From 0ab4904481341dfa83879e69651604f5f0ddf784 Mon Sep 17 00:00:00 2001 From: Arthur Heymans Date: Mon, 6 Feb 2017 22:40:14 +0100 Subject: nb/i945/raminit: Use common ddr2 decode functions This simplifies computing dram timings a lot. This removes computation of rank size based on columns, rows, banks,... and uses the information in SPD byte 31. The result of this is that dimms with multiple asymmetric ranks are not supported anymore. These however are very rare and most likely never tested on this platform. This also uses i2c block read instead of byte read to speed up the raminit. The result is less time is being spend reading SPDs. It still keeps smbus read byte as a backup if i2c block read were to fail. Change-Id: I97c93939d11807752797785dd88c70b43a236ee3 Signed-off-by: Arthur Heymans Reviewed-on: https://review.coreboot.org/18305 Tested-by: build bot (Jenkins) Reviewed-by: Nico Huber --- src/northbridge/intel/i945/raminit.c | 852 +++++++++-------------------------- src/northbridge/intel/i945/raminit.h | 14 +- 2 files changed, 226 insertions(+), 640 deletions(-) (limited to 'src/northbridge') diff --git a/src/northbridge/intel/i945/raminit.c b/src/northbridge/intel/i945/raminit.c index f10f1088d6..a9d183cb31 100644 --- a/src/northbridge/intel/i945/raminit.c +++ b/src/northbridge/intel/i945/raminit.c @@ -2,6 +2,7 @@ * This file is part of the coreboot project. * * Copyright (C) 2007-2009 coresystems GmbH + * Copyright (C) 2017 Arthur Heymans * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by @@ -28,6 +29,7 @@ #include "i945.h" #include "chip.h" #include +#include /* Debugging macros. */ #if IS_ENABLED(CONFIG_DEBUG_RAM_SETUP) @@ -283,7 +285,8 @@ static void sdram_detect_errors(struct sys_info *sysinfo) pci_write_config8(PCI_DEV(0, 0x1f, 0), 0xa2, reg8); /* clear self refresh status if check is disabled or not a resume */ - if (!CONFIG_CHECK_SLFRCS_ON_RESUME || sysinfo->boot_path != BOOT_PATH_RESUME) { + if (!CONFIG_CHECK_SLFRCS_ON_RESUME + || sysinfo->boot_path != BOOT_PATH_RESUME) { MCHBAR8(SLFRCS) |= 3; } else { /* Validate self refresh config */ @@ -307,21 +310,32 @@ static void sdram_detect_errors(struct sys_info *sysinfo) } } +struct timings { + u32 min_tCLK_cas[8]; + u32 min_tRAS; + u32 min_tRP; + u32 min_tRCD; + u32 min_tWR; + u32 min_tRFC; + u32 max_tRR; + u8 cas_mask; +}; + /** - * @brief Get generic DIMM parameters. - * @param sysinfo Central memory controller information structure - * - * This function gathers several pieces of information for each system DIMM: - * o DIMM width (x8 / x16) - * o DIMM sides (single sided / dual sided) - * - * Also, some non-supported scenarios are detected. + * @brief loop over dimms and save maximal timings */ - -static void sdram_get_dram_configuration(struct sys_info *sysinfo) +static void gather_common_timing(struct sys_info *sysinfo, + struct timings *saved_timings) { - u32 dimm_mask = 0; - int i; + + int i, j; + u8 raw_spd[SPD_SIZE_MAX_DDR2]; + u8 dimm_mask = 0; + + memset(saved_timings, 0, sizeof(*saved_timings)); + saved_timings->max_tRR = UINT32_MAX; + saved_timings->cas_mask = SPD_CAS_LATENCY_DDR2_3 + | SPD_CAS_LATENCY_DDR2_4 | SPD_CAS_LATENCY_DDR2_5; /** * i945 supports two DIMMs, in two configurations: @@ -336,36 +350,19 @@ static void sdram_get_dram_configuration(struct sys_info *sysinfo) * but for now we stick with the information we gather via SPD. */ + printk(BIOS_DEBUG, "This mainboard supports "); if (sdram_capabilities_dual_channel()) { sysinfo->dual_channel = 1; - printk(BIOS_DEBUG, "This mainboard supports Dual Channel Operation.\n"); + printk(BIOS_DEBUG, "Dual Channel Operation.\n"); } else { sysinfo->dual_channel = 0; - printk(BIOS_DEBUG, "This mainboard supports only Single Channel Operation.\n"); + printk(BIOS_DEBUG, "only Single Channel Operation.\n"); } - /** - * Since we only support two DIMMs in total, there is a limited number - * of combinations. This function returns the type of DIMMs. - * return value: - * [0:7] lower DIMM population - * [8-15] higher DIMM population - * [16] dual channel? - * - * There are 5 different possible populations for a DIMM socket: - * 1. x16 double sided (X16DS) - * 2. x8 double sided (X8DS) - * 3. x16 single sided (X16SS) - * 4. x8 double stacked (X8DDS) - * 5. not populated (NC) - * - * For the return value we start counting at zero. - * - */ for (i = 0; i < (2 * DIMM_SOCKETS); i++) { - int device = get_dimm_spd_address(sysinfo, i); - u8 reg8; + int device = get_dimm_spd_address(sysinfo, i), bytes_read; + struct dimm_attr_st dimm_info; /* Initialize the socket information with a sane value */ sysinfo->dimm[i] = SYSINFO_DIMM_NOT_POPULATED; @@ -374,31 +371,62 @@ static void sdram_get_dram_configuration(struct sys_info *sysinfo) if (!sdram_capabilities_dual_channel() && (i >> 1)) continue; - printk(BIOS_DEBUG, "DDR II Channel %d Socket %d: ", (i >> 1), (i & 1)); - - if (spd_read_byte(device, SPD_MEMORY_TYPE) != SPD_MEMORY_TYPE_SDRAM_DDR2) { - printk(BIOS_DEBUG, "N/A\n"); + if (spd_read_byte(device, SPD_MEMORY_TYPE) != + SPD_MEMORY_TYPE_SDRAM_DDR2) { + printk(BIOS_DEBUG, "DDR II Channel %d Socket %d: N/A\n", + (i >> 1), (i & 1)); continue; } - reg8 = spd_read_byte(device, SPD_DIMM_CONFIG_TYPE); - if (reg8 == ERROR_SCHEME_ECC) - die("Error: ECC memory not supported by this chipset\n"); - - reg8 = spd_read_byte(device, SPD_MODULE_ATTRIBUTES); - if (reg8 & MODULE_BUFFERED) - die("Error: Buffered memory not supported by this chipset\n"); - if (reg8 & MODULE_REGISTERED) - die("Error: Registered memory not supported by this chipset\n"); + /* + * spd_decode_ddr2() needs a 128-byte sized array but + * only the first 64 bytes contain data needed for raminit. + */ - switch (spd_read_byte(device, SPD_PRIMARY_SDRAM_WIDTH)) { - case 0x08: - switch (spd_read_byte(device, SPD_NUM_DIMM_BANKS) & 0x0f) { - case 1: + bytes_read = i2c_block_read(device, 0, 64, raw_spd); + printk(BIOS_DEBUG, "Reading SPD using i2c block operation.\n"); + if (IS_ENABLED(CONFIG_DEBUG_RAM_SETUP) && bytes_read > 0) + hexdump(raw_spd, bytes_read); + if (bytes_read != 64 || spd_decode_ddr2(&dimm_info, raw_spd) + != SPD_STATUS_OK) { + /* Try again with SMBUS byte read */ + printk(BIOS_DEBUG, "i2c block operation failed," + "trying smbus byte operation.\n"); + for (j = 0; j < 64; j++) + raw_spd[j] = spd_read_byte(device, j); + if (IS_ENABLED(CONFIG_DEBUG_RAM_SETUP)) + hexdump(raw_spd, 64); + if (spd_decode_ddr2(&dimm_info, raw_spd) + != SPD_STATUS_OK) + continue; + } + if (IS_ENABLED(CONFIG_DEBUG_RAM_SETUP)) + dram_print_spd_ddr2(&dimm_info); + + if (dimm_info.flags.is_ecc) + die("\nError: ECC memory not supported by this chipset\n"); + + if (spd_dimm_is_registered_ddr2(dimm_info.dimm_type)) + die("\nError: Registered memory not supported by this chipset\n"); + + printk(BIOS_DEBUG, "DDR II Channel %d Socket %d: ", (i >> 1), + (i & 1)); + /** + * There are 5 different possible populations for a DIMM socket: + * 0. x16 double ranked (X16DS) + * 1. x8 double ranked (X8DS) + * 2. x16 single ranked (X16SS) + * 3. x8 double stacked (X8DDS) + * 4. Unpopulated + */ + switch (dimm_info.width) { + case 8: + switch (dimm_info.ranks) { + case 2: printk(BIOS_DEBUG, "x8DDS\n"); sysinfo->dimm[i] = SYSINFO_DIMM_X8DDS; break; - case 0: + case 1: printk(BIOS_DEBUG, "x8DS\n"); sysinfo->dimm[i] = SYSINFO_DIMM_X8DS; break; @@ -406,13 +434,13 @@ static void sdram_get_dram_configuration(struct sys_info *sysinfo) printk(BIOS_DEBUG, "Unsupported.\n"); } break; - case 0x10: - switch (spd_read_byte(device, SPD_NUM_DIMM_BANKS) & 0x0f) { - case 1: + case 16: + switch (dimm_info.ranks) { + case 2: printk(BIOS_DEBUG, "x16DS\n"); sysinfo->dimm[i] = SYSINFO_DIMM_X16DS; break; - case 0: + case 1: printk(BIOS_DEBUG, "x16SS\n"); sysinfo->dimm[i] = SYSINFO_DIMM_X16SS; break; @@ -424,449 +452,178 @@ static void sdram_get_dram_configuration(struct sys_info *sysinfo) die("Unsupported DDR-II memory width.\n"); } - dimm_mask |= (1 << i); - } - - if (!dimm_mask) - die("No memory installed.\n"); - - if (!(dimm_mask & ((1 << DIMM_SOCKETS) - 1))) - printk(BIOS_INFO, "Channel 0 has no memory populated.\n"); -} - -/** - * @brief determine if any DIMMs are stacked - * - * @param sysinfo central sysinfo data structure. - */ -static void sdram_verify_package_type(struct sys_info *sysinfo) -{ - int i; - - /* Assume no stacked DIMMs are available until we find one */ - sysinfo->package = 0; - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; - /* Is the current DIMM a stacked DIMM? */ - if (spd_read_byte(get_dimm_spd_address(sysinfo, i), SPD_NUM_DIMM_BANKS) & (1 << 4)) - sysinfo->package = 1; - } -} - -static u8 sdram_possible_cas_latencies(struct sys_info *sysinfo) -{ - int i; - u8 cas_mask; - - /* Setup CAS mask with all supported CAS Latencies */ - cas_mask = SPD_CAS_LATENCY_DDR2_3 | - SPD_CAS_LATENCY_DDR2_4 | - SPD_CAS_LATENCY_DDR2_5; - - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - if (sysinfo->dimm[i] != SYSINFO_DIMM_NOT_POPULATED) - cas_mask &= spd_read_byte(get_dimm_spd_address(sysinfo, i), - SPD_ACCEPTABLE_CAS_LATENCIES); - } - - if (!cas_mask) - die("No DDR-II modules with accepted CAS latencies found.\n"); - - return cas_mask; -} - -static void sdram_detect_cas_latency_and_ram_speed(struct sys_info *sysinfo, u8 cas_mask) -{ - int i, j, idx; - int lowest_common_cas = 0; - int max_ram_speed = 0; - - const u8 ddr2_speeds_table[] = { - 0x50, 0x60, /* DDR2 400: tCLK = 5.0ns tAC = 0.6ns */ - 0x3d, 0x50, /* DDR2 533: tCLK = 3.75ns tAC = 0.5ns */ - 0x30, 0x45, /* DDR2 667: tCLK = 3.0ns tAC = 0.45ns */ - }; - - const u8 spd_lookup_table[] = { - SPD_MIN_CYCLE_TIME_AT_CAS_MAX, SPD_ACCESS_TIME_FROM_CLOCK, - SPD_SDRAM_CYCLE_TIME_2ND, SPD_ACCESS_TIME_FROM_CLOCK_2ND, - SPD_SDRAM_CYCLE_TIME_3RD, SPD_ACCESS_TIME_FROM_CLOCK_3RD - }; - - switch (sdram_capabilities_max_supported_memory_frequency()) { - case 400: - max_ram_speed = 0; break; - case 533: - max_ram_speed = 1; break; - case 667: - max_ram_speed = 2; break; - } + if (dimm_info.flags.stacked) + sysinfo->package = SYSINFO_PACKAGE_STACKED; - sysinfo->memory_frequency = 0; - sysinfo->cas = 0; - - if (cas_mask & SPD_CAS_LATENCY_DDR2_3) - lowest_common_cas = 3; - else if (cas_mask & SPD_CAS_LATENCY_DDR2_4) - lowest_common_cas = 4; - else if (cas_mask & SPD_CAS_LATENCY_DDR2_5) - lowest_common_cas = 5; - PRINTK_DEBUG("lowest common cas = %d\n", lowest_common_cas); - - for (j = max_ram_speed; j >= 0; j--) { - int freq_cas_mask = cas_mask; - - PRINTK_DEBUG("Probing Speed %d\n", j); - for (i = 0; i < 2 * DIMM_SOCKETS; i++) { - int device = get_dimm_spd_address(sysinfo, i); - int current_cas_mask; - - PRINTK_DEBUG(" DIMM: %d\n", i); - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; - - current_cas_mask = spd_read_byte(device, SPD_ACCEPTABLE_CAS_LATENCIES); - - while (current_cas_mask) { - int highest_supported_cas = 0, current_cas = 0; - PRINTK_DEBUG(" Current CAS mask: %04x; ", current_cas_mask); - if (current_cas_mask & SPD_CAS_LATENCY_DDR2_5) - highest_supported_cas = 5; - else if (current_cas_mask & SPD_CAS_LATENCY_DDR2_4) - highest_supported_cas = 4; - else if (current_cas_mask & SPD_CAS_LATENCY_DDR2_3) - highest_supported_cas = 3; - else - die("Invalid max. CAS.\n"); - if (current_cas_mask & SPD_CAS_LATENCY_DDR2_3) - current_cas = 3; - else if (current_cas_mask & SPD_CAS_LATENCY_DDR2_4) - current_cas = 4; - else if (current_cas_mask & SPD_CAS_LATENCY_DDR2_5) - current_cas = 5; - else - die("Invalid CAS.\n"); - - idx = highest_supported_cas - current_cas; - PRINTK_DEBUG("idx=%d, ", idx); - PRINTK_DEBUG("tCLK=%x, ", spd_read_byte(device, spd_lookup_table[2*idx])); - PRINTK_DEBUG("tAC=%x", spd_read_byte(device, spd_lookup_table[(2*idx)+1])); - - if (spd_read_byte(device, spd_lookup_table[2*idx]) <= ddr2_speeds_table[2*j] && - spd_read_byte(device, spd_lookup_table[(2*idx)+1]) <= ddr2_speeds_table[(2*j)+1]) { - PRINTK_DEBUG(": OK\n"); - break; - } - - PRINTK_DEBUG(": Not fast enough!\n"); - - current_cas_mask &= ~(1 << (current_cas)); - } - - freq_cas_mask &= current_cas_mask; - if (!current_cas_mask) { - PRINTK_DEBUG(" No valid CAS for this speed on DIMM %d\n", i); - break; - } - } - PRINTK_DEBUG(" freq_cas_mask for speed %d: %04x\n", j, freq_cas_mask); - if (freq_cas_mask) { - switch (j) { - case 0: - sysinfo->memory_frequency = 400; break; - case 1: - sysinfo->memory_frequency = 533; break; - case 2: - sysinfo->memory_frequency = 667; break; - } - if (freq_cas_mask & SPD_CAS_LATENCY_DDR2_3) - sysinfo->cas = 3; - else if (freq_cas_mask & SPD_CAS_LATENCY_DDR2_4) - sysinfo->cas = 4; - else if (freq_cas_mask & SPD_CAS_LATENCY_DDR2_5) - sysinfo->cas = 5; - break; - } - } - - if (sysinfo->memory_frequency && sysinfo->cas) { - printk(BIOS_DEBUG, "Memory will be driven at %dMHz with CAS=%d clocks\n", - sysinfo->memory_frequency, sysinfo->cas); - } else { - die("Could not find common memory frequency and CAS\n"); - } -} - -static void sdram_detect_smallest_tRAS(struct sys_info *sysinfo) -{ - int i; - int tRAS_time; - int tRAS_cycles; - int freq_multiplier = 0; - - switch (sysinfo->memory_frequency) { - case 400: - freq_multiplier = 0x14; break; /* 5ns */ - case 533: - freq_multiplier = 0x0f; break; /* 3.75ns */ - case 667: - freq_multiplier = 0x0c; break; /* 3ns */ - } - - tRAS_cycles = 4; /* 4 clocks minimum */ - tRAS_time = tRAS_cycles * freq_multiplier; - - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - u8 reg8; - - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; + if (!dimm_info.flags.bl8) + die("Only DDR-II RAM with burst length 8 is supported by this chipset.\n"); - reg8 = spd_read_byte(get_dimm_spd_address(sysinfo, i), SPD_MIN_ACTIVE_TO_PRECHARGE_DELAY); - if (!reg8) - die("Invalid tRAS value.\n"); + if (dimm_info.ranksize_mb < 128) + die("DDR-II rank size smaller than 128MB is not supported.\n"); - while ((tRAS_time >> 2) < reg8) { - tRAS_time += freq_multiplier; - tRAS_cycles++; + sysinfo->banksize[i * 2] = dimm_info.ranksize_mb / 32; + printk(BIOS_DEBUG, "DIMM %d side 0 = %d MB\n", i, + sysinfo->banksize[i * 2] * 32); + if (dimm_info.ranks == 2) { + sysinfo->banksize[(i * 2) + 1] = + dimm_info.ranksize_mb / 32; + printk(BIOS_DEBUG, "DIMM %d side 1 = %d MB\n", + i, sysinfo->banksize[(i * 2) + 1] * 32); } - } - if (tRAS_cycles > 0x18) - die("DDR-II Module does not support this frequency (tRAS error)\n"); - - printk(BIOS_DEBUG, "tRAS = %d cycles\n", tRAS_cycles); - sysinfo->tras = tRAS_cycles; -} - -static void sdram_detect_smallest_tRP(struct sys_info *sysinfo) -{ - int i; - int tRP_time; - int tRP_cycles; - int freq_multiplier = 0; - - switch (sysinfo->memory_frequency) { - case 400: - freq_multiplier = 0x14; break; /* 5ns */ - case 533: - freq_multiplier = 0x0f; break; /* 3.75ns */ - case 667: - freq_multiplier = 0x0c; break; /* 3ns */ - } - - tRP_cycles = 2; /* 2 clocks minimum */ - tRP_time = tRP_cycles * freq_multiplier; - - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - u8 reg8; - - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; - reg8 = spd_read_byte(get_dimm_spd_address(sysinfo, i), SPD_MIN_ROW_PRECHARGE_TIME); - if (!reg8) - die("Invalid tRP value.\n"); - while (tRP_time < reg8) { - tRP_time += freq_multiplier; - tRP_cycles++; + sysinfo->rows[i] = dimm_info.row_bits; + sysinfo->cols[i] = dimm_info.col_bits; + sysinfo->banks[i] = dimm_info.banks; + + /* int min_tRAS, min_tRP, min_tRCD, min_tWR, min_tRFC; */ + saved_timings->min_tRAS = MAX(saved_timings->min_tRAS, + dimm_info.tRAS); + saved_timings->min_tRP = MAX(saved_timings->min_tRP, + dimm_info.tRP); + saved_timings->min_tRCD = MAX(saved_timings->min_tRCD, + dimm_info.tRCD); + saved_timings->min_tWR = MAX(saved_timings->min_tWR, + dimm_info.tWR); + saved_timings->min_tRFC = MAX(saved_timings->min_tRFC, + dimm_info.tRFC); + saved_timings->max_tRR = MIN(saved_timings->max_tRR, + dimm_info.tRR); + saved_timings->cas_mask &= dimm_info.cas_supported; + for (j = 0; j < 8; j++) { + if (!(saved_timings->cas_mask & (1 << j))) + saved_timings->min_tCLK_cas[j] = 0; + else + saved_timings->min_tCLK_cas[j] = + MAX(dimm_info.cycle_time[j], + saved_timings->min_tCLK_cas[j]); } + dimm_mask |= (1 << i); } - - if (tRP_cycles > 6) - die("DDR-II Module does not support this frequency (tRP error)\n"); - - printk(BIOS_DEBUG, "tRP = %d cycles\n", tRP_cycles); - sysinfo->trp = tRP_cycles; -} - -static void sdram_detect_smallest_tRCD(struct sys_info *sysinfo) -{ - int i; - int tRCD_time; - int tRCD_cycles; - int freq_multiplier = 0; - - switch (sysinfo->memory_frequency) { - case 400: - freq_multiplier = 0x14; break; /* 5ns */ - case 533: - freq_multiplier = 0x0f; break; /* 3.75ns */ - case 667: - freq_multiplier = 0x0c; break; /* 3ns */ + if (!dimm_mask) { + die("No memory installed.\n"); } - tRCD_cycles = 2; /* 2 clocks minimum */ - tRCD_time = tRCD_cycles * freq_multiplier; - - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - u8 reg8; - - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; - - reg8 = spd_read_byte(get_dimm_spd_address(sysinfo, i), SPD_MIN_RAS_TO_CAS_DELAY); - if (!reg8) - die("Invalid tRCD value.\n"); - - while (tRCD_time < reg8) { - tRCD_time += freq_multiplier; - tRCD_cycles++; - } + if (!(dimm_mask & ((1 << DIMM_SOCKETS) - 1))) { + /* Possibly does not boot in this case */ + printk(BIOS_INFO, "Channel 0 has no memory populated.\n"); } - if (tRCD_cycles > 6) - die("DDR-II Module does not support this frequency (tRCD error)\n"); - - printk(BIOS_DEBUG, "tRCD = %d cycles\n", tRCD_cycles); - sysinfo->trcd = tRCD_cycles; } -static void sdram_detect_smallest_tWR(struct sys_info *sysinfo) +static void choose_tclk(struct sys_info *sysinfo, + struct timings *saved_timings) { - int i; - int tWR_time; - int tWR_cycles; - int freq_multiplier = 0; - - switch (sysinfo->memory_frequency) { - case 400: - freq_multiplier = 0x14; break; /* 5ns */ - case 533: - freq_multiplier = 0x0f; break; /* 3.75ns */ - case 667: - freq_multiplier = 0x0c; break; /* 3ns */ - } - - tWR_cycles = 2; /* 2 clocks minimum */ - tWR_time = tWR_cycles * freq_multiplier; - - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - u8 reg8; + u32 ctrl_min_tclk; + int try_cas; - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; + ctrl_min_tclk = 2 * 256 * 1000 + / sdram_capabilities_max_supported_memory_frequency(); + normalize_tck(&ctrl_min_tclk); - reg8 = spd_read_byte(get_dimm_spd_address(sysinfo, i), SPD_WRITE_RECOVERY_TIME); - if (!reg8) - die("Invalid tWR value.\n"); + try_cas = spd_get_msbs(saved_timings->cas_mask); - while (tWR_time < reg8) { - tWR_time += freq_multiplier; - tWR_cycles++; - } + while (saved_timings->cas_mask & (1 << try_cas) && try_cas > 0) { + sysinfo->cas = try_cas; + sysinfo->tclk = saved_timings->min_tCLK_cas[try_cas]; + if (sysinfo->tclk >= ctrl_min_tclk && + saved_timings->min_tCLK_cas[try_cas] != + saved_timings->min_tCLK_cas[try_cas - 1]) + break; + try_cas--; } - if (tWR_cycles > 5) - die("DDR-II Module does not support this frequency (tWR error)\n"); - - printk(BIOS_DEBUG, "tWR = %d cycles\n", tWR_cycles); - sysinfo->twr = tWR_cycles; -} - -static void sdram_detect_smallest_tRFC(struct sys_info *sysinfo) -{ - int i, index = 0; - - const u8 tRFC_cycles[] = { - /* 75 105 127.5 */ - 15, 21, 26, /* DDR2-400 */ - 20, 28, 34, /* DDR2-533 */ - 25, 35, 43 /* DDR2-667 */ - }; - - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - u8 reg8; - - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; - - reg8 = sysinfo->banksize[i*2]; - switch (reg8) { - case 0x04: - reg8 = 0; break; - case 0x08: - reg8 = 1; break; - case 0x10: - reg8 = 2; break; - case 0x20: - reg8 = 3; break; - } - if (sysinfo->dimm[i] == SYSINFO_DIMM_X16DS || sysinfo->dimm[i] == SYSINFO_DIMM_X16SS) - reg8++; + normalize_tck(&sysinfo->tclk); - if (reg8 > 3) { - /* Can this happen? Go back to 127.5ns just to be sure - * we don't run out of the array. This may be wrong - */ - printk(BIOS_DEBUG, "DIMM %d is 1Gb x16.. Please report.\n", i); - reg8 = 3; - } + if ((sysinfo->cas < 3) || (sysinfo->tclk == 0)) + die("Could not find common memory frequency and CAS\n"); - if (reg8 > index) - index = reg8; + /* + * The loop can still results in a timing too fast for the + * memory controller. + */ + if (sysinfo->tclk < ctrl_min_tclk) + sysinfo->tclk = ctrl_min_tclk; - } - index--; - switch (sysinfo->memory_frequency) { - case 667: - index += 3; /* Fallthrough */ - case 533: - index += 3; /* Fallthrough */ - case 400: + switch (sysinfo->tclk) { + case TCK_200MHZ: + sysinfo->memory_frequency = 400; + break; + case TCK_266MHZ: + sysinfo->memory_frequency = 533; + break; + case TCK_333MHZ: + sysinfo->memory_frequency = 667; break; } - sysinfo->trfc = tRFC_cycles[index]; - printk(BIOS_DEBUG, "tRFC = %d cycles\n", tRFC_cycles[index]); + printk(BIOS_DEBUG, + "Memory will be driven at %dMT with CAS=%d clocks\n", + sysinfo->memory_frequency, sysinfo->cas); } -static void sdram_detect_smallest_refresh(struct sys_info *sysinfo) +static void derive_timings(struct sys_info *sysinfo, + struct timings *saved_timings) { - int i; + sysinfo->tras = DIV_ROUND_UP(saved_timings->min_tRAS, sysinfo->tclk); + if (sysinfo->tras > 0x18) + die("DDR-II Module does not support this frequency (tRAS error)\n"); - sysinfo->refresh = 0; + sysinfo->trp = DIV_ROUND_UP(saved_timings->min_tRP, sysinfo->tclk); + if (sysinfo->trp > 6) + die("DDR-II Module does not support this frequency (tRP error)\n"); - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - int refresh; + sysinfo->trcd = DIV_ROUND_UP(saved_timings->min_tRCD, sysinfo->tclk); + if (sysinfo->trcd > 6) + die("DDR-II Module does not support this frequency (tRCD error)\n"); - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; + sysinfo->twr = DIV_ROUND_UP(saved_timings->min_tWR, sysinfo->tclk); + if (sysinfo->twr > 5) + die("DDR-II Module does not support this frequency (tWR error)\n"); - refresh = spd_read_byte(get_dimm_spd_address(sysinfo, i), - SPD_REFRESH) & ~(1 << 7); + sysinfo->trfc = DIV_ROUND_UP(saved_timings->min_tRFC, sysinfo->tclk); - /* 15.6us */ - if (!refresh) - continue; + printk(BIOS_DEBUG, "tRAS = %d cycles\n", sysinfo->tras); + printk(BIOS_DEBUG, "tRP = %d cycles\n", sysinfo->trp); + printk(BIOS_DEBUG, "tRCD = %d cycles\n", sysinfo->trcd); + printk(BIOS_DEBUG, "tWR = %d cycles\n", sysinfo->twr); + printk(BIOS_DEBUG, "tRFC = %d cycles\n", sysinfo->trfc); - /* Refresh is slower than 15.6us, use 15.6us */ - if (refresh > 2) - continue; + /* Refresh is slower than 15.6us, use 15.6us */ + /* tRR is decoded in units of 1/256us */ - if (refresh == 2) { - sysinfo->refresh = 1; - break; - } +#define T_RR_7_8US 2000000 +#define T_RR_15_6US 4000000 +#define REFRESH_7_8US 1 +#define REFRESH_15_6US 0 + if (saved_timings->max_tRR < T_RR_7_8US) die("DDR-II module has unsupported refresh value\n"); - } + else if (saved_timings->max_tRR < T_RR_15_6US) + sysinfo->refresh = REFRESH_7_8US; + else + sysinfo->refresh = REFRESH_15_6US; printk(BIOS_DEBUG, "Refresh: %s\n", sysinfo->refresh?"7.8us":"15.6us"); } -static void sdram_verify_burst_length(struct sys_info *sysinfo) -{ - int i; +/** + * @brief Get generic DIMM parameters. + * @param sysinfo Central memory controller information structure + * + * This function gathers several pieces of information for each system DIMM: + * o DIMM width (x8 / x16) + * o DIMM rank (single ranked / dual ranked) + * + * Also, some non-supported scenarios are detected. + */ - for (i = 0; i < 2*DIMM_SOCKETS; i++) { - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; +static void sdram_get_dram_configuration(struct sys_info *sysinfo) +{ + struct timings saved_timings; - if (!