*/
+
#include <palacios/svm.h>
#include <palacios/vmm.h>
#include <palacios/vmm_barrier.h>
#include <palacios/vmm_debug.h>
+#include <palacios/vmm_perftune.h>
+
+
#ifdef V3_CONFIG_CHECKPOINT
#include <palacios/vmm_checkpoint.h>
#endif
#include <palacios/vmm_sprintf.h>
+#ifdef V3_CONFIG_MEM_TRACK
+#include <palacios/vmm_mem_track.h>
+#endif
+
+#ifdef V3_CONFIG_TM_FUNC
+#include <extensions/trans_mem.h>
+#endif
#ifndef V3_CONFIG_DEBUG_SVM
#undef PrintDebug
#endif
+
uint32_t v3_last_exit;
// This is a global pointer to the host's VMCB
static vmcb_t * Allocate_VMCB() {
vmcb_t * vmcb_page = NULL;
- addr_t vmcb_pa = (addr_t)V3_AllocPages(1);
+ addr_t vmcb_pa = (addr_t)V3_AllocPages(1); // need not be shadow safe, not exposed to guest
if ((void *)vmcb_pa == NULL) {
- PrintError("Error allocating VMCB\n");
+ PrintError(VM_NONE, VCORE_NONE, "Error allocating VMCB\n");
return NULL;
}
ctrl_area->exceptions.nmi = 1;
*/
+
+#ifdef V3_CONFIG_TM_FUNC
+ v3_tm_set_excp_intercepts(ctrl_area);
+#endif
ctrl_area->instrs.NMI = 1;
ctrl_area->instrs.MSR_PROT = 1;
- PrintDebug("Exiting on interrupts\n");
+ PrintDebug(core->vm_info, core, "Exiting on interrupts\n");
ctrl_area->guest_ctrl.V_INTR_MASKING = 1;
ctrl_area->instrs.INTR = 1;
+ // The above also assures the TPR changes (CR8) are only virtual
+
+ // However, we need to see TPR writes since they will
+ // affect the virtual apic
+ // we reflect out cr8 to ctrl_regs->apic_tpr
+ ctrl_area->cr_reads.cr8 = 1;
+ ctrl_area->cr_writes.cr8 = 1;
+ // We will do all TPR comparisons in the virtual apic
+ // We also do not want the V_TPR to be able to mask the PIC
+ ctrl_area->guest_ctrl.V_IGN_TPR = 1;
+
+
v3_hook_msr(core->vm_info, EFER_MSR,
&v3_handle_efer_read,
core);
if (core->shdw_pg_mode == SHADOW_PAGING) {
- PrintDebug("Creating initial shadow page table\n");
+ PrintDebug(core->vm_info, core, "Creating initial shadow page table\n");
/* JRL: This is a performance killer, and a simplistic solution */
/* We need to fix this */
if (v3_init_passthrough_pts(core) == -1) {
- PrintError("Could not initialize passthrough page tables\n");
+ PrintError(core->vm_info, core, "Could not initialize passthrough page tables\n");
return ;
}
core->shdw_pg_state.guest_cr0 = 0x0000000000000010LL;
- PrintDebug("Created\n");
+ PrintDebug(core->vm_info, core, "Created\n");
core->ctrl_regs.cr0 |= 0x80000000;
- core->ctrl_regs.cr3 = core->direct_map_pt;
+
+ v3_activate_passthrough_pt(core);
ctrl_area->cr_reads.cr0 = 1;
ctrl_area->cr_writes.cr0 = 1;
- //ctrl_area->cr_reads.cr4 = 1;
+ //intercept cr4 read so shadow pager can use PAE independently of guest
+ ctrl_area->cr_reads.cr4 = 1;
ctrl_area->cr_writes.cr4 = 1;
ctrl_area->cr_reads.cr3 = 1;
ctrl_area->cr_writes.cr3 = 1;
-
ctrl_area->instrs.INVLPG = 1;
ctrl_area->exceptions.pf = 1;
guest_state->g_pat = 0x7040600070406ULL;
-
} else if (core->shdw_pg_mode == NESTED_PAGING) {
// Flush the TLB on entries/exits
ctrl_area->TLB_CONTROL = 1;
// Enable Nested Paging
ctrl_area->NP_ENABLE = 1;
- PrintDebug("NP_Enable at 0x%p\n", (void *)&(ctrl_area->NP_ENABLE));
+ PrintDebug(core->vm_info, core, "NP_Enable at 0x%p\n", (void *)&(ctrl_area->NP_ENABLE));
// Set the Nested Page Table pointer
if (v3_init_passthrough_pts(core) == -1) {
- PrintError("Could not initialize Nested page tables\n");
+ PrintError(core->vm_info, core, "Could not initialize Nested page tables\n");
return ;
}
int v3_init_svm_vmcb(struct guest_info * core, v3_vm_class_t vm_class) {
- PrintDebug("Allocating VMCB\n");
+ PrintDebug(core->vm_info, core, "Allocating VMCB\n");
core->vmm_data = (void *)Allocate_VMCB();
if (core->vmm_data == NULL) {
- PrintError("Could not allocate VMCB, Exiting...\n");
+ PrintError(core->vm_info, core, "Could not allocate VMCB, Exiting...\n");
return -1;
}
if (vm_class == V3_PC_VM) {
- PrintDebug("Initializing VMCB (addr=%p)\n", (void *)core->vmm_data);
+ PrintDebug(core->vm_info, core, "Initializing VMCB (addr=%p)\n", (void *)core->vmm_data);
Init_VMCB_BIOS((vmcb_t*)(core->vmm_data), core);
} else {
- PrintError("Invalid VM class\n");
+ PrintError(core->vm_info, core, "Invalid VM class\n");
return -1;
}
#ifdef V3_CONFIG_CHECKPOINT
int v3_svm_save_core(struct guest_info * core, void * ctx){
- if (v3_chkpt_save_8(ctx, "cpl", &(core->cpl)) == -1) {
- PrintError("Could not save SVM cpl\n");
- return -1;
- }
+ vmcb_saved_state_t * guest_area = GET_VMCB_SAVE_STATE_AREA(core->vmm_data);
+
+ // Special case saves of data we need immediate access to
+ // in some cases
+ V3_CHKPT_SAVE(ctx, "CPL", core->cpl, failout);
+ V3_CHKPT_SAVE(ctx,"STAR", guest_area->star, failout);
+ V3_CHKPT_SAVE(ctx,"CSTAR", guest_area->cstar, failout);
+ V3_CHKPT_SAVE(ctx,"LSTAR", guest_area->lstar, failout);
+ V3_CHKPT_SAVE(ctx,"SFMASK", guest_area->sfmask, failout);
+ V3_CHKPT_SAVE(ctx,"KERNELGSBASE", guest_area->KernelGsBase, failout);
+ V3_CHKPT_SAVE(ctx,"SYSENTER_CS", guest_area->sysenter_cs, failout);
+ V3_CHKPT_SAVE(ctx,"SYSENTER_ESP", guest_area->sysenter_esp, failout);
+ V3_CHKPT_SAVE(ctx,"SYSENTER_EIP", guest_area->sysenter_eip, failout);
+
+// and then we save the whole enchilada
+ if (v3_chkpt_save(ctx, "VMCB_DATA", PAGE_SIZE, core->vmm_data)) {
+ PrintError(core->vm_info, core, "Could not save SVM vmcb\n");
+ goto failout;
+ }
+
+ return 0;
- if (v3_chkpt_save(ctx, "vmcb_data", PAGE_SIZE, core->vmm_data) == -1) {
- PrintError("Could not save SVM vmcb\n");
- return -1;
- }
+ failout:
+ PrintError(core->vm_info, core, "Failed to save SVM state for core\n");
+ return -1;
- return 0;
}
int v3_svm_load_core(struct guest_info * core, void * ctx){
- if (v3_chkpt_load_8(ctx, "cpl", &(core->cpl)) == -1) {
- PrintError("Could not load SVM cpl\n");
- return -1;
- }
- if (v3_chkpt_load(ctx, "vmcb_data", PAGE_SIZE, core->vmm_data) == -1) {
- return -1;
- }
+ vmcb_saved_state_t * guest_area = GET_VMCB_SAVE_STATE_AREA(core->vmm_data);
+
+ // Reload what we special cased, which we will overwrite in a minute
+ V3_CHKPT_LOAD(ctx, "CPL", core->cpl, failout);
+ V3_CHKPT_LOAD(ctx,"STAR", guest_area->star, failout);
+ V3_CHKPT_LOAD(ctx,"CSTAR", guest_area->cstar, failout);
+ V3_CHKPT_LOAD(ctx,"LSTAR", guest_area->lstar, failout);
+ V3_CHKPT_LOAD(ctx,"SFMASK", guest_area->sfmask, failout);
+ V3_CHKPT_LOAD(ctx,"KERNELGSBASE", guest_area->KernelGsBase, failout);
+ V3_CHKPT_LOAD(ctx,"SYSENTER_CS", guest_area->sysenter_cs, failout);
+ V3_CHKPT_LOAD(ctx,"SYSENTER_ESP", guest_area->sysenter_esp, failout);
+ V3_CHKPT_LOAD(ctx,"SYSENTER_EIP", guest_area->sysenter_eip, failout);
+
+ // and then we load the whole enchilada
+ if (v3_chkpt_load(ctx, "VMCB_DATA", PAGE_SIZE, core->vmm_data)) {
+ PrintError(core->vm_info, core, "Could not load SVM vmcb\n");
+ goto failout;
+ }
+
+ return 0;
+
+ failout:
+ PrintError(core->vm_info, core, "Failed to save SVM state for core\n");
+ return -1;
- return 0;
}
#endif
if ((info->intr_core_state.irq_pending == 1) && (guest_ctrl->guest_ctrl.V_IRQ == 0)) {
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("INTAK cycle completed for irq %d\n", info->intr_core_state.irq_vector);
+ PrintDebug(info->vm_info, info, "INTAK cycle completed for irq %d\n", info->intr_core_state.irq_vector);
#endif
info->intr_core_state.irq_started = 1;
if ((info->intr_core_state.irq_started == 1) && (guest_ctrl->exit_int_info.valid == 0)) {
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("Interrupt %d taken by guest\n", info->intr_core_state.irq_vector);
+ PrintDebug(info->vm_info, info, "Interrupt %d taken by guest\n", info->intr_core_state.irq_vector);
#endif
// Interrupt was taken fully vectored
} else if ((info->intr_core_state.irq_started == 1) && (guest_ctrl->exit_int_info.valid == 1)) {
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("EXIT INT INFO is set (vec=%d)\n", guest_ctrl->exit_int_info.vector);
+ PrintDebug(info->vm_info, info, "EXIT INT INFO is set (vec=%d)\n", guest_ctrl->exit_int_info.vector);
#endif
}
guest_ctrl->EVENTINJ.error_code = info->excp_state.excp_error_code;
guest_ctrl->EVENTINJ.ev = 1;
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("Injecting exception %d with error code %x\n", excp, guest_ctrl->EVENTINJ.error_code);
+ PrintDebug(info->vm_info, info, "Injecting exception %d with error code %x\n", excp, guest_ctrl->EVENTINJ.error_code);
#endif
}
guest_ctrl->EVENTINJ.valid = 1;
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("<%d> Injecting Exception %d (CR2=%p) (EIP=%p)\n",
+ PrintDebug(info->vm_info, info, "<%d> Injecting Exception %d (CR2=%p) (EIP=%p)\n",
(int)info->num_exits,
guest_ctrl->EVENTINJ.vector,
(void *)(addr_t)info->ctrl_regs.cr2,
v3_injecting_excp(info, excp);
} else if (info->intr_core_state.irq_started == 1) {
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("IRQ pending from previous injection\n");
+ PrintDebug(info->vm_info, info, "IRQ pending from previous injection\n");
#endif
guest_ctrl->guest_ctrl.V_IRQ = 1;
guest_ctrl->guest_ctrl.V_INTR_VECTOR = info->intr_core_state.irq_vector;
+
+ // We ignore the virtual TPR on this injection
+ // TPR/PPR tests have already been done in the APIC.
guest_ctrl->guest_ctrl.V_IGN_TPR = 1;
- guest_ctrl->guest_ctrl.V_INTR_PRIO = 0xf;
+ guest_ctrl->guest_ctrl.V_INTR_PRIO = info->intr_core_state.irq_vector >> 4 ; // 0xf;
} else {
switch (v3_intr_pending(info)) {
case V3_EXTERNAL_IRQ: {
- uint32_t irq = v3_get_intr(info);
+ int irq = v3_get_intr(info);
+
+ if (irq<0) {
+ break;
+ }
guest_ctrl->guest_ctrl.V_IRQ = 1;
guest_ctrl->guest_ctrl.V_INTR_VECTOR = irq;
+
+ // We ignore the virtual TPR on this injection
+ // TPR/PPR tests have already been done in the APIC.
guest_ctrl->guest_ctrl.V_IGN_TPR = 1;
- guest_ctrl->guest_ctrl.V_INTR_PRIO = 0xf;
+ guest_ctrl->guest_ctrl.V_INTR_PRIO = info->intr_core_state.irq_vector >> 4 ; // 0xf;
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("Injecting Interrupt %d (EIP=%p)\n",
+ PrintDebug(info->vm_info, info, "Injecting Interrupt %d (EIP=%p)\n",
guest_ctrl->guest_ctrl.V_INTR_VECTOR,
(void *)(addr_t)info->rip);
#endif
guest_ctrl->EVENTINJ.type = SVM_INJECTION_SOFT_INTR;
#ifdef V3_CONFIG_DEBUG_INTERRUPTS
- PrintDebug("Injecting software interrupt -- type: %d, vector: %d\n",
+ PrintDebug(info->vm_info, info, "Injecting software interrupt -- type: %d, vector: %d\n",
SVM_INJECTION_SOFT_INTR, info->intr_core_state.swintr_vector);
#endif
guest_ctrl->EVENTINJ.vector = info->intr_core_state.swintr_vector;
v3_svm_config_tsc_virtualization(struct guest_info * info) {
vmcb_ctrl_t * ctrl_area = GET_VMCB_CTRL_AREA((vmcb_t*)(info->vmm_data));
- if (!(info->time_state.flags & VM_TIME_TRAP_RDTSC)) {
+
+ if (info->time_state.flags & VM_TIME_TRAP_RDTSC) {
+ ctrl_area->instrs.RDTSC = 1;
+ ctrl_area->svm_instrs.RDTSCP = 1;
+ } else {
+ ctrl_area->instrs.RDTSC = 0;
+ ctrl_area->svm_instrs.RDTSCP = 0;
+
if (info->time_state.flags & VM_TIME_TSC_PASSTHROUGH) {
ctrl_area->TSC_OFFSET = 0;
} else {
uint64_t guest_cycles = 0;
// Conditionally yield the CPU if the timeslice has expired
- v3_yield_cond(info,-1);
+ v3_schedule(info);
+
+#ifdef V3_CONFIG_MEM_TRACK
+ v3_mem_track_entry(info);
+#endif
// Update timer devices after being in the VM before doing
// IRQ updates, so that any interrupts they raise get seen
v3_advance_time(info, NULL);
v3_update_timers(info);
+
// disable global interrupts for vm state transition
v3_clgi();
guest_state->cr4 = info->ctrl_regs.cr4;
guest_state->dr6 = info->dbg_regs.dr6;
guest_state->dr7 = info->dbg_regs.dr7;
- guest_ctrl->guest_ctrl.V_TPR = info->ctrl_regs.cr8 & 0xff;
+
+ // CR8 is now updated by read/writes and it contains the APIC TPR
+ // the V_TPR should be just the class part of that.
+ // This update is here just for completeness. We currently
+ // are ignoring V_TPR on all injections and doing the priority logivc
+ // in the APIC.
+ // guest_ctrl->guest_ctrl.V_TPR = ((info->ctrl_regs.apic_tpr) >> 4) & 0xf;
+
+ //guest_ctrl->guest_ctrl.V_TPR = info->ctrl_regs.cr8 & 0xff;
+ //
+
guest_state->rflags = info->ctrl_regs.rflags;
guest_state->efer = info->ctrl_regs.efer;
guest_state->rip = info->rip;
guest_state->rsp = info->vm_regs.rsp;
+ V3_FP_ENTRY_RESTORE(info);
+
#ifdef V3_CONFIG_SYMCALL
if (info->sym_core_state.symcall_state.sym_call_active == 0) {
update_irq_entry_state(info);
update_irq_entry_state(info);
#endif
+#ifdef V3_CONFIG_TM_FUNC
+ v3_tm_check_intr_state(info, guest_ctrl, guest_state);
+#endif
+
/* ** */
/*
- PrintDebug("SVM Entry to CS=%p rip=%p...\n",
+ PrintDebug(info->vm_info, info, "SVM Entry to CS=%p rip=%p...\n",
(void *)(addr_t)info->segments.cs.base,
(void *)(addr_t)info->rip);
*/
#ifdef V3_CONFIG_SYMCALL
if (info->sym_core_state.symcall_state.sym_call_active == 1) {
if (guest_ctrl->guest_ctrl.V_IRQ == 1) {
- V3_Print("!!! Injecting Interrupt during Sym call !!!\n");
+ V3_Print(info->vm_info, info, "!!! Injecting Interrupt during Sym call !!!\n");
}
}
#endif
v3_svm_config_tsc_virtualization(info);
- //V3_Print("Calling v3_svm_launch\n");
+ //V3_Print(info->vm_info, info, "Calling v3_svm_launch\n");
{
uint64_t entry_tsc = 0;
uint64_t exit_tsc = 0;
+#ifdef V3_CONFIG_PWRSTAT_TELEMETRY
+ v3_pwrstat_telemetry_enter(info);
+#endif
+
+#ifdef V3_CONFIG_PMU_TELEMETRY
+ v3_pmu_telemetry_enter(info);
+#endif
+
+
rdtscll(entry_tsc);
v3_svm_launch((vmcb_t *)V3_PAddr(info->vmm_data), &(info->vm_regs), (vmcb_t *)host_vmcbs[V3_Get_CPU()]);
rdtscll(exit_tsc);
+#ifdef V3_CONFIG_PMU_TELEMETRY
+ v3_pmu_telemetry_exit(info);
+#endif
+
+#ifdef V3_CONFIG_PWRSTAT_TELEMETRY
+ v3_pwrstat_telemetry_exit(info);
+#endif
+
guest_cycles = exit_tsc - entry_tsc;
}
- //V3_Print("SVM Returned: Exit Code: %x, guest_rip=%lx\n", (uint32_t)(guest_ctrl->exit_code), (unsigned long)guest_state->rip);
+ //V3_Print(info->vm_info, info, "SVM Returned: Exit Code: %x, guest_rip=%lx\n", (uint32_t)(guest_ctrl->exit_code), (unsigned long)guest_state->rip);
v3_last_exit = (uint32_t)(guest_ctrl->exit_code);
info->num_exits++;
+ V3_FP_EXIT_SAVE(info);
+
// Save Guest state from VMCB
info->rip = guest_state->rip;
info->vm_regs.rsp = guest_state->rsp;
info->ctrl_regs.cr4 = guest_state->cr4;
info->dbg_regs.dr6 = guest_state->dr6;
info->dbg_regs.dr7 = guest_state->dr7;
- info->ctrl_regs.cr8 = guest_ctrl->guest_ctrl.V_TPR;
+ //
+ // We do not track this anymore
+ // V_TPR is ignored and we do the logic in the APIC
+ //info->ctrl_regs.cr8 = guest_ctrl->guest_ctrl.V_TPR;
+ //
info->ctrl_regs.rflags = guest_state->rflags;
info->ctrl_regs.efer = guest_state->efer;
// reenable global interrupts after vm exit
v3_stgi();
+
// Conditionally yield the CPU if the timeslice has expired
- v3_yield_cond(info,-1);
+ v3_schedule(info);
// This update timers is for time-dependent handlers
// if we're slaved to host time
v3_advance_time(info, NULL);
v3_update_timers(info);
+
{
int ret = v3_handle_svm_exit(info, exit_code, exit_info1, exit_info2);
if (ret != 0) {
- PrintError("Error in SVM exit handler (ret=%d)\n", ret);
- PrintError(" last Exit was %d (exit code=0x%llx)\n", v3_last_exit, (uint64_t) exit_code);
+ PrintError(info->vm_info, info, "Error in SVM exit handler (ret=%d)\n", ret);
+ PrintError(info->vm_info, info, " last Exit was %d (exit code=0x%llx)\n", v3_last_exit, (uint64_t) exit_code);
return -1;
}
}
v3_handle_timeouts(info, guest_cycles);
}
+#ifdef V3_CONFIG_MEM_TRACK
+ v3_mem_track_exit(info);
+#endif
+
return 0;
}
// vmcb_saved_state_t * guest_state = GET_VMCB_SAVE_STATE_AREA((vmcb_t*)(info->vmm_data));
// vmcb_ctrl_t * guest_ctrl = GET_VMCB_CTRL_AREA((vmcb_t*)(info->vmm_data));
- PrintDebug("Starting SVM core %u (on logical core %u)\n", info->vcpu_id, info->pcpu_id);
+ PrintDebug(info->vm_info, info, "Starting SVM core %u (on logical core %u)\n", info->vcpu_id, info->pcpu_id);
+
- if (info->vcpu_id == 0) {
- info->core_run_state = CORE_RUNNING;
- } else {
- PrintDebug("SVM core %u (on %u): Waiting for core initialization\n", info->vcpu_id, info->pcpu_id);
+#ifdef V3_CONFIG_HVM
+ if (v3_setup_hvm_hrt_core_for_boot(info)) {
+ PrintError(info->vm_info, info, "Failed to setup HRT core...\n");
+ return -1;
+ }
+#endif
+
- while (info->core_run_state == CORE_STOPPED) {
- if (info->vm_info->run_state == VM_STOPPED) {
- // The VM was stopped before this core was initialized.
- return 0;
- }
- v3_yield(info,-1);
- //PrintDebug("SVM core %u: still waiting for INIT\n", info->vcpu_id);
- }
- PrintDebug("SVM core %u(on %u) initialized\n", info->vcpu_id, info->pcpu_id);
+ while (1) {
- // We'll be paranoid about race conditions here
- v3_wait_at_barrier(info);
- }
+ if (info->core_run_state == CORE_STOPPED) {
- PrintDebug("SVM core %u(on %u): I am starting at CS=0x%x (base=0x%p, limit=0x%x), RIP=0x%p\n",
- info->vcpu_id, info->pcpu_id,
- info->segments.cs.selector, (void *)(info->segments.cs.base),
- info->segments.cs.limit, (void *)(info->rip));
+ if (info->vcpu_id == 0) {
+ info->core_run_state = CORE_RUNNING;
+ } else {
+ PrintDebug(info->vm_info, info, "SVM core %u (on %u): Waiting for core initialization\n", info->vcpu_id, info->pcpu_id);
+ V3_NO_WORK(info);
+ while (info->core_run_state == CORE_STOPPED) {
+
+ if (info->vm_info->run_state == VM_STOPPED) {
+ // The VM was stopped before this core was initialized.
