From: Patrick Delaunay Date: Mon, 15 Nov 2021 14:32:30 +0000 (+0100) Subject: stm32mp1: ram: remove tuning support X-Git-Url: http://git.dujemihanovic.xyz/?a=commitdiff_plain;h=b3c29dc9e5f0ed2bef4f20927a8c9bba4342a1cb;p=u-boot.git stm32mp1: ram: remove tuning support Remove the DDR interactive command tuning, as the support of a predefined DDR PHY tuning is removed for STM32MP1 driver in SPL and in TF-A and the result of this tuning will be never used. Moreover this SW tuning procedure can failed on some hardware configuration (to many BIST errors and no convergence); it will be no more supported in the next delivery of the DDR utilities included in the CubeMX tool of STMicroelectronics. Signed-off-by: Patrick Delaunay Reviewed-by: Patrice Chotard --- diff --git a/drivers/ram/stm32mp1/Makefile b/drivers/ram/stm32mp1/Makefile index e1e9135603..71ded6bed4 100644 --- a/drivers/ram/stm32mp1/Makefile +++ b/drivers/ram/stm32mp1/Makefile @@ -8,7 +8,6 @@ obj-y += stm32mp1_ddr.o obj-$(CONFIG_STM32MP1_DDR_INTERACTIVE) += stm32mp1_interactive.o obj-$(CONFIG_STM32MP1_DDR_TESTS) += stm32mp1_tests.o -obj-$(CONFIG_STM32MP1_DDR_TUNING) += stm32mp1_tuning.o ifneq ($(DDR_INTERACTIVE),) CFLAGS_stm32mp1_interactive.o += -DCONFIG_STM32MP1_DDR_INTERACTIVE_FORCE=y diff --git a/drivers/ram/stm32mp1/stm32mp1_ddr.c b/drivers/ram/stm32mp1/stm32mp1_ddr.c index 9d086601a4..4d78aa5cb1 100644 --- a/drivers/ram/stm32mp1/stm32mp1_ddr.c +++ b/drivers/ram/stm32mp1/stm32mp1_ddr.c @@ -557,7 +557,7 @@ static void ddrphy_idone_wait(struct stm32mp1_ddrphy *phy) (u32)&phy->pgsr, pgsr, ret); } -void stm32mp1_ddrphy_init(struct stm32mp1_ddrphy *phy, u32 pir) +static void stm32mp1_ddrphy_init(struct stm32mp1_ddrphy *phy, u32 pir) { pir |= DDRPHYC_PIR_INIT; writel(pir, &phy->pir); @@ -626,7 +626,7 @@ static void wait_operating_mode(struct ddr_info *priv, int mode) log_debug("[0x%08x] stat = 0x%08x\n", (u32)&priv->ctl->stat, stat); } -void stm32mp1_refresh_disable(struct stm32mp1_ddrctl *ctl) +static void stm32mp1_refresh_disable(struct stm32mp1_ddrctl *ctl) { start_sw_done(ctl); /* quasi-dynamic register update*/ @@ -637,8 +637,8 @@ void stm32mp1_refresh_disable(struct stm32mp1_ddrctl *ctl) wait_sw_done_ack(ctl); } -void stm32mp1_refresh_restore(struct stm32mp1_ddrctl *ctl, - u32 rfshctl3, u32 pwrctl) +static void stm32mp1_refresh_restore(struct stm32mp1_ddrctl *ctl, + u32 rfshctl3, u32 pwrctl) { start_sw_done(ctl); if (!(rfshctl3 & DDRCTRL_RFSHCTL3_DIS_AUTO_REFRESH)) diff --git a/drivers/ram/stm32mp1/stm32mp1_ddr.h b/drivers/ram/stm32mp1/stm32mp1_ddr.h index 3bfcb85a8f..861efff92b 100644 --- a/drivers/ram/stm32mp1/stm32mp1_ddr.h +++ b/drivers/ram/stm32mp1/stm32mp1_ddr.h @@ -157,11 +157,6 @@ struct stm32mp1_ddr_config { }; int stm32mp1_ddr_clk_enable(struct ddr_info *priv, u32 mem_speed); -void stm32mp1_ddrphy_init(struct stm32mp1_ddrphy *phy, u32 pir); -void stm32mp1_refresh_disable(struct stm32mp1_ddrctl *ctl); -void stm32mp1_refresh_restore(struct stm32mp1_ddrctl *ctl, - u32 rfshctl3, - u32 pwrctl); void stm32mp1_ddr_init( struct ddr_info *priv, diff --git a/drivers/ram/stm32mp1/stm32mp1_ddr_regs.h b/drivers/ram/stm32mp1/stm32mp1_ddr_regs.h index ada3087328..be89d81018 100644 --- a/drivers/ram/stm32mp1/stm32mp1_ddr_regs.h +++ b/drivers/ram/stm32mp1/stm32mp1_ddr_regs.h @@ -6,8 +6,9 @@ #ifndef _RAM_STM32MP1_DDR_REGS_H #define _RAM_STM32MP1_DDR_REGS_H -/* DDR3/LPDDR2/LPDDR3 Controller (DDRCTRL) registers */ #include + +/* DDR3/LPDDR2/LPDDR3 Controller (DDRCTRL) registers */ struct stm32mp1_ddrctl { u32 mstr ; /* 0x0 Master*/ u32 stat; /* 0x4 Operating Mode Status*/ @@ -275,25 +276,6 @@ struct stm32mp1_ddrphy { #define DDRCTRL_DFIMISC_DFI_INIT_COMPLETE_EN BIT(0) -#define DDRCTRL_DBG1_DIS_HIF BIT(1) - -#define DDRCTRL_DBGCAM_WR_DATA_PIPELINE_EMPTY BIT(29) -#define DDRCTRL_DBGCAM_RD_DATA_PIPELINE_EMPTY BIT(28) -#define DDRCTRL_DBGCAM_DBG_WR_Q_EMPTY BIT(26) -#define DDRCTRL_DBGCAM_DBG_LPR_Q_DEPTH GENMASK(12, 8) -#define DDRCTRL_DBGCAM_DBG_HPR_Q_DEPTH GENMASK(4, 0) -#define DDRCTRL_DBGCAM_DATA_PIPELINE_EMPTY \ - (DDRCTRL_DBGCAM_WR_DATA_PIPELINE_EMPTY | \ - DDRCTRL_DBGCAM_RD_DATA_PIPELINE_EMPTY) -#define DDRCTRL_DBGCAM_DBG_Q_DEPTH \ - (DDRCTRL_DBGCAM_DBG_WR_Q_EMPTY | \ - DDRCTRL_DBGCAM_DBG_LPR_Q_DEPTH | \ - DDRCTRL_DBGCAM_DBG_HPR_Q_DEPTH) - -#define DDRCTRL_DBGCMD_RANK0_REFRESH BIT(0) - -#define DDRCTRL_DBGSTAT_RANK0_REFRESH_BUSY BIT(0) - #define DDRCTRL_SWCTL_SW_DONE BIT(0) #define DDRCTRL_SWSTAT_SW_DONE_ACK BIT(0) @@ -312,11 +294,6 @@ struct stm32mp1_ddrphy { #define DDRPHYC_PIR_RVTRN BIT(8) #define DDRPHYC_PIR_ICPC BIT(16) #define DDRPHYC_PIR_ZCALBYP BIT(30) -#define DDRPHYC_PIR_INITSTEPS_MASK GENMASK(31, 7) - -#define DDRPHYC_PGCR_DFTCMP BIT(2) -#define DDRPHYC_PGCR_PDDISDX BIT(24) -#define DDRPHYC_PGCR_RFSHDT_MASK GENMASK(28, 25) #define DDRPHYC_PGSR_IDONE BIT(0) #define DDRPHYC_PGSR_DTERR BIT(5) @@ -325,43 +302,6 @@ struct stm32mp1_ddrphy { #define DDRPHYC_PGSR_RVERR BIT(8) #define DDRPHYC_PGSR_RVEIRR BIT(9) -#define DDRPHYC_DLLGCR_BPS200 BIT(23) - -#define DDRPHYC_ACDLLCR_DLLDIS BIT(31) - -#define DDRPHYC_ZQ0CRN_ZDATA_MASK GENMASK(27, 0) -#define DDRPHYC_ZQ0CRN_ZDATA_SHIFT 0 -#define DDRPHYC_ZQ0CRN_ZDEN BIT(28) - -#define DDRPHYC_DXNGCR_DXEN BIT(0) - -#define DDRPHYC_DXNDLLCR_DLLSRST BIT(30) -#define DDRPHYC_DXNDLLCR_DLLDIS BIT(31) -#define DDRPHYC_DXNDLLCR_SDPHASE_MASK GENMASK(17, 14) -#define DDRPHYC_DXNDLLCR_SDPHASE_SHIFT 14 - -#define DDRPHYC_DXNDQTR_DQDLY_SHIFT(bit) (4 * (bit)) -#define DDRPHYC_DXNDQTR_DQDLY_MASK GENMASK(3, 0) -#define DDRPHYC_DXNDQTR_DQDLY_LOW_MASK GENMASK(1, 0) -#define DDRPHYC_DXNDQTR_DQDLY_HIGH_MASK GENMASK(3, 2) - -#define DDRPHYC_DXNDQSTR_DQSDLY_MASK GENMASK(22, 20) -#define DDRPHYC_DXNDQSTR_DQSDLY_SHIFT 20 -#define DDRPHYC_DXNDQSTR_DQSNDLY_MASK GENMASK(25, 23) -#define DDRPHYC_DXNDQSTR_DQSNDLY_SHIFT 23 -#define DDRPHYC_DXNDQSTR_R0DGSL_MASK GENMASK(2, 0) -#define DDRPHYC_DXNDQSTR_R0DGSL_SHIFT 0 -#define DDRPHYC_DXNDQSTR_R0DGPS_MASK GENMASK(13, 12) -#define DDRPHYC_DXNDQSTR_R0DGPS_SHIFT 12 - -#define DDRPHYC_BISTRR_BDXSEL_MASK GENMASK(22, 19) -#define DDRPHYC_BISTRR_BDXSEL_SHIFT 19 - -#define DDRPHYC_BISTGSR_BDDONE BIT(0) -#define DDRPHYC_BISTGSR_BDXERR BIT(2) - -#define DDRPHYC_BISTWCSR_DXWCNT_SHIFT 16 - /* PWR registers */ #define PWR_CR3 0x00C #define PWR_CR3_DDRSRDIS BIT(11) diff --git a/drivers/ram/stm32mp1/stm32mp1_interactive.c b/drivers/ram/stm32mp1/stm32mp1_interactive.c index a667d49cff..f0fe7e61e3 100644 --- a/drivers/ram/stm32mp1/stm32mp1_interactive.c +++ b/drivers/ram/stm32mp1/stm32mp1_interactive.c @@ -32,7 +32,6 @@ enum ddr_command { DDR_CMD_NEXT, DDR_CMD_GO, DDR_CMD_TEST, - DDR_CMD_TUNING, DDR_CMD_UNKNOWN, }; @@ -59,9 +58,6 @@ enum ddr_command stm32mp1_get_command(char *cmd, int argc) [DDR_CMD_GO] = "go", #ifdef CONFIG_STM32MP1_DDR_TESTS [DDR_CMD_TEST] = "test", -#endif -#ifdef CONFIG_STM32MP1_DDR_TUNING - [DDR_CMD_TUNING] = "tuning", #endif }; /* min and max number of argument */ @@ -78,9 +74,6 @@ enum ddr_command stm32mp1_get_command(char *cmd, int argc) [DDR_CMD_GO] = { 0, 0 }, #ifdef CONFIG_STM32MP1_DDR_TESTS [DDR_CMD_TEST] = { 0, 255 }, -#endif -#ifdef CONFIG_STM32MP1_DDR_TUNING - [DDR_CMD_TUNING] = { 0, 255 }, #endif }; int i; @@ -125,9 +118,6 @@ static void stm32mp1_do_usage(void) "reset reboots machine\n" #ifdef CONFIG_STM32MP1_DDR_TESTS "test [help] | [...] lists (with help) or executes test \n" -#endif -#ifdef CONFIG_STM32MP1_DDR_TUNING - "tuning [help] | [...] lists (with help) or execute tuning \n" #endif "\nwith for [type|reg]:\n" " all registers if absent\n" @@ -311,7 +301,7 @@ end: return step; } -#if defined(CONFIG_STM32MP1_DDR_TESTS) || defined(CONFIG_STM32MP1_DDR_TUNING) +#if defined(CONFIG_STM32MP1_DDR_TESTS) static const char * const s_result[] = { [TEST_PASSED] = "Pass", [TEST_FAILED] = "Failed", @@ -468,16 +458,6 @@ bool stm32mp1_ddr_interactive(void *priv, stm32mp1_ddr_subcmd(priv, argc, argv, test, test_nb); break; #endif - -#ifdef CONFIG_STM32MP1_DDR_TUNING - case DDR_CMD_TUNING: - if (!stm32mp1_check_step(step, STEP_DDR_READY)) - continue; - stm32mp1_ddr_subcmd(priv, argc, argv, - tuning, tuning_nb); - break; -#endif - default: break; } diff --git a/drivers/ram/stm32mp1/stm32mp1_tests.h b/drivers/ram/stm32mp1/stm32mp1_tests.h index 55f5d6d93b..8436780790 100644 --- a/drivers/ram/stm32mp1/stm32mp1_tests.h +++ b/drivers/ram/stm32mp1/stm32mp1_tests.h @@ -28,7 +28,4 @@ struct test_desc { extern const struct test_desc test[]; extern const int test_nb; -extern const struct test_desc tuning[]; -extern const int tuning_nb; - #endif diff --git a/drivers/ram/stm32mp1/stm32mp1_tuning.c b/drivers/ram/stm32mp1/stm32mp1_tuning.c deleted file mode 100644 index c8cd7c3cea..0000000000 --- a/drivers/ram/stm32mp1/stm32mp1_tuning.c +++ /dev/null @@ -1,1540 +0,0 @@ -// SPDX-License-Identifier: GPL-2.0+ OR BSD-3-Clause -/* - * Copyright (C) 2019, STMicroelectronics - All Rights Reserved - */ - -#define LOG_CATEGORY UCLASS_RAM - -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - -#include "stm32mp1_ddr_regs.h" -#include "stm32mp1_ddr.h" -#include "stm32mp1_tests.h" - -#define MAX_DQS_PHASE_IDX _144deg -#define MAX_DQS_UNIT_IDX 7 -#define MAX_GSL_IDX 5 -#define MAX_GPS_IDX 3 - -/* Number of bytes used in this SW. ( min 1--> max 4). */ -#define NUM_BYTES 4 - -enum dqs_phase_enum { - _36deg = 0, - _54deg = 1, - _72deg = 2, - _90deg = 3, - _108deg = 4, - _126deg = 5, - _144deg = 6 -}; - -/* BIST Result struct */ -struct BIST_result { - /* Overall test result: - * 0 Fail (any bit failed) , - * 1 Success (All bits success) - */ - bool test_result; - /* 1: true, all fail / 0: False, not all bits fail */ - bool all_bits_fail; - bool bit_i_test_result[8]; /* 0 fail / 1 success */ -}; - -/* a struct that defines tuning parameters of a byte. */ -struct tuning_position { - u8 phase; /* DQS phase */ - u8 unit; /* DQS unit delay */ - u32 bits_delay; /* Bits deskew in this byte */ -}; - -/* 36deg, 54deg, 72deg, 90deg, 108deg, 126deg, 144deg */ -const u8 dx_dll_phase[7] = {3, 2, 1, 0, 14, 13, 12}; - -static u8 BIST_error_max = 1; -static u32 BIST_seed = 0x1234ABCD; - -static u8 get_nb_bytes(struct stm32mp1_ddrctl *ctl) -{ - u32 data_bus = readl(&ctl->mstr) & DDRCTRL_MSTR_DATA_BUS_WIDTH_MASK; - u8 nb_bytes = NUM_BYTES; - - switch (data_bus) { - case DDRCTRL_MSTR_DATA_BUS_WIDTH_HALF: - nb_bytes /= 2; - break; - case DDRCTRL_MSTR_DATA_BUS_WIDTH_QUARTER: - nb_bytes /= 4; - break; - default: - break; - } - - return nb_bytes; -} - -static u8 get_nb_bank(struct stm32mp1_ddrctl *ctl) -{ - /* Count bank address bits */ - u8 bits = 0; - u32 reg, val; - - reg = readl(&ctl->addrmap1); - /* addrmap1.addrmap_bank_b1 */ - val = (reg & GENMASK(5, 0)) >> 0; - if (val <= 31) - bits++; - /* addrmap1.addrmap_bank_b2 */ - val = (reg & GENMASK(13, 8)) >> 8; - if (val <= 31) - bits++; - /* addrmap1.addrmap_bank_b3 */ - val = (reg & GENMASK(21, 16)) >> 16; - if (val <= 31) - bits++; - - return bits; -} - -static u8 get_nb_col(struct stm32mp1_ddrctl *ctl) -{ - u8 bits; - u32 reg, val; - - /* Count column address bits, start at 2 for b0 and b1 (fixed) */ - bits = 2; - - reg = readl(&ctl->addrmap2); - /* addrmap2.addrmap_col_b2 */ - val = (reg & GENMASK(3, 0)) >> 0; - if (val <= 7) - bits++; - /* addrmap2.addrmap_col_b3 */ - val = (reg & GENMASK(11, 8)) >> 8; - if (val <= 7) - bits++; - /* addrmap2.addrmap_col_b4 */ - val = (reg & GENMASK(19, 16)) >> 16; - if (val <= 7) - bits++; - /* addrmap2.addrmap_col_b5 */ - val = (reg & GENMASK(27, 24)) >> 24; - if (val <= 7) - bits++; - - reg = readl(&ctl->addrmap3); - /* addrmap3.addrmap_col_b6 */ - val = (reg & GENMASK(3, 0)) >> 0; - if (val <= 7) - bits++; - /* addrmap3.addrmap_col_b7 */ - val = (reg & GENMASK(11, 8)) >> 8; - if (val <= 7) - bits++; - /* addrmap3.addrmap_col_b8 */ - val = (reg & GENMASK(19, 16)) >> 16; - if (val <= 7) - bits++; - /* addrmap3.addrmap_col_b9 */ - val = (reg & GENMASK(27, 24)) >> 24; - if (val <= 7) - bits++; - - reg = readl(&ctl->addrmap4); - /* addrmap4.addrmap_col_b10 */ - val = (reg & GENMASK(3, 0)) >> 0; - if (val <= 7) - bits++; - /* addrmap4.addrmap_col_b11 */ - val = (reg & GENMASK(11, 8)) >> 8; - if (val <= 7) - bits++; - - return bits; -} - -static u8 get_nb_row(struct stm32mp1_ddrctl *ctl) -{ - /* Count row address bits */ - u8 bits = 0; - u32 reg, val; - - reg = readl(&ctl->addrmap5); - /* addrmap5.addrmap_row_b0 */ - val = (reg & GENMASK(3, 0)) >> 0; - if (val <= 11) - bits++; - /* addrmap5.addrmap_row_b1 */ - val = (reg & GENMASK(11, 8)) >> 8; - if (val <= 11) - bits++; - /* addrmap5.addrmap_row_b2_10 */ - val = (reg & GENMASK(19, 16)) >> 16; - if (val <= 11) - bits += 9; - else - printf("warning: addrmap5.addrmap_row_b2_10 not supported\n"); - /* addrmap5.addrmap_row_b11 */ - val = (reg & GENMASK(27, 24)) >> 24; - if (val <= 11) - bits++; - - reg = readl(&ctl->addrmap6); - /* addrmap6.addrmap_row_b12 */ - val = (reg & GENMASK(3, 0)) >> 0; - if (val <= 7) - bits++; - /* addrmap6.addrmap_row_b13 */ - val = (reg & GENMASK(11, 8)) >> 8; - if (val <= 7) - bits++; - /* addrmap6.addrmap_row_b14 */ - val = (reg & GENMASK(19, 16)) >> 16; - if (val <= 7) - bits++; - /* addrmap6.addrmap_row_b15 */ - val = (reg & GENMASK(27, 24)) >> 24; - if (val <= 7) - bits++; - - return bits; -} - -static void itm_soft_reset(struct stm32mp1_ddrphy *phy) -{ - stm32mp1_ddrphy_init(phy, DDRPHYC_PIR_ITMSRST); -} - -/* Read DQ unit delay register and provides the retrieved value for DQS - * We are assuming that we have the same delay when clocking - * by DQS and when clocking by DQSN - */ -static u8 DQ_unit_index(struct stm32mp1_ddrphy *phy, u8 byte, u8 bit) -{ - u32 index; - u32 addr = DXNDQTR(phy, byte); - - /* We are assuming that we have the same delay when clocking by DQS - * and when clocking by DQSN : use only the low bits - */ - index = (readl(addr) >> DDRPHYC_DXNDQTR_DQDLY_SHIFT(bit)) - & DDRPHYC_DXNDQTR_DQDLY_LOW_MASK; - - log_debug("[%x]: %x => DQ unit index = %x\n", addr, readl(addr), index); - - return index; -} - -/* Sets the DQS phase delay for a byte lane. - *phase delay is specified by giving the index of the desired delay - * in the dx_dll_phase array. - */ -static void DQS_phase_delay(struct stm32mp1_ddrphy *phy, u8 byte, u8 phase_idx) -{ - u8 sdphase_val = 0; - - /* Write DXNDLLCR.SDPHASE = dx_dll_phase(phase_index); */ - sdphase_val = dx_dll_phase[phase_idx]; - clrsetbits_le32(DXNDLLCR(phy, byte), - DDRPHYC_DXNDLLCR_SDPHASE_MASK, - sdphase_val << DDRPHYC_DXNDLLCR_SDPHASE_SHIFT); -} - -/* Sets the DQS unit delay for a byte lane. - * unit delay is specified by giving the index of the desired delay - * for dgsdly and dqsndly (same value). - */ -static void DQS_unit_delay(struct stm32mp1_ddrphy *phy, - u8 byte, u8 unit_dly_idx) -{ - /* Write the same value in DXNDQSTR.DQSDLY and DXNDQSTR.DQSNDLY */ - clrsetbits_le32(DXNDQSTR(phy, byte), - DDRPHYC_DXNDQSTR_DQSDLY_MASK | - DDRPHYC_DXNDQSTR_DQSNDLY_MASK, - (unit_dly_idx << DDRPHYC_DXNDQSTR_DQSDLY_SHIFT) | - (unit_dly_idx << DDRPHYC_DXNDQSTR_DQSNDLY_SHIFT)); - - /* After changing this value, an ITM soft reset (PIR.ITMSRST=1, - * plus PIR.INIT=1) must be issued. - */ - stm32mp1_ddrphy_init(phy, DDRPHYC_PIR_ITMSRST); -} - -/* Sets the DQ unit delay for a bit line in particular byte lane. - * unit delay is specified by giving the desired delay - */ -static void set_DQ_unit_delay(struct stm32mp1_ddrphy *phy, - u8 byte, u8 bit, - u8 dq_delay_index) -{ - u8 dq_bit_delay_val = dq_delay_index | (dq_delay_index << 2); - - /* same value on delay for clock DQ an DQS_b */ - clrsetbits_le32(DXNDQTR(phy, byte), - DDRPHYC_DXNDQTR_DQDLY_MASK - << DDRPHYC_DXNDQTR_DQDLY_SHIFT(bit), - dq_bit_delay_val << DDRPHYC_DXNDQTR_DQDLY_SHIFT(bit)); -} - -static void set_r0dgsl_delay(struct stm32mp1_ddrphy *phy, - u8 byte, u8 r0dgsl_idx) -{ - clrsetbits_le32(DXNDQSTR(phy, byte), - DDRPHYC_DXNDQSTR_R0DGSL_MASK, - r0dgsl_idx << DDRPHYC_DXNDQSTR_R0DGSL_SHIFT); -} - -static void set_r0dgps_delay(struct stm32mp1_ddrphy *phy, - u8 byte, u8 r0dgps_idx) -{ - clrsetbits_le32(DXNDQSTR(phy, byte), - DDRPHYC_DXNDQSTR_R0DGPS_MASK, - r0dgps_idx << DDRPHYC_DXNDQSTR_R0DGPS_SHIFT); -} - -/* Basic BIST configuration for data lane tests. */ -static void config_BIST(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy) -{ - u8 nb_bank = get_nb_bank(ctl); - u8 nb_row = get_nb_row(ctl); - u8 nb_col = get_nb_col(ctl); - - /* Selects the SDRAM bank address to be used during BIST. */ - u32 bbank = 0; - /* Selects the SDRAM row address to be used during BIST. */ - u32 brow = 0; - /* Selects the SDRAM column address to be used during BIST. */ - u32 bcol = 0; - /* Selects the value by which the SDRAM address is incremented - * for each write/read access. - */ - u32 bainc = 0x00000008; - /* Specifies the maximum SDRAM rank to be used during BIST. - * The default value is set to maximum ranks minus 1. - * must be 0 with single rank - */ - u32 bmrank = 0; - /* Selects the SDRAM rank to be used during BIST. - * must be 0 with single rank - */ - u32 brank = 0; - - /* Specifies the maximum SDRAM bank address to be used during - * BIST before the address & increments to the next rank. - */ - u32 bmbank = (1 << nb_bank) - 1; - /* Specifies the maximum SDRAM row address to be used during - * BIST before the address & increments to the next bank. - */ - u32 bmrow = (1 << nb_row) - 1; - /* Specifies the maximum SDRAM column address to be used during - * BIST before the address & increments to the next row. - */ - u32 bmcol = (1 << nb_col) - 1; - - u32 bmode_conf = 0x00000001; /* DRam mode */ - u32 bdxen_conf = 0x00000001; /* BIST on Data byte */ - u32 bdpat_conf = 0x00000002; /* Select LFSR pattern */ - - /*Setup BIST for DRAM mode, and LFSR-random data pattern.*/ - /*Write BISTRR.BMODE = 1?b1;*/ - /*Write BISTRR.BDXEN = 1?b1;*/ - /*Write BISTRR.BDPAT = 2?b10;*/ - - /* reset BIST */ - writel(0x3, &phy->bistrr); - - writel((bmode_conf << 3) | (bdxen_conf << 14) | (bdpat_conf << 17), - &phy->bistrr); - - /*Setup BIST Word Count*/ - /*Write BISTWCR.BWCNT = 16?b0008;*/ - writel(0x00000200, &phy->bistwcr); /* A multiple of BL/2 */ - - writel(bcol | (brow << 12) | (bbank << 28), &phy->bistar0); - writel(brank | (bmrank << 2) | (bainc << 4), &phy->bistar1); - writel(bmcol | (bmrow << 12) | (bmbank << 28), &phy->bistar2); -} - -/* Select the Byte lane to be tested by BIST. */ -static void BIST_datx8_sel(struct stm32mp1_ddrphy *phy, u8 datx8) -{ - clrsetbits_le32(&phy->bistrr, - DDRPHYC_BISTRR_BDXSEL_MASK, - datx8 << DDRPHYC_BISTRR_BDXSEL_SHIFT); - - /*(For example, selecting Byte Lane 3, BISTRR.BDXSEL = 4?b0011)*/ - /* Write BISTRR.BDXSEL = datx8; */ -} - -/* Perform BIST Write_Read test on a byte lane and return test result. */ -static void BIST_test(struct stm32mp1_ddrphy *phy, u8 byte, - struct BIST_result *bist) -{ - bool result = true; /* BIST_SUCCESS */ - u32 cnt = 0; - u32 error = 0; - u32 val; - int ret; - - bist->test_result = true; - -run: - itm_soft_reset(phy); - - /*Perform BIST Reset*/ - /* Write BISTRR.BINST = 3?b011; */ - clrsetbits_le32(&phy->bistrr, - 0x00000007, - 0x00000003); - - /*Re-seed LFSR*/ - /* Write BISTLSR.SEED = 32'h1234ABCD; */ - if (BIST_seed) - writel(BIST_seed, &phy->bistlsr); - else - writel(rand(), &phy->bistlsr); - - /* some delay to reset BIST */ - udelay(10); - - /*Perform BIST Run*/ - clrsetbits_le32(&phy->bistrr, - 0x00000007, - 0x00000001); - /* Write BISTRR.BINST = 3?b001; */ - - /* poll on BISTGSR.BDONE and wait max 1000 us */ - ret = readl_poll_timeout(&phy->bistgsr, val, - val & DDRPHYC_BISTGSR_BDDONE, 1000); - - if (ret < 0) { - printf("warning: BIST timeout\n"); - result = false; /* BIST_FAIL; */ - /*Perform BIST Stop */ - clrsetbits_le32(&phy->bistrr, 0x00000007, 0x00000002); - } else { - /*Check if received correct number of words*/ - /* if (Read BISTWCSR.DXWCNT = Read BISTWCR.BWCNT) */ - if (((readl(&phy->bistwcsr)) >> DDRPHYC_BISTWCSR_DXWCNT_SHIFT) - == readl(&phy->bistwcr)) { - /*Determine if there is a data comparison error*/ - /* if (Read BISTGSR.BDXERR = 1?b0) */ - if (readl(&phy->bistgsr) & DDRPHYC_BISTGSR_BDXERR) - result = false; /* BIST_FAIL; */ - else - result = true; /* BIST_SUCCESS; */ - } else { - result = false; /* BIST_FAIL; */ - } - } - - /* loop while success */ - cnt++; - if (result && cnt != 1000) - goto run; - - if (!result) - error++; - - if (error < BIST_error_max) { - if (cnt != 1000) - goto run; - bist->test_result = true; - } else { - bist->test_result = false; - } -} - -/* After running the deskew algo, this function applies the new DQ delays - * by reading them from the array "deskew_delay"and writing in PHY registers. - * The bits that are not deskewed parfectly (too much skew on them, - * or data eye very wide) are marked in the array deskew_non_converge. - */ -static void apply_deskew_results(struct stm32mp1_ddrphy *phy, u8 byte, - u8 deskew_delay[NUM_BYTES][8], - u8 deskew_non_converge[NUM_BYTES][8]) -{ - u8 bit_i; - u8 index; - - for (bit_i = 0; bit_i < 8; bit_i++) { - set_DQ_unit_delay(phy, byte, bit_i, deskew_delay[byte][bit_i]); - index = DQ_unit_index(phy, byte, bit_i); - log_debug("Byte %d ; bit %d : The new DQ delay (%d) index=%d [delta=%d, 3 is the default]", - byte, bit_i, deskew_delay[byte][bit_i], - index, index - 3); - printf("Byte %d, bit %d, DQ delay = %d", - byte, bit_i, deskew_delay[byte][bit_i]); - if (deskew_non_converge[byte][bit_i] == 1) - log_debug(" - not converged : still more skew"); - printf("\n"); - } -} - -/* DQ Bit de-skew algorithm. - * Deskews data lines as much as possible. - * 1. Add delay to DQS line until finding the failure - * (normally a hold time violation) - * 2. Reduce DQS line by small steps until finding the very first time - * we go back to "Pass" condition. - * 3. For each DQ line, Reduce DQ delay until finding the very first failure - * (normally a hold time fail) - * 4. When all bits are at their first failure delay, we can consider them - * aligned. - * Handle conrer situation (Can't find Pass-fail, or fail-pass transitions - * at any step) - * TODO Provide a return Status. Improve doc - */ -static enum test_result bit_deskew(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, char *string) -{ - /* New DQ delay value (index), set during Deskew algo */ - u8 deskew_delay[NUM_BYTES][8]; - /*If there is still skew on a bit, mark this bit. */ - u8 deskew_non_converge[NUM_BYTES][8]; - struct BIST_result result; - s8 dqs_unit_delay_index = 0; - u8 datx8 = 0; - u8 bit_i = 0; - s8 phase_idx = 0; - s8 bit_i_delay_index = 0; - u8 success = 0; - struct tuning_position last_right_ok; - u8 force_stop = 0; - u8 fail_found; - u8 error = 0; - u8 nb_bytes = get_nb_bytes(ctl); - /* u8 last_pass_dqs_unit = 0; */ - - memset(deskew_delay, 0, sizeof(deskew_delay)); - memset(deskew_non_converge, 0, sizeof(deskew_non_converge)); - - /*Disable DQS Drift Compensation*/ - clrbits_le32(&phy->pgcr, DDRPHYC_PGCR_DFTCMP); - /*Disable all bytes*/ - /* Disable automatic power down of DLL and IOs when disabling - * a byte (To avoid having to add programming and delay - * for a DLL re-lock when later re-enabling a disabled Byte Lane) - */ - clrbits_le32(&phy->pgcr, DDRPHYC_PGCR_PDDISDX); - - /* Disable all data bytes */ - clrbits_le32(&phy->dx0gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx1gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx2gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx3gcr, DDRPHYC_DXNGCR_DXEN); - - /* Config the BIST block */ - config_BIST(ctl, phy); - log_debug("BIST Config done.\n"); - - /* Train each byte */ - for (datx8 = 0; datx8 < nb_bytes; datx8++) { - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - datx8 + 1, nb_bytes, error); - return TEST_FAILED; - } - log_debug("\n======================\n"); - log_debug("Start deskew byte %d .\n", datx8); - log_debug("======================\n"); - /* Enable Byte (DXNGCR, bit DXEN) */ - setbits_le32(DXNGCR(phy, datx8), DDRPHYC_DXNGCR_DXEN); - - /* Select the byte lane for comparison of read data */ - BIST_datx8_sel(phy, datx8); - - /* Set all DQDLYn to maximum value. All bits within the byte - * will be delayed with DQSTR = 2 instead of max = 3 - * to avoid inter bits fail influence - */ - writel(0xAAAAAAAA, DXNDQTR(phy, datx8)); - - /* Set the DQS phase delay to 90 DEG (default). - * What is defined here is the index of the desired config - * in the PHASE array. - */ - phase_idx = _90deg; - - /* Set DQS unit delay to the max value. */ - dqs_unit_delay_index = MAX_DQS_UNIT_IDX; - DQS_unit_delay(phy, datx8, dqs_unit_delay_index); - DQS_phase_delay(phy, datx8, phase_idx); - - /* Issue a DLL soft reset */ - clrbits_le32(DXNDLLCR(phy, datx8), DDRPHYC_DXNDLLCR_DLLSRST); - setbits_le32(DXNDLLCR(phy, datx8), DDRPHYC_DXNDLLCR_DLLSRST); - - /* Test this typical init condition */ - BIST_test(phy, datx8, &result); - success = result.test_result; - - /* If the test pass in this typical condition, - * start the algo with it. - * Else, look for Pass init condition - */ - if (!success) { - log_debug("Fail at init condtion. Let's look for a good init condition.\n"); - success = 0; /* init */ - /* Make sure we start with a PASS condition before - * looking for a fail condition. - * Find the first PASS PHASE condition - */ - - /* escape if we find a PASS */ - log_debug("increase Phase idx\n"); - while (!success && (phase_idx <= MAX_DQS_PHASE_IDX)) { - DQS_phase_delay(phy, datx8, phase_idx); - BIST_test(phy, datx8, &result); - success = result.test_result; - phase_idx++; - } - /* if ended with success - * ==>> Restore the fist success condition - */ - if (success) - phase_idx--; /* because it ended with ++ */ - } - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - datx8 + 1, nb_bytes, error); - return TEST_FAILED; - } - /* We couldn't find a successful condition, its seems - * we have hold violation, lets try reduce DQS_unit Delay - */ - if (!success) { - /* We couldn't find a successful condition, its seems - * we have hold violation, lets try reduce DQS_unit - * Delay - */ - log_debug("Still fail. Try decrease DQS Unit delay\n"); - - phase_idx = 0; - dqs_unit_delay_index = 0; - DQS_phase_delay(phy, datx8, phase_idx); - - /* escape if we find a PASS */ - while (!success && - (dqs_unit_delay_index <= - MAX_DQS_UNIT_IDX)) { - DQS_unit_delay(phy, datx8, - dqs_unit_delay_index); - BIST_test(phy, datx8, &result); - success = result.test_result; - dqs_unit_delay_index++; - } - if (success) { - /* Restore the first success condition*/ - dqs_unit_delay_index--; - /* last_pass_dqs_unit = dqs_unit_delay_index;*/ - DQS_unit_delay(phy, datx8, - dqs_unit_delay_index); - } else { - /* No need to continue, - * there is no pass region. - */ - force_stop = 1; - } - } - - /* There is an initial PASS condition - * Look for the first failing condition by PHASE stepping. - * This part of the algo can finish without converging. - */ - if (force_stop) { - printf("Result: Failed "); - printf("[Cannot Deskew lines, "); - printf("there is no PASS region]\n"); - error++; - continue; - } - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - datx8 + 1, nb_bytes, error); - return TEST_FAILED; - } - - log_debug("there is a pass region for phase idx %d\n", - phase_idx); - log_debug("Step1: Find the first failing condition\n"); - /* Look for the first failing condition by PHASE stepping. - * This part of the algo can finish without converging. - */ - - /* escape if we find a fail (hold time violation) - * condition at any bit or if out of delay range. - */ - while (success && (phase_idx <= MAX_DQS_PHASE_IDX)) { - DQS_phase_delay(phy, datx8, phase_idx); - BIST_test(phy, datx8, &result); - success = result.test_result; - phase_idx++; - } - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - datx8 + 1, nb_bytes, error); - return TEST_FAILED; - } - - /* if the loop ended with a failing condition at any bit, - * lets look for the first previous success condition by unit - * stepping (minimal delay) - */ - if (!success) { - log_debug("Fail region (PHASE) found phase idx %d\n", - phase_idx); - log_debug("Let's look for first success by DQS Unit steps\n"); - /* This part, the algo always converge */ - phase_idx--; - - /* escape if we find a success condition - * or if out of delay range. - */ - while (!success && dqs_unit_delay_index >= 0) { - DQS_unit_delay(phy, datx8, - dqs_unit_delay_index); - BIST_test(phy, datx8, &result); - success = result.test_result; - dqs_unit_delay_index--; - } - /* if the loop ended with a success condition, - * the last delay Right OK (before hold violation) - * condition is then defined as following: - */ - if (success) { - /* Hold the dely parameters of the the last - * delay Right OK condition. - * -1 to get back to current condition - */ - last_right_ok.phase = phase_idx; - /*+1 to get back to current condition */ - last_right_ok.unit = dqs_unit_delay_index + 1; - last_right_ok.bits_delay = 0xFFFFFFFF; - log_debug("Found %d\n", dqs_unit_delay_index); - } else { - /* the last OK condition is then with the - * previous phase_idx. - * -2 instead of -1 because at the last - * iteration of the while(), - * we incremented phase_idx - */ - last_right_ok.phase = phase_idx - 1; - /* Nominal+1. Because we want the previous - * delay after reducing the phase delay. - */ - last_right_ok.unit = 1; - last_right_ok.bits_delay = 0xFFFFFFFF; - log_debug("Not Found : try previous phase %d\n", - phase_idx - 1); - - DQS_phase_delay(phy, datx8, phase_idx - 1); - dqs_unit_delay_index = 0; - success = true; - while (success && - (dqs_unit_delay_index < - MAX_DQS_UNIT_IDX)) { - DQS_unit_delay(phy, datx8, - dqs_unit_delay_index); - BIST_test(phy, datx8, &result); - success = result.test_result; - dqs_unit_delay_index++; - log_debug("dqs_unit_delay_index = %d, result = %d\n", - dqs_unit_delay_index, success); - } - - if (!success) { - last_right_ok.unit = - dqs_unit_delay_index - 1; - } else { - last_right_ok.unit = 0; - log_debug("ERROR: failed region not FOUND"); - } - } - } else { - /* we can't find a failing condition at all bits - * ==> Just hold the last test condition - * (the max DQS delay) - * which is the most likely, - * the closest to a hold violation - * If we can't find a Fail condition after - * the Pass region, stick at this position - * In order to have max chances to find a fail - * when reducing DQ delays. - */ - last_right_ok.phase = MAX_DQS_PHASE_IDX; - last_right_ok.unit = MAX_DQS_UNIT_IDX; - last_right_ok.bits_delay = 0xFFFFFFFF; - log_debug("Can't find the a fail condition\n"); - } - - /* step 2: - * if we arrive at this stage, it means that we found the last - * Right OK condition (by tweeking the DQS delay). Or we simply - * pushed DQS delay to the max - * This means that by reducing the delay on some DQ bits, - * we should find a failing condition. - */ - printf("Byte %d, DQS unit = %d, phase = %d\n", - datx8, last_right_ok.unit, last_right_ok.phase); - log_debug("Step2, unit = %d, phase = %d, bits delay=%x\n", - last_right_ok.unit, last_right_ok.phase, - last_right_ok.bits_delay); - - /* Restore the last_right_ok condtion. */ - DQS_unit_delay(phy, datx8, last_right_ok.unit); - DQS_phase_delay(phy, datx8, last_right_ok.phase); - writel(last_right_ok.bits_delay, DXNDQTR(phy, datx8)); - - /* train each bit - * reduce delay on each bit, and perform a write/read test - * and stop at the very first time it fails. - * the goal is the find the first failing condition - * for each bit. - * When we achieve this condition< for all the bits, - * we are sure they are aligned (+/- step resolution) - */ - fail_found = 0; - for (bit_i = 0; bit_i < 8; bit_i++) { - if (ctrlc()) { - sprintf(string, - "interrupted at byte %d/%d, error=%d", - datx8 + 1, nb_bytes, error); - return error; - } - log_debug("deskewing bit %d:\n", bit_i); - success = 1; /* init */ - /* Set all DQDLYn to maximum value. - * Only bit_i will be down-delayed - * ==> if we have a fail, it will be definitely - * from bit_i - */ - writel(0xFFFFFFFF, DXNDQTR(phy, datx8)); - /* Arriving at this stage, - * we have a success condition with delay = 3; - */ - bit_i_delay_index = 3; - - /* escape if bit delay is out of range or - * if a fatil occurs - */ - while ((bit_i_delay_index >= 0) && success) { - set_DQ_unit_delay(phy, datx8, - bit_i, - bit_i_delay_index); - BIST_test(phy, datx8, &result); - success = result.test_result; - bit_i_delay_index--; - } - - /* if escape with a fail condition - * ==> save