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/*
* Copyright 2021 NXP
*
* SPDX-License-Identifier: BSD-3-Clause
*
*/
#include <errno.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <common/debug.h>
#include <ddr.h>
#include <drivers/delay_timer.h>
#include <immap.h>
#define BIST_CR 0x80060000
#define BIST_CR_EN 0x80000000
#define BIST_CR_STAT 0x00000001
#define CTLR_INTLV_MASK 0x20000000
#pragma weak run_bist
bool run_bist(void)
{
#ifdef BIST_EN
return true;
#else
return false;
#endif
}
/*
* Perform build-in test on memory
* timeout value in 10ms
*/
int bist(const struct ccsr_ddr *ddr, int timeout)
{
const unsigned int test_pattern[10] = {
0xffffffff,
0x00000000,
0xaaaaaaaa,
0x55555555,
0xcccccccc,
0x33333333,
0x12345678,
0xabcdef01,
0xaa55aa55,
0x55aa55aa
};
unsigned int mtcr, err_detect, err_sbe;
unsigned int cs0_config;
unsigned int csn_bnds[4];
int ret = 0;
uint32_t i;
#ifdef CONFIG_DDR_ADDR_DEC
uint32_t dec_9 = ddr_in32(&ddr->dec[9]);
uint32_t pos = 0U;
uint32_t map_save = 0U;
uint32_t temp32 = 0U;
uint32_t map, shift, highest;
#endif
cs0_config = ddr_in32(&ddr->csn_cfg[0]);
if ((cs0_config & CTLR_INTLV_MASK) != 0U) {
/* set bnds to non-interleaving */
for (i = 0U; i < 4U; i++) {
csn_bnds[i] = ddr_in32(&ddr->bnds[i].a);
ddr_out32(&ddr->bnds[i].a,
(csn_bnds[i] & U(0xfffefffe)) >> 1U);
}
ddr_out32(&ddr->csn_cfg[0], cs0_config & ~CTLR_INTLV_MASK);
#ifdef CONFIG_DDR_ADDR_DEC
if ((dec_9 & 0x1U) != 0U) {
highest = (dec_9 >> 26U) == U(0x3F) ? 0U : dec_9 >> 26U;
pos = 37U;
for (i = 0U; i < 36U; i++) { /* Go through all 37 */
if ((i % 4U) == 0U) {
temp32 = ddr_in32(&ddr->dec[i >> 2U]);
}
shift = (3U - i % 4U) * 8U + 2U;
map = (temp32 >> shift) & U(0x3F);
if (map > highest && map != U(0x3F)) {
highest = map;
pos = i;
}
}
debug("\nFound highest position %d, mapping to %d, ",
pos, highest);
map_save = ddr_in32(&ddr->dec[pos >> 2]);
shift = (3U - pos % 4U) * 8U + 2U;
debug("in dec[%d], bit %d (0x%x)\n",
pos >> 2U, shift, map_save);
temp32 = map_save & ~(U(0x3F) << shift);
temp32 |= 8U << shift;
ddr_out32(&ddr->dec[pos >> 2U], temp32);
timeout <<= 2U;
debug("Increase wait time to %d ms\n", timeout * 10);
}
#endif
}
for (i = 0U; i < 10U; i++) {
ddr_out32(&ddr->mtp[i], test_pattern[i]);
}
mtcr = BIST_CR;
ddr_out32(&ddr->mtcr, mtcr);
do {
mdelay(10);
mtcr = ddr_in32(&ddr->mtcr);
} while (timeout-- > 0 && ((mtcr & BIST_CR_EN) != 0));
if (timeout <= 0) {
ERROR("Timeout\n");
} else {
debug("Timer remains %d\n", timeout);
}
err_detect = ddr_in32(&ddr->err_detect);
err_sbe = ddr_in32(&ddr->err_sbe);
if (err_detect != 0U || ((err_sbe & U(0xffff)) != 0U)) {
ERROR("ECC error detected\n");
ret = -EIO;
}
if ((cs0_config & CTLR_INTLV_MASK) != 0) {
for (i = 0U; i < 4U; i++) {
ddr_out32(&ddr->bnds[i].a, csn_bnds[i]);
}
ddr_out32(&ddr->csn_cfg[0], cs0_config);
#ifdef CONFIG_DDR_ADDR_DEC
if ((dec_9 & U(0x1)) != 0U) {
ddr_out32(&ddr->dec[pos >> 2], map_save);
}
#endif
}
if ((mtcr & BIST_CR_STAT) != 0) {
ERROR("Built-in self test failed\n");
ret = -EIO;
} else {
NOTICE("Build-in self test passed\n");
}
return ret;
}
void dump_ddrc(unsigned int *ddr)
{
#ifdef DDR_DEBUG
uint32_t i;
unsigned long val;
for (i = 0U; i < U(0x400); i++, ddr++) {
val = ddr_in32(ddr);
if (val != 0U) { /* skip zeros */
debug("*0x%lx = 0x%lx\n", (unsigned long)ddr, val);
}
}
#endif
}
#ifdef ERRATA_DDR_A009803
static void set_wait_for_bits_clear(const void *ptr,
unsigned int value,
unsigned int bits)
{
int timeout = 1000;
ddr_out32(ptr, value);
do {
udelay(100);
} while (timeout-- > 0 && ((ddr_in32(ptr) & bits) != 0));
if (timeout <= 0) {
ERROR("wait for clear timeout.\n");
}
}
#endif
#if (DDRC_NUM_CS > 4)
#error Invalid setting for DDRC_NUM_CS
#endif
/*
* If supported by the platform, writing to DDR controller takes two
* passes to deassert DDR reset to comply with JEDEC specs for RDIMMs.
*/
int ddrc_set_regs(const unsigned long clk,
const struct ddr_cfg_regs *regs,
const struct ccsr_ddr *ddr,
int twopass)
{
unsigned int i, bus_width;
unsigned int temp_sdram_cfg;
unsigned int total_mem_per_ctrl, total_mem_per_ctrl_adj;
const int mod_bnds = regs->cs[0].config & CTLR_INTLV_MASK;
int timeout;
int ret = 0;
#if defined(ERRATA_DDR_A009942) || defined(ERRATA_DDR_A010165)
unsigned long ddr_freq;
unsigned int tmp;
#ifdef ERRATA_DDR_A009942
unsigned int check;
unsigned int cpo_min = U(0xff);
unsigned int cpo_max = 0U;
#endif
#endif
if (twopass == 2U) {
goto after_reset;
}
/* Set cdr1 first in case 0.9v VDD is enabled for some SoCs*/
ddr_out32(&ddr->ddr_cdr1, regs->cdr[0]);
ddr_out32(&ddr->sdram_clk_cntl, regs->clk_cntl);
for (i = 0U; i < DDRC_NUM_CS; i++) {
if (mod_bnds != 0U) {
ddr_out32(&ddr->bnds[i].a,
(regs->cs[i].bnds & U(0xfffefffe)) >> 1U);
} else {
ddr_out32(&ddr->bnds[i].a, regs->cs[i].bnds);
}
ddr_out32(&ddr->csn_cfg_2[i], regs->cs[i].config_2);
}
ddr_out32(&ddr->timing_cfg_0, regs->timing_cfg[0]);
ddr_out32(&ddr->timing_cfg_1, regs->timing_cfg[1]);
ddr_out32(&ddr->timing_cfg_2, regs->timing_cfg[2]);
ddr_out32(&ddr->timing_cfg_3, regs->timing_cfg[3]);
ddr_out32(&ddr->timing_cfg_4, regs->timing_cfg[4]);
ddr_out32(&ddr->timing_cfg_5, regs->timing_cfg[5]);
ddr_out32(&ddr->timing_cfg_6, regs->timing_cfg[6]);
ddr_out32(&ddr->timing_cfg_7, regs->timing_cfg[7]);
ddr_out32(&ddr->timing_cfg_8, regs->timing_cfg[8]);
ddr_out32(&ddr->timing_cfg_9, regs->timing_cfg[9]);
ddr_out32(&ddr->zq_cntl, regs->zq_cntl);
for (i = 0U; i < 4U; i++) {
ddr_out32(&ddr->dq_map[i], regs->dq_map[i]);
}
ddr_out32(&ddr->sdram_cfg_3, regs->sdram_cfg[2]);
ddr_out32(&ddr->sdram_mode, regs->sdram_mode[0]);
ddr_out32(&ddr->sdram_mode_2, regs->sdram_mode[1]);
ddr_out32(&ddr->sdram_mode_3, regs->sdram_mode[2]);
ddr_out32(&ddr->sdram_mode_4, regs->sdram_mode[3]);
ddr_out32(&ddr->sdram_mode_5, regs->sdram_mode[4]);
ddr_out32(&ddr->sdram_mode_6, regs->sdram_mode[5]);
ddr_out32(&ddr->sdram_mode_7, regs->sdram_mode[6]);
ddr_out32(&ddr->sdram_mode_8, regs->sdram_mode[7]);
ddr_out32(&ddr->sdram_mode_9, regs->sdram_mode[8]);
ddr_out32(&ddr->sdram_mode_10, regs->sdram_mode[9]);
ddr_out32(&ddr->sdram_mode_11, regs->sdram_mode[10]);
ddr_out32(&ddr->sdram_mode_12, regs->sdram_mode[11]);
ddr_out32(&ddr->sdram_mode_13, regs->sdram_mode[12]);
ddr_out32(&ddr->sdram_mode_14, regs->sdram_mode[13]);
ddr_out32(&ddr->sdram_mode_15, regs->sdram_mode[14]);
ddr_out32(&ddr->sdram_mode_16, regs->sdram_mode[15]);
ddr_out32(&ddr->sdram_md_cntl, regs->md_cntl);
#ifdef ERRATA_DDR_A009663
ddr_out32(&ddr->sdram_interval,
regs->interval & ~SDRAM_INTERVAL_BSTOPRE);
#else
ddr_out32(&ddr->sdram_interval, regs->interval);
#endif
ddr_out32(&ddr->sdram_data_init, regs->data_init);
if (regs->eor != 0) {
ddr_out32(&ddr->eor, regs->eor);
}
ddr_out32(&ddr->wrlvl_cntl, regs->wrlvl_cntl[0]);
#ifndef NXP_DDR_EMU
/*
* Skip these two registers if running on emulator
* because emulator doesn't have skew between bytes.
*/
if (regs->wrlvl_cntl[1] != 0) {
ddr_out32(&ddr->ddr_wrlvl_cntl_2, regs->wrlvl_cntl[1]);
}
if (regs->wrlvl_cntl[2] != 0) {
ddr_out32(&ddr->ddr_wrlvl_cntl_3, regs->wrlvl_cntl[2]);
}
#endif
ddr_out32(&ddr->ddr_sr_cntr, regs->ddr_sr_cntr);
ddr_out32(&ddr->ddr_sdram_rcw_1, regs->sdram_rcw[0]);
ddr_out32(&ddr->ddr_sdram_rcw_2, regs->sdram_rcw[1]);
ddr_out32(&ddr->ddr_sdram_rcw_3, regs->sdram_rcw[2]);
ddr_out32(&ddr->ddr_sdram_rcw_4, regs->sdram_rcw[3]);
ddr_out32(&ddr->ddr_sdram_rcw_5, regs->sdram_rcw[4]);
ddr_out32(&ddr->ddr_sdram_rcw_6, regs->sdram_rcw[5]);
ddr_out32(&ddr->ddr_cdr2, regs->cdr[1]);
ddr_out32(&ddr->sdram_cfg_2, regs->sdram_cfg[1]);
