mirror of
https://github.com/aljazceru/kata-containers.git
synced 2025-12-19 07:14:22 +01:00
f9e96c6506
Let's move device package to runtime/pkg instead of being buried under virtcontainers. Signed-off-by: Eric Ernst <eric_ernst@apple.com>
603 lines
15 KiB
Go
603 lines
15 KiB
Go
//go:build linux
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// +build linux
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// Copyright (c) 2018 Intel Corporation
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//
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// SPDX-License-Identifier: Apache-2.0
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//
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package virtcontainers
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import (
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"context"
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"fmt"
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"net"
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"os"
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"path/filepath"
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"testing"
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govmmQemu "github.com/kata-containers/kata-containers/src/runtime/pkg/govmm/qemu"
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"github.com/stretchr/testify/assert"
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"github.com/kata-containers/kata-containers/src/runtime/pkg/device/config"
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"github.com/kata-containers/kata-containers/src/runtime/virtcontainers/persist/fs"
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"github.com/kata-containers/kata-containers/src/runtime/virtcontainers/types"
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"github.com/pkg/errors"
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)
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const (
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qemuArchBaseQemuPath = "/usr/bin/qemu-system-x86_64"
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)
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var qemuArchBaseMachine = govmmQemu.Machine{
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Type: "q35",
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}
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var qemuArchBaseQemuPaths = map[string]string{
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qemuArchBaseMachine.Type: qemuArchBaseQemuPath,
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}
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var qemuArchBaseKernelParamsNonDebug = []Param{
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{"quiet", ""},
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{"systemd.show_status", "false"},
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}
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var qemuArchBaseKernelParamsDebug = []Param{
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{"debug", ""},
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{"systemd.show_status", "true"},
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{"systemd.log_level", "debug"},
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}
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var qemuArchBaseKernelParams = []Param{
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{"root", "/dev/vda"},
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{"rootfstype", "ext4"},
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}
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func newQemuArchBase() *qemuArchBase {
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return &qemuArchBase{
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qemuMachine: qemuArchBaseMachine,
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qemuExePath: qemuArchBaseQemuPaths[qemuArchBaseMachine.Type],
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nestedRun: false,
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kernelParamsNonDebug: qemuArchBaseKernelParamsNonDebug,
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kernelParamsDebug: qemuArchBaseKernelParamsDebug,
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kernelParams: qemuArchBaseKernelParams,
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}
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}
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func TestQemuArchBaseEnableNestingChecks(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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qemuArchBase.enableNestingChecks()
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assert.True(qemuArchBase.nestedRun)
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}
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func TestQemuArchBaseDisableNestingChecks(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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qemuArchBase.disableNestingChecks()
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assert.False(qemuArchBase.nestedRun)
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}
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func TestQemuArchBaseMachine(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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m := qemuArchBase.machine()
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assert.Equal(m.Type, qemuArchBaseMachine.Type)
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}
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func TestQemuArchBaseQemuPath(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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p := qemuArchBase.qemuPath()
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assert.Equal(p, qemuArchBaseQemuPath)
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}
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func TestQemuArchBaseKernelParameters(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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// with debug params
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expectedParams := qemuArchBaseKernelParams
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debugParams := qemuArchBaseKernelParamsDebug
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expectedParams = append(expectedParams, debugParams...)
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p := qemuArchBase.kernelParameters(true)
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assert.Equal(expectedParams, p)
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// with non-debug params
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expectedParams = qemuArchBaseKernelParams
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nonDebugParams := qemuArchBaseKernelParamsNonDebug
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expectedParams = append(expectedParams, nonDebugParams...)
