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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2011 - 2012 Advanced Micro Devices, Inc.
*
* 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
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <stdlib.h>
#include "AGESA.h"
#include "CommonReturns.h"
#include "AdvancedApi.h"
#include <PlatformMemoryConfiguration.h>
#include "Filecode.h"
#define FILECODE PLATFORM_SPECIFIC_OPTIONS_FILECODE
/* AGESA will check the OEM configuration during preprocessing stage,
* coreboot enable -Wundef option, so we should make sure we have all contanstand defined
*/
/* MEMORY_BUS_SPEED */
#define DDR400_FREQUENCY 200 ///< DDR 400
#define DDR533_FREQUENCY 266 ///< DDR 533
#define DDR667_FREQUENCY 333 ///< DDR 667
#define DDR800_FREQUENCY 400 ///< DDR 800
#define DDR1066_FREQUENCY 533 ///< DDR 1066
#define DDR1333_FREQUENCY 667 ///< DDR 1333
#define DDR1600_FREQUENCY 800 ///< DDR 1600
#define DDR1866_FREQUENCY 933 ///< DDR 1866
#define UNSUPPORTED_DDR_FREQUENCY 934 ///< Highest limit of DDR frequency
/* QUANDRANK_TYPE*/
#define QUADRANK_REGISTERED 0 ///< Quadrank registered DIMM
#define QUADRANK_UNBUFFERED 1 ///< Quadrank unbuffered DIMM
/* USER_MEMORY_TIMING_MODE */
#define TIMING_MODE_AUTO 0 ///< Use best rate possible
#define TIMING_MODE_LIMITED 1 ///< Set user top limit
#define TIMING_MODE_SPECIFIC 2 ///< Set user specified speed
/* POWER_DOWN_MODE */
#define POWER_DOWN_BY_CHANNEL 0 ///< Channel power down mode
#define POWER_DOWN_BY_CHIP_SELECT 1 ///< Chip select power down mode
/* User makes option selections here
* Comment out the items wanted to be included in the build.
* Uncomment those items you with to REMOVE from the build.
*/
//#define BLDOPT_REMOVE_UDIMMS_SUPPORT TRUE
//#define BLDOPT_REMOVE_RDIMMS_SUPPORT TRUE
//#define BLDOPT_REMOVE_ECC_SUPPORT TRUE
//#define BLDOPT_REMOVE_BANK_INTERLEAVE TRUE
//#define BLDOPT_REMOVE_DCT_INTERLEAVE TRUE
//#define BLDOPT_REMOVE_NODE_INTERLEAVE TRUE
//#define BLDOPT_REMOVE_PARALLEL_TRAINING TRUE
//#define BLDOPT_REMOVE_ONLINE_SPARE_SUPPORT TRUE
#define BLDOPT_REMOVE_MEM_RESTORE_SUPPORT TRUE
//#define BLDOPT_REMOVE_MULTISOCKET_SUPPORT TRUE
////#define BLDOPT_REMOVE_ACPI_PSTATES TRUE
////#define BLDOPT_REMOVE_SRAT TRUE
////#define BLDOPT_REMOVE_SLIT TRUE
//#define BLDOPT_REMOVE_WHEA TRUE
//#define BLDOPT_REMOVE_DMI TRUE
/*f15 Rev A1 ucode patch CpuF15OrMicrocodePatch0600011F */
#define BLDOPT_REMOVE_EARLY_SAMPLES FALSE
//#define BLDOPT_REMOVE_HT_ASSIST TRUE
//#define BLDOPT_REMOVE_MSG_BASED_C1E TRUE
//#define BLDCFG_REMOVE_ACPI_PSTATES_PPC TRUE
//#define BLDCFG_REMOVE_ACPI_PSTATES_PCT TRUE
//#define BLDCFG_REMOVE_ACPI_PSTATES_PSD TRUE
//#define BLDCFG_REMOVE_ACPI_PSTATES_PSS TRUE
//#define BLDCFG_REMOVE_ACPI_PSTATES_XPSS TRUE
/* Build configuration values here.
*/
#define BLDCFG_VRM_CURRENT_LIMIT 120000
#define BLDCFG_VRM_LOW_POWER_THRESHOLD 0
#define BLDCFG_VRM_INRUSH_CURRENT_LIMIT 0
#define BLDCFG_PLAT_NUM_IO_APICS 3
#define BLDCFG_CORE_LEVELING_MODE CORE_LEVEL_LOWEST
#define BLDCFG_MEM_INIT_PSTATE 0
#define BLDCFG_AMD_PSTATE_CAP_VALUE 0
#define BLDCFG_AMD_PLATFORM_TYPE AMD_PLATFORM_SERVER
#define BLDCFG_MEMORY_BUS_FREQUENCY_LIMIT DDR1866_FREQUENCY
#define BLDCFG_MEMORY_MODE_UNGANGED TRUE
#define BLDCFG_MEMORY_QUAD_RANK_CAPABLE TRUE
#define BLDCFG_MEMORY_QUADRANK_TYPE QUADRANK_REGISTERED
#define BLDCFG_MEMORY_RDIMM_CAPABLE TRUE
#define BLDCFG_MEMORY_UDIMM_CAPABLE TRUE
#define BLDCFG_MEMORY_SODIMM_CAPABLE FALSE
#define BLDCFG_LIMIT_MEMORY_TO_BELOW_1TB TRUE
#define BLDCFG_MEMORY_ENABLE_BANK_INTERLEAVING FALSE//TRUE
#define BLDCFG_MEMORY_ENABLE_NODE_INTERLEAVING FALSE//TRUE
#define BLDCFG_MEMORY_CHANNEL_INTERLEAVING FALSE//TRUE
#define BLDCFG_MEMORY_POWER_DOWN FALSE
#define BLDCFG_POWER_DOWN_MODE POWER_DOWN_BY_CHANNEL
#define BLDCFG_ONLINE_SPARE FALSE
#define BLDCFG_BANK_SWIZZLE TRUE
#define BLDCFG_TIMING_MODE_SELECT TIMING_MODE_AUTO
#define BLDCFG_MEMORY_CLOCK_SELECT DDR1866_FREQUENCY
#define BLDCFG_DQS_TRAINING_CONTROL TRUE
#define BLDCFG_IGNORE_SPD_CHECKSUM FALSE
#define BLDCFG_USE_BURST_MODE FALSE
#define BLDCFG_MEMORY_ALL_CLOCKS_ON FALSE
#define BLDCFG_ENABLE_ECC_FEATURE TRUE
#define BLDCFG_ECC_REDIRECTION FALSE
#define BLDCFG_SCRUB_IC_RATE 0
#define BLDCFG_ECC_SYNC_FLOOD TRUE
#define BLDCFG_ECC_SYMBOL_SIZE 4
#define BLDCFG_PCI_MMIO_BASE CONFIG_MMCONF_BASE_ADDRESS
#define BLDCFG_PCI_MMIO_SIZE CONFIG_MMCONF_BUS_NUMBER
/**
* Enable Message Based C1e CPU feature in multi-socket systems.
* BLDCFG_PLATFORM_C1E_OPDATA element be defined with a valid IO port value,
* else the feature cannot be enabled.
*/
#define BLDCFG_PLATFORM_C1E_MODE C1eModeMsgBased
#define BLDCFG_PLATFORM_C1E_OPDATA 0x80//TODO
//#define BLDCFG_PLATFORM_C1E_MODE_OPDATA1 0
//#define BLDCFG_PLATFORM_C1E_MODE_OPDATA2 0
#define BLDCFG_HEAP_DRAM_ADDRESS 0xB0000
#define BLDCFG_CFG_TEMP_PCIE_MMIO_BASE_ADDRESS 0xD0000000
#define BLDCFG_1GB_ALIGN FALSE
//#define BLDCFG_PROCESSOR_SCOPE_NAME0 'C'
//#define BLDCFG_PROCESSOR_SCOPE_NAME1 '0'
//
// Select the platform control flow mode for performance tuning.
#define BLDCFG_PLATFORM_CONTROL_FLOW_MODE Nfcm
/**
* Enable the probe filtering performance tuning feature.
* The probe filter provides filtering of broadcast probes to
* improve link bandwidth and performance for multi- node systems.
*
* This feature may interact with other performance features.
* TRUE -Enable the feature (default) if supported by all processors,
* based on revision and presence of L3 cache.
* The feature is not enabled if there are no coherent HT links.
* FALSE -Do not enable the feature regardless of the configuration.
*/
//TODO enable it,
//but AGESA set PFMode = 0; //PF Disable, HW never set PFInitDone
//hang in F10HtAssistInit() do{...} while(PFInitDone != 1)
#define BLDCFG_USE_HT_ASSIST FALSE
/**
* The socket and link match values are platform specific
*/
CONST MANUAL_BUID_SWAP_LIST ROMDATA h8qgi_manual_swaplist[2] =
{
{
/* On the reference platform, there is only one nc chain, so socket & link are 'don't care' */
HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY,
{ //BUID Swap List
{ //BUID Swaps
/* Each Non-coherent chain may have a list of device swaps,
* Each item specify a device will be swap from its current id to a new one
*/
/* FromID 0x00 is the chain with the southbridge */
/* 'Move' device zero to device zero, All others are non applicable */
{0x00, 0x00}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
{0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF}, {0xFF, 0xFF},
},
{ //The ordered final BUIDs
/* Specify the final BUID to be zero, All others are non applicable */
0x00, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
}
}
},
/* The 2nd element in the array merely terminates the list */
{
HT_LIST_TERMINAL,
}
};
#define HYPERTRANSPORT_V31_SUPPORT 1
#if HYPERTRANSPORT_V31_SUPPORT
/**
* The socket and link match values are platform specific
*
*/
CONST CPU_TO_CPU_PCB_LIMITS ROMDATA h8qgi_cpu2cpu_limit_list[2] =
{
{
/* On the reference platform, these settings apply to all coherent links */
HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY,
/* Set incoming and outgoing links to 16 bit widths, and 3.2GHz frequencies */
HT_WIDTH_16_BITS, HT_WIDTH_16_BITS, HT_FREQUENCY_LIMIT_3200M,
},
/* The 2nd element in the array merely terminates the list */
{
HT_LIST_TERMINAL,
}
};
CONST IO_PCB_LIMITS ROMDATA h8qgi_io_limit_list[2] =
{
{
/* On the reference platform, there is only one nc chain, so socket & link are 'don't care' */
HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY,
/* Set upstream and downstream links to 16 bit widths, and limit frequencies to 3.2GHz */
HT_WIDTH_16_BITS, HT_WIDTH_16_BITS, HT_FREQUENCY_LIMIT_3200M, //Actually IO hub only support 2600M MAX
},
/* The 2nd element in the array merely terminates the list */
{
HT_LIST_TERMINAL,
}
};
#else /* HYPERTRANSPORT_V31_SUPPORT == 0 */
CONST CPU_TO_CPU_PCB_LIMITS ROMDATA h8qgi_cpu2cpu_limit_list[2] =
{
{
/* On the reference platform, these settings apply to all coherent links */
HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY,
/* Set incoming and outgoing links to 16 bit widths, and 1GHz frequencies */
HT_WIDTH_16_BITS, HT_WIDTH_16_BITS, HT_FREQUENCY_LIMIT_HT1_ONLY,
},
/* The 2nd element in the array merely terminates the list */
{
HT_LIST_TERMINAL,
}
};
CONST IO_PCB_LIMITS ROMDATA h8qgi_io_limit_list[2] =
{
{
/* On the reference platform, there is only one nc chain, so socket & link are 'don't care' */
HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY,
/* Set incoming and outgoing links to 16 bit widths, and 1GHz frequencies */
HT_WIDTH_16_BITS, HT_WIDTH_16_BITS, HT_FREQUENCY_LIMIT_HT1_ONLY,
},
/* The 2nd element in the array merely terminates the list */
{
HT_LIST_TERMINAL
}
};
#endif /* HYPERTRANSPORT_V31_SUPPORT == 0 */
/**
* HyperTransport links will typically require an equalization at high frequencies.
* This is called deemphasis.
*
* Deemphasis is specified as levels, for example, -3 db.
* There are two levels for each link, its receiver deemphasis level and its DCV level,
* which is based on the far side transmitter's deemphasis.
* For each link, different levels may be required at each link frequency.
*
* Coherent connections between processors should have an entry for the port on each processor.
* There should be one entry for the host root port of each non-coherent chain.
*
* AGESA initialization code does not set deemphasis on IO Devices.
* A default is provided for internal links of MCM processors, and
* those links will generally not need deemphasis structures.
*/
CONST CPU_HT_DEEMPHASIS_LEVEL ROMDATA h8qgi_deemphasis_list[] =
{
/* Socket, Link, LowFreq, HighFreq, Receiver Deemphasis, Dcv Deemphasis */
/* Non-coherent link deemphasis. */
{0, 2, HT3_FREQUENCY_MIN, HT_FREQUENCY_1600M, DeemphasisLevelNone, DcvLevelNone},
{0, 2, HT_FREQUENCY_1800M, HT_FREQUENCY_1800M, DeemphasisLevelMinus3, DcvLevelMinus5},
{0, 2, HT_FREQUENCY_2000M, HT_FREQUENCY_2000M, DeemphasisLevelMinus6, DcvLevelMinus5},
{0, 2, HT_FREQUENCY_2200M, HT_FREQUENCY_2200M, DeemphasisLevelMinus6, DcvLevelMinus7},
{0, 2, HT_FREQUENCY_2400M, HT_FREQUENCY_2400M, DeemphasisLevelMinus8, DcvLevelMinus7},
{0, 2, HT_FREQUENCY_2600M, HT_FREQUENCY_2600M, DeemphasisLevelMinus11pre8, DcvLevelMinus9},
{1, 2, HT3_FREQUENCY_MIN, HT_FREQUENCY_1600M, DeemphasisLevelNone, DcvLevelNone},
{1, 2, HT_FREQUENCY_1800M, HT_FREQUENCY_1800M, DeemphasisLevelMinus3, DcvLevelMinus5},
{1, 2, HT_FREQUENCY_2000M, HT_FREQUENCY_2000M, DeemphasisLevelMinus6, DcvLevelMinus5},
{1, 2, HT_FREQUENCY_2200M, HT_FREQUENCY_2200M, DeemphasisLevelMinus6, DcvLevelMinus7},
{1, 2, HT_FREQUENCY_2400M, HT_FREQUENCY_2400M, DeemphasisLevelMinus8, DcvLevelMinus7},
{1, 2, HT_FREQUENCY_2600M, HT_FREQUENCY_2600M, DeemphasisLevelMinus11pre8, DcvLevelMinus9},
{2, 0, HT3_FREQUENCY_MIN, HT_FREQUENCY_1600M, DeemphasisLevelNone, DcvLevelNone},
{2, 0, HT_FREQUENCY_1800M, HT_FREQUENCY_1800M, DeemphasisLevelMinus3, DcvLevelMinus5},
{2, 0, HT_FREQUENCY_2000M, HT_FREQUENCY_2000M, DeemphasisLevelMinus6, DcvLevelMinus5},
{2, 0, HT_FREQUENCY_2200M, HT_FREQUENCY_2200M, DeemphasisLevelMinus6, DcvLevelMinus7},
{2, 0, HT_FREQUENCY_2400M, HT_FREQUENCY_2400M, DeemphasisLevelMinus8, DcvLevelMinus7},
{2, 0, HT_FREQUENCY_2600M, HT_FREQUENCY_2600M, DeemphasisLevelMinus11pre8, DcvLevelMinus9},
{3, 0, HT3_FREQUENCY_MIN, HT_FREQUENCY_1600M, DeemphasisLevelNone, DcvLevelNone},
{3, 0, HT_FREQUENCY_1800M, HT_FREQUENCY_1800M, DeemphasisLevelMinus3, DcvLevelMinus5},
{3, 0, HT_FREQUENCY_2000M, HT_FREQUENCY_2000M, DeemphasisLevelMinus6, DcvLevelMinus5},
{3, 0, HT_FREQUENCY_2200M, HT_FREQUENCY_2200M, DeemphasisLevelMinus6, DcvLevelMinus7},
{3, 0, HT_FREQUENCY_2400M, HT_FREQUENCY_2400M, DeemphasisLevelMinus8, DcvLevelMinus7},
{3, 0, HT_FREQUENCY_2600M, HT_FREQUENCY_2600M, DeemphasisLevelMinus11pre8, DcvLevelMinus9},
/* Coherent link deemphasis. */
{HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT3_FREQUENCY_MIN, HT_FREQUENCY_1600M, DeemphasisLevelNone, DcvLevelNone},
{HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_FREQUENCY_1800M, HT_FREQUENCY_1800M, DeemphasisLevelMinus3, DcvLevelMinus3},
{HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_FREQUENCY_2000M, HT_FREQUENCY_2000M, DeemphasisLevelMinus6, DcvLevelMinus6},
{HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_FREQUENCY_2200M, HT_FREQUENCY_2200M, DeemphasisLevelMinus6, DcvLevelMinus6},
{HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_FREQUENCY_2400M, HT_FREQUENCY_2400M, DeemphasisLevelMinus8, DcvLevelMinus8},
{HT_LIST_MATCH_ANY, HT_LIST_MATCH_ANY, HT_FREQUENCY_2600M, HT_FREQUENCY_MAX, DeemphasisLevelMinus11pre8, DcvLevelMinus11},
/* End of the list */
{
HT_LIST_TERMINAL
}
};
/**
* For systems using socket infrastructure that permits strapping the SBI
* address for each socket, this should be used to provide a socket ID value.
* This is referred to as the hardware method for socket naming, and is the
* preferred solution.
*/
/*
* I do NOT know howto config socket id in simnow,
* so use this software way to make HT works in simnow,
* real hardware do not need this Socket Map.
*
* A physical socket map for a 4 G34 Sockets MCM processors topology,
* reference the mainboard schemantic in detail.
*
*/
CONST SYSTEM_PHYSICAL_SOCKET_MAP ROMDATA h8qgi_socket_map[] =
{
#define HT_SOCKET0 0
#define HT_SOCKET1 1
#define HT_SOCKET2 2
#define HT_SOCKET3 3
/**
* 0-3 are sublink 0, 4-7 are sublink 1
*/
#define HT_LINK0A 0
#define HT_LINK1A 1
#define HT_LINK2A 2
#define HT_LINK3A 3
#define HT_LINK0B 4
#define HT_LINK1B 5
#define HT_LINK2B 6
#define HT_LINK3B 7
/* Source Socket, Link, Target Socket */
{HT_SOCKET0, HT_LINK0A, HT_SOCKET1},
{HT_SOCKET0, HT_LINK0B, HT_SOCKET3},
{HT_SOCKET0, HT_LINK1A, HT_SOCKET1},
{HT_SOCKET0, HT_LINK1B, HT_SOCKET3},
{HT_SOCKET0, HT_LINK3A, HT_SOCKET2},
{HT_SOCKET0, HT_LINK3B, HT_SOCKET2},
{HT_SOCKET1, HT_LINK0A, HT_SOCKET2},
{HT_SOCKET1, HT_LINK0B, HT_SOCKET3},
{HT_SOCKET1, HT_LINK1A, HT_SOCKET0},
{HT_SOCKET1, HT_LINK1B, HT_SOCKET2},
{HT_SOCKET1, HT_LINK3A, HT_SOCKET0},
{HT_SOCKET1, HT_LINK3B, HT_SOCKET3},
{HT_SOCKET2, HT_LINK0A, HT_SOCKET3},
{HT_SOCKET2, HT_LINK0B, HT_SOCKET0},
{HT_SOCKET2, HT_LINK1A, HT_SOCKET3},
{HT_SOCKET2, HT_LINK1B, HT_SOCKET1},
{HT_SOCKET2, HT_LINK3A, HT_SOCKET1},
{HT_SOCKET2, HT_LINK3B, HT_SOCKET0},
{HT_SOCKET3, HT_LINK0A, HT_SOCKET2},
{HT_SOCKET3, HT_LINK0B, HT_SOCKET1},
{HT_SOCKET3, HT_LINK1A, HT_SOCKET1},
{HT_SOCKET3, HT_LINK1B, HT_SOCKET0},
{HT_SOCKET3, HT_LINK3A, HT_SOCKET0},
{HT_SOCKET3, HT_LINK3B, HT_SOCKET2},
};
CONST AP_MTRR_SETTINGS ROMDATA h8qgi_ap_mtrr_list[] =
{
{AMD_AP_MTRR_FIX64k_00000, 0x1E1E1E1E1E1E1E1E},
{AMD_AP_MTRR_FIX16k_80000, 0x1E1E1E1E1E1E1E1E},
{AMD_AP_MTRR_FIX16k_A0000, 0x0000000000000000},
{AMD_AP_MTRR_FIX4k_C0000, 0x0000000000000000},
{AMD_AP_MTRR_FIX4k_C8000, 0x0000000000000000},
{AMD_AP_MTRR_FIX4k_D0000, 0x0000000000000000},
{AMD_AP_MTRR_FIX4k_D8000, 0x0000000000000000},
{AMD_AP_MTRR_FIX4k_E0000, 0x1818181818181818},
{AMD_AP_MTRR_FIX4k_E8000, 0x1818181818181818},
{AMD_AP_MTRR_FIX4k_F0000, 0x1818181818181818},
{AMD_AP_MTRR_FIX4k_F8000, 0x1818181818181818},
{CPU_LIST_TERMINAL}
};
#define BLDCFG_BUID_SWAP_LIST &h8qgi_manual_swaplist
#define BLDCFG_HTFABRIC_LIMITS_LIST &h8qgi_cpu2cpu_limit_list
#define BLDCFG_HTCHAIN_LIMITS_LIST &h8qgi_io_limit_list
#define BLDCFG_PLATFORM_DEEMPHASIS_LIST &h8qgi_deemphasis_list
#define BLDCFG_AP_MTRR_SETTINGS_LIST &h8qgi_ap_mtrr_list
//#define BLDCFG_SYSTEM_PHYSICAL_SOCKET_MAP &h8qgi_socket_map
/* Process the options...
* This file include MUST occur AFTER the user option selection settings
*/
#define AGESA_ENTRY_INIT_RESET TRUE//FALSE
#define AGESA_ENTRY_INIT_RECOVERY FALSE
#define AGESA_ENTRY_INIT_EARLY TRUE
#define AGESA_ENTRY_INIT_POST TRUE
#define AGESA_ENTRY_INIT_ENV TRUE
#define AGESA_ENTRY_INIT_MID TRUE
#define AGESA_ENTRY_INIT_LATE TRUE
#define AGESA_ENTRY_INIT_S3SAVE TRUE
#define AGESA_ENTRY_INIT_RESUME TRUE
#define AGESA_ENTRY_INIT_LATE_RESTORE TRUE
#define AGESA_ENTRY_INIT_GENERAL_SERVICES TRUE
/*
#if CONFIG_CPU_AMD_AGESA_FAMILY15
#define BLDOPT_REMOVE_FAMILY_10_SUPPORT TRUE
#endif
#if CONFIG_CPU_AMD_AGESA_FAMILY10
#define BLDOPT_REMOVE_FAMILY_15_SUPPORT TRUE
#endif
*/
#include "MaranelloInstall.h"
/*----------------------------------------------------------------------------------------
* CUSTOMER OVERIDES MEMORY TABLE
*----------------------------------------------------------------------------------------
*/
//reference BKDG Table87: works
#define F15_WL_SEED 0x3B //family15 BKDG recommand 3B RDIMM, 1A UDIMM.
#define SEED_A 0x54
#define SEED_B 0x4D
#define SEED_C 0x45
#define SEED_D 0x40
#define F10_WL_SEED 0x3B //family10 BKDG recommand 3B RDIMM, 1A UDIMM.
//4B 41 51
/*
* Platform Specific Overriding Table allows IBV/OEM to pass in platform information to AGESA
* (e.g. MemClk routing, the number of DIMM slots per channel,...). If PlatformSpecificTable
* is populated, AGESA will base its settings on the data from the table. Otherwise, it will
* use its default conservative settings.
*/
CONST PSO_ENTRY ROMDATA DefaultPlatformMemoryConfiguration[] = {
//
// The following macros are supported (use comma to separate macros):
//
// MEMCLK_DIS_MAP(SocketID, ChannelID, MemClkDisBit0CSMap,..., MemClkDisBit7CSMap)
// The MemClk pins are identified based on BKDG definition of Fn2x88[MemClkDis] bitmap.
// AGESA will base on this value to disable unused MemClk to save power.
// Example:
// BKDG definition of Fn2x88[MemClkDis] bitmap for AM3 package is like below:
// Bit AM3/S1g3 pin name
// 0 M[B,A]_CLK_H/L[0]
// 1 M[B,A]_CLK_H/L[1]
// 2 M[B,A]_CLK_H/L[2]
// 3 M[B,A]_CLK_H/L[3]
// 4 M[B,A]_CLK_H/L[4]
// 5 M[B,A]_CLK_H/L[5]
// 6 M[B,A]_CLK_H/L[6]
// 7 M[B,A]_CLK_H/L[7]
// And platform has the following routing:
// CS0 M[B,A]_CLK_H/L[4]
// CS1 M[B,A]_CLK_H/L[2]
// CS2 M[B,A]_CLK_H/L[3]
// CS3 M[B,A]_CLK_H/L[5]
// Then platform can specify the following macro:
// MEMCLK_DIS_MAP(ANY_SOCKET, ANY_CHANNEL, 0x00, 0x00, 0x02, 0x04, 0x01, 0x08, 0x00, 0x00)
//
// CKE_TRI_MAP(SocketID, ChannelID, CKETriBit0CSMap, CKETriBit1CSMap)
// The CKE pins are identified based on BKDG definition of Fn2x9C_0C[CKETri] bitmap.
// AGESA will base on this value to tristate unused CKE to save power.
//
// ODT_TRI_MAP(SocketID, ChannelID, ODTTriBit0CSMap,..., ODTTriBit3CSMap)
// The ODT pins are identified based on BKDG definition of Fn2x9C_0C[ODTTri] bitmap.
// AGESA will base on this value to tristate unused ODT pins to save power.
//
// CS_TRI_MAP(SocketID, ChannelID, CSTriBit0CSMap,..., CSTriBit7CSMap)
// The Chip select pins are identified based on BKDG definition of Fn2x9C_0C[ChipSelTri] bitmap.
// AGESA will base on this value to tristate unused Chip select to save power.
//
// NUMBER_OF_DIMMS_SUPPORTED(SocketID, ChannelID, NumberOfDimmSlotsPerChannel)
// Specifies the number of DIMM slots per channel.
//
// NUMBER_OF_CHIP_SELECTS_SUPPORTED(SocketID, ChannelID, NumberOfChipSelectsPerChannel)
// Specifies the number of Chip selects per channel.
//
// NUMBER_OF_CHANNELS_SUPPORTED(SocketID, NumberOfChannelsPerSocket)
// Specifies the number of channels per socket.
//
// OVERRIDE_DDR_BUS_SPEED(SocketID, ChannelID, USER_MEMORY_TIMING_MODE, MEMORY_BUS_SPEED)
// Specifies DDR bus speed of channel ChannelID on socket SocketID.
//
// DRAM_TECHNOLOGY(SocketID, TECHNOLOGY_TYPE)
// Specifies the DRAM technology type of socket SocketID (DDR2, DDR3,...)
//
// WRITE_LEVELING_SEED(SocketID, ChannelID, Byte0Seed, Byte1Seed, Byte2Seed, Byte3Seed, Byte4Seed, Byte5Seed,
// Byte6Seed, Byte7Seed, ByteEccSeed)
// Specifies the write leveling seed for a channel of a socket.
//
/* Specifies the write leveling seed for a channel of a socket.
* WRITE_LEVELING_SEED(SocketID, ChannelID, DimmID,
* Byte0Seed, Byte1Seed, Byte2Seed, Byte3Seed,
* Byte4Seed, Byte5Seed, Byte6Seed, Byte7Seed,
* ByteEccSeed)
*/
WRITE_LEVELING_SEED(
ANY_SOCKET, ANY_CHANNEL, ALL_DIMMS,
F15_WL_SEED, F15_WL_SEED, F15_WL_SEED, F15_WL_SEED,
F15_WL_SEED, F15_WL_SEED, F15_WL_SEED, F15_WL_SEED,
F15_WL_SEED),
/* HW_RXEN_SEED(SocketID, ChannelID, DimmID,
* Byte0Seed, Byte1Seed, Byte2Seed, Byte3Seed,
* Byte4Seed, Byte5Seed, Byte6Seed, Byte7Seed, ByteEccSeed)
*/
HW_RXEN_SEED(
ANY_SOCKET, CHANNEL_A, ALL_DIMMS,
SEED_A, SEED_A, SEED_A, SEED_A, SEED_A, SEED_A, SEED_A, SEED_A,
SEED_A),
HW_RXEN_SEED(
ANY_SOCKET, CHANNEL_B, ALL_DIMMS,
SEED_B, SEED_B, SEED_B, SEED_B, SEED_B, SEED_B, SEED_B, SEED_B,
SEED_B),
HW_RXEN_SEED(
ANY_SOCKET, CHANNEL_C, ALL_DIMMS,
SEED_C, SEED_C, SEED_C, SEED_C, SEED_C, SEED_C, SEED_C, SEED_C,
SEED_C),
HW_RXEN_SEED(
ANY_SOCKET, CHANNEL_D, ALL_DIMMS,
SEED_D, SEED_D, SEED_D, SEED_D, SEED_D, SEED_D, SEED_D, SEED_D,
SEED_D),
NUMBER_OF_DIMMS_SUPPORTED (ANY_SOCKET, ANY_CHANNEL, 2), //max 3
PSO_END
};
/*
* These tables are optional and may be used to adjust memory timing settings
*/
//HY Customer table
UINT8 AGESA_MEM_TABLE_HY[][sizeof (MEM_TABLE_ALIAS)] =
{
// Hardcoded Memory Training Values
// The following macro should be used to override training values for your platform
//
// DQSACCESS(MTAfterDqsRwPosTrn, MTNodes, MTDcts, MTDIMMs, BFRdDqsDly, MTOverride, 0x00, 0x04, 0x08, 0x0c, 0x10, 0x14, 0x18, 0x1c, 0x20),
//
// NOTE:
// The following training hardcode values are example values that were taken from a tilapia motherboard
// with a particular DIMM configuration. To hardcode your own values, uncomment the appropriate line in
// the table and replace the byte lane values with your own.
