/* * This file is part of the coreboot project. * * Copyright (C) 2007 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; either version 2 of the License, or * (at your option) any later version. * * 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 #include #include #include #include #include #include #include #include "northbridge.h" #include #include #include struct gliutable { unsigned long desc_name; unsigned short desc_type; unsigned long hi, lo; }; struct gliutable gliu0table[] = { {.desc_name = MSR_GLIU0_BASE1,.desc_type = BM,.hi = MSR_MC + 0x0,.lo = 0x0FFF80}, /* 0-7FFFF to MC */ {.desc_name = MSR_GLIU0_BASE2,.desc_type = BM,.hi = MSR_MC + 0x0,.lo = (0x80 << 20) + 0x0FFFE0}, /* 80000-9ffff to Mc */ {.desc_name = MSR_GLIU0_SHADOW,.desc_type = SC_SHADOW,.hi = MSR_MC + 0x0,.lo = 0x03}, /* C0000-Fffff split to MC and PCI (sub decode) A0000-Bffff handled by SoftVideo */ {.desc_name = MSR_GLIU0_SYSMEM,.desc_type = R_SYSMEM,.hi = MSR_MC,.lo = 0x0}, /* Catch and fix dynamicly. */ {.desc_name = MSR_GLIU0_SMM,.desc_type = BMO_SMM,.hi = MSR_MC,.lo = 0x0}, /* Catch and fix dynamicly. */ {.desc_name = GLIU0_GLD_MSR_COH,.desc_type = OTHER,.hi = 0x0,.lo = GL0_CPU}, {.desc_name = GL_END,.desc_type = GL_END,.hi = 0x0,.lo = 0x0}, }; struct gliutable gliu1table[] = { {.desc_name = MSR_GLIU1_BASE1,.desc_type = BM,.hi = MSR_GL0 + 0x0,.lo = 0x0FFF80}, /* 0-7FFFF to MC */ {.desc_name = MSR_GLIU1_BASE2,.desc_type = BM,.hi = MSR_GL0 + 0x0,.lo = (0x80 << 20) + 0x0FFFE0}, /* 80000-9ffff to Mc */ {.desc_name = MSR_GLIU1_SHADOW,.desc_type = SC_SHADOW,.hi = MSR_GL0 + 0x0,.lo = 0x03}, /* C0000-Fffff split to MC and PCI (sub decode) */ {.desc_name = MSR_GLIU1_SYSMEM,.desc_type = R_SYSMEM,.hi = MSR_GL0,.lo = 0x0}, /* Catch and fix dynamicly. */ {.desc_name = MSR_GLIU1_SMM,.desc_type = BM_SMM,.hi = MSR_GL0,.lo = 0x0}, /* Catch and fix dynamicly. */ {.desc_name = GLIU1_GLD_MSR_COH,.desc_type = OTHER,.hi = 0x0,.lo = GL1_GLIU0}, {.desc_name = MSR_GLIU1_FPU_TRAP,.desc_type = SCIO,.hi = (GL1_GLCP << 29) + 0x0,.lo = 0x033000F0}, /* FooGlue FPU 0xF0 */ {.desc_name = GL_END,.desc_type = GL_END,.hi = 0x0,.lo = 0x0}, }; struct gliutable *gliutables[] = { gliu0table, gliu1table, 0 }; struct msrinit { unsigned long msrnum; msr_t msr; }; struct msrinit ClockGatingDefault[] = { {GLIU0_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0005}}, {MC_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0001}}, {VG_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0015}}, {GP_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0001}}, {DF_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0555}}, {GLIU1_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0005}}, {GLCP_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0014}}, {GLPCI_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0015}}, {VIP_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0005}}, {AES_GLD_MSR_PM, {.hi = 0x00,.lo = 0x0015}}, {CPU_BC_PMODE_MSR, {.hi = 0x00,.lo = 0x70303}}, {0xffffffff, {0xffffffff, 0xffffffff}}, }; /* */ /* SET GeodeLink PRIORITY*/ /* */ struct msrinit GeodeLinkPriorityTable[] = { {CPU_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0220}}, {DF_GLD_MSR_MASTER_CONF, {.hi = 0x00,.lo = 0x0000}}, {VG_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0720}}, {GP_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0010}}, {GLPCI_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0017}}, {GLCP_GLD_MSR_CONF, {.hi = 0x00,.lo = 0x0001}}, {VIP_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0622}}, {AES_GLD_MSR_CONFIG, {.hi = 0x00,.lo = 0x0013}}, {0x0FFFFFFFF, {0x0FFFFFFFF, 0x0FFFFFFFF}}, /* END */ }; static void writeglmsr(struct gliutable *gl) { msr_t msr; msr.lo = gl->lo; msr.hi = gl->hi; wrmsr(gl->desc_name, msr); // MSR - see table above printk(BIOS_DEBUG, "%s: MSR 0x%08lx, val 0x%08x:0x%08x\n", __func__, gl->desc_name, msr.hi, msr.lo); // GX3 } static void ShadowInit(struct gliutable *gl) { msr_t msr; msr = rdmsr(gl->desc_name); if (msr.lo == 0) { writeglmsr(gl); } } static void SysmemInit(struct gliutable *gl) { msr_t msr; int sizembytes, sizebytes; /* * Figure out how much RAM is in the machine and alocate all to the * system. We will adjust for SMM now and Frame Buffer later. */ sizembytes = sizeram(); printk(BIOS_DEBUG, "%s: enable for %dMBytes\n", __func__, sizembytes); sizebytes = sizembytes << 20; sizebytes -= ((SMM_SIZE * 1024) + 1); printk(BIOS_DEBUG, "usable RAM: %d bytes\n", sizebytes); /* 20 bit address The bottom 12 bits go into bits 20-31 in msr.lo The top 8 bits go into 0-7 of msr.hi. */ sizebytes--; msr.hi = (gl->hi & 0xFFFFFF00) | (sizebytes >> 24); sizebytes <<= 8; /* move bits 23:12 in bits 31:20. */ sizebytes &= 0xfff00000; sizebytes |= 0x100; /* start at 1MB */ msr.lo = sizebytes; wrmsr(gl->desc_name, msr); // MSR - see table above printk(BIOS_DEBUG, "%s: MSR 0x%08lx, val 0x%08x:0x%08x\n", __func__, gl->desc_name, msr.hi, msr.lo); } static void SMMGL0Init(struct gliutable *gl) { msr_t msr; int sizebytes = sizeram() << 20; long offset; sizebytes -= (SMM_SIZE * 1024); printk(BIOS_DEBUG, "%s: %d bytes\n", __func__, sizebytes); /* calculate the Two's complement offset */ offset = sizebytes - SMM_OFFSET; offset = (offset >> 12) & 0x000fffff; printk(BIOS_DEBUG, "%s: offset is 0x%08x\n", __func__, SMM_OFFSET); msr.hi = offset << 8 | gl->hi; msr.hi |= SMM_OFFSET >> 24; msr.lo = SMM_OFFSET << 8; msr.lo |= ((~(SMM_SIZE * 1024) + 1) >> 12) & 0xfffff; wrmsr(gl->desc_name, msr); // MSR - See table above printk(BIOS_DEBUG, "%s: MSR 0x%08lx, val 0x%08x:0x%08x\n", __func__, gl->desc_name, msr.hi, msr.lo); } static void SMMGL1Init(struct gliutable *gl) { msr_t msr; printk(BIOS_DEBUG, "%s:\n", __func__); msr.hi = gl->hi; /* I don't think this is needed */ msr.hi &= 0xffffff00; msr.hi |= (SMM_OFFSET >> 24); msr.lo = (SMM_OFFSET << 8) & 0xFFF00000; msr.lo |= ((~(SMM_SIZE * 1024) + 1) >> 12) & 0xfffff; wrmsr(gl->desc_name, msr); // MSR - See table above printk(BIOS_DEBUG, "%s: MSR 0x%08lx, val 0x%08x:0x%08x\n", __func__, gl->desc_name, msr.hi, msr.lo); } static void GLIUInit(struct gliutable *gl) { while (gl->desc_type != GL_END) { switch (gl->desc_type) { default: /* For Unknown types: Write then read MSR */ writeglmsr(gl); case SC_SHADOW: /* Check for a Shadow entry */ ShadowInit(gl); break; case R_SYSMEM: /* check for a SYSMEM entry */ SysmemInit(gl); break; case BMO_SMM: /* check for a SMM entry */ SMMGL0Init(gl); break; case BM_SMM: /* check for a SMM entry */ SMMGL1Init(gl); break; } gl++; } } /* ************************************************************************** */ /* * */ /* * GLPCIInit */ /* * */ /* * Set up GLPCI settings for reads/write into memory */ /* * R0: 0-640KB, */ /* * R1: 1MB - Top of System Memory */ /* * R2: SMM Memory */ /* * R3: Framebuffer? - not set up yet */ /* * R4: ?? */ /* * */ /* * Entry: */ /* * Exit: */ /* * Modified: */ /* * */ /* ************************************************************************** */ static void GLPCIInit(void) { struct gliutable *gl = 0; int i; msr_t msr; int msrnum, enable_preempt, enable_cpu_override; int nic_grants_control, enable_bus_parking; /* */ /* R0 - GLPCI settings for Conventional Memory space. */ /* */ msr.hi = (0x09F000 >> 12) << GLPCI_RC_UPPER_TOP_SHIFT; /* 640 */ msr.lo = 0; /* 0 */ msr.lo |= GLPCI_RC_LOWER_EN_SET + GLPCI_RC_LOWER_PF_SET + GLPCI_RC_LOWER_WC_SET; msrnum = GLPCI_RC0; wrmsr(msrnum, msr); /* */ /* R1 - GLPCI settings for SysMem space. */ /* */ /* Get systop from GLIU0 SYSTOP Descriptor */ for (i = 0; gliu0table[i].desc_name != GL_END; i++) { if (gliu0table[i].desc_type == R_SYSMEM) { gl = &gliu0table[i]; break; } } if (gl) { unsigned long pah, pal; msrnum = gl->desc_name; msr = rdmsr(msrnum); /* example R_SYSMEM value: 20:00:00:0f:fb:f0:01:00 * translates to a base of 0x00100000 and top of 0xffbf0000 * base of 1M and top of around 256M */ /* we have to create a page-aligned (4KB page) address for base and top */ /* So we need a high page aligned addresss (pah) and low page aligned address (pal) * pah is from msr.hi << 12 | msr.low >> 20. pal is msr.lo << 12 */ pah = ((msr.hi & 0xFF) << 12) | ((msr.lo >> 20) & 0xFFF); /* we have the page address. Now make it a page-aligned address */ pah <<= 12; pal = msr.lo << 12; msr.hi = pah; msr.lo = pal; msr.lo |= GLPCI_RC_LOWER_EN_SET | GLPCI_RC_LOWER_PF_SET | GLPCI_RC_LOWER_WC_SET; printk(BIOS_DEBUG, "GLPCI R1: system msr.lo 0x%08x msr.hi 0x%08x\n", msr.lo, msr.hi); msrnum = GLPCI_RC1; wrmsr(msrnum, msr); } /* */ /* R2 - GLPCI settings for SMM space */ /* */ msr.hi = ((SMM_OFFSET + (SMM_SIZE * 1024 - 1)) >> 12) << GLPCI_RC_UPPER_TOP_SHIFT; msr.lo = (SMM_OFFSET >> 12) << GLPCI_RC_LOWER_BASE_SHIFT; msr.lo |= GLPCI_RC_LOWER_EN_SET | GLPCI_RC_LOWER_PF_SET; printk(BIOS_DEBUG, "GLPCI R2: system msr.lo 0x%08x msr.hi 0x%08x\n", msr.lo, msr.hi); msrnum = GLPCI_RC2; wrmsr(msrnum, msr); /* this