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author | Bin Meng <bmeng.cn@gmail.com> | 2015-02-05 23:42:24 +0800 |
---|---|---|
committer | Simon Glass <sjg@chromium.org> | 2015-02-06 12:07:43 -0700 |
commit | b829f12afa768633502a546f678441391c1d76e4 (patch) | |
tree | c1ef18c2e39415af8de7de984950645643e666d6 /arch/x86 | |
parent | 38ad43e4360f289a24e6599c6a924421d8f23263 (diff) | |
download | u-boot-imx-b829f12afa768633502a546f678441391c1d76e4.zip u-boot-imx-b829f12afa768633502a546f678441391c1d76e4.tar.gz u-boot-imx-b829f12afa768633502a546f678441391c1d76e4.tar.bz2 |
x86: quark: Add System Memory Controller support
The codes are actually doing the memory initialization stuff.
Signed-off-by: Bin Meng <bmeng.cn@gmail.com>
Acked-by: Simon Glass <sjg@chromium.org>
Diffstat (limited to 'arch/x86')
-rw-r--r-- | arch/x86/cpu/quark/smc.c | 2764 | ||||
-rw-r--r-- | arch/x86/cpu/quark/smc.h | 446 |
2 files changed, 3210 insertions, 0 deletions
diff --git a/arch/x86/cpu/quark/smc.c b/arch/x86/cpu/quark/smc.c new file mode 100644 index 0000000..e34bec4 --- /dev/null +++ b/arch/x86/cpu/quark/smc.c @@ -0,0 +1,2764 @@ +/* + * Copyright (C) 2013, Intel Corporation + * Copyright (C) 2015, Bin Meng <bmeng.cn@gmail.com> + * + * Ported from Intel released Quark UEFI BIOS + * QuarkSocPkg/QuarkNorthCluster/MemoryInit/Pei + * + * SPDX-License-Identifier: Intel + */ + +#include <common.h> +#include <pci.h> +#include <asm/arch/device.h> +#include <asm/arch/mrc.h> +#include <asm/arch/msg_port.h> +#include "mrc_util.h" +#include "hte.h" +#include "smc.h" + +/* t_rfc values (in picoseconds) per density */ +static const uint32_t t_rfc[5] = { + 90000, /* 512Mb */ + 110000, /* 1Gb */ + 160000, /* 2Gb */ + 300000, /* 4Gb */ + 350000, /* 8Gb */ +}; + +/* t_ck clock period in picoseconds per speed index 800, 1066, 1333 */ +static const uint32_t t_ck[3] = { + 2500, + 1875, + 1500 +}; + +/* Global variables */ +static const uint16_t ddr_wclk[] = {193, 158}; +static const uint16_t ddr_wctl[] = {1, 217}; +static const uint16_t ddr_wcmd[] = {1, 220}; + +#ifdef BACKUP_RCVN +static const uint16_t ddr_rcvn[] = {129, 498}; +#endif + +#ifdef BACKUP_WDQS +static const uint16_t ddr_wdqs[] = {65, 289}; +#endif + +#ifdef BACKUP_RDQS +static const uint8_t ddr_rdqs[] = {32, 24}; +#endif + +#ifdef BACKUP_WDQ +static const uint16_t ddr_wdq[] = {32, 257}; +#endif + +/* Stop self refresh driven by MCU */ +void clear_self_refresh(struct mrc_params *mrc_params) +{ + ENTERFN(); + + /* clear the PMSTS Channel Self Refresh bits */ + mrc_write_mask(MEM_CTLR, PMSTS, BIT0, BIT0); + + LEAVEFN(); +} + +/* It will initialize timing registers in the MCU (DTR0..DTR4) */ +void prog_ddr_timing_control(struct mrc_params *mrc_params) +{ + uint8_t tcl, wl; + uint8_t trp, trcd, tras, twr, twtr, trrd, trtp, tfaw; + uint32_t tck; + u32 dtr0, dtr1, dtr2, dtr3, dtr4; + u32 tmp1, tmp2; + + ENTERFN(); + + /* mcu_init starts */ + mrc_post_code(0x02, 0x00); + + dtr0 = msg_port_read(MEM_CTLR, DTR0); + dtr1 = msg_port_read(MEM_CTLR, DTR1); + dtr2 = msg_port_read(MEM_CTLR, DTR2); + dtr3 = msg_port_read(MEM_CTLR, DTR3); + dtr4 = msg_port_read(MEM_CTLR, DTR4); + + tck = t_ck[mrc_params->ddr_speed]; /* Clock in picoseconds */ + tcl = mrc_params->params.cl; /* CAS latency in clocks */ + trp = tcl; /* Per CAT MRC */ + trcd = tcl; /* Per CAT MRC */ + tras = MCEIL(mrc_params->params.ras, tck); + + /* Per JEDEC: tWR=15000ps DDR2/3 from 800-1600 */ + twr = MCEIL(15000, tck); + + twtr = MCEIL(mrc_params->params.wtr, tck); + trrd = MCEIL(mrc_params->params.rrd, tck); + trtp = 4; /* Valid for 800 and 1066, use 5 for 1333 */ + tfaw = MCEIL(mrc_params->params.faw, tck); + + wl = 5 + mrc_params->ddr_speed; + + dtr0 &= ~(BIT0 | BIT1); + dtr0 |= mrc_params->ddr_speed; + dtr0 &= ~(BIT12 | BIT13 | BIT14); + tmp1 = tcl - 5; + dtr0 |= ((tcl - 5) << 12); + dtr0 &= ~(BIT4 | BIT5 | BIT6 | BIT7); + dtr0 |= ((trp - 5) << 4); /* 5 bit DRAM Clock */ + dtr0 &= ~(BIT8 | BIT9 | BIT10 | BIT11); + dtr0 |= ((trcd - 5) << 8); /* 5 bit DRAM Clock */ + + dtr1 &= ~(BIT0 | BIT1 | BIT2); + tmp2 = wl - 3; + dtr1 |= (wl - 3); + dtr1 &= ~(BIT8 | BIT9 | BIT10 | BIT11); + dtr1 |= ((wl + 4 + twr - 14) << 8); /* Change to tWTP */ + dtr1 &= ~(BIT28 | BIT29 | BIT30); + dtr1 |= ((MMAX(trtp, 4) - 3) << 28); /* 4 bit DRAM Clock */ + dtr1 &= ~(BIT24 | BIT25); + dtr1 |= ((trrd - 4) << 24); /* 4 bit DRAM Clock */ + dtr1 &= ~(BIT4 | BIT5); + dtr1 |= (1 << 4); + dtr1 &= ~(BIT20 | BIT21 | BIT22 | BIT23); + dtr1 |= ((tras - 14) << 20); /* 6 bit DRAM Clock */ + dtr1 &= ~(BIT16 | BIT17 | BIT18 | BIT19); + dtr1 |= ((((tfaw + 1) >> 1) - 5) << 16);/* 4 bit DRAM Clock */ + /* Set 4 Clock CAS to CAS delay (multi-burst) */ + dtr1 &= ~(BIT12 | BIT13); + + dtr2 &= ~(BIT0 | BIT1 | BIT2); + dtr2 |= 1; + dtr2 &= ~(BIT8 | BIT9 | BIT10); + dtr2 |= (2 << 8); + dtr2 &= ~(BIT16 | BIT17 | BIT18 | BIT19); + dtr2 |= (2 << 16); + + dtr3 &= ~(BIT0 | BIT1 | BIT2); + dtr3 |= 2; + dtr3 &= ~(BIT4 | BIT5 | BIT6); + dtr3 |= (2 << 4); + + dtr3 &= ~(BIT8 | BIT9 | BIT10 | BIT11); + if (mrc_params->ddr_speed == DDRFREQ_800) { + /* Extended RW delay (+1) */ + dtr3 |= ((tcl - 5 + 1) << 8); + } else if (mrc_params->ddr_speed == DDRFREQ_1066) { + /* Extended RW delay (+1) */ + dtr3 |= ((tcl - 5 + 1) << 8); + } + + dtr3 &= ~(BIT13 | BIT14 | BIT15 | BIT16); + dtr3 |= ((4 + wl + twtr - 11) << 13); + + dtr3 &= ~(BIT22 | BIT23); + if (mrc_params->ddr_speed == DDRFREQ_800) + dtr3 |= ((MMAX(0, 1 - 1)) << 22); + else + dtr3 |= ((MMAX(0, 2 - 1)) << 22); + + dtr4 &= ~(BIT0 | BIT1); + dtr4 |= 1; + dtr4 &= ~(BIT4 | BIT5 | BIT6); + dtr4 |= (1 << 4); + dtr4 &= ~(BIT8 | BIT9 | BIT10); + dtr4 |= ((1 + tmp1 - tmp2 + 2) << 8); + dtr4 &= ~(BIT12 | BIT13 | BIT14); + dtr4 |= ((1 + tmp1 - tmp2 + 2) << 12); + dtr4 &= ~(BIT15 | BIT16); + + msg_port_write(MEM_CTLR, DTR0, dtr0); + msg_port_write(MEM_CTLR, DTR1, dtr1); + msg_port_write(MEM_CTLR, DTR2, dtr2); + msg_port_write(MEM_CTLR, DTR3, dtr3); + msg_port_write(MEM_CTLR, DTR4, dtr4); + + LEAVEFN(); +} + +/* Configure MCU before jedec init sequence */ +void prog_decode_before_jedec(struct mrc_params *mrc_params) +{ + u32 drp; + u32 drfc; + u32 dcal; + u32 dsch; + u32 dpmc0; + + ENTERFN(); + + /* Disable power saving features */ + dpmc0 = msg_port_read(MEM_CTLR, DPMC0); + dpmc0 |= (BIT24 | BIT25); + dpmc0 &= ~(BIT16 | BIT17 | BIT18); + dpmc0 &= ~BIT23; + msg_port_write(MEM_CTLR, DPMC0, dpmc0); + + /* Disable out of order transactions */ + dsch = msg_port_read(MEM_CTLR, DSCH); + dsch |= (BIT8 | BIT12); + msg_port_write(MEM_CTLR, DSCH, dsch); + + /* Disable issuing the REF command */ + drfc = msg_port_read(MEM_CTLR, DRFC); + drfc &= ~(BIT12 | BIT13 | BIT14); + msg_port_write(MEM_CTLR, DRFC, drfc); + + /* Disable ZQ calibration short */ + dcal = msg_port_read(MEM_CTLR, DCAL); + dcal &= ~(BIT8 | BIT9 | BIT10); + dcal &= ~(BIT12 | BIT13); + msg_port_write(MEM_CTLR, DCAL, dcal); + + /* + * Training performed in address mode 0, rank population has limited + * impact, however simulator complains if enabled non-existing rank. + */ + drp = 0; + if (mrc_params->rank_enables & 1) + drp |= BIT0; + if (mrc_params->rank_enables & 2) + drp |= BIT1; + msg_port_write(MEM_CTLR, DRP, drp); + + LEAVEFN(); +} + +/* + * After Cold Reset, BIOS should set COLDWAKE bit to 1 before + * sending the WAKE message to the Dunit. + * + * For Standby Exit, or any other mode in which the DRAM is in + * SR, this bit must be set to 0. + */ +void perform_ddr_reset(struct mrc_params *mrc_params) +{ + ENTERFN(); + + /* Set COLDWAKE bit before sending the WAKE message */ + mrc_write_mask(MEM_CTLR, DRMC, BIT16, BIT16); + + /* Send wake command to DUNIT (MUST be done before JEDEC) */ + dram_wake_command(); + + /* Set default value */ + msg_port_write(MEM_CTLR, DRMC, + (mrc_params->rd_odt_value == 0 ? BIT12 : 0)); + + LEAVEFN(); +} + + +/* + * This function performs some initialization on the DDRIO unit. + * This function is dependent on BOARD_ID, DDR_SPEED, and CHANNEL_ENABLES. + */ +void ddrphy_init(struct mrc_params *mrc_params) +{ + uint32_t temp; + uint8_t ch; /* channel counter */ + uint8_t rk; /* rank counter */ + uint8_t bl_grp; /* byte lane group counter (2 BLs per module) */ + uint8_t bl_divisor = 1; /* byte lane divisor */ + /* For DDR3 --> 0 == 800, 1 == 1066, 2 == 1333 */ + uint8_t speed = mrc_params->ddr_speed & (BIT1 | BIT0); + uint8_t cas; + uint8_t cwl; + + ENTERFN(); + + cas = mrc_params->params.cl; + cwl = 5 + mrc_params->ddr_speed; + + /* ddrphy_init starts */ + mrc_post_code(0x03, 0x00); + + /* + * HSD#231531 + * Make sure IOBUFACT is deasserted before initializing the DDR PHY + * + * HSD#234845 + * Make sure WRPTRENABLE is deasserted before initializing the DDR PHY + */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* Deassert DDRPHY Initialization Complete */ + mrc_alt_write_mask(DDRPHY, + (CMDPMCONFIG0 + (ch * DDRIOCCC_CH_OFFSET)), + ~BIT20, BIT20); /* SPID_INIT_COMPLETE=0 */ + /* Deassert IOBUFACT */ + mrc_alt_write_mask(DDRPHY, + (CMDCFGREG0 + (ch * DDRIOCCC_CH_OFFSET)), + ~BIT2, BIT2); /* IOBUFACTRST_N=0 */ + /* Disable WRPTR */ + mrc_alt_write_mask(DDRPHY, + (CMDPTRREG + (ch * DDRIOCCC_CH_OFFSET)), + ~BIT0, BIT0); /* WRPTRENABLE=0 */ + } + } + + /* Put PHY in reset */ + mrc_alt_write_mask(DDRPHY, MASTERRSTN, 0, BIT0); + + /* Initialize DQ01, DQ23, CMD, CLK-CTL, COMP modules */ + + /* STEP0 */ + mrc_post_code(0x03, 0x10); + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* DQ01-DQ23 */ + for (bl_grp = 0; + bl_grp < ((NUM_BYTE_LANES / bl_divisor) / 2); + bl_grp++) { + /* Analog MUX select - IO2xCLKSEL */ + mrc_alt_write_mask(DDRPHY, + (DQOBSCKEBBCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + ((bl_grp) ? (0x00) : (BIT22)), (BIT22)); + + /* ODT Strength */ + switch (mrc_params->rd_odt_value) { + case 1: + temp = 0x3; + break; /* 60 ohm */ + case 2: + temp = 0x3; + break; /* 120 ohm */ + case 3: + temp = 0x3; + break; /* 180 ohm */ + default: + temp = 0x3; + break; /* 120 ohm */ + } + + /* ODT strength */ + mrc_alt_write_mask(DDRPHY, + (B0RXIOBUFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (temp << 5), (BIT6 | BIT5)); + /* ODT strength */ + mrc_alt_write_mask(DDRPHY, + (B1RXIOBUFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (temp << 5), (BIT6 | BIT5)); + + /* Dynamic ODT/DIFFAMP */ + temp = (((cas) << 24) | ((cas) << 16) | + ((cas) << 8) | ((cas) << 0)); + switch (speed) { + case 0: + temp -= 0x01010101; + break; /* 800 */ + case 1: + temp -= 0x02020202; + break; /* 1066 */ + case 2: + temp -= 0x03030303; + break; /* 1333 */ + case 3: + temp -= 0x04040404; + break; /* 1600 */ + } + + /* Launch Time: ODT, DIFFAMP, ODT, DIFFAMP */ + mrc_alt_write_mask(DDRPHY, + (B01LATCTL1 + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + temp, + (BIT28 | BIT27 | BIT26 | BIT25 | BIT24 | + BIT20 | BIT19 | BIT18 | BIT17 | BIT16 | + BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | + BIT4 | BIT3 | BIT2 | BIT1 | BIT0)); + switch (speed) { + /* HSD#234715 */ + case 0: + temp = ((0x06 << 16) | (0x07 << 8)); + break; /* 800 */ + case 1: + temp = ((0x07 << 16) | (0x08 << 8)); + break; /* 1066 */ + case 2: + temp = ((0x09 << 16) | (0x0A << 8)); + break; /* 1333 */ + case 3: + temp = ((0x0A << 16) | (0x0B << 8)); + break; /* 1600 */ + } + + /* On Duration: ODT, DIFFAMP */ + mrc_alt_write_mask(DDRPHY, + (B0ONDURCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + temp, + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT13 | BIT12 | BIT11 | BIT10 | + BIT9 | BIT8)); + /* On Duration: ODT, DIFFAMP */ + mrc_alt_write_mask(DDRPHY, + (B1ONDURCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + temp, + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT13 | BIT12 | BIT11 | BIT10 | + BIT9 | BIT8)); + + switch (mrc_params->rd_odt_value) { + case 0: + /* override DIFFAMP=on, ODT=off */ + temp = ((0x3F << 16) | (0x3f << 10)); + break; + default: + /* override DIFFAMP=on, ODT=on */ + temp = ((0x3F << 16) | (0x2A << 10)); + break; + } + + /* Override: DIFFAMP, ODT */ + mrc_alt_write_mask(DDRPHY, + (B0OVRCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + temp, + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT15 | BIT14 | BIT13 | BIT12 | + BIT11 | BIT10)); + /* Override: DIFFAMP, ODT */ + mrc_alt_write_mask(DDRPHY, + (B1OVRCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + temp, + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT15 | BIT14 | BIT13 | BIT12 | + BIT11 | BIT10)); + + /* DLL Setup */ + + /* 1xCLK Domain Timings: tEDP,RCVEN,WDQS (PO) */ + mrc_alt_write_mask(DDRPHY, + (B0LATCTL0 + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (((cas + 7) << 16) | ((cas - 4) << 8) | + ((cwl - 2) << 0)), + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT12 | BIT11 | BIT10 | BIT9 | + BIT8 | BIT4 | BIT3 | BIT2 | BIT1 | + BIT0)); + mrc_alt_write_mask(DDRPHY, + (B1LATCTL0 + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (((cas + 7) << 16) | ((cas - 4) << 8) | + ((cwl - 2) << 0)), + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT12 | BIT11 | BIT10 | BIT9 | + BIT8 | BIT4 | BIT3 | BIT2 | BIT1 | + BIT0)); + + /* RCVEN Bypass (PO) */ + mrc_alt_write_mask(DDRPHY, + (B0RXIOBUFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + ((0x0 << 7) | (0x0 << 0)), + (BIT7 | BIT0)); + mrc_alt_write_mask(DDRPHY, + (B1RXIOBUFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + ((0x0 << 7) | (0x0 << 0)), + (BIT7 | BIT0)); + + /* TX */ + mrc_alt_write_mask(DDRPHY, + (DQCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (BIT16), (BIT16)); + mrc_alt_write_mask(DDRPHY, + (B01PTRCTL1 + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (BIT8), (BIT8)); + + /* RX (PO) */ + /* Internal Vref Code, Enable#, Ext_or_Int (1=Ext) */ + mrc_alt_write_mask(DDRPHY, + (B0VREFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + ((0x03 << 2) | (0x0 << 1) | (0x0 << 0)), + (BIT7 | BIT6 | BIT5 | BIT4 | BIT3 | + BIT2 | BIT1 | BIT0)); + /* Internal Vref Code, Enable#, Ext_or_Int (1=Ext) */ + mrc_alt_write_mask(DDRPHY, + (B1VREFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + ((0x03 << 2) | (0x0 << 1) | (0x0 << 0)), + (BIT7 | BIT6 | BIT5 | BIT4 | BIT3 | + BIT2 | BIT1 | BIT0)); + /* Per-Bit De-Skew Enable */ + mrc_alt_write_mask(DDRPHY, + (B0RXIOBUFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (0), (BIT4)); + /* Per-Bit De-Skew Enable */ + mrc_alt_write_mask(DDRPHY, + (B1RXIOBUFCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (0), (BIT4)); + } + + /* CLKEBB */ + mrc_alt_write_mask(DDRPHY, + (CMDOBSCKEBBCTL + (ch * DDRIOCCC_CH_OFFSET)), + 0, (BIT23)); + + /* Enable tristate control of cmd/address bus */ + mrc_alt_write_mask(DDRPHY, + (CMDCFGREG0 + (ch * DDRIOCCC_CH_OFFSET)), + 0, (BIT1 | BIT0)); + + /* ODT RCOMP */ + mrc_alt_write_mask(DDRPHY, + (CMDRCOMPODT + (ch * DDRIOCCC_CH_OFFSET)), + ((0x03 << 5) | (0x03 << 0)), + (BIT9 | BIT8 | BIT7 | BIT6 | BIT5 | BIT4 | + BIT3 | BIT2 | BIT1 | BIT0)); + + /* CMDPM* registers must be programmed in this order */ + + /* Turn On Delays: SFR (regulator), MPLL */ + mrc_alt_write_mask(DDRPHY, + (CMDPMDLYREG4 + (ch * DDRIOCCC_CH_OFFSET)), + ((0xFFFFU << 16) | (0xFFFF << 0)), + 0xFFFFFFFF); + /* + * Delays: ASSERT_IOBUFACT_to_ALLON0_for_PM_MSG_3, + * VREG (MDLL) Turn On, ALLON0_to_DEASSERT_IOBUFACT + * for_PM_MSG_gt0, MDLL Turn On + */ + mrc_alt_write_mask(DDRPHY, + (CMDPMDLYREG3 + (ch * DDRIOCCC_CH_OFFSET)), + ((0xFU << 28) | (0xFFF << 16) | (0xF << 12) | + (0x616 << 0)), 0xFFFFFFFF); + /* MPLL Divider Reset Delays */ + mrc_alt_write_mask(DDRPHY, + (CMDPMDLYREG2 + (ch * DDRIOCCC_CH_OFFSET)), + ((0xFFU << 24) | (0xFF << 16) | (0xFF << 8) | + (0xFF << 0)), 0xFFFFFFFF); + /* Turn Off Delays: VREG, Staggered MDLL, MDLL, PI */ + mrc_alt_write_mask(DDRPHY, + (CMDPMDLYREG1 + (ch * DDRIOCCC_CH_OFFSET)), + ((0xFFU << 24) | (0xFF << 16) | (0xFF << 8) | + (0xFF << 0)), 0xFFFFFFFF); + /* Turn On Delays: MPLL, Staggered MDLL, PI, IOBUFACT */ + mrc_alt_write_mask(DDRPHY, + (CMDPMDLYREG0 + (ch * DDRIOCCC_CH_OFFSET)), + ((0xFFU << 24) | (0xFF << 16) | (0xFF << 8) | + (0xFF << 0)), 0xFFFFFFFF); + /* Allow PUnit signals */ + mrc_alt_write_mask(DDRPHY, + (CMDPMCONFIG0 + (ch * DDRIOCCC_CH_OFFSET)), + ((0x6 << 8) | BIT6 | (0x4 << 0)), + (BIT31 | BIT30 | BIT29 | BIT28 | BIT27 | BIT26 | + BIT25 | BIT24 | BIT23 | BIT22 | BIT21 | BIT11 | + BIT10 | BIT9 | BIT8 | BIT6 | BIT3 | BIT2 | + BIT1 | BIT0)); + /* DLL_VREG Bias Trim, VREF Tuning for DLL_VREG */ + mrc_alt_write_mask(DDRPHY, + (CMDMDLLCTL + (ch * DDRIOCCC_CH_OFFSET)), + ((0x3 << 4) | (0x7 << 0)), + (BIT6 | BIT5 | BIT4 | BIT3 | BIT2 | BIT1 | + BIT0)); + + /* CLK-CTL */ + mrc_alt_write_mask(DDRPHY, + (CCOBSCKEBBCTL + (ch * DDRIOCCC_CH_OFFSET)), + 0, BIT24); /* CLKEBB */ + /* Buffer Enable: CS,CKE,ODT,CLK */ + mrc_alt_write_mask(DDRPHY, + (CCCFGREG0 + (ch * DDRIOCCC_CH_OFFSET)), + ((0x0 << 16) | (0x0 << 12) | (0x0 << 8) | + (0xF << 4) | BIT0), + (BIT19 | BIT18 | BIT17 | BIT16 | BIT15 | BIT14 | + BIT13 | BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | + BIT7 | BIT6 | BIT5 | BIT4 | BIT0)); + /* ODT RCOMP */ + mrc_alt_write_mask(DDRPHY, + (CCRCOMPODT + (ch * DDRIOCCC_CH_OFFSET)), + ((0x03 << 8) | (0x03 << 0)), + (BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | BIT4 | + BIT3 | BIT2 | BIT1 | BIT0)); + /* DLL_VREG Bias Trim, VREF Tuning for DLL_VREG */ + mrc_alt_write_mask(DDRPHY, + (CCMDLLCTL + (ch * DDRIOCCC_CH_OFFSET)), + ((0x3 << 4) | (0x7 << 0)), + (BIT6 | BIT5 | BIT4 | BIT3 | BIT2 | BIT1 | + BIT0)); + + /* + * COMP (RON channel specific) + * - DQ/DQS/DM RON: 32 Ohm + * - CTRL/CMD RON: 27 Ohm + * - CLK RON: 26 Ohm + */ + /* RCOMP Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (DQVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x08 << 24) | (0x03 << 16)), + (BIT29 | BIT28 | BIT27 | BIT26 | BIT25 | + BIT24 | BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16)); + /* RCOMP Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (CMDVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x0C << 24) | (0x03 << 16)), + (BIT29 | BIT28 | BIT27 | BIT26 | BIT25 | + BIT24 | BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16)); + /* RCOMP Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (CLKVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x0F << 24) | (0x03 << 16)), + (BIT29 | BIT28 | BIT27 | BIT26 | BIT25 | + BIT24 | BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16)); + /* RCOMP Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (DQSVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x08 << 24) | (0x03 << 16)), + (BIT29 | BIT28 | BIT27 | BIT26 | BIT25 | + BIT24 | BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16)); + /* RCOMP Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (CTLVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x0C << 24) | (0x03 << 16)), + (BIT29 | BIT28 | BIT27 | BIT26 | BIT25 | + BIT24 | BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16)); + + /* DQS Swapped Input Enable */ + mrc_alt_write_mask(DDRPHY, + (COMPEN1CH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT19 | BIT17), + (BIT31 | BIT30 | BIT19 | BIT17 | + BIT15 | BIT14)); + + /* ODT VREF = 1.5 x 274/360+274 = 0.65V (code of ~50) */ + /* ODT Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (DQVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x32 << 8) | (0x03 << 0)), + (BIT13 | BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | + BIT5 | BIT4 | BIT3 | BIT2 | BIT1 | BIT0)); + /* ODT Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (DQSVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x32 << 8) | (0x03 << 0)), + (BIT13 | BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | + BIT5 | BIT4 | BIT3 | BIT2 | BIT1 | BIT0)); + /* ODT Vref PU/PD */ + mrc_alt_write_mask(DDRPHY, + (CLKVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x0E << 8) | (0x05 << 0)), + (BIT13 | BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | + BIT5 | BIT4 | BIT3 | BIT2 | BIT1 | BIT0)); + + /* + * Slew rate settings are frequency specific, + * numbers below are for 800Mhz (speed == 0) + * - DQ/DQS/DM/CLK SR: 4V/ns, + * - CTRL/CMD SR: 1.5V/ns + */ + temp = (0x0E << 16) | (0x0E << 12) | (0x08 << 8) | + (0x0B << 4) | (0x0B << 0); + /* DCOMP Delay Select: CTL,CMD,CLK,DQS,DQ */ + mrc_alt_write_mask(DDRPHY, + (DLYSELCH0 + (ch * DDRCOMP_CH_OFFSET)), + temp, + (BIT19 | BIT18 | BIT17 | BIT16 | BIT15 | + BIT14 | BIT13 | BIT12 | BIT11 | BIT10 | + BIT9 | BIT8 | BIT7 | BIT6 | BIT5 | BIT4 | + BIT3 | BIT2 | BIT1 | BIT0)); + /* TCO Vref CLK,DQS,DQ */ + mrc_alt_write_mask(DDRPHY, + (TCOVREFCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x05 << 16) | (0x05 << 8) | (0x05 << 0)), + (BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT13 | BIT12 | BIT11 | BIT10 | + BIT9 | BIT8 | BIT5 | BIT4 | BIT3 | BIT2 | + BIT1 | BIT0)); + /* ODTCOMP CMD/CTL PU/PD */ + mrc_alt_write_mask(DDRPHY, + (CCBUFODTCH0 + (ch * DDRCOMP_CH_OFFSET)), + ((0x03 << 8) | (0x03 << 0)), + (BIT12 | BIT11 | BIT10 | BIT9 | BIT8 | + BIT4 | BIT3 | BIT2 | BIT1 | BIT0)); + /* COMP */ + mrc_alt_write_mask(DDRPHY, + (COMPEN0CH0 + (ch * DDRCOMP_CH_OFFSET)), + 0, (BIT31 | BIT30 | BIT8)); + +#ifdef BACKUP_COMPS + /* DQ COMP Overrides */ + /* RCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQDRVPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* RCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQDRVPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQDLYPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x10 << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQDLYPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x10 << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* ODTCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQODTPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* ODTCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQODTPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* TCOCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQTCOPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31), (BIT31)); + /* TCOCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQTCOPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31), (BIT31)); + + /* DQS COMP Overrides */ + /* RCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQSDRVPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* RCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQSDRVPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQSDLYPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x10 << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQSDLYPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x10 << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* ODTCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQSODTPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* ODTCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQSODTPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* TCOCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQSTCOPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31), (BIT31)); + /* TCOCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQSTCOPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31), (BIT31)); + + /* CLK COMP Overrides */ + /* RCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CLKDRVPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0C << 16)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* RCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CLKDRVPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0C << 16)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CLKDLYPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x07 << 16)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CLKDLYPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x07 << 16)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* ODTCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CLKODTPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0B << 16)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* ODTCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CLKODTPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0B << 16)), + (BIT31 | (0x0B << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* TCOCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CLKTCOPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31), (BIT31)); + /* TCOCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CLKTCOPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31), (BIT31)); + + /* CMD COMP Overrides */ + /* RCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CMDDRVPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0D << 16)), + (BIT31 | BIT21 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* RCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CMDDRVPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0D << 16)), + (BIT31 | BIT21 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CMDDLYPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CMDDLYPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + + /* CTL COMP Overrides */ + /* RCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CTLDRVPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0D << 16)), + (BIT31 | BIT21 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* RCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CTLDRVPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0D << 16)), + (BIT31 | BIT21 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CTLDLYPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* DCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CTLDLYPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x0A << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); +#else + /* DQ TCOCOMP Overrides */ + /* TCOCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQTCOPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x1F << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* TCOCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQTCOPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x1F << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + + /* DQS TCOCOMP Overrides */ + /* TCOCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (DQSTCOPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x1F << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* TCOCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (DQSTCOPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x1F << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + + /* CLK TCOCOMP Overrides */ + /* TCOCOMP PU */ + mrc_alt_write_mask(DDRPHY, + (CLKTCOPUCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x1F << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); + /* TCOCOMP PD */ + mrc_alt_write_mask(DDRPHY, + (CLKTCOPDCTLCH0 + (ch * DDRCOMP_CH_OFFSET)), + (BIT31 | (0x1F << 16)), + (BIT31 | BIT20 | BIT19 | + BIT18 | BIT17 | BIT16)); +#endif + + /* program STATIC delays */ +#ifdef BACKUP_WCMD + set_wcmd(ch, ddr_wcmd[PLATFORM_ID]); +#else + set_wcmd(ch, ddr_wclk[PLATFORM_ID] + HALF_CLK); +#endif + + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1<<rk)) { + set_wclk(ch, rk, ddr_wclk[PLATFORM_ID]); +#ifdef BACKUP_WCTL + set_wctl(ch, rk, ddr_wctl[PLATFORM_ID]); +#else + set_wctl(ch, rk, ddr_wclk[PLATFORM_ID] + HALF_CLK); +#endif + } + } + } + } + + /* COMP (non channel specific) */ + /* RCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQANADRVPUCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQANADRVPDCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CMDANADRVPUCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CMDANADRVPDCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANADRVPUCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANADRVPDCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANADRVPUCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANADRVPDCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CTLANADRVPUCTL), (BIT30), (BIT30)); + /* RCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CTLANADRVPDCTL), (BIT30), (BIT30)); + /* ODT: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQANAODTPUCTL), (BIT30), (BIT30)); + /* ODT: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQANAODTPDCTL), (BIT30), (BIT30)); + /* ODT: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANAODTPUCTL), (BIT30), (BIT30)); + /* ODT: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANAODTPDCTL), (BIT30), (BIT30)); + /* ODT: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANAODTPUCTL), (BIT30), (BIT30)); + /* ODT: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANAODTPDCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQANADLYPUCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQANADLYPDCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CMDANADLYPUCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CMDANADLYPDCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANADLYPUCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANADLYPDCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANADLYPUCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANADLYPDCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CTLANADLYPUCTL), (BIT30), (BIT30)); + /* DCOMP: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CTLANADLYPDCTL), (BIT30), (BIT30)); + /* TCO: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQANATCOPUCTL), (BIT30), (BIT30)); + /* TCO: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQANATCOPDCTL), (BIT30), (BIT30)); + /* TCO: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANATCOPUCTL), (BIT30), (BIT30)); + /* TCO: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (CLKANATCOPDCTL), (BIT30), (BIT30)); + /* TCO: Dither PU Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANATCOPUCTL), (BIT30), (BIT30)); + /* TCO: Dither PD Enable */ + mrc_alt_write_mask(DDRPHY, (DQSANATCOPDCTL), (BIT30), (BIT30)); + /* TCOCOMP: Pulse Count */ + mrc_alt_write_mask(DDRPHY, (TCOCNTCTRL), (0x1 << 0), (BIT1 | BIT0)); + /* ODT: CMD/CTL PD/PU */ + mrc_alt_write_mask(DDRPHY, + (CHNLBUFSTATIC), ((0x03 << 24) | (0x03 << 16)), + (BIT28 | BIT27 | BIT26 | BIT25 | BIT24 | + BIT20 | BIT19 | BIT18 | BIT17 | BIT16)); + /* Set 1us counter */ + mrc_alt_write_mask(DDRPHY, + (MSCNTR), (0x64 << 0), + (BIT7 | BIT6 | BIT5 | BIT4 | BIT3 | BIT2 | BIT1 | BIT0)); + mrc_alt_write_mask(DDRPHY, + (LATCH1CTL), (0x1 << 28), + (BIT30 | BIT29 | BIT28)); + + /* Release PHY from reset */ + mrc_alt_write_mask(DDRPHY, MASTERRSTN, BIT0, BIT0); + + /* STEP1 */ + mrc_post_code(0x03, 0x11); + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* DQ01-DQ23 */ + for (bl_grp = 0; + bl_grp < ((NUM_BYTE_LANES / bl_divisor) / 2); + bl_grp++) { + mrc_alt_write_mask(DDRPHY, + (DQMDLLCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (BIT13), + (BIT13)); /* Enable VREG */ + delay_n(3); + } + + /* ECC */ + mrc_alt_write_mask(DDRPHY, (ECCMDLLCTL), + (BIT13), (BIT13)); /* Enable VREG */ + delay_n(3); + /* CMD */ + mrc_alt_write_mask(DDRPHY, + (CMDMDLLCTL + (ch * DDRIOCCC_CH_OFFSET)), + (BIT13), (BIT13)); /* Enable VREG */ + delay_n(3); + /* CLK-CTL */ + mrc_alt_write_mask(DDRPHY, + (CCMDLLCTL + (ch * DDRIOCCC_CH_OFFSET)), + (BIT13), (BIT13)); /* Enable VREG */ + delay_n(3); + } + } + + /* STEP2 */ + mrc_post_code(0x03, 0x12); + delay_n(200); + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* DQ01-DQ23 */ + for (bl_grp = 0; + bl_grp < ((NUM_BYTE_LANES / bl_divisor) / 2); + bl_grp++) { + mrc_alt_write_mask(DDRPHY, + (DQMDLLCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (BIT17), + (BIT17)); /* Enable MCDLL */ + delay_n(50); + } + + /* ECC */ + mrc_alt_write_mask(DDRPHY, (ECCMDLLCTL), + (BIT17), (BIT17)); /* Enable MCDLL */ + delay_n(50); + /* CMD */ + mrc_alt_write_mask(DDRPHY, + (CMDMDLLCTL + (ch * DDRIOCCC_CH_OFFSET)), + (BIT18), (BIT18)); /* Enable MCDLL */ + delay_n(50); + /* CLK-CTL */ + mrc_alt_write_mask(DDRPHY, + (CCMDLLCTL + (ch * DDRIOCCC_CH_OFFSET)), + (BIT18), (BIT18)); /* Enable MCDLL */ + delay_n(50); + } + } + + /* STEP3: */ + mrc_post_code(0x03, 0x13); + delay_n(100); + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* DQ01-DQ23 */ + for (bl_grp = 0; + bl_grp < ((NUM_BYTE_LANES / bl_divisor) / 2); + bl_grp++) { +#ifdef FORCE_16BIT_DDRIO + temp = ((bl_grp) && + (mrc_params->channel_width == X16)) ? + ((0x1 << 12) | (0x1 << 8) | + (0xF << 4) | (0xF << 0)) : + ((0xF << 12) | (0xF << 8) | + (0xF << 4) | (0xF << 0)); +#else + temp = ((0xF << 12) | (0xF << 8) | + (0xF << 4) | (0xF << 0)); +#endif + /* Enable TXDLL */ + mrc_alt_write_mask(DDRPHY, + (DQDLLTXCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + temp, 0xFFFF); + delay_n(3); + /* Enable RXDLL */ + mrc_alt_write_mask(DDRPHY, + (DQDLLRXCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (BIT3 | BIT2 | BIT1 | BIT0), + (BIT3 | BIT2 | BIT1 | BIT0)); + delay_n(3); + /* Enable RXDLL Overrides BL0 */ + mrc_alt_write_mask(DDRPHY, + (B0OVRCTL + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (BIT3 | BIT2 | BIT1 | BIT0), + (BIT3 | BIT2 | BIT1 | BIT0)); + } + + /* ECC */ + temp = ((0xF << 12) | (0xF << 8) | + (0xF << 4) | (0xF << 0)); + mrc_alt_write_mask(DDRPHY, (ECCDLLTXCTL), + temp, 0xFFFF); + delay_n(3); + + /* CMD (PO) */ + mrc_alt_write_mask(DDRPHY, + (CMDDLLTXCTL + (ch * DDRIOCCC_CH_OFFSET)), + temp, 0xFFFF); + delay_n(3); + } + } + + /* STEP4 */ + mrc_post_code(0x03, 0x14); + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* Host To Memory Clock Alignment (HMC) for 800/1066 */ + for (bl_grp = 0; + bl_grp < ((NUM_BYTE_LANES / bl_divisor) / 2); + bl_grp++) { + /* CLK_ALIGN_MOD_ID */ + mrc_alt_write_mask(DDRPHY, + (DQCLKALIGNREG2 + + (bl_grp * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + (bl_grp) ? (0x3) : (0x1), + (BIT3 | BIT2 | BIT1 | BIT0)); + } + + mrc_alt_write_mask(DDRPHY, + (ECCCLKALIGNREG2 + (ch * DDRIODQ_CH_OFFSET)), + 0x2, + (BIT3 | BIT2 | BIT1 | BIT0)); + mrc_alt_write_mask(DDRPHY, + (CMDCLKALIGNREG2 + (ch * DDRIODQ_CH_OFFSET)), + 0x0, + (BIT3 | BIT2 | BIT1 | BIT0)); + mrc_alt_write_mask(DDRPHY, + (CCCLKALIGNREG2 + (ch * DDRIODQ_CH_OFFSET)), + 0x2, + (BIT3 | BIT2 | BIT1 | BIT0)); + mrc_alt_write_mask(DDRPHY, + (CMDCLKALIGNREG0 + (ch * DDRIOCCC_CH_OFFSET)), + (0x2 << 4), (BIT5 | BIT4)); + /* + * NUM_SAMPLES, MAX_SAMPLES, + * MACRO_PI_STEP, MICRO_PI_STEP + */ + mrc_alt_write_mask(DDRPHY, + (CMDCLKALIGNREG1 + (ch * DDRIOCCC_CH_OFFSET)), + ((0x18 << 16) | (0x10 << 8) | + (0x8 << 2) | (0x1 << 0)), + (BIT22 | BIT21 | BIT20 | BIT19 | BIT18 | BIT17 | + BIT16 | BIT14 | BIT13 | BIT12 | BIT11 | BIT10 | + BIT9 | BIT8 | BIT7 | BIT6 | BIT5 | BIT4 | BIT3 | + BIT2 | BIT1 | BIT0)); + /* TOTAL_NUM_MODULES, FIRST_U_PARTITION */ + mrc_alt_write_mask(DDRPHY, + (CMDCLKALIGNREG2 + (ch * DDRIOCCC_CH_OFFSET)), + ((0x10 << 16) | (0x4 << 8) | (0x2 << 4)), + (BIT20 | BIT19 | BIT18 | BIT17 | BIT16 | + BIT11 | BIT10 | BIT9 | BIT8 | BIT7 | BIT6 | + BIT5 | BIT4)); +#ifdef HMC_TEST + /* START_CLK_ALIGN=1 */ + mrc_alt_write_mask(DDRPHY, + (CMDCLKALIGNREG0 + (ch * DDRIOCCC_CH_OFFSET)), + BIT24, BIT24); + while (msg_port_alt_read(DDRPHY, + (CMDCLKALIGNREG0 + (ch * DDRIOCCC_CH_OFFSET))) & + BIT24) + ; /* wait for START_CLK_ALIGN=0 */ +#endif + + /* Set RD/WR Pointer Seperation & COUNTEN & FIFOPTREN */ + mrc_alt_write_mask(DDRPHY, + (CMDPTRREG + (ch * DDRIOCCC_CH_OFFSET)), + BIT0, BIT0); /* WRPTRENABLE=1 */ + + /* COMP initial */ + /* enable bypass for CLK buffer (PO) */ + mrc_alt_write_mask(DDRPHY, + (COMPEN0CH0 + (ch * DDRCOMP_CH_OFFSET)), + BIT5, BIT5); + /* Initial COMP Enable */ + mrc_alt_write_mask(DDRPHY, (CMPCTRL), + (BIT0), (BIT0)); + /* wait for Initial COMP Enable = 0 */ + while (msg_port_alt_read(DDRPHY, (CMPCTRL)) & BIT0) + ; + /* disable bypass for CLK buffer (PO) */ + mrc_alt_write_mask(DDRPHY, + (COMPEN0CH0 + (ch * DDRCOMP_CH_OFFSET)), + ~BIT5, BIT5); + + /* IOBUFACT */ + + /* STEP4a */ + mrc_alt_write_mask(DDRPHY, + (CMDCFGREG0 + (ch * DDRIOCCC_CH_OFFSET)), + BIT2, BIT2); /* IOBUFACTRST_N=1 */ + + /* DDRPHY initialization complete */ + mrc_alt_write_mask(DDRPHY, + (CMDPMCONFIG0 + (ch * DDRIOCCC_CH_OFFSET)), + BIT20, BIT20); /* SPID_INIT_COMPLETE=1 */ + } + } + + LEAVEFN(); +} + +/* This function performs JEDEC initialization on all enabled channels */ +void perform_jedec_init(struct mrc_params *mrc_params) +{ + uint8_t twr, wl, rank; + uint32_t tck; + u32 dtr0; + u32 drp; + u32 drmc; + u32 mrs0_cmd = 0; + u32 emrs1_cmd = 0; + u32 emrs2_cmd = 0; + u32 emrs3_cmd = 0; + + ENTERFN(); + + /* jedec_init starts */ + mrc_post_code(0x04, 0x00); + + /* DDR3_RESET_SET=0, DDR3_RESET_RESET=1 */ + mrc_alt_write_mask(DDRPHY, CCDDR3RESETCTL, BIT1, (BIT8 | BIT1)); + + /* Assert RESET# for 200us */ + delay_u(200); + + /* DDR3_RESET_SET=1, DDR3_RESET_RESET=0 */ + mrc_alt_write_mask(DDRPHY, CCDDR3RESETCTL, BIT8, (BIT8 | BIT1)); + + dtr0 = msg_port_read(MEM_CTLR, DTR0); + + /* + * Set CKEVAL for populated ranks + * then send NOP to each rank (#4550197) + */ + + drp = msg_port_read(MEM_CTLR, DRP); + drp &= 0x3; + + drmc = msg_port_read(MEM_CTLR, DRMC); + drmc &= 0xFFFFFFFC; + drmc |= (BIT4 | drp); + + msg_port_write(MEM_CTLR, DRMC, drmc); + + for (rank = 0; rank < NUM_RANKS; rank++) { + /* Skip to next populated rank */ + if ((mrc_params->rank_enables & (1 << rank)) == 0) + continue; + + dram_init_command(DCMD_NOP(rank)); + } + + msg_port_write(MEM_CTLR, DRMC, + (mrc_params->rd_odt_value == 0 ? BIT12 : 0)); + + /* + * setup for emrs 2 + * BIT[15:11] --> Always "0" + * BIT[10:09] --> Rtt_WR: want "Dynamic ODT Off" (0) + * BIT[08] --> Always "0" + * BIT[07] --> SRT: use sr_temp_range + * BIT[06] --> ASR: want "Manual SR Reference" (0) + * BIT[05:03] --> CWL: use oem_tCWL + * BIT[02:00] --> PASR: want "Full Array" (0) + */ + emrs2_cmd |= (2 << 3); + wl = 5 + mrc_params->ddr_speed; + emrs2_cmd |= ((wl - 5) << 9); + emrs2_cmd |= (mrc_params->sr_temp_range << 13); + + /* + * setup for emrs 3 + * BIT[15:03] --> Always "0" + * BIT[02] --> MPR: want "Normal Operation" (0) + * BIT[01:00] --> MPR_Loc: want "Predefined Pattern" (0) + */ + emrs3_cmd |= (3 << 3); + + /* + * setup for emrs 1 + * BIT[15:13] --> Always "0" + * BIT[12:12] --> Qoff: want "Output Buffer Enabled" (0) + * BIT[11:11] --> TDQS: want "Disabled" (0) + * BIT[10:10] --> Always "0" + * BIT[09,06,02] --> Rtt_nom: use rtt_nom_value + * BIT[08] --> Always "0" + * BIT[07] --> WR_LVL: want "Disabled" (0) + * BIT[05,01] --> DIC: use ron_value + * BIT[04:03] --> AL: additive latency want "0" (0) + * BIT[00] --> DLL: want "Enable" (0) + * + * (BIT5|BIT1) set Ron value + * 00 --> RZQ/6 (40ohm) + * 01 --> RZQ/7 (34ohm) + * 1* --> RESERVED + * + * (BIT9|BIT6|BIT2) set Rtt_nom value + * 000 --> Disabled + * 001 --> RZQ/4 ( 60ohm) + * 010 --> RZQ/2 (120ohm) + * 011 --> RZQ/6 ( 40ohm) + * 1** --> RESERVED + */ + emrs1_cmd |= (1 << 3); + emrs1_cmd &= ~BIT6; + + if (mrc_params->ron_value == 0) + emrs1_cmd |= BIT7; + else + emrs1_cmd &= ~BIT7; + + if (mrc_params->rtt_nom_value == 0) + emrs1_cmd |= (DDR3_EMRS1_RTTNOM_40 << 6); + else if (mrc_params->rtt_nom_value == 1) + emrs1_cmd |= (DDR3_EMRS1_RTTNOM_60 << 6); + else if (mrc_params->rtt_nom_value == 2) + emrs1_cmd |= (DDR3_EMRS1_RTTNOM_120 << 6); + + /* save MRS1 value (excluding control fields) */ + mrc_params->mrs1 = emrs1_cmd >> 6; + + /* + * setup for mrs 0 + * BIT[15:13] --> Always "0" + * BIT[12] --> PPD: for Quark (1) + * BIT[11:09] --> WR: use oem_tWR + * BIT[08] --> DLL: want "Reset" (1, self clearing) + * BIT[07] --> MODE: want "Normal" (0) + * BIT[06:04,02] --> CL: use oem_tCAS + * BIT[03] --> RD_BURST_TYPE: want "Interleave" (1) + * BIT[01:00] --> BL: want "8 Fixed" (0) + * WR: + * 0 --> 16 + * 1 --> 5 + * 2 --> 6 + * 3 --> 7 + * 4 --> 8 + * 5 --> 10 + * 6 --> 12 + * 7 --> 14 + * CL: + * BIT[02:02] "0" if oem_tCAS <= 11 (1866?) + * BIT[06:04] use oem_tCAS-4 + */ + mrs0_cmd |= BIT14; + mrs0_cmd |= BIT18; + mrs0_cmd |= ((((dtr0 >> 12) & 7) + 1) << 10); + + tck = t_ck[mrc_params->ddr_speed]; + /* Per JEDEC: tWR=15000ps DDR2/3 from 800-1600 */ + twr = MCEIL(15000, tck); + mrs0_cmd |= ((twr - 4) << 15); + + for (rank = 0; rank < NUM_RANKS; rank++) { + /* Skip to next populated rank */ + if ((mrc_params->rank_enables & (1 << rank)) == 0) + continue; + + emrs2_cmd |= (rank << 22); + dram_init_command(emrs2_cmd); + + emrs3_cmd |= (rank << 22); + dram_init_command(emrs3_cmd); + + emrs1_cmd |= (rank << 22); + dram_init_command(emrs1_cmd); + + mrs0_cmd |= (rank << 22); + dram_init_command(mrs0_cmd); + + dram_init_command(DCMD_ZQCL(rank)); + } + + LEAVEFN(); +} + +/* + * Dunit Initialization Complete + * + * Indicates that initialization of the Dunit has completed. + * + * Memory accesses are permitted and maintenance operation begins. + * Until this bit is set to a 1, the memory controller will not accept + * DRAM requests from the MEMORY_MANAGER or HTE. + */ +void set_ddr_init_complete(struct mrc_params *mrc_params) +{ + u32 dco; + + ENTERFN(); + + dco = msg_port_read(MEM_CTLR, DCO); + dco &= ~BIT28; + dco |= BIT31; + msg_port_write(MEM_CTLR, DCO, dco); + + LEAVEFN(); +} + +/* + * This function will retrieve relevant timing data + * + * This data will be used on subsequent boots to speed up boot times + * and is required for Suspend To RAM capabilities. + */ +void restore_timings(struct mrc_params *mrc_params) +{ + uint8_t ch, rk, bl; + const struct mrc_timings *mt = &mrc_params->timings; + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + for (rk = 0; rk < NUM_RANKS; rk++) { + for (bl = 0; bl < NUM_BYTE_LANES; bl++) { + set_rcvn(ch, rk, bl, mt->rcvn[ch][rk][bl]); + set_rdqs(ch, rk, bl, mt->rdqs[ch][rk][bl]); + set_wdqs(ch, rk, bl, mt->wdqs[ch][rk][bl]); + set_wdq(ch, rk, bl, mt->wdq[ch][rk][bl]); + if (rk == 0) { + /* VREF (RANK0 only) */ + set_vref(ch, bl, mt->vref[ch][bl]); + } + } + set_wctl(ch, rk, mt->wctl[ch][rk]); + } + set_wcmd(ch, mt->wcmd[ch]); + } +} + +/* + * Configure default settings normally set as part of read training + * + * Some defaults have to be set earlier as they may affect earlier + * training steps. + */ +void default_timings(struct mrc_params *mrc_params) +{ + uint8_t ch, rk, bl; + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + for (rk = 0; rk < NUM_RANKS; rk++) { + for (bl = 0; bl < NUM_BYTE_LANES; bl++) { + set_rdqs(ch, rk, bl, 24); + if (rk == 0) { + /* VREF (RANK0 only) */ + set_vref(ch, bl, 32); + } + } + } + } +} + +/* + * This function will perform our RCVEN Calibration Algorithm. + * We will only use the 2xCLK domain timings to perform RCVEN Calibration. + * All byte lanes will be calibrated "simultaneously" per channel per rank. + */ +void rcvn_cal(struct mrc_params *mrc_params) +{ + uint8_t ch; /* channel counter */ + uint8_t rk; /* rank counter */ + uint8_t bl; /* byte lane counter */ + uint8_t bl_divisor = (mrc_params->channel_width == X16) ? 2 : 1; + +#ifdef R2R_SHARING + /* used to find placement for rank2rank sharing configs */ + uint32_t final_delay[NUM_CHANNELS][NUM_BYTE_LANES]; +#ifndef BACKUP_RCVN + /* used to find placement for rank2rank sharing configs */ + uint32_t num_ranks_enabled = 0; +#endif +#endif + +#ifdef BACKUP_RCVN +#else + uint32_t temp; + /* absolute PI value to be programmed on the byte lane */ + uint32_t delay[NUM_BYTE_LANES]; + u32 dtr1, dtr1_save; +#endif + + ENTERFN(); + + /* rcvn_cal starts */ + mrc_post_code(0x05, 0x00); + +#ifndef BACKUP_RCVN + /* need separate burst to sample DQS preamble */ + dtr1 = msg_port_read(MEM_CTLR, DTR1); + dtr1_save = dtr1; + dtr1 |= BIT12; + msg_port_write(MEM_CTLR, DTR1, dtr1); +#endif + +#ifdef R2R_SHARING + /* need to set "final_delay[][]" elements to "0" */ + memset((void *)(final_delay), 0x00, (size_t)sizeof(final_delay)); +#endif + + /* loop through each enabled channel */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* perform RCVEN Calibration on a per rank basis */ + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + /* + * POST_CODE here indicates the current + * channel and rank being calibrated + */ + mrc_post_code(0x05, (0x10 + ((ch << 4) | rk))); + +#ifdef BACKUP_RCVN + /* et hard-coded timing values */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) + set_rcvn(ch, rk, bl, ddr_rcvn[PLATFORM_ID]); +#else + /* enable FIFORST */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl += 2) { + mrc_alt_write_mask(DDRPHY, + (B01PTRCTL1 + + ((bl >> 1) * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + 0, BIT8); + } + /* initialize the starting delay to 128 PI (cas +1 CLK) */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + /* 1x CLK domain timing is cas-4 */ + delay[bl] = (4 + 1) * FULL_CLK; + + set_rcvn(ch, rk, bl, delay[bl]); + } + + /* now find the rising edge */ + find_rising_edge(mrc_params, delay, ch, rk, true); + + /* Now increase delay by 32 PI (1/4 CLK) to place in center of high pulse */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + delay[bl] += QRTR_CLK; + set_rcvn(ch, rk, bl, delay[bl]); + } + /* Now decrement delay by 128 PI (1 CLK) until we sample a "0" */ + do { + temp = sample_dqs(mrc_params, ch, rk, true); + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + if (temp & (1 << bl)) { + if (delay[bl] >= FULL_CLK) { + delay[bl] -= FULL_CLK; + set_rcvn(ch, rk, bl, delay[bl]); + } else { + /* not enough delay */ + training_message(ch, rk, bl); + mrc_post_code(0xEE, 0x50); + } + } + } + } while (temp & 0xFF); + +#ifdef R2R_SHARING + /* increment "num_ranks_enabled" */ + num_ranks_enabled++; + /* Finally increment delay by 32 PI (1/4 CLK) to place in center of preamble */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + delay[bl] += QRTR_CLK; + /* add "delay[]" values to "final_delay[][]" for rolling average */ + final_delay[ch][bl] += delay[bl]; + /* set timing based on rolling average values */ + set_rcvn(ch, rk, bl, ((final_delay[ch][bl]) / num_ranks_enabled)); + } +#else + /* Finally increment delay by 32 PI (1/4 CLK) to place in center of preamble */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + delay[bl] += QRTR_CLK; + set_rcvn(ch, rk, bl, delay[bl]); + } +#endif + + /* disable FIFORST */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl += 2) { + mrc_alt_write_mask(DDRPHY, + (B01PTRCTL1 + + ((bl >> 1) * DDRIODQ_BL_OFFSET) + + (ch * DDRIODQ_CH_OFFSET)), + BIT8, BIT8); + } +#endif + } + } + } + } + +#ifndef BACKUP_RCVN + /* restore original */ + msg_port_write(MEM_CTLR, DTR1, dtr1_save); +#endif + + LEAVEFN(); +} + +/* + * This function will perform the Write Levelling algorithm + * (align WCLK and WDQS). + * + * This algorithm will act on each rank in each channel separately. + */ +void wr_level(struct mrc_params *mrc_params) +{ + uint8_t ch; /* channel counter */ + uint8_t rk; /* rank counter */ + uint8_t bl; /* byte lane counter */ + uint8_t bl_divisor = (mrc_params->channel_width == X16) ? 2 : 1; + +#ifdef R2R_SHARING + /* used to find placement for rank2rank sharing configs */ + uint32_t final_delay[NUM_CHANNELS][NUM_BYTE_LANES]; +#ifndef BACKUP_WDQS + /* used to find placement for rank2rank sharing configs */ + uint32_t num_ranks_enabled = 0; +#endif +#endif + +#ifdef BACKUP_WDQS +#else + /* determines stop condition for CRS_WR_LVL */ + bool all_edges_found; + /* absolute PI value to be programmed on the byte lane */ + uint32_t delay[NUM_BYTE_LANES]; + /* + * static makes it so the data is loaded in the heap once by shadow(), + * where non-static copies the data onto the stack every time this + * function is called + */ + uint32_t address; /* address to be checked during COARSE_WR_LVL */ + u32 dtr4, dtr4_save; +#endif + + ENTERFN(); + + /* wr_level starts */ + mrc_post_code(0x06, 0x00); + +#ifdef R2R_SHARING + /* need to set "final_delay[][]" elements to "0" */ + memset((void *)(final_delay), 0x00, (size_t)sizeof(final_delay)); +#endif + + /* loop through each enabled channel */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + /* perform WRITE LEVELING algorithm on a per rank basis */ + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + /* + * POST_CODE here indicates the current + * rank and channel being calibrated + */ + mrc_post_code(0x06, (0x10 + ((ch << 4) | rk))); + +#ifdef BACKUP_WDQS + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + set_wdqs(ch, rk, bl, ddr_wdqs[PLATFORM_ID]); + set_wdq(ch, rk, bl, (ddr_wdqs[PLATFORM_ID] - QRTR_CLK)); + } +#else + /* + * perform a single PRECHARGE_ALL command to + * make DRAM state machine go to IDLE state + */ + dram_init_command(DCMD_PREA(rk)); + + /* + * enable Write Levelling Mode + * (EMRS1 w/ Write Levelling Mode Enable) + */ + dram_init_command(DCMD_MRS1(rk, 0x0082)); + + /* + * set ODT DRAM Full Time Termination + * disable in MCU + */ + + dtr4 = msg_port_read(MEM_CTLR, DTR4); + dtr4_save = dtr4; + dtr4 |= BIT15; + msg_port_write(MEM_CTLR, DTR4, dtr4); + + for (bl = 0; bl < ((NUM_BYTE_LANES / bl_divisor) / 2); bl++) { + /* + * Enable Sandy Bridge Mode (WDQ Tri-State) & + * Ensure 5 WDQS pulses during Write Leveling + */ + mrc_alt_write_mask(DDRPHY, + DQCTL + (DDRIODQ_BL_OFFSET * bl) + (DDRIODQ_CH_OFFSET * ch), + (BIT28 | BIT8 | BIT6 | BIT4 | BIT2), + (BIT28 | BIT9 | BIT8 | BIT7 | BIT6 | BIT5 | BIT4 | BIT3 | BIT2)); + } + + /* Write Leveling Mode enabled in IO */ + mrc_alt_write_mask(DDRPHY, + CCDDR3RESETCTL + (DDRIOCCC_CH_OFFSET * ch), + BIT16, BIT16); + + /* Initialize the starting delay to WCLK */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + /* + * CLK0 --> RK0 + * CLK1 --> RK1 + */ + delay[bl] = get_wclk(ch, rk); + + set_wdqs(ch, rk, bl, delay[bl]); + } + + /* now find the rising edge */ + find_rising_edge(mrc_params, delay, ch, rk, false); + + /* disable Write Levelling Mode */ + mrc_alt_write_mask(DDRPHY, + CCDDR3RESETCTL + (DDRIOCCC_CH_OFFSET * ch), + 0, BIT16); + + for (bl = 0; bl < ((NUM_BYTE_LANES / bl_divisor) / 2); bl++) { + /* Disable Sandy Bridge Mode & Ensure 4 WDQS pulses during normal operation */ + mrc_alt_write_mask(DDRPHY, + DQCTL + (DDRIODQ_BL_OFFSET * bl) + (DDRIODQ_CH_OFFSET * ch), + (BIT8 | BIT6 | BIT4 | BIT2), + (BIT28 | BIT9 | BIT8 | BIT7 | BIT6 | BIT5 | BIT4 | BIT3 | BIT2)); + } + + /* restore original DTR4 */ + msg_port_write(MEM_CTLR, DTR4, dtr4_save); + + /* + * restore original value + * (Write Levelling Mode Disable) + */ + dram_init_command(DCMD_MRS1(rk, mrc_params->mrs1)); + + /* + * perform a single PRECHARGE_ALL command to + * make DRAM state machine go to IDLE state + */ + dram_init_command(DCMD_PREA(rk)); + + mrc_post_code(0x06, (0x30 + ((ch << 4) | rk))); + + /* + * COARSE WRITE LEVEL: + * check that we're on the correct clock edge + */ + + /* hte reconfiguration request */ + mrc_params->hte_setup = 1; + + /* start CRS_WR_LVL with WDQS = WDQS + 128 PI */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + delay[bl] = get_wdqs(ch, rk, bl) + FULL_CLK; + set_wdqs(ch, rk, bl, delay[bl]); + /* + * program WDQ timings based on WDQS + * (WDQ = WDQS - 32 PI) + */ + set_wdq(ch, rk, bl, (delay[bl] - QRTR_CLK)); + } + + /* get an address in the targeted channel/rank */ + address = get_addr(ch, rk); + do { + uint32_t coarse_result = 0x00; + uint32_t coarse_result_mask = byte_lane_mask(mrc_params); + /* assume pass */ + all_edges_found = true; + + mrc_params->hte_setup = 1; + coarse_result = check_rw_coarse(mrc_params, address); + + /* check for failures and margin the byte lane back 128 PI (1 CLK) */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + if (coarse_result & (coarse_result_mask << bl)) { + all_edges_found = false; + delay[bl] -= FULL_CLK; + set_wdqs(ch, rk, bl, delay[bl]); + /* program WDQ timings based on WDQS (WDQ = WDQS - 32 PI) */ + set_wdq(ch, rk, bl, (delay[bl] - QRTR_CLK)); + } + } + } while (!all_edges_found); + +#ifdef R2R_SHARING + /* increment "num_ranks_enabled" */ + num_ranks_enabled++; + /* accumulate "final_delay[][]" values from "delay[]" values for rolling average */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + final_delay[ch][bl] += delay[bl]; + set_wdqs(ch, rk, bl, ((final_delay[ch][bl]) / num_ranks_enabled)); + /* program WDQ timings based on WDQS (WDQ = WDQS - 32 PI) */ + set_wdq(ch, rk, bl, ((final_delay[ch][bl]) / num_ranks_enabled) - QRTR_CLK); + } +#endif +#endif + } + } + } + } + + LEAVEFN(); +} + +void prog_page_ctrl(struct mrc_params *mrc_params) +{ + u32 dpmc0; + + ENTERFN(); + + dpmc0 = msg_port_read(MEM_CTLR, DPMC0); + dpmc0 &= ~(BIT16 | BIT17 | BIT18); + dpmc0 |= (4 << 16); + dpmc0 |= BIT21; + msg_port_write(MEM_CTLR, DPMC0, dpmc0); +} + +/* + * This function will perform the READ TRAINING Algorithm on all + * channels/ranks/byte_lanes simultaneously to minimize execution time. + * + * The idea here is to train the VREF and RDQS (and eventually RDQ) values + * to achieve maximum READ margins. The algorithm will first determine the + * X coordinate (RDQS setting). This is done by collapsing the VREF eye + * until we find a minimum required RDQS eye for VREF_MIN and VREF_MAX. + * Then we take the averages of the RDQS eye at VREF_MIN and VREF_MAX, + * then average those; this will be the final X coordinate. The algorithm + * will then determine the Y coordinate (VREF setting). This is done by + * collapsing the RDQS eye until we find a minimum required VREF eye for + * RDQS_MIN and RDQS_MAX. Then we take the averages of the VREF eye at + * RDQS_MIN and RDQS_MAX, then average those; this will be the final Y + * coordinate. + * + * NOTE: this algorithm assumes the eye curves have a one-to-one relationship, + * meaning for each X the curve has only one Y and vice-a-versa. + */ +void rd_train(struct mrc_params *mrc_params) +{ + uint8_t ch; /* channel counter */ + uint8_t rk; /* rank counter */ + uint8_t bl; /* byte lane counter */ + uint8_t bl_divisor = (mrc_params->channel_width == X16) ? 