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p = qemuArchBase.kernelParameters(false)
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assert.Equal(expectedParams, p)
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}
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func TestQemuArchBaseCapabilities(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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c := qemuArchBase.capabilities()
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assert.True(c.IsBlockDeviceHotplugSupported())
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}
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func TestQemuArchBaseBridges(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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len := 5
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qemuArchBase.bridges(uint32(len))
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bridges := qemuArchBase.getBridges()
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assert.Len(bridges, len)
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for i, b := range bridges {
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id := fmt.Sprintf("%s-bridge-%d", types.PCI, i)
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assert.Equal(types.PCI, b.Type)
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assert.Equal(id, b.ID)
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assert.NotNil(b.Devices)
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}
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}
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func TestQemuAddDeviceToBridge(t *testing.T) {
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assert := assert.New(t)
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// addDeviceToBridge successfully
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q := newQemuArchBase()
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q.qemuMachine.Type = QemuQ35
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q.bridges(1)
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for i := uint32(1); i <= types.PCIBridgeMaxCapacity; i++ {
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_, _, err := q.addDeviceToBridge(context.Background(), fmt.Sprintf("qemu-bridge-%d", i), types.PCI)
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assert.Nil(err)
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}
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// fail to add device to bridge cause no more available bridge slot
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_, _, err := q.addDeviceToBridge(context.Background(), "qemu-bridge-31", types.PCI)
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exceptErr := errors.New("no more bridge slots available")
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assert.Equal(exceptErr.Error(), err.Error())
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// addDeviceToBridge fails cause q.Bridges == 0
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q = newQemuArchBase()
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q.qemuMachine.Type = QemuQ35
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q.bridges(0)
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_, _, err = q.addDeviceToBridge(context.Background(), "qemu-bridge", types.PCI)
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if assert.Error(err) {
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exceptErr = errors.New("failed to get available address from bridges")
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assert.Equal(exceptErr.Error(), err.Error())
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}
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}
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func TestQemuArchBaseCPUTopology(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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vcpus := uint32(2)
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expectedSMP := govmmQemu.SMP{
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CPUs: vcpus,
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Sockets: defaultMaxVCPUs,
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Cores: defaultCores,
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Threads: defaultThreads,
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MaxCPUs: defaultMaxVCPUs,
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}
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smp := qemuArchBase.cpuTopology(vcpus, defaultMaxVCPUs)
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assert.Equal(expectedSMP, smp)
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}
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func TestQemuArchBaseCPUModel(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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assert.Equal(defaultCPUModel, qemuArchBase.cpuModel())
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}
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func TestQemuArchBaseMemoryTopology(t *testing.T) {
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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hostMem := uint64(100)
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mem := uint64(120)
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slots := uint8(12)
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expectedMemory := govmmQemu.Memory{
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Size: fmt.Sprintf("%dM", mem),
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Slots: slots,
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MaxMem: fmt.Sprintf("%dM", hostMem),
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}
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m := qemuArchBase.memoryTopology(mem, hostMem, slots)
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assert.Equal(expectedMemory, m)
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}
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func testQemuArchBaseAppend(t *testing.T, structure interface{}, expected []govmmQemu.Device) {
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var devices []govmmQemu.Device
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var err error
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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switch s := structure.(type) {
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case types.Volume:
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devices, err = qemuArchBase.append9PVolume(context.Background(), devices, s)
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case types.Socket:
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devices = qemuArchBase.appendSocket(devices, s)
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case config.BlockDrive:
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devices, err = qemuArchBase.appendBlockDevice(context.Background(), devices, s)
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case config.VFIODev:
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devices = qemuArchBase.appendVFIODevice(devices, s)
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case config.VhostUserDeviceAttrs:
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devices, err = qemuArchBase.appendVhostUserDevice(context.Background(), devices, s)
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}
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assert.NoError(err)
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assert.Equal(devices, expected)
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}
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func TestQemuArchBaseAppendConsoles(t *testing.T) {
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var devices []govmmQemu.Device
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var err error
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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path := filepath.Join(filepath.Join(fs.MockRunStoragePath(), "test"), consoleSocket)
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expectedOut := []govmmQemu.Device{
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govmmQemu.SerialDevice{
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Driver: govmmQemu.VirtioSerial,
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ID: "serial0",
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MaxPorts: uint(2),
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},
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govmmQemu.CharDevice{
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Driver: govmmQemu.Console,
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Backend: govmmQemu.Socket,
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DeviceID: "console0",
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ID: "charconsole0",
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Path: path,
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},
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}
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devices, err = qemuArchBase.appendConsole(context.Background(), devices, path)
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assert.NoError(err)
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assert.Equal(expectedOut, devices)
