 0x00000000, // DENALI_PHY_175_DATA + 0x00000000, // DENALI_PHY_176_DATA + 0x00000000, // DENALI_PHY_177_DATA + 0x00800080, // DENALI_PHY_178_DATA + 0x00800080, // DENALI_PHY_179_DATA + 0x00800080, // DENALI_PHY_180_DATA + 0x00800080, // DENALI_PHY_181_DATA + 0x00800080, // DENALI_PHY_182_DATA + 0x00800080, // DENALI_PHY_183_DATA + 0x00800080, // DENALI_PHY_184_DATA + 0x00800080, // DENALI_PHY_185_DATA + 0x00800080, // DENALI_PHY_186_DATA + 0x000100da, // DENALI_PHY_187_DATA + 0x01ff0010, // DENALI_PHY_188_DATA + 0x00000000, // DENALI_PHY_189_DATA + 0x00000000, // DENALI_PHY_190_DATA + 0x00000002, // DENALI_PHY_191_DATA + 0x51313152, // DENALI_PHY_192_DATA + 0x80013130, // DENALI_PHY_193_DATA + 0x02000080, // DENALI_PHY_194_DATA + 0x00100001, // DENALI_PHY_195_DATA + 0x0c064208, // DENALI_PHY_196_DATA + 0x000f0c0f, // DENALI_PHY_197_DATA + 0x01000140, // DENALI_PHY_198_DATA + 0x0000000c, // DENALI_PHY_199_DATA + 0x00000000, // DENALI_PHY_200_DATA + 0x00000000, // DENALI_PHY_201_DATA + 0x00000000, // DENALI_PHY_202_DATA + 0x00000000, // DENALI_PHY_203_DATA + 0x00000000, // DENALI_PHY_204_DATA + 0x00000000, // DENALI_PHY_205_DATA + 0x00000000, // DENALI_PHY_206_DATA + 0x00000000, // DENALI_PHY_207_DATA + 0x00000000, // DENALI_PHY_208_DATA + 0x00000000, // DENALI_PHY_209_DATA + 0x00000000, // DENALI_PHY_210_DATA + 0x00000000, // DENALI_PHY_211_DATA + 0x00000000, // DENALI_PHY_212_DATA + 0x00000000, // DENALI_PHY_213_DATA + 0x00000000, // DENALI_PHY_214_DATA + 0x00000000, // DENALI_PHY_215_DATA + 0x00000000, // DENALI_PHY_216_DATA + 0x00000000, // DENALI_PHY_217_DATA + 0x00000000, // DENALI_PHY_218_DATA + 0x00000000, // DENALI_PHY_219_DATA + 0x00000000, // DENALI_PHY_220_DATA + 0x00000000, // DENALI_PHY_221_DATA + 0x00000000, // DENALI_PHY_222_DATA + 0x00000000, // DENALI_PHY_223_DATA + 0x00000000, // DENALI_PHY_224_DATA + 0x00000000, // DENALI_PHY_225_DATA + 0x00000000, // DENALI_PHY_226_DATA + 0x00000000, // DENALI_PHY_227_DATA + 0x00000000, // DENALI_PHY_228_DATA + 0x00000000, // DENALI_PHY_229_DATA + 0x00000000, // DENALI_PHY_230_DATA + 0x00000000, // DENALI_PHY_231_DATA + 0x00000000, // DENALI_PHY_232_DATA + 0x00000000, // DENALI_PHY_233_DATA + 0x00000000, // DENALI_PHY_234_DATA + 0x00000000, // DENALI_PHY_235_DATA + 0x00000000, // DENALI_PHY_236_DATA + 0x00000000, // DENALI_PHY_237_DATA + 0x00000000, // DENALI_PHY_238_DATA + 0x00000000, // DENALI_PHY_239_DATA + 0x00000000, // DENALI_PHY_240_DATA + 0x00000000, // DENALI_PHY_241_DATA + 0x00000000, // DENALI_PHY_242_DATA + 0x00000000, // DENALI_PHY_243_DATA + 0x00000000, // DENALI_PHY_244_DATA + 0x00000000, // DENALI_PHY_245_DATA + 0x00000000, // DENALI_PHY_246_DATA + 0x00000000, // DENALI_PHY_247_DATA + 0x00000000, // DENALI_PHY_248_DATA + 0x00000000, // DENALI_PHY_249_DATA + 0x00000000, // DENALI_PHY_250_DATA + 0x00000000, // DENALI_PHY_251_DATA + 0x00000000, // DENALI_PHY_252_DATA + 0x00000000, // DENALI_PHY_253_DATA + 0x00000000, // DENALI_PHY_254_DATA + 0x00000000, // DENALI_PHY_255_DATA + 0x46052371, // DENALI_PHY_256_DATA + 0x0004c008, // DENALI_PHY_257_DATA + 0x000000da, // DENALI_PHY_258_DATA + 0x00000000, // DENALI_PHY_259_DATA + 0x00000000, // DENALI_PHY_260_DATA + 0x00010000, // DENALI_PHY_261_DATA + 0x01DDDD90, // DENALI_PHY_262_DATA + 0x01DDDD90, // DENALI_PHY_263_DATA + 0x01030001, // DENALI_PHY_264_DATA + 0x01000000, // DENALI_PHY_265_DATA + 0x00c00000, // DENALI_PHY_266_DATA + 0x00000007, // DENALI_PHY_267_DATA + 0x00000000, // DENALI_PHY_268_DATA + 0x00000000, // DENALI_PHY_269_DATA + 0x04000408, // DENALI_PHY_270_DATA + 0x00000408, // DENALI_PHY_271_DATA + 0x00e4e400, // DENALI_PHY_272_DATA + 0x00000000, // DENALI_PHY_273_DATA + 0x00000000, // DENALI_PHY_274_DATA + 0x00000000, // DENALI_PHY_275_DATA + 0x00000000, // DENALI_PHY_276_DATA + 0x00000000, // DENALI_PHY_277_DATA + 0x00000000, // DENALI_PHY_278_DATA + 0x00000000, // DENALI_PHY_279_DATA + 0x00000000, // DENALI_PHY_280_DATA + 0x00000000, // DENALI_PHY_281_DATA + 0x00000000, // DENALI_PHY_282_DATA + 0x00000000, // DENALI_PHY_283_DATA + 0x00000000, // DENALI_PHY_284_DATA + 0x00000000, // DENALI_PHY_285_DATA + 0x00000000, // DENALI_PHY_286_DATA + 0x00000000, // DENALI_PHY_287_DATA + 0x00000000, // DENALI_PHY_288_DATA + 0x00200000, // DENALI_PHY_289_DATA + 0x00000000, // DENALI_PHY_290_DATA + 0x00000000, // DENALI_PHY_291_DATA + 0x00000000, // DENALI_PHY_292_DATA + 0x00000000, // DENALI_PHY_293_DATA + 0x00000000, // DENALI_PHY_294_DATA + 0x00000000, // DENALI_PHY_295_DATA + 0x02800280, // DENALI_PHY_296_DATA + 0x02800280, // DENALI_PHY_297_DATA + 0x02800280, // DENALI_PHY_298_DATA + 0x02800280, // DENALI_PHY_299_DATA + 0x00000280, // DENALI_PHY_300_DATA + 0x00000000, // DENALI_PHY_301_DATA + 0x00000000, // DENALI_PHY_302_DATA + 0x00000000, // DENALI_PHY_303_DATA + 0x00000000, // DENALI_PHY_304_DATA + 0x00000000, // DENALI_PHY_305_DATA + 0x00800080, // DENALI_PHY_306_DATA + 0x00800080, // DENALI_PHY_307_DATA + 0x00800080, // DENALI_PHY_308_DATA + 0x00800080, // DENALI_PHY_309_DATA + 0x00800080, // DENALI_PHY_310_DATA + 0x00800080, // DENALI_PHY_311_DATA + 0x00800080, // DENALI_PHY_312_DATA + 0x00800080, // DENALI_PHY_313_DATA + 0x00800080, // DENALI_PHY_314_DATA + 0x000100da, // DENALI_PHY_315_DATA + 0x01ff0010, // DENALI_PHY_316_DATA + 0x00000000, // DENALI_PHY_317_DATA + 0x00000000, // DENALI_PHY_318_DATA + 0x00000002, // DENALI_PHY_319_DATA + 0x51313152, // DENALI_PHY_320_DATA + 0x80013130, // DENALI_PHY_321_DATA + 0x02000080, // DENALI_PHY_322_DATA + 0x00100001, // DENALI_PHY_323_DATA + 0x0c064208, // DENALI_PHY_324_DATA + 0x000f0c0f, // DENALI_PHY_325_DATA + 0x01000140, // DENALI_PHY_326_DATA + 0x0000000c, // DENALI_PHY_327_DATA + 0x00000000, // DENALI_PHY_328_DATA + 0x00000000, // DENALI_PHY_329_DATA + 0x00000000, // DENALI_PHY_330_DATA + 0x00000000, // DENALI_PHY_331_DATA + 0x00000000, // DENALI_PHY_332_DATA + 0x00000000, // DENALI_PHY_333_DATA + 0x00000000, // DENALI_PHY_334_DATA + 0x00000000, // DENALI_PHY_335_DATA + 0x00000000, // DENALI_PHY_336_DATA + 0x00000000, // DENALI_PHY_337_DATA + 0x00000000, // DENALI_PHY_338_DATA + 0x00000000, // DENALI_PHY_339_DATA + 0x00000000, // DENALI_PHY_340_DATA + 0x00000000, // DENALI_PHY_341_DATA + 0x00000000, // DENALI_PHY_342_DATA + 0x00000000, // DENALI_PHY_343_DATA + 0x00000000, // DENALI_PHY_344_DATA + 0x00000000, // DENALI_PHY_345_DATA + 0x00000000, // DENALI_PHY_346_DATA + 0x00000000, // DENALI_PHY_347_DATA + 0x00000000, // DENALI_PHY_348_DATA + 0x00000000, // DENALI_PHY_349_DATA + 0x00000000, // DENALI_PHY_350_DATA + 0x00000000, // DENALI_PHY_351_DATA + 0x00000000, // DENALI_PHY_352_DATA + 0x00000000, // DENALI_PHY_353_DATA + 0x00000000, // DENALI_PHY_354_DATA + 0x00000000, // DENALI_PHY_355_DATA + 0x00000000, // DENALI_PHY_356_DATA + 0x00000000, // DENALI_PHY_357_DATA + 0x00000000, // DENALI_PHY_358_DATA + 0x00000000, // DENALI_PHY_359_DATA + 0x00000000, // DENALI_PHY_360_DATA + 0x00000000, // DENALI_PHY_361_DATA + 0x00000000, // DENALI_PHY_362_DATA + 0x00000000, // DENALI_PHY_363_DATA + 0x00000000, // DENALI_PHY_364_DATA + 0x00000000, // DENALI_PHY_365_DATA + 0x00000000, // DENALI_PHY_366_DATA + 0x00000000, // DENALI_PHY_367_DATA + 0x00000000, // DENALI_PHY_368_DATA + 0x00000000, // DENALI_PHY_369_DATA + 0x00000000, // DENALI_PHY_370_DATA + 0x00000000, // DENALI_PHY_371_DATA + 0x00000000, // DENALI_PHY_372_DATA + 0x00000000, // DENALI_PHY_373_DATA + 0x00000000, // DENALI_PHY_374_DATA + 0x00000000, // DENALI_PHY_375_DATA + 0x00000000, // DENALI_PHY_376_DATA + 0x00000000, // DENALI_PHY_377_DATA + 0x00000000, // DENALI_PHY_378_DATA + 0x00000000, // DENALI_PHY_379_DATA + 0x00000000, // DENALI_PHY_380_DATA + 0x00000000, // DENALI_PHY_381_DATA + 0x00000000, // DENALI_PHY_382_DATA + 0x00000000, // DENALI_PHY_383_DATA + 0x37651240, // DENALI_PHY_384_DATA + 0x0004c008, // DENALI_PHY_385_DATA + 0x000000da, // DENALI_PHY_386_DATA + 0x00000000, // DENALI_PHY_387_DATA + 0x00000000, // DENALI_PHY_388_DATA + 0x00010000, // DENALI_PHY_389_DATA + 0x01DDDD90, // DENALI_PHY_390_DATA + 0x01DDDD90, // DENALI_PHY_391_DATA + 0x01030001, // DENALI_PHY_392_DATA + 0x01000000, // DENALI_PHY_393_DATA + 0x00c00000, // DENALI_PHY_394_DATA + 0x00000007, // DENALI_PHY_395_DATA + 0x00000000, // DENALI_PHY_396_DATA + 0x00000000, // DENALI_PHY_397_DATA + 0x04000408, // DENALI_PHY_398_DATA + 0x00000408, // DENALI_PHY_399_DATA + 0x00e4e400, // DENALI_PHY_400_DATA + 0x00000000, // DENALI_PHY_401_DATA + 0x00000000, // DENALI_PHY_402_DATA + 0x00000000, // DENALI_PHY_403_DATA + 0x00000000, // DENALI_PHY_404_DATA + 0x00000000, // DENALI_PHY_405_DATA + 0x00000000, // DENALI_PHY_406_DATA + 0x00000000, // DENALI_PHY_407_DATA + 0x00000000, // DENALI_PHY_408_DATA + 0x00000000, // DENALI_PHY_409_DATA + 0x00000000, // DENALI_PHY_410_DATA + 0x00000000, // DENALI_PHY_411_DATA + 0x00000000, // DENALI_PHY_412_DATA + 0x00000000, // DENALI_PHY_413_DATA + 0x00000000, // DENALI_PHY_414_DATA + 0x00000000, // DENALI_PHY_415_DATA + 0x00000000, // DENALI_PHY_416_DATA + 0x00200000, // DENALI_PHY_417_DATA + 0x00000000, // DENALI_PHY_418_DATA + 0x00000000, // DENALI_PHY_419_DATA + 0x00000000, // DENALI_PHY_420_DATA + 0x00000000, // DENALI_PHY_421_DATA + 0x00000000, // DENALI_PHY_422_DATA + 0x00000000, // DENALI_PHY_423_DATA + 0x02800280, // DENALI_PHY_424_DATA + 0x02800280, // DENALI_PHY_425_DATA + 0x02800280, // DENALI_PHY_426_DATA + 0x02800280, // DENALI_PHY_427_DATA + 0x00000280, // DENALI_PHY_428_DATA + 0x00000000, // DENALI_PHY_429_DATA + 0x00000000, // DENALI_PHY_430_DATA + 0x00000000, // DENALI_PHY_431_DATA + 0x00000000, // DENALI_PHY_432_DATA + 0x00000000, // DENALI_PHY_433_DATA + 0x00800080, // DENALI_PHY_434_DATA + 0x00800080, // DENALI_PHY_435_DATA + 0x00800080, // DENALI_PHY_436_DATA + 0x00800080, // DENALI_PHY_437_DATA + 0x00800080, // DENALI_PHY_438_DATA + 0x00800080, // DENALI_PHY_439_DATA + 0x00800080, // DENALI_PHY_440_DATA + 0x00800080, // DENALI_PHY_441_DATA + 0x00800080, // DENALI_PHY_442_DATA + 0x000100da, // DENALI_PHY_443_DATA + 0x01ff0010, // DENALI_PHY_444_DATA + 0x00000000, // DENALI_PHY_445_DATA + 0x00000000, // DENALI_PHY_446_DATA + 0x00000002, // DENALI_PHY_447_DATA + 0x51313152, // DENALI_PHY_448_DATA + 0x80013130, // DENALI_PHY_449_DATA + 0x02000080, // DENALI_PHY_450_DATA + 0x00100001, // DENALI_PHY_451_DATA + 0x0c064208, // DENALI_PHY_452_DATA + 0x000f0c0f, // DENALI_PHY_453_DATA + 0x01000140, // DENALI_PHY_454_DATA + 0x0000000c, // DENALI_PHY_455_DATA + 0x00000000, // DENALI_PHY_456_DATA + 0x00000000, // DENALI_PHY_457_DATA + 0x00000000, // DENALI_PHY_458_DATA + 0x00000000, // DENALI_PHY_459_DATA + 0x00000000, // DENALI_PHY_460_DATA + 0x00000000, // DENALI_PHY_461_DATA + 0x00000000, // DENALI_PHY_462_DATA + 0x00000000, // DENALI_PHY_463_DATA + 0x00000000, // DENALI_PHY_464_DATA + 0x00000000, // DENALI_PHY_465_DATA + 0x00000000, // DENALI_PHY_466_DATA + 0x00000000, // DENALI_PHY_467_DATA + 0x00000000, // DENALI_PHY_468_DATA + 0x00000000, // DENALI_PHY_469_DATA + 0x00000000, // DENALI_PHY_470_DATA + 0x00000000, // DENALI_PHY_471_DATA + 0x00000000, // DENALI_PHY_472_DATA + 0x00000000, // DENALI_PHY_473_DATA + 0x00000000, // DENALI_PHY_474_DATA + 0x00000000, // DENALI_PHY_475_DATA + 0x00000000, // DENALI_PHY_476_DATA + 0x00000000, // DENALI_PHY_477_DATA + 0x00000000, // DENALI_PHY_478_DATA + 0x00000000, // DENALI_PHY_479_DATA + 0x00000000, // DENALI_PHY_480_DATA + 0x00000000, // DENALI_PHY_481_DATA + 0x00000000, // DENALI_PHY_482_DATA + 0x00000000, // DENALI_PHY_483_DATA + 0x00000000, // DENALI_PHY_484_DATA + 0x00000000, // DENALI_PHY_485_DATA + 0x00000000, // DENALI_PHY_486_DATA + 0x00000000, // DENALI_PHY_487_DATA + 0x00000000, // DENALI_PHY_488_DATA + 0x00000000, // DENALI_PHY_489_DATA + 0x00000000, // DENALI_PHY_490_DATA + 0x00000000, // DENALI_PHY_491_DATA + 0x00000000, // DENALI_PHY_492_DATA + 0x00000000, // DENALI_PHY_493_DATA + 0x00000000, // DENALI_PHY_494_DATA + 0x00000000, // DENALI_PHY_495_DATA + 0x00000000, // DENALI_PHY_496_DATA + 0x00000000, // DENALI_PHY_497_DATA + 0x00000000, // DENALI_PHY_498_DATA + 0x00000000, // DENALI_PHY_499_DATA + 0x00000000, // DENALI_PHY_500_DATA + 0x00000000, // DENALI_PHY_501_DATA + 0x00000000, // DENALI_PHY_502_DATA + 0x00000000, // DENALI_PHY_503_DATA + 0x00000000, // DENALI_PHY_504_DATA + 0x00000000, // DENALI_PHY_505_DATA + 0x00000000, // DENALI_PHY_506_DATA + 0x00000000, // DENALI_PHY_507_DATA + 0x00000000, // DENALI_PHY_508_DATA + 0x00000000, // DENALI_PHY_509_DATA + 0x00000000, // DENALI_PHY_510_DATA + 0x00000000, // DENALI_PHY_511_DATA + 0x34216750, // DENALI_PHY_512_DATA + 0x0004c008, // DENALI_PHY_513_DATA + 0x000000da, // DENALI_PHY_514_DATA + 0x00000000, // DENALI_PHY_515_DATA + 0x00000000, // DENALI_PHY_516_DATA + 0x00010000, // DENALI_PHY_517_DATA + 0x01DDDD90, // DENALI_PHY_518_DATA + 0x01DDDD90, // DENALI_PHY_519_DATA + 0x01030001, // DENALI_PHY_520_DATA + 0x01000000, // DENALI_PHY_521_DATA + 0x00c00000, // DENALI_PHY_522_DATA + 0x00000007, // DENALI_PHY_523_DATA + 0x00000000, // DENALI_PHY_524_DATA + 0x00000000, // DENALI_PHY_525_DATA + 0x04000408, // DENALI_PHY_526_DATA + 0x00000408, // DENALI_PHY_527_DATA + 0x00e4e400, // DENALI_PHY_528_DATA + 0x00000000, // DENALI_PHY_529_DATA + 0x00000000, // DENALI_PHY_530_DATA + 0x00000000, // DENALI_PHY_531_DATA + 0x00000000, // DENALI_PHY_532_DATA + 0x00000000, // DENALI_PHY_533_DATA + 0x00000000, // DENALI_PHY_534_DATA + 0x00000000, // DENALI_PHY_535_DATA + 0x00000000, // DENALI_PHY_536_DATA + 0x00000000, // DENALI_PHY_537_DATA + 0x00000000, // DENALI_PHY_538_DATA + 0x00000000, // DENALI_PHY_539_DATA + 0x00000000, // DENALI_PHY_540_DATA + 0x00000000, // DENALI_PHY_541_DATA + 0x00000000, // DENALI_PHY_542_DATA + 0x00000000, // DENALI_PHY_543_DATA + 0x00000000, // DENALI_PHY_544_DATA + 0x00200000, // DENALI_PHY_545_DATA + 0x00000000, // DENALI_PHY_546_DATA + 0x00000000, // DENALI_PHY_547_DATA + 0x00000000, // DENALI_PHY_548_DATA + 0x00000000, // DENALI_PHY_549_DATA + 0x00000000, // DENALI_PHY_550_DATA + 0x00000000, // DENALI_PHY_551_DATA + 0x02800280, // DENALI_PHY_552_DATA + 0x02800280, // DENALI_PHY_553_DATA + 0x02800280, // DENALI_PHY_554_DATA + 0x02800280, // DENALI_PHY_555_DATA + 0x00000280, // DENALI_PHY_556_DATA + 0x00000000, // DENALI_PHY_557_DATA + 0x00000000, // DENALI_PHY_558_DATA + 0x00000000, // DENALI_PHY_559_DATA + 0x00000000, // DENALI_PHY_560_DATA + 0x00000000, // DENALI_PHY_561_DATA + 0x00800080, // DENALI_PHY_562_DATA + 0x00800080, // DENALI_PHY_563_DATA + 0x00800080, // DENALI_PHY_564_DATA + 0x00800080, // DENALI_PHY_565_DATA + 0x00800080, // DENALI_PHY_566_DATA + 0x00800080, // DENALI_PHY_567_DATA + 0x00800080, // DENALI_PHY_568_DATA + 0x00800080, // DENALI_PHY_569_DATA + 0x00800080, // DENALI_PHY_570_DATA + 0x000100da, // DENALI_PHY_571_DATA + 0x01ff0010, // DENALI_PHY_572_DATA + 0x00000000, // DENALI_PHY_573_DATA + 0x00000000, // DENALI_PHY_574_DATA + 0x00000002, // DENALI_PHY_575_DATA + 0x51313152, // DENALI_PHY_576_DATA + 0x80013130, // DENALI_PHY_577_DATA + 0x02000080, // DENALI_PHY_578_DATA + 0x00100001, // DENALI_PHY_579_DATA + 0x0c064208, // DENALI_PHY_580_DATA + 0x000f0c0f, // DENALI_PHY_581_DATA + 0x01000140, // DENALI_PHY_582_DATA + 0x0000000c, // DENALI_PHY_583_DATA + 0x00000000, // DENALI_PHY_584_DATA + 0x00000000, // DENALI_PHY_585_DATA + 0x00000000, // DENALI_PHY_586_DATA + 0x00000000, // DENALI_PHY_587_DATA + 0x00000000, // DENALI_PHY_588_DATA + 0x00000000, // DENALI_PHY_589_DATA + 0x00000000, // DENALI_PHY_590_DATA + 0x00000000, // DENALI_PHY_591_DATA + 0x00000000, // DENALI_PHY_592_DATA + 0x00000000, // DENALI_PHY_593_DATA + 0x00000000, // DENALI_PHY_594_DATA + 0x00000000, // DENALI_PHY_595_DATA + 0x00000000, // DENALI_PHY_596_DATA + 0x00000000, // DENALI_PHY_597_DATA + 0x00000000, // DENALI_PHY_598_DATA + 0x00000000, // DENALI_PHY_599_DATA + 0x00000000, // DENALI_PHY_600_DATA + 0x00000000, // DENALI_PHY_601_DATA + 0x00000000, // DENALI_PHY_602_DATA + 0x00000000, // DENALI_PHY_603_DATA + 0x00000000, // DENALI_PHY_604_DATA + 0x00000000, // DENALI_PHY_605_DATA + 0x00000000, // DENALI_PHY_606_DATA + 0x00000000, // DENALI_PHY_607_DATA + 0x00000000, // DENALI_PHY_608_DATA + 0x00000000, // DENALI_PHY_609_DATA + 0x00000000, // DENALI_PHY_610_DATA + 0x00000000, // DENALI_PHY_611_DATA + 0x00000000, // DENALI_PHY_612_DATA + 0x00000000, // DENALI_PHY_613_DATA + 0x00000000, // DENALI_PHY_614_DATA + 0x00000000, // DENALI_PHY_615_DATA + 0x00000000, // DENALI_PHY_616_DATA + 0x00000000, // DENALI_PHY_617_DATA + 0x00000000, // DENALI_PHY_618_DATA + 0x00000000, // DENALI_PHY_619_DATA + 0x00000000, // DENALI_PHY_620_DATA + 0x00000000, // DENALI_PHY_621_DATA + 0x00000000, // DENALI_PHY_622_DATA + 0x00000000, // DENALI_PHY_623_DATA + 0x00000000, // DENALI_PHY_624_DATA + 0x00000000, // DENALI_PHY_625_DATA + 0x00000000, // DENALI_PHY_626_DATA + 0x00000000, // DENALI_PHY_627_DATA + 0x00000000, // DENALI_PHY_628_DATA + 0x00000000, // DENALI_PHY_629_DATA + 0x00000000, // DENALI_PHY_630_DATA + 0x00000000, // DENALI_PHY_631_DATA + 0x00000000, // DENALI_PHY_632_DATA + 0x00000000, // DENALI_PHY_633_DATA + 0x00000000, // DENALI_PHY_634_DATA + 0x00000000, // DENALI_PHY_635_DATA + 0x00000000, // DENALI_PHY_636_DATA + 0x00000000, // DENALI_PHY_637_DATA + 0x00000000, // DENALI_PHY_638_DATA + 0x00000000, // DENALI_PHY_639_DATA + 0x35176402, // DENALI_PHY_640_DATA + 0x0004c008, // DENALI_PHY_641_DATA + 0x000000da, // DENALI_PHY_642_DATA + 0x00000000, // DENALI_PHY_643_DATA + 0x00000000, // DENALI_PHY_644_DATA + 0x00010000, // DENALI_PHY_645_DATA + 0x01DDDD90, // DENALI_PHY_646_DATA + 0x01DDDD90, // DENALI_PHY_647_DATA + 0x01030001, // DENALI_PHY_648_DATA + 0x01000000, // DENALI_PHY_649_DATA + 0x00c00000, // DENALI_PHY_650_DATA + 0x00000007, // DENALI_PHY_651_DATA + 0x00000000, // DENALI_PHY_652_DATA + 0x00000000, // DENALI_PHY_653_DATA + 0x04000408, // DENALI_PHY_654_DATA + 0x00000408, // DENALI_PHY_655_DATA + 0x00e4e400, // DENALI_PHY_656_DATA + 0x00000000, // DENALI_PHY_657_DATA + 0x00000000, // DENALI_PHY_658_DATA + 0x00000000, // DENALI_PHY_659_DATA + 0x00000000, // DENALI_PHY_660_DATA + 0x00000000, // DENALI_PHY_661_DATA + 0x00000000, // DENALI_PHY_662_DATA + 0x00000000, // DENALI_PHY_663_DATA + 0x00000000, // DENALI_PHY_664_DATA + 0x00000000, // DENALI_PHY_665_DATA + 0x00000000, // DENALI_PHY_666_DATA + 0x00000000, // DENALI_PHY_667_DATA + 0x00000000, // DENALI_PHY_668_DATA + 0x00000000, // DENALI_PHY_669_DATA + 0x00000000, // DENALI_PHY_670_DATA + 0x00000000, // DENALI_PHY_671_DATA + 0x00000000, // DENALI_PHY_672_DATA + 0x00200000, // DENALI_PHY_673_DATA + 0x00000000, // DENALI_PHY_674_DATA + 0x00000000, // DENALI_PHY_675_DATA + 0x00000000, // DENALI_PHY_676_DATA + 0x00000000, // DENALI_PHY_677_DATA + 0x00000000, // DENALI_PHY_678_DATA + 0x00000000, // DENALI_PHY_679_DATA + 0x02800280, // DENALI_PHY_680_DATA + 0x02800280, // DENALI_PHY_681_DATA + 0x02800280, // DENALI_PHY_682_DATA + 0x02800280, // DENALI_PHY_683_DATA + 0x00000280, // DENALI_PHY_684_DATA + 0x00000000, // DENALI_PHY_685_DATA + 0x00000000, // DENALI_PHY_686_DATA + 0x00000000, // DENALI_PHY_687_DATA + 0x00000000, // DENALI_PHY_688_DATA + 0x00000000, // DENALI_PHY_689_DATA + 0x00800080, // DENALI_PHY_690_DATA + 0x00800080, // DENALI_PHY_691_DATA + 0x00800080, // DENALI_PHY_692_DATA + 0x00800080, // DENALI_PHY_693_DATA + 0x00800080, // DENALI_PHY_694_DATA + 0x00800080, // DENALI_PHY_695_DATA + 0x00800080, // DENALI_PHY_696_DATA + 0x00800080, // DENALI_PHY_697_DATA + 0x00800080, // DENALI_PHY_698_DATA + 0x000100da, // DENALI_PHY_699_DATA + 0x01ff0010, // DENALI_PHY_700_DATA + 0x00000000, // DENALI_PHY_701_DATA + 0x00000000, // DENALI_PHY_702_DATA + 0x00000002, // DENALI_PHY_703_DATA + 0x51313152, // DENALI_PHY_704_DATA + 0x80013130, // DENALI_PHY_705_DATA + 0x02000080, // DENALI_PHY_706_DATA + 0x00100001, // DENALI_PHY_707_DATA + 0x0c064208, // DENALI_PHY_708_DATA + 0x000f0c0f, // DENALI_PHY_709_DATA + 0x01000140, // DENALI_PHY_710_DATA + 0x0000000c, // DENALI_PHY_711_DATA + 0x00000000, // DENALI_PHY_712_DATA + 0x00000000, // DENALI_PHY_713_DATA + 0x00000000, // DENALI_PHY_714_DATA + 