this position for bit_i - */ - if (!success) { - /* save the delay position. - * Add 1 because the while loop ended with a --, - * and that we need to hold the last success - * delay - */ - deskew_delay[datx8][bit_i] = - bit_i_delay_index + 2; - if (deskew_delay[datx8][bit_i] > 3) - deskew_delay[datx8][bit_i] = 3; - - /* A flag that states we found at least a fail - * at one bit. - */ - fail_found = 1; - log_debug("Fail found on bit %d, for delay = %d => deskew[%d][%d] = %d\n", - bit_i, bit_i_delay_index + 1, - datx8, bit_i, - deskew_delay[datx8][bit_i]); - } else { - /* if we can find a success condition by - * back-delaying this bit, just set the delay - * to 0 (the best deskew - * possible) and mark the bit. - */ - deskew_delay[datx8][bit_i] = 0; - /* set a flag that will be used later - * in the report. - */ - deskew_non_converge[datx8][bit_i] = 1; - log_debug("Fail not found on bit %d => deskew[%d][%d] = %d\n", - bit_i, datx8, bit_i, - deskew_delay[datx8][bit_i]); - } - } - log_debug("**********byte %d tuning complete************\n", - datx8); - /* If we can't find any failure by back delaying DQ lines, - * hold the default values - */ - if (!fail_found) { - for (bit_i = 0; bit_i < 8; bit_i++) - deskew_delay[datx8][bit_i] = 0; - log_debug("The Deskew algorithm can't converge, there is too much margin in your design. Good job!\n"); - } - - apply_deskew_results(phy, datx8, deskew_delay, - deskew_non_converge); - /* Restore nominal value for DQS delay */ - DQS_phase_delay(phy, datx8, 3); - DQS_unit_delay(phy, datx8, 3); - /* disable byte after byte bits deskew */ - clrbits_le32(DXNGCR(phy, datx8), DDRPHYC_DXNGCR_DXEN); - } /* end of byte deskew */ - - /* re-enable all data bytes */ - setbits_le32(&phy->dx0gcr, DDRPHYC_DXNGCR_DXEN); - setbits_le32(&phy->dx1gcr, DDRPHYC_DXNGCR_DXEN); - setbits_le32(&phy->dx2gcr, DDRPHYC_DXNGCR_DXEN); - setbits_le32(&phy->dx3gcr, DDRPHYC_DXNGCR_DXEN); - - if (error) { - sprintf(string, "error = %d", error); - return TEST_FAILED; - } - - return TEST_PASSED; -} /* end function */ - -/* Trim DQS timings and set it in the centre of data eye. - * Look for a PPPPF region, then look for a FPPP region and finally select - * the mid of the FPPPPPF region - */ -static enum test_result eye_training(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, char *string) -{ - /*Stores the DQS trim values (PHASE index, unit index) */ - u8 eye_training_val[NUM_BYTES][2]; - u8 byte = 0; - struct BIST_result result; - s8 dqs_unit_delay_index = 0; - s8 phase_idx = 0; - s8 dqs_unit_delay_index_pass = 0; - s8 phase_idx_pass = 0; - u8 success = 0; - u8 left_phase_bound_found, right_phase_bound_found; - u8 left_unit_bound_found, right_unit_bound_found; - u8 left_bound_found, right_bound_found; - struct tuning_position left_bound, right_bound; - u8 error = 0; - u8 nb_bytes = get_nb_bytes(ctl); - - /*Disable DQS Drift Compensation*/ - clrbits_le32(&phy->pgcr, DDRPHYC_PGCR_DFTCMP); - /*Disable all bytes*/ - /* Disable automatic power down of DLL and IOs when disabling a byte - * (To avoid having to add programming and delay - * for a DLL re-lock when later re-enabling a disabled Byte Lane) - */ - clrbits_le32(&phy->pgcr, DDRPHYC_PGCR_PDDISDX); - - /*Disable all data bytes */ - clrbits_le32(&phy->dx0gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx1gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx2gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx3gcr, DDRPHYC_DXNGCR_DXEN); - - /* Config the BIST block */ - config_BIST(ctl, phy); - - for (byte = 0; byte < nb_bytes; byte++) { - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - byte + 1, nb_bytes, error); - return TEST_FAILED; - } - right_bound.phase = 0; - right_bound.unit = 0; - - left_bound.phase = 0; - left_bound.unit = 0; - - left_phase_bound_found = 0; - right_phase_bound_found = 0; - - left_unit_bound_found = 0; - right_unit_bound_found = 0; - - left_bound_found = 0; - right_bound_found = 0; - - /* Enable Byte (DXNGCR, bit DXEN) */ - setbits_le32(DXNGCR(phy, byte), DDRPHYC_DXNGCR_DXEN); - - /* Select the byte lane for comparison of read data */ - BIST_datx8_sel(phy, byte); - - /* Set DQS phase delay to the nominal value. */ - phase_idx = _90deg; - phase_idx_pass = phase_idx; - - /* Set DQS unit delay to the nominal value. */ - dqs_unit_delay_index = 3; - dqs_unit_delay_index_pass = dqs_unit_delay_index; - success = 0; - - log_debug("STEP0: Find Init delay\n"); - /* STEP0: Find Init delay: a delay that put the system - * in a "Pass" condition then (TODO) update - * dqs_unit_delay_index_pass & phase_idx_pass - */ - DQS_unit_delay(phy, byte, dqs_unit_delay_index); - DQS_phase_delay(phy, byte, phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - /* If we have a fail in the nominal condition */ - if (!success) { - /* Look at the left */ - while (phase_idx >= 0 && !success) { - phase_idx--; - DQS_phase_delay(phy, byte, phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - } - } - if (!success) { - /* if we can't find pass condition, - * then look at the right - */ - phase_idx = _90deg; - while (phase_idx <= MAX_DQS_PHASE_IDX && - !success) { - phase_idx++; - DQS_phase_delay(phy, byte, - phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - } - } - /* save the pass condition */ - if (success) { - phase_idx_pass = phase_idx; - } else { - printf("Result: Failed "); - printf("[Cannot DQS timings, "); - printf("there is no PASS region]\n"); - error++; - continue; - } - - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - byte + 1, nb_bytes, error); - return TEST_FAILED; - } - log_debug("STEP1: Find LEFT PHASE DQS Bound\n"); - /* STEP1: Find LEFT PHASE DQS Bound */ - while ((phase_idx >= 0) && - (phase_idx <= MAX_DQS_PHASE_IDX) && - !left_phase_bound_found) { - DQS_unit_delay(phy, byte, - dqs_unit_delay_index); - DQS_phase_delay(phy, byte, - phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - - /*TODO: Manage the case were at the beginning - * there is already a fail - */ - if (!success) { - /* the last pass condition */ - left_bound.phase = ++phase_idx; - left_phase_bound_found = 1; - } else if (success) { - phase_idx--; - } - } - if (!left_phase_bound_found) { - left_bound.phase = 0; - phase_idx = 0; - } - /* If not found, lets take 0 */ - - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - byte + 1, nb_bytes, error); - return TEST_FAILED; - } - log_debug("STEP2: Find UNIT left bound\n"); - /* STEP2: Find UNIT left bound */ - while ((dqs_unit_delay_index >= 0) && - !left_unit_bound_found) { - DQS_unit_delay(phy, byte, - dqs_unit_delay_index); - DQS_phase_delay(phy, byte, phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - if (!success) { - left_bound.unit = - ++dqs_unit_delay_index; - left_unit_bound_found = 1; - left_bound_found = 1; - } else if (success) { - dqs_unit_delay_index--; - } - } - - /* If not found, lets take 0 */ - if (!left_unit_bound_found) - left_bound.unit = 0; - - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - byte + 1, nb_bytes, error); - return TEST_FAILED; - } - log_debug("STEP3: Find PHase right bound\n"); - /* STEP3: Find PHase right bound, start with "pass" - * condition - */ - - /* Set DQS phase delay to the pass value. */ - phase_idx = phase_idx_pass; - - /* Set DQS unit delay to the pass value. */ - dqs_unit_delay_index = dqs_unit_delay_index_pass; - - while ((phase_idx <= MAX_DQS_PHASE_IDX) && - !right_phase_bound_found) { - DQS_unit_delay(phy, byte, - dqs_unit_delay_index); - DQS_phase_delay(phy, byte, phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - if (!success) { - /* the last pass condition */ - right_bound.phase = --phase_idx; - right_phase_bound_found = 1; - } else if (success) { - phase_idx++; - } - } - - /* If not found, lets take the max value */ - if (!right_phase_bound_found) { - right_bound.phase = MAX_DQS_PHASE_IDX; - phase_idx = MAX_DQS_PHASE_IDX; - } - - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d, error=%d", - byte + 1, nb_bytes, error); - return TEST_FAILED; - } - log_debug("STEP4: Find UNIT right bound\n"); - /* STEP4: Find UNIT right bound */ - while ((dqs_unit_delay_index <= MAX_DQS_UNIT_IDX) && - !right_unit_bound_found) { - DQS_unit_delay(phy, byte, - dqs_unit_delay_index); - DQS_phase_delay(phy, byte, phase_idx); - BIST_test(phy, byte, &result); - success = result.test_result; - if (!success) { - right_bound.unit = - --dqs_unit_delay_index; - right_unit_bound_found = 1; - right_bound_found = 1; - } else if (success) { - dqs_unit_delay_index++; - } - } - /* If not found, lets take the max value */ - if (!right_unit_bound_found) - right_bound.unit = MAX_DQS_UNIT_IDX; - - /* If we found a regular FAil Pass FAil pattern - * FFPPPPPPFF - * OR PPPPPFF Or FFPPPPP - */ - - if (left_bound_found || right_bound_found) { - eye_training_val[byte][0] = (right_bound.phase + - left_bound.phase) / 2; - eye_training_val[byte][1] = (right_bound.unit + - left_bound.unit) / 2; - - /* If we already lost 1/2PHASE Tuning, - * let's try to recover by ++ on unit - */ - if (((right_bound.phase + left_bound.phase) % 2 == 1) && - eye_training_val[byte][1] != MAX_DQS_UNIT_IDX) - eye_training_val[byte][1]++; - log_debug("** found phase : %d - %d & unit %d - %d\n", - right_bound.phase, left_bound.phase, - right_bound.unit, left_bound.unit); - log_debug("** calculating mid region: phase: %d unit: %d (nominal is 3)\n", - eye_training_val[byte][0], - eye_training_val[byte][1]); - } else { - /* PPPPPPPPPP, we're already good. - * Set nominal values. - */ - eye_training_val[byte][0] = 3; - eye_training_val[byte][1] = 3; - } - DQS_phase_delay(phy, byte, eye_training_val[byte][0]); - DQS_unit_delay(phy, byte, eye_training_val[byte][1]); - - printf("Byte %d, DQS unit = %d, phase = %d\n", - byte, - eye_training_val[byte][1], - eye_training_val[byte][0]); - } - - if (error) { - sprintf(string, "error = %d", error); - return TEST_FAILED; - } - - return TEST_PASSED; -} - -static void display_reg_results(struct stm32mp1_ddrphy *phy, u8 byte) -{ - u8 i = 0; - - printf("Byte %d Dekew result, bit0 delay, bit1 delay...bit8 delay\n ", - byte); - - for (i = 0; i < 8; i++) - printf("%d ", DQ_unit_index(phy, byte, i)); - printf("\n"); - - printf("dxndllcr: [%08x] val:%08x\n", - DXNDLLCR(phy, byte), - readl(DXNDLLCR(phy, byte))); - printf("dxnqdstr: [%08x] val:%08x\n", - DXNDQSTR(phy, byte), - readl(DXNDQSTR(phy, byte))); - printf("dxndqtr: [%08x] val:%08x\n", - DXNDQTR(phy, byte), - readl(DXNDQTR(phy, byte))); -} - -/* analyse the dgs gating log table, and determine the midpoint.*/ -static u8 set_midpoint_read_dqs_gating(struct stm32mp1_ddrphy *phy, u8 byte, - u8 dqs_gating[NUM_BYTES] - [MAX_GSL_IDX + 1] - [MAX_GPS_IDX + 1]) -{ - /* stores the dqs gate values (gsl index, gps index) */ - u8 dqs_gate_values[NUM_BYTES][2]; - u8 gsl_idx, gps_idx = 0; - u8 left_bound_idx[2] = {0, 0}; - u8 right_bound_idx[2] = {0, 0}; - u8 left_bound_found = 0; - u8 right_bound_found = 0; - u8 intermittent = 0; - u8 value; - - for (gsl_idx = 0; gsl_idx <= MAX_GSL_IDX; gsl_idx++) { - for (gps_idx = 0; gps_idx <= MAX_GPS_IDX; gps_idx++) { - value = dqs_gating[byte][gsl_idx][gps_idx]; - if (value == 1 && left_bound_found == 0) { - left_bound_idx[0] = gsl_idx; - left_bound_idx[1] = gps_idx; - left_bound_found = 1; - } else if (value == 0 && - left_bound_found == 1 && - !right_bound_found) { - if (gps_idx == 0) { - right_bound_idx[0] = gsl_idx - 1; - right_bound_idx[1] = MAX_GPS_IDX; - } else { - right_bound_idx[0] = gsl_idx; - right_bound_idx[1] = gps_idx - 1; - } - right_bound_found = 1; - } else if (value == 1 && - right_bound_found == 1) { - intermittent = 1; - } - } - } - - /* if only ppppppp is found, there is no mid region. */ - if (left_bound_idx[0] == 0 && left_bound_idx[1] == 0 && - right_bound_idx[0] == 0 && right_bound_idx[1] == 0) - intermittent = 1; - - /*if we found a regular fail pass fail pattern ffppppppff - * or pppppff or ffppppp - */ - if (!intermittent) { - /*if we found a regular fail pass fail pattern ffppppppff - * or pppppff or ffppppp - */ - if (left_bound_found || right_bound_found) { - log_debug("idx0(%d): %d %d idx1(%d) : %d %d\n", - left_bound_found, - right_bound_idx[0], left_bound_idx[0], - right_bound_found, - right_bound_idx[1], left_bound_idx[1]); - dqs_gate_values[byte][0] = - (right_bound_idx[0] + left_bound_idx[0]) / 2; - dqs_gate_values[byte][1] = - (right_bound_idx[1] + left_bound_idx[1]) / 2; - /* if we already lost 1/2gsl tuning, - * let's try to recover by ++ on gps - */ - if (((right_bound_idx[0] + - left_bound_idx[0]) % 2 == 1) && - dqs_gate_values[byte][1] != MAX_GPS_IDX) - dqs_gate_values[byte][1]++; - /* if we already lost 1/2gsl tuning and gps is on max*/ - else if (((right_bound_idx[0] + - left_bound_idx[0]) % 2 == 1) && - dqs_gate_values[byte][1] == MAX_GPS_IDX) { - dqs_gate_values[byte][1] = 0; - dqs_gate_values[byte][0]++; - } - /* if we have gsl left and write limit too close - * (difference=1) - */ - if (((right_bound_idx[0] - left_bound_idx[0]) == 1)) { - dqs_gate_values[byte][1] = (left_bound_idx[1] + - right_bound_idx[1] + - 4) / 2; - if (dqs_gate_values[byte][1] >= 4) { - dqs_gate_values[byte][0] = - right_bound_idx[0]; - dqs_gate_values[byte][1] -= 4; - } else { - dqs_gate_values[byte][0] = - left_bound_idx[0]; - } - } - log_debug("*******calculating mid region: system latency: %d phase: %d********\n", - dqs_gate_values[byte][0], - dqs_gate_values[byte][1]); - log_debug("*******the nominal values were system latency: 0 phase: 2*******\n"); - } - } else { - /* if intermitant, restore defaut values */ - log_debug("dqs gating:no regular fail/pass/fail found. defaults values restored.