2 : 1; +#ifdef BACKUP_RDQS +#else + uint8_t side_x; /* tracks LEFT/RIGHT approach vectors */ + uint8_t side_y; /* tracks BOTTOM/TOP approach vectors */ + /* X coordinate data (passing RDQS values) for approach vectors */ + uint8_t x_coordinate[2][2][NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; + /* Y coordinate data (passing VREF values) for approach vectors */ + uint8_t y_coordinate[2][2][NUM_CHANNELS][NUM_BYTE_LANES]; + /* centered X (RDQS) */ + uint8_t x_center[NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; + /* centered Y (VREF) */ + uint8_t y_center[NUM_CHANNELS][NUM_BYTE_LANES]; + uint32_t address; /* target address for check_bls_ex() */ + uint32_t result; /* result of check_bls_ex() */ + uint32_t bl_mask; /* byte lane mask for result checking */ +#ifdef R2R_SHARING + /* used to find placement for rank2rank sharing configs */ + uint32_t final_delay[NUM_CHANNELS][NUM_BYTE_LANES]; + /* used to find placement for rank2rank sharing configs */ + uint32_t num_ranks_enabled = 0; +#endif +#endif + + /* rd_train starts */ + mrc_post_code(0x07, 0x00); + + ENTERFN(); + +#ifdef BACKUP_RDQS + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + for (bl = 0; + bl < (NUM_BYTE_LANES / bl_divisor); + bl++) { + set_rdqs(ch, rk, bl, ddr_rdqs[PLATFORM_ID]); + } + } + } + } + } +#else + /* initialize x/y_coordinate arrays */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + for (bl = 0; + bl < (NUM_BYTE_LANES / bl_divisor); + bl++) { + /* x_coordinate */ + x_coordinate[L][B][ch][rk][bl] = RDQS_MIN; + x_coordinate[R][B][ch][rk][bl] = RDQS_MAX; + x_coordinate[L][T][ch][rk][bl] = RDQS_MIN; + x_coordinate[R][T][ch][rk][bl] = RDQS_MAX; + /* y_coordinate */ + y_coordinate[L][B][ch][bl] = VREF_MIN; + y_coordinate[R][B][ch][bl] = VREF_MIN; + y_coordinate[L][T][ch][bl] = VREF_MAX; + y_coordinate[R][T][ch][bl] = VREF_MAX; + } + } + } + } + } + + /* initialize other variables */ + bl_mask = byte_lane_mask(mrc_params); + address = get_addr(0, 0); + +#ifdef R2R_SHARING + /* need to set "final_delay[][]" elements to "0" */ + memset((void *)(final_delay), 0x00, (size_t)sizeof(final_delay)); +#endif + + /* look for passing coordinates */ + for (side_y = B; side_y <= T; side_y++) { + for (side_x = L; side_x <= R; side_x++) { + mrc_post_code(0x07, (0x10 + (side_y * 2) + (side_x))); + + /* find passing values */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (0x1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & + (0x1 << rk)) { + /* set x/y_coordinate search starting settings */ + for (bl = 0; + bl < (NUM_BYTE_LANES / bl_divisor); + bl++) { + set_rdqs(ch, rk, bl, + x_coordinate[side_x][side_y][ch][rk][bl]); + set_vref(ch, bl, + y_coordinate[side_x][side_y][ch][bl]); + } + + /* get an address in the target channel/rank */ + address = get_addr(ch, rk); + + /* request HTE reconfiguration */ + mrc_params->hte_setup = 1; + + /* test the settings */ + do { + /* result[07:00] == failing byte lane (MAX 8) */ + result = check_bls_ex(mrc_params, address); + + /* check for failures */ + if (result & 0xFF) { + /* at least 1 byte lane failed */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + if (result & + (bl_mask << bl)) { + /* adjust the RDQS values accordingly */ + if (side_x == L) + x_coordinate[L][side_y][ch][rk][bl] += RDQS_STEP; + else + x_coordinate[R][side_y][ch][rk][bl] -= RDQS_STEP; + + /* check that we haven't closed the RDQS_EYE too much */ + if ((x_coordinate[L][side_y][ch][rk][bl] > (RDQS_MAX - MIN_RDQS_EYE)) || + (x_coordinate[R][side_y][ch][rk][bl] < (RDQS_MIN + MIN_RDQS_EYE)) || + (x_coordinate[L][side_y][ch][rk][bl] == + x_coordinate[R][side_y][ch][rk][bl])) { + /* + * not enough RDQS margin available at this VREF + * update VREF values accordingly + */ + if (side_y == B) + y_coordinate[side_x][B][ch][bl] += VREF_STEP; + else + y_coordinate[side_x][T][ch][bl] -= VREF_STEP; + + /* check that we haven't closed the VREF_EYE too much */ + if ((y_coordinate[side_x][B][ch][bl] > (VREF_MAX - MIN_VREF_EYE)) || + (y_coordinate[side_x][T][ch][bl] < (VREF_MIN + MIN_VREF_EYE)) || + (y_coordinate[side_x][B][ch][bl] == y_coordinate[side_x][T][ch][bl])) { + /* VREF_EYE collapsed below MIN_VREF_EYE */ + training_message(ch, rk, bl); + mrc_post_code(0xEE, (0x70 + (side_y * 2) + (side_x))); + } else { + /* update the VREF setting */ + set_vref(ch, bl, y_coordinate[side_x][side_y][ch][bl]); + /* reset the X coordinate to begin the search at the new VREF */ + x_coordinate[side_x][side_y][ch][rk][bl] = + (side_x == L) ? (RDQS_MIN) : (RDQS_MAX); + } + } + + /* update the RDQS setting */ + set_rdqs(ch, rk, bl, x_coordinate[side_x][side_y][ch][rk][bl]); + } + } + } + } while (result & 0xFF); + } + } + } + } + } + } + + mrc_post_code(0x07, 0x20); + + /* find final RDQS (X coordinate) & final VREF (Y coordinate) */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + uint32_t temp1; + uint32_t temp2; + + /* x_coordinate */ + DPF(D_INFO, + "RDQS T/B eye rank%d lane%d : %d-%d %d-%d\n", + rk, bl, + x_coordinate[L][T][ch][rk][bl], + x_coordinate[R][T][ch][rk][bl], + x_coordinate[L][B][ch][rk][bl], + x_coordinate[R][B][ch][rk][bl]); + + /* average the TOP side LEFT & RIGHT values */ + temp1 = (x_coordinate[R][T][ch][rk][bl] + x_coordinate[L][T][ch][rk][bl]) / 2; + /* average the BOTTOM side LEFT & RIGHT values */ + temp2 = (x_coordinate[R][B][ch][rk][bl] + x_coordinate[L][B][ch][rk][bl]) / 2; + /* average the above averages */ + x_center[ch][rk][bl] = (uint8_t) ((temp1 + temp2) / 2); + + /* y_coordinate */ + DPF(D_INFO, + "VREF R/L eye lane%d : %d-%d %d-%d\n", + bl, + y_coordinate[R][B][ch][bl], + y_coordinate[R][T][ch][bl], + y_coordinate[L][B][ch][bl], + y_coordinate[L][T][ch][bl]); + + /* average the RIGHT side TOP & BOTTOM values */ + temp1 = (y_coordinate[R][T][ch][bl] + y_coordinate[R][B][ch][bl]) / 2; + /* average the LEFT side TOP & BOTTOM values */ + temp2 = (y_coordinate[L][T][ch][bl] + y_coordinate[L][B][ch][bl]) / 2; + /* average the above averages */ + y_center[ch][bl] = (uint8_t) ((temp1 + temp2) / 2); + } + } + } + } + } + +#ifdef RX_EYE_CHECK + /* perform an eye check */ + for (side_y = B; side_y <= T; side_y++) { + for (side_x = L; side_x <= R; side_x++) { + mrc_post_code(0x07, (0x30 + (side_y * 2) + (side_x))); + + /* update the settings for the eye check */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + if (side_x == L) + set_rdqs(ch, rk, bl, (x_center[ch][rk][bl] - (MIN_RDQS_EYE / 2))); + else + set_rdqs(ch, rk, bl, (x_center[ch][rk][bl] + (MIN_RDQS_EYE / 2))); + + if (side_y == B) + set_vref(ch, bl, (y_center[ch][bl] - (MIN_VREF_EYE / 2))); + else + set_vref(ch, bl, (y_center[ch][bl] + (MIN_VREF_EYE / 2))); + } + } + } + } + } + + /* request HTE reconfiguration */ + mrc_params->hte_setup = 1; + + /* check the eye */ + if (check_bls_ex(mrc_params, address) & 0xFF) { + /* one or more byte lanes failed */ + mrc_post_code(0xEE, (0x74 + (side_x * 2) + (side_y))); + } + } + } +#endif + + mrc_post_code(0x07, 0x40); + + /* set final placements */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { +#ifdef R2R_SHARING + /* increment "num_ranks_enabled" */ + num_ranks_enabled++; +#endif + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + /* x_coordinate */ +#ifdef R2R_SHARING + final_delay[ch][bl] += x_center[ch][rk][bl]; + set_rdqs(ch, rk, bl, ((final_delay[ch][bl]) / num_ranks_enabled)); +#else + set_rdqs(ch, rk, bl, x_center[ch][rk][bl]); +#endif + /* y_coordinate */ + set_vref(ch, bl, y_center[ch][bl]); + } + } + } + } + } +#endif + + LEAVEFN(); +} + +/* + * This function will perform the WRITE TRAINING Algorithm on all + * channels/ranks/byte_lanes simultaneously to minimize execution time. + * + * The idea here is to train the WDQ timings to achieve maximum WRITE margins. + * The algorithm will start with WDQ at the current WDQ setting (tracks WDQS + * in WR_LVL) +/- 32 PIs (+/- 1/4 CLK) and collapse the eye until all data + * patterns pass. This is because WDQS will be aligned to WCLK by the + * Write Leveling algorithm and WDQ will only ever have a 1/2 CLK window + * of validity. + */ +void wr_train(struct mrc_params *mrc_params) +{ + uint8_t ch; /* channel counter */ + uint8_t rk; /* rank counter */ + uint8_t bl; /* byte lane counter */ + uint8_t bl_divisor = (mrc_params->channel_width == X16) ? 2 : 1; +#ifdef BACKUP_WDQ +#else + uint8_t side; /* LEFT/RIGHT side indicator (0=L, 1=R) */ + uint32_t temp; /* temporary DWORD */ + /* 2 arrays, for L & R side passing delays */ + uint32_t delay[2][NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; + uint32_t address; /* target address for check_bls_ex() */ + uint32_t result; /* result of check_bls_ex() */ + uint32_t bl_mask; /* byte lane mask for result checking */ +#ifdef R2R_SHARING + /* used to find placement for rank2rank sharing configs */ + uint32_t final_delay[NUM_CHANNELS][NUM_BYTE_LANES]; + /* used to find placement for rank2rank sharing configs */ + uint32_t num_ranks_enabled = 0; +#endif +#endif + + /* wr_train starts */ + mrc_post_code(0x08, 0x00); + + ENTERFN(); + +#ifdef BACKUP_WDQ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + for (bl = 0; + bl < (NUM_BYTE_LANES / bl_divisor); + bl++) { + set_wdq(ch, rk, bl, ddr_wdq[PLATFORM_ID]); + } + } + } + } + } +#else + /* initialize "delay" */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { + for (bl = 0; + bl < (NUM_BYTE_LANES / bl_divisor); + bl++) { + /* + * want to start with + * WDQ = (WDQS - QRTR_CLK) + * +/- QRTR_CLK + */ + temp = get_wdqs(ch, rk, bl) - QRTR_CLK; + delay[L][ch][rk][bl] = temp - QRTR_CLK; + delay[R][ch][rk][bl] = temp + QRTR_CLK; + } + } + } + } + } + + /* initialize other variables */ + bl_mask = byte_lane_mask(mrc_params); + address = get_addr(0, 0); + +#ifdef R2R_SHARING + /* need to set "final_delay[][]" elements to "0" */ + memset((void *)(final_delay), 0x00, (size_t)sizeof(final_delay)); +#endif + + /* + * start algorithm on the LEFT side and train each channel/bl + * until no failures are observed, then repeat for the RIGHT side. + */ + for (side = L; side <= R; side++) { + mrc_post_code(0x08, (0x10 + (side))); + + /* set starting values */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & + (1 << rk)) { + for (bl = 0; + bl < (NUM_BYTE_LANES / bl_divisor); + bl++) { + set_wdq(ch, rk, bl, delay[side][ch][rk][bl]); + } + } + } + } + } + + /* find passing values */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & + (1 << rk)) { + /* get an address in the target channel/rank */ + address = get_addr(ch, rk); + + /* request HTE reconfiguration */ + mrc_params->hte_setup = 1; + + /* check the settings */ + do { + /* result[07:00] == failing byte lane (MAX 8) */ + result = check_bls_ex(mrc_params, address); + /* check for failures */ + if (result & 0xFF) { + /* at least 1 byte lane failed */ + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + if (result & + (bl_mask << bl)) { + if (side == L) + delay[L][ch][rk][bl] += WDQ_STEP; + else + delay[R][ch][rk][bl] -= WDQ_STEP; + + /* check for algorithm failure */ + if (delay[L][ch][rk][bl] != delay[R][ch][rk][bl]) { + /* + * margin available + * update delay setting + */ + set_wdq(ch, rk, bl, + delay[side][ch][rk][bl]); + } else { + /* + * no margin available + * notify the user and halt + */ + training_message(ch, rk, bl); + mrc_post_code(0xEE, (0x80 + side)); + } + } + } + } + /* stop when all byte lanes pass */ + } while (result & 0xFF); + } + } + } + } + } + + /* program WDQ to the middle of passing window */ + for (ch = 0; ch < NUM_CHANNELS; ch++) { + if (mrc_params->channel_enables & (1 << ch)) { + for (rk = 0; rk < NUM_RANKS; rk++) { + if (mrc_params->rank_enables & (1 << rk)) { +#ifdef R2R_SHARING + /* increment "num_ranks_enabled" */ + num_ranks_enabled++; +#endif + for (bl = 0; bl < (NUM_BYTE_LANES / bl_divisor); bl++) { + DPF(D_INFO, + "WDQ eye rank%d lane%d : %d-%d\n", + rk, bl, + delay[L][ch][rk][bl], + delay[R][ch][rk][bl]); + + temp = (delay[R][ch][rk][bl] + delay[L][ch][rk][bl]) / 2; + +#ifdef R2R_SHARING + final_delay[ch][bl] += temp; + set_wdq(ch, rk, bl, + ((final_delay[ch][bl]) / num_ranks_enabled)); +#else + set_wdq(ch, rk, bl, temp); +#endif + } + } + } + } + } +#endif + + LEAVEFN(); +} + +/* + * This function will store relevant timing data + * + * This data will be used on subsequent boots to speed up boot times + * and is required for Suspend To RAM capabilities. + */ +void store_timings(struct mrc_params *mrc_params) +{ + uint8_t ch, rk, bl; + struct mrc_timings *mt = &mrc_params->timings; + + for (ch = 0; ch < NUM_CHANNELS; ch++) { + for (rk = 0; rk < NUM_RANKS; rk++) { + for (bl = 0; bl < NUM_BYTE_LANES; bl++) { + mt->rcvn[ch][rk][bl] = get_rcvn(ch, rk, bl); + mt->rdqs[ch][rk][bl] = get_rdqs(ch, rk, bl); + mt->wdqs[ch][rk][bl] = get_wdqs(ch, rk, bl); + mt->wdq[ch][rk][bl] = get_wdq(ch, rk, bl); + + if (rk == 0) + mt->vref[ch][bl] = get_vref(ch, bl); + } + + mt->wctl[ch][rk] = get_wctl(ch, rk); + } + + mt->wcmd[ch] = get_wcmd(ch); + } + + /* need to save for a case of changing frequency after warm reset */ + mt->ddr_speed = mrc_params->ddr_speed; +} + +/* + * The purpose of this function is to ensure the SEC comes out of reset + * and IA initiates the SEC enabling Memory Scrambling. + */ +void enable_scrambling(struct mrc_params *mrc_params) +{ + uint32_t lfsr = 0; + uint8_t i; + + if (mrc_params->scrambling_enables == 0) + return; + + ENTERFN(); + + /* 32 bit seed is always stored in BIOS NVM */ + lfsr = mrc_params->timings.scrambler_seed; + + if (mrc_params->boot_mode == BM_COLD) { + /* + * factory value is 0 and in first boot, + * a clock based seed is loaded. + */ + if (lfsr == 0) { + /* + * get seed from system clock + * and make sure it is not all 1's + */ + lfsr = rdtsc() & 0x0FFFFFFF; + } else { + /* + * Need to replace scrambler + * + * get next 32bit LFSR 16 times which is the last + * part of the previous scrambler vector + */ + for (i = 0; i < 16; i++) + lfsr32(&lfsr); + } + + /* save new seed */ + mrc_params->timings.scrambler_seed = lfsr; + } + + /* + * In warm boot or S3 exit, we have the previous seed. + * In cold boot, we have the last 32bit LFSR which is the new seed. + */ + lfsr32(&lfsr); /* shift to next value */ + msg_port_write(MEM_CTLR, SCRMSEED, (lfsr & 0x0003FFFF)); + + for (i = 0; i < 2; i++) + msg_port_write(MEM_CTLR, SCRMLO + i, (lfsr & 0xAAAAAAAA)); + + LEAVEFN(); +} + +/* + * Configure MCU Power Management Control Register + * and Scheduler Control Register + */ +void prog_ddr_control(struct mrc_params *mrc_params) +{ + u32 dsch; + u32 dpmc0; + + ENTERFN(); + + dsch = msg_port_read(MEM_CTLR, DSCH); + dsch &= ~(BIT8 | BIT9 | BIT12); + msg_port_write(MEM_CTLR, DSCH, dsch); + + dpmc0 = msg_port_read(MEM_CTLR, DPMC0); + dpmc0 &= ~BIT25; + dpmc0 |= (mrc_params->power_down_disable << 25); + dpmc0 &= ~BIT24; + dpmc0 &= ~(BIT16 | BIT17 | BIT18); + dpmc0 |= (4 << 16); + dpmc0 |= BIT21; + msg_port_write(MEM_CTLR, DPMC0, dpmc0); + + /* CMDTRIST = 2h - CMD/ADDR are tristated when no valid command */ + mrc_write_mask(MEM_CTLR, DPMC1, 2 << 4, BIT4 | BIT5); + + LEAVEFN(); +} + +/* + * After training complete configure MCU Rank Population Register + * specifying: ranks enabled, device width, density, address mode + */ +void prog_dra_drb(struct mrc_params *mrc_params) +{ + u32 drp; + u32 dco; + u8 density = mrc_params->params.density; + + ENTERFN(); + + dco = msg_port_read(MEM_CTLR, DCO); + dco &= ~BIT31; + msg_port_write(MEM_CTLR, DCO, dco); + + drp = 0; + if (mrc_params->rank_enables & 1) + drp |= BIT0; + if (mrc_params->rank_enables & 2) + drp |= BIT1; + if (mrc_params->dram_width == X16) { + drp |= (1 << 4); + drp |= (1 << 9); + } + + /* + * Density encoding in struct dram_params: 0=512Mb, 1=Gb, 2=2Gb, 3=4Gb + * has to be mapped RANKDENSx encoding (0=1Gb) + */ + if (density == 0) + density = 4; + + drp |= ((density - 1) << 6); + drp |= ((density - 1) << 11); + + /* Address mode can be overwritten if ECC enabled */ + drp |= (mrc_params->address_mode << 14); + + msg_port_write(MEM_CTLR, DRP, drp); + + dco &= ~BIT28; + dco |= BIT31; + msg_port_write(MEM_CTLR, DCO, dco); + + LEAVEFN(); +} + +/* Send DRAM wake command */ +void perform_wake(struct mrc_params *mrc_params) +{ + ENTERFN(); + + dram_wake_command(); + + LEAVEFN(); +} + +/* + * Configure refresh rate and short ZQ calibration interval + * Activate dynamic self refresh + */ +void change_refresh_period(struct mrc_params *mrc_params) +{ + u32 drfc; + u32 dcal; + u32 dpmc0; + + ENTERFN(); + + drfc = msg_port_read(MEM_CTLR, DRFC); + drfc &= ~(BIT12 | BIT13 | BIT14); + drfc |= (mrc_params->refresh_rate << 12); + drfc |= BIT21; + msg_port_write(MEM_CTLR, DRFC, drfc); + + dcal = msg_port_read(MEM_CTLR, DCAL); + dcal &= ~(BIT8 | BIT9 | BIT10); + dcal |= (3 << 8); /* 63ms */ + msg_port_write(MEM_CTLR, DCAL, dcal); + + dpmc0 = msg_port_read(MEM_CTLR, DPMC0); + dpmc0 |= (BIT23 | BIT29); + msg_port_write(MEM_CTLR, DPMC0, dpmc0); + + LEAVEFN(); +} + +/* + * Configure DDRPHY for Auto-Refresh, Periodic Compensations, + * Dynamic Diff-Amp, ZQSPERIOD, Auto-Precharge, CKE Power-Down + */ +void set_auto_refresh(struct mrc_params *mrc_params) +{ + uint32_t channel; + uint32_t rank; + uint32_t bl; + uint32_t bl_divisor = 1; + uint32_t temp; + + ENTERFN(); + + /* + * Enable Auto-Refresh, Periodic Compensations, Dynamic Diff-Amp, + * ZQSPERIOD, Auto-Precharge, CKE Power-Down + */ + for (channel = 0; channel < NUM_CHANNELS; channel++) { + if (mrc_params->channel_enables & (1 << channel)) { + /* Enable Periodic RCOMPS */ + mrc_alt_write_mask(DDRPHY, CMPCTRL, BIT1, BIT1); + + /* Enable Dynamic DiffAmp & Set Read ODT Value */ + switch (mrc_params->rd_odt_value) { + case 0: + temp = 0x3F; /* OFF */ + break; + default: + temp = 0x00; /* Auto */ + break; + } + + for (bl = 0; bl < ((NUM_BYTE_LANES / bl_divisor) / 2); bl++) { + /* Override: DIFFAMP, ODT */ + mrc_alt_write_mask(DDRPHY, + (B0OVRCTL + (bl * DDRIODQ_BL_OFFSET) + + (channel * DDRIODQ_CH_OFFSET)), + (0x00 << 16) | (temp << 10), + (BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16 | BIT15 | BIT14 | + BIT13 | BIT12 | BIT11 | BIT10)); + + /* Override: DIFFAMP, ODT */ + mrc_alt_write_mask(DDRPHY, + (B1OVRCTL + (bl * DDRIODQ_BL_OFFSET) + + (channel * DDRIODQ_CH_OFFSET)), + (0x00 << 16) | (temp << 10), + (BIT21 | BIT20 | BIT19 | BIT18 | + BIT17 | BIT16 | BIT15 | BIT14 | + BIT13 | BIT12 | BIT11 | BIT10)); + } + + /* Issue ZQCS command */ + for (rank = 0; rank < NUM_RANKS; rank++) { + if (mrc_params->rank_enables & (1 << rank)) + dram_init_command(DCMD_ZQCS(rank)); + } + } + } + + clear_pointers(); + + LEAVEFN(); +} + +/* + * Depending on configuration enables ECC support + * + * Available memory size is decreased, and updated with 0s + * in order to clear error status. Address mode 2 forced. + */ +void ecc_enable(struct mrc_params *mrc_params) +{ + u32 drp; + u32 dsch; + u32 ecc_ctrl; + + if (mrc_params->ecc_enables == 0) + return; + + ENTERFN(); + + /* Configuration required in ECC mode */ + drp = msg_port_read(MEM_CTLR, DRP); + drp &= ~(BIT14 | BIT15); + drp |= BIT15; + drp |= BIT13; + msg_port_write(MEM_CTLR, DRP, drp); + + /* Disable new request bypass */ + dsch = msg_port_read(MEM_CTLR, DSCH); + dsch |= BIT12; + msg_port_write(MEM_CTLR, DSCH, dsch); + + /* Enable ECC */ + ecc_ctrl = (BIT0 | BIT1 | BIT17); + msg_port_write(MEM_CTLR, DECCCTRL, ecc_ctrl); + + /* Assume 8 bank memory, one bank is gone for ECC */ + mrc_params->mem_size -= mrc_params->mem_size / 8; + + /* For S3 resume memory content has to be preserved */ + if (mrc_params->boot_mode != BM_S3) { + select_hte(); + hte_mem_init(mrc_params, MRC_MEM_INIT); + select_mem_mgr(); + } + + LEAVEFN(); +} + +/* + * Execute memory test + * if error detected it is indicated in mrc_params->status + */ +void memory_test(struct mrc_params *mrc_params) +{ + uint32_t result = 0; + + ENTERFN(); + + select_hte(); + result = hte_mem_init(mrc_params, MRC_MEM_TEST); + select_mem_mgr(); + + DPF(D_INFO, "Memory test result %x\n", result); + mrc_params->status = ((result == 0) ? MRC_SUCCESS : MRC_E_MEMTEST); + LEAVEFN(); +} + +/* Lock MCU registers at the end of initialization sequence */ +void lock_registers(struct mrc_params *mrc_params) +{ + u32 dco; + + ENTERFN(); + + dco = msg_port_read(MEM_CTLR, DCO); + dco &= ~(BIT28 | BIT29); + dco |= (BIT0 | BIT8); + msg_port_write(MEM_CTLR, DCO, dco); + + LEAVEFN(); +} diff --git a/arch/x86/cpu/quark/smc.h b/arch/x86/cpu/quark/smc.h new file mode 100644 index 0000000..46017a1 --- /dev/null +++ b/arch/x86/cpu/quark/smc.h @@ -0,0 +1,446 @@ +/* + * Copyright (C) 2013, Intel Corporation + * Copyright (C) 2015, Bin Meng <bmeng.cn@gmail.com> + * + * Ported from Intel released Quark UEFI BIOS + * QuarkSocPkg/QuarkNorthCluster/MemoryInit/Pei + * + * SPDX-License-Identifier: Intel + */ + +#ifndef _SMC_H_ +#define _SMC_H_ + +/* System Memory Controller Register Defines */ + +/* Memory Controller Message Bus Registers Offsets */ +#define DRP 0x00 +#define DTR0 0x01 +#define DTR1 0x02 +#define DTR2 0x03 +#define DTR3 0x04 +#define DTR4 0x05 +#define DPMC0 0x06 +#define DPMC1 0x07 +#define DRFC 0x08 +#define DSCH 0x09 +#define DCAL 0x0A +#define DRMC 0x0B +#define PMSTS 0x0C +#define DCO 0x0F +#define DSTAT 0x20 +#define SSKPD0 0x4A +#define SSKPD1 0x4B +#define DECCCTRL 0x60 +#define DECCSTAT 0x61 +#define DECCSBECNT 0x62 +#define DECCSBECA 0x68 +#define DECCSBECS 0x69 +#define DECCDBECA 0x6A +#define DECCDBECS 0x6B +#define DFUSESTAT 0x70 +#define SCRMSEED 0x80 +#define SCRMLO 0x81 +#define SCRMHI 0x82 + +/* DRAM init command */ +#define DCMD_MRS1(rnk, dat) (0 | ((rnk) << 22) | (1 << 3) | ((dat) << 6)) +#define DCMD_REF(rnk) (1 | ((rnk) << 22)) +#define DCMD_PRE(rnk) (2 | ((rnk) << 22)) +#define DCMD_PREA(rnk) (2 | ((rnk) << 22) | (BIT10 << 6)) +#define DCMD_ACT(rnk, row) (3 | ((rnk) << 22) | ((row) << 6)) +#define DCMD_WR(rnk, col) (4 | ((rnk) << 22) | ((col) << 6)) +#define DCMD_RD(rnk, col) (5 | ((rnk) << 22) | ((col) << 6)) +#define DCMD_ZQCS(rnk) (6 | ((rnk) << 22)) +#define DCMD_ZQCL(rnk) (6 | ((rnk) << 22) | (BIT10 << 6)) +#define DCMD_NOP(rnk) (7 | ((rnk) << 22)) + +#define DDR3_EMRS1_DIC_40 (0) +#define DDR3_EMRS1_DIC_34 (1) + +#define DDR3_EMRS1_RTTNOM_0 (0) +#define DDR3_EMRS1_RTTNOM_60 (0x04) +#define DDR3_EMRS1_RTTNOM_120 (0x40) +#define DDR3_EMRS1_RTTNOM_40 (0x44) +#define DDR3_EMRS1_RTTNOM_20 (0x200) +#define DDR3_EMRS1_RTTNOM_30 (0x204) + +#define DDR3_EMRS2_RTTWR_60 (1 << 9) +#define DDR3_EMRS2_RTTWR_120 (1 << 10) + +/* BEGIN DDRIO Registers */ + +/* DDR IOs & COMPs */ +#define DDRIODQ_BL_OFFSET 0x0800 +#define DDRIODQ_CH_OFFSET ((NUM_BYTE_LANES / 2) * DDRIODQ_BL_OFFSET) +#define DDRIOCCC_CH_OFFSET 0x0800 +#define DDRCOMP_CH_OFFSET 0x0100 + +/* CH0-BL01-DQ */ +#define DQOBSCKEBBCTL 0x0000 +#define