ddr_out32(&ddr->init_addr, regs->init_addr);
ddr_out32(&ddr->init_ext_addr, regs->init_ext_addr);
#ifdef ERRATA_DDR_A009803
/* part 1 of 2 */
if ((regs->sdram_cfg[1] & SDRAM_CFG2_AP_EN) != 0) {
if ((regs->sdram_cfg[0] & SDRAM_CFG_RD_EN) != 0) {
ddr_out32(&ddr->ddr_sdram_rcw_2,
regs->sdram_rcw[1] & ~0xf0);
}
ddr_out32(&ddr->err_disable,
regs->err_disable | DDR_ERR_DISABLE_APED);
}
#else
ddr_out32(&ddr->err_disable, regs->err_disable);
#endif
ddr_out32(&ddr->err_int_en, regs->err_int_en);
/* For DDRC 5.05 only */
if (get_ddrc_version(ddr) == 0x50500) {
ddr_out32(&ddr->tx_cfg[1], 0x1f1f1f1f);
ddr_out32(&ddr->debug[3], 0x124a02c0);
}
for (i = 0U; i < 4U; i++) {
if (regs->tx_cfg[i] != 0) {
ddr_out32(&ddr->tx_cfg[i], regs->tx_cfg[i]);
}
}
for (i = 0U; i < 64U; i++) {
if (regs->debug[i] != 0) {
#ifdef ERRATA_DDR_A009942
if (i == 28U) {
continue;
}
#endif
ddr_out32(&ddr->debug[i], regs->debug[i]);
}
}
#ifdef CONFIG_DDR_ADDR_DEC
if ((regs->dec[9] & 1) != 0U) {
for (i = 0U; i < 10U; i++) {
ddr_out32(&ddr->dec[i], regs->dec[i]);
}
if (mod_bnds != 0) {
debug("Disable address decoding\n");
ddr_out32(&ddr->dec[9], 0);
}
}
#endif
#ifdef ERRATA_DDR_A008511
/* Part 1 of 2 */
/* This erraum only applies to verion 5.2.1 */
if (get_ddrc_version(ddr) == 0x50200) {
ERROR("Unsupported SoC.\n");
} else if (get_ddrc_version(ddr) == 0x50201) {
ddr_out32(&ddr->debug[37], (U(1) << 31));
ddr_out32(&ddr->ddr_cdr2,
regs->cdr[1] | DDR_CDR2_VREF_TRAIN_EN);
} else {
debug("Erratum A008511 doesn't apply.\n");
}
#endif
#ifdef ERRATA_DDR_A009942
ddr_freq = clk / 1000000U;
tmp = ddr_in32(&ddr->debug[28]);
tmp &= U(0xff0fff00);
tmp |= ddr_freq <= 1333U ? U(0x0080006a) :
(ddr_freq <= 1600U ? U(0x0070006f) :
(ddr_freq <= 1867U ? U(0x00700076) : U(0x0060007b)));
if (regs->debug[28] != 0) {
tmp &= ~0xff;
tmp |= regs->debug[28] & 0xff;
} else {
WARN("Warning: Optimal CPO value not set.\n");
}
ddr_out32(&ddr->debug[28], tmp);
#endif
#ifdef ERRATA_DDR_A010165
ddr_freq = clk / 1000000U;
if ((ddr_freq > 1900) && (ddr_freq < 2300)) {
tmp = ddr_in32(&ddr->debug[28]);
ddr_out32(&ddr->debug[28], tmp | 0x000a0000);
}
#endif
/*
* For RDIMMs, JEDEC spec requires clocks to be stable before reset is
* deasserted. Clocks start when any chip select is enabled and clock
* control register is set. Because all DDR components are connected to
* one reset signal, this needs to be done in two steps. Step 1 is to
* get the clocks started. Step 2 resumes after reset signal is
* deasserted.