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assert.Contains(qemuArchBase.kernelParams, Param{"console", "hvc0"})
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assert.Contains(qemuArchBase.kernelParams, Param{"console", "hvc1"})
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}
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func TestQemuArchBaseAppendConsolesLegacy(t *testing.T) {
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var devices []govmmQemu.Device
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var err error
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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qemuArchBase.legacySerial = true
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path := filepath.Join(filepath.Join(fs.MockRunStoragePath(), "test"), consoleSocket)
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expectedOut := []govmmQemu.Device{
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govmmQemu.LegacySerialDevice{
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Chardev: "charconsole0",
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},
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govmmQemu.CharDevice{
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Driver: govmmQemu.LegacySerial,
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Backend: govmmQemu.Socket,
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DeviceID: "console0",
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ID: "charconsole0",
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Path: path,
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},
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}
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devices, err = qemuArchBase.appendConsole(context.Background(), devices, path)
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assert.NoError(err)
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assert.Equal(expectedOut, devices)
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assert.Contains(qemuArchBase.kernelParams, Param{"console", "ttyS0"})
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}
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func TestQemuArchBaseAppendImage(t *testing.T) {
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var devices []govmmQemu.Device
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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image, err := os.CreateTemp("", "img")
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assert.NoError(err)
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defer os.Remove(image.Name())
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err = image.Close()
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assert.NoError(err)
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devices, err = qemuArchBase.appendImage(context.Background(), devices, image.Name())
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assert.NoError(err)
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assert.Len(devices, 1)
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drive, ok := devices[0].(govmmQemu.BlockDevice)
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assert.True(ok)
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expectedOut := []govmmQemu.Device{
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govmmQemu.BlockDevice{
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Driver: govmmQemu.VirtioBlock,
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ID: drive.ID,
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File: image.Name(),
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AIO: govmmQemu.Threads,
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Format: "raw",
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Interface: "none",
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ShareRW: true,
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ReadOnly: true,
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},
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}
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assert.Equal(expectedOut, devices)
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}
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func TestQemuArchBaseAppendBridges(t *testing.T) {
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var devices []govmmQemu.Device
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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qemuArchBase.bridges(1)
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bridges := qemuArchBase.getBridges()
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assert.Len(bridges, 1)
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devices = qemuArchBase.appendBridges(devices)
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assert.Len(devices, 1)
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expectedOut := []govmmQemu.Device{
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govmmQemu.BridgeDevice{
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Type: govmmQemu.PCIBridge,
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Bus: defaultBridgeBus,
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ID: bridges[0].ID,
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Chassis: 1,
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SHPC: false,
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Addr: "2",
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IOReserve: "4k",
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MemReserve: "1m",
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Pref64Reserve: "1m",
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},
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}
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assert.Equal(expectedOut, devices)
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}
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func TestQemuArchBaseAppend9PVolume(t *testing.T) {
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mountTag := "testMountTag"
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hostPath := "testHostPath"
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expectedOut := []govmmQemu.Device{
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govmmQemu.FSDevice{
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Driver: govmmQemu.Virtio9P,
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FSDriver: govmmQemu.Local,
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ID: fmt.Sprintf("extra-9p-%s", mountTag),
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Path: hostPath,
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MountTag: mountTag,
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SecurityModel: govmmQemu.None,
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Multidev: govmmQemu.Remap,
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},
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}
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volume := types.Volume{
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MountTag: mountTag,
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HostPath: hostPath,
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}
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testQemuArchBaseAppend(t, volume, expectedOut)
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}
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func TestQemuArchBaseAppendSocket(t *testing.T) {
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deviceID := "channelTest"
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id := "charchTest"
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hostPath := "/tmp/hyper_test.sock"
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name := "sh.hyper.channel.test"
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expectedOut := []govmmQemu.Device{
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govmmQemu.CharDevice{
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Driver: govmmQemu.VirtioSerialPort,
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Backend: govmmQemu.Socket,
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DeviceID: deviceID,
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ID: id,
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Path: hostPath,
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Name: name,
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},
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}
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socket := types.Socket{
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DeviceID: deviceID,
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ID: id,
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HostPath: hostPath,
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Name: name,
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}
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testQemuArchBaseAppend(t, socket, expectedOut)
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}
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func TestQemuArchBaseAppendBlockDevice(t *testing.T) {
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id := "blockDevTest"
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file := "/root"
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format := "raw"
