package libpod import ( "context" "github.com/containers/podman/v3/libpod/define" "github.com/containers/podman/v3/libpod/events" "github.com/containers/podman/v3/pkg/cgroups" "github.com/containers/podman/v3/pkg/parallel" "github.com/containers/podman/v3/pkg/rootless" "github.com/pkg/errors" "github.com/sirupsen/logrus" ) // startInitContainers starts a pod's init containers. func (p *Pod) startInitContainers(ctx context.Context) error { initCtrs, err := p.initContainers() if err != nil { return err } // Now iterate init containers for _, initCon := range initCtrs { if err := initCon.Start(ctx, true); err != nil { return err } // Check that the init container waited correctly and the exit // code is good rc, err := initCon.Wait(ctx) if err != nil { return err } if rc != 0 { return errors.Errorf("init container %s exited with code %d", initCon.ID(), rc) } // If the container is a once init container, we need to remove it // after it runs if initCon.Config().InitContainerType == define.OneShotInitContainer { icLock := initCon.lock icLock.Lock() if err := p.runtime.removeContainer(ctx, initCon, false, false, true); err != nil { icLock.Unlock() return errors.Wrapf(err, "failed to remove once init container %s", initCon.ID()) } // Removing a container this way requires an explicit call to clean up the db if err := p.runtime.state.RemoveContainerFromPod(p, initCon); err != nil { logrus.Errorf("Error removing container %s from database: %v", initCon.ID(), err) } icLock.Unlock() } } return nil } // Start starts all containers within a pod. // It combines the effects of Init() and Start() on a container. // If a container has already been initialized it will be started, // otherwise it will be initialized then started. // Containers that are already running or have been paused are ignored // All containers are started independently, in order dictated by their // dependencies. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were started. // If map is not nil, an error was encountered when starting one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were started successfully. func (p *Pod) Start(ctx context.Context) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } // Before "regular" containers start in the pod, all init containers // must have run and exited successfully. if err := p.startInitContainers(ctx); err != nil { return nil, err } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } // Build a dependency graph of containers in the pod graph, err := BuildContainerGraph(allCtrs) if err != nil { return nil, errors.Wrapf(err, "error generating dependency graph for pod %s", p.ID()) } // If there are no containers without dependencies, we can't start // Error out if len(graph.noDepNodes) == 0 { return nil, errors.Wrapf(define.ErrNoSuchCtr, "no containers in pod %s have no dependencies, cannot start pod", p.ID()) } ctrErrors := make(map[string]error) ctrsVisited := make(map[string]bool) // Traverse the graph beginning at nodes with no dependencies for _, node := range graph.noDepNodes { startNode(ctx, node, false, ctrErrors, ctrsVisited, false) } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error starting some containers") } defer p.newPodEvent(events.Start) return nil, nil } // Stop stops all containers within a pod without a timeout. It assumes -1 for // a timeout. func (p *Pod) Stop(ctx context.Context, cleanup bool) (map[string]error, error) { return p.StopWithTimeout(ctx, cleanup, -1) } // StopWithTimeout stops all containers within a pod that are not already stopped // Each container will use its own stop timeout. // Only running containers will be stopped. Paused, stopped, or created // containers will be ignored. // If cleanup is true, mounts and network namespaces will be cleaned up after // the container is stopped. // All containers are stopped independently. An error stopping one container // will not prevent other containers being stopped. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were stopped. // If map is not nil, an error was encountered when stopping one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were stopped without error. func (p *Pod) StopWithTimeout(ctx context.Context, cleanup bool, timeout int) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } // TODO: There may be cases where it makes sense to order stops based on // dependencies. Should we bother with this? ctrErrChan := make(map[string]<-chan error) // Enqueue a function for each container with the parallel executor. for _, ctr := range allCtrs { c := ctr logrus.Debugf("Adding parallel job to stop container %s", c.ID()) retChan := parallel.Enqueue(ctx, func() error { // TODO: Might be better to batch stop and cleanup // together? if timeout > -1 { if err := c.StopWithTimeout(uint(timeout)); err != nil { return err } } else { if err := c.Stop(); err != nil { return err } } if cleanup { return c.Cleanup(ctx) } return nil }) ctrErrChan[c.ID()] = retChan } p.newPodEvent(events.Stop) ctrErrors := make(map[string]error) // Get returned error for every container we worked on for id, channel := range ctrErrChan { if err := <-channel; err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid || errors.Cause(err) == define.ErrCtrStopped { continue } ctrErrors[id] = err } } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error stopping some containers") } return nil, nil } // Cleanup cleans up all containers within a pod that have stopped. // All containers are cleaned up independently. An error with one container will // not prevent other containers being cleaned up. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were cleaned up. // If map is not nil, an error was encountered when working on one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were paused without error func (p *Pod) Cleanup(ctx context.Context) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } ctrErrChan := make(map[string]<-chan error) // Enqueue a function for each container with the parallel executor. for _, ctr := range allCtrs { c := ctr logrus.Debugf("Adding parallel job to clean up container %s", c.ID()) retChan := parallel.Enqueue(ctx, func() error { return c.Cleanup(ctx) }) ctrErrChan[c.ID()] = retChan } ctrErrors := make(map[string]error) // Get returned error for every container we worked on for id, channel := range ctrErrChan { if err := <-channel; err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid || errors.Cause(err) == define.ErrCtrStopped { continue } ctrErrors[id] = err } } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error cleaning up some containers") } return nil, nil } // Pause pauses all containers within a pod that are running. // Only running containers will be paused. Paused, stopped, or created // containers will be ignored. // All containers are paused independently. An error pausing one container // will not prevent other containers being paused. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were paused. // If map is not nil, an error was encountered when pausing one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were paused without error func (p *Pod) Pause(ctx context.Context) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } if rootless.IsRootless() { cgroupv2, err := cgroups.IsCgroup2UnifiedMode() if err != nil { return nil, errors.Wrap(err, "failed to determine cgroupversion") } if !cgroupv2 { return nil, errors.Wrap(define.ErrNoCgroups, "can not pause pods containing rootless containers with cgroup V1") } } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } ctrErrChan := make(map[string]<-chan error) // Enqueue a function for each container with the parallel executor. for _, ctr := range allCtrs { c := ctr logrus.Debugf("Adding parallel job to pause container %s", c.ID()) retChan := parallel.Enqueue(ctx, c.Pause) ctrErrChan[c.ID()] = retChan } p.newPodEvent(events.Pause) ctrErrors := make(map[string]error) // Get returned error for every container we worked on for id, channel := range ctrErrChan { if err := <-channel; err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid || errors.Cause(err) == define.ErrCtrStopped { continue } ctrErrors[id] = err } } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error pausing some containers") } return nil, nil } // Unpause unpauses all containers within a pod that are running. // Only paused containers will be unpaused. Running, stopped, or created // containers will be ignored. // All containers are unpaused independently. An error unpausing one container // will not prevent other containers being unpaused. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were unpaused. // If map is not nil, an error was encountered when unpausing one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were unpaused without error. func (p *Pod) Unpause(ctx context.Context) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } ctrErrChan := make(map[string]<-chan error) // Enqueue a function for each container with the parallel executor. for _, ctr := range allCtrs { c := ctr logrus.Debugf("Adding parallel job to unpause container %s", c.ID()) retChan := parallel.Enqueue(ctx, c.Unpause) ctrErrChan[c.ID()] = retChan } p.newPodEvent(events.Unpause) ctrErrors := make(map[string]error) // Get returned error for every container we worked on for id, channel := range ctrErrChan { if err := <-channel; err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid || errors.Cause(err) == define.ErrCtrStopped { continue } ctrErrors[id] = err } } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error unpausing some containers") } return nil, nil } // Restart restarts all containers within a pod that are not paused or in an error state. // It combines the effects of Stop() and Start() on a container // Each container will use its own stop timeout. // All containers are started independently, in order dictated by their // dependencies. An error restarting one container // will not prevent other containers being restarted. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were restarted. // If map is not nil, an error was encountered when restarting one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were restarted without error. func (p *Pod) Restart(ctx context.Context) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } // Build a dependency graph of containers in the pod graph, err := BuildContainerGraph(allCtrs) if err != nil { return nil, errors.Wrapf(err, "error generating dependency graph for pod %s", p.ID()) } ctrErrors := make(map[string]error) ctrsVisited := make(map[string]bool) // If there are no containers without dependencies, we can't start // Error out if len(graph.noDepNodes) == 0 { return nil, errors.Wrapf(define.ErrNoSuchCtr, "no containers in pod %s have no dependencies, cannot start pod", p.ID()) } // Traverse the graph beginning at nodes with no dependencies for _, node := range graph.noDepNodes { startNode(ctx, node, false, ctrErrors, ctrsVisited, true) } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error stopping some containers") } p.newPodEvent(events.Stop) p.newPodEvent(events.Start) return nil, nil } // Kill sends a signal to all running containers within a pod. // Signals will only be sent to running containers. Containers that are not // running will be ignored. All signals are sent independently, and sending will // continue even if some containers encounter errors. // An error and a map[string]error are returned. // If the error is not nil and the map is nil, an error was encountered before // any containers were signalled. // If map is not nil, an error was encountered when signalling one or more // containers. The container ID is mapped to the error encountered. The error is // set to ErrPodPartialFail. // If both error and the map are nil, all containers were signalled successfully. func (p *Pod) Kill(ctx context.Context, signal uint) (map[string]error, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } ctrErrChan := make(map[string]<-chan error) // Enqueue a function for each container with the parallel executor. for _, ctr := range allCtrs { c := ctr logrus.Debugf("Adding parallel job to kill container %s", c.ID()) retChan := parallel.Enqueue(ctx, func() error { return c.Kill(signal) }) ctrErrChan[c.ID()] = retChan } p.newPodEvent(events.Kill) ctrErrors := make(map[string]error) // Get returned error for every container we worked on for id, channel := range ctrErrChan { if err := <-channel; err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid || errors.Cause(err) == define.ErrCtrStopped { continue } ctrErrors[id] = err } } if len(ctrErrors) > 0 { return ctrErrors, errors.Wrapf(define.ErrPodPartialFail, "error killing some containers") } return nil, nil } // Status gets the status of all containers in the pod. // Returns a map of Container ID to Container Status. func (p *Pod) Status() (map[string]define.ContainerStatus, error) { p.lock.Lock() defer p.lock.Unlock() if !p.valid { return nil, define.ErrPodRemoved } allCtrs, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } noInitCtrs := make([]*Container, 0) // Do not add init containers into status for _, ctr := range allCtrs { if ctrType := ctr.config.InitContainerType; len(ctrType) < 1 { noInitCtrs = append(noInitCtrs, ctr) } } return containerStatusFromContainers(noInitCtrs) } func containerStatusFromContainers(allCtrs []*Container) (map[string]define.ContainerStatus, error) { // We need to lock all the containers for _, ctr := range allCtrs { ctr.lock.Lock() defer ctr.lock.Unlock() } // Now that all containers are locked, get their status status := make(map[string]define.ContainerStatus, len(allCtrs)) for _, ctr := range allCtrs { if err := ctr.syncContainer(); err != nil { return nil, err } status[ctr.ID()] = ctr.state.State } return status, nil } // Inspect returns a PodInspect struct to describe the pod. func (p *Pod) Inspect() (*define.InspectPodData, error) { p.lock.Lock() defer p.lock.Unlock() if err := p.updatePod(); err != nil { return nil, err } containers, err := p.runtime.state.PodContainers(p) if err != nil { return nil, err } ctrs := make([]define.InspectPodContainerInfo, 0, len(containers)) ctrStatuses := make(map[string]define.ContainerStatus, len(containers)) for _, c := range containers { containerStatus := "unknown" // Ignoring possible errors here because we don't want this to be // catastrophic in nature containerState, err := c.State() if err == nil { containerStatus = containerState.String() } ctrs = append(ctrs, define.InspectPodContainerInfo{ ID: c.ID(), Name: c.Name(), State: containerStatus, }) // Do not add init containers fdr status if len(c.config.InitContainerType) < 1 { ctrStatuses[c.ID()] = c.state.State } } podState, err := createPodStatusResults(ctrStatuses) if err != nil { return nil, err } namespaces := map[string]bool{ "pid": p.config.UsePodPID, "ipc": p.config.UsePodIPC, "net": p.config.UsePodNet, "mount": p.config.UsePodMount, "user": p.config.UsePodUser, "uts": p.config.UsePodUTS, "cgroup": p.config.UsePodCgroupNS, } sharesNS := []string{} for nsStr, include := range namespaces { if include { sharesNS = append(sharesNS, nsStr) } } // Infra config contains detailed information on the pod's infra // container. var infraConfig *define.InspectPodInfraConfig if p.config.InfraContainer != nil && p.config.InfraContainer.HasInfraContainer { infraConfig = new(define.InspectPodInfraConfig) infraConfig.HostNetwork = p.config.InfraContainer.HostNetwork infraConfig.StaticIP = p.config.InfraContainer.StaticIP infraConfig.StaticMAC = p.config.InfraContainer.StaticMAC.String() infraConfig.NoManageResolvConf = p.config.InfraContainer.UseImageResolvConf infraConfig.NoManageHosts = p.config.InfraContainer.UseImageHosts infraConfig.CPUPeriod = p.CPUPeriod() infraConfig.CPUQuota = p.CPUQuota() infraConfig.CPUSetCPUs = p.ResourceLim().CPU.Cpus infraConfig.PidNS = p.PidMode() infraConfig.UserNS = p.config.InfraContainer.Userns.String() if len(p.config.InfraContainer.DNSServer) > 0 { infraConfig.DNSServer = make([]string, 0, len(p.config.InfraContainer.DNSServer)) infraConfig.DNSServer = append(infraConfig.DNSServer, p.config.InfraContainer.DNSServer...) } if len(p.config.InfraContainer.DNSSearch) > 0 { infraConfig.DNSSearch = make([]string, 0, len(p.config.InfraContainer.DNSSearch)) infraConfig.DNSSearch = append(infraConfig.DNSSearch, p.config.InfraContainer.DNSSearch...) } if len(p.config.InfraContainer.DNSOption) > 0 { infraConfig.DNSOption = make([]string, 0, len(p.config.InfraContainer.DNSOption)) infraConfig.DNSOption = append(infraConfig.DNSOption, p.config.InfraContainer.DNSOption...) } if len(p.config.InfraContainer.HostAdd) > 0 { infraConfig.HostAdd = make([]string, 0, len(p.config.InfraContainer.HostAdd)) infraConfig.HostAdd = append(infraConfig.HostAdd, p.config.InfraContainer.HostAdd...) } if len(p.config.InfraContainer.Networks) > 0 { infraConfig.Networks = make([]string, 0, len(p.config.InfraContainer.Networks)) infraConfig.Networks = append(infraConfig.Networks, p.config.InfraContainer.Networks...) } infraConfig.NetworkOptions = p.config.InfraContainer.NetworkOptions infraConfig.PortBindings = makeInspectPortBindings(p.config.InfraContainer.PortBindings) } inspectData := define.InspectPodData{ ID: p.ID(), Name: p.Name(), Namespace: p.Namespace(), Created: p.CreatedTime(), CreateCommand: p.config.CreateCommand, State: podState, Hostname: p.config.Hostname, Labels: p.Labels(), CreateCgroup: p.config.UsePodCgroup, CgroupParent: p.CgroupParent(), CgroupPath: p.state.CgroupPath, CreateInfra: infraConfig != nil, InfraContainerID: p.state.InfraContainerID, InfraConfig: infraConfig, SharedNamespaces: sharesNS, NumContainers: uint(len(containers)), Containers: ctrs, CPUSetCPUs: p.ResourceLim().CPU.Cpus, CPUPeriod: p.CPUPeriod(), CPUQuota: p.CPUQuota(), } return &inspectData, nil }