#include #include #include extern struct vmm_os_hooks * os_hooks; extern uint_t cpuid_ecx(uint_t op); extern uint_t cpuid_edx(uint_t op); extern void Get_MSR(uint_t MSR, uint_t * high_byte, uint_t * low_byte); extern void Set_MSR(uint_t MSR, uint_t high_byte, uint_t low_byte); extern uint_t launch_svm(vmcb_t * vmcb_addr); /* Checks machine SVM capability */ /* Implemented from: AMD Arch Manual 3, sect 15.4 */ int is_svm_capable() { uint_t ret = cpuid_ecx(CPUID_FEATURE_IDS); uint_t vm_cr_low = 0, vm_cr_high = 0; return 1; if ((ret & CPUID_FEATURE_IDS_ecx_svm_avail) == 0) { PrintDebug("SVM Not Available\n"); return 0; } Get_MSR(SVM_VM_CR_MSR, &vm_cr_high, &vm_cr_low); if ((vm_cr_low & SVM_VM_CR_MSR_svmdis) == 0) { return 1; } ret = cpuid_edx(CPUID_SVM_REV_AND_FEATURE_IDS); if ((ret & CPUID_SVM_REV_AND_FEATURE_IDS_edx_svml) == 0) { PrintDebug("SVM BIOS Disabled, not unlockable\n"); } else { PrintDebug("SVM is locked with a key\n"); } return 0; } void Init_SVM() { reg_ex_t msr; void * host_state; // setup Get_MSR(EFER_MSR, &(msr.e_reg.high), &(msr.e_reg.low)); msr.e_reg.low |= EFER_MSR_svm_enable; Set_MSR(EFER_MSR, 0, msr.e_reg.low); PrintDebug("SVM Enabled\n"); // Setup the host state save area host_state = os_hooks->Allocate_Pages(1); msr.e_reg.high = 0; msr.e_reg.low = (uint_t)host_state; PrintDebug("Host State being saved at %x\n", (uint_t)host_state); Set_MSR(SVM_VM_HSAVE_PA_MSR, msr.e_reg.high, msr.e_reg.low); return; } int init_svm_guest(struct guest_info *info) { PrintDebug("Allocating VMCB\n"); info->vmm_data = (void*)Allocate_VMCB(); PrintDebug("Initializing VMCB (addr=%x)\n", info->vmm_data); Init_VMCB((vmcb_t*)(info->vmm_data), *info); return 0; } // can we start a kernel thread here... int start_svm_guest(struct guest_info *info) { vmcb_ctrl_t * guest_ctrl = 0; ulong_t exit_code = 0; PrintDebug("Launching SVM VM (vmcb=%x)\n", info->vmm_data); launch_svm((vmcb_t*)(info->vmm_data)); guest_ctrl = GET_VMCB_CTRL_AREA((vmcb_t*)(info->vmm_data)); PrintDebug("SVM Returned: (Exit Code=%x) (VMCB=%x)\n",&(guest_ctrl->exit_code), info->vmm_data); exit_code = guest_ctrl->exit_code; PrintDebug("SVM Returned: Exit Code: %x\n",exit_code); return 0; } vmcb_t * Allocate_VMCB() { vmcb_t * vmcb_page = (vmcb_t*)os_hooks->Allocate_Pages(1); memset(vmcb_page, 0, 4096); return vmcb_page; } void Init_VMCB(vmcb_t *vmcb, guest_info_t vm_info) { vmcb_ctrl_t * ctrl_area = GET_VMCB_CTRL_AREA(vmcb); vmcb_saved_state_t * guest_state = GET_VMCB_SAVE_STATE_AREA(vmcb); uint_t i = 0; guest_state->rsp = vm_info.rsp; guest_state->rip = vm_info.rip; /* I pretty much just gutted this from TVMM */ /* Note: That means its probably wrong */ // set the segment registers to mirror ours guest_state->cs.selector = 0; guest_state->cs.attrib.fields.type = 0xa; // Code segment+read guest_state->cs.attrib.fields.S = 1; guest_state->cs.attrib.fields.P = 1; guest_state->cs.attrib.fields.db = 1; guest_state->cs.limit = 0xffffffff; guest_state->cs.base = 0; struct vmcb_selector *segregs [] = {&(guest_state->ss), &(guest_state->ds), &(guest_state->es), &(guest_state->fs), &(guest_state->gs), NULL}; for ( i = 0; segregs[i] != NULL; i++) { struct vmcb_selector * seg = segregs[i]; seg->selector = 0; seg->attrib.fields.type = 0x2; // Data Segment+read/write seg->attrib.fields.S = 1; seg->attrib.fields.P = 1; seg->attrib.fields.db = 1; seg->limit = 0xffffffff; seg->base = 0; } guest_state->efer |= EFER_MSR_svm_enable; guest_state->cr0 = 0x00000001; // PE guest_state->rflags = 0x00000002; // The reserved bit is always 1 ctrl_area->svm_instrs.instrs.VMRUN = 1; ctrl_area->guest_ASID = 1; /* ** */ }