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expectedOut := []govmmQemu.Device{
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govmmQemu.BlockDevice{
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Driver: govmmQemu.VirtioBlock,
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ID: id,
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File: "/root",
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AIO: govmmQemu.Threads,
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Format: govmmQemu.BlockDeviceFormat(format),
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Interface: "none",
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},
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}
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drive := config.BlockDrive{
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File: file,
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Format: format,
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ID: id,
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}
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testQemuArchBaseAppend(t, drive, expectedOut)
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}
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func TestQemuArchBaseAppendVhostUserDevice(t *testing.T) {
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socketPath := "nonexistentpath.sock"
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macAddress := "00:11:22:33:44:55:66"
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id := "deadbeef"
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expectedOut := []govmmQemu.Device{
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govmmQemu.VhostUserDevice{
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SocketPath: socketPath,
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CharDevID: fmt.Sprintf("char-%s", id),
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TypeDevID: fmt.Sprintf("net-%s", id),
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Address: macAddress,
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VhostUserType: govmmQemu.VhostUserNet,
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},
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}
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vhostUserDevice := config.VhostUserDeviceAttrs{
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Type: config.VhostUserNet,
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MacAddress: macAddress,
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}
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vhostUserDevice.DevID = id
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vhostUserDevice.SocketPath = socketPath
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testQemuArchBaseAppend(t, vhostUserDevice, expectedOut)
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}
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func TestQemuArchBaseAppendVFIODevice(t *testing.T) {
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bdf := "02:10.1"
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expectedOut := []govmmQemu.Device{
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govmmQemu.VFIODevice{
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BDF: bdf,
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},
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}
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vfDevice := config.VFIODev{
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BDF: bdf,
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}
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testQemuArchBaseAppend(t, vfDevice, expectedOut)
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}
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func TestQemuArchBaseAppendVFIODeviceWithVendorDeviceID(t *testing.T) {
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bdf := "02:10.1"
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vendorID := "0x1234"
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deviceID := "0x5678"
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expectedOut := []govmmQemu.Device{
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govmmQemu.VFIODevice{
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BDF: bdf,
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VendorID: vendorID,
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DeviceID: deviceID,
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},
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}
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vfDevice := config.VFIODev{
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BDF: bdf,
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VendorID: vendorID,
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DeviceID: deviceID,
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}
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testQemuArchBaseAppend(t, vfDevice, expectedOut)
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}
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func TestQemuArchBaseAppendSCSIController(t *testing.T) {
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var devices []govmmQemu.Device
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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expectedOut := []govmmQemu.Device{
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govmmQemu.SCSIController{
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ID: scsiControllerID,
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},
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}
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devices, ioThread, err := qemuArchBase.appendSCSIController(context.Background(), devices, false)
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assert.Equal(expectedOut, devices)
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assert.Nil(ioThread)
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assert.NoError(err)
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_, ioThread, err = qemuArchBase.appendSCSIController(context.Background(), devices, true)
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assert.NotNil(ioThread)
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assert.NoError(err)
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}
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func TestQemuArchBaseAppendNetwork(t *testing.T) {
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var devices []govmmQemu.Device
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var err error
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assert := assert.New(t)
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qemuArchBase := newQemuArchBase()
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macAddr := net.HardwareAddr{0x02, 0x00, 0xCA, 0xFE, 0x00, 0x04}
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macvlanEp := &MacvlanEndpoint{
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NetPair: NetworkInterfacePair{
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TapInterface: TapInterface{
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ID: "uniqueTestID-4",
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Name: "br4_kata",
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TAPIface: NetworkInterface{
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Name: "tap4_kata",
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},
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},
|
|
VirtIface: NetworkInterface{
|
|
Name: "eth4",
|
|
HardAddr: macAddr.String(),
|
|
},
|
|
NetInterworkingModel: DefaultNetInterworkingModel,
|
|
},
|
|
EndpointType: MacvlanEndpointType,
|
|
}
|
|
|
|
macvtapEp := &MacvtapEndpoint{
|
|
EndpointType: MacvtapEndpointType,
|
|
EndpointProperties: NetworkInfo{
|
|
Iface: NetlinkIface{
|
|
Type: "macvtap",
|
|
},
|
|
},
|
|
}
|
|
|
|
expectedOut := []govmmQemu.Device{
|
|
govmmQemu.NetDevice{
|
|
Type: networkModelToQemuType(macvlanEp.NetPair.NetInterworkingModel),
|
|
Driver: govmmQemu.VirtioNet,
|
|
ID: fmt.Sprintf("network-%d", 0),
|
|
IFName: macvlanEp.NetPair.TAPIface.Name,
|
|
MACAddress: macvlanEp.NetPair.TAPIface.HardAddr,
|
|
DownScript: "no",
|
|
Script: "no",
|
|
FDs: macvlanEp.NetPair.VMFds,
|
|
VhostFDs: macvlanEp.NetPair.VhostFds,
|
|
},
|
|
govmmQemu.NetDevice{
|
|
Type: govmmQemu.MACVTAP,
|
|
Driver: govmmQemu.VirtioNet,
|
|
ID: fmt.Sprintf("network-%d", 1),
|
|
IFName: macvtapEp.Name(),
|
|
MACAddress: macvtapEp.HardwareAddr(),
|
|
DownScript: "no",
|
|
Script: "no",
|
|
FDs: macvtapEp.VMFds,
|
|
VhostFDs: macvtapEp.VhostFds,
|
|
},
|
|
}
|
|
|
|
devices, err = qemuArchBase.appendNetwork(context.Background(), devices, macvlanEp)
|
|
assert.NoError(err)
|
|
devices, err = qemuArchBase.appendNetwork(context.Background(), devices, macvtapEp)
|
|
assert.NoError(err)
|
|
assert.Equal(expectedOut, devices)
|
|
}
|
|
|
|
func TestQemuArchBaseAppendIOMMU(t *testing.T) {
|
|
var devices []govmmQemu.Device
|
|
var err error
|
|
assert := assert.New(t)
|
|
qemuArchBase := newQemuArchBase()
|
|
|
|
expectedOut := []govmmQemu.Device{
|
|
govmmQemu.IommuDev{
|
|
Intremap: true,
|
|
DeviceIotlb: true,
|
|
CachingMode: true,
|
|
},
|
|
}
|
|
|
|
qemuArchBase.qemuMachine.Type = QemuQ35
|
|
devices, err = qemuArchBase.appendIOMMU(devices)
|
|
assert.NoError(err)
|
|
assert.Equal(expectedOut, devices)
|
|
}
|