func TestParseVolumesFrom(t *testing.T) { cases := []struct { spec string expID string expMode string fail bool }{ {"", "", "", true}, {"foobar", "foobar", "rw", false}, {"foobar:rw", "foobar", "rw", false}, {"foobar:ro", "foobar", "ro", false}, {"foobar:baz", "", "", true}, } for _, c := range cases { id, mode, err := volume.ParseVolumesFrom(c.spec) if c.fail { if err == nil { t.Fatalf("Expected error, was nil, for spec %s\n", c.spec) } continue } if id != c.expID { t.Fatalf("Expected id %s, was %s, for spec %s\n", c.expID, id, c.spec) } if mode != c.expMode { t.Fatalf("Expected mode %s, was %s for spec %s\n", c.expMode, mode, c.spec) } } }
// registerMountPoints initializes the container mount points with the configured volumes and bind mounts. // It follows the next sequence to decide what to mount in each final destination: // // 1. Select the previously configured mount points for the containers, if any. // 2. Select the volumes mounted from another containers. Overrides previously configured mount point destination. // 3. Select the bind mounts set by the client. Overrides previously configured mount point destinations. // 4. Cleanup old volumes that are about to be reassigned. func (daemon *Daemon) registerMountPoints(container *container.Container, hostConfig *containertypes.HostConfig) (retErr error) { binds := map[string]bool{} mountPoints := map[string]*volume.MountPoint{} defer func() { // clean up the container mountpoints once return with error if retErr != nil { for _, m := range mountPoints { if m.Volume == nil { continue } daemon.volumes.Dereference(m.Volume, container.ID) } } }() // 1. Read already configured mount points. for destination, point := range container.MountPoints { mountPoints[destination] = point } // 2. Read volumes from other containers. for _, v := range hostConfig.VolumesFrom { containerID, mode, err := volume.ParseVolumesFrom(v) if err != nil { return err } c, err := daemon.GetContainer(containerID) if err != nil { return err } for _, m := range c.MountPoints { cp := &volume.MountPoint{ Name: m.Name, Source: m.Source, RW: m.RW && volume.ReadWrite(mode), Driver: m.Driver, Destination: m.Destination, Propagation: m.Propagation, Spec: m.Spec, CopyData: false, } if len(cp.Source) == 0 { v, err := daemon.volumes.GetWithRef(cp.Name, cp.Driver, container.ID) if err != nil { return err } cp.Volume = v } mountPoints[cp.Destination] = cp } } // 3. Read bind mounts for _, b := range hostConfig.Binds { bind, err := volume.ParseMountRaw(b, hostConfig.VolumeDriver) if err != nil { return err } // #10618 _, tmpfsExists := hostConfig.Tmpfs[bind.Destination] if binds[bind.Destination] || tmpfsExists { return fmt.Errorf("Duplicate mount point '%s'", bind.Destination) } if bind.Type == mounttypes.TypeVolume { // create the volume v, err := daemon.volumes.CreateWithRef(bind.Name, bind.Driver, container.ID, nil, nil) if err != nil { return err } bind.Volume = v bind.Source = v.Path() // bind.Name is an already existing volume, we need to use that here bind.Driver = v.DriverName() if bind.Driver == volume.DefaultDriverName { setBindModeIfNull(bind) } } binds[bind.Destination] = true mountPoints[bind.Destination] = bind } for _, cfg := range hostConfig.Mounts { mp, err := volume.ParseMountSpec(cfg) if err != nil { return dockererrors.NewBadRequestError(err) } if binds[mp.Destination] { return fmt.Errorf("Duplicate mount point '%s'", cfg.Target) } if mp.Type == mounttypes.TypeVolume { var v volume.Volume if cfg.VolumeOptions != nil { var driverOpts map[string]string if cfg.VolumeOptions.DriverConfig != nil { driverOpts = cfg.VolumeOptions.DriverConfig.Options } v, err = daemon.volumes.CreateWithRef(mp.Name, mp.Driver, container.ID, driverOpts, cfg.VolumeOptions.Labels) } else { v, err = daemon.volumes.CreateWithRef(mp.Name, mp.Driver, container.ID, nil, nil) } if err != nil { return err } if err := label.Relabel(mp.Source, container.MountLabel, false); err != nil { return err } mp.Volume = v mp.Name = v.Name() mp.Driver = v.DriverName() // only use the cached path here since getting the path is not necessary right now and calling `Path()` may be slow if cv, ok := v.(interface { CachedPath() string }); ok { mp.Source = cv.CachedPath() } } binds[mp.Destination] = true mountPoints[mp.Destination] = mp } container.Lock() // 4. Cleanup old volumes that are about to be reassigned. for _, m := range mountPoints { if m.BackwardsCompatible() { if mp, exists := container.MountPoints[m.Destination]; exists && mp.Volume != nil { daemon.volumes.Dereference(mp.Volume, container.ID) } } } container.MountPoints = mountPoints container.Unlock() return nil }