0x00000000, // DENALI_PHY_715_DATA + 0x00000000, // DENALI_PHY_716_DATA + 0x00000000, // DENALI_PHY_717_DATA + 0x00000000, // DENALI_PHY_718_DATA + 0x00000000, // DENALI_PHY_719_DATA + 0x00000000, // DENALI_PHY_720_DATA + 0x00000000, // DENALI_PHY_721_DATA + 0x00000000, // DENALI_PHY_722_DATA + 0x00000000, // DENALI_PHY_723_DATA + 0x00000000, // DENALI_PHY_724_DATA + 0x00000000, // DENALI_PHY_725_DATA + 0x00000000, // DENALI_PHY_726_DATA + 0x00000000, // DENALI_PHY_727_DATA + 0x00000000, // DENALI_PHY_728_DATA + 0x00000000, // DENALI_PHY_729_DATA + 0x00000000, // DENALI_PHY_730_DATA + 0x00000000, // DENALI_PHY_731_DATA + 0x00000000, // DENALI_PHY_732_DATA + 0x00000000, // DENALI_PHY_733_DATA + 0x00000000, // DENALI_PHY_734_DATA + 0x00000000, // DENALI_PHY_735_DATA + 0x00000000, // DENALI_PHY_736_DATA + 0x00000000, // DENALI_PHY_737_DATA + 0x00000000, // DENALI_PHY_738_DATA + 0x00000000, // DENALI_PHY_739_DATA + 0x00000000, // DENALI_PHY_740_DATA + 0x00000000, // DENALI_PHY_741_DATA + 0x00000000, // DENALI_PHY_742_DATA + 0x00000000, // DENALI_PHY_743_DATA + 0x00000000, // DENALI_PHY_744_DATA + 0x00000000, // DENALI_PHY_745_DATA + 0x00000000, // DENALI_PHY_746_DATA + 0x00000000, // DENALI_PHY_747_DATA + 0x00000000, // DENALI_PHY_748_DATA + 0x00000000, // DENALI_PHY_749_DATA + 0x00000000, // DENALI_PHY_750_DATA + 0x00000000, // DENALI_PHY_751_DATA + 0x00000000, // DENALI_PHY_752_DATA + 0x00000000, // DENALI_PHY_753_DATA + 0x00000000, // DENALI_PHY_754_DATA + 0x00000000, // DENALI_PHY_755_DATA + 0x00000000, // DENALI_PHY_756_DATA + 0x00000000, // DENALI_PHY_757_DATA + 0x00000000, // DENALI_PHY_758_DATA + 0x00000000, // DENALI_PHY_759_DATA + 0x00000000, // DENALI_PHY_760_DATA + 0x00000000, // DENALI_PHY_761_DATA + 0x00000000, // DENALI_PHY_762_DATA + 0x00000000, // DENALI_PHY_763_DATA + 0x00000000, // DENALI_PHY_764_DATA + 0x00000000, // DENALI_PHY_765_DATA + 0x00000000, // DENALI_PHY_766_DATA + 0x00000000, // DENALI_PHY_767_DATA + 0x10526347, // DENALI_PHY_768_DATA + 0x0004c008, // DENALI_PHY_769_DATA + 0x000000da, // DENALI_PHY_770_DATA + 0x00000000, // DENALI_PHY_771_DATA + 0x00000000, // DENALI_PHY_772_DATA + 0x00010000, // DENALI_PHY_773_DATA + 0x01DDDD90, // DENALI_PHY_774_DATA + 0x01DDDD90, // DENALI_PHY_775_DATA + 0x01030001, // DENALI_PHY_776_DATA + 0x01000000, // DENALI_PHY_777_DATA + 0x00c00000, // DENALI_PHY_778_DATA + 0x00000007, // DENALI_PHY_779_DATA + 0x00000000, // DENALI_PHY_780_DATA + 0x00000000, // DENALI_PHY_781_DATA + 0x04000408, // DENALI_PHY_782_DATA + 0x00000408, // DENALI_PHY_783_DATA + 0x00e4e400, // DENALI_PHY_784_DATA + 0x00000000, // DENALI_PHY_785_DATA + 0x00000000, // DENALI_PHY_786_DATA + 0x00000000, // DENALI_PHY_787_DATA + 0x00000000, // DENALI_PHY_788_DATA + 0x00000000, // DENALI_PHY_789_DATA + 0x00000000, // DENALI_PHY_790_DATA + 0x00000000, // DENALI_PHY_791_DATA + 0x00000000, // DENALI_PHY_792_DATA + 0x00000000, // DENALI_PHY_793_DATA + 0x00000000, // DENALI_PHY_794_DATA + 0x00000000, // DENALI_PHY_795_DATA + 0x00000000, // DENALI_PHY_796_DATA + 0x00000000, // DENALI_PHY_797_DATA + 0x00000000, // DENALI_PHY_798_DATA + 0x00000000, // DENALI_PHY_799_DATA + 0x00000000, // DENALI_PHY_800_DATA + 0x00200000, // DENALI_PHY_801_DATA + 0x00000000, // DENALI_PHY_802_DATA + 0x00000000, // DENALI_PHY_803_DATA + 0x00000000, // DENALI_PHY_804_DATA + 0x00000000, // DENALI_PHY_805_DATA + 0x00000000, // DENALI_PHY_806_DATA + 0x00000000, // DENALI_PHY_807_DATA + 0x02800280, // DENALI_PHY_808_DATA + 0x02800280, // DENALI_PHY_809_DATA + 0x02800280, // DENALI_PHY_810_DATA + 0x02800280, // DENALI_PHY_811_DATA + 0x00000280, // DENALI_PHY_812_DATA + 0x00000000, // DENALI_PHY_813_DATA + 0x00000000, // DENALI_PHY_814_DATA + 0x00000000, // DENALI_PHY_815_DATA + 0x00000000, // DENALI_PHY_816_DATA + 0x00000000, // DENALI_PHY_817_DATA + 0x00800080, // DENALI_PHY_818_DATA + 0x00800080, // DENALI_PHY_819_DATA + 0x00800080, // DENALI_PHY_820_DATA + 0x00800080, // DENALI_PHY_821_DATA + 0x00800080, // DENALI_PHY_822_DATA + 0x00800080, // DENALI_PHY_823_DATA + 0x00800080, // DENALI_PHY_824_DATA + 0x00800080, // DENALI_PHY_825_DATA + 0x00800080, // DENALI_PHY_826_DATA + 0x000100da, // DENALI_PHY_827_DATA + 0x01ff0010, // DENALI_PHY_828_DATA + 0x00000000, // DENALI_PHY_829_DATA + 0x00000000, // DENALI_PHY_830_DATA + 0x00000002, // DENALI_PHY_831_DATA + 0x51313152, // DENALI_PHY_832_DATA + 0x80013130, // DENALI_PHY_833_DATA + 0x02000080, // DENALI_PHY_834_DATA + 0x00100001, // DENALI_PHY_835_DATA + 0x0c064208, // DENALI_PHY_836_DATA + 0x000f0c0f, // DENALI_PHY_837_DATA + 0x01000140, // DENALI_PHY_838_DATA + 0x0000000c, // DENALI_PHY_839_DATA + 0x00000000, // DENALI_PHY_840_DATA + 0x00000000, // DENALI_PHY_841_DATA + 0x00000000, // DENALI_PHY_842_DATA + 0x00000000, // DENALI_PHY_843_DATA + 0x00000000, // DENALI_PHY_844_DATA + 0x00000000, // DENALI_PHY_845_DATA + 0x00000000, // DENALI_PHY_846_DATA + 0x00000000, // DENALI_PHY_847_DATA + 0x00000000, // DENALI_PHY_848_DATA + 0x00000000, // DENALI_PHY_849_DATA + 0x00000000, // DENALI_PHY_850_DATA + 0x00000000, // DENALI_PHY_851_DATA + 0x00000000, // DENALI_PHY_852_DATA + 0x00000000, // DENALI_PHY_853_DATA + 0x00000000, // DENALI_PHY_854_DATA + 0x00000000, // DENALI_PHY_855_DATA + 0x00000000, // DENALI_PHY_856_DATA + 0x00000000, // DENALI_PHY_857_DATA + 0x00000000, // DENALI_PHY_858_DATA + 0x00000000, // DENALI_PHY_859_DATA + 0x00000000, // DENALI_PHY_860_DATA + 0x00000000, // DENALI_PHY_861_DATA + 0x00000000, // DENALI_PHY_862_DATA + 0x00000000, // DENALI_PHY_863_DATA + 0x00000000, // DENALI_PHY_864_DATA + 0x00000000, // DENALI_PHY_865_DATA + 0x00000000, // DENALI_PHY_866_DATA + 0x00000000, // DENALI_PHY_867_DATA + 0x00000000, // DENALI_PHY_868_DATA + 0x00000000, // DENALI_PHY_869_DATA + 0x00000000, // DENALI_PHY_870_DATA + 0x00000000, // DENALI_PHY_871_DATA + 0x00000000, // DENALI_PHY_872_DATA + 0x00000000, // DENALI_PHY_873_DATA + 0x00000000, // DENALI_PHY_874_DATA + 0x00000000, // DENALI_PHY_875_DATA + 0x00000000, // DENALI_PHY_876_DATA + 0x00000000, // DENALI_PHY_877_DATA + 0x00000000, // DENALI_PHY_878_DATA + 0x00000000, // DENALI_PHY_879_DATA + 0x00000000, // DENALI_PHY_880_DATA + 0x00000000, // DENALI_PHY_881_DATA + 0x00000000, // DENALI_PHY_882_DATA + 0x00000000, // DENALI_PHY_883_DATA + 0x00000000, // DENALI_PHY_884_DATA + 0x00000000, // DENALI_PHY_885_DATA + 0x00000000, // DENALI_PHY_886_DATA + 0x00000000, // DENALI_PHY_887_DATA + 0x00000000, // DENALI_PHY_888_DATA + 0x00000000, // DENALI_PHY_889_DATA + 0x00000000, // DENALI_PHY_890_DATA + 0x00000000, // DENALI_PHY_891_DATA + 0x00000000, // DENALI_PHY_892_DATA + 0x00000000, // DENALI_PHY_893_DATA + 0x00000000, // DENALI_PHY_894_DATA + 0x00000000, // DENALI_PHY_895_DATA + 0x41753260, // DENALI_PHY_896_DATA + 0x0004c008, // DENALI_PHY_897_DATA + 0x000000da, // DENALI_PHY_898_DATA + 0x00000000, // DENALI_PHY_899_DATA + 0x00000000, // DENALI_PHY_900_DATA + 0x00010000, // DENALI_PHY_901_DATA + 0x01DDDD90, // DENALI_PHY_902_DATA + 0x01DDDD90, // DENALI_PHY_903_DATA + 0x01030001, // DENALI_PHY_904_DATA + 0x01000000, // DENALI_PHY_905_DATA + 0x00c00000, // DENALI_PHY_906_DATA + 0x00000007, // DENALI_PHY_907_DATA + 0x00000000, // DENALI_PHY_908_DATA + 0x00000000, // DENALI_PHY_909_DATA + 0x04000408, // DENALI_PHY_910_DATA + 0x00000408, // DENALI_PHY_911_DATA + 0x00e4e400, // DENALI_PHY_912_DATA + 0x00000000, // DENALI_PHY_913_DATA + 0x00000000, // DENALI_PHY_914_DATA + 0x00000000, // DENALI_PHY_915_DATA + 0x00000000, // DENALI_PHY_916_DATA + 0x00000000, // DENALI_PHY_917_DATA + 0x00000000, // DENALI_PHY_918_DATA + 0x00000000, // DENALI_PHY_919_DATA + 0x00000000, // DENALI_PHY_920_DATA + 0x00000000, // DENALI_PHY_921_DATA + 0x00000000, // DENALI_PHY_922_DATA + 0x00000000, // DENALI_PHY_923_DATA + 0x00000000, // DENALI_PHY_924_DATA + 0x00000000, // DENALI_PHY_925_DATA + 0x00000000, // DENALI_PHY_926_DATA + 0x00000000, // DENALI_PHY_927_DATA + 0x00000000, // DENALI_PHY_928_DATA + 0x00200000, // DENALI_PHY_929_DATA + 0x00000000, // DENALI_PHY_930_DATA + 0x00000000, // DENALI_PHY_931_DATA + 0x00000000, // DENALI_PHY_932_DATA + 0x00000000, // DENALI_PHY_933_DATA + 0x00000000, // DENALI_PHY_934_DATA + 0x00000000, // DENALI_PHY_935_DATA + 0x02800280, // DENALI_PHY_936_DATA + 0x02800280, // DENALI_PHY_937_DATA + 0x02800280, // DENALI_PHY_938_DATA + 0x02800280, // DENALI_PHY_939_DATA + 0x00000280, // DENALI_PHY_940_DATA + 0x00000000, // DENALI_PHY_941_DATA + 0x00000000, // DENALI_PHY_942_DATA + 0x00000000, // DENALI_PHY_943_DATA + 0x00000000, // DENALI_PHY_944_DATA + 0x00000000, // DENALI_PHY_945_DATA + 0x00800080, // DENALI_PHY_946_DATA + 0x00800080, // DENALI_PHY_947_DATA + 0x00800080, // DENALI_PHY_948_DATA + 0x00800080, // DENALI_PHY_949_DATA + 0x00800080, // DENALI_PHY_950_DATA + 0x00800080, // DENALI_PHY_951_DATA + 0x00800080, // DENALI_PHY_952_DATA + 0x00800080, // DENALI_PHY_953_DATA + 0x00800080, // DENALI_PHY_954_DATA + 0x000100da, // DENALI_PHY_955_DATA + 0x01ff0010, // DENALI_PHY_956_DATA + 0x00000000, // DENALI_PHY_957_DATA + 0x00000000, // DENALI_PHY_958_DATA + 0x00000002, // DENALI_PHY_959_DATA + 0x51313152, // DENALI_PHY_960_DATA + 0x80013130, // DENALI_PHY_961_DATA + 0x02000080, // DENALI_PHY_962_DATA + 0x00100001, // DENALI_PHY_963_DATA + 0x0c064208, // DENALI_PHY_964_DATA + 0x000f0c0f, // DENALI_PHY_965_DATA + 0x01000140, // DENALI_PHY_966_DATA + 0x0000000c, // DENALI_PHY_967_DATA + 0x00000000, // DENALI_PHY_968_DATA + 0x00000000, // DENALI_PHY_969_DATA + 0x00000000, // DENALI_PHY_970_DATA + 0x00000000, // DENALI_PHY_971_DATA + 0x00000000, // DENALI_PHY_972_DATA + 0x00000000, // DENALI_PHY_973_DATA + 0x00000000, // DENALI_PHY_974_DATA + 0x00000000, // DENALI_PHY_975_DATA + 0x00000000, // DENALI_PHY_976_DATA + 0x00000000, // DENALI_PHY_977_DATA + 0x00000000, // DENALI_PHY_978_DATA + 0x00000000, // DENALI_PHY_979_DATA + 0x00000000, // DENALI_PHY_980_DATA + 0x00000000, // DENALI_PHY_981_DATA + 0x00000000, // DENALI_PHY_982_DATA + 0x00000000, // DENALI_PHY_983_DATA + 0x00000000, // DENALI_PHY_984_DATA + 