X-Git-Url: http://v3vee.org/palacios/gitweb/gitweb.cgi?a=blobdiff_plain;f=palacios%2Fsrc%2Fpalacios%2Fvmm_ctrl_regs.c;h=0fb2e2c2722b856394804343b18514ab8a25c50b;hb=f1d070a7d98fea4d37069555d653e37524f50ac8;hp=91b0fc2bd161fce1ab963683b2f9773e5bd180b6;hpb=e9bfcdfa725b34d81c48d713adf9d173f3168951;p=palacios.git diff --git a/palacios/src/palacios/vmm_ctrl_regs.c b/palacios/src/palacios/vmm_ctrl_regs.c index 91b0fc2..0fb2e2c 100644 --- a/palacios/src/palacios/vmm_ctrl_regs.c +++ b/palacios/src/palacios/vmm_ctrl_regs.c @@ -1,3 +1,22 @@ +/* + * This file is part of the Palacios Virtual Machine Monitor developed + * by the V3VEE Project with funding from the United States National + * Science Foundation and the Department of Energy. + * + * The V3VEE Project is a joint project between Northwestern University + * and the University of New Mexico. You can find out more at + * http://www.v3vee.org + * + * Copyright (c) 2008, Jack Lange + * Copyright (c) 2008, The V3VEE Project + * All rights reserved. + * + * Author: Jack Lange + * + * This is free software. You are permitted to use, + * redistribute, and modify it as specified in the file "V3VEE_LICENSE". + */ + #include #include #include @@ -7,8 +26,6 @@ -extern void SerialMemDump(unsigned char *start, int n); - /* Segmentation is a problem here... * * When we get a memory operand, presumably we use the default segment (which is?) @@ -16,690 +33,582 @@ extern void SerialMemDump(unsigned char *start, int n); */ -int handle_cr0_write(struct guest_info * info) { - char instr[15]; - - - switch (info->cpu_mode) { - case REAL: - { - int index = 0; - int ret; - - PrintDebug("Real Mode write to CR0 at linear guest pa 0x%x\n",get_addr_linear(info,info->rip,&(info->segments.cs))); +#ifndef DEBUG_CTRL_REGS +#undef PrintDebug +#define PrintDebug(fmt, args...) +#endif - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - if (ret != 15) { - // I think we should inject a GPF into the guest - PrintDebug("Could not read instruction (ret=%d)\n", ret); - return -1; - } - while (is_prefix_byte(instr[index])) { - index++; - } +static int handle_lmsw(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_clts(struct guest_info * info, struct x86_instr * dec_instr); - if ((instr[index] == cr_access_byte) && - (instr[index + 1] == lmsw_byte) && - (MODRM_REG(instr[index + 2]) == lmsw_reg_byte)) { - - addr_t first_operand; - addr_t second_operand; - struct cr0_real *real_cr0; - struct cr0_real *new_cr0; - operand_type_t addr_type; - char new_cr0_val = 0; - // LMSW - // decode mod/RM - index += 2; - - real_cr0 = (struct cr0_real*)&(info->ctrl_regs.cr0); +static int handle_mov_to_cr0(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr0_32(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr0_32pae(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr0_64(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr0_64compat(struct guest_info * info, struct x86_instr * dec_instr); - addr_type = decode_operands16(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG16); +static int handle_mov_to_cr3_32(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr3_32pae(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr3_64(struct guest_info * info, struct x86_instr * dec_instr); +static int handle_mov_to_cr3_64compat(struct guest_info * info, struct x86_instr * dec_instr); - if (addr_type == REG_OPERAND) { - new_cr0 = (struct cr0_real *)first_operand; - } else if (addr_type == MEM_OPERAND) { - addr_t host_addr; - if (guest_pa_to_host_va(info, first_operand + (info->segments.ds.base << 4), &host_addr) == -1) { - // gpf the guest - return -1; - } - new_cr0 = (struct cr0_real *)host_addr; - } else { - PrintDebug("Memory operand in real mode write to CR0 is UNIMPLEMENTED\n"); - // error... don't know what to do - return -1; - } - - if ((new_cr0->pe == 1) && (real_cr0->pe == 0)) { - info->cpu_mode = PROTECTED; - } else if ((new_cr0->pe == 0) && (real_cr0->pe == 1)) { - info->cpu_mode = REAL; - } - - new_cr0_val = *(char*)(new_cr0) & 0x0f; - - - if (info->shdw_pg_mode == SHADOW_PAGING) { - struct cr0_real * shadow_cr0 = (struct cr0_real*)&(info->shdw_pg_state.guest_cr0); - - PrintDebug("Old CR0=%x, Old Shadow CR0=%x\n", *real_cr0, *shadow_cr0); - /* struct cr0_real is only 4 bits wide, - * so we can overwrite the real_cr0 without worrying about the shadow fields - */ - *(char*)real_cr0 &= 0xf0; - *(char*)real_cr0 |= new_cr0_val; - - *(char*)shadow_cr0 &= 0xf0; - *(char*)shadow_cr0 |= new_cr0_val; - - PrintDebug("New CR0=%x, New Shadow CR0=%x\n", *real_cr0, *shadow_cr0); - } else { - PrintDebug("Old CR0=%x\n", *real_cr0); - // for now we just pass through.... - *(char*)real_cr0 &= 0xf0; - *(char*)real_cr0 |= new_cr0_val; - - PrintDebug("New CR0=%x\n", *real_cr0); - } +// First Attempt = 494 lines +// current = 106 lines +int v3_handle_cr0_write(struct guest_info * info) { + uchar_t instr[15]; + int ret; + struct x86_instr dec_instr; + if (info->mem_mode == PHYSICAL_MEM) { + ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } else { + ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } - info->rip += index; - - } else if ((instr[index] == cr_access_byte) && - (instr[index + 1] == clts_byte)) { - // CLTS - PrintDebug("CLTS unhandled in CR0 write\n"); - return -1; + /* The IFetch will already have faulted in the necessary bytes for the full instruction + if (ret != 15) { + // I think we should inject a GPF into the guest + PrintError("Could not read instruction (ret=%d)\n", ret); + return -1; + } + */ - } else if ((instr[index] == cr_access_byte) && - (instr[index + 1] = mov_to_cr_byte)) { - addr_t first_operand; - addr_t second_operand; - struct cr0_32 *real_cr0; - struct cr0_32 *new_cr0; - operand_type_t addr_type; - - - index += 2; - - real_cr0 = (struct cr0_32*)&(info->ctrl_regs.cr0); + if (v3_decode(info, (addr_t)instr, &dec_instr) == -1) { + PrintError("Could not decode instruction\n"); + return -1; + } - addr_type = decode_operands16(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG32); + if (v3_opcode_cmp(V3_OPCODE_LMSW, (const uchar_t *)(dec_instr.opcode)) == 0) { - if (addr_type != REG_OPERAND) { - PrintDebug("Moving to CR0 from non-register operand in CR0 write\n"); - /* Mov to CR0 Can only be a 32 bit register */ - // FIX ME - return -1; - } + if (handle_lmsw(info, &dec_instr) == -1) { + return -1; + } - new_cr0 = (struct cr0_32 *)first_operand; + } else if (v3_opcode_cmp(V3_OPCODE_MOV2CR, (const uchar_t *)(dec_instr.opcode)) == 0) { - if (new_cr0->pe == 1) { - PrintDebug("Entering Protected Mode\n"); - info->cpu_mode = PROTECTED; - } + if (handle_mov_to_cr0(info, &dec_instr) == -1) { + return -1; + } - if (new_cr0->pe == 0) { - PrintDebug("Entering Real Mode\n"); - info->cpu_mode = REAL; - } - + } else if (v3_opcode_cmp(V3_OPCODE_CLTS, (const uchar_t *)(dec_instr.opcode)) == 0) { - if (new_cr0->pg == 1) { - PrintDebug("Paging is already turned on in switch to protected mode in CR0 write\n"); + if (handle_clts(info, &dec_instr) == -1) { + return -1; + } - // GPF the guest?? - return -1; - } + } else { + PrintError("Unhandled opcode in handle_cr0_write\n"); + return -1; + } - if (info->shdw_pg_mode == SHADOW_PAGING) { - struct cr0_32 * shadow_cr0 = (struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); - - PrintDebug("Old CR0=%x, Old Shadow CR0=%x\n", *real_cr0, *shadow_cr0); - *real_cr0 = *new_cr0; - real_cr0->pg = 1; + info->rip += dec_instr.instr_length; - *shadow_cr0 = *new_cr0; + return 0; +} - PrintDebug("New CR0=%x, New Shadow CR0=%x\n", *real_cr0, *shadow_cr0); - } else { - PrintDebug("Old CR0=%x\n", *real_cr0); - *real_cr0 = *new_cr0; - PrintDebug("New CR0=%x\n", *real_cr0); - } - info->rip += index; - } else { - PrintDebug("Unsupported Instruction\n"); - // unsupported instruction, UD the guest - return -1; - } - } - break; - - case PROTECTED: - { - - int index = 0; - int ret; - - PrintDebug("Protected %s Mode write to CR0 at guest %s linear rip 0x%x\n", - info->mem_mode == VIRTUAL_MEM ? "Paged" : "", - info->mem_mode == VIRTUAL_MEM ? "virtual" : "", - get_addr_linear(info, info->rip, &(info->segments.cs))); - - // OK, now we will read the instruction - // The only difference between PROTECTED and PROTECTED_PG is whether we read - // from guest_pa or guest_va - if (info->mem_mode == PHYSICAL_MEM) { - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } else { - ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } - +static int handle_mov_to_cr0(struct guest_info * info, struct x86_instr * dec_instr) { + PrintDebug("MOV2CR0\n"); - if (ret != 15) { - // I think we should inject a GPF into the guest - PrintDebug("Could not read instruction (ret=%d)\n", ret); - return -1; - } + switch (info->cpu_mode) { + case REAL: + case PROTECTED: + return handle_mov_to_cr0_32(info, dec_instr); + case PROTECTED_PAE: + return handle_mov_to_cr0_32pae(info, dec_instr); + case LONG: + return handle_mov_to_cr0_64(info, dec_instr); + case LONG_32_COMPAT: + return handle_mov_to_cr0_64compat(info, dec_instr); + default: + PrintError("Invalid CPU Operating Mode: %d\n", info->cpu_mode); + return -1; - while (is_prefix_byte(instr[index])) { - index++; - } + } +} - struct cr0_32 * shadow_cr0 = (struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); +static int handle_mov_to_cr0_32pae(struct guest_info * info, struct x86_instr * dec_instr) { + PrintError("32 bit PAE mov to CR0 not implemented\n"); + return -1; +} - struct cr0_32 * real_cr0 = (struct cr0_32*)&(info->ctrl_regs.cr0); +static int handle_mov_to_cr0_64(struct guest_info * info, struct x86_instr * dec_instr) { + PrintError("64 bit mov to CR0 not implemented\n"); + return -1; +} - if ((instr[index] == cr_access_byte) && - (instr[index + 1] == mov_to_cr_byte)) { +static int handle_mov_to_cr0_64compat(struct guest_info * info, struct x86_instr * dec_instr) { + PrintError("64 bit compatibility mode move to CR0 not implemented\n"); + return -1; +} - // MOV to CR0 - - addr_t first_operand; - addr_t second_operand; - struct cr0_32 *new_cr0; - operand_type_t addr_type; - index += 2; - +static int handle_mov_to_cr0_32(struct guest_info * info, struct x86_instr * dec_instr) { + // 32 bit registers + struct cr0_32 * shadow_cr0 = (struct cr0_32 *)&(info->ctrl_regs.cr0); + struct cr0_32 * new_cr0 = (struct cr0_32 *)(dec_instr->src_operand.operand); + struct cr0_32 * guest_cr0 = (struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); + + PrintDebug("OperandVal = %x, length=%d\n", *(uint_t *)new_cr0, dec_instr->src_operand.size); + + PrintDebug("Old CR0=%x\n", *(uint_t *)shadow_cr0); + PrintDebug("Old Guest CR0=%x\n", *(uint_t *)guest_cr0); - addr_type = decode_operands32(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG32); + // Guest always sees the value they wrote + *guest_cr0 = *new_cr0; - if (addr_type != REG_OPERAND) { - PrintDebug("Non-register operand in write to CR0\n"); - return -1; - } + // This value must always be set to 1 + guest_cr0->et = 1; - new_cr0 = (struct cr0_32 *)first_operand; + // Set the shadow register to catch non-virtualized flags + *shadow_cr0 = *guest_cr0; + + if (v3_get_mem_mode(info) == VIRTUAL_MEM) { + struct cr3_32 * guest_cr3 = (struct cr3_32 *)&(info->shdw_pg_state.guest_cr3); + PrintDebug("Setting up Guest Page Table\n"); + info->ctrl_regs.cr3 = *(addr_t*)guest_cr3; + } else { + info->ctrl_regs.cr3 = *(addr_t*)&(info->direct_map_pt); + shadow_cr0->pg = 1; + } + + PrintDebug("New Guest CR0=%x\n",*(uint_t *)guest_cr0); + + PrintDebug("New CR0=%x\n", *(uint_t *)shadow_cr0); + + return 0; +} - if (info->shdw_pg_mode == SHADOW_PAGING) { - struct cr0_32 * shadow_cr0 = (struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); - if (new_cr0->pg == 1){ - // This should be new_cr0->pg && !(old_cr->pg), right? - // and then a case for turning paging off? - struct cr3_32 * shadow_cr3 = (struct cr3_32 *)&(info->shdw_pg_state.shadow_cr3); +static int handle_clts(struct guest_info * info, struct x86_instr * dec_instr) { + // CLTS + struct cr0_32 * real_cr0 = (struct cr0_32*)&(info->ctrl_regs.cr0); + + real_cr0->ts = 0; + + if (info->shdw_pg_mode == SHADOW_PAGING) { + struct cr0_32 * guest_cr0 = (struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); + guest_cr0->ts = 0; + } + return 0; +} - info->mem_mode = VIRTUAL_MEM; - - *shadow_cr0 = *new_cr0; - *real_cr0 = *new_cr0; - // - // Activate Shadow Paging - // - PrintDebug("Turning on paging in the guest\n"); +static int handle_lmsw(struct guest_info * info, struct x86_instr * dec_instr) { + struct cr0_real * real_cr0 = (struct cr0_real*)&(info->ctrl_regs.cr0); + struct cr0_real * new_cr0 = (struct cr0_real *)(dec_instr->src_operand.operand); + uchar_t new_cr0_val; + + PrintDebug("LMSW\n"); + + new_cr0_val = (*(char*)(new_cr0)) & 0x0f; + + PrintDebug("OperandVal = %x\n", new_cr0_val); + + // We can just copy the new value through + // we don't need to virtualize the lower 4 bits + PrintDebug("Old CR0=%x\n", *(uint_t *)real_cr0); + *(uchar_t*)real_cr0 &= 0xf0; + *(uchar_t*)real_cr0 |= new_cr0_val; + PrintDebug("New CR0=%x\n", *(uint_t *)real_cr0); + + + // If Shadow paging is enabled we push the changes to the virtualized copy of cr0 + if (info->shdw_pg_mode == SHADOW_PAGING) { + struct cr0_real * guest_cr0 = (struct cr0_real*)&(info->shdw_pg_state.guest_cr0); + + PrintDebug("Old Guest CR0=%x\n", *(uint_t *)guest_cr0); + *(uchar_t*)guest_cr0 &= 0xf0; + *(uchar_t*)guest_cr0 |= new_cr0_val; + PrintDebug("New Guest CR0=%x\n", *(uint_t *)guest_cr0); + } + return 0; +} - info->ctrl_regs.cr3 = *(addr_t*)shadow_cr3; - - } else if (new_cr0->pe == 0) { - info->cpu_mode = REAL; - *shadow_cr0 = *new_cr0; - *real_cr0 = *new_cr0; - real_cr0->pg = 1; - } - } else { - *real_cr0 = *new_cr0; - } +// First attempt = 253 lines +// current = 51 lines +int v3_handle_cr0_read(struct guest_info * info) { + uchar_t instr[15]; + int ret; + struct x86_instr dec_instr; - info->rip += index; + if (info->mem_mode == PHYSICAL_MEM) { + ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } else { + ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } - } else if ((instr[index] == 0x0f) && - (instr[index + 1] == 0x06)) { - // CLTS instruction - PrintDebug("CLTS instruction - clearing TS flag of real and shadow CR0\n"); - shadow_cr0->ts=0; - real_cr0->ts=0; - - index+=2; - - info->rip+=index; + /* The IFetch will already have faulted in the necessary bytes for the full instruction + if (ret != 15) { + // I think we should inject a GPF into the guest + PrintError("Could not read instruction (ret=%d)\n", ret); + return -1; + } + */ - } else { - PrintDebug("Unkown instruction: \n"); - SerialMemDump(instr,15); - return -1; - } - } - break; - - case PROTECTED_PAE: - PrintDebug("Protected PAE Mode write to CR0 is UNIMPLEMENTED\n"); + if (v3_decode(info, (addr_t)instr, &dec_instr) == -1) { + PrintError("Could not decode instruction\n"); return -1; + } + + if (v3_opcode_cmp(V3_OPCODE_MOVCR2, (const uchar_t *)(dec_instr.opcode)) == 0) { + struct cr0_32 * dst_reg = (struct cr0_32 *)(dec_instr.dst_operand.operand); + struct cr0_32 * shadow_cr0 = (struct cr0_32 *)&(info->ctrl_regs.cr0); - case LONG: - PrintDebug("Protected Long Mode write to CR0 is UNIMPLEMENTED\n"); - return -1; + PrintDebug("MOVCR2\n"); - default: - { - PrintDebug("Unknown Mode write to CR0 (info->cpu_mode=0x%x\n)",info->cpu_mode); - return -1; + if (info->shdw_pg_mode == SHADOW_PAGING) { + struct cr0_32 * guest_cr0 = (struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); + *dst_reg = *guest_cr0; + } else { + *dst_reg = *shadow_cr0; } - break; + PrintDebug("Shadow CR0: %x\n", *(uint_t*)shadow_cr0); + PrintDebug("returned CR0: %x\n", *(uint_t*)dst_reg); + } else if (v3_opcode_cmp(V3_OPCODE_SMSW, (const uchar_t *)(dec_instr.opcode)) == 0) { + struct cr0_real * shadow_cr0 = (struct cr0_real *)&(info->ctrl_regs.cr0); + struct cr0_real * dst_reg = (struct cr0_real *)(dec_instr.dst_operand.operand); + char cr0_val = *(char*)shadow_cr0 & 0x0f; + + PrintDebug("SMSW\n"); + + // The lower 4 bits of the guest/shadow CR0 are mapped through + // We can treat nested and shadow paging the same here + *(char *)dst_reg &= 0xf0; + *(char *)dst_reg |= cr0_val; + + } else { + PrintError("Unhandled opcode in handle_cr0_read\n"); + return -1; } + info->rip += dec_instr.instr_length; + return 0; } -int handle_cr0_read(struct guest_info * info) { - char instr[15]; - switch (info->cpu_mode) { - case REAL: - { +// First Attempt = 256 lines +// current = 65 lines +int v3_handle_cr3_write(struct guest_info * info) { + int ret; + uchar_t instr[15]; + struct x86_instr dec_instr; - int index = 0; - int ret; + if (info->mem_mode == PHYSICAL_MEM) { + ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } else { + ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } - PrintDebug("Real Mode read from CR0 at linear guest pa 0x%x\n",get_addr_linear(info,info->rip,&(info->segments.cs))); + if (v3_decode(info, (addr_t)instr, &dec_instr) == -1) { + PrintError("Could