// registerMountPoints initializes the container mount points with the configured volumes and bind mounts. // It follows the next sequence to decide what to mount in each final destination: // // 1. Select the previously configured mount points for the containers, if any. // 2. Select the volumes mounted from another containers. Overrides previously configured mount point destination. // 3. Select the bind mounts set by the client. Overrides previously configured mount point destinations. // 4. Cleanup old volumes that are about to be reasigned. func (daemon *Daemon) registerMountPoints(container *Container, hostConfig *runconfig.HostConfig) error { binds := map[string]bool{} mountPoints := map[string]*volume.MountPoint{} // 1. Read already configured mount points. for name, point := range container.MountPoints { mountPoints[name] = point } // 2. Read volumes from other containers. for _, v := range hostConfig.VolumesFrom { containerID, mode, err := volume.ParseVolumesFrom(v) if err != nil { return err } c, err := daemon.Get(containerID) if err != nil { return err } for _, m := range c.MountPoints { cp := &volume.MountPoint{ Name: m.Name, Source: m.Source, RW: m.RW && volume.ReadWrite(mode), Driver: m.Driver, Destination: m.Destination, } if len(cp.Source) == 0 { v, err := daemon.createVolume(cp.Name, cp.Driver, nil) if err != nil { return err } cp.Volume = v } mountPoints[cp.Destination] = cp } } // 3. Read bind mounts for _, b := range hostConfig.Binds { // #10618 bind, err := volume.ParseMountSpec(b, hostConfig.VolumeDriver) if err != nil { return err } if binds[bind.Destination] { return derr.ErrorCodeVolumeDup.WithArgs(bind.Destination) } if len(bind.Name) > 0 && len(bind.Driver) > 0 { // create the volume v, err := daemon.createVolume(bind.Name, bind.Driver, nil) if err != nil { return err } bind.Volume = v bind.Source = v.Path() // bind.Name is an already existing volume, we need to use that here bind.Driver = v.DriverName() bind = setBindModeIfNull(bind) } if label.RelabelNeeded(bind.Mode) { if err := label.Relabel(bind.Source, container.MountLabel, label.IsShared(bind.Mode)); err != nil { return err } } binds[bind.Destination] = true mountPoints[bind.Destination] = bind } container.Lock() // 4. Cleanup old volumes that are about to be reasigned. for _, m := range mountPoints { if m.BackwardsCompatible() { if mp, exists := container.MountPoints[m.Destination]; exists && mp.Volume != nil { daemon.volumes.Decrement(mp.Volume) } } } container.MountPoints = mountPoints container.Unlock() return nil }
// registerMountPoints initializes the container mount points with the configured volumes and bind mounts. // It follows the next sequence to decide what to mount in each final destination: // // 1. Select the previously configured mount points for the containers, if any. // 2. Select the volumes mounted from another containers. Overrides previously configured mount point destination. // 3. Select the bind mounts set by the client. Overrides previously configured mount point destinations. // 4. Cleanup old volumes that are about to be reassigned. func (daemon *Daemon) registerMountPoints(container *container.Container, hostConfig *containertypes.HostConfig) (retErr error) { binds := map[string]bool{} mountPoints := map[string]*volume.MountPoint{} defer func() { // clean up the container mountpoints once return with error if retErr != nil { for _, m := range mountPoints { if m.Volume == nil { continue } daemon.volumes.Dereference(m.Volume, container.ID) } } }() // 1. Read already configured mount points. for name, point := range container.MountPoints { mountPoints[name] = point } // 2. Read volumes from other containers. for _, v := range hostConfig.VolumesFrom { containerID, mode, err := volume.ParseVolumesFrom(v) if err != nil { return err } c, err := daemon.GetContainer(containerID) if err != nil { return err } for _, m := range c.MountPoints { cp := &volume.MountPoint{ Name: m.Name, Source: m.Source, RW: m.RW && volume.ReadWrite(mode), Driver: m.Driver, Destination: m.Destination, Propagation: m.Propagation, Named: m.Named, } if len(cp.Source) == 0 { v, err := daemon.volumes.GetWithRef(cp.Name, cp.Driver, container.ID) if err != nil { return err } cp.Volume = v } mountPoints[cp.Destination] = cp } } // 3. Read bind mounts for _, b := range hostConfig.Binds { // #10618 bind, err := volume.ParseMountSpec(b, hostConfig.VolumeDriver) if err != nil { return err } _, tmpfsExists := hostConfig.Tmpfs[bind.Destination] if binds[bind.Destination] || tmpfsExists { return fmt.Errorf("Duplicate mount point '%s'", bind.Destination) } if len(bind.Name) > 0 { // create the volume v, err := daemon.volumes.CreateWithRef(bind.Name, bind.Driver, container.ID, nil, nil) if err != nil { return err } bind.Volume = v bind.Source = v.Path() // bind.Name is an already existing volume, we need to use that here bind.Driver = v.DriverName() bind.Named = true if bind.Driver == "local" { bind = setBindModeIfNull(bind) } } binds[bind.Destination] = true mountPoints[bind.Destination] = bind } container.Lock() // 4. Cleanup old volumes that are about to be reassigned. for _, m := range mountPoints { if m.BackwardsCompatible() { if mp, exists := container.MountPoints[m.Destination]; exists && mp.Volume != nil { daemon.volumes.Dereference(mp.Volume, container.ID) } } } container.MountPoints = mountPoints container.Unlock() return nil }