+ return 0;
+ }
+
+ V3_STILL_NO_WORK(info);
- PrintDebug("SVM core %u: Launching SVM VM (vmcb=%p) (on cpu %u)\n",
- info->vcpu_id, (void *)info->vmm_data, info->pcpu_id);
- //PrintDebugVMCB((vmcb_t*)(info->vmm_data));
-
- v3_start_time(info);
-
- while (1) {
+ //PrintDebug(info->vm_info, info, "SVM core %u: still waiting for INIT\n", info->vcpu_id);
+ }
+ V3_HAVE_WORK_AGAIN(info);
+
+ PrintDebug(info->vm_info, info, "SVM core %u(on %u) initialized\n", info->vcpu_id, info->pcpu_id);
+
+ // We'll be paranoid about race conditions here
+ v3_wait_at_barrier(info);
+ }
+
+ PrintDebug(info->vm_info, info, "SVM core %u(on %u): I am starting at CS=0x%x (base=0x%p, limit=0x%x), RIP=0x%p\n",
+ info->vcpu_id, info->pcpu_id,
+ info->segments.cs.selector, (void *)(info->segments.cs.base),
+ info->segments.cs.limit, (void *)(info->rip));
+
+
+
+ PrintDebug(info->vm_info, info, "SVM core %u: Launching SVM VM (vmcb=%p) (on cpu %u)\n",
+ info->vcpu_id, (void *)info->vmm_data, info->pcpu_id);
+ //PrintDebugVMCB((vmcb_t*)(info->vmm_data));
+
+ v3_start_time(info);
+ }
+
if (info->vm_info->run_state == VM_STOPPED) {
info->core_run_state = CORE_STOPPED;
break;
}
+
+#ifdef V3_CONFIG_PMU_TELEMETRY
+ v3_pmu_telemetry_start(info);
+#endif
+
+#ifdef V3_CONFIG_PWRSTAT_TELEMETRY
+ v3_pwrstat_telemetry_start(info);
+#endif
if (v3_svm_enter(info) == -1) {
vmcb_ctrl_t * guest_ctrl = GET_VMCB_CTRL_AREA((vmcb_t*)(info->vmm_data));
info->vm_info->run_state = VM_ERROR;
- V3_Print("SVM core %u: SVM ERROR!!\n", info->vcpu_id);
+ V3_Print(info->vm_info, info, "SVM core %u: SVM ERROR!!\n", info->vcpu_id);
v3_print_guest_state(info);
- V3_Print("SVM core %u: SVM Exit Code: %p\n", info->vcpu_id, (void *)(addr_t)guest_ctrl->exit_code);
+ V3_Print(info->vm_info, info, "SVM core %u: SVM Exit Code: %p\n", info->vcpu_id, (void *)(addr_t)guest_ctrl->exit_code);
- V3_Print("SVM core %u: exit_info1 low = 0x%.8x\n", info->vcpu_id, *(uint_t*)&(guest_ctrl->exit_info1));
- V3_Print("SVM core %u: exit_info1 high = 0x%.8x\n", info->vcpu_id, *(uint_t *)(((uchar_t *)&(guest_ctrl->exit_info1)) + 4));
+ V3_Print(info->vm_info, info, "SVM core %u: exit_info1 low = 0x%.8x\n", info->vcpu_id, *(uint_t*)&(guest_ctrl->exit_info1));
+ V3_Print(info->vm_info, info, "SVM core %u: exit_info1 high = 0x%.8x\n", info->vcpu_id, *(uint_t *)(((uchar_t *)&(guest_ctrl->exit_info1)) + 4));
- V3_Print("SVM core %u: exit_info2 low = 0x%.8x\n", info->vcpu_id, *(uint_t*)&(guest_ctrl->exit_info2));
- V3_Print("SVM core %u: exit_info2 high = 0x%.8x\n", info->vcpu_id, *(uint_t *)(((uchar_t *)&(guest_ctrl->exit_info2)) + 4));
+ V3_Print(info->vm_info, info, "SVM core %u: exit_info2 low = 0x%.8x\n", info->vcpu_id, *(uint_t*)&(guest_ctrl->exit_info2));
+ V3_Print(info->vm_info, info, "SVM core %u: exit_info2 high = 0x%.8x\n", info->vcpu_id, *(uint_t *)(((uchar_t *)&(guest_ctrl->exit_info2)) + 4));
linear_addr = get_addr_linear(info, info->rip, &(info->segments.cs));
v3_gva_to_hva(info, linear_addr, &host_addr);
}
- V3_Print("SVM core %u: Host Address of rip = 0x%p\n", info->vcpu_id, (void *)host_addr);
+ V3_Print(info->vm_info, info, "SVM core %u: Host Address of rip = 0x%p\n", info->vcpu_id, (void *)host_addr);
- V3_Print("SVM core %u: Instr (15 bytes) at %p:\n", info->vcpu_id, (void *)host_addr);
+ V3_Print(info->vm_info, info, "SVM core %u: Instr (15 bytes) at %p:\n", info->vcpu_id, (void *)host_addr);
v3_dump_mem((uint8_t *)host_addr, 15);
v3_print_stack(info);
-
+
break;
}
-
+
v3_wait_at_barrier(info);
-
+
if (info->vm_info->run_state == VM_STOPPED) {
info->core_run_state = CORE_STOPPED;
/*
if ((info->num_exits % 50000) == 0) {
- V3_Print("SVM Exit number %d\n", (uint32_t)info->num_exits);
+ V3_Print(info->vm_info, info, "SVM Exit number %d\n", (uint32_t)info->num_exits);
v3_print_guest_state(info);
}
*/
}
+#ifdef V3_CONFIG_PMU_TELEMETRY
+ v3_pmu_telemetry_end(info);
+#endif
+
+#ifdef V3_CONFIG_PWRSTAT_TELEMETRY
+ v3_pwrstat_telemetry_end(info);
+#endif
// Need to take down the other cores on error...
return 0;
v3_cpuid(CPUID_EXT_FEATURE_IDS, &eax, &ebx, &ecx, &edx);
- PrintDebug("CPUID_EXT_FEATURE_IDS_ecx=0x%x\n", ecx);
+ PrintDebug(VM_NONE, VCORE_NONE, "CPUID_EXT_FEATURE_IDS_ecx=0x%x\n", ecx);
if ((ecx & CPUID_EXT_FEATURE_IDS_ecx_svm_avail) == 0) {
- V3_Print("SVM Not Available\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM Not Available\n");
return 0;
} else {
v3_get_msr(SVM_VM_CR_MSR, &vm_cr_high, &vm_cr_low);
- PrintDebug("SVM_VM_CR_MSR = 0x%x 0x%x\n", vm_cr_high, vm_cr_low);
+ PrintDebug(VM_NONE, VCORE_NONE, "SVM_VM_CR_MSR = 0x%x 0x%x\n", vm_cr_high, vm_cr_low);
if ((vm_cr_low & SVM_VM_CR_MSR_svmdis) == 1) {
- V3_Print("SVM is available but is disabled.\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM is available but is disabled.\n");
v3_cpuid(CPUID_SVM_REV_AND_FEATURE_IDS, &eax, &ebx, &ecx, &edx);
- PrintDebug("CPUID_SVM_REV_AND_FEATURE_IDS_edx=0x%x\n", edx);
+ PrintDebug(VM_NONE, VCORE_NONE, "CPUID_SVM_REV_AND_FEATURE_IDS_edx=0x%x\n", edx);
if ((edx & CPUID_SVM_REV_AND_FEATURE_IDS_edx_svml) == 0) {
- V3_Print("SVM BIOS Disabled, not unlockable\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM BIOS Disabled, not unlockable\n");
} else {
- V3_Print("SVM is locked with a key\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM is locked with a key\n");
}
return 0;
} else {
- V3_Print("SVM is available and enabled.\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM is available and enabled.\n");
v3_cpuid(CPUID_SVM_REV_AND_FEATURE_IDS, &eax, &ebx, &ecx, &edx);
- PrintDebug("CPUID_SVM_REV_AND_FEATURE_IDS_eax=0x%x\n", eax);
- PrintDebug("CPUID_SVM_REV_AND_FEATURE_IDS_ebx=0x%x\n", ebx);
- PrintDebug("CPUID_SVM_REV_AND_FEATURE_IDS_ecx=0x%x\n", ecx);
- PrintDebug("CPUID_SVM_REV_AND_FEATURE_IDS_edx=0x%x\n", edx);
+ PrintDebug(VM_NONE, VCORE_NONE, "CPUID_SVM_REV_AND_FEATURE_IDS_eax=0x%x\n", eax);
+ PrintDebug(VM_NONE, VCORE_NONE, "CPUID_SVM_REV_AND_FEATURE_IDS_ebx=0x%x\n", ebx);
+ PrintDebug(VM_NONE, VCORE_NONE, "CPUID_SVM_REV_AND_FEATURE_IDS_ecx=0x%x\n", ecx);
+ PrintDebug(VM_NONE, VCORE_NONE, "CPUID_SVM_REV_AND_FEATURE_IDS_edx=0x%x\n", edx);
return 1;
}
v3_cpuid(CPUID_SVM_REV_AND_FEATURE_IDS, &eax, &ebx, &ecx, &edx);
- //PrintDebug("CPUID_EXT_FEATURE_IDS_edx=0x%x\n", edx);
+ //PrintDebug(VM_NONE, VCORE_NONE, "CPUID_EXT_FEATURE_IDS_edx=0x%x\n", edx);
if ((edx & CPUID_SVM_REV_AND_FEATURE_IDS_edx_np) == 0) {
- V3_Print("SVM Nested Paging not supported\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM Nested Paging not supported\n");
return 0;
} else {
- V3_Print("SVM Nested Paging supported\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM Nested Paging supported\n");
return 1;
}
}
msr.e_reg.low |= EFER_MSR_svm_enable;
v3_set_msr(EFER_MSR, 0, msr.e_reg.low);
- V3_Print("SVM Enabled\n");
+ V3_Print(VM_NONE, VCORE_NONE, "SVM Enabled\n");
// Setup the host state save area
- host_vmcbs[cpu_id] = (addr_t)V3_AllocPages(4);
+ host_vmcbs[cpu_id] = (addr_t)V3_AllocPages(4); // need not be shadow-safe, not exposed to guest
if (!host_vmcbs[cpu_id]) {
- PrintError("Failed to allocate VMCB\n");
+ PrintError(VM_NONE, VCORE_NONE, "Failed to allocate VMCB\n");
return;
}
//msr.e_reg.low = (uint_t)host_vmcb;
msr.r_reg = host_vmcbs[cpu_id];
- PrintDebug("Host State being saved at %p\n", (void *)host_vmcbs[cpu_id]);
+ PrintDebug(VM_NONE, VCORE_NONE, "Host State being saved at %p\n", (void *)host_vmcbs[cpu_id]);
v3_set_msr(SVM_VM_HSAVE_PA_MSR, msr.e_reg.high, msr.e_reg.low);
V3_FreePages((void *)host_vmcbs[cpu_id], 4);
- V3_Print("Host CPU %d host area freed, and SVM disabled\n", cpu_id);
+ V3_Print(VM_NONE, VCORE_NONE, "Host CPU %d host area freed, and SVM disabled\n", cpu_id);
return;
}
end <<= 32;
end += end_lo;
- PrintDebug("VMSave Cycle Latency: %d\n", (uint32_t)(end - start));
+ PrintDebug(core->vm_info, core, "VMSave Cycle Latency: %d\n", (uint32_t)(end - start));
__asm__ __volatile__ (
"rdtsc ; "
end += end_lo;
- PrintDebug("VMLoad Cycle Latency: %d\n", (uint32_t)(end - start));
+ PrintDebug(core->vm_info, core, "VMLoad Cycle Latency: %d\n", (uint32_t)(end - start));
}
/* End Latency Test */
ctrl_area->instrs.IOIO_PROT = 1;
- ctrl_area->IOPM_BASE_PA = (uint_t)V3_AllocPages(3);
+ ctrl_area->IOPM_BASE_PA = (uint_t)V3_AllocPages(3); // need not be shadow-safe, not exposed to guest
if (!ctrl_area->IOPM_BASE_PA) {
- PrintError("Cannot allocate IO bitmap\n");
+ PrintError(core->vm_info, core, "Cannot allocate IO bitmap\n");
return;
}
GetGDTR(gdt_buf);
gdt_base = *(ulong_t*)((uchar_t*)gdt_buf + 2) & 0xffffffff;
gdt_limit = *(ushort_t*)(gdt_buf) & 0xffff;
- PrintDebug("GDT: base: %x, limit: %x\n", gdt_base, gdt_limit);
+ PrintDebug(core->vm_info, core, "GDT: base: %x, limit: %x\n", gdt_base, gdt_limit);
GetIDTR(idt_buf);
idt_base = *(ulong_t*)(idt_buf + 2) & 0xffffffff;
idt_limit = *(ushort_t*)(idt_buf) & 0xffff;
- PrintDebug("IDT: base: %x, limit: %x\n",idt_base, idt_limit);
+ PrintDebug(core->vm_info, core, "IDT: base: %x, limit: %x\n",idt_base, idt_limit);
// gdt_base -= 0x2000;
// Enable Nested Paging
ctrl_area->NP_ENABLE = 1;
- PrintDebug("NP_Enable at 0x%x\n", &(ctrl_area->NP_ENABLE));
+ PrintDebug(core->vm_info, core, "NP_Enable at 0x%x\n", &(ctrl_area->NP_ENABLE));
// Set the Nested Page Table pointer
ctrl_area->N_CR3 |= ((addr_t)vm_info.page_tables & 0xfffff000);
guest_state->g_pat = 0x7040600070406ULL;
- PrintDebug("Set Nested CR3: lo: 0x%x hi: 0x%x\n", (uint_t)*(&(ctrl_area->N_CR3)), (uint_t)*((unsigned char *)&(ctrl_area->N_CR3) + 4));
- PrintDebug("Set Guest CR3: lo: 0x%x hi: 0x%x\n", (uint_t)*(&(guest_state->cr3)), (uint_t)*((unsigned char *)&(guest_state->cr3) + 4));
+ PrintDebug(core->vm_info, core, "Set Nested CR3: lo: 0x%x hi: 0x%x\n", (uint_t)*(&(ctrl_area->N_CR3)), (uint_t)*((unsigned char *)&(ctrl_area->N_CR3) + 4));
+ PrintDebug(core->vm_info, core, "Set Guest CR3: lo: 0x%x hi: 0x%x\n", (uint_t)*(&(guest_state->cr3)), (uint_t)*((unsigned char *)&(guest_state->cr3) + 4));
// Enable Paging
// guest_state->cr0 |= 0x80000000;
}