(spd_read_byte(get_dimm_spd_address(sysinfo, i), - SPD_SUPPORTED_BURST_LENGTHS) & SPD_BURST_LENGTH_8)) - die("Only DDR-II RAM with burst length 8 is supported by this chipset.\n"); - } + gather_common_timing(sysinfo, &saved_timings); + choose_tclk(sysinfo, &saved_timings); + derive_timings(sysinfo, &saved_timings); } static void sdram_program_dram_width(struct sys_info *sysinfo) @@ -1419,138 +1176,6 @@ static void sdram_enable_system_memory_io(struct sys_info *sysinfo) } } -struct dimm_size { - unsigned long side1; - unsigned long side2; -}; - -static struct dimm_size sdram_get_dimm_size(struct sys_info *sysinfo, u16 dimmno) -{ - /* Calculate the log base 2 size of a DIMM in bits */ - struct dimm_size sz; - int value, low, rows, columns, device; - - device = get_dimm_spd_address(sysinfo, dimmno); - sz.side1 = 0; - sz.side2 = 0; - - rows = spd_read_byte(device, SPD_NUM_ROWS); /* rows */ - if (rows < 0) - goto hw_err; - if ((rows & 0xf) == 0) - goto val_err; - sz.side1 += rows & 0xf; - - columns = spd_read_byte(device, SPD_NUM_COLUMNS); /* columns */ - if (columns < 0) - goto hw_err; - if ((columns & 0xf) == 0) - goto val_err; - sz.side1 += columns & 0xf; - - value = spd_read_byte(device, SPD_NUM_BANKS_PER_SDRAM); /* banks */ - if (value < 0) - goto hw_err; - if ((value & 0xff) == 0) - goto val_err; - sz.side1 += log2(value & 0xff); - - /* Get the module data width and convert it to a power of two */ - value = spd_read_byte(device, SPD_MODULE_DATA_WIDTH_MSB); /* (high byte) */ - if (value < 0) - goto hw_err; - value &= 0xff; - value <<= 8; - - low = spd_read_byte(device, SPD_MODULE_DATA_WIDTH_LSB); /* (low byte) */ - if (low < 0) - goto hw_err; - value = value | (low & 0xff); - if ((value != 72) && (value != 64)) - goto val_err; - sz.side1 += log2(value); - - /* side 2 */ - value = spd_read_byte(device, SPD_NUM_DIMM_BANKS); /* number of physical banks */ - - if (value < 0) - goto hw_err; - value &= 7; - value++; - if (value == 1) - goto out; - if (value != 2) - goto val_err; - - /* Start with the symmetrical case */ - sz.side2 = sz.side1; - - if ((rows & 0xf0) == 0) - goto out; /* If symmetrical we are done */ - - /* Don't die here, I have not come across any of these to test what - * actually happens. - */ - printk(BIOS_ERR, "Asymmetric DIMMs are not supported by this chipset\n"); - - sz.side2 -= (rows & 0x0f); /* Subtract out rows on side 1 */ - sz.side2 += ((rows >> 4) & 0x0f); /* Add in rows on side 2 */ - - sz.side2 -= (columns & 0x0f); /* Subtract out columns on side 1 */ - sz.side2 += ((columns >> 4) & 0x0f); /* Add in columns on side 2 */ - - goto out; - - val_err: - die("Bad SPD value\n"); - hw_err: - /* If a hardware error occurs the spd ROM probably does not exist. - * In this case report that there is no memory - */ - sz.side1 = 0; - sz.side2 = 0; -out: - return sz; -} - -static void sdram_detect_dimm_size(struct sys_info *sysinfo) -{ - int i; - - for (i = 0; i < 2 * DIMM_SOCKETS; i++) { - struct dimm_size sz; - - sysinfo->banksize[i * 2] = 0; - sysinfo->banksize[(i * 2) + 1] = 0; - - if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) - continue; - - sz = sdram_get_dimm_size(sysinfo, i); - - sysinfo->banks[i] = spd_read_byte(get_dimm_spd_address(sysinfo, i), - SPD_NUM_BANKS_PER_SDRAM); /* banks */ - - if (sz.side1 < 30) - die("DDR-II rank size smaller than 128MB is not supported.\n"); - - sysinfo->banksize[i * 2] = 1 << (sz.side1 - 28); - - printk(BIOS_DEBUG, "DIMM %d side 0 = %d MB\n", i, sysinfo->banksize[i * 2] * 32); - - if (!sz.side2) - continue; - - /* If there is a second side, it has to have at least 128M, too */ - if (sz.side2 < 30) - die("DDR-II rank size smaller than 128MB is not supported.