package container import ( "errors" "fmt" "strings" "time" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/network" "github.com/docker/go-connections/nat" "github.com/hashicorp/go-memdb" "github.com/sirupsen/logrus" ) const ( memdbContainersTable = "containers" memdbNamesTable = "names" memdbIDIndex = "id" memdbContainerIDIndex = "containerid" ) var ( // ErrNameReserved is an error which is returned when a name is requested to be reserved that already is reserved ErrNameReserved = errors.New("name is reserved") // ErrNameNotReserved is an error which is returned when trying to find a name that is not reserved ErrNameNotReserved = errors.New("name is not reserved") ) // Snapshot is a read only view for Containers. It holds all information necessary to serve container queries in a // versioned ACID in-memory store. type Snapshot struct { types.Container // additional info queries need to filter on // preserve nanosec resolution for queries CreatedAt time.Time StartedAt time.Time Name string Pid int ExitCode int Running bool Paused bool Managed bool ExposedPorts nat.PortSet PortBindings nat.PortSet Health string HostConfig struct { Isolation string } } // nameAssociation associates a container id with a name. type nameAssociation struct { // name is the name to associate. Note that name is the primary key // ("id" in memdb). name string containerID string } // ViewDB provides an in-memory transactional (ACID) container Store type ViewDB interface { Snapshot() View Save(*Container) error Delete(*Container) error ReserveName(name, containerID string) error ReleaseName(name string) error } // View can be used by readers to avoid locking type View interface { All() ([]Snapshot, error) Get(id string) (*Snapshot, error) GetID(name string) (string, error) GetAllNames() map[string][]string } var schema = &memdb.DBSchema{ Tables: map[string]*memdb.TableSchema{ memdbContainersTable: { Name: memdbContainersTable, Indexes: map[string]*memdb.IndexSchema{ memdbIDIndex: { Name: memdbIDIndex, Unique: true, Indexer: &containerByIDIndexer{}, }, }, }, memdbNamesTable: { Name: memdbNamesTable, Indexes: map[string]*memdb.IndexSchema{ // Used for names, because "id" is the primary key in memdb. memdbIDIndex: { Name: memdbIDIndex, Unique: true, Indexer: &namesByNameIndexer{}, }, memdbContainerIDIndex: { Name: memdbContainerIDIndex, Indexer: &namesByContainerIDIndexer{}, }, }, }, }, } type memDB struct { store *memdb.MemDB } // NoSuchContainerError indicates that the container wasn't found in the // database. type NoSuchContainerError struct { id string } // Error satisfies the error interface. func (e NoSuchContainerError) Error() string { return "no such container " + e.id } // NewViewDB provides the default implementation, with the default schema func NewViewDB() (ViewDB, error) { store, err := memdb.NewMemDB(schema) if err != nil { return nil, err } return &memDB{store: store}, nil } // Snapshot provides a consistent read-only View of the database func (db *memDB) Snapshot() View { return &memdbView{ txn: db.store.Txn(false), } } func (db *memDB) withTxn(cb func(*memdb.Txn) error) error { txn := db.store.Txn(true) err := cb(txn) if err != nil { txn.Abort() return err } txn.Commit() return nil } // Save atomically updates the in-memory store state for a Container. // Only read only (deep) copies of containers may be passed in. func (db *memDB) Save(c *Container) error { return db.withTxn(func(txn *memdb.Txn) error { return txn.Insert(memdbContainersTable, c) }) } // Delete removes an item by ID func (db *memDB) Delete(c *Container) error { return db.withTxn(func(txn *memdb.Txn) error { view := &memdbView{txn: txn} names := view.getNames(c.ID) for _, name := range names { txn.Delete(memdbNamesTable, nameAssociation{name: name}) } // Ignore error - the container may not actually exist in the // db, but we still need to clean up associated names. txn.Delete(memdbContainersTable, NewBaseContainer(c.ID, c.Root)) return nil }) } // ReserveName registers a container ID to a name // ReserveName is idempotent // Attempting to reserve a container ID to a name that already exists results in an `ErrNameReserved` // A name reservation is globally unique func (db *memDB) ReserveName(name, containerID string) error { return db.withTxn(func(txn *memdb.Txn) error { s, err := txn.First(memdbNamesTable, memdbIDIndex, name) if err != nil { return err } if s != nil { if s.(nameAssociation).containerID != containerID { return ErrNameReserved } return nil } return txn.Insert(memdbNamesTable, nameAssociation{name: name, containerID: containerID}) }) } // ReleaseName releases the reserved name // Once released, a name can be reserved again func (db *memDB) ReleaseName(name string) error { return db.withTxn(func(txn *memdb.Txn) error { return txn.Delete(memdbNamesTable, nameAssociation{name: name}) }) } type memdbView struct { txn *memdb.Txn } // All returns a all items in this snapshot. Returned objects must never be modified. func (v *memdbView) All() ([]Snapshot, error) { var all []Snapshot iter, err := v.txn.Get(memdbContainersTable, memdbIDIndex) if err != nil { return nil, err } for { item := iter.Next() if item == nil { break } snapshot := v.transform(item.(*Container)) all = append(all, *snapshot) } return all, nil } // Get returns an item by id. Returned objects must never be modified. func (v *memdbView) Get(id string) (*Snapshot, error) { s, err := v.txn.First(memdbContainersTable, memdbIDIndex, id) if err != nil { return nil, err } if s == nil { return nil, NoSuchContainerError{id: id} } return v.transform(s.(*Container)), nil } // getNames lists all the reserved names for the given container ID. func (v *memdbView) getNames(containerID string) []string { iter, err := v.txn.Get(memdbNamesTable, memdbContainerIDIndex, containerID) if err != nil { return nil } var names []string for { item := iter.Next() if item == nil { break } names = append(names, item.(nameAssociation).name) } return names } // GetID returns the container ID that the passed in name is reserved to. func (v *memdbView) GetID(name string) (string, error) { s, err := v.txn.First(memdbNamesTable, memdbIDIndex, name) if err != nil { return "", err } if s == nil { return "", ErrNameNotReserved } return s.(nameAssociation).containerID, nil } // GetAllNames returns all registered names. func (v *memdbView) GetAllNames() map[string][]string { iter, err := v.txn.Get(memdbNamesTable, memdbContainerIDIndex) if err != nil { return nil } out := make(map[string][]string) for { item := iter.Next() if item == nil { break } assoc := item.(nameAssociation) out[assoc.containerID] = append(out[assoc.containerID], assoc.name) } return out } // transform maps a (deep) copied Container object to what queries need. // A lock on the Container is not held because these are immutable deep copies. func (v *memdbView) transform(container *Container) *Snapshot { health := types.NoHealthcheck if container.Health != nil { health = container.Health.Status() } snapshot := &Snapshot{ Container: types.Container{ ID: container.ID, Names: v.getNames(container.ID), ImageID: container.ImageID.String(), Ports: []types.Port{}, Mounts: container.GetMountPoints(), State: container.State.StateString(), Status: container.State.String(), Created: container.Created.Unix(), }, CreatedAt: container.Created, StartedAt: container.StartedAt, Name: container.Name, Pid: container.Pid, Managed: container.Managed, ExposedPorts: make(nat.PortSet), PortBindings: make(nat.PortSet), Health: health, Running: container.Running, Paused: container.Paused, ExitCode: container.ExitCode(), } if snapshot.Names == nil { // Dead containers will often have no name, so make sure the response isn't null snapshot.Names = []string{} } if container.HostConfig != nil { snapshot.Container.HostConfig.NetworkMode = string(container.HostConfig.NetworkMode) snapshot.HostConfig.Isolation = string(container.HostConfig.Isolation) for binding := range container.HostConfig.PortBindings { snapshot.PortBindings[binding] = struct{}{} } } if container.Config != nil { snapