diff options
author | Timothy Pearson <tpearson@raptorengineeringinc.com> | 2015-06-02 20:51:59 -0500 |
---|---|---|
committer | Stefan Reinauer <stefan.reinauer@coreboot.org> | 2015-11-10 19:31:46 +0100 |
commit | 453b54371681f8810ed50b41efbd7e09dc0f63d6 (patch) | |
tree | 3e15bcf17fad29e7d7ab84446b4ff78d85b72a55 | |
parent | 4c502697eef81238c71b1570e4ee9d9ee08455d5 (diff) |
northbridge/amd/amdmct: Read SPD data into cache to decrease bootup time
Change-Id: Ic16a927a3f1fc6f7cb1aea36a8abe8cc1999cb52
Signed-off-by: Timothy Pearson <tpearson@raptorengineeringinc.com>
Reviewed-on: http://review.coreboot.org/11973
Tested-by: build bot (Jenkins)
Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
-rw-r--r-- | src/northbridge/amd/amdmct/mct_ddr3/mct_d.c | 161 | ||||
-rw-r--r-- | src/northbridge/amd/amdmct/mct_ddr3/mct_d.h | 7 |
2 files changed, 92 insertions, 76 deletions
diff --git a/src/northbridge/amd/amdmct/mct_ddr3/mct_d.c b/src/northbridge/amd/amdmct/mct_ddr3/mct_d.c index f4bf402775..1829ff54ff 100644 --- a/src/northbridge/amd/amdmct/mct_ddr3/mct_d.c +++ b/src/northbridge/amd/amdmct/mct_ddr3/mct_d.c @@ -176,7 +176,7 @@ static void mct_WriteLevelization_HW(struct MCTStatStruc *pMCTstat, static u8 Get_Latency_Diff(struct MCTStatStruc *pMCTstat, struct DCTStatStruc *pDCTstat, u8 dct); static void SyncSetting(struct DCTStatStruc *pDCTstat); -static u8 crcCheck(u8 smbaddr); +static uint8_t crcCheck(struct DCTStatStruc *pDCTstat, uint8_t dimm); static void mct_ExtMCTConfig_Bx(struct DCTStatStruc *pDCTstat); static void mct_ExtMCTConfig_Cx(struct DCTStatStruc *pDCTstat); @@ -1176,6 +1176,20 @@ static void precise_memclk_delay_fam15(struct MCTStatStruc *pMCTstat, struct DCT precise_ndelay_fam15(pMCTstat, delay_ns); } +static void read_spd_bytes(struct MCTStatStruc *pMCTstat, + struct DCTStatStruc *pDCTstat, uint8_t dimm) +{ + uint8_t addr; + uint16_t byte; + + addr = Get_DIMMAddress_D(pDCTstat, dimm); + pDCTstat->spd_data.spd_address[dimm] = addr; + + for (byte = 0; byte < 256; byte++) { + pDCTstat->spd_data.spd_bytes[dimm][byte] = mctRead_SPD(addr, byte); + } +} + static void mctAutoInitMCT_D(struct MCTStatStruc *pMCTstat, struct DCTStatStruc *pDCTstatA) { @@ -1281,7 +1295,7 @@ restartinit: mct_InitialMCT_D(pMCTstat, pDCTstat); printk(BIOS_DEBUG, "%s: mctSMBhub_Init\n", __func__); - mctSMBhub_Init(Node); /* Switch SMBUS crossbar to proper node*/ + mctSMBhub_Init(Node); /* Switch SMBUS crossbar to proper node */ printk(BIOS_DEBUG, "%s: mct_preInitDCT\n", __func__); mct_preInitDCT(pMCTstat, pDCTstat); @@ -2441,7 +2455,6 @@ static void SPD2ndTiming(struct MCTStatStruc *pMCTstat, u32 dword; u32 dev; u32 val; - u16 smbaddr; printk(BIOS_DEBUG, "%s: Start\n", __func__); @@ -2461,64 +2474,62 @@ static void SPD2ndTiming(struct MCTStatStruc *pMCTstat, for ( i = 0; i< MAX_DIMMS_SUPPORTED; i++) { LDIMM = i >> 1; if (pDCTstat->DIMMValid & (1 << i)) { - smbaddr = Get_DIMMAddress_D(pDCTstat, (dct + i)); - - val = mctRead_SPD(smbaddr, SPD_MTBDivisor); /* MTB=Dividend/Divisor */ - MTB16x = ((mctRead_SPD(smbaddr, SPD_MTBDividend) & 0xFF)<<4); + val = pDCTstat->spd_data.spd_bytes[dct + i][SPD_MTBDivisor]; /* MTB=Dividend/Divisor */ + MTB16x = ((pDCTstat->spd_data.spd_bytes[dct + i][SPD_MTBDividend] & 0xff) << 4); MTB16x /= val; /* transfer to MTB*16 */ - byte = mctRead_SPD(smbaddr, SPD_tRPmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tRPmin]; val = byte * MTB16x; if (Trp < val) Trp = val; - byte = mctRead_SPD(smbaddr, SPD_tRRDmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tRRDmin]; val = byte * MTB16x; if (Trrd < val) Trrd = val; - byte = mctRead_SPD(smbaddr, SPD_tRCDmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tRCDmin]; val = byte * MTB16x; if (Trcd < val) Trcd = val; - byte = mctRead_SPD(smbaddr, SPD_tRTPmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tRTPmin]; val = byte * MTB16x; if (Trtp < val) Trtp = val; - byte = mctRead_SPD(smbaddr, SPD_tWRmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tWRmin]; val = byte * MTB16x; if (Twr < val) Twr = val; - byte = mctRead_SPD(smbaddr, SPD_tWTRmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tWTRmin]; val = byte * MTB16x; if (Twtr < val) Twtr = val; - val = mctRead_SPD(smbaddr, SPD_Upper_tRAS_tRC) & 0xFF; + val = pDCTstat->spd_data.spd_bytes[dct + i][SPD_Upper_tRAS_tRC] & 0xFF; val >>= 4; val <<= 8; - val |= mctRead_SPD(smbaddr, SPD_tRCmin) & 0xFF; + val |= pDCTstat->spd_data.spd_bytes[dct + i][SPD_tRCmin] & 0xFF; val *= MTB16x; if (Trc < val) Trc = val; - byte = mctRead_SPD(smbaddr, SPD_Density) & 0xF; + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_Density] & 0xF; if (Trfc[LDIMM] < byte) Trfc[LDIMM] = byte; - val = mctRead_SPD(smbaddr, SPD_Upper_tRAS_tRC) & 0xF; + val = pDCTstat->spd_data.spd_bytes[dct + i][SPD_Upper_tRAS_tRC] & 0xF; val <<= 8; - val |= (mctRead_SPD(smbaddr, SPD_tRASmin) & 0xFF); + val |= (pDCTstat->spd_data.spd_bytes[dct + i][SPD_tRASmin] & 0xFF); val *= MTB16x; if (Tras < val) Tras = val; - val = mctRead_SPD(smbaddr, SPD_Upper_tFAW) & 0xF; + val = pDCTstat->spd_data.spd_bytes[dct + i][SPD_Upper_tFAW] & 0xF; val <<= 8; - val |= mctRead_SPD(smbaddr, SPD_tFAWmin) & 0xFF; + val |= pDCTstat->spd_data.spd_bytes[dct + i][SPD_tFAWmin] & 0xFF; val *= MTB16x; if (Tfaw < val) Tfaw = val; @@ -2934,7 +2945,7 @@ static void SPDGetTCL_D(struct MCTStatStruc *pMCTstat, u8 CLactual, CLdesired, CLT_Fail; uint16_t min_frequency_tck16x; - u8 smbaddr, byte = 0, bytex = 0; + u8 byte = 0, bytex = 0; CASLatLow = 0xFF; CASLatHigh = 0xFF; @@ -2955,28 +2966,27 @@ static void SPDGetTCL_D(struct MCTStatStruc *pMCTstat, for (i = 0; i < MAX_DIMMS_SUPPORTED; i++) { if (pDCTstat->DIMMValid & (1 << i)) { - smbaddr = Get_DIMMAddress_D(pDCTstat, (dct + i)); /* Step 1: Determine the common set of supported CAS Latency * values for all modules on the memory channel using the CAS * Latencies Supported in SPD bytes 14 and 15. */ - byte = mctRead_SPD(smbaddr, SPD_CASLow); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_CASLow]; CASLatLow &= byte; - byte = mctRead_SPD(smbaddr, SPD_CASHigh); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_CASHigh]; CASLatHigh &= byte; /* Step 2: Determine tAAmin(all) which is the largest tAAmin value for all modules on the memory channel (SPD byte 16). */ - byte = mctRead_SPD(smbaddr, SPD_MTBDivisor); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_MTBDivisor]; - MTB16x = ((mctRead_SPD(smbaddr, SPD_MTBDividend) & 0xFF)<<4); + MTB16x = ((pDCTstat->spd_data.spd_bytes[dct + i][SPD_MTBDividend] & 0xFF)<<4); MTB16x /= byte; /* transfer to MTB*16 */ - byte = mctRead_SPD(smbaddr, SPD_tAAmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tAAmin]; if (tAAmin16x < byte * MTB16x) tAAmin16x = byte * MTB16x; /* Step 3: Determine tCKmin(all) which is the largest tCKmin value for all modules on the memory channel (SPD byte 12). */ - byte = mctRead_SPD(smbaddr, SPD_tCKmin); + byte = pDCTstat->spd_data.spd_bytes[dct + i][SPD_tCKmin]; if (tCKmin16x < byte * MTB16x) tCKmin16x = byte * MTB16x; @@ -3347,7 +3357,6 @@ static void SPDSetBanks_D(struct MCTStatStruc *pMCTstat, u8 byte; u16 word; u32 dword; - u16 smbaddr; dev = pDCTstat->dev_dct; @@ -3358,16 +3367,14 @@ static void SPDSetBanks_D(struct MCTStatStruc *pMCTstat, byte -= 3; if (pDCTstat->DIMMValid & (1<<byte)) { - smbaddr = Get_DIMMAddress_D(pDCTstat, (ChipSel + dct)); - - byte = mctRead_SPD(smbaddr, SPD_Addressing); + byte = pDCTstat->spd_data.spd_bytes[ChipSel + dct][SPD_Addressing]; Rows = (byte >> 3) & 0x7; /* Rows:0b=12-bit,... */ Cols = byte & 0x7; /* Cols:0b=9-bit,... */ - byte = mctRead_SPD(smbaddr, SPD_Density); + byte = pDCTstat->spd_data.spd_bytes[ChipSel + dct][SPD_Density]; Banks = (byte >> 4) & 7; /* Banks:0b=3-bit,... */ - byte = mctRead_SPD(smbaddr, SPD_Organization); + byte = pDCTstat->spd_data.spd_bytes[ChipSel + dct][SPD_Organization]; Ranks = ((byte >> 3) & 7) + 1; /* Configure Bank encoding @@ -3462,46 +3469,42 @@ static void SPDCalcWidth_D(struct MCTStatStruc *pMCTstat, * and determine the width mode: 64-bit, 64-bit muxed, 128-bit. */ u8 i; - u8 smbaddr, smbaddr1; u8 byte, byte1; /* Check Symmetry of Channel A and Channel B DIMMs (must be matched for 128-bit mode).*/ for (i=0; i < MAX_DIMMS_SUPPORTED; i += 2) { if ((pDCTstat->DIMMValid & (1 << i)) && (pDCTstat->DIMMValid & (1<<(i+1)))) { - smbaddr = Get_DIMMAddress_D(pDCTstat, i); - smbaddr1 = Get_DIMMAddress_D(pDCTstat, i+1); - - byte = mctRead_SPD(smbaddr, SPD_Addressing) & 0x7; - byte1 = mctRead_SPD(smbaddr1, SPD_Addressing) & 0x7; + byte = pDCTstat->spd_data.spd_bytes[i][SPD_Addressing] & 0x7; + byte1 = pDCTstat->spd_data.spd_bytes[i + 1][SPD_Addressing] & 0x7; if (byte != byte1) { pDCTstat->ErrStatus |= (1<<SB_DimmMismatchO); break; } - byte = mctRead_SPD(smbaddr, SPD_Density) & 0x0f; - byte1 = mctRead_SPD(smbaddr1, SPD_Density) & 0x0f; + byte = pDCTstat->spd_data.spd_bytes[i][SPD_Density] & 0x0f; + byte1 = pDCTstat->spd_data.spd_bytes[i + 1][SPD_Density] & 0x0f; if (byte != byte1) { pDCTstat->ErrStatus |= (1<<SB_DimmMismatchO); break; } - byte = mctRead_SPD(smbaddr, SPD_Organization) & 0x7; - byte1 = mctRead_SPD(smbaddr1, SPD_Organization) & 0x7; + byte = pDCTstat->spd_data.spd_bytes[i][SPD_Organization] & 0x7; + byte1 = pDCTstat->spd_data.spd_bytes[i + 1][SPD_Organization] & 0x7; if (byte != byte1) { pDCTstat->ErrStatus |= (1<<SB_DimmMismatchO); break; } - byte = (mctRead_SPD(smbaddr, SPD_Organization) >> 3) & 0x7; - byte1 = (mctRead_SPD(smbaddr1, SPD_Organization) >> 3) & 0x7; + byte = (pDCTstat->spd_data.spd_bytes[i][SPD_Organization] >> 3) & 0x7; + byte1 = (pDCTstat->spd_data.spd_bytes[i + 1][SPD_Organization] >> 3) & 0x7; if (byte != byte1) { pDCTstat->ErrStatus |= (1<<SB_DimmMismatchO); break; } - byte = mctRead_SPD(smbaddr, SPD_DMBANKS) & 7; /* #ranks-1 */ - byte1 = mctRead_SPD(smbaddr1, SPD_DMBANKS) & 7; /* #ranks-1 */ + byte = pDCTstat->spd_data.spd_bytes[i][SPD_DMBANKS] & 7; /* #ranks-1 */ + byte1 = pDCTstat->spd_data.spd_bytes[i + 1][SPD_DMBANKS] & 7; /* #ranks-1 */ if (byte != byte1) { pDCTstat->ErrStatus |= (1<<SB_DimmMismatchO); break; @@ -3682,8 +3685,9 @@ static u8 DIMMPresence_D(struct MCTStatStruc *pMCTstat, status = mctRead_SPD(smbaddr, SPD_ByteUse); if (status >= 0) { /* SPD access is ok */ pDCTstat->DIMMPresent |= 1 << i; - if (crcCheck(smbaddr)) { /* CRC is OK */ - byte = mctRead_SPD(smbaddr, SPD_TYPE); + read_spd_bytes(pMCTstat, pDCTstat, i); + if (crcCheck(pDCTstat, i)) { /* CRC is OK */ + byte = pDCTstat->spd_data.spd_bytes[i][SPD_TYPE]; if (byte == JED_DDR3SDRAM) { /*Dimm is 'Present'*/ pDCTstat->DIMMValid |= 1 << i; @@ -3696,36 +3700,41 @@ static u8 DIMMPresence_D(struct MCTStatStruc *pMCTstat, } else { /*if NV_SPDCHK_RESTRT is set to 1, ignore faulty SPD checksum*/ pDCTstat->ErrStatus |= 1<<SB_DIMMChkSum; - byte = mctRead_SPD(smbaddr, SPD_TYPE); + byte = pDCTstat->spd_data.spd_bytes[i][SPD_TYPE]; if (byte == JED_DDR3SDRAM) pDCTstat->DIMMValid |= 1 << i; } } + + /* Zero DIMM SPD data cache if DIMM not present / valid */ + if (!(pDCTstat->DIMMValid & (1 << i))) + memset(pDCTstat->spd_data.spd_bytes[i], 0, sizeof(pDCTstat->spd_data.spd_bytes[i])); + /* Get module information for SMBIOS */ if (pDCTstat->DIMMValid & (1 << i)) { pDCTstat->DimmManufacturerID[i] = 0; for (k = 0; k < 8; k++) - pDCTstat->DimmManufacturerID[i] |= ((uint64_t)mctRead_SPD(smbaddr, SPD_MANID_START + k)) << (k * 8); + pDCTstat->DimmManufacturerID[i] |= ((uint64_t)pDCTstat->spd_data.spd_bytes[i][SPD_MANID_START + k]) << (k * 8); for (k = 0; k < SPD_PARTN_LENGTH; k++) - pDCTstat->DimmPartNumber[i][k] = mctRead_SPD(smbaddr, SPD_PARTN_START + k); + pDCTstat->DimmPartNumber[i][k] = pDCTstat->spd_data.spd_bytes[i][SPD_PARTN_START + k]; pDCTstat->DimmPartNumber[i][SPD_PARTN_LENGTH] = 0; pDCTstat->DimmRevisionNumber[i] = 0; for (k = 0; k < 2; k++) - pDCTstat->DimmRevisionNumber[i] |= ((uint16_t)mctRead_SPD(smbaddr, SPD_REVNO_START + k)) << (k * 8); + pDCTstat->DimmRevisionNumber[i] |= ((uint16_t)pDCTstat->spd_data.spd_bytes[i][SPD_REVNO_START + k]) << (k * 8); pDCTstat->DimmSerialNumber[i] = 0; for (k = 0; k < 4; k++) - pDCTstat->DimmSerialNumber[i] |= ((uint32_t)mctRead_SPD(smbaddr, SPD_SERIAL_START + k)) << (k * 8); - pDCTstat->DimmRows[i] = (mctRead_SPD(smbaddr, SPD_Addressing) & 0x38) >> 3; - pDCTstat->DimmCols[i] = mctRead_SPD(smbaddr, SPD_Addressing) & 0x7; - pDCTstat->DimmRanks[i] = ((mctRead_SPD(smbaddr, SPD_Organization) & 0x38) >> 3) + 1; - pDCTstat->DimmBanks[i] = 1ULL << (((mctRead_SPD(smbaddr, SPD_Density) & 0x70) >> 4) + 3); - pDCTstat->DimmWidth[i] = 1ULL << ((mctRead_SPD(smbaddr, SPD_BusWidth) & 0x7) + 3); + pDCTstat->DimmSerialNumber[i] |= ((uint32_t)pDCTstat->spd_data.spd_bytes[i][SPD_SERIAL_START + k]) << (k * 8); + pDCTstat->DimmRows[i] = (pDCTstat->spd_data.spd_bytes[i][SPD_Addressing] & 0x38) >> 3; + pDCTstat->DimmCols[i] = pDCTstat->spd_data.spd_bytes[i][SPD_Addressing] & 0x7; + pDCTstat->DimmRanks[i] = ((pDCTstat->spd_data.spd_bytes[i][SPD_Organization] & 0x38) >> 3) + 1; + pDCTstat->DimmBanks[i] = 1ULL << (((pDCTstat->spd_data.spd_bytes[i][SPD_Density] & 0x70) >> 4) + 3); + pDCTstat->DimmWidth[i] = 1ULL << ((pDCTstat->spd_data.spd_bytes[i][SPD_BusWidth] & 0x7) + 3); } /* Check supported voltage(s) */ - pDCTstat->DimmSupportedVoltages[i] = mctRead_SPD(smbaddr, SPD_Voltage) & 0x7; + pDCTstat->DimmSupportedVoltages[i] = pDCTstat->spd_data.spd_bytes[i][SPD_Voltage] & 0x7; pDCTstat->DimmSupportedVoltages[i] ^= 0x1; /* Invert LSB to convert from SPD format to internal bitmap format */ /* Check module type */ - byte = mctRead_SPD(smbaddr, SPD_DIMMTYPE) & 0x7; + byte = pDCTstat->spd_data.spd_bytes[i][SPD_DIMMTYPE] & 0x7; if (byte == JED_RDIMM || byte == JED_MiniRDIMM) { RegDIMMPresent |= 1 << i; pDCTstat->DimmRegistered[i] = 1; @@ -3739,13 +3748,13 @@ static u8 DIMMPresence_D(struct MCTStatStruc *pMCTstat, pDCTstat->DimmLoadReduced[i] = 0; } /* Check ECC capable */ - byte = mctRead_SPD(smbaddr, SPD_BusWidth); + byte = pDCTstat->spd_data.spd_bytes[i][SPD_BusWidth]; if (byte & JED_ECC) { /* DIMM is ECC capable */ pDCTstat->DimmECCPresent |= 1 << i; } /* Check if x4 device */ - devwidth = mctRead_SPD(smbaddr, SPD_Organization) & 0x7; /* 0:x4,1:x8,2:x16 */ + devwidth = pDCTstat->spd_data.spd_bytes[i][SPD_Organization] & 0x7; /* 0:x4,1:x8,2:x16 */ if (devwidth == 0) { /* DIMM is made with x4 or x16 drams */ pDCTstat->Dimmx4Present |= 1 << i; @@ -3755,7 +3764,7 @@ static u8 DIMMPresence_D(struct MCTStatStruc *pMCTstat, pDCTstat->Dimmx16Present |= 1 << i; } - byte = (mctRead_SPD(smbaddr, SPD_Organization) >> 3); + byte = (pDCTstat->spd_data.spd_bytes[i][SPD_Organization] >> 3); byte &= 7; if (byte == 3) { /* 4ranks */ /* if any DIMMs are QR, we have to make two passes through DIMMs*/ @@ -3790,7 +3799,7 @@ static u8 DIMMPresence_D(struct MCTStatStruc *pMCTstat, /* check address mirror support for unbuffered dimm */ /* check number of registers on a dimm for registered dimm */ - byte = mctRead_SPD(smbaddr, SPD_AddressMirror); + byte = pDCTstat->spd_data.spd_bytes[i][SPD_AddressMirror]; if (RegDIMMPresent & (1 << i)) { if ((byte & 3) > 1) pDCTstat->MirrPresU_NumRegR |= 1 << i; @@ -3799,20 +3808,20 @@ static u8 DIMMPresence_D(struct MCTStatStruc *pMCTstat, pDCTstat->MirrPresU_NumRegR |= 1 << i; } /* Get byte62: Reference Raw Card information. We dont need it now. */ - /* byte = mctRead_SPD(smbaddr, SPD_RefRawCard); */ + /* byte = pDCTstat->spd_data.spd_bytes[i][SPD_RefRawCard]; */ /* Get Byte65/66 for register manufacture ID code */ - if ((0x97 == mctRead_SPD(smbaddr, SPD_RegManufactureID_H)) && - (0x80 == mctRead_SPD(smbaddr, SPD_RegManufactureID_L))) { - if (0x16 == mctRead_SPD(smbaddr, SPD_RegManRevID)) + if ((0x97 == pDCTstat->spd_data.spd_bytes[i][SPD_RegManufactureID_H]) && + (0x80 == pDCTstat->spd_data.spd_bytes[i][SPD_RegManufactureID_L])) { + if (0x16 == pDCTstat->spd_data.spd_bytes[i][SPD_RegManRevID]) pDCTstat->RegMan2Present |= 1 << i; else pDCTstat->RegMan1Present |= 1 << i; } /* Get Control word values for RC3. We dont need it. */ - byte = mctRead_SPD(smbaddr, 70); + byte = pDCTstat->spd_data.spd_bytes[i][70]; pDCTstat->CtrlWrd3 |= (byte >> 4) << (i << 2); /* C3 = SPD byte 70 [7:4] */ /* Get Control word values for RC4, and RC5 */ - byte = mctRead_SPD(smbaddr, 71); + byte = pDCTstat->spd_data.spd_bytes[i][71]; pDCTstat->CtrlWrd4 |= (byte & 0xFF) << (i << 2); /* RC4 = SPD byte 71 [3:0] */ pDCTstat->CtrlWrd5 |= (byte >> 4) << (i << 2); /* RC5 = SPD byte 71 [7:4] */ } @@ -6190,14 +6199,14 @@ static void AfterDramInit_D(struct DCTStatStruc *pDCTstat, u8 dct) { * 1010 001111 16 3 10 4GB * 1011 010111 16 3 11 8GB */ -u8 crcCheck(u8 smbaddr) +uint8_t crcCheck(struct DCTStatStruc *pDCTstat, uint8_t dimm) { u8 byte_use; u8 Index; u16 CRC; u8 byte, i; - byte_use = mctRead_SPD(smbaddr, SPD_ByteUse); + byte_use = pDCTstat->spd_data.spd_bytes[dimm][SPD_ByteUse]; if (byte_use & 0x80) byte_use = 117; else @@ -6205,7 +6214,7 @@ u8 crcCheck(u8 smbaddr) CRC = 0; for (Index = 0; Index < byte_use; Index ++) { - byte = mctRead_SPD(smbaddr, Index); + byte = pDCTstat->spd_data.spd_bytes[dimm][Index]; CRC ^= byte << 8; for (i=0; i<8; i++) { if (CRC & 0x8000) { @@ -6215,5 +6224,5 @@ u8 crcCheck(u8 smbaddr) CRC <<= 1; } } - return CRC == (mctRead_SPD(smbaddr, SPD_byte_127) << 8 | mctRead_SPD(smbaddr, SPD_byte_126)); + return CRC == (pDCTstat->spd_data.spd_bytes[dimm][SPD_byte_127] << 8 | pDCTstat->spd_data.spd_bytes[dimm][SPD_byte_126]); } diff --git a/src/northbridge/amd/amdmct/mct_ddr3/mct_d.h b/src/northbridge/amd/amdmct/mct_ddr3/mct_d.h index 3aeb7eca2e..e6b427ed7b 100644 --- a/src/northbridge/amd/amdmct/mct_ddr3/mct_d.h +++ b/src/northbridge/amd/amdmct/mct_ddr3/mct_d.h @@ -318,6 +318,11 @@ struct MCTStatStruc { ===============================================================================*/ #include "mwlc_d.h" /* I have to */ +struct amd_spd_node_data { + uint8_t spd_bytes[MAX_DIMMS_SUPPORTED][256]; /* [DIMM][byte] */ + uint8_t spd_address[MAX_DIMMS_SUPPORTED]; /* [DIMM] */ +} __attribute__((packed)); + struct DCTStatStruc { /* A per Node structure*/ /* DCTStatStruct_F - start */ u8 Node_ID; /* Node ID of current controller */ @@ -611,6 +616,8 @@ struct DCTStatStruc { /* A per Node structure*/ char DimmPartNumber[MAX_DIMMS_SUPPORTED][SPD_PARTN_LENGTH+1]; uint16_t DimmRevisionNumber[MAX_DIMMS_SUPPORTED]; uint32_t DimmSerialNumber[MAX_DIMMS_SUPPORTED]; + + struct amd_spd_node_data spd_data; } __attribute__((packed)); struct amd_s3_persistent_mct_channel_data { |