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package hcs
import (
"context"
"encoding/json"
"errors"
"strings"
"sync"
"syscall"
"github.com/Microsoft/hcsshim/internal/cow"
"github.com/Microsoft/hcsshim/internal/log"
"github.com/Microsoft/hcsshim/internal/oc"
"github.com/Microsoft/hcsshim/internal/schema1"
hcsschema "github.com/Microsoft/hcsshim/internal/schema2"
"github.com/Microsoft/hcsshim/internal/timeout"
"github.com/Microsoft/hcsshim/internal/vmcompute"
"go.opencensus.io/trace"
)
type System struct {
handleLock sync.RWMutex
handle vmcompute.HcsSystem
id string
callbackNumber uintptr
closedWaitOnce sync.Once
waitBlock chan struct{}
waitError error
exitError error
os, typ string
}
func newSystem(id string) *System {
return &System{
id: id,
waitBlock: make(chan struct{}),
}
}
// CreateComputeSystem creates a new compute system with the given configuration but does not start it.
func CreateComputeSystem(ctx context.Context, id string, hcsDocumentInterface interface{}) (_ *System, err error) {
operation := "hcsshim::CreateComputeSystem"
// hcsCreateComputeSystemContext is an async operation. Start the outer span
// here to measure the full create time.
ctx, span := trace.StartSpan(ctx, operation)
defer span.End()
defer func() { oc.SetSpanStatus(span, err) }()
span.AddAttributes(trace.StringAttribute("cid", id))
computeSystem := newSystem(id)
hcsDocumentB, err := json.Marshal(hcsDocumentInterface)
if err != nil {
return nil, err
}
hcsDocument := string(hcsDocumentB)
var (
identity syscall.Handle
resultJSON string
createError error
)
computeSystem.handle, resultJSON, createError = vmcompute.HcsCreateComputeSystem(ctx, id, hcsDocument, identity)
if createError == nil || IsPending(createError) {
defer func() {
if err != nil {
computeSystem.Close()
}
}()
if err = computeSystem.registerCallback(ctx); err != nil {
// Terminate the compute system if it still exists. We're okay to
// ignore a failure here.
_ = computeSystem.Terminate(ctx)
return nil, makeSystemError(computeSystem, operation, err, nil)
}
}
events, err := processAsyncHcsResult(ctx, createError, resultJSON, computeSystem.callbackNumber, hcsNotificationSystemCreateCompleted, &timeout.SystemCreate)
if err != nil {
if err == ErrTimeout {
// Terminate the compute system if it still exists. We're okay to
// ignore a failure here.
_ = computeSystem.Terminate(ctx)
}
return nil, makeSystemError(computeSystem, operation, err, events)
}
go computeSystem.waitBackground()
if err = computeSystem.getCachedProperties(ctx); err != nil {
return nil, err
}
return computeSystem, nil
}
// OpenComputeSystem opens an existing compute system by ID.
func OpenComputeSystem(ctx context.Context, id string) (*System, error) {
operation := "hcsshim::OpenComputeSystem"
computeSystem := newSystem(id)
handle, resultJSON, err := vmcompute.HcsOpenComputeSystem(ctx, id)
events := processHcsResult(ctx, resultJSON)
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, events)
}
computeSystem.handle = handle
defer func() {
if err != nil {
computeSystem.Close()
}
}()
if err = computeSystem.registerCallback(ctx); err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
go computeSystem.waitBackground()
if err = computeSystem.getCachedProperties(ctx); err != nil {
return nil, err
}
return computeSystem, nil
}
func (computeSystem *System) getCachedProperties(ctx context.Context) error {
props, err := computeSystem.Properties(ctx)
if err != nil {
return err
}
computeSystem.typ = strings.ToLower(props.SystemType)
computeSystem.os = strings.ToLower(props.RuntimeOSType)
if computeSystem.os == "" && computeSystem.typ == "container" {
// Pre-RS5 HCS did not return the OS, but it only supported containers
// that ran Windows.
computeSystem.os = "windows"
}
return nil
}
// OS returns the operating system of the compute system, "linux" or "windows".
func (computeSystem *System) OS() string {
return computeSystem.os
}
// IsOCI returns whether processes in the compute system should be created via
// OCI.
func (computeSystem *System) IsOCI() bool {
return computeSystem.os == "linux" && computeSystem.typ == "container"
}
// GetComputeSystems gets a list of the compute systems on the system that match the query
func GetComputeSystems(ctx context.Context, q schema1.ComputeSystemQuery) ([]schema1.ContainerProperties, error) {
operation := "hcsshim::GetComputeSystems"
queryb, err := json.Marshal(q)
if err != nil {
return nil, err
}
computeSystemsJSON, resultJSON, err := vmcompute.HcsEnumerateComputeSystems(ctx, string(queryb))
events := processHcsResult(ctx, resultJSON)
if err != nil {
return nil, &HcsError{Op: operation, Err: err, Events: events}
}
if computeSystemsJSON == "" {
return nil, ErrUnexpectedValue
}
computeSystems := []schema1.ContainerProperties{}
if err = json.Unmarshal([]byte(computeSystemsJSON), &computeSystems); err != nil {
return nil, err
}
return computeSystems, nil
}
// Start synchronously starts the computeSystem.
func (computeSystem *System) Start(ctx context.Context) (err error) {
operation := "hcsshim::System::Start"
// hcsStartComputeSystemContext is an async operation. Start the outer span
// here to measure the full start time.
ctx, span := trace.StartSpan(ctx, operation)
defer span.End()
defer func() { oc.SetSpanStatus(span, err) }()
span.AddAttributes(trace.StringAttribute("cid", computeSystem.id))
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
if computeSystem.handle == 0 {
return makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
resultJSON, err := vmcompute.HcsStartComputeSystem(ctx, computeSystem.handle, "")
events, err := processAsyncHcsResult(ctx, err, resultJSON, computeSystem.callbackNumber, hcsNotificationSystemStartCompleted, &timeout.SystemStart)
if err != nil {
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
// ID returns the compute system's identifier.
func (computeSystem *System) ID() string {
return computeSystem.id
}
// Shutdown requests a compute system shutdown.
func (computeSystem *System) Shutdown(ctx context.Context) error {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
operation := "hcsshim::System::Shutdown"
if computeSystem.handle == 0 {
return nil
}
resultJSON, err := vmcompute.HcsShutdownComputeSystem(ctx, computeSystem.handle, "")
events := processHcsResult(ctx, resultJSON)
switch err {
case nil, ErrVmcomputeAlreadyStopped, ErrComputeSystemDoesNotExist, ErrVmcomputeOperationPending:
default:
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
// Terminate requests a compute system terminate.
func (computeSystem *System) Terminate(ctx context.Context) error {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
operation := "hcsshim::System::Terminate"
if computeSystem.handle == 0 {
return nil
}
resultJSON, err := vmcompute.HcsTerminateComputeSystem(ctx, computeSystem.handle, "")
events := processHcsResult(ctx, resultJSON)
switch err {
case nil, ErrVmcomputeAlreadyStopped, ErrComputeSystemDoesNotExist, ErrVmcomputeOperationPending:
default:
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
// waitBackground waits for the compute system exit notification. Once received
// sets `computeSystem.waitError` (if any) and unblocks all `Wait` calls.
//
// This MUST be called exactly once per `computeSystem.handle` but `Wait` is
// safe to call multiple times.
func (computeSystem *System) waitBackground() {
operation := "hcsshim::System::waitBackground"
ctx, span := trace.StartSpan(context.Background(), operation)
defer span.End()
span.AddAttributes(trace.StringAttribute("cid", computeSystem.id))
err := waitForNotification(ctx, computeSystem.callbackNumber, hcsNotificationSystemExited, nil)
switch err {
case nil:
log.G(ctx).Debug("system exited")
case ErrVmcomputeUnexpectedExit:
log.G(ctx).Debug("unexpected system exit")
computeSystem.exitError = makeSystemError(computeSystem, operation, err, nil)
err = nil
default:
err = makeSystemError(computeSystem, operation, err, nil)
}
computeSystem.closedWaitOnce.Do(func() {
computeSystem.waitError = err
close(computeSystem.waitBlock)
})
oc.SetSpanStatus(span, err)
}
// Wait synchronously waits for the compute system to shutdown or terminate. If
// the compute system has already exited returns the previous error (if any).
func (computeSystem *System) Wait() error {
<-computeSystem.waitBlock
return computeSystem.waitError
}
// ExitError returns an error describing the reason the compute system terminated.
func (computeSystem *System) ExitError() error {
select {
case <-computeSystem.waitBlock:
if computeSystem.waitError != nil {
return computeSystem.waitError
}
return computeSystem.exitError
default:
return errors.New("container not exited")
}
}
// Properties returns the requested container properties targeting a V1 schema container.
func (computeSystem *System) Properties(ctx context.Context, types ...schema1.PropertyType) (*schema1.ContainerProperties, error) {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
operation := "hcsshim::System::Properties"
queryBytes, err := json.Marshal(schema1.PropertyQuery{PropertyTypes: types})
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
propertiesJSON, resultJSON, err := vmcompute.HcsGetComputeSystemProperties(ctx, computeSystem.handle, string(queryBytes))
events := processHcsResult(ctx, resultJSON)
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, events)
}
if propertiesJSON == "" {
return nil, ErrUnexpectedValue
}
properties := &schema1.ContainerProperties{}
if err := json.Unmarshal([]byte(propertiesJSON), properties); err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
return properties, nil
}
// PropertiesV2 returns the requested container properties targeting a V2 schema container.
func (computeSystem *System) PropertiesV2(ctx context.Context, types ...hcsschema.PropertyType) (*hcsschema.Properties, error) {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
operation := "hcsshim::System::PropertiesV2"
queryBytes, err := json.Marshal(hcsschema.PropertyQuery{PropertyTypes: types})
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
propertiesJSON, resultJSON, err := vmcompute.HcsGetComputeSystemProperties(ctx, computeSystem.handle, string(queryBytes))
events := processHcsResult(ctx, resultJSON)
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, events)
}
if propertiesJSON == "" {
return nil, ErrUnexpectedValue
}
properties := &hcsschema.Properties{}
if err := json.Unmarshal([]byte(propertiesJSON), properties); err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
return properties, nil
}
// Pause pauses the execution of the computeSystem. This feature is not enabled in TP5.
func (computeSystem *System) Pause(ctx context.Context) (err error) {
operation := "hcsshim::System::Pause"
// hcsPauseComputeSystemContext is an async peration. Start the outer span
// here to measure the full pause time.
ctx, span := trace.StartSpan(ctx, operation)
defer span.End()
defer func() { oc.SetSpanStatus(span, err) }()
span.AddAttributes(trace.StringAttribute("cid", computeSystem.id))
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
if computeSystem.handle == 0 {
return makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
resultJSON, err := vmcompute.HcsPauseComputeSystem(ctx, computeSystem.handle, "")
events, err := processAsyncHcsResult(ctx, err, resultJSON, computeSystem.callbackNumber, hcsNotificationSystemPauseCompleted, &timeout.SystemPause)
if err != nil {
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
// Resume resumes the execution of the computeSystem. This feature is not enabled in TP5.
func (computeSystem *System) Resume(ctx context.Context) (err error) {
operation := "hcsshim::System::Resume"
// hcsResumeComputeSystemContext is an async operation. Start the outer span
// here to measure the full restore time.
ctx, span := trace.StartSpan(ctx, operation)
defer span.End()
defer func() { oc.SetSpanStatus(span, err) }()
span.AddAttributes(trace.StringAttribute("cid", computeSystem.id))
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
if computeSystem.handle == 0 {
return makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
resultJSON, err := vmcompute.HcsResumeComputeSystem(ctx, computeSystem.handle, "")
events, err := processAsyncHcsResult(ctx, err, resultJSON, computeSystem.callbackNumber, hcsNotificationSystemResumeCompleted, &timeout.SystemResume)
if err != nil {
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
// Save the compute system
func (computeSystem *System) Save(ctx context.Context, options interface{}) (err error) {
operation := "hcsshim::System::Save"
// hcsSaveComputeSystemContext is an async peration. Start the outer span
// here to measure the full save time.
ctx, span := trace.StartSpan(ctx, operation)
defer span.End()
defer func() { oc.SetSpanStatus(span, err) }()
span.AddAttributes(trace.StringAttribute("cid", computeSystem.id))
saveOptions, err := json.Marshal(options)
if err != nil {
return err
}
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
if computeSystem.handle == 0 {
return makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
result, err := vmcompute.HcsSaveComputeSystem(ctx, computeSystem.handle, string(saveOptions))
events, err := processAsyncHcsResult(ctx, err, result, computeSystem.callbackNumber, hcsNotificationSystemSaveCompleted, &timeout.SystemSave)
if err != nil {
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
func (computeSystem *System) createProcess(ctx context.Context, operation string, c interface{}) (*Process, *vmcompute.HcsProcessInformation, error) {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
if computeSystem.handle == 0 {
return nil, nil, makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
configurationb, err := json.Marshal(c)
if err != nil {
return nil, nil, makeSystemError(computeSystem, operation, err, nil)
}
configuration := string(configurationb)
processInfo, processHandle, resultJSON, err := vmcompute.HcsCreateProcess(ctx, computeSystem.handle, configuration)
events := processHcsResult(ctx, resultJSON)
if err != nil {
return nil, nil, makeSystemError(computeSystem, operation, err, events)
}
log.G(ctx).WithField("pid", processInfo.ProcessId).Debug("created process pid")
return newProcess(processHandle, int(processInfo.ProcessId), computeSystem), &processInfo, nil
}
// CreateProcess launches a new process within the computeSystem.