0x00000000, // DENALI_PHY_985_DATA + 0x00000000, // DENALI_PHY_986_DATA + 0x00000000, // DENALI_PHY_987_DATA + 0x00000000, // DENALI_PHY_988_DATA + 0x00000000, // DENALI_PHY_989_DATA + 0x00000000, // DENALI_PHY_990_DATA + 0x00000000, // DENALI_PHY_991_DATA + 0x00000000, // DENALI_PHY_992_DATA + 0x00000000, // DENALI_PHY_993_DATA + 0x00000000, // DENALI_PHY_994_DATA + 0x00000000, // DENALI_PHY_995_DATA + 0x00000000, // DENALI_PHY_996_DATA + 0x00000000, // DENALI_PHY_997_DATA + 0x00000000, // DENALI_PHY_998_DATA + 0x00000000, // DENALI_PHY_999_DATA + 0x00000000, // DENALI_PHY_1000_DATA + 0x00000000, // DENALI_PHY_1001_DATA + 0x00000000, // DENALI_PHY_1002_DATA + 0x00000000, // DENALI_PHY_1003_DATA + 0x00000000, // DENALI_PHY_1004_DATA + 0x00000000, // DENALI_PHY_1005_DATA + 0x00000000, // DENALI_PHY_1006_DATA + 0x00000000, // DENALI_PHY_1007_DATA + 0x00000000, // DENALI_PHY_1008_DATA + 0x00000000, // DENALI_PHY_1009_DATA + 0x00000000, // DENALI_PHY_1010_DATA + 0x00000000, // DENALI_PHY_1011_DATA + 0x00000000, // DENALI_PHY_1012_DATA + 0x00000000, // DENALI_PHY_1013_DATA + 0x00000000, // DENALI_PHY_1014_DATA + 0x00000000, // DENALI_PHY_1015_DATA + 0x00000000, // DENALI_PHY_1016_DATA + 0x00000000, // DENALI_PHY_1017_DATA + 0x00000000, // DENALI_PHY_1018_DATA + 0x00000000, // DENALI_PHY_1019_DATA + 0x00000000, // DENALI_PHY_1020_DATA + 0x00000000, // DENALI_PHY_1021_DATA + 0x00000000, // DENALI_PHY_1022_DATA + 0x00000000, // DENALI_PHY_1023_DATA + 0x76543210, // DENALI_PHY_1024_DATA + 0x0004c008, // DENALI_PHY_1025_DATA + 0x000000da, // DENALI_PHY_1026_DATA + 0x00000000, // DENALI_PHY_1027_DATA + 0x00000000, // DENALI_PHY_1028_DATA + 0x00010000, // DENALI_PHY_1029_DATA + 0x01665555, // DENALI_PHY_1030_DATA + 0x01665555, // DENALI_PHY_1031_DATA + 0x01030001, // DENALI_PHY_1032_DATA + 0x01000000, // DENALI_PHY_1033_DATA + 0x00c00000, // DENALI_PHY_1034_DATA + 0x00000007, // DENALI_PHY_1035_DATA + 0x00000000, // DENALI_PHY_1036_DATA + 0x00000000, // DENALI_PHY_1037_DATA + 0x04000408, // DENALI_PHY_1038_DATA + 0x00000408, // DENALI_PHY_1039_DATA + 0x00e4e400, // DENALI_PHY_1040_DATA + 0x00000000, // DENALI_PHY_1041_DATA + 0x00000000, // DENALI_PHY_1042_DATA + 0x00000000, // DENALI_PHY_1043_DATA + 0x00000000, // DENALI_PHY_1044_DATA + 0x00000000, // DENALI_PHY_1045_DATA + 0x00000000, // DENALI_PHY_1046_DATA + 0x00000000, // DENALI_PHY_1047_DATA + 0x00000000, // DENALI_PHY_1048_DATA + 0x00000000, // DENALI_PHY_1049_DATA + 0x00000000, // DENALI_PHY_1050_DATA + 0x00000000, // DENALI_PHY_1051_DATA + 0x00000000, // DENALI_PHY_1052_DATA + 0x00000000, // DENALI_PHY_1053_DATA + 0x00000000, // DENALI_PHY_1054_DATA + 0x00000000, // DENALI_PHY_1055_DATA + 0x00000000, // DENALI_PHY_1056_DATA + 0x00200000, // DENALI_PHY_1057_DATA + 0x00000000, // DENALI_PHY_1058_DATA + 0x00000000, // DENALI_PHY_1059_DATA + 0x00000000, // DENALI_PHY_1060_DATA + 0x00000000, // DENALI_PHY_1061_DATA + 0x00000000, // DENALI_PHY_1062_DATA + 0x00000000, // DENALI_PHY_1063_DATA + 0x02800280, // DENALI_PHY_1064_DATA + 0x02800280, // DENALI_PHY_1065_DATA + 0x02800280, // DENALI_PHY_1066_DATA + 0x02800280, // DENALI_PHY_1067_DATA + 0x00000280, // DENALI_PHY_1068_DATA + 0x00000000, // DENALI_PHY_1069_DATA + 0x00000000, // DENALI_PHY_1070_DATA + 0x00000000, // DENALI_PHY_1071_DATA + 0x00000000, // DENALI_PHY_1072_DATA + 0x00000000, // DENALI_PHY_1073_DATA + 0x00800080, // DENALI_PHY_1074_DATA + 0x00800080, // DENALI_PHY_1075_DATA + 0x00800080, // DENALI_PHY_1076_DATA + 0x00800080, // DENALI_PHY_1077_DATA + 0x00800080, // DENALI_PHY_1078_DATA + 0x00800080, // DENALI_PHY_1079_DATA + 0x00800080, // DENALI_PHY_1080_DATA + 0x00800080, // DENALI_PHY_1081_DATA + 0x00800080, // DENALI_PHY_1082_DATA + 0x000100da, // DENALI_PHY_1083_DATA + 0x01ff0010, // DENALI_PHY_1084_DATA + 0x00000000, // DENALI_PHY_1085_DATA + 0x00000000, // DENALI_PHY_1086_DATA + 0x00000002, // DENALI_PHY_1087_DATA + 0x51313152, // DENALI_PHY_1088_DATA + 0x80013130, // DENALI_PHY_1089_DATA + 0x02000080, // DENALI_PHY_1090_DATA + 0x00100001, // DENALI_PHY_1091_DATA + 0x0c064208, // DENALI_PHY_1092_DATA + 0x000f0c0f, // DENALI_PHY_1093_DATA + 0x01000140, // DENALI_PHY_1094_DATA + 0x0000000c, // DENALI_PHY_1095_DATA + 0x00000000, // DENALI_PHY_1096_DATA + 0x00000000, // DENALI_PHY_1097_DATA + 0x00000000, // DENALI_PHY_1098_DATA + 0x00000000, // DENALI_PHY_1099_DATA + 0x00000000, // DENALI_PHY_1100_DATA + 0x00000000, // DENALI_PHY_1101_DATA + 0x00000000, // DENALI_PHY_1102_DATA + 0x00000000, // DENALI_PHY_1103_DATA + 0x00000000, // DENALI_PHY_1104_DATA + 0x00000000, // DENALI_PHY_1105_DATA + 0x00000000, // DENALI_PHY_1106_DATA + 0x00000000, // DENALI_PHY_1107_DATA + 0x00000000, // DENALI_PHY_1108_DATA + 0x00000000, // DENALI_PHY_1109_DATA + 0x00000000, // DENALI_PHY_1110_DATA + 0x00000000, // DENALI_PHY_1111_DATA + 0x00000000, // DENALI_PHY_1112_DATA + 0x00000000, // DENALI_PHY_1113_DATA + 0x00000000, // DENALI_PHY_1114_DATA + 0x00000000, // DENALI_PHY_1115_DATA + 0x00000000, // DENALI_PHY_1116_DATA + 0x00000000, // DENALI_PHY_1117_DATA + 0x00000000, // DENALI_PHY_1118_DATA + 0x00000000, // DENALI_PHY_1119_DATA + 0x00000000, // DENALI_PHY_1120_DATA + 0x00000000, // DENALI_PHY_1121_DATA + 0x00000000, // DENALI_PHY_1122_DATA + 0x00000000, // DENALI_PHY_1123_DATA + 0x00000000, // DENALI_PHY_1124_DATA + 0x00000000, // DENALI_PHY_1125_DATA + 0x00000000, // DENALI_PHY_1126_DATA + 0x00000000, // DENALI_PHY_1127_DATA + 0x00000000, // DENALI_PHY_1128_DATA + 0x00000000, // DENALI_PHY_1129_DATA + 0x00000000, // DENALI_PHY_1130_DATA + 0x00000000, // DENALI_PHY_1131_DATA + 0x00000000, // DENALI_PHY_1132_DATA + 0x00000000, // DENALI_PHY_1133_DATA + 0x00000000, // DENALI_PHY_1134_DATA + 0x00000000, // DENALI_PHY_1135_DATA + 0x00000000, // DENALI_PHY_1136_DATA + 0x00000000, // DENALI_PHY_1137_DATA + 0x00000000, // DENALI_PHY_1138_DATA + 0x00000000, // DENALI_PHY_1139_DATA + 0x00000000, // DENALI_PHY_1140_DATA + 0x00000000, // DENALI_PHY_1141_DATA + 0x00000000, // DENALI_PHY_1142_DATA + 0x00000000, // DENALI_PHY_1143_DATA + 0x00000000, // DENALI_PHY_1144_DATA + 0x00000000, // DENALI_PHY_1145_DATA + 0x00000000, // DENALI_PHY_1146_DATA + 0x00000000, // DENALI_PHY_1147_DATA + 0x00000000, // DENALI_PHY_1148_DATA + 0x00000000, // DENALI_PHY_1149_DATA + 0x00000000, // DENALI_PHY_1150_DATA + 0x00000000, // DENALI_PHY_1151_DATA + 0x00000000, // DENALI_PHY_1152_DATA + 0x00000000, // DENALI_PHY_1153_DATA + 0x00050000, // DENALI_PHY_1154_DATA + 0x00000000, // DENALI_PHY_1155_DATA + 0x00000000, // DENALI_PHY_1156_DATA + 0x00000000, // DENALI_PHY_1157_DATA + 0x00000100, // DENALI_PHY_1158_DATA + 0x00000000, // DENALI_PHY_1159_DATA + 0x00000000, // DENALI_PHY_1160_DATA + 0x00506401, // DENALI_PHY_1161_DATA + 0x01221102, // DENALI_PHY_1162_DATA + 0x00000122, // DENALI_PHY_1163_DATA + 0x00000000, // DENALI_PHY_1164_DATA + 0x000B1F00, // DENALI_PHY_1165_DATA + 0x0B1F0B1F, // DENALI_PHY_1166_DATA + 0x0B1F0B1F, // DENALI_PHY_1167_DATA + 0x0B1F0B1F, // DENALI_PHY_1168_DATA + 0x0B1F0B1F, // DENALI_PHY_1169_DATA + 0x00000B00, // DENALI_PHY_1170_DATA + 0x42080010, // DENALI_PHY_1171_DATA + 0x01000100, // DENALI_PHY_1172_DATA + 0x01000100, // DENALI_PHY_1173_DATA + 0x01000100, // DENALI_PHY_1174_DATA + 0x01000100, // DENALI_PHY_1175_DATA + 0x00000000, // DENALI_PHY_1176_DATA + 0x00000000, // DENALI_PHY_1177_DATA + 0x00000000, // DENALI_PHY_1178_DATA + 0x00000000, // DENALI_PHY_1179_DATA + 0x00000000, // DENALI_PHY_1180_DATA + 0x00000803, // DENALI_PHY_1181_DATA + 0x223FFF00, // DENALI_PHY_1182_DATA + 0x000008FF, // DENALI_PHY_1183_DATA + 0x0000057F, // DENALI_PHY_1184_DATA + 0x0000057F, // DENALI_PHY_1185_DATA + 0x00037FFF, // DENALI_PHY_1186_DATA + 0x00037FFF, // DENALI_PHY_1187_DATA + 0x00004410, // DENALI_PHY_1188_DATA + 0x00004410, // DENALI_PHY_1189_DATA + 0x00004410, // DENALI_PHY_1190_DATA + 0x00004410, // DENALI_PHY_1191_DATA + 0x00004410, // DENALI_PHY_1192_DATA + 0x00000111, // DENALI_PHY_1193_DATA + 0x00000111, // DENALI_PHY_1194_DATA + 0x00000000, // DENALI_PHY_1195_DATA + 0x00000000, // DENALI_PHY_1196_DATA + 0x00000000, // DENALI_PHY_1197_DATA + 0x04000000, // DENALI_PHY_1198_DATA + 0x00000000, // DENALI_PHY_1199_DATA + 0x00000000, // DENALI_PHY_1200_DATA + 0x00000108, // DENALI_PHY_1201_DATA + 0x00000000, // DENALI_PHY_1202_DATA + 0x00000000, // DENALI_PHY_1203_DATA + 0x00000000, // DENALI_PHY_1204_DATA + 0x00000001, // DENALI_PHY_1205_DATA + 0x00000000, // DENALI_PHY_1206_DATA + 0x00000000, // DENALI_PHY_1207_DATA + 0x00000000, // DENALI_PHY_1208_DATA + 0x00000000, // DENALI_PHY_1209_DATA + 0x00000000, // DENALI_PHY_1210_DATA + 0x00000000, // DENALI_PHY_1211_DATA + 0x00020100, // DENALI_PHY_1212_DATA + 0x00000000, // DENALI_PHY_1213_DATA + 0x00000000, // DENALI_PHY_1214_DATA +}; + +const uint32_t denali_ddr_ctl_data[265] = { + 0x00000a00, // DENALI_CTL_00_DATA + 0x00000000, // DENALI_CTL_01_DATA + 0x00000000, // DENALI_CTL_02_DATA + 0x00000000, // DENALI_CTL_03_DATA + 0x00000000, // DENALI_CTL_04_DATA + 0x00000000, // DENALI_CTL_05_DATA + 0x0000000a, // DENALI_CTL_06_DATA + 0x0002d362, // DENALI_CTL_07_DATA + 0x00071073, // DENALI_CTL_08_DATA + 0x0a1c0255, // DENALI_CTL_09_DATA + 0x1c1c0400, // DENALI_CTL_10_DATA + 0x0404c90b, // DENALI_CTL_11_DATA + 0x2b050405, // DENALI_CTL_12_DATA + 0x0d0c081e, // DENALI_CTL_13_DATA + 0x08090914, // DENALI_CTL_14_DATA + 0x00fde718, // DENALI_CTL_15_DATA + 0x00180a05, // DENALI_CTL_16_DATA + 0x008b130d, // DENALI_CTL_17_DATA + 0x01000118, // DENALI_CTL_18_DATA + 0x0d032001, // DENALI_CTL_19_DATA + 0x00000000, // DENALI_CTL_20_DATA + 0x00000101, // DENALI_CTL_21_DATA + 0x00000000, // DENALI_CTL_22_DATA + 0x0a000000, // DENALI_CTL_23_DATA + 0x00000000, // DENALI_CTL_24_DATA + 0x01450100, // DENALI_CTL_25_DATA + 0x00001c36, // DENALI_CTL_26_DATA + 0x00000005, // DENALI_CTL_27_DATA + 0x00170006, // DENALI_CTL_28_DATA + 0x014e0400, // DENALI_CTL_29_DATA + 0x03010000, // DENALI_CTL_30_DATA + 0x000a0e00, // DENALI_CTL_31_DATA + 0x04030200, // DENALI_CTL_32_DATA + 0x0000031f, // DENALI_CTL_33_DATA + 0x00070004, // DENALI_CTL_34_DATA + 0x00000000, // DENALI_CTL_35_DATA + 0x00000000, // DENALI_CTL_36_DATA + 0x00000000, // DENALI_CTL_37_DATA + 0x00000000, // DENALI_CTL_38_DATA + 0x00000000, // DENALI_CTL_39_DATA + 0x00000000, // DENALI_CTL_40_DATA + 0x00000000, // DENALI_CTL_41_DATA + 0x00000000, // DENALI_CTL_42_DATA + 0x00000000, // DENALI_CTL_43_DATA + 0x00000000, // DENALI_CTL_44_DATA + 0x00000000, // DENALI_CTL_45_DATA + 0x00000000, // DENALI_CTL_46_DATA + 0x00000000, // DENALI_CTL_47_DATA + 0x00000000, // DENALI_CTL_48_DATA + 0x00000000, // DENALI_CTL_49_DATA + 0x00000000, // DENALI_CTL_50_DATA + 0x00000000, // DENALI_CTL_51_DATA + 0x00000000, // DENALI_CTL_52_DATA + 0x00000000, // DENALI_CTL_53_DATA + 0x00000000, // DENALI_CTL_54_DATA + 0x00000000, // DENALI_CTL_55_DATA + 0x00000000, // DENALI_CTL_56_DATA + 0x00000000, // DENALI_CTL_57_DATA + 0x00000000, // DENALI_CTL_58_DATA + 0x00000000, // DENALI_CTL_59_DATA + 0x00000424, // DENALI_CTL_60_DATA + 0x00000201, // DENALI_CTL_61_DATA + 0x00001008, // DENALI_CTL_62_DATA + 0x00000000, // DENALI_CTL_63_DATA + 0x00000200, // DENALI_CTL_64_DATA + 0x00000800, // DENALI_CTL_65_DATA + 0x00000481, // DENALI_CTL_66_DATA + 0x00000400, // DENALI_CTL_67_DATA + 0x00000424, // DENALI_CTL_68_DATA + 0x00000201, // DENALI_CTL_69_DATA + 0x00001008, // DENALI_CTL_70_DATA + 0x00000000, // DENALI_CTL_71_DATA + 0x00000200, // DENALI_CTL_72_DATA + 0x00000800, // DENALI_CTL_73_DATA + 0x00000481, // DENALI_CTL_74_DATA + 0x00000400, // DENALI_CTL_75_DATA + 0x01010000, // DENALI_CTL_76_DATA + 0x00000000, // DENALI_CTL_77_DATA + 0x00000000, // DENALI_CTL_78_DATA + 0x00000000, // DENALI_CTL_79_DATA + 0x00000000, // DENALI_CTL_80_DATA + 0x00000000, // DENALI_CTL_81_DATA + 0x00000000, // DENALI_CTL_82_DATA + 0x00000000, // DENALI_CTL_83_DATA + 0x00000000, // DENALI_CTL_84_DATA + 0x00000000, // DENALI_CTL_85_DATA + 0x00000000, // DENALI_CTL_86_DATA + 0x00000000, // DENALI_CTL_87_DATA + 0x00000000, // DENALI_CTL_88_DATA + 0x00000000, // DENALI_CTL_89_DATA + 0x00000000, // DENALI_CTL_90_DATA + 0x00000000, // DENALI_CTL_91_DATA + 0x00000000, // DENALI_CTL_92_DATA + 0x00000000, // DENALI_CTL_93_DATA + 0x00000000, // DENALI_CTL_94_DATA + 0x00000000, // DENALI_CTL_95_DATA + 0x00000000, // DENALI_CTL_96_DATA + 0x00000000, // DENALI_CTL_97_DATA + 0x00000000, // DENALI_CTL_98_DATA + 0x00000000, // DENALI_CTL_99_DATA + 0x00000000, // DENALI_CTL_100_DATA + 0x00000000, // DENALI_CTL_101_DATA + 0x00000000, // DENALI_CTL_102_DATA + 0x00000000, // DENALI_CTL_103_DATA + 0x00000000, // DENALI_CTL_104_DATA + 0x00000003, // DENALI_CTL_105_DATA + 0x00000000, // DENALI_CTL_106_DATA + 0x00000000, // DENALI_CTL_107_DATA + 0x00000000, // DENALI_CTL_108_DATA + 0x00000000, // DENALI_CTL_109_DATA + 0x01000000, // DENALI_CTL_110_DATA + 0x00040000, // DENALI_CTL_111_DATA + 0x00800200, // DENALI_CTL_112_DATA + 0x00000200, // DENALI_CTL_113_DATA + 0x00000040, // DENALI_CTL_114_DATA + 0x01000100, // DENALI_CTL_115_DATA + 0x0a000002, // DENALI_CTL_116_DATA + 0x0101ffff, // DENALI_CTL_117_DATA + 0x01010101, // DENALI_CTL_118_DATA + 0x01010101, // DENALI_CTL_119_DATA + 0x0000010b, // DENALI_CTL_120_DATA + 0x00000c03, // DENALI_CTL_121_DATA + 0x00000000, // DENALI_CTL_122_DATA + 0x00000000, // DENALI_CTL_123_DATA + 0x00000000, // DENALI_CTL_124_DATA + 0x00000000, // DENALI_CTL_125_DATA + 0x00030300, // DENALI_CTL_126_DATA + 0x00000000, // DENALI_CTL_127_DATA + 0x00010101, // DENALI_CTL_128_DATA + 0x00000000, // DENALI_CTL_129_DATA + 0x00000000, // DENALI_CTL_130_DATA + 0x00000000, // DENALI_CTL_131_DATA + 0x00000000, // DENALI_CTL_132_DATA + 0x00000000, // DENALI_CTL_133_DATA + 0x00000000, // DENALI_CTL_134_DATA + 0x00000000, // DENALI_CTL_135_DATA + 0x00000000, // DENALI_CTL_136_DATA + 0x00000000, // DENALI_CTL_137_DATA + 0x00000000, // DENALI_CTL_138_DATA + 0x00000000, // DENALI_CTL_139_DATA + 0x00000000, // DENALI_CTL_140_DATA + 0x00000000, // DENALI_CTL_141_DATA + 0x00000000, // DENALI_CTL_142_DATA + 0x00000000, // DENALI_CTL_143_DATA + 0x00000000, // DENALI_CTL_144_DATA + 0x00000000, // DENALI_CTL_145_DATA + 0x00000000, // DENALI_CTL_146_DATA + 0x00000000, // DENALI_CTL_147_DATA + 0x00000000, // DENALI_CTL_148_DATA + 0x00000000, // DENALI_CTL_149_DATA + 0x00000000, // DENALI_CTL_150_DATA + 0x00000000, // DENALI_CTL_151_DATA + 0x00000000, // DENALI_CTL_152_DATA + 0x00000000, // DENALI_CTL_153_DATA + 0x00000000, // DENALI_CTL_154_DATA + 0x00000000, // DENALI_CTL_155_DATA + 0x00000000, // DENALI_CTL_156_DATA + 0x00000000, // DENALI_CTL_157_DATA + 0x00000000, // DENALI_CTL_158_DATA + 0x00000000, // DENALI_CTL_159_DATA + 0x00000000, // DENALI_CTL_160_DATA + 0x02010102, // DENALI_CTL_161_DATA + 0x0108070d, // DENALI_CTL_162_DATA + 0x05050300, // DENALI_CTL_163_DATA + 0x04000503, // DENALI_CTL_164_DATA + 0x00000000, // DENALI_CTL_165_DATA + 0x00000000, // DENALI_CTL_166_DATA + 0x00000000, // DENALI_CTL_167_DATA + 0x00000000, // DENALI_CTL_168_DATA + 0x280d0000, // DENALI_CTL_169_DATA + 0x01000000, // DENALI_CTL_170_DATA + 0x00000000, // DENALI_CTL_171_DATA + 0x00030001, // DENALI_CTL_172_DATA + 0x00000000, // DENALI_CTL_173_DATA + 0x00000000, // DENALI_CTL_174_DATA + 0x00000000, // DENALI_CTL_175_DATA + 0x00000000, // DENALI_CTL_176_DATA + 0x00000000, // DENALI_CTL_177_DATA + 0x00000000, // DENALI_CTL_178_DATA + 0x00000000, // DENALI_CTL_179_DATA + 0x00000000, // DENALI_CTL_180_DATA + 0x01000000, // DENALI_CTL_181_DATA + 0x00000001, // DENALI_CTL_182_DATA + 0x00000100, // DENALI_CTL_183_DATA + 0x00010303, // DENALI_CTL_184_DATA + 0x67676701, // DENALI_CTL_185_DATA + 0x67676767, // DENALI_CTL_186_DATA + 0x67676767, // DENALI_CTL_187_DATA + 0x67676767, // DENALI_CTL_188_DATA + 0x67676767, // DENALI_CTL_189_DATA + 0x67676767, // DENALI_CTL_190_DATA + 0x67676767, // DENALI_CTL_191_DATA + 0x67676767, // DENALI_CTL_192_DATA + 0x67676767, // DENALI_CTL_193_DATA + 0x01000067, // DENALI_CTL_194_DATA + 0x00000001, // DENALI_CTL_195_DATA + 0x00000101, // DENALI_CTL_196_DATA + 0x00000000, // DENALI_CTL_197_DATA + 0x00000000, // DENALI_CTL_198_DATA + 0x00000000, // DENALI_CTL_199_DATA + 0x00000000, // DENALI_CTL_200_DATA + 0x00000000, // DENALI_CTL_201_DATA + 0x00000000, // DENALI_CTL_202_DATA + 0x00000000, // DENALI_CTL_203_DATA + 0x00000000, // DENALI_CTL_204_DATA + 0x00000000, // DENALI_CTL_205_DATA + 0x00000000, // DENALI_CTL_206_DATA + 0x00000000, // DENALI_CTL_207_DATA + 0x00000001, // DENALI_CTL_208_DATA + 0x00000000, // DENALI_CTL_209_DATA + 0x007fffff, // DENALI_CTL_210_DATA + 0x00000000, // DENALI_CTL_211_DATA + 0x007fffff, // DENALI_CTL_212_DATA + 0x00000000, // DENALI_CTL_213_DATA + 0x007fffff, // DENALI_CTL_214_DATA + 0x00000000, // DENALI_CTL_215_DATA + 0x007fffff, // DENALI_CTL_216_DATA + 0x00000000, // DENALI_CTL_217_DATA + 0x007fffff, // DENALI_CTL_218_DATA + 0x00000000, // DENALI_CTL_219_DATA + 0x007fffff, // DENALI_CTL_220_DATA + 0x00000000, // DENALI_CTL_221_DATA + 0x007fffff, // DENALI_CTL_222_DATA + 0x00000000, // DENALI_CTL_223_DATA + 0x037fffff, // DENALI_CTL_224_DATA + 0xffffffff, // DENALI_CTL_225_DATA + 0x000f000f, // DENALI_CTL_226_DATA + 0x00ffff03, // DENALI_CTL_227_DATA + 0x000fffff, // DENALI_CTL_228_DATA + 0x0003000f, // DENALI_CTL_229_DATA + 0xffffffff, // DENALI_CTL_230_DATA + 0x000f000f, // DENALI_CTL_231_DATA + 0x00ffff03, // DENALI_CTL_232_DATA + 0x000fffff, // DENALI_CTL_233_DATA + 0x0003000f, // DENALI_CTL_234_DATA + 0xffffffff, // DENALI_CTL_235_DATA + 0x000f000f, // DENALI_CTL_236_DATA + 0x00ffff03, // DENALI_CTL_237_DATA + 0x000fffff, // DENALI_CTL_238_DATA + 0x0003000f, // DENALI_CTL_239_DATA + 0xffffffff, // DENALI_CTL_240_DATA + 0x000f000f, // DENALI_CTL_241_DATA + 0x00ffff03, // DENALI_CTL_242_DATA + 0x000fffff, // DENALI_CTL_243_DATA + 0x6407000f, // DENALI_CTL_244_DATA + 0x01640001, // DENALI_CTL_245_DATA + 0x00000000, // DENALI_CTL_246_DATA + 0x00000000, // DENALI_CTL_247_DATA + 0x00001800, // DENALI_CTL_248_DATA + 0x00386c05, // DENALI_CTL_249_DATA + 0x02000200, // DENALI_CTL_250_DATA + 0x02000200, // DENALI_CTL_251_DATA + 0x0000386c, // DENALI_CTL_252_DATA + 0x00023438, // DENALI_CTL_253_DATA + 0x02020d0f, // DENALI_CTL_254_DATA + 0x00140303, // DENALI_CTL_255_DATA + 0x00000000, // DENALI_CTL_256_DATA + 0x00000000, // DENALI_CTL_257_DATA + 0x00001403, // DENALI_CTL_258_DATA + 0x00000000, // DENALI_CTL_259_DATA + 0x00000000, // DENALI_CTL_260_DATA + 0x00000000, // DENALI_CTL_261_DATA + 0x00000000, // DENALI_CTL_262_DATA + 0x0c010000, // DENALI_CTL_263_DATA + 0x00000008, // DENALI_CTL_264_DATA +}; diff --git a/src/soc/sifive/fu740/gpio.c b/src/soc/sifive/fu740/gpio.c new file mode 100644 index 0000000000..167844daa7 --- /dev/null +++ b/src/soc/sifive/fu740/gpio.c @@ -0,0 +1,64 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <console/console.h> +#include <soc/addressmap.h> +#include <soc/gpio.h> +#include <stdint.h> +#include <arch/mmio.h> +#include <delay.h> +#include <assert.h> +#include <device/mmio.h> +#include <gpio.h> + +#define SIFIVE_GPIO_INPUT_VAL (FU740_GPIO + 0x00) +#define SIFIVE_GPIO_INPUT_EN (FU740_GPIO + 0x04) +#define SIFIVE_GPIO_OUTPUT_EN (FU740_GPIO + 0x08) +#define SIFIVE_GPIO_OUTPUT_VAL (FU740_GPIO + 0x0C) +#define SIFIVE_GPIO_PUE (FU740_GPIO + 0x10) +#define SIFIVE_GPIO_DS (FU740_GPIO + 0x14) +#define SIFIVE_GPIO_RISE_IE (FU740_GPIO + 0x18) +#define SIFIVE_GPIO_RISE_IP (FU740_GPIO + 0x1C) +#define SIFIVE_GPIO_FALL_IE (FU740_GPIO + 0x20) +#define SIFIVE_GPIO_FALL_IP (FU740_GPIO + 0x24) +#define SIFIVE_GPIO_HIGH_IE (FU740_GPIO + 0x28) +#define SIFIVE_GPIO_HIGH_IP (FU740_GPIO + 0x2C) +#define SIFIVE_GPIO_LOW_IE (FU740_GPIO + 0x30) +#define SIFIVE_GPIO_LOW_IP (FU740_GPIO + 0x34) +#define SIFIVE_GPIO_IOF_EN (FU740_GPIO + 0x38) +#define SIFIVE_GPIO_IOF_SEL (FU740_GPIO + 0x3C) +#define SIFIVE_GPIO_OUT_XOR (FU740_GPIO + 0x40) + +void gpio_set(gpio_t gpio, int value) +{ + uint32_t output_val = read32((void *)SIFIVE_GPIO_OUTPUT_VAL); + + if (value) + output_val |= (1 << gpio); + else + output_val &= ~(1 << gpio); + + write32((void *)SIFIVE_GPIO_OUTPUT_VAL, output_val); +} + +int gpio_get(gpio_t gpio) +{ + uint32_t input_val = read32((void *)SIFIVE_GPIO_INPUT_VAL); + return !!