/* * This file is part of the coreboot project. * * Copyright (C) 2000,2007 Ronald G. Minnich * Copyright (C) 2005 Eswar Nallusamy, LANL * Copyright (C) 2005 Tyan * (Written by Yinghai Lu for Tyan) * Copyright (C) 2007 coresystems GmbH * (Written by Stefan Reinauer for coresystems GmbH) * Copyright (C) 2007 Carl-Daniel Hailfinger * * 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 */ /* We will use 4K bytes only */ /* disable HyperThreading is done by eswar*/ /* other's is the same as AMD except remove amd specific msr */ #define CacheSize DCACHE_RAM_SIZE #define CacheBase (0xd0000 - CacheSize) #include /* Save the BIST result */ movl %eax, %ebp CacheAsRam: /* hope we can skip the double set for normal part */ #if USE_FALLBACK_IMAGE == 1 // Check whether the processor has HT capability movl $01, %eax cpuid btl $28, %edx jnc NotHtProcessor bswapl %ebx cmpb $01, %bh jbe NotHtProcessor // It is a HT processor; Send SIPI to the other logical processor // within this processor so that the CAR related common system registers // are programmed accordingly // Use some register that is common to both logical processors // as semaphore. Refer Appendix B, Vol.3 xorl %eax, %eax xorl %edx, %edx movl $0x250, %ecx wrmsr // Figure out the logical AP's APIC ID; the following logic will work // only for processors with 2 threads // Refer to Vol 3. Table 7-1 for details about this logic movl $0xFEE00020, %esi movl (%esi), %ebx andl $0xFF000000, %ebx bswapl %ebx btl $0, %ebx jnc LogicalAP0 andb $0xFE, %bl jmp Send_SIPI LogicalAP0: orb $0x01, %bl Send_SIPI: bswapl %ebx // ebx - logical AP's APIC ID // Fill up the IPI command registers in the Local APIC mapped to default address // and issue SIPI to the other logical processor within this processor die. Retry_SIPI: movl %ebx, %eax movl $0xFEE00310, %esi movl %eax, (%esi) // SIPI vector - F900:0000 movl $0x000006F9, %eax movl $0xFEE00300, %esi movl %eax, (%esi) movl $0x30, %ecx SIPI_Delay: pause decl %ecx jnz SIPI_Delay movl (%esi), %eax andl $0x00001000, %eax jnz Retry_SIPI // Wait for the Logical AP to complete initialization LogicalAP_SIPINotdone: movl $0x250, %ecx rdmsr orl %eax, %eax jz LogicalAP_SIPINotdone NotHtProcessor: #if 1 /* Set the default memory type and enable fixed and variable MTRRs */ movl $MTRRdefType_MSR, %ecx xorl %edx, %edx /* Enable Variable and Fixed MTRRs */ movl $0x00000c00, %eax wrmsr #endif /*Clear all MTRRs */ xorl %edx, %edx movl $fixed_mtrr_msr, %esi clear_fixed_var_mtrr: lodsl (%esi), %eax testl %eax, %eax jz clear_fixed_var_mtrr_out movl %eax, %ecx xorl %eax, %eax wrmsr jmp clear_fixed_var_mtrr clear_fixed_var_mtrr_out: /* 0x06 is the WB IO type for a given 4k segment. * segs is the number of 4k segments in the area of the particular * register we want to use for CAR. * reg is the register where the IO type should be stored. */ .macro extractmask segs, reg .if \segs <= 0 /* The xorl here is superfluous because at the point of first execution * of this macro, %eax and %edx are cleared. Later invocations of this * macro will have a monotonically increasing segs parameter. */ xorl \reg, \reg .elseif \segs == 1 movl $0x06000000, \reg .elseif \segs == 2 movl $0x06060000, \reg .elseif \segs == 3 movl $0x06060600, \reg .elseif \segs >= 4 movl $0x06060606, \reg .endif .endm /* size is the cache size in bytes we want to use for CAR. * windowoffset is the 32k-aligned window into CAR size */ .macro simplemask carsize, windowoffset .set gas_bug_workaround,(((\carsize - \windowoffset) / 0x1000) - 4) extractmask gas_bug_workaround, %eax .set gas_bug_workaround,(((\carsize - \windowoffset) / 0x1000)) extractmask gas_bug_workaround, %edx /* Without the gas bug workaround, the entire macro would consist only of the * two lines below. extractmask (((\carsize - \windowoffset) / 0x1000) - 4), %eax extractmask (((\carsize - \windowoffset) / 0x1000)), %edx */ .endm #if CacheSize > 0x10000 #error Invalid CAR size, must be at most 64k. #endif #if CacheSize < 0x1000 #error Invalid CAR size, must be at least 4k. This is a processor limitation. #endif #if (CacheSize & (0x1000 - 1)) #error Invalid CAR size, is not a multiple of 4k. This is a processor limitation. #endif #if CacheSize > 0x8000 /* enable caching for 32K-64K using fixed mtrr */ movl $0x268, %ecx /* fix4k_c0000*/ simplemask CacheSize, 0x8000 wrmsr #endif /* enable caching for 0-32K using fixed mtrr */ movl $0x269, %ecx /* fix4k_c8000*/ simplemask CacheSize, 0 wrmsr #else /* disable cache */ movl %cr0, %eax orl $(0x1<<30),%eax movl %eax, %cr0 #endif /* USE_FALLBACK_IMAGE == 1*/ #if defined(XIP_ROM_SIZE) && defined(XIP_ROM_BASE) /* enable write base caching so we can do execute in place * on the flash rom. */ movl $0x202, %ecx xorl %edx, %edx movl $(XIP_ROM_BASE | MTRR_TYPE_WRBACK), %eax wrmsr movl $0x203, %ecx movl $0x0000000f, %edx movl $(~(XIP_ROM_SIZE - 1) | 0x800), %eax wrmsr #endif /* XIP_ROM_SIZE && XIP_ROM_BASE */ /* enable cache */ movl %cr0, %eax andl $0x9fffffff,%eax movl %eax, %cr0 #if USE_FALLBACK_IMAGE == 1 /* Read the range with lodsl*/ movl $CacheBase, %esi cld movl $(CacheSize>>2), %ecx rep lodsl /* Clear the range */ movl $CacheBase, %edi movl $(CacheSize>>2), %ecx xorl %eax, %eax rep stosl #if 0 /* check the cache as ram */ movl $CacheBase, %esi movl $(CacheSize>>2), %ecx .xin1: movl %esi, %eax movl %eax, (%esi) decl %ecx je .xout1 add $4, %esi jmp .xin1 .xout1: movl $CacheBase, %esi // movl $(CacheSize>>2), %ecx movl $4, %ecx .xin1x: movl %esi, %eax movl $0x4000, %edx movb %ah, %al .testx1: outb %al, $0x80 decl %edx jnz .testx1 movl (%esi), %eax cmpb 0xff, %al je .xin2 /* dont show */ movl $0x4000, %edx .testx2: outb %al, $0x80 decl %edx jnz .testx2 .xin2: decl %ecx je .xout1x add $4, %esi jmp .xin1x .xout1x: #endif #endif /*USE_FALLBACK_IMAGE == 1*/ movl $(CacheBase+CacheSize-4), %eax movl %eax, %esp /* Load a different set of data segments */ #if CONFIG_USE_INIT movw $CACHE_RAM_DATA_SEG, %ax movw %ax, %ds movw %ax, %es movw %ax, %ss #endif lout: /* Restore the BIST result */ movl %ebp, %eax /* We need to set ebp ? No need */ movl %esp, %ebp pushl %eax /* bist */ call amd64_main /* We will not go back */ fixed_mtrr_msr: .long 0x250, 0x258, 0x259 .long 0x268, 0x269, 0x26A .long 0x26B, 0x26C, 0x26D .long 0x26E, 0x26F var_mtrr_msr: .long 0x200, 0x201, 0x202, 0x203 .long 0x204, 0x205, 0x206, 0x207 .long 0x208, 0x209, 0x20A, 0x20B .long 0x20C, 0x20D, 0x20E, 0x20F .long 0x000 /* NULL, end of table */ #if USE_FALLBACK_IMAGE == 1 .align 0x1000 .code16 .global LogicalAP_SIPI LogicalAP_SIPI: // cr0 register is shared among the logical processors; // so clear CD & NW bits so that the BSP's cr0 register // controls the cache behavior // Note: The cache behavior is determined by "OR" result // of the cr0 registers of the logical processors movl %cr0, %eax andl $0x9FFFFFFF, %eax movl %eax, %cr0 finit // Set the semaphore to indicate the Logical AP is done // with CAR specific initialization movl $0x250, %ecx movl $0x06, %eax xorl %edx, %edx wrmsr // Halt this AP cli Halt_LogicalAP: hlt jmp Halt_LogicalAP .code32 #endif /*USE_FALLBACK_IMAGE == 1*/ .CacheAsRam_out: