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https://chromium.googlesource.com/crosvm/crosvm
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73a8ca8efa
The hypervisor::haxm module is only available for cfg(windows), so make the cfg wrapping the tests use the same condition as the haxm module. In theory, HAXM is available on Linux, but we don't support that; this change makes the cfg checks consistent so that building and testing with --features=haxm on Linux can succeed (without actually enabling HAXM). TEST=cargo nextest run --workspace --features=haxm # on Linux Change-Id: I6642acbe145ab8a44600e151443e05d349e05681 Reviewed-on: https://chromium-review.googlesource.com/c/crosvm/crosvm/+/5354026 Reviewed-by: Noah Gold <nkgold@google.com> Commit-Queue: Daniel Verkamp <dverkamp@chromium.org>
195 lines
6.5 KiB
Rust
195 lines
6.5 KiB
Rust
// Copyright 2020 The ChromiumOS Authors
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// TODO(b/237714823): Currently, only kvm is enabled for this test once LUCI can run windows.
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#![cfg(any(target_os = "android", target_os = "linux"))]
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#![cfg(target_arch = "x86_64")]
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use base::MemoryMappingBuilder;
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use base::SharedMemory;
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use hypervisor::*;
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use vm_memory::GuestAddress;
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use vm_memory::GuestMemory;
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#[test]
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#[cfg(any(target_os = "android", target_os = "linux"))]
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fn test_kvm_remove_memory() {
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use hypervisor::kvm::*;
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test_remove_memory(|guest_mem| {
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let kvm = Kvm::new().expect("failed to create kvm");
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let vm = KvmVm::new(&kvm, guest_mem, Default::default()).expect("failed to create vm");
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(kvm, vm)
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});
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}
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#[test]
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#[cfg(all(windows, feature = "haxm"))]
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fn test_haxm_remove_memory() {
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use hypervisor::haxm::*;
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test_remove_memory(|guest_mem| {
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let haxm = Haxm::new().expect("failed to create haxm");
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let vm = HaxmVm::new(&haxm, guest_mem).expect("failed to create vm");
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(haxm, vm)
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});
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}
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#[test]
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#[cfg(feature = "gvm")]
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fn test_gvm_remove_memory() {
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use hypervisor::gvm::*;
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test_remove_memory(|guest_mem| {
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let gvm = Gvm::new().expect("failed to create gvm");
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let vm = GvmVm::new(&gvm, guest_mem).expect("failed to create vm");
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(gvm, vm)
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});
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}
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#[test]
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#[cfg(all(windows, feature = "whpx"))]
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fn test_whpx_remove_memory() {
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use hypervisor::whpx::*;
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if !Whpx::is_enabled() {
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return;
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}
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test_remove_memory(|guest_mem| {
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let whpx = Whpx::new().expect("failed to create whpx");
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let vm =
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WhpxVm::new(&whpx, 1, guest_mem, CpuId::new(0), false).expect("failed to create vm");
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(whpx, vm)
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});
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}
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fn test_remove_memory<CreateVm, HypervisorT, VmT>(create_vm: CreateVm)
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where
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CreateVm: FnOnce(GuestMemory) -> (HypervisorT, VmT),
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HypervisorT: Hypervisor,
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VmT: VmX86_64,
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{
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/*
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0x0000000000000000: A0 00 30 mov al, byte ptr [0x3000]
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0x0000000000000003: F4 hlt
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*/
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let code = [0xa0, 0x00, 0x30, 0xf4];
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let mem_size = 0x2000;
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let load_addr = GuestAddress(0x1000);
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// GuestMemory requires an initial set of memory, so we just
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// setup some at 0x8000, it won't be used though.
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let guest_mem =
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GuestMemory::new(&[(GuestAddress(0x8000), 0x1000)]).expect("failed to create guest mem");
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let mem = SharedMemory::new("test", mem_size).expect("failed to create shared memory");
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let mmap = MemoryMappingBuilder::new(mem_size as usize)
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.from_shared_memory(&mem)
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.build()
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.expect("failed to create memory mapping");
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mmap.write_slice(&code[..], load_addr.offset() as usize)
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.expect("Writing code to memory failed.");
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let (_, mut vm) = create_vm(guest_mem);
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let mut vcpu = vm.create_vcpu(0).expect("new vcpu failed");
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let mut vcpu_sregs = vcpu.get_sregs().expect("get sregs failed");
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vcpu_sregs.cs.base = 0;
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vcpu_sregs.cs.selector = 0;
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vcpu.set_sregs(&vcpu_sregs).expect("set sregs failed");
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let vcpu_regs = Regs {
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rip: load_addr.offset(),
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rflags: 2,
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..Default::default()
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};
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vcpu.set_regs(&vcpu_regs).expect("set regs failed");
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vm.add_memory_region(
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GuestAddress(0),
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Box::new(
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MemoryMappingBuilder::new(mem_size as usize)
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.from_shared_memory(&mem)
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.build()
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.expect("failed to create memory mapping"),
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),
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false,
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false,
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MemCacheType::CacheCoherent,
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)
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.expect("failed to register memory");
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// This is our memory that we will remove
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let mem_to_remove = SharedMemory::new("test", 0x1000).expect("failed to create shared memory");
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let mmap_to_remove = MemoryMappingBuilder::new(0x1000)
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.from_shared_memory(&mem_to_remove)
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.build()
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.expect("failed to create memory mapping");
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mmap_to_remove
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.write_obj(0x55, 0)
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.expect("failed writing data to ro memory");
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let slot_to_remove = vm
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.add_memory_region(
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GuestAddress(0x3000),
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Box::new(
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MemoryMappingBuilder::new(0x1000)
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.from_shared_memory(&mem_to_remove)
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.build()
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.expect("failed to create memory mapping"),
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),
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false,
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false,
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MemCacheType::CacheCoherent,
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)
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.expect("failed to register memory");
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// We do our initial run of our program, it should load the value of 0x55
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// from guest address 0x3000 into rax
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loop {
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match vcpu.run().expect("run failed") {
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// Continue on external interrupt or signal
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VcpuExit::Intr => continue,
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VcpuExit::Hlt => break,
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r => panic!("unexpected exit reason: {:?}", r),
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}
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}
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let mut regs = vcpu.get_regs().expect("failed to get regs");
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assert_eq!(regs.rax, 0x55);
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// now we're going to run the same instructions again, but remove the memory first
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regs.rax = 0;
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regs.rip = load_addr.offset();
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vcpu.set_regs(®s).expect("failed to set regs");
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// now that we have removed the memory region at 0x3000, the mov [0x3000],al instruction
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// should produce mmio
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vm.remove_memory_region(slot_to_remove)
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.expect("failed to remove memory region");
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loop {
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match vcpu.run().expect("run failed") {
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// Continue on external interrupt or signal
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VcpuExit::Intr => continue,
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VcpuExit::Hlt => break,
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VcpuExit::Mmio => {
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vcpu.handle_mmio(&mut |IoParams {
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address,
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size,
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operation,
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}| match operation {
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IoOperation::Read => {
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let mut data = [0u8; 8];
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assert_eq!(address, 0x3000);
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assert_eq!(size, 1);
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data.copy_from_slice(&0x44_u64.to_ne_bytes());
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Some(data)
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}
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IoOperation::Write { .. } => {
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panic!("unexpected mmio write");
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}
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})
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.expect("failed to set the data");
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}
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r => panic!("unexpected exit reason: {:?}", r),
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}
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}
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let regs = vcpu.get_regs().expect("failed to get regs");
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assert_eq!(regs.rax, 0x44);
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}
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