\n"); - - sysinfo->banksize[(i * 2) + 1] = 1 << (sz.side2 - 28); - - printk(BIOS_DEBUG, "DIMM %d side 1 = %d MB\n", i, sysinfo->banksize[(i * 2) + 1] * 32); - } -} - static int sdram_program_row_boundaries(struct sys_info *sysinfo) { int i; @@ -1620,24 +1245,18 @@ static int sdram_program_row_boundaries(struct sys_info *sysinfo) static int sdram_set_row_attributes(struct sys_info *sysinfo) { - int i, value; + int i; u16 dra0 = 0, dra1 = 0, dra = 0; printk(BIOS_DEBUG, "Setting row attributes...\n"); for (i = 0; i < 2 * DIMM_SOCKETS; i++) { - u16 device; u8 columnsrows; if (sysinfo->dimm[i] == SYSINFO_DIMM_NOT_POPULATED) continue; - device = get_dimm_spd_address(sysinfo, i); - - value = spd_read_byte(device, SPD_NUM_ROWS); /* rows */ - columnsrows = (value & 0x0f); - - value = spd_read_byte(device, SPD_NUM_COLUMNS); /* columns */ - columnsrows |= (value & 0xf) << 4; + columnsrows = (sysinfo->rows[i] & 0x0f) + | (sysinfo->cols[i] & 0xf) << 4; switch (columnsrows) { case 0x9d: @@ -1702,8 +1321,6 @@ static void sdram_set_bank_architecture(struct sys_info *sysinfo) } } -#define REFRESH_7_8US 1 -#define REFRESH_15_6US 0 static void sdram_program_refresh_rate(struct sys_info *sysinfo) { u32 reg32; @@ -3116,7 +2733,7 @@ static void sdram_setup_processor_side(void) void sdram_initialize(int boot_path, const u8 *spd_addresses) { struct sys_info sysinfo; - u8 reg8, cas_mask; + u8 reg8; printk(BIOS_DEBUG, "Setting up RAM controller.\n"); @@ -3131,39 +2748,6 @@ void sdram_initialize(int boot_path, const u8 *spd_addresses) /* If error, do cold boot */ sdram_detect_errors(&sysinfo); - /* Check whether we have stacked DIMMs */ - sdram_verify_package_type(&sysinfo); - - /* Determine common CAS */ - cas_mask = sdram_possible_cas_latencies(&sysinfo); - - /* Choose Common Frequency */ - sdram_detect_cas_latency_and_ram_speed(&sysinfo, cas_mask); - - /* Determine smallest common tRAS */ - sdram_detect_smallest_tRAS(&sysinfo); - - /* Determine tRP */ - sdram_detect_smallest_tRP(&sysinfo); - - /* Determine tRCD */ - sdram_detect_smallest_tRCD(&sysinfo); - - /* Determine smallest refresh period */ - sdram_detect_smallest_refresh(&sysinfo); - - /* Verify all DIMMs support burst length 8 */ - sdram_verify_burst_length(&sysinfo); - - /* determine tWR */ - sdram_detect_smallest_tWR(&sysinfo); - - /* Determine DIMM size parameters (rows, columns banks) */ - sdram_detect_dimm_size(&sysinfo); - - /* determine tRFC */ - sdram_detect_smallest_tRFC(&sysinfo); - /* Program PLL settings */ sdram_program_pll_settings(&sysinfo); diff --git a/src/northbridge/intel/i945/raminit.h b/src/northbridge/intel/i945/raminit.h index 4c97d05b7d..7d8555774e 100644 --- a/src/northbridge/intel/i945/raminit.h +++ b/src/northbridge/intel/i945/raminit.h @@ -28,12 +28,13 @@ struct sys_info { u16 memory_frequency; /* 400, 533 or 667 */ u16 fsb_frequency; /* 945GM: 400, 533 or 667 / 945GC: 533, 800, or 1066 */ + u32 tclk; - u8 trp; /* calculated by sdram_detect_smallest_tRP() */ - u8 trcd; /* calculated by sdram_detect_smallest_tRCD() */ - u8 tras; /* calculated by sdram_detect_smallest_tRAS() */ - u8 trfc; /* calculated by sdram_detect_smallest_tRFC() */ - u8 twr; /* calculated by sdram_detect_smallest_tWR() */ + u8 trp; + u8 trcd; + u8 tras; + u8 trfc; + u8 twr; u8 cas; /* 3, 4 or 5 */ u8 refresh; /* 0 = 15.6us, 1 = 7.8us */ @@ -52,6 +53,8 @@ struct sys_info { #define SYSINFO_PACKAGE_PLANAR 0x00 #define SYSINFO_PACKAGE_STACKED 0x01 u8 dimm[2 * DIMM_SOCKETS]; + u8 rows[2 * DIMM_SOCKETS]; + u8 cols[2 * DIMM_SOCKETS]; #define SYSINFO_DIMM_X16DS 0x00 #define SYSINFO_DIMM_X8DS 0x01 #define SYSINFO_DIMM_X16SS 0x02 @@ -59,7 +62,6 @@ struct sys_info { #define SYSINFO_DIMM_NOT_POPULATED 0x04 u8 banks[2 * DIMM_SOCKETS]; - u8 banksize[2 * 2 * DIMM_SOCKETS]; const u8 *spd_addresses; -- cgit v1.2.3