not decode instruction\n"); + return -1; + } - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - if (ret != 15) { - // I think we should inject a GPF into the guest - PrintDebug("Could not read Real Mode instruction (ret=%d)\n", ret); - return -1; - } + if (v3_opcode_cmp(V3_OPCODE_MOV2CR, (const uchar_t *)(dec_instr.opcode)) == 0) { + PrintDebug("MOV2CR3\n"); + if (info->mem_mode == PHYSICAL_MEM) { + // All we do is update the guest CR3 - while (is_prefix_byte(instr[index])) { - index++; + if (info->cpu_mode == LONG) { + struct cr3_64 * new_cr3 = (struct cr3_64 *)(dec_instr.src_operand.operand); + struct cr3_64 * guest_cr3 = (struct cr3_64 *)&(info->shdw_pg_state.guest_cr3); + *guest_cr3 = *new_cr3; + } else { + struct cr3_32 * new_cr3 = (struct cr3_32 *)(dec_instr.src_operand.operand); + struct cr3_32 * guest_cr3 = (struct cr3_32 *)&(info->shdw_pg_state.guest_cr3); + *guest_cr3 = *new_cr3; } - if ((instr[index] == cr_access_byte) && - (instr[index + 1] == smsw_byte) && - (MODRM_REG(instr[index + 2]) == smsw_reg_byte)) { - - // SMSW (store machine status word) - - addr_t first_operand; - addr_t second_operand; - struct cr0_real *cr0; - operand_type_t addr_type; - char cr0_val = 0; + } else { - index += 2; - - cr0 = (struct cr0_real*)&(info->ctrl_regs.cr0); - - - addr_type = decode_operands16(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG16); - - if (addr_type == MEM_OPERAND) { - addr_t host_addr; - - if (guest_pa_to_host_va(info, first_operand + (info->segments.ds.base << 4), &host_addr) == -1) { - // gpf the guest - PrintDebug("Could not convert guest physical address to host virtual address\n"); - return -1; - } - - first_operand = host_addr; - } else { - // Register operand - // Should be ok?? + switch (info->cpu_mode) { + case PROTECTED: + if (handle_mov_to_cr3_32(info, &dec_instr) == -1) { + return -1; } - - cr0_val = *(char*)cr0 & 0x0f; - - *(char *)first_operand &= 0xf0; - *(char *)first_operand |= cr0_val; - - PrintDebug("index = %d, rip = %x\n", index, (ulong_t)(info->rip)); - info->rip += index; - PrintDebug("new_rip = %x\n", (ulong_t)(info->rip)); - // success - - } else if ((instr[index] == cr_access_byte) && - (instr[index+1] == mov_from_cr_byte)) { - /* Mov from CR0 - * This can only take a 32 bit register argument in anything less than 64 bit mode. - */ - addr_t first_operand; - addr_t second_operand; - operand_type_t addr_type; - - struct cr0_32 * real_cr0 = (struct cr0_32 *)&(info->ctrl_regs.cr0); - - index += 2; - - addr_type = decode_operands16(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG32); - - struct cr0_32 * virt_cr0 = (struct cr0_32 *)first_operand; - - if (addr_type != REG_OPERAND) { - // invalid opcode to guest - PrintDebug("Invalid operand type in mov from CR0\n"); + case PROTECTED_PAE: + if (handle_mov_to_cr3_32pae(info, &dec_instr) == -1) { return -1; } - - if (info->shdw_pg_mode == SHADOW_PAGING) { - *virt_cr0 = *(struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); - } else { - *virt_cr0 = *real_cr0; + case LONG: + if (handle_mov_to_cr3_64(info, &dec_instr) == -1) { + return -1; } - - info->rip += index; - - } else { - PrintDebug("Unknown read instr from CR0\n"); - return -1; - } - - } - - break; - - case PROTECTED: - { - - int index = 0; - int ret; - - PrintDebug("Protected %s Mode read from CR0 at guest %s linear rip 0x%x\n", - info->mem_mode == VIRTUAL_MEM ? "Paged" : "", - info->mem_mode == VIRTUAL_MEM ? "virtual" : "", - get_addr_linear(info, info->rip, &(info->segments.cs))); - - // We need to read the instruction, which is at CS:IP, but that - // linear address is guest physical without PG and guest virtual with PG - if (info->cpu_mode == PHYSICAL_MEM) { - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } else { - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } - - if (ret != 15) { - // I think we should inject a GPF into the guest - PrintDebug("Could not read Protected %s mode instruction (ret=%d)\n", - info->cpu_mode == VIRTUAL_MEM ? "Paged" : "", ret); + case LONG_32_COMPAT: + if (handle_mov_to_cr3_64compat(info, &dec_instr) == -1) { + return -1; + } + default: + PrintError("Unhandled CPU mode: %d\n", info->cpu_mode); return -1; } + } + } else { + PrintError("Unhandled opcode in handle_cr3_write\n"); + return -1; + } - while (is_prefix_byte(instr[index])) { - index++; - } + info->rip += dec_instr.instr_length; + return 0; +} - if ((instr[index] == cr_access_byte) && - (instr[index+1] == mov_from_cr_byte)) { - - // MOV from CR0 to register - addr_t first_operand; - addr_t second_operand; - operand_type_t addr_type; - struct cr0_32 * virt_cr0; - struct cr0_32 * real_cr0 = (struct cr0_32 *)&(info->ctrl_regs.cr0); - index += 2; - addr_type = decode_operands32(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG32); - if (addr_type != REG_OPERAND) { - PrintDebug("Invalid operand type in mov from CR0\n"); - return -1; - } - - virt_cr0 = (struct cr0_32 *)first_operand; - - if (info->shdw_pg_mode == SHADOW_PAGING) { - *virt_cr0 = *(struct cr0_32 *)&(info->shdw_pg_state.guest_cr0); - if (info->cpu_mode==PROTECTED) { - virt_cr0->pg=0; // clear the pg bit because guest doesn't think it's on - } - } else { - *virt_cr0 = *real_cr0; - } - - info->rip += index; - } else { - PrintDebug("Unknown read instruction from CR0\n"); - return -1; - } - } - break; - case PROTECTED_PAE: - PrintDebug("Protected PAE Mode read to CR0 is UNIMPLEMENTED\n"); - return -1; +static int handle_mov_to_cr3_32(struct guest_info * info, struct x86_instr * dec_instr) { + PrintDebug("CR3 at 0x%p\n", &(info->ctrl_regs.cr3)); - case LONG: - PrintDebug("Protected Long Mode read to CR0 is UNIMPLEMENTED\n"); - return -1; + if (info->shdw_pg_mode == SHADOW_PAGING) { + struct cr3_32 * new_cr3 = (struct cr3_32 *)(dec_instr->src_operand.operand); + struct cr3_32 * guest_cr3 = (struct cr3_32 *)&(info->shdw_pg_state.guest_cr3); + // struct cr3_32 * shadow_cr3 = (struct cr3_32 *)&(info->ctrl_regs.cr3); + + PrintDebug("Old Shadow CR3=%x; Old Guest CR3=%x\n", + *(uint_t*)shadow_cr3, *(uint_t*)guest_cr3); + - default: - { - PrintDebug("Unknown Mode read from CR0 (info->cpu_mode=0x%x)\n",info->cpu_mode); + // Store the write value to virtualize CR3 + *guest_cr3 = *new_cr3; + + if (v3_activate_shadow_pt(info) == -1) { + PrintError("Failed to activate 32 bit shadow page table\n"); return -1; } - break; - } - + PrintDebug("New Shadow CR3=%x; New Guest CR3=%x\n", + *(uint_t*)shadow_cr3, *(uint_t*)guest_cr3); + } return 0; } +static int handle_mov_to_cr3_32pae(struct guest_info * info, struct x86_instr * dec_instr) { + PrintError("32 Bit PAE mode Mov to CR3 not implemented\n"); + return -1; +} +static int handle_mov_to_cr3_64(struct guest_info * info, struct x86_instr * dec_instr) { + PrintError("Long mode Mov to CR3 not implemented\n"); + return -1; +} -int handle_cr3_write(struct guest_info * info) { - if (info->cpu_mode == PROTECTED) { - int index = 0; - int ret; - char instr[15]; +static int handle_mov_to_cr3_64compat(struct guest_info * info, struct x86_instr * dec_instr) { + PrintError("Long compatiblity mode move to CR3 not implemented\n"); + return -1; +} - PrintDebug("Protected %s mode write to CR3 at %s 0x%x\n", - info->cpu_mode==PROTECTED ? "" : "Paged", - info->cpu_mode==PROTECTED ? "guest physical" : "guest virtual", - get_addr_linear(info,info->rip,&(info->segments.cs))); - // We need to read the instruction, which is at CS:IP, but that - // linear address is guest physical without PG and guest virtual with PG - if (info->mem_mode == PHYSICAL_MEM) { - // The real rip address is actually a combination of the rip + CS base - PrintDebug("Writing Guest CR3 Write (Physical Address)\n"); - ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } else { - PrintDebug("Writing Guest CR3 Write (Virtual Address)\n"); - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } - if (ret != 15) { - PrintDebug("Could not read instruction (ret=%d)\n", ret); - return -1; - } - - while (is_prefix_byte(instr[index])) { - index++; - } - - if ((instr[index] == cr_access_byte) && - (instr[index + 1] == mov_to_cr_byte)) { +// first attempt = 156 lines +// current = 36 lines +int v3_handle_cr3_read(struct guest_info * info) { + uchar_t instr[15]; + int ret; + struct x86_instr dec_instr; - addr_t first_operand; - addr_t second_operand; - struct cr3_32 * new_cr3; - // struct cr3_32 * real_cr3; - operand_type_t addr_type; - - index += 2; + if (info->mem_mode == PHYSICAL_MEM) { + ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } else { + ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } - addr_type = decode_operands32(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG32); + /* The IFetch will already have faulted in the necessary bytes for the full instruction + if (ret != 15) { + // I think we should inject a GPF into the guest + PrintError("Could not read instruction (ret=%d)\n", ret); + return -1; + } + */ - if (addr_type != REG_OPERAND) { - /* Mov to CR3 can only be a 32 bit register */ - return -1; - } + if (v3_decode(info, (addr_t)instr, &dec_instr) == -1) { + PrintError("Could not decode instruction\n"); + return -1; + } - new_cr3 = (struct cr3_32 *)first_operand; + if (v3_opcode_cmp(V3_OPCODE_MOVCR2, (const uchar_t *)(dec_instr.opcode)) == 0) { + PrintDebug("MOVCR32\n"); + struct cr3_32 * dst_reg = (struct cr3_32 *)(dec_instr.dst_operand.operand); - if (info->shdw_pg_mode == SHADOW_PAGING) { - addr_t shadow_pt; - struct cr3_32 * shadow_cr3 = (struct cr3_32 *)&(info->shdw_pg_state.shadow_cr3); - struct cr3_32 * guest_cr3 = (struct cr3_32 *)&(info->shdw_pg_state.guest_cr3); + PrintDebug("CR3 at 0x%p\n", &(info->ctrl_regs.cr3)); + if (info->shdw_pg_mode == SHADOW_PAGING) { + *dst_reg = *(struct cr3_32 *)&(info->shdw_pg_state.guest_cr3); + } else { + *dst_reg = *(struct cr3_32 *)&(info->ctrl_regs.cr3); + } + } else { + PrintError("Unhandled opcode in handle_cr3_read\n"); + return -1; + } - /* Delete the current Page Tables */ - delete_page_tables_pde32((pde32_t *)CR3_TO_PDE32(*(uint_t*)shadow_cr3)); + info->rip += dec_instr.instr_length; - PrintDebug("Old Shadow CR3=%x; Old Guest CR3=%x\n", - *(uint_t*)shadow_cr3, *(uint_t*)guest_cr3); + return 0; +} +int v3_handle_cr4_read(struct guest_info * info) { + PrintError("CR4 Read not handled\n"); + return -1; +} - *guest_cr3 = *new_cr3; +int v3_handle_cr4_write(struct guest_info * info) { + uchar_t instr[15]; + int ret; + struct x86_instr dec_instr; + if (info->mem_mode == PHYSICAL_MEM) { + ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } else { + ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); + } + if (v3_decode(info, (addr_t)instr, &dec_instr) == -1) { + PrintError("Could not decode instruction\n"); + return -1; + } - // Something like this - shadow_pt = create_new_shadow_pt32(info); - //shadow_pt = setup_shadow_pt32(info, CR3_TO_PDE32(*(addr_t *)new_cr3)); + if (v3_opcode_cmp(V3_OPCODE_MOV2CR, (const uchar_t *)(dec_instr.opcode)) != 0) { + PrintError("Invalid opcode in write to CR4\n"); + return -1; + } - /* Copy Various flags */ - *shadow_cr3 = *new_cr3; + if ((info->cpu_mode == PROTECTED) || (info->cpu_mode == PROTECTED_PAE)) { + struct cr4_32 * new_cr4 = (struct cr4_32 *)(dec_instr.src_operand.operand); + struct cr4_32 * cr4 = (struct cr4_32 *)&(info->ctrl_regs.cr4); + + PrintDebug("OperandVal = %x, length = %d\n", *(uint_t *)new_cr4, dec_instr.src_operand.size); + PrintDebug("Old CR4=%x\n", *(uint_t *)cr4); + if ((info->shdw_pg_mode == SHADOW_PAGING) && + (v3_get_mem_mode(info) == PHYSICAL_MEM)) { - - shadow_cr3->pdt_base_addr = PD32_BASE_ADDR(shadow_pt); + if ((cr4->pae == 0) && (new_cr4->pae == 1)) { + PrintDebug("Creating PAE passthrough tables\n"); - PrintDebug("New Shadow CR3=%x; New Guest CR3=%x\n", - *(uint_t*)shadow_cr3, *(uint_t*)guest_cr3); + // Delete the old 32 bit direct map page tables + delete_page_tables_32((pde32_t *)V3_VAddr((void *)(info->direct_map_pt))); + // create 32 bit PAE direct map page table + info->direct_map_pt = (addr_t)V3_PAddr(create_passthrough_pts_32PAE(info)); + // reset cr3 to new page tables + info->ctrl_regs.cr3 = *(addr_t*)&(info->direct_map_pt); - if (info->mem_mode == VIRTUAL_MEM) { - // If we aren't in paged mode then we have to preserve the identity mapped CR3 - info->ctrl_regs.cr3 = *(addr_t*)shadow_cr3; - } + } else if ((cr4->pae == 1) && (new_cr4->pae == 0)) { + // Create passthrough standard 32bit pagetables + return -1; } + } - info->rip += index; + *cr4 = *new_cr4; + PrintDebug("New CR4=%x\n", *(uint_t *)cr4); - } else { - PrintDebug("Unknown Instruction\n"); - SerialMemDump(instr,15); - return -1; - } } else { - PrintDebug("Invalid operating Mode (0x%x)\n", info->cpu_mode); + PrintError("CR4 