is done elsewhere already, but it does no harm to do it more than once */ /* write serialize memory hole to PCI. Need to to unWS when something is shadowed regardless of cachablility. */ msr.lo = 0x021212121; /* cache disabled and write serialized */ msr.hi = 0x021212121; /* cache disabled and write serialized */ msrnum = CPU_RCONF_A0_BF; wrmsr(msrnum, msr); msrnum = CPU_RCONF_C0_DF; wrmsr(msrnum, msr); msrnum = CPU_RCONF_E0_FF; wrmsr(msrnum, msr); /* Set Non-Cacheable Read Only for NorthBound Transactions to Memory. The Enable bit is handled in the Shadow setup. */ msrnum = GLPCI_A0_BF; msr.hi = 0x35353535; msr.lo = 0x35353535; wrmsr(msrnum, msr); msrnum = GLPCI_C0_DF; msr.hi = 0x35353535; msr.lo = 0x35353535; wrmsr(msrnum, msr); msrnum = GLPCI_E0_FF; msr.hi = 0x35353535; msr.lo = 0x35353535; wrmsr(msrnum, msr); /* Set WSREQ */ msrnum = CPU_DM_CONFIG0; msr = rdmsr(msrnum); msr.hi &= ~(7 << DM_CONFIG0_UPPER_WSREQ_SHIFT); msr.hi |= 2 << DM_CONFIG0_UPPER_WSREQ_SHIFT; /* reduce to 1 for safe mode */ wrmsr(msrnum, msr); /* we are ignoring the 5530 case for now, and perhaps forever. */ /* */ /* 553x NB Init */ /* */ /* Arbiter setup */ enable_preempt = GLPCI_ARB_LOWER_PRE0_SET | GLPCI_ARB_LOWER_PRE1_SET | GLPCI_ARB_LOWER_PRE2_SET | GLPCI_ARB_LOWER_CPRE_SET; enable_cpu_override = GLPCI_ARB_LOWER_COV_SET; enable_bus_parking = GLPCI_ARB_LOWER_PARK_SET; nic_grants_control = (0x4 << GLPCI_ARB_UPPER_R2_SHIFT) | (0x3 << GLPCI_ARB_UPPER_H2_SHIFT); msrnum = GLPCI_ARB; msr = rdmsr(msrnum); msr.hi |= nic_grants_control; msr.lo |= enable_cpu_override | enable_preempt | enable_bus_parking; wrmsr(msrnum, msr); msrnum = GLPCI_CTRL; msr = rdmsr(msrnum); msr.lo |= GLPCI_CTRL_LOWER_ME_SET | GLPCI_CTRL_LOWER_OWC_SET | GLPCI_CTRL_LOWER_PCD_SET; /* (Out will be disabled in CPUBUG649 for < 2.0 parts .) */ msr.lo |= GLPCI_CTRL_LOWER_LDE_SET; msr.lo &= ~(0x03 << GLPCI_CTRL_LOWER_IRFC_SHIFT); msr.lo |= 0x02 << GLPCI_CTRL_LOWER_IRFC_SHIFT; msr.lo &= ~(0x07 << GLPCI_CTRL_LOWER_IRFT_SHIFT); msr.lo |= 0x06 << GLPCI_CTRL_LOWER_IRFT_SHIFT; msr.hi &= ~(0x0f << GLPCI_CTRL_UPPER_FTH_SHIFT); msr.hi |= 0x0F << GLPCI_CTRL_UPPER_FTH_SHIFT; msr.hi &= ~(0x0f << GLPCI_CTRL_UPPER_RTH_SHIFT); msr.hi |= 0x0F << GLPCI_CTRL_UPPER_RTH_SHIFT; msr.hi &= ~(0x0f << GLPCI_CTRL_UPPER_SBRTH_SHIFT); msr.hi |= 0x0F << GLPCI_CTRL_UPPER_SBRTH_SHIFT; msr.hi &= ~(0x03 << GLPCI_CTRL_UPPER_WTO_SHIFT); msr.hi |= 0x06 << GLPCI_CTRL_UPPER_WTO_SHIFT; msr.hi &= ~(0x03 << GLPCI_CTRL_UPPER_ILTO_SHIFT); msr.hi |= 0x00 << GLPCI_CTRL_UPPER_ILTO_SHIFT; wrmsr(msrnum, msr); /* Set GLPCI Latency Timer */ msrnum = GLPCI_CTRL; msr = rdmsr(msrnum); msr.hi |= 0x1F << GLPCI_CTRL_UPPER_LAT_SHIFT; /* Change once 1.x is gone */ wrmsr(msrnum, msr); /* GLPCI_SPARE */ msrnum = GLPCI_SPARE; msr = rdmsr(msrnum); msr.lo &= ~0x7; msr.lo |= GLPCI_SPARE_LOWER_AILTO_SET | GLPCI_SPARE_LOWER_PPD_SET | GLPCI_SPARE_LOWER_PPC_SET | GLPCI_SPARE_LOWER_MPC_SET | GLPCI_SPARE_LOWER_NSE_SET | GLPCI_SPARE_LOWER_SUPO_SET; wrmsr(msrnum, msr); } /* ************************************************************************** */ /* * */ /* * ClockGatingInit */ /* * */ /* * Enable Clock Gating. */ /* * */ /* * Entry: */ /* * Exit: */ /* * Modified: */ /* * */ /* ************************************************************************** */ static void ClockGatingInit(void) { msr_t msr; struct msrinit *gating = ClockGatingDefault; int i; for (i = 0; gating->msrnum != 0xffffffff; i++) { msr = rdmsr(gating->msrnum); msr.hi |= gating->msr.hi; msr.lo |= gating->msr.lo; /* printk(BIOS_DEBUG, "%s: MSR 0x%08x will be set to 0x%08x:0x%08x\n", __func__, gating->msrnum, msr.hi, msr.lo); */// GX3 wrmsr(gating->msrnum, msr); // MSR - See the table above gating += 1; } } static void GeodeLinkPriority(void) { msr_t msr; struct msrinit *prio = GeodeLinkPriorityTable; int i; for (i = 0; prio->msrnum != 0xffffffff; i++) { msr = rdmsr(prio->msrnum); msr.hi |= prio->msr.hi; msr.lo &= ~0xfff; msr.lo |= prio->msr.lo; /* printk(BIOS_DEBUG, "%s: MSR 0x%08x will be set to 0x%08x:0x%08x\n", __func__, prio->msrnum, msr.hi, msr.lo); */// GX3 wrmsr(prio->msrnum, msr); // MSR - See the table above prio += 1; } } /* * Get the GLIU0 shadow register settings * If the setShadow function is used then all shadow descriptors * will stay sync'ed. */ static uint64_t getShadow(void) { msr_t msr; msr = rdmsr(MSR_GLIU0_SHADOW); return (((uint64_t) msr.hi) << 32) | msr.lo; } /* * Set the cache RConf registers for the memory hole. * Keeps all cache shadow descriptors sync'ed. * This is part of the PCI lockup solution * Entry: EDX:EAX is the shadow settings */ static void setShadowRCONF(uint32_t shadowHi, uint32_t shadowLo) { // ok this is whacky bit translation time. int bit; uint8_t shadowByte; msr_t msr = { 0, 0 }; shadowByte = (uint8_t) (shadowLo >> 16); // load up D000 settings in edx. for (bit = 8; (bit > 4); bit--) { msr.hi <<= 8; msr.hi |= 1; // cache disable PCI/Shadow memory if (shadowByte && (1 << bit)) msr.hi |= 0x20; // write serialize PCI memory } // load up C000 settings in eax. for (; bit; bit--) { msr.lo <<= 8; msr.lo |= 1; // cache disable PCI/Shadow memory if (shadowByte && (1 << bit)) msr.lo |= 0x20; // write serialize PCI memory } wrmsr(CPU_RCONF_C0_DF, msr); shadowByte = (uint8_t) (shadowLo >> 24); // load up F000 settings in edx. for (bit = 8; (bit > 4); bit--) { msr.hi <<= 8; msr.hi |= 1; // cache disable PCI/Shadow memory if (shadowByte && (1 << bit)) msr.hi |= 0x20; // write serialize PCI memory } // load up E000 settings in eax. for (; bit; bit--) { msr.lo <<= 8; msr.lo |= 1; // cache disable PCI/Shadow memory if (shadowByte && (1 << bit)) msr.lo |= 0x20; // write serialize PCI memory } wrmsr(CPU_RCONF_E0_FF, msr); } /* * Set the GLPCI registers for the memory hole. * Keeps all cache shadow descriptors sync'ed. * Entry: EDX:EAX is the shadow settings */ static void setShadowGLPCI(uint32_t shadowHi, uint32_t