//
// ------------------ BYTE LANES ----------------------
// BL0 BL1 BL2 BL3 BL4 BL5 BL6 Bl7 ECC
// Write Data Timing
// DQSACCESS(MTAfterHwWLTrnP2, MTNode0, MTDct0, MTDIMM0, BFWrDatDly, MTOverride, 0x1D, 0x20, 0x26, 0x2B, 0x37, 0x3A, 0x3e, 0x3F, 0x30),// DCT0, DIMM0
// DQSACCESS(MTAfterHwWLTrnP2, MTNode0, MTDct0, MTDIMM1, BFWrDatDly, MTOverride, 0x1D, 0x00, 0x06, 0x0B, 0x17, 0x1A, 0x1E, 0x1F, 0x10),// DCT0, DIMM1
// DQSACCESS(MTAfterHwWLTrnP2, MTNode0, MTDct1, MTDIMM0, BFWrDatDly, MTOverride, 0x18, 0x1D, 0x27, 0x2B, 0x3B, 0x3B, 0x3E, 0x3E, 0x30),// DCT1, DIMM0
// DQSACCESS(MTAfterHwWLTrnP2, MTNode0, MTDct1, MTDIMM1, BFWrDatDly, MTOverride, 0x18, 0x1D, 0x1C, 0x0B, 0x17, 0x1A, 0x1D, 0x1C, 0x10),// DCT1, DIMM1
// DQS Receiver Enable
// DQSACCESS(MTAfterSwRxEnTrn, MTNode0, MTDct0, MTDIMM0, BFRcvEnDly, MTOverride, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00),// DCT0, DIMM0
// DQSACCESS(MTAfterSwRxEnTrn, MTNode0, MTDct0, MTDIMM1, BFRcvEnDly, MTOverride, 0x7C, 0x7D, 0x7E, 0x81, 0x88, 0x8F, 0x96, 0x9F, 0x84),// DCT0, DIMM1
// DQSACCESS(MTAfterSwRxEnTrn, MTNode0, MTDct1, MTDIMM0, BFRcvEnDly, MTOverride, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00),// DCT1, DIMM0
// DQSACCESS(MTAfterSwRxEnTrn, MTNode0, MTDct1, MTDIMM1, BFRcvEnDly, MTOverride, 0x1C, 0x1D, 0x1E, 0x01, 0x08, 0x0F, 0x16, 0x1F, 0x04),// DCT1, DIMM1
// Write DQS Delays
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct0, MTDIMM0, BFWrDqsDly, MTOverride, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00),// DCT0, DIMM0
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct0, MTDIMM1, BFWrDqsDly, MTOverride, 0x06, 0x0D, 0x12, 0x1A, 0x25, 0x28, 0x2C, 0x2C, 0x44),// DCT0, DIMM1
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct1, MTDIMM0, BFWrDqsDly, MTOverride, 0x07, 0x0E, 0x14, 0x1B, 0x24, 0x29, 0x2B, 0x2C, 0x1F),// DCT1, DIMM0
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct1, MTDIMM1, BFWrDqsDly, MTOverride, 0x07, 0x0C, 0x14, 0x19, 0x25, 0x28, 0x2B, 0x2B, 0x1A),// DCT1, DIMM1
// Read DQS Delays
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct0, MTDIMM0, BFRdDqsDly, MTOverride, 0x10, 0x10, 0x0E, 0x10, 0x10, 0x10, 0x10, 0x0E, 0x10),// DCT0, DIMM0
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct0, MTDIMM1, BFRdDqsDly, MTOverride, 0x10, 0x10, 0x0E, 0x10, 0x10, 0x10, 0x10, 0x1E, 0x10),// DCT0, DIMM1
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct1, MTDIMM0, BFRdDqsDly, MTOverride, 0x10, 0x10, 0x0E, 0x10, 0x10, 0x10, 0x10, 0x1E, 0x10),// DCT1, DIMM0
// DQSACCESS(MTAfterDqsRwPosTrn, MTNode0, MTDct1, MTDIMM1, BFRdDqsDly, MTOverride, 0x10, 0x10, 0x0E, 0x10, 0x10, 0x10, 0x10, 0x1E, 0x10),// DCT1, DIMM1
//--------------------------------------------------------------------------------------------------------------------------------------------------
// TABLE END
NBACCESS (MTEnd, 0, 0, 0, 0, 0), // End of Table
};
UINT8 SizeOfTableHy = ARRAY_SIZE(AGESA_MEM_TABLE_HY);
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