*/
if (twopass == 1) {
udelay(200);
return 0;
}
/* As per new sequence flow shall be write CSn_CONFIG registers needs to
* be set after all the other DDR controller registers are set, then poll
* for PHY_INIT_CMPLT = 1 , then wait at least 100us (micro seconds),
* then set the MEM_EN = 1
*/
for (i = 0U; i < DDRC_NUM_CS; i++) {
if (mod_bnds != 0U && i == 0U) {
ddr_out32(&ddr->csn_cfg[i],
(regs->cs[i].config & ~CTLR_INTLV_MASK));
} else {
ddr_out32(&ddr->csn_cfg[i], regs->cs[i].config);
}
}
after_reset:
/* Set, but do not enable the memory */
temp_sdram_cfg = regs->sdram_cfg[0];
temp_sdram_cfg &= ~(SDRAM_CFG_MEM_EN);
ddr_out32(&ddr->sdram_cfg, temp_sdram_cfg);
if (get_ddrc_version(ddr) < U(0x50500)) {
/*
* 500 painful micro-seconds must elapse between
* the DDR clock setup and the DDR config enable.
* DDR2 need 200 us, and DDR3 need 500 us from spec,
* we choose the max, that is 500 us for all of case.
*/
udelay(500);
/* applied memory barrier */
mb();
isb();
} else {
/* wait for PHY complete */
timeout = 40;
while (((ddr_in32(&ddr->ddr_dsr2) & 0x4) != 0) &&
(timeout > 0)) {
udelay(500);
timeout--;
}
if (timeout <= 0) {
printf("PHY handshake timeout, ddr_dsr2 = %x\n",
ddr_in32(&ddr->ddr_dsr2));
} else {
debug("PHY handshake completed, timer remains %d\n",
timeout);
}
}
temp_sdram_cfg = ddr_in32(&ddr->sdram_cfg);
/* Let the controller go */
udelay(100);
ddr_out32(&ddr->sdram_cfg, temp_sdram_cfg | SDRAM_CFG_MEM_EN);
/* applied memory barrier */
mb();
isb();
total_mem_per_ctrl = 0;
for (i = 0; i < DDRC_NUM_CS; i++) {
if ((regs->cs[i].config & 0x80000000) == 0) {
continue;
}
total_mem_per_ctrl += 1 << (
((regs->cs[i].config >> 14) & 0x3) + 2 +
((regs->cs[i].config >> 8) & 0x7) + 12 +
((regs->cs[i].config >> 4) & 0x3) + 0 +
((regs->cs[i].config >> 0) & 0x7) + 8 +
((regs->sdram_cfg[2] >> 4) & 0x3) +
3 - ((regs->sdram_cfg[0] >> 19) & 0x3) -
26); /* minus 26 (count of 64M) */
}
total_mem_per_ctrl_adj = total_mem_per_ctrl;
/*
* total memory / bus width = transactions needed
* transactions needed / data rate = seconds
* to add plenty of buffer, double the time
* For example, 2GB on 666MT/s 64-bit bus takes about 402ms
* Let's wait for 800ms
*/
bus_width = 3 - ((ddr_in32(&ddr->sdram_cfg) & SDRAM_CFG_DBW_MASK)
>> SDRAM_CFG_DBW_SHIFT);
timeout = ((total_mem_per_ctrl_adj << (6 - bus_width)) * 100 /
(clk >> 20)) << 2;
total_mem_per_ctrl_adj >>= 4; /* shift down to gb size */
if ((ddr_in32(&ddr->sdram_cfg_2) & SDRAM_CFG2_D_INIT) != 0) {
debug("total size %d GB\n", total_mem_per_ctrl_adj);
debug("Need to wait up to %d ms\n", timeout * 10);
do {
mdelay(10);
} while (timeout-- > 0 &&
((ddr_in32(&ddr->sdram_cfg_2) & SDRAM_CFG2_D_INIT)) != 0);
if (timeout <= 0) {