\n"); - dqs_gate_values[byte][0] = 0; - dqs_gate_values[byte][1] = 2; - } - set_r0dgsl_delay(phy, byte, dqs_gate_values[byte][0]); - set_r0dgps_delay(phy, byte, dqs_gate_values[byte][1]); - printf("Byte %d, R0DGSL = %d, R0DGPS = %d\n", - byte, dqs_gate_values[byte][0], dqs_gate_values[byte][1]); - - /* return 0 if intermittent or if both left_bound - * and right_bound are not found - */ - return !(intermittent || (left_bound_found && right_bound_found)); -} - -static enum test_result read_dqs_gating(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, - char *string) -{ - /* stores the log of pass/fail */ - u8 dqs_gating[NUM_BYTES][MAX_GSL_IDX + 1][MAX_GPS_IDX + 1]; - u8 byte, gsl_idx, gps_idx = 0; - struct BIST_result result; - u8 success = 0; - u8 nb_bytes = get_nb_bytes(ctl); - - memset(dqs_gating, 0x0, sizeof(dqs_gating)); - - /*disable dqs drift compensation*/ - clrbits_le32(&phy->pgcr, DDRPHYC_PGCR_DFTCMP); - /*disable all bytes*/ - /* disable automatic power down of dll and ios when disabling a byte - * (to avoid having to add programming and delay - * for a dll re-lock when later re-enabling a disabled byte lane) - */ - clrbits_le32(&phy->pgcr, DDRPHYC_PGCR_PDDISDX); - - /* disable all data bytes */ - clrbits_le32(&phy->dx0gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx1gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx2gcr, DDRPHYC_DXNGCR_DXEN); - clrbits_le32(&phy->dx3gcr, DDRPHYC_DXNGCR_DXEN); - - /* config the bist block */ - config_BIST(ctl, phy); - - for (byte = 0; byte < nb_bytes; byte++) { - if (ctrlc()) { - sprintf(string, "interrupted at byte %d/%d", - byte + 1, nb_bytes); - return TEST_FAILED; - } - /* enable byte x (dxngcr, bit dxen) */ - setbits_le32(DXNGCR(phy, byte), DDRPHYC_DXNGCR_DXEN); - - /* select the byte lane for comparison of read data */ - BIST_datx8_sel(phy, byte); - for (gsl_idx = 0; gsl_idx <= MAX_GSL_IDX; gsl_idx++) { - for (gps_idx = 0; gps_idx <= MAX_GPS_IDX; gps_idx++) { - if (ctrlc()) { - sprintf(string, - "interrupted at byte %d/%d", - byte + 1, nb_bytes); - return TEST_FAILED; - } - /* write cfg to dxndqstr */ - set_r0dgsl_delay(phy, byte, gsl_idx); - set_r0dgps_delay(phy, byte, gps_idx); - - BIST_test(phy, byte, &result); - success = result.test_result; - if (success) - dqs_gating[byte][gsl_idx][gps_idx] = 1; - itm_soft_reset(phy); - } - } - set_midpoint_read_dqs_gating(phy, byte, dqs_gating); - /* dummy reads */ - readl(0xc0000000); - readl(0xc0000000); - } - - /* re-enable drift compensation */ - /* setbits_le32(&phy->pgcr, DDRPHYC_PGCR_DFTCMP); */ - return TEST_PASSED; -} - -/**************************************************************** - * TEST - **************************************************************** - */ -static enum test_result do_read_dqs_gating(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, - char *string, int argc, - char *argv[]) -{ - u32 rfshctl3 = readl(&ctl->rfshctl3); - u32 pwrctl = readl(&ctl->pwrctl); - u32 derateen = readl(&ctl->derateen); - enum test_result res; - - writel(0x0, &ctl->derateen); - stm32mp1_refresh_disable(ctl); - - res = read_dqs_gating(ctl, phy, string); - - stm32mp1_refresh_restore(ctl, rfshctl3, pwrctl); - writel(derateen, &ctl->derateen); - - return res; -} - -static enum test_result do_bit_deskew(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, - char *string, int argc, char *argv[]) -{ - u32 rfshctl3 = readl(&ctl->rfshctl3); - u32 pwrctl = readl(&ctl->pwrctl); - u32 derateen = readl(&ctl->derateen); - enum test_result res; - - writel(0x0, &ctl->derateen); - stm32mp1_refresh_disable(ctl); - - res = bit_deskew(ctl, phy, string); - - stm32mp1_refresh_restore(ctl, rfshctl3, pwrctl); - writel(derateen, &ctl->derateen); - - return res; -} - -static enum test_result do_eye_training(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, - char *string, int argc, char *argv[]) -{ - u32 rfshctl3 = readl(&ctl->rfshctl3); - u32 pwrctl = readl(&ctl->pwrctl); - u32 derateen = readl(&ctl->derateen); - enum test_result res; - - writel(0x0, &ctl->derateen); - stm32mp1_refresh_disable(ctl); - - res = eye_training(ctl, phy, string); - - stm32mp1_refresh_restore(ctl, rfshctl3, pwrctl); - writel(derateen, &ctl->derateen); - - return res; -} - -static enum test_result do_display(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, - char *string, int argc, char *argv[]) -{ - int byte; - u8 nb_bytes = get_nb_bytes(ctl); - - for (byte = 0; byte < nb_bytes; byte++) - display_reg_results(phy, byte); - - return TEST_PASSED; -} - -static enum test_result do_bist_config(struct stm32mp1_ddrctl *ctl, - struct stm32mp1_ddrphy *phy, - char *string, int argc, char *argv[]) -{ - unsigned long value; - - if (argc > 0) { - if (strict_strtoul(argv[0], 0, &value) < 0) { - sprintf(string, "invalid nbErr %s", argv[0]); - return TEST_FAILED; - } - BIST_error_max = value; - } - if (argc > 1) { - if (strict_strtoul(argv[1], 0, &value) < 0) { - sprintf(string, "invalid Seed %s", argv[1]); - return TEST_FAILED; - } - BIST_seed = value; - } - printf("Bist.nbErr = %d\n", BIST_error_max); - if (BIST_seed) - printf("Bist.Seed = 0x%x\n", BIST_seed); - else - printf("Bist.Seed = random\n"); - - return TEST_PASSED; -} - -/**************************************************************** - * TEST Description - **************************************************************** - */ - -const struct test_desc tuning[] = { - {do_read_dqs_gating, "Read DQS gating", - "software read DQS Gating", "", 0 }, - {do_bit_deskew, "Bit de-skew", "", "", 0 }, - {do_eye_training, "Eye Training", "or DQS training", "", 0 }, - {do_display, "Display registers", "", "", 0 }, - {do_bist_config, "Bist config", "[nbErr] [seed]", - "configure Bist test", 2}, -}; - -const int tuning_nb = ARRAY_SIZE(tuning);