mirror of
https://github.com/cloud-hypervisor/cloud-hypervisor.git
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1a2d0e6dd8
Requires manual change to command line loading. Signed-off-by: Rob Bradford <robert.bradford@intel.com>
234 lines
6.9 KiB
Rust
234 lines
6.9 KiB
Rust
// Copyright 2020 Arm Limited (or its affiliates). All rights reserved.
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// Copyright 2019 Amazon.com, Inc. or its affiliates. All Rights Reserved.
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// SPDX-License-Identifier: Apache-2.0
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/// Module for the flattened device tree.
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pub mod fdt;
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/// Module for the global interrupt controller configuration.
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pub mod gic;
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/// Layout for this aarch64 system.
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pub mod layout;
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/// Logic for configuring aarch64 registers.
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pub mod regs;
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/// Module for loading UEFI binary.
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pub mod uefi;
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pub use self::fdt::DeviceInfoForFdt;
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use crate::{DeviceType, GuestMemoryMmap, NumaNodes, RegionType};
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use gic::GicDevice;
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use log::{log_enabled, Level};
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use std::collections::HashMap;
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use std::convert::TryInto;
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use std::fmt::Debug;
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use std::sync::Arc;
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use vm_memory::{
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Address, GuestAddress, GuestAddressSpace, GuestMemory, GuestMemoryAtomic, GuestUsize,
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};
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/// Errors thrown while configuring aarch64 system.
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#[derive(Debug)]
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pub enum Error {
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/// Failed to create a FDT.
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SetupFdt,
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/// Failed to write FDT to memory.
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WriteFdtToMemory(fdt::Error),
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/// Failed to create a GIC.
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SetupGic(gic::Error),
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/// Failed to compute the initramfs address.
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InitramfsAddress,
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/// Error configuring the general purpose registers
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RegsConfiguration(regs::Error),
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/// Error configuring the MPIDR register
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VcpuRegMpidr(hypervisor::HypervisorCpuError),
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}
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impl From<Error> for super::Error {
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fn from(e: Error) -> super::Error {
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super::Error::AArch64Setup(e)
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}
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}
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#[derive(Debug, Copy, Clone)]
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/// Specifies the entry point address where the guest must start
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/// executing code.
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pub struct EntryPoint {
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/// Address in guest memory where the guest must start execution
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pub entry_addr: GuestAddress,
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}
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/// Configure the specified VCPU, and return its MPIDR.
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pub fn configure_vcpu(
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fd: &Arc<dyn hypervisor::Vcpu>,
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id: u8,
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kernel_entry_point: Option<EntryPoint>,
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vm_memory: &GuestMemoryAtomic<GuestMemoryMmap>,
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) -> super::Result<u64> {
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if let Some(kernel_entry_point) = kernel_entry_point {
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regs::setup_regs(
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fd,
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id,
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kernel_entry_point.entry_addr.raw_value(),
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&vm_memory.memory(),
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)
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.map_err(Error::RegsConfiguration)?;
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}
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let mpidr = fd.read_mpidr().map_err(Error::VcpuRegMpidr)?;
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Ok(mpidr)
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}
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pub fn arch_memory_regions(size: GuestUsize) -> Vec<(GuestAddress, usize, RegionType)> {
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// Normally UEFI should be loaded to a flash area at the beginning of memory.
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// But now flash memory type is not supported.
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// As a workaround, we take 4 MiB memory from the main RAM for UEFI.
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// As a result, the RAM that the guest can see is less than what has been
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// assigned in command line, when ACPI and UEFI is enabled.
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let ram_deduction = if cfg!(feature = "acpi") {
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layout::UEFI_SIZE
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} else {
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0
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};
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vec![
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// 0 ~ 4 MiB: Reserved for UEFI space
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#[cfg(feature = "acpi")]
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(GuestAddress(0), layout::UEFI_SIZE as usize, RegionType::Ram),
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#[cfg(not(feature = "acpi"))]
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(
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GuestAddress(0),
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layout::UEFI_SIZE as usize,
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RegionType::Reserved,
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),
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// 4 MiB ~ 256 MiB: Gic and legacy devices
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(
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GuestAddress(layout::UEFI_SIZE),
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(layout::MEM_32BIT_DEVICES_START.0 - layout::UEFI_SIZE) as usize,
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RegionType::Reserved,
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),
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// 256 MiB ~ 768 MiB: MMIO space
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(
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layout::MEM_32BIT_DEVICES_START,
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layout::MEM_32BIT_DEVICES_SIZE as usize,
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RegionType::SubRegion,
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),
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// 768 MiB ~ 1 GiB: reserved. The leading 256M for PCIe MMCONFIG space
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(
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layout::PCI_MMCONFIG_START,
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layout::PCI_MMCONFIG_SIZE as usize,
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RegionType::Reserved,
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),
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// 1 GiB ~ : Ram
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(
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GuestAddress(layout::RAM_64BIT_START),
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(size - ram_deduction) as usize,
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RegionType::Ram,
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),
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]
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}
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/// Configures the system and should be called once per vm before starting vcpu threads.
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#[allow(clippy::too_many_arguments)]
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pub fn configure_system<T: DeviceInfoForFdt + Clone + Debug, S: ::std::hash::BuildHasher>(
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guest_mem: &GuestMemoryMmap,
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cmdline: &str,
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vcpu_mpidr: Vec<u64>,
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vcpu_topology: Option<(u8, u8, u8)>,
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device_info: &HashMap<(DeviceType, String), T, S>,
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initrd: &Option<super::InitramfsConfig>,
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pci_space_address: &(u64, u64),
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virtio_iommu_bdf: Option<u32>,
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gic_device: &dyn GicDevice,
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numa_nodes: &NumaNodes,
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) -> super::Result<()> {
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let fdt_final = fdt::create_fdt(
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guest_mem,
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cmdline,
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vcpu_mpidr,
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vcpu_topology,
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device_info,
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gic_device,
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initrd,
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pci_space_address,
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numa_nodes,
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virtio_iommu_bdf,
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)
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.map_err(|_| Error::SetupFdt)?;
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if log_enabled!(Level::Debug) {
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fdt::print_fdt(&fdt_final);
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}
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fdt::write_fdt_to_memory(fdt_final, guest_mem).map_err(Error::WriteFdtToMemory)?;
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Ok(())
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}
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/// Returns the memory address where the initramfs could be loaded.
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pub fn initramfs_load_addr(
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guest_mem: &GuestMemoryMmap,
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initramfs_size: usize,
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) -> super::Result<u64> {
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let round_to_pagesize = |size| (size + (super::PAGE_SIZE - 1)) & !(super::PAGE_SIZE - 1);
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match guest_mem
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.last_addr()
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.checked_sub(round_to_pagesize(initramfs_size) as u64 - 1)
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{
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Some(offset) => {
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if guest_mem.address_in_range(offset) {
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Ok(offset.raw_value())
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} else {
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Err(super::Error::AArch64Setup(Error::InitramfsAddress))
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}
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}
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None => Err(super::Error::AArch64Setup(Error::InitramfsAddress)),
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}
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}
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/// Returns the memory address where the kernel could be loaded.
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pub fn get_kernel_start() -> u64 {
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layout::KERNEL_START
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}
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///Return guest memory address where the uefi should be loaded.
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pub fn get_uefi_start() -> u64 {
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layout::UEFI_START
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}
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// Auxiliary function to get the address where the device tree blob is loaded.
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fn get_fdt_addr() -> u64 {
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layout::FDT_START
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}
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pub fn get_host_cpu_phys_bits() -> u8 {
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// A dummy hypervisor created only for querying the host IPA size and will
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// be freed after the query.
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let hv = hypervisor::new().unwrap();
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let host_cpu_phys_bits = hv.get_host_ipa_limit().try_into().unwrap();
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if host_cpu_phys_bits == 0 {
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// Host kernel does not support `get_host_ipa_limit`,
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// we return the default value 40 here.
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40
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} else {
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host_cpu_phys_bits
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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#[test]
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fn test_arch_memory_regions_dram() {
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let regions = arch_memory_regions((1usize << 32) as u64); //4GB
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assert_eq!(5, regions.len());
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assert_eq!(GuestAddress(layout::RAM_64BIT_START), regions[4].0);
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assert_eq!(1usize << 32, regions[4].1);
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assert_eq!(RegionType::Ram, regions[4].2);
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}
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}
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