write not supported in CPU_MODE: %d\n", info->cpu_mode); return -1; } + info->rip += dec_instr.instr_length; return 0; } +int v3_handle_efer_read(uint_t msr, struct v3_msr * dst, void * priv_data) { + struct guest_info * info = (struct guest_info *)(priv_data); + PrintDebug("EFER Read\n"); + dst->value = info->guest_efer.value; -int handle_cr3_read(struct guest_info * info) { - if (info->cpu_mode == PROTECTED) { - int index = 0; - int ret; - char instr[15]; - - - // We need to read the instruction, which is at CS:IP, but that - // linear address is guest physical without PG and guest virtual with PG - if (info->cpu_mode == PHYSICAL_MEM) { - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_pa_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } else { - // The real rip address is actually a combination of the rip + CS base - ret = read_guest_va_memory(info, get_addr_linear(info, info->rip, &(info->segments.cs)), 15, instr); - } - - if (ret != 15) { - PrintDebug("Could not read instruction (ret=%d)\n", ret); - return -1; - } - - while (is_prefix_byte(instr[index])) { - index++; - } - - if ((instr[index] == cr_access_byte) && - (instr[index + 1] == mov_from_cr_byte)) { - addr_t first_operand; - addr_t second_operand; - struct cr3_32 * virt_cr3; - struct cr3_32 * real_cr3 = (struct cr3_32 *)&(info->ctrl_regs.cr3); - operand_type_t addr_type; + info->rip += 2; // WRMSR/RDMSR are two byte operands + return 0; +} - index += 2; - addr_type = decode_operands32(&(info->vm_regs), instr + index, &index, &first_operand, &second_operand, REG32); +int v3_handle_efer_write(uint_t msr, struct v3_msr src, void * priv_data) { + struct guest_info * info = (struct guest_info *)(priv_data); + struct efer_64 * new_efer = (struct efer_64 *)&(src.value); + struct efer_64 * shadow_efer = (struct efer_64 *)&(info->ctrl_regs.efer); + struct v3_msr * guest_efer = &(info->guest_efer); - if (addr_type != REG_OPERAND) { - /* Mov to CR3 can only be a 32 bit register */ - return -1; - } + PrintDebug("EFER Write\n"); + PrintDebug("Old EFER=%p\n", (void *)*(addr_t*)(shadow_efer)); - virt_cr3 = (struct cr3_32 *)first_operand; + // We virtualize the guests efer to hide the SVME and LMA bits + guest_efer->value = src.value; - if (info->shdw_pg_mode == SHADOW_PAGING) { - *virt_cr3 = *(struct cr3_32 *)&(info->shdw_pg_state.guest_cr3); - } else { - *virt_cr3 = *real_cr3; - } + + if ((info->shdw_pg_mode == SHADOW_PAGING) && + (v3_get_mem_mode(info) == PHYSICAL_MEM)) { + + if ((shadow_efer->lme == 0) && (new_efer->lme == 1)) { + PrintDebug("Transition to longmode\n"); + PrintDebug("Creating Passthrough 64 bit page tables\n"); + + // Delete the old 32 bit direct map page tables + /* + * JRL BUG? + * Will these page tables always be in PAE format?? + */ + PrintDebug("Deleting old PAE Page tables\n"); + PrintError("JRL BUG?: Will the old page tables always be in PAE format??\n"); + delete_page_tables_32PAE((pdpe32pae_t *)V3_VAddr((void *)(info->direct_map_pt))); + + // create 64 bit direct map page table + info->direct_map_pt = (addr_t)V3_PAddr(create_passthrough_pts_64(info)); + + // reset cr3 to new page tables + info->ctrl_regs.cr3 = *(addr_t*)&(info->direct_map_pt); + + // We mark the Long Mode active because we have paging enabled + // We do this in new_efer because we copy the msr in full below + new_efer->lma = 1; + + } else if ((shadow_efer->lme == 1) && (new_efer->lme == 0)) { + // transition out of long mode + //((struct efer_64 *)&(info->guest_efer.value))->lme = 0; + //((struct efer_64 *)&(info->guest_efer.value))->lma = 0; - info->rip += index; - } else { - PrintDebug("Unknown Instruction\n"); - SerialMemDump(instr,15); return -1; } + + // accept all changes to the efer, but make sure that the SVME bit is set... (SVM specific) + *shadow_efer = *new_efer; + shadow_efer->svme = 1; + + + + PrintDebug("New EFER=%p\n", (void *)*(addr_t *)(shadow_efer)); } else { - PrintDebug("Invalid operating Mode (0x%x)\n", info->cpu_mode); + PrintError("Write to EFER in NESTED_PAGING or VIRTUAL_MEM mode not supported\n"); + // Should probably just check for a long mode transition, and bomb out if it is return -1; } + info->rip += 2; // WRMSR/RDMSR are two byte operands + return 0; }