shadowLo) { msr_t msr; // Set the Enable Register. msr = rdmsr(GLPCI_REN); msr.lo &= 0xFFFF00FF; msr.lo |= ((shadowLo & 0xFFFF0000) >> 8); wrmsr(GLPCI_REN, msr); } /* * Set the GLIU SC register settings. Scans descriptor tables for SC_SHADOW. * Keeps all shadow descriptors sync'ed. * Entry: EDX:EAX is the shadow settings */ static void setShadow(uint64_t shadowSettings) { int i; msr_t msr; struct gliutable *pTable; uint32_t shadowLo, shadowHi; shadowLo = (uint32_t) shadowSettings; shadowHi = (uint32_t) (shadowSettings >> 32); setShadowRCONF(shadowHi, shadowLo); setShadowGLPCI(shadowHi, shadowLo); for (i = 0; gliutables[i]; i++) { for (pTable = gliutables[i]; pTable->desc_type != GL_END; pTable++) { if (pTable->desc_type == SC_SHADOW) { msr = rdmsr(pTable->desc_name); msr.lo = (uint32_t) shadowSettings; msr.hi &= 0xFFFF0000; // maintain PDID in upper EDX msr.hi |= ((uint32_t) (shadowSettings >> 32)) & 0x0000FFFF; wrmsr(pTable->desc_name, msr); // MSR - See the table above } } } } static void rom_shadow_settings(void) { uint64_t shadowSettings = getShadow(); shadowSettings &= (uint64_t) 0xFFFF00000000FFFFULL; // Disable read & writes shadowSettings |= (uint64_t) 0x00000000F0000000ULL; // Enable reads for F0000-FFFFF shadowSettings |= (uint64_t) 0x0000FFFFFFFF0000ULL; // Enable rw for C0000-CFFFF setShadow(shadowSettings); } /*************************************************************************** * * L1Init * Set up RCONF_DEFAULT and any other RCONF registers needed * * DEVRC_RCONF_DEFAULT: * ROMRC(63:56) = 04h ; write protect ROMBASE * ROMBASE(36:55) = 0FFFC0h ; Top of PCI/bottom of rom chipselect area * DEVRC(35:28) = 39h ; cache disabled in PCI memory + WS bit on + Write Combine + write burst. * SYSTOP(27:8) = top of system memory * SYSRC(7:0) = 00h ; writeback, can set to 08h to make writethrough * ***************************************************************************/ #define SYSMEM_RCONF_WRITETHROUGH 8 #define DEVRC_RCONF_DEFAULT 0x21 #define ROMBASE_RCONF_DEFAULT 0xFFFC0000 #define ROMRC_RCONF_DEFAULT 0x25 static void enable_L1_cache(void) { struct gliutable *gl = 0; int i; msr_t msr; uint8_t SysMemCacheProp; /* Locate SYSMEM entry in GLIU0table */ for (i = 0; gliu0table[i].desc_name != GL_END; i++) { if (gliu0table[i].desc_type == R_SYSMEM) { gl = &gliu0table[i]; break; } } if (gl == 0) { post_code(0xCE); /* POST_RCONFInitError */ while (1) ; } // sysdescfound: msr = rdmsr(gl->desc_name); /* 20 bit address - The bottom 12 bits go into bits 20-31 in eax, the * top 8 bits go into 0-7 of edx. */ msr.lo = (msr.lo & 0xFFFFFF00) | (msr.hi & 0xFF); msr.lo = ((msr.lo << 12) | (msr.lo >> 20)) & 0x000FFFFF; msr.lo <<= RCONF_DEFAULT_LOWER_SYSTOP_SHIFT; // 8 // Set Default SYSMEM region properties msr.lo &= ~SYSMEM_RCONF_WRITETHROUGH; // NOT writethrough == writeback 8 (or ~8) // Set PCI space cache properties msr.hi = (DEVRC_RCONF_DEFAULT >> 4); // setting is split betwwen hi and lo... msr.lo |= (DEVRC_RCONF_DEFAULT << 28); // Set the ROMBASE. This is usually FFFC0000h msr.hi |= (ROMBASE_RCONF_DEFAULT >> 12) << RCONF_DEFAULT_UPPER_ROMBASE_SHIFT; // Set ROMBASE cache properties. msr.hi |= ((ROMRC_RCONF_DEFAULT >> 8) | (ROMRC_RCONF_DEFAULT << 24)); // now program RCONF_DEFAULT wrmsr(CPU_RCONF_DEFAULT, msr); printk(BIOS_DEBUG, "CPU_RCONF_DEFAULT (1808): 0x%08X:0x%08X\n", msr.hi, msr.lo); // RCONF_BYPASS: Cache tablewalk properties and SMM/DMM header access properties. // Set to match system memory cache properties. msr = rdmsr(CPU_RCONF_DEFAULT); SysMemCacheProp = (uint8_t) (msr.lo & 0xFF); msr = rdmsr(CPU_RCONF_BYPASS); msr.lo = (msr.lo & 0xFFFF0000) | (SysMemCacheProp << 8) | SysMemCacheProp; wrmsr(CPU_RCONF_BYPASS, msr); printk(BIOS_DEBUG, "CPU_RCONF_BYPASS (180A): 0x%08x : 0x%08x\n", msr.hi, msr.lo); } static void enable_L2_cache(void) { msr_t msr; /* Instruction Memory Configuration register * set EBE bit, required when L2 cache is enabled */ msr = rdmsr(CPU_IM_CONFIG); msr.lo |= 0x400; wrmsr(CPU_IM_CONFIG, msr); /* Data Memory Subsystem Configuration register * set EVCTONRPL bit, required when L2 cache is enabled in victim mode */ msr = rdmsr(CPU_DM_CONFIG0); msr.lo |= 0x4000; wrmsr(CPU_DM_CONFIG0, msr); /* invalidate L2 cache */ msr.hi = 0x00; msr.lo = 0x10; wrmsr(CPU_BC_L2_CONF, msr); /* Enable L2 cache */ msr.hi = 0x00; msr.lo = 0x0f; wrmsr(CPU_BC_L2_CONF, msr); printk(BIOS_DEBUG, "L2 cache enabled\n"); } static void setup_lx_cache(void) { msr_t msr; enable_L1_cache(); enable_L2_cache(); // Make sure all INVD instructions are treated as WBINVD. We do this // because we've found some programs which require this behavior. msr = rdmsr(CPU_DM_CONFIG0); msr.lo |= DM_CONFIG0_LOWER_WBINVD_SET; wrmsr(CPU_DM_CONFIG0, msr); x86_enable_cache(); wbinvd(); } uint32_t get_systop(void) { struct gliutable *gl = 0; uint32_t systop; msr_t msr; int i; for (i = 0; gliu0table[i].desc_name != GL_END; i++) { if (gliu0table[i].desc_type == R_SYSMEM) { gl = &gliu0table[i]; break; } } if (gl) { msr = rdmsr(gl->desc_name); systop = ((msr.hi & 0xFF) << 24) | ((msr.lo & 0xFFF00000) >> 8); systop += 0x1000; /* 4K */ } else { systop = ((sizeram() - CONFIG_VIDEO_MB) * 1024) - SMM_SIZE - 1024; } return systop; } /****************************************************************************/ /* * northbridge_init_early */ /* **/ /* * Core Logic initialization: Host bridge*/ /* **/ /* ***************************************************************************/ void northbridge_init_early(void) { int i; printk(BIOS_DEBUG, "Enter %s\n", __func__); for (i = 0; gliutables[i]; i++) GLIUInit(gliutables[i]); /* Now that the descriptor to memory is set up. */ /* The memory controller needs one read to synch its lines before it can be used. */ i = *(int *)0; GeodeLinkPriority(); setup_lx_cache(); rom_shadow_settings(); GLPCIInit(); ClockGatingInit(); __asm__ __volatile__("FINIT\n"); printk(BIOS_DEBUG, "Exit %s\n", __func__); }