(input_val & (1 << gpio)); +} + +void gpio_set_direction(gpio_t gpio, enum gpio_direction gpio_dir) +{ + uint32_t input_en = read32((void *)SIFIVE_GPIO_INPUT_EN); + uint32_t output_en = read32((void *)SIFIVE_GPIO_OUTPUT_EN); + + if (gpio_dir == GPIO_OUTPUT) { + input_en &= ~(1 << gpio); + output_en |= (1 << gpio); + } else if (gpio_dir == GPIO_INPUT) { + input_en |= (1 << gpio); + output_en &= ~(1 << gpio); + } + + write32((void *)SIFIVE_GPIO_INPUT_EN, input_en); + write32((void *)SIFIVE_GPIO_OUTPUT_EN, output_en); +} diff --git a/src/soc/sifive/fu740/include/soc/addressmap.h b/src/soc/sifive/fu740/include/soc/addressmap.h new file mode 100644 index 0000000000..e2aa7314f6 --- /dev/null +++ b/src/soc/sifive/fu740/include/soc/addressmap.h @@ -0,0 +1,41 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +// reference: fu740-c000 manual chapter 5: Memory Map +// Table 15: (TODO: subject for common code: none of these changed compared to fu540) +#define FU740_ROM 0x00001000 +#define FU740_DTIM 0x01000000 +#define FU740_CLINT 0x02000000 +#define FU740_L2LIM 0x08000000 +#define FU740_PRCI 0x10000000 +#define FU740_UART0 0x10010000 +#define FU740_UART1 0x10011000 +#define FU740_QSPI0 0x10040000 +#define FU740_QSPI1 0x10041000 +#define FU740_QSPI2 0x10050000 // in unmatched board schematics it's called SPI0 +#define FU740_GPIO 0x10060000 +#define FU740_OTP 0x10070000 +#define FU740_PINCTRL 0x10080000 +#define FU740_QSPI0FLASH 0x20000000 +#define FU740_QSPI1FLASH 0x30000000 +#define FU740_DRAM 0x80000000 + +#define PCIE_MGMT 0x100D0000 +#define PCIE_CONFIG 0x000DF0000000 +#define PCIE_DBI 0x000E00000000 + +#define FU740_I2C_0 0x10030000 +#define FU740_I2C_1 0x10031000 + +// Reset Vector - 4 +#define FU740_ROM1 0x00001000 +// After reset vector it will jump directly to this address if ZSBL is used (ZSBL code) +#define FU740_ROM2 0x00010000 +#define FU740_MSEL FU740_ROM // mode select is always at start of ROM + +// naming changed a bit between FU540 and FU740 manuals +// Ethernet MAC -> Ethernet +// Ethernet Management -> GEMGXL MGMT +#define SIFIVE_ETHERNET_MAC 0x10090000 +#define SIFIVE_ETHERNET_MGMT 0x100A0000 + +#define FU740_UART(i) (FU740_UART0 + 0x1000 * i) diff --git a/src/soc/sifive/fu740/include/soc/clock.h b/src/soc/sifive/fu740/include/soc/clock.h new file mode 100644 index 0000000000..01cb1b359a --- /dev/null +++ b/src/soc/sifive/fu740/include/soc/clock.h @@ -0,0 +1,9 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef __SOC_SIFIVE_FU740_CLOCK_H__ +#define __SOC_SIFIVE_FU740_CLOCK_H__ + +void clock_init(void); +int clock_get_pclk(void); + +#endif /* __SOC_SIFIVE_FU740_CLOCK_H__ */ diff --git a/src/soc/sifive/fu740/include/soc/gpio.h b/src/soc/sifive/fu740/include/soc/gpio.h new file mode 100644 index 0000000000..b0466cc8c2 --- /dev/null +++ b/src/soc/sifive/fu740/include/soc/gpio.h @@ -0,0 +1,36 @@ +#ifndef _SOC_SIFIVE_FU740_GPIO_H_ +#define _SOC_SIFIVE_FU740_GPIO_H_ + +#include <stdint.h> + +//TODO these are mainboard specific +enum gpio { + J29_1, + PMICINTB, + PMICSHDN, + J8_1, + J8_3, + PCIE_PWREN, // connected to power rails of PCIe connectors + THERM, + UBRDG_RSTN, + PCIE_PERSTN, // connected to PERST pin of PCIe connectors + ULPI_RSTN, + J8_2, + UHUB_RSTN, + GEMGXL_RST, + J8_4, + EN_VDD_SD, + SD_CD, +}; + +// this is to satisfy src/include/gpio.h +typedef enum gpio gpio_t; + +enum gpio_direction { + GPIO_INPUT, + GPIO_OUTPUT, +}; + +void gpio_set_direction(gpio_t gpio, enum gpio_direction gpio_dir); + +#endif // _SOC_SIFIVE_FU740_GPIO_H_ diff --git a/src/soc/sifive/fu740/include/soc/otp.h b/src/soc/sifive/fu740/include/soc/otp.h new file mode 100644 index 0000000000..0405fda224 --- /dev/null +++ b/src/soc/sifive/fu740/include/soc/otp.h @@ -0,0 +1,11 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef __SOC_SIFIVE_FU740_OTP_H__ +#define __SOC_SIFIVE_FU740_OTP_H__ + +#include <stdint.h> + +u32 otp_read_word(u16 idx); +u32 otp_read_serial(void); + +#endif /* __SOC_SIFIVE_FU740_OTP_H__ */ diff --git a/src/soc/sifive/fu740/include/soc/sdram.h b/src/soc/sifive/fu740/include/soc/sdram.h new file mode 100644 index 0000000000..8848d1a587 --- /dev/null +++ b/src/soc/sifive/fu740/include/soc/sdram.h @@ -0,0 +1,12 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef SIFIVE_COMMON_SDRAM_H +#define SIFIVE_COMMON_SDRAM_H + +#include <stdint.h> +#include <types.h> + +void sdram_init(size_t dram_size); +size_t sdram_size(void); + +#endif diff --git a/src/soc/sifive/fu740/include/soc/spi.h b/src/soc/sifive/fu740/include/soc/spi.h new file mode 100644 index 0000000000..5c41019bf5 --- /dev/null +++ b/src/soc/sifive/fu740/include/soc/spi.h @@ -0,0 +1,56 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#ifndef __SOC_SIFIVE_FU740_SPI_H__ +#define __SOC_SIFIVE_FU740_SPI_H__ + +#include <spi-generic.h> + +// Frame Format Register (fmt) + +#define FU740_SPI_PROTO_S 0 // Data Pins: MOSI MISO +#define FU740_SPI_PROTO_D 1 // Data Pins: DQ0 DQ1 +#define FU740_SPI_PROTO_Q 2 // Data Pins: DQ0 DQ1 DQ2 DQ3 + +#define FU740_SPI_ENDIAN_BIG 0 // send MSB first +#define FU740_SPI_ENDIAN_LITTLE 1 // send LSB first + +// Serial Clock Mode Register (sckmode) + +#define FU740_SPI_PHA_LOW 0 // inactive state of SCK is logical 0 +#define FU740_SPI_PHA_HIGH 1 // inactive state of SCK is logical 1 + +#define FU740_SPI_POL_LEADING 0 // data is sampled on leading edge of sck +#define FU740_SPI_POL_TRAILING 1 // data is sampled on trailing edge of sck + +// ffmt register (SPI Flash Instruction Format Register) +struct fu740_spi_ffmt_config { + unsigned int cmd_en; // enable sending of command + unsigned int addr_len; // number of address bytes (0-4) + unsigned int pad_cnt; // number of dummy cycles + unsigned int cmd_proto; // protocol for transmitting command + unsigned int addr_proto; // protocol for transmitting address and padding + unsigned int data_proto; // protocol for receiving data bytes + unsigned int cmd_code; // value of command byte + unsigned int pad_code; // first 8 bits to transmit during dummy cycles +}; + +struct fu740_spi_fmt_config { + unsigned int protocol; // FU740_SPI_PROTO_S, FU740_SPI_PROTO_D, FU740_SPI_PROTO_Q + unsigned int endianness; // 0 = MSB, 1 = LSB + unsigned int io_dir; // Rx, Tx + unsigned int bits_per_frame; // up to 8bits +}; + +struct fu740_spi_config { + unsigned int freq; // speed of spi interface + unsigned int pha; // serial clock phase + unsigned int pol; // serial clock polarity + struct fu740_spi_fmt_config fmt_config; // frame format config + struct fu740_spi_ffmt_config ffmt_config; // flash instruction format +}; + +extern struct fu740_spi_config fu740_spi_configs[]; + +int fu740_spi_setup(const struct spi_slave *slave); + +#endif /* __SOC_SIFIVE_FU740_SPI_H__ */ diff --git a/src/soc/sifive/fu740/memlayout.ld b/src/soc/sifive/fu740/memlayout.ld new file mode 100644 index 0000000000..85d2b4089d --- /dev/null +++ b/src/soc/sifive/fu740/memlayout.ld @@ -0,0 +1,26 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <memlayout.h> +#include <soc/addressmap.h> + +#include <arch/header.ld> + +SECTIONS +{ + SRAM_START(FU740_L2LIM) + /* The 64K size is not allocated. It's just for basic size checking. */ + BOOTBLOCK(FU740_L2LIM, 64K) + CAR_STACK(FU740_L2LIM + 64K, 12K) // considering each harts stack is a pagesize (4K), we can potentially have up to 16 harts regarding stack space //TODO reduce it, since fu740 doesn't even have/support 16 harts + PRERAM_CBMEM_CONSOLE(FU740_L2LIM + 76K, 8K) + CBFS_MCACHE(FU740_L2LIM + 84K, 8K) + FMAP_CACHE(FU740_L2LIM + 92K, 2K) + PRERAM_CBFS_CACHE(FU740_L2LIM + 94K, 128K) + SRAM_END(FU740_L2LIM + 2M) + + DRAM_START(FU740_DRAM) + OPENSBI(FU740_DRAM, 256K) + /* The 256K size is not allocated. It's just for basic size checking. */ + RAMSTAGE(FU740_DRAM + 256K, 256K) + MEM_STACK(FU740_DRAM + 512K, 20K) + POSTRAM_CBFS_CACHE(FU740_DRAM + 532K, 32M - 532K) +} diff --git a/src/soc/sifive/fu740/otp.c b/src/soc/sifive/fu740/otp.c new file mode 100644 index 0000000000..e00086aeae --- /dev/null +++ b/src/soc/sifive/fu740/otp.c @@ -0,0 +1,90 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <delay.h> +#include <device/mmio.h> +#include <console/console.h> +#include <console/uart.h> +#include <soc/addressmap.h> +#include <soc/otp.h> + +/* + * This is a driver for the eMemory EG004K32TQ028XW01 NeoFuse + * One-Time-Programmable (OTP) memory used within the SiFive FU740. + * It is documented in the FU740 manual here: + * https://www.sifive.com/documentation/chips/freedom-u740-c000-manual/ + */ + +struct sifive_otp_registers { + u32 pa; /* Address input */ + u32 paio; /* Program address input */ + u32 pas; /* Program redundancy cell selection input */ + u32 pce; /* OTP Macro enable input */ + u32 pclk; /* Clock input */ + u32 pdin; /* Write data input */ + u32 pdout; /* Read data output */ + u32 pdstb; /* Deep standby mode enable input (active low) */ + u32 pprog; /* Program mode enable input */ + u32 ptc; /* Test column enable input */ + u32 ptm; /* Test mode enable input */ + u32 ptm_rep;/* Repair function test mode enable input */ + u32 ptr; /* Test row enable input */ + u32 ptrim; /* Repair function enable input */ + u32 pwe; /* Write enable input (defines program cycle) */ +} __packed; + +/* + * Read a 32 bit value addressed by its index from the OTP. + * The FU740 stores 4096x32 bit (16KiB) values. + * Index 0x00-0xff are reserved for SiFive internal use. (first 1KiB) + */ + +u32 otp_read_word(u16 idx) +{ + u32 w; + + if (idx >= 0x1000) + die("otp: idx out of bounds"); + + struct sifive_otp_registers *regs = (void *)(FU740_OTP); + + // wake up from stand-by + write32(®s->pdstb, 0x01); + + // enable repair function + write32(®s->ptrim, 0x01); + + // enable input + write32(®s->pce, 0x01); + + // address to read + write32(®s->pa, idx); + + // cycle clock to read + write32(®s->pclk, 0x01); + mdelay(1); + + write32(®s->pclk, 0x00); + mdelay(1); + + w = read32(®s->pdout); + + // shut down + write32(®s->pce, 0x00); + write32(®s->ptrim, 0x00); + write32(®s->pdstb, 0x00); + + return w; +} + +u32 otp_read_serial(void) +{ + u32 serial = 0; + u32 serial_n = 0; + for (int i = 0xfe; i > 0; i -= 2) { + serial = otp_read_word(i); + serial_n = otp_read_word(i+1); + if (serial == ~serial_n) + break; + } + return serial; +} diff --git a/src/soc/sifive/fu740/sdram.c b/src/soc/sifive/fu740/sdram.c new file mode 100644 index 0000000000..167d5a49cb --- /dev/null +++ b/src/soc/sifive/fu740/sdram.c @@ -0,0 +1,246 @@ +/* SPDX-License-Identifier: Apache-2.0 */ +/* SPDX-License-Identifier: GPL-2.0-or-later */ +/* See the file LICENSE for further information */ + +#ifndef _SIFIVE_SDRAM_H +#define _SIFIVE_SDRAM_H + +#include <arch/mmio.h> +#include <console/console.h> +#include <device/mmio.h> +#include <soc/addressmap.h> +#include <soc/sdram.h> +#include <stdint.h> +#include <stddef.h> + +#define DRAM_CLASS_OFFSET 8 +#define DRAM_CLASS_DDR4 0xA +#define OPTIMAL_RMODW_EN_OFFSET 0 +#define DISABLE_RD_INTERLEAVE_OFFSET 16 +#define OUT_OF_RANGE_FLAG (1 << 1) +#define MULTIPLE_OUT_OF_RANGE_FLAG (1 << 2) +#define PORT_COMMAND_CHANNEL_ERROR_FLAG (1 << 7) +#define MC_INIT_COMPLETE_FLAG (1 << 8) // Memory Controller init complete +#define LEVELING_OPERATION_COMPLETED_FLAG (1 << 22) +#define DFI_PHY_WRLELV_MODE_OFFSET 24 +#define DFI_PHY_RDLVL_MODE_OFFSET 24 +#define DFI_PHY_RDLVL_GATE_MODE_OFFSET 0 +#define VREF_EN_OFFSET 24 +#define PORT_ADDR_PROTECTION_EN_OFFSET 0 +#define AXI0_ADDRESS_RANGE_ENABLE_OFFSET 8 +#define AXI0_RANGE_PROT_BITS_0_OFFSET 24 +#define RDLVL_EN_OFFSET 16 +#define RDLVL_GATE_EN_OFFSET 24 +#define WRLVL_EN_OFFSET 0 + +#define PHY_RX_CAL_DQ0_0_OFFSET 0 +#define PHY_RX_CAL_DQ1_0_OFFSET 16 + +// reference: fu740-c000 manual chapter 32: DDR Subsystem +// Cahpter 32.2: Memory Map +#define FU740_DDRCTRL 0x100b0000 +#define FU740_DDRPHY 0x100b2000 +#define FU740_PHYSICAL_FILTER 0x100b8000 // formerly called DDRBUSBLOCKER (FU540) +#define FU740_DDRMGMT 0x100c0000 + +static void phy_reset(u32 *ddrphyreg, const u32 *physettings) +{ + for (int i = 1152; i <= 1214; i++) + write32(&ddrphyreg[i], physettings[i]); + + for (int i = 0; i <= 1151; i++) + write32(&ddrphyreg[i], physettings[i]); +} + +static void ux00ddr_writeregmap(u32 *ahbregaddr, const u32 *ctlsettings, const u32 *physettings) +{ + u32 *ddrctlreg = (u32 *) ahbregaddr; + u32 *ddrphyreg = ((u32 *) ahbregaddr) + (0x2000 / sizeof(u32)); //TODO use FU740_DDRPHY instead + + for (int i = 0; i <= 264; i++) + write32((void *)&ddrctlreg[i], ctlsettings[i]); + + phy_reset(ddrphyreg, physettings); +} + +static void ux00ddr_start(u32 *ahbregaddr, u64 *filteraddr, uint64_t ddrend) +{ + // start calibration and training operation + setbits32(ahbregaddr, 0x1); + + // wait for memory initialization complete + // bit 8 of INT_STATUS (DENALI_CTL_132) 0x210 + while (!(read32(&ahbregaddr[132]) & MC_INIT_COMPLETE_FLAG)) + ; + + // Disable the BusBlocker in front of the controller AXI slave ports + write64(filteraddr, 0x0f00000000000000UL | (ddrend >> 2)); +// ^ RWX + TOR +} + +static void ux00ddr_mask_mc_init_complete_interrupt(u32 *ahbregaddr) +{ + // Mask off Bit 8 of Interrupt Status + // Bit [8] The MC initialization has been completed + setbits32(&ahbregaddr[136], MC_INIT_COMPLETE_FLAG); +} + +static void ux00ddr_mask_outofrange_interrupts(u32 *ahbregaddr) +{ + // Mask off Bit 8, Bit 2 and Bit 1 of Interrupt Status + // Bit [2] Multiple accesses outside the defined PHYSICAL memory space have occurred + // Bit [1] A memory access outside the defined PHYSICAL memory space has occurred + setbits32(&ahbregaddr[136], OUT_OF_RANGE_FLAG | MULTIPLE_OUT_OF_RANGE_FLAG); +} + +static void ux00ddr_mask_port_command_error_interrupt(u32 *ahbregaddr) +{ + // Mask off Bit 7 of Interrupt Status + // Bit [7] An error occurred on the port command channel + setbits32(&ahbregaddr[136], PORT_COMMAND_CHANNEL_ERROR_FLAG); +} + +static void ux00ddr_mask_leveling_completed_interrupt(u32 *ahbregaddr) +{ + // Mask off Bit 22 of Interrupt Status + // Bit [22] The leveling operation has completed + setbits32(&ahbregaddr[136], LEVELING_OPERATION_COMPLETED_FLAG); +} + +static void ux00ddr_setuprangeprotection(u32 *ahbregaddr, size_t size) +{ + write32(&ahbregaddr[209], 0x0); + u32 size_16Kblocks = ((size >> 14) & 0x7FFFFF) - 1; + write32(&ahbregaddr[210], size_16Kblocks); + write32(&ahbregaddr[212], 0x0); + write32(&ahbregaddr[214], 0x0); + write32(&ahbregaddr[216], 0x0); + setbits32(&ahbregaddr[224], (0x3 << AXI0_RANGE_PROT_BITS_0_OFFSET)); + write32(&ahbregaddr[225], 0xFFFFFFFF); + setbits32(&ahbregaddr[208], (1 << AXI0_ADDRESS_RANGE_ENABLE_OFFSET)); + setbits32(&ahbregaddr[208], (1 << PORT_ADDR_PROTECTION_EN_OFFSET)); +} + +static void ux00ddr_disableaxireadinterleave(u32 *ahbregaddr) +{ + setbits32(&ahbregaddr[120], (1 << DISABLE_RD_INTERLEAVE_OFFSET)); +} + +static void ux00ddr_disableoptimalrmodw(u32 *ahbregaddr) +{ + clrbits32(&ahbregaddr[21], (1 << OPTIMAL_RMODW_EN_OFFSET)); +} + +static void ux00ddr_enablewriteleveling(u32 *ahbregaddr) +{ + setbits32(&ahbregaddr[170], (1 << WRLVL_EN_OFFSET) | (1 << DFI_PHY_WRLELV_MODE_OFFSET)); +} + +static void ux00ddr_enablereadleveling(u32 *ahbregaddr) +{ + setbits32(&ahbregaddr[181], (1 << DFI_PHY_RDLVL_MODE_OFFSET)); + setbits32(&ahbregaddr[260], (1 << RDLVL_EN_OFFSET)); +} + +static void ux00ddr_enablereadlevelinggate(u32 *ahbregaddr) +{ + setbits32(&ahbregaddr[260], (1 << RDLVL_GATE_EN_OFFSET)); + setbits32(&ahbregaddr[182], (1 << DFI_PHY_RDLVL_GATE_MODE_OFFSET)); +} + +static void ux00ddr_enablevreftraining(u32 *ahbregaddr) +{ + setbits32(&ahbregaddr[184], (1 << VREF_EN_OFFSET)); +} + +static u32 ux00ddr_getdramclass(u32 *ahbregaddr) +{ + return ((read32(ahbregaddr) >> DRAM_CLASS_OFFSET) & 0xF); +} + +static void ux00ddr_phy_fixup(void *ahbregaddr) +{ + void *ddrphyreg = ahbregaddr + 0x2000; + + // bitmask of failed lanes + uint64_t fails = 0; + u32 slicebase = 0; + u32 dq = 0; + + // check errata condition + for (u32 slice = 0; slice < 8; slice++) { + u32 regbase = slicebase + 34; + for (u32 reg = 0 ; reg < 4; reg++) { + u32 updownreg = read32(ddrphyreg + ((regbase+reg) << 2)); + for (u32 bit = 0; bit < 2; bit++) { + u32 phy_rx_cal_dqn_0_offset; + + if (bit == 0) + phy_rx_cal_dqn_0_offset = PHY_RX_CAL_DQ0_0_OFFSET; + else + phy_rx_cal_dqn_0_offset = PHY_RX_CAL_DQ1_0_OFFSET; + + u32 down = (updownreg >> phy_rx_cal_dqn_0_offset) & 0x3F; + u32 up = (updownreg >> (phy_rx_cal_dqn_0_offset + 6)) & 0x3F; + + uint8_t failc0 = ((down == 0) && (up == 0x3F)); + uint8_t failc1 = ((up == 0) && (down == 0x3F)); + + // print error message on failure + if (failc0 || failc1) { + fails |= (1 << dq); + + char slicelsc = '0'; + char slicemsc = '0'; + slicelsc += (dq % 10); + slicemsc += (dq / 10); + printk(BIOS_ERR, "S %c%c%c\n", slicelsc, slicemsc, failc0 ? 'U' : 'D'); + } + dq++; + } + } + slicebase += 128; + } + if (fails) + printk(BIOS_ERR, "DDR error in fixing up: %llx\n", fails); +} + +extern const u32 denali_ddr_phy_data[1215]; +extern const u32 denali_ddr_ctl_data[265]; + +void sdram_init(size_t dram_size) +{ + u32 *ddrctrl = (u32 *)FU740_DDRCTRL; + u64 *ddr_physical_filter = (u64 *)FU740_PHYSICAL_FILTER; + ux00ddr_writeregmap(ddrctrl, denali_ddr_ctl_data, denali_ddr_phy_data); + ux00ddr_disableaxireadinterleave(ddrctrl); + + ux00ddr_disableoptimalrmodw(ddrctrl); + + ux00ddr_enablewriteleveling(ddrctrl); + ux00ddr_enablereadleveling(ddrctrl); + ux00ddr_enablereadlevelinggate(ddrctrl); + if (ux00ddr_getdramclass(ddrctrl) == DRAM_CLASS_DDR4) + ux00ddr_enablevreftraining(ddrctrl); + + // mask off interrupts for leveling completion + ux00ddr_mask_leveling_completed_interrupt(ddrctrl); + + ux00ddr_mask_mc_init_complete_interrupt(ddrctrl); + ux00ddr_mask_outofrange_interrupts(ddrctrl); + ux00ddr_setuprangeprotection(ddrctrl, dram_size); + ux00ddr_mask_port_command_error_interrupt(ddrctrl); + + ux00ddr_start(ddrctrl, ddr_physical_filter, FU740_DRAM + dram_size); + + ux00ddr_phy_fixup(ddrctrl); +} + +// sdram_init MUST be called before sdram_size +size_t sdram_size(void) +{ + u64 devicepmp0 = read64((u64 *)FU740_PHYSICAL_FILTER); + return ((devicepmp0 & 0xFFFFFFFFFFFFFF) << 2) - FU740_DRAM; +} + +#endif diff --git a/src/soc/sifive/fu740/spi.c b/src/soc/sifive/fu740/spi.c new file mode 100644 index 0000000000..908e6ca476 --- /dev/null +++ b/src/soc/sifive/fu740/spi.c @@ -0,0 +1,209 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +//TODO needs work + +#include <device/mmio.h> +#include <soc/spi.h> +#include <soc/clock.h> +#include <soc/addressmap.h> +#include <delay.h> +#include <lib.h> + +#include "spi_internal.h" + +static struct fu740_spi_ctrl *fu740_spi_ctrls[] = { + (struct fu740_spi_ctrl *)FU740_QSPI0, + (struct fu740_spi_ctrl *)FU740_QSPI1, + (struct fu740_spi_ctrl *)FU740_QSPI2 +}; + +// Wait until SPI is ready for transmission and transmit byte. +static void fu740_spi_tx(volatile struct fu740_spi_ctrl *spictrl_reg, uint8_t in) +{ +#if __riscv_atomic + int32_t r; + do { + asm volatile ( + "amoor.w %0, %2, %1\n" + : "=r" (r), "+A" (spictrl_reg->txdata.raw_bits) + : "r" (in) + ); + } while (r < 0); +#else + while ((int32_t) spictrl_reg->txdata.raw_bits < 0) + ; + spictrl_reg->txdata.data = in; +#endif +} + +// Wait until SPI receive queue has data and read byte. +static uint8_t fu740_spi_rx(volatile struct fu740_spi_ctrl *spictrl_reg) +{ + int32_t out; + while ((out = (int32_t) spictrl_reg->rxdata.raw_bits) < 0) + ; + return (uint8_t) out; +} + +static int fu740_spi_xfer(const struct spi_slave *slave, + const void *dout, size_t bytesout, + void *din, size_t bytesin) +{ + printk(BIOS_DEBUG, "%s 0, bytesin: %zu, bytesout: %zu, din: %p\n", __func__, bytesin, bytesout, din); + hexdump(dout, bytesout); + struct fu740_spi_ctrl *spictrl_reg = fu740_spi_ctrls[slave->bus]; + union fu740_spi_reg_fmt fmt; + fmt.raw_bits = read32(&spictrl_reg->fmt.raw_bits); + if (fmt.proto == FU740_SPI_PROTO_S) { + // working in full-duplex mode + // receiving data needs to be triggered by sending data + while (bytesout || bytesin) { + uint8_t in, out = 0; + if (bytesout) { + out = *(uint8_t *)dout++; + bytesout--; + } + fu740_spi_tx(spictrl_reg, out); + in = fu740_spi_rx(spictrl_reg); + if (bytesin) { + *(uint8_t *)din++ = in; + bytesin--; + } + } + } else { + // Working in half duplex + // send and receive can be done separately + if (dout && din) + return -1; + + if (dout) { + while (bytesout) { + fu740_spi_tx(spictrl_reg, *(uint8_t *)dout++); + bytesout--; + } + } + + if (din) { + while (bytesin) { + *(uint8_t *)din++ = fu740_spi_rx(spictrl_reg); + bytesin--; + } + } + } + return 0; +} + +static int fu740_spi_claim_bus(const struct spi_slave *slave) +{ + struct fu740_spi_ctrl *spictrl = fu740_spi_ctrls[slave->bus]; + union fu740_spi_reg_csmode csmode; + csmode.raw_bits = 0; + csmode.mode = FU740_SPI_CSMODE_HOLD; + write32(&spictrl->csmode.raw_bits, csmode.raw_bits); + return 0; +} + +static void fu740_spi_release_bus(const struct spi_slave *slave) +{ + struct fu740_spi_ctrl *spictrl = fu740_spi_ctrls[slave->bus]; + union fu740_spi_reg_csmode csmode; + csmode.raw_bits = 0; + csmode.mode = FU740_SPI_CSMODE_OFF; + write32(&spictrl->csmode.raw_bits, csmode.raw_bits); +} + +// reset spi flash chip +static void fu740_spi_reset(volatile struct fu740_spi_ctrl *spictrl_reg) +{ + fu740_spi_tx(spictrl_reg, 0x66); + fu740_spi_tx(spictrl_reg, 0x99); +} + +// setup the ffmt (SPI flash instruction format) register +__maybe_unused static int fu740_spi_setup_ffmt(volatile struct fu740_spi_ctrl *spictrl_reg, + const struct fu740_spi_config *config) +{ + //union fu740_spi_reg_fctrl fctrl; + union fu740_spi_reg_ffmt ffmt; + + printk(BIOS_DEBUG, "config->data_proto: %d, config->cmd_code: %d\n", + config->ffmt_config.data_proto, + config->ffmt_config.cmd_code); + + //TODO test without this here + fu740_spi_reset(spictrl_reg); + + ffmt.raw_bits = 0; + ffmt.cmd_en = 1; // enable sending of command + ffmt.addr_len = 3; // number of address bytes (0-4) + ffmt.pad_cnt = 0; // number of dummy cycles TODO maybe not working + ffmt.cmd_proto = FU740_SPI_PROTO_S; // protocol for transmitting command + ffmt.addr_proto = FU740_SPI_PROTO_S; // protocol for transmitting address and padding + ffmt.data_proto = config->ffmt_config.data_proto; // protocol for receiving data bytes + ffmt.cmd_code = config->ffmt_config.cmd_code; // value of command byte + ffmt.pad_code = 0; // First 8 bits to transmit during dummy cycles + write32(&spictrl_reg->ffmt.raw_bits, ffmt.raw_bits); + + return 0; +} + +int fu740_spi_setup(const struct spi_slave *slave) +{ + union fu740_spi_reg_csmode csmode; + union fu740_spi_reg_fctrl fctrl; + + struct fu740_spi_ctrl *spictrl_reg = fu740_spi_ctrls[slave->bus]; + struct fu740_spi_config *config = &fu740_spi_configs[slave->bus]; + + if ((config->pha > 1) + || (config->pol > 1) + || (config->fmt_config.protocol > 2) + || (config->fmt_config.endianness > 1) + || (config->fmt_config.bits_per_frame > 8)) + return -1; + + write32(&spictrl_reg->sckdiv, fu740_spi_min_clk_divisor(clock_get_pclk(), config->freq)); + + /* disable direct memory-mapped spi flash mode */ + //TODO test if we need to disable it before changing the settings + fctrl.raw_bits = 0; + fctrl.en = 0; + write32(&spictrl_reg->fctrl.raw_bits, fctrl.raw_bits); + + csmode.raw_bits = 0; + csmode.mode = FU740_SPI_CSMODE_HOLD; + write32(&spictrl_reg->csmode.raw_bits, csmode.raw_bits); + char din[10]; + char dout[10] = { 0x66 }; + slave->ctrlr->xfer(slave, dout, 1, din, 0); + dout[0] = 0x99; + slave->ctrlr->xfer(slave, dout, 1, din, 0); + int addr = 0x200; + dout[0] = 0x03; + dout[1] = (addr >> 16) & 0xFF; + dout[2] = (addr >> 8) & 0xFF; + dout[3] = addr & 0xFF; + slave->ctrlr->xfer(slave, dout, 4, din, 10); + csmode.mode = FU740_SPI_CSMODE_AUTO; + write32(&spictrl_reg->csmode.raw_bits, csmode.raw_bits); + din[9] = 0; + return 0; +} + +struct spi_ctrlr fu740_spi_ctrlr = { + .xfer = fu740_spi_xfer, + .setup = fu740_spi_setup, + .claim_bus = fu740_spi_claim_bus, + .release_bus = fu740_spi_release_bus, + .max_xfer_size = SPI_CTRLR_DEFAULT_MAX_XFER_SIZE, +}; + +const struct spi_ctrlr_buses spi_ctrlr_bus_map[] = { + { + .bus_start = 0, + .bus_end = 2, + .ctrlr = &fu740_spi_ctrlr, + } +}; + +const size_t spi_ctrlr_bus_map_count = ARRAY_SIZE(spi_ctrlr_bus_map); diff --git a/src/soc/sifive/fu740/spi_internal.h b/src/soc/sifive/fu740/spi_internal.h new file mode 100644 index 0000000000..461ec6e6ee --- /dev/null +++ b/src/soc/sifive/fu740/spi_internal.h @@ -0,0 +1,227 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ +#ifndef __SOC_SIFIVE_HIFIVE_U_SPI_INTERNAL_H__ +#define __SOC_SIFIVE_HIFIVE_U_SPI_INTERNAL_H__ + +#include <stdint.h> + +#define _ASSERT_SIZEOF(type, size) _Static_assert( \ + sizeof(type) == (size), \ + #type " must be " #size " bytes wide") + +// Chip Select Mode Register (csmode) + +#define FU740_SPI_CSMODE_AUTO 0 +#define FU740_SPI_CSMODE_HOLD 2 +#define FU740_SPI_CSMODE_OFF 3 + +union fu740_spi_reg_sckmode { + struct { + uint32_t pha : 1; + uint32_t pol : 1; + uint32_t reserved : 30; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_sckmode, 4); + +union fu740_spi_reg_csmode { + struct { + uint32_t mode : 2; + uint32_t reserved : 30; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_csmode, 4); + +union fu740_spi_reg_delay0 { + struct { + uint32_t cssck : 8; + uint32_t reserved0 : 8; + uint32_t sckcs : 8; + uint32_t reserved1 : 8; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_delay0, 4); + +union fu740_spi_reg_delay1 { + struct { + uint32_t intercs : 8; + uint32_t reserved0 : 8; + uint32_t interxfr : 8; + uint32_t reserved1 : 8; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_delay1, 4); + +union fu740_spi_reg_fmt { + struct { + uint32_t proto : 2; + uint32_t endian : 1; + uint32_t dir : 1; + uint32_t reserved0 : 12; + uint32_t len : 4; + uint32_t reserved1 : 12; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_fmt, 4); + +union fu740_spi_reg_txdata { + struct { + uint32_t data : 8; + uint32_t reserved : 23; + uint32_t full : 1; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_txdata, 4); + +union fu740_spi_reg_rxdata { + struct { + uint32_t data : 8; + uint32_t reserved : 23; + uint32_t empty : 1; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_rxdata, 4); + +union fu740_spi_reg_txmark { + struct { + uint32_t txmark : 3; + uint32_t reserved : 29; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_txmark, 4); + +union fu740_spi_reg_rxmark { + struct { + uint32_t rxmark : 3; + uint32_t reserved : 29; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_rxmark, 4); + +union fu740_spi_reg_fctrl { + struct { + uint32_t en : 1; + uint32_t reserved : 31; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_fctrl, 4); + +union fu740_spi_reg_ffmt { + struct { + uint32_t cmd_en : 1; + uint32_t addr_len : 3; + uint32_t pad_cnt : 4; + uint32_t cmd_proto : 2; + uint32_t addr_proto : 2; + uint32_t data_proto : 2; + uint32_t reserved : 2; + uint32_t cmd_code : 8; + uint32_t pad_code : 8; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_ffmt, 4); + +union fu740_spi_reg_ie { + struct { + uint32_t txwm : 1; + uint32_t rxwm : 1; + uint32_t reserved : 30; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_ie, 4); + +union fu740_spi_reg_ip { + struct { + uint32_t txwm : 1; + uint32_t rxwm : 1; + uint32_t reserved : 30; + }; + uint32_t raw_bits; +}; +_ASSERT_SIZEOF(union fu740_spi_reg_ip, 4); + +#undef _ASSERT_SIZEOF + +/** + * SPI control register memory map. + * + * All functions take a pointer to a SPI device's control registers. + */ +struct fu740_spi_ctrl { + uint32_t sckdiv; + union fu740_spi_reg_sckmode sckmode; + uint32_t reserved08; + uint32_t reserved0c; + + uint32_t csid; + uint32_t csdef; + union fu740_spi_reg_csmode csmode; + uint32_t reserved1c; + + uint32_t reserved20; + uint32_t reserved24; + union fu740_spi_reg_delay0 delay0; + union fu740_spi_reg_delay1 delay1; + + uint32_t reserved30; + uint32_t reserved34; + uint32_t reserved38; + uint32_t reserved3c; + + union fu740_spi_reg_fmt fmt; + uint32_t reserved44; + union fu740_spi_reg_txdata txdata; + union fu740_spi_reg_rxdata rxdata; + + union fu740_spi_reg_txmark txmark; + union fu740_spi_reg_rxmark rxmark; + uint32_t reserved58; + uint32_t reserved5c; + + union fu740_spi_reg_fctrl fctrl; + union fu740_spi_reg_ffmt ffmt; + uint32_t reserved68; + uint32_t reserved6c; + + union fu740_spi_reg_ie ie; + union fu740_spi_reg_ip ip; +}; + +/** + * Get smallest clock divisor that divides input_khz to a quotient less than or + * equal to max_target_khz; + */ +static inline unsigned int +fu740_spi_min_clk_divisor(unsigned int input_khz, unsigned int max_target_khz) +{ + // f_sck = f_in / (2 * (div + 1)) => div = (f_in / (2*f_sck)) - 1 + // + // The nearest integer solution for div requires rounding up as to not + // exceed max_target_khz. + // + // div = ceil(f_in / (2*f_sck)) - 1 + // = floor((f_in - 1 + 2*f_sck) / (2*f_sck)) - 1 + // + // This should not overflow as long as (f_in - 1 + 2*f_sck) does not + // exceed 2^32 - 1, which is unlikely since we represent frequencies + // in kHz. + unsigned int quotient = + (input_khz + 2 * max_target_khz - 1) / (2 * max_target_khz); + // Avoid underflow + if (quotient == 0) + return 0; + return quotient - 1; +} + +#endif /* __SOC_SIFIVE_HIFIVE_U_SPI_INTERNAL_H__ */ diff --git a/src/soc/sifive/fu740/uart.c b/src/soc/sifive/fu740/uart.c new file mode 100644 index 0000000000..94a6d2d34c --- /dev/null +++ b/src/soc/sifive/fu740/uart.c @@ -0,0 +1,21 @@ +/* SPDX-License-Identifier: GPL-2.0-only */ + +#include <stdint.h> +#include <console/uart.h> +#include <commonlib/bsd/helpers.h> +#include <soc/addressmap.h> +#include <soc/clock.h> + +uintptr_t uart_platform_base(unsigned int idx) +{ + if (idx < 2) + return FU740_UART(idx); + else + return 0; +} + +unsigned int uart_platform_refclk(void) +{ + // peripheral clock is attached to UART subsystem + return clock_get_pclk(); +} |