DQDLLTXCTL 0x0004 +#define DQDLLRXCTL 0x0008 +#define DQMDLLCTL 0x000C +#define B0RXIOBUFCTL 0x0010 +#define B0VREFCTL 0x0014 +#define B0RXOFFSET1 0x0018 +#define B0RXOFFSET0 0x001C +#define B1RXIOBUFCTL 0x0020 +#define B1VREFCTL 0x0024 +#define B1RXOFFSET1 0x0028 +#define B1RXOFFSET0 0x002C +#define DQDFTCTL 0x0030 +#define DQTRAINSTS 0x0034 +#define B1DLLPICODER0 0x0038 +#define B0DLLPICODER0 0x003C +#define B1DLLPICODER1 0x0040 +#define B0DLLPICODER1 0x0044 +#define B1DLLPICODER2 0x0048 +#define B0DLLPICODER2 0x004C +#define B1DLLPICODER3 0x0050 +#define B0DLLPICODER3 0x0054 +#define B1RXDQSPICODE 0x0058 +#define B0RXDQSPICODE 0x005C +#define B1RXDQPICODER32 0x0060 +#define B1RXDQPICODER10 0x0064 +#define B0RXDQPICODER32 0x0068 +#define B0RXDQPICODER10 0x006C +#define B01PTRCTL0 0x0070 +#define B01PTRCTL1 0x0074 +#define B01DBCTL0 0x0078 +#define B01DBCTL1 0x007C +#define B0LATCTL0 0x0080 +#define B1LATCTL0 0x0084 +#define B01LATCTL1 0x0088 +#define B0ONDURCTL 0x008C +#define B1ONDURCTL 0x0090 +#define B0OVRCTL 0x0094 +#define B1OVRCTL 0x0098 +#define DQCTL 0x009C +#define B0RK2RKCHGPTRCTRL 0x00A0 +#define B1RK2RKCHGPTRCTRL 0x00A4 +#define DQRK2RKCTL 0x00A8 +#define DQRK2RKPTRCTL 0x00AC +#define B0RK2RKLAT 0x00B0 +#define B1RK2RKLAT 0x00B4 +#define DQCLKALIGNREG0 0x00B8 +#define DQCLKALIGNREG1 0x00BC +#define DQCLKALIGNREG2 0x00C0 +#define DQCLKALIGNSTS0 0x00C4 +#define DQCLKALIGNSTS1 0x00C8 +#define DQCLKGATE 0x00CC +#define B0COMPSLV1 0x00D0 +#define B1COMPSLV1 0x00D4 +#define B0COMPSLV2 0x00D8 +#define B1COMPSLV2 0x00DC +#define B0COMPSLV3 0x00E0 +#define B1COMPSLV3 0x00E4 +#define DQVISALANECR0TOP 0x00E8 +#define DQVISALANECR1TOP 0x00EC +#define DQVISACONTROLCRTOP 0x00F0 +#define DQVISALANECR0BL 0x00F4 +#define DQVISALANECR1BL 0x00F8 +#define DQVISACONTROLCRBL 0x00FC +#define DQTIMINGCTRL 0x010C + +/* CH0-ECC */ +#define ECCDLLTXCTL 0x2004 +#define ECCDLLRXCTL 0x2008 +#define ECCMDLLCTL 0x200C +#define ECCB1DLLPICODER0 0x2038 +#define ECCB1DLLPICODER1 0x2040 +#define ECCB1DLLPICODER2 0x2048 +#define ECCB1DLLPICODER3 0x2050 +#define ECCB01DBCTL0 0x2078 +#define ECCB01DBCTL1 0x207C +#define ECCCLKALIGNREG0 0x20B8 +#define ECCCLKALIGNREG1 0x20BC +#define ECCCLKALIGNREG2 0x20C0 + +/* CH0-CMD */ +#define CMDOBSCKEBBCTL 0x4800 +#define CMDDLLTXCTL 0x4808 +#define CMDDLLRXCTL 0x480C +#define CMDMDLLCTL 0x4810 +#define CMDRCOMPODT 0x4814 +#define CMDDLLPICODER0 0x4820 +#define CMDDLLPICODER1 0x4824 +#define CMDCFGREG0 0x4840 +#define CMDPTRREG 0x4844 +#define CMDCLKALIGNREG0 0x4850 +#define CMDCLKALIGNREG1 0x4854 +#define CMDCLKALIGNREG2 0x4858 +#define CMDPMCONFIG0 0x485C +#define CMDPMDLYREG0 0x4860 +#define CMDPMDLYREG1 0x4864 +#define CMDPMDLYREG2 0x4868 +#define CMDPMDLYREG3 0x486C +#define CMDPMDLYREG4 0x4870 +#define CMDCLKALIGNSTS0 0x4874 +#define CMDCLKALIGNSTS1 0x4878 +#define CMDPMSTS0 0x487C +#define CMDPMSTS1 0x4880 +#define CMDCOMPSLV 0x4884 +#define CMDBONUS0 0x488C +#define CMDBONUS1 0x4890 +#define CMDVISALANECR0 0x4894 +#define CMDVISALANECR1 0x4898 +#define CMDVISACONTROLCR 0x489C +#define CMDCLKGATE 0x48A0 +#define CMDTIMINGCTRL 0x48A4 + +/* CH0-CLK-CTL */ +#define CCOBSCKEBBCTL 0x5800 +#define CCRCOMPIO 0x5804 +#define CCDLLTXCTL 0x5808 +#define CCDLLRXCTL 0x580C +#define CCMDLLCTL 0x5810 +#define CCRCOMPODT 0x5814 +#define CCDLLPICODER0 0x5820 +#define CCDLLPICODER1 0x5824 +#define CCDDR3RESETCTL 0x5830 +#define CCCFGREG0 0x5838 +#define CCCFGREG1 0x5840 +#define CCPTRREG 0x5844 +#define CCCLKALIGNREG0 0x5850 +#define CCCLKALIGNREG1 0x5854 +#define CCCLKALIGNREG2 0x5858 +#define CCPMCONFIG0 0x585C +#define CCPMDLYREG0 0x5860 +#define CCPMDLYREG1 0x5864 +#define CCPMDLYREG2 0x5868 +#define CCPMDLYREG3 0x586C +#define CCPMDLYREG4 0x5870 +#define CCCLKALIGNSTS0 0x5874 +#define CCCLKALIGNSTS1 0x5878 +#define CCPMSTS0 0x587C +#define CCPMSTS1 0x5880 +#define CCCOMPSLV1 0x5884 +#define CCCOMPSLV2 0x5888 +#define CCCOMPSLV3 0x588C +#define CCBONUS0 0x5894 +#define CCBONUS1 0x5898 +#define CCVISALANECR0 0x589C +#define CCVISALANECR1 0x58A0 +#define CCVISACONTROLCR 0x58A4 +#define CCCLKGATE 0x58A8 +#define CCTIMINGCTL 0x58AC + +/* COMP */ +#define CMPCTRL 0x6800 +#define SOFTRSTCNTL 0x6804 +#define MSCNTR 0x6808 +#define NMSCNTRL 0x680C +#define LATCH1CTL 0x6814 +#define COMPVISALANECR0 0x681C +#define COMPVISALANECR1 0x6820 +#define COMPVISACONTROLCR 0x6824 +#define COMPBONUS0 0x6830 +#define TCOCNTCTRL 0x683C +#define DQANAODTPUCTL 0x6840 +#define DQANAODTPDCTL 0x6844 +#define DQANADRVPUCTL 0x6848 +#define DQANADRVPDCTL 0x684C +#define DQANADLYPUCTL 0x6850 +#define DQANADLYPDCTL 0x6854 +#define DQANATCOPUCTL 0x6858 +#define DQANATCOPDCTL 0x685C +#define CMDANADRVPUCTL 0x6868 +#define CMDANADRVPDCTL 0x686C +#define CMDANADLYPUCTL 0x6870 +#define CMDANADLYPDCTL 0x6874 +#define CLKANAODTPUCTL 0x6880 +#define CLKANAODTPDCTL 0x6884 +#define CLKANADRVPUCTL 0x6888 +#define CLKANADRVPDCTL 0x688C +#define CLKANADLYPUCTL 0x6890 +#define CLKANADLYPDCTL 0x6894 +#define CLKANATCOPUCTL 0x6898 +#define CLKANATCOPDCTL 0x689C +#define DQSANAODTPUCTL 0x68A0 +#define DQSANAODTPDCTL 0x68A4 +#define DQSANADRVPUCTL 0x68A8 +#define DQSANADRVPDCTL 0x68AC +#define DQSANADLYPUCTL 0x68B0 +#define DQSANADLYPDCTL 0x68B4 +#define DQSANATCOPUCTL 0x68B8 +#define DQSANATCOPDCTL 0x68BC +#define CTLANADRVPUCTL 0x68C8 +#define CTLANADRVPDCTL 0x68CC +#define CTLANADLYPUCTL 0x68D0 +#define CTLANADLYPDCTL 0x68D4 +#define CHNLBUFSTATIC 0x68F0 +#define COMPOBSCNTRL 0x68F4 +#define COMPBUFFDBG0 0x68F8 +#define COMPBUFFDBG1 0x68FC +#define CFGMISCCH0 0x6900 +#define COMPEN0CH0 0x6904 +#define COMPEN1CH0 0x6908 +#define COMPEN2CH0 0x690C +#define STATLEGEN0CH0 0x6910 +#define STATLEGEN1CH0 0x6914 +#define DQVREFCH0 0x6918 +#define CMDVREFCH0 0x691C +#define CLKVREFCH0 0x6920 +#define DQSVREFCH0 0x6924 +#define CTLVREFCH0 0x6928 +#define TCOVREFCH0 0x692C +#define DLYSELCH0 0x6930 +#define TCODRAMBUFODTCH0 0x6934 +#define CCBUFODTCH0 0x6938 +#define RXOFFSETCH0 0x693C +#define DQODTPUCTLCH0 0x6940 +#define DQODTPDCTLCH0 0x6944 +#define DQDRVPUCTLCH0 0x6948 +#define DQDRVPDCTLCH0 0x694C +#define DQDLYPUCTLCH0 0x6950 +#define DQDLYPDCTLCH0 0x6954 +#define DQTCOPUCTLCH0 0x6958 +#define DQTCOPDCTLCH0 0x695C +#define CMDDRVPUCTLCH0 0x6968 +#define CMDDRVPDCTLCH0 0x696C +#define CMDDLYPUCTLCH0 0x6970 +#define CMDDLYPDCTLCH0 0x6974 +#define CLKODTPUCTLCH0 0x6980 +#define CLKODTPDCTLCH0 0x6984 +#define CLKDRVPUCTLCH0 0x6988 +#define CLKDRVPDCTLCH0 0x698C +#define CLKDLYPUCTLCH0 0x6990 +#define CLKDLYPDCTLCH0 0x6994 +#define CLKTCOPUCTLCH0 0x6998 +#define CLKTCOPDCTLCH0 0x699C +#define DQSODTPUCTLCH0 0x69A0 +#define DQSODTPDCTLCH0 0x69A4 +#define DQSDRVPUCTLCH0 0x69A8 +#define DQSDRVPDCTLCH0 0x69AC +#define DQSDLYPUCTLCH0 0x69B0 +#define DQSDLYPDCTLCH0 0x69B4 +#define DQSTCOPUCTLCH0 0x69B8 +#define DQSTCOPDCTLCH0 0x69BC +#define CTLDRVPUCTLCH0 0x69C8 +#define CTLDRVPDCTLCH0 0x69CC +#define CTLDLYPUCTLCH0 0x69D0 +#define CTLDLYPDCTLCH0 0x69D4 +#define FNLUPDTCTLCH0 0x69F0 + +/* PLL */ +#define MPLLCTRL0 0x7800 +#define MPLLCTRL1 0x7808 +#define MPLLCSR0 0x7810 +#define MPLLCSR1 0x7814 +#define MPLLCSR2 0x7820 +#define MPLLDFT 0x7828 +#define MPLLMON0CTL 0x7830 +#define MPLLMON1CTL 0x7838 +#define MPLLMON2CTL 0x783C +#define SFRTRIM 0x7850 +#define MPLLDFTOUT0 0x7858 +#define MPLLDFTOUT1 0x785C +#define MASTERRSTN 0x7880 +#define PLLLOCKDEL 0x7884 +#define SFRDEL 0x7888 +#define CRUVISALANECR0 0x78F0 +#define CRUVISALANECR1 0x78F4 +#define CRUVISACONTROLCR 0x78F8 +#define IOSFVISALANECR0 0x78FC +#define IOSFVISALANECR1 0x7900 +#define IOSFVISACONTROLCR 0x7904 + +/* END DDRIO Registers */ + +/* DRAM Specific Message Bus OpCodes */ +#define MSG_OP_DRAM_INIT 0x68 +#define MSG_OP_DRAM_WAKE 0xCA + +#define SAMPLE_SIZE 6 + +/* must be less than this number to enable early deadband */ +#define EARLY_DB 0x12 +/* must be greater than this number to enable late deadband */ +#define LATE_DB 0x34 + +#define CHX_REGS (11 * 4) +#define FULL_CLK 128 +#define HALF_CLK 64 +#define QRTR_CLK 32 + +#define MCEIL(num, den) ((uint8_t)((num + den - 1) / den)) +#define MMAX(a, b) ((a) > (b) ? (a) : (b)) +#define DEAD_LOOP() for (;;); + +#define MIN_RDQS_EYE 10 /* in PI Codes */ +#define MIN_VREF_EYE 10 /* in VREF Codes */ +/* how many RDQS codes to jump while margining */ +#define RDQS_STEP 1 +/* how many VREF codes to jump while margining */ +#define VREF_STEP 1 +/* offset into "vref_codes[]" for minimum allowed VREF setting */ +#define VREF_MIN 0x00 +/* offset into "vref_codes[]" for maximum allowed VREF setting */ +#define VREF_MAX 0x3F +#define RDQS_MIN 0x00 /* minimum RDQS delay value */ +#define RDQS_MAX 0x3F /* maximum RDQS delay value */ + +/* how many WDQ codes to jump while margining */ +#define WDQ_STEP 1 + +enum { + B, /* BOTTOM VREF */ + T /* TOP VREF */ +}; + +enum { + L, /* LEFT RDQS */ + R /* RIGHT RDQS */ +}; + +/* Memory Options */ + +/* enable STATIC timing settings for RCVN (BACKUP_MODE) */ +#undef BACKUP_RCVN +/* enable STATIC timing settings for WDQS (BACKUP_MODE) */ +#undef BACKUP_WDQS +/* enable STATIC timing settings for RDQS (BACKUP_MODE) */ +#undef BACKUP_RDQS +/* enable STATIC timing settings for WDQ (BACKUP_MODE) */ +#undef BACKUP_WDQ +/* enable *COMP overrides (BACKUP_MODE) */ +#undef BACKUP_COMPS +/* enable the RD_TRAIN eye check */ +#undef RX_EYE_CHECK + +/* enable Host to Memory Clock Alignment */ +#define HMC_TEST +/* enable multi-rank support via rank2rank sharing */ +#define R2R_SHARING +/* disable signals not used in 16bit mode of DDRIO */ +#define FORCE_16BIT_DDRIO + +#define PLATFORM_ID 1 + +void clear_self_refresh(struct mrc_params *mrc_params); +void prog_ddr_timing_control(struct mrc_params *mrc_params); +void prog_decode_before_jedec(struct mrc_params *mrc_params); +void perform_ddr_reset(struct mrc_params *mrc_params); +void ddrphy_init(struct mrc_params *mrc_params); +void perform_jedec_init(struct mrc_params *mrc_params); +void set_ddr_init_complete(struct mrc_params *mrc_params); +void restore_timings(struct mrc_params *mrc_params); +void default_timings(struct mrc_params *mrc_params); +void rcvn_cal(struct mrc_params *mrc_params); +void wr_level(struct mrc_params *mrc_params); +void prog_page_ctrl(struct mrc_params *mrc_params); +void rd_train(struct mrc_params *mrc_params); +void wr_train(struct mrc_params *mrc_params); +void store_timings(struct mrc_params *mrc_params); +void enable_scrambling(struct mrc_params *mrc_params); +void prog_ddr_control(struct mrc_params *mrc_params); +void prog_dra_drb(struct mrc_params *mrc_params); +void perform_wake(struct mrc_params *mrc_params); +void change_refresh_period(struct mrc_params *mrc_params); +void set_auto_refresh(struct mrc_params *mrc_params); +void ecc_enable(struct mrc_params *mrc_params); +void memory_test(struct mrc_params *mrc_params); +void lock_registers(struct mrc_params *mrc_params); + +#endif /* _SMC_H_ */ |