if (ddr_in32(&ddr->debug[1]) & 0x3d00) {
ERROR("Found training error(s): 0x%x\n",
ddr_in32(&ddr->debug[1]));
}
ERROR("Error: Waiting for D_INIT timeout.\n");
return -EIO;
}
}
if (mod_bnds != 0U) {
debug("Restore original bnds\n");
for (i = 0U; i < DDRC_NUM_CS; i++) {
ddr_out32(&ddr->bnds[i].a, regs->cs[i].bnds);
}
ddr_out32(&ddr->csn_cfg[0], regs->cs[0].config);
#ifdef CONFIG_DDR_ADDR_DEC
if ((regs->dec[9] & U(0x1)) != 0U) {
debug("Restore address decoding\n");
ddr_out32(&ddr->dec[9], regs->dec[9]);
}
#endif
}
#ifdef ERRATA_DDR_A009803
/* Part 2 of 2 */
if ((regs->sdram_cfg[1] & SDRAM_CFG2_AP_EN) != 0) {
timeout = 400;
do {
mdelay(1);
} while (timeout-- > 0 && ((ddr_in32(&ddr->debug[1]) & 0x2) == 0));
if ((regs->sdram_cfg[0] & SDRAM_CFG_RD_EN) != 0) {
for (i = 0U; i < DDRC_NUM_CS; i++) {
if ((regs->cs[i].config & SDRAM_CS_CONFIG_EN) == 0) {
continue;
}
set_wait_for_bits_clear(&ddr->sdram_md_cntl,
MD_CNTL_MD_EN |
MD_CNTL_CS_SEL(i) |
0x070000ed,
MD_CNTL_MD_EN);
udelay(1);
}
}
ddr_out32(&ddr->err_disable,
regs->err_disable & ~DDR_ERR_DISABLE_APED);
}
#endif
#ifdef ERRATA_DDR_A009663
ddr_out32(&ddr->sdram_interval, regs->interval);
#endif
#ifdef ERRATA_DDR_A009942
timeout = 400;
do {
mdelay(1);
} while (timeout-- > 0 && ((ddr_in32(&ddr->debug[1]) & 0x2) == 0));
tmp = (regs->sdram_cfg[0] >> 19) & 0x3;
check = (tmp == DDR_DBUS_64) ? 4 : ((tmp == DDR_DBUS_32) ? 2 : 1);
for (i = 0; i < check; i++) {
tmp = ddr_in32(&ddr->debug[9 + i]);
debug("Reading debug[%d] as 0x%x\n", i + 9, tmp);
cpo_min = min(cpo_min,
min((tmp >> 24) & 0xff, (tmp >> 8) & 0xff));
cpo_max = max(cpo_max,
max((tmp >> 24) & 0xff, (tmp >> 8) & 0xff));
}
if ((regs->sdram_cfg[0] & SDRAM_CFG_ECC_EN) != 0) {
tmp = ddr_in32(&ddr->debug[13]);
cpo_min = min(cpo_min, (tmp >> 24) & 0xff);
cpo_max = max(cpo_max, (tmp >> 24) & 0xff);
}
debug("cpo_min 0x%x\n", cpo_min);
debug("cpo_max 0x%x\n", cpo_max);
tmp = ddr_in32(&ddr->debug[28]);
debug("debug[28] 0x%x\n", tmp);
if ((cpo_min + 0x3B) < (tmp & 0xff)) {
WARN("Warning: A009942 requires setting cpo_sample to 0x%x\n",
(cpo_min + cpo_max) / 2 + 0x27);
} else {
debug("Optimal cpo_sample 0x%x\n",
(cpo_min + cpo_max) / 2 + 0x27);
}
#endif
if (run_bist() != 0) {
if ((ddr_in32(&ddr->debug[1]) &
((get_ddrc_version(ddr) == 0x50500) ? 0x3c00 : 0x3d00)) != 0) {
ERROR("Found training error(s): 0x%x\n",
ddr_in32(&ddr->debug[1]));
return -EIO;
}
INFO("Running built-in self test ...\n");
/* give it 10x time to cover whole memory */
timeout = ((total_mem_per_ctrl << (6 - bus_width)) *
100 / (clk >> 20)) * 10;
INFO("\tWait up to %d ms\n", timeout * 10);
ret = bist(ddr, timeout);
}
dump_ddrc((void *)ddr);
return ret;
}
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