--- /dev/null
+/*
+ * 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 <jarusl@cs.northwestern.edu>
+ * Copyright (c) 2008, The V3VEE Project <http://www.v3vee.org>
+ * All rights reserved.
+ *
+ * Author: Jack Lange <jarusl@cs.northwestern.edu>
+ *
+ * This is free software. You are permitted to use,
+ * redistribute, and modify it as specified in the file "V3VEE_LICENSE".
+ */
+
+static int PanicUnhandledVMExit(struct VM *vm)
+{
+ PrintInfo("Panicking due to VMExit with reason %u\n", vm->vmcs.exitInfoFields.reason);
+ PrintTrace("Panicking due to VMExit with reason %u\n", vm->vmcs.exitInfoFields.reason);
+ PrintTrace_VMCS_ALL();
+ PrintTrace_VMX_Regs(&(vm->registers));
+ VMXPanic();
+ return 0;
+}
+
+
+
+
+
+static int HandleVMPrintsAndPanics(struct VM *vm, uint_t port, uint_t data)
+{
+ if (port==VMXASSIST_INFO_PORT &&
+ (vm->state == VM_VMXASSIST_STARTUP ||
+ vm->state == VM_VMXASSIST_V8086_BIOS ||
+ vm->state == VM_VMXASSIST_V8086)) {
+ // Communication channel from VMXAssist
+ PrintTrace("VMXASSIST Output Port\n");
+ PrintDebug("%c",data&0xff);
+ return 1;
+ }
+
+ if ((port==ROMBIOS_PANIC_PORT ||
+ port==ROMBIOS_PANIC_PORT2 ||
+ port==ROMBIOS_DEBUG_PORT ||
+ port==ROMBIOS_INFO_PORT) &&
+ (vm->state==VM_VMXASSIST_V8086_BIOS)) {
+ // rombios is communicating
+ PrintTrace("ROMBIOS Output Port\n");
+ // PrintDebug("%c",data&0xff);
+ return 1;
+ }
+
+ if (port==BOOT_STATE_CARD_PORT && vm->state==VM_VMXASSIST_V8086_BIOS) {
+ // rombios is sending something to the display card
+ PrintTrace("Hex Display: 0x%x\n",data&0xff);
+ return 1;
+ }
+ return 0;
+}
+
+static int HandleInOutExit(struct VM *vm)
+{
+ uint_t address;
+
+ struct VMCSExitInfoFields *exitinfo = &(vm->vmcs.exitInfoFields);
+ struct VMExitIOQual * qual = (struct VMExitIOQual *)&(vm->vmcs.exitInfoFields.qualification);
+ struct VMXRegs *regs = &(vm->registers);
+
+ address=GetLinearIP(vm);
+
+ PrintTrace("Handling Input/Output Instruction Exit\n");
+
+ PrintTrace_VMX_Regs(regs);
+
+ PrintTrace("Qualifications=0x%x\n", exitinfo->qualification);
+ PrintTrace("Reason=0x%x\n", exitinfo->reason);
+ PrintTrace("IO Port: 0x%x (%d)\n", qual->port, qual->port);
+ PrintTrace("Instruction Info=%x\n", exitinfo->instrInfo);
+ PrintTrace("%x : %s %s %s instruction of length %d for %d bytes from/to port 0x%x\n",
+ address,
+ qual->dir == 0 ? "output" : "input",
+ qual->string ==0 ? "nonstring" : "STRING",
+ qual->REP == 0 ? "with no rep" : "WITH REP",
+ exitinfo->instrLength,
+ qual->accessSize==0 ? 1 : qual->accessSize==1 ? 2 : 4,
+ qual->port);
+
+ if ((qual->port == PIC_MASTER_CMD_ISR_PORT) ||
+ (qual->port == PIC_MASTER_IMR_PORT) ||
+ (qual->port == PIC_SLAVE_CMD_ISR_PORT) ||
+ (qual->port == PIC_SLAVE_IMR_PORT)) {
+ PrintTrace( "PIC Access\n");
+ }
+
+
+ if ((qual->dir == 1) && (qual->REP == 0) && (qual->string == 0)) {
+ char byte = In_Byte(qual->port);
+
+ vm->vmcs.guestStateArea.rip += exitinfo->instrLength;
+ regs->eax = (regs->eax & 0xffffff00) | byte;
+ PrintTrace("Returning 0x%x in eax\n", (regs->eax));
+ }
+
+ if (qual->dir==0 && qual->REP==0 && qual->string==0) {
+ // See if we need to handle the outb as a signal or
+ // print from the VM
+ if (HandleVMPrintsAndPanics(vm,qual->port,regs->eax)) {
+ } else {
+ // If not, just go ahead and do the outb
+ Out_Byte(qual->port,regs->eax);
+ PrintTrace("Wrote 0x%x to port\n",(regs->eax));
+ }
+ vm->vmcs.guestStateArea.rip += exitinfo->instrLength;
+ }
+
+ return 0;
+}
+
+
+static int HandleExternalIRQExit(struct VM *vm)
+{
+ struct VMCSExitInfoFields * exitinfo = &(vm->vmcs.exitInfoFields);
+ struct VMExitIntInfo * intInfo = (struct VMExitIntInfo *)&(vm->vmcs.exitInfoFields.intInfo);
+
+ PrintTrace("External Interrupt captured\n");
+ PrintTrace("IntInfo: %x\n", exitinfo->intInfo);
+
+
+ if (!intInfo->valid) {
+ // interrupts are off, but this interrupt is not acknoledged (still pending)
+ // so we turn on interrupts to deliver appropriately in the
+ // host
+ PrintTrace("External Interrupt is invald. Turning Interrupts back on\n");
+ asm("sti");
+ return 0;
+ }
+
+ // At this point, interrupts are off and the interrupt has been
+ // acknowledged. We will now handle the interrupt ourselves
+ // and turn interrupts back on in the host
+
+ PrintTrace("type: %d\n", intInfo->type);
+ PrintTrace("number: %d\n", intInfo->nr);
+
+ PrintTrace("Interrupt %d occuring now and handled by HandleExternalIRQExit\n",intInfo->nr);
+
+ switch (intInfo->type) {
+ case 0: { // ext. IRQ
+ // In the following, we construct an "int x" instruction
+ // where x is the specific interrupt number that is raised
+ // then we execute that instruciton
+ // because we are in host context, that means it is delivered as normal
+ // through the host IDT
+
+ ((char*)(&&ext_int_seq_start))[1] = intInfo->nr;
+
+ PrintTrace("Interrupt instruction setup done %x\n", *((ushort_t *)(&&ext_int_seq_start)));
+
+ext_int_seq_start:
+ asm("int $0");
+ }
+
+ break;
+ case 2: // NMI
+ PrintTrace("Type: NMI\n");
+ break;
+ case 3: // hw exception
+ PrintTrace("Type: HW Exception\n");
+ break;
+ case 4: // sw exception
+ PrintTrace("Type: SW Exception\n");
+ break;
+ default:
+ PrintTrace("Invalid Interrupt Type\n");
+ return -1;
+ }
+
+ if (intInfo->valid && intInfo->errorCode) {
+ PrintTrace("IntError: %x\n", exitinfo->intErrorCode);
+ }
+
+
+ return 0;
+
+}
+
+
+
+
+
+
+
+static int HandleExceptionOrNMI(struct VM *vm)
+{
+ struct Instruction inst;
+ uint_t num;
+ uint_t type;
+ uint_t errorvalid;
+ uint_t error;
+ uint_t ext=0;
+ uint_t idt=0;
+ uint_t ti=0;
+ uint_t selectorindex=0;
+
+ PrintTrace("Exception or NMI occurred\n");
+
+ num=vm->vmcs.exitInfoFields.intInfo & 0xff;
+ type=(vm->vmcs.exitInfoFields.intInfo & 0x700)>>8;
+ errorvalid=(vm->vmcs.exitInfoFields.intInfo & 0x800)>>11;
+ if (errorvalid) {
+ error=vm->vmcs.exitInfoFields.intErrorCode;
+ ext=error&0x1;
+ idt=(error&0x2)>>1;
+ ti=(error&0x4)>>2;
+ selectorindex=(error>>3)&0xffff;
+ }
+
+ PrintTrace("Exception %d now - handled by HandleExceptionOrNMI\n",num);
+
+ PrintTrace("Exception Number %u : %s\n", num, exception_names[num]);
+ PrintTrace("Exception Type %u : %s\n", type, exception_type_names[type]);
+ if (errorvalid) {
+ if (ext) {
+ PrintTrace("External\n");
+ } else {
+ PrintTrace("%s - Selector Index is %u\n", idt ? "IDT" : ti ? "LDT" : "GDT", selectorindex);
+ }
+ }
+
+ DecodeCurrentInstruction(vm,&inst);
+
+ if (inst.type==VM_MOV_TO_CR0) {
+ PrintTrace("MOV TO CR0, oldvalue=0x%x, newvalue=0x%x\n",inst.input2, inst.input1);
+ if ((inst.input2 & CR0_PE) && !(inst.input1 & CR0_PE) && vm->state==VM_VMXASSIST_STARTUP) {
+ // This is VMXAssist signalling for us to turn on V8086 mode and
+ // jump into the bios
+ PrintTrace("VMXAssist is signaling us for switch to V8086 mode and jump to 0xf000:fff0\n");
+ SetupV8086ModeForBoot(vm);
+ goto leave;
+ } else {
+ PrintTrace("Instruction is a write to CR0, but we don't understand it so we'll just exec it\n");
+ }
+ }
+
+
+ PrintTrace("Trying to execute the faulting instruction in VMM context now\n");
+ ExecFaultingInstructionInVMM(vm);
+
+ leave:
+ //
+ //PanicUnhandledVMExit(vmcs,regs);
+ //VMXPanic();
+ return 0;
+}
+
+
+
+
+
+int Do_VMM(struct VMXRegs regs)
+{
+
+ ullong_t vmcs_ptr = 0;
+ uint_t vmcs_ptr_low = 0;
+ int ret = 0;
+ uint_t vmx_abort = 0;
+
+
+
+ PrintTrace("Vm Exit\n");
+ ret = VMCS_STORE(&vmcs_ptr);
+ vmcs_ptr &= 0xffffffff;
+ vmcs_ptr_low += vmcs_ptr;
+
+
+
+
+ PrintTrace("ret=%d\n", ret);
+ PrintTrace("Revision: %x\n", *(uint_t *)(vmcs_ptr_low));
+ vmx_abort = *(uint_t*)(((char *)vmcs_ptr_low)+4);
+
+ struct VM *vm = FindVM();
+
+ if (vmx_abort != 0) {
+ PrintTrace("VM ABORTED w/ code: %x\n", vmx_abort);
+ return -1;
+ }
+
+ vm->registers = regs;
+
+ if (CopyOutVMCSData(&(vm->vmcs)) != 0) {
+ PrintTrace("Could not copy out VMCS\n");
+ return -1;
+ }
+
+
+ PrintTrace("Guest esp: 0x%x (%u)\n", vm->vmcs.guestStateArea.rsp, vm->vmcs.guestStateArea.rsp);
+
+ PrintTrace("VM Exit for reason: %d (%x)\n",
+ vm->vmcs.exitInfoFields.reason & 0x00000fff,
+ vm->vmcs.exitInfoFields.reason);
+
+ if (vm->vmcs.exitInfoFields.reason & (0x1<<29) ) {
+ PrintTrace("VM Exit is from VMX root operation. Panicking\n");
+ VMXPanic();
+ }
+
+ if (vm->vmcs.exitInfoFields.reason & (0x1<<31) ) {
+ PrintTrace("VM Exit is due to a VM entry failure. Shouldn't happen here. Panicking\n");
+ PrintTrace_VMCSData(&(vm->vmcs));
+ VMXPanic();
+ }
+
+ switch (vm->vmcs.exitInfoFields.reason) {
+ case VM_EXIT_REASON_INFO_EXCEPTION_OR_NMI:
+ ret = HandleExceptionOrNMI(vm);
+ break;
+ case VM_EXIT_REASON_EXTERNAL_INTR:
+ ret = HandleExternalIRQExit(vm);
+ break;
+ case VM_EXIT_REASON_TRIPLE_FAULT:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_INIT_SIGNAL:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_STARTUP_IPI:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_IO_SMI:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_OTHER_SMI:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_INTR_WINDOW:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_NMI_WINDOW:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_TASK_SWITCH:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_CPUID:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_INVD:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_INVLPG:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_RDPMC:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_RDTSC:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_RSM:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMCALL:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMCLEAR:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMLAUNCH:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMPTRLD:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMPTRST:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMREAD:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMRESUME:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMWRITE:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMXOFF:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_VMXON:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_CR_REG_ACCESSES:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_MOV_DR:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_IO_INSTR:
+ ret = HandleInOutExit(vm);
+ break;
+ case VM_EXIT_REASON_RDMSR:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_WRMSR:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_ENTRY_FAIL_INVALID_GUEST_STATE:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_ENTRY_FAIL_MSR_LOAD:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_MWAIT:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_MONITOR:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_PAUSE:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_ENTRY_FAILURE_MACHINE_CHECK:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ case VM_EXIT_REASON_TPR_BELOW_THRESHOLD:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ default:
+ ret = PanicUnhandledVMExit(vm);
+ break;
+ }
+
+
+ regs = vm->registers;
+ CopyInVMCSData(&(vm->vmcs));
+
+ /*
+ {
+ VMCS_CLEAR(vmcs_ptr);
+ }
+ */
+
+ PrintTrace("Returning from Do_VMM: %d\n", ret);
+
+ return ret;
+}
+
+
+
+
+
+
+// simply execute the instruction that is faulting and return
+static int ExecFaultingInstructionInVMM(struct VM *vm)
+{
+ uint_t address = GetLinearIP(vm);
+ myregs = (uint_t)&(vm->registers);
+
+
+ PrintTrace("About the execute faulting instruction!\n");
+ PrintTrace("Instruction is:\n");
+ PrintTraceMemDump((void*)(address),vm->vmcs.exitInfoFields.instrLength);
+
+
+ PrintTrace("The template code is:\n");
+ PrintTraceMemDump(&&template_code,TEMPLATE_CODE_LEN);
+
+ // clone the template code
+ //memcpy(&&template_code,code,MAX_CODE);
+
+ // clean up the nop field
+ memset(&&template_code+INSTR_OFFSET_START,*((uchar_t *)(&&template_code+0)),NOP_SEQ_LEN);
+ // overwrite the nops with the faulting instruction
+ memcpy(&&template_code+INSTR_OFFSET_START, (void*)(address),vm->vmcs.exitInfoFields.instrLength);
+
+ PrintTrace("Finished modifying the template code, which now is:\n");
+ PrintTraceMemDump(&&template_code,TEMPLATE_CODE_LEN);
+
+ PrintTrace("Now entering modified template code\n");
+
+
+ template_code:
+ // Template code stores current registers,
+ // restores registers, has a landing pad of noops
+ // that will be modified, restores current regs, and then returns
+ //
+ // Note that this currently ignores cr0, cr3, cr4, dr7, rsp, rip, and rflags
+ // it also blythly assumes it can exec the instruction in protected mode
+ //
+ __asm__ __volatile__ ("nop\n" // for cloning purposes (1 byte)
+ "pusha\n" // push our current regs onto the current stack (1 byte)
+ "movl %0, %%eax\n" // Get oldesp location (5 bytes)
+ "movl %%esp, (%%eax)\n" // store the current stack pointer in oldesp (2 bytes)
+ "movl %1, %%eax\n" // Get regs location (5 bytes)
+ "movl (%%eax), %%esp\n" // point esp at regs (2 bytes)
+ "popa\n" // now we have the VM registers restored (1 byte)
+ "nop\n" // now we execute the actual instruction (1 byte x 10)
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ "nop\n" // now we execute the actual instruction
+ // need to copy back to the VM registers!
+ "movl %0, %%eax\n" // recapture oldesp location (5 bytes)
+ "movl (%%eax), %%esp\n" // now we'll get our esp back from oldesp (2 bytes)
+ "popa\n" // and restore our GP regs and we're done (1 byte)
+ : "=m"(oldesp)
+ : "m"(myregs)
+ );
+
+ PrintTrace("Survived executing the faulting instruction and returning.\n");
+
+ vm->vmcs.guestStateArea.rip += vm->vmcs.exitInfoFields.instrLength;
+
+ return 0;
+
+}
+