func (computeSystem *System) CreateProcess(ctx context.Context, c interface{}) (cow.Process, error) {
operation := "hcsshim::System::CreateProcess"
process, processInfo, err := computeSystem.createProcess(ctx, operation, c)
if err != nil {
return nil, err
}
defer func() {
if err != nil {
process.Close()
}
}()
pipes, err := makeOpenFiles([]syscall.Handle{processInfo.StdInput, processInfo.StdOutput, processInfo.StdError})
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
process.stdin = pipes[0]
process.stdout = pipes[1]
process.stderr = pipes[2]
process.hasCachedStdio = true
if err = process.registerCallback(ctx); err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
go process.waitBackground()
return process, nil
}
// OpenProcess gets an interface to an existing process within the computeSystem.
func (computeSystem *System) OpenProcess(ctx context.Context, pid int) (*Process, error) {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
operation := "hcsshim::System::OpenProcess"
if computeSystem.handle == 0 {
return nil, makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
processHandle, resultJSON, err := vmcompute.HcsOpenProcess(ctx, computeSystem.handle, uint32(pid))
events := processHcsResult(ctx, resultJSON)
if err != nil {
return nil, makeSystemError(computeSystem, operation, err, events)
}
process := newProcess(processHandle, pid, computeSystem)
if err = process.registerCallback(ctx); err != nil {
return nil, makeSystemError(computeSystem, operation, err, nil)
}
go process.waitBackground()
return process, nil
}
// Close cleans up any state associated with the compute system but does not terminate or wait for it.
func (computeSystem *System) Close() (err error) {
operation := "hcsshim::System::Close"
ctx, span := trace.StartSpan(context.Background(), operation)
defer span.End()
defer func() { oc.SetSpanStatus(span, err) }()
span.AddAttributes(trace.StringAttribute("cid", computeSystem.id))
computeSystem.handleLock.Lock()
defer computeSystem.handleLock.Unlock()
// Don't double free this
if computeSystem.handle == 0 {
return nil
}
if err = computeSystem.unregisterCallback(ctx); err != nil {
return makeSystemError(computeSystem, operation, err, nil)
}
err = vmcompute.HcsCloseComputeSystem(ctx, computeSystem.handle)
if err != nil {
return makeSystemError(computeSystem, operation, err, nil)
}
computeSystem.handle = 0
computeSystem.closedWaitOnce.Do(func() {
computeSystem.waitError = ErrAlreadyClosed
close(computeSystem.waitBlock)
})
return nil
}
func (computeSystem *System) registerCallback(ctx context.Context) error {
callbackContext := ¬ifcationWatcherContext{
channels: newSystemChannels(),
systemID: computeSystem.id,
}
callbackMapLock.Lock()
callbackNumber := nextCallback
nextCallback++
callbackMap[callbackNumber] = callbackContext
callbackMapLock.Unlock()
callbackHandle, err := vmcompute.HcsRegisterComputeSystemCallback(ctx, computeSystem.handle, notificationWatcherCallback, callbackNumber)
if err != nil {
return err
}
callbackContext.handle = callbackHandle
computeSystem.callbackNumber = callbackNumber
return nil
}
func (computeSystem *System) unregisterCallback(ctx context.Context) error {
callbackNumber := computeSystem.callbackNumber
callbackMapLock.RLock()
callbackContext := callbackMap[callbackNumber]
callbackMapLock.RUnlock()
if callbackContext == nil {
return nil
}
handle := callbackContext.handle
if handle == 0 {
return nil
}
// hcsUnregisterComputeSystemCallback has its own syncronization
// to wait for all callbacks to complete. We must NOT hold the callbackMapLock.
err := vmcompute.HcsUnregisterComputeSystemCallback(ctx, handle)
if err != nil {
return err
}
closeChannels(callbackContext.channels)
callbackMapLock.Lock()
delete(callbackMap, callbackNumber)
callbackMapLock.Unlock()
handle = 0 //nolint:ineffassign
return nil
}
// Modify the System by sending a request to HCS
func (computeSystem *System) Modify(ctx context.Context, config interface{}) error {
computeSystem.handleLock.RLock()
defer computeSystem.handleLock.RUnlock()
operation := "hcsshim::System::Modify"
if computeSystem.handle == 0 {
return makeSystemError(computeSystem, operation, ErrAlreadyClosed, nil)
}
requestBytes, err := json.Marshal(config)
if err != nil {
return err
}
requestJSON := string(requestBytes)
resultJSON, err := vmcompute.HcsModifyComputeSystem(ctx, computeSystem.handle, requestJSON)
events := processHcsResult(ctx, resultJSON)
if err != nil {
return makeSystemError(computeSystem, operation, err, events)
}
return nil
}
|