// Copyright 2017 The Chromium OS Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #![cfg(any(target_arch = "x86", target_arch = "x86_64"))] extern crate sys_util; extern crate kvm_sys; extern crate kvm; use kvm::*; use kvm_sys::kvm_regs; use sys_util::{GuestAddress, GuestMemory, SharedMemory, MemoryMapping}; #[test] fn test_run() { /* 0000 881C mov [si],bl 0002 F4 hlt */ let code = [0x88, 0x1c, 0xf4]; let mem_size = 0x10000; let load_addr = GuestAddress(0x1000); let guest_mem = GuestMemory::new(&[]).unwrap(); let mut mem = SharedMemory::new(None).expect("failed to create shared memory"); mem.set_size(mem_size) .expect("failed to set shared memory size"); let mmap = MemoryMapping::from_fd(&mem, mem_size as usize) .expect("failed to create memory mapping"); mmap.write_slice(&code[..], load_addr.offset() as usize) .expect("Writing code to memory failed."); let kvm = Kvm::new().expect("new kvm failed"); let mut vm = Vm::new(&kvm, guest_mem).expect("new vm failed"); let vcpu = Vcpu::new(0, &kvm, &vm).expect("new vcpu failed"); let mut vcpu_sregs = vcpu.get_sregs().expect("get sregs failed"); vcpu_sregs.cs.base = 0; vcpu_sregs.cs.selector = 0; vcpu.set_sregs(&vcpu_sregs).expect("set sregs failed"); let mut vcpu_regs: kvm_regs = unsafe { std::mem::zeroed() }; vcpu_regs.rip = load_addr.offset() as u64; vcpu_regs.rflags = 2; // Write 0x12 to the beginning of the 9th page. vcpu_regs.rsi = 0x8000; vcpu_regs.rbx = 0x12; vcpu.set_regs(&vcpu_regs).expect("set regs failed"); let slot = vm.add_device_memory(GuestAddress(0), MemoryMapping::from_fd(&mem, mem_size as usize) .expect("failed to create memory mapping"), false, true) .expect("failed to register memory"); loop { match vcpu.run().expect("run failed") { VcpuExit::Hlt => break, r => panic!("unexpected exit reason: {:?}", r), } } let mut dirty_log = [0x0, 0x0]; vm.get_dirty_log(slot, &mut dirty_log[..]) .expect("failed to get dirty log"); // Tests the 9th page was written to. assert_eq!(dirty_log[1], 0x1); assert_eq!(mmap.read_obj::(vcpu_regs.rsi as usize).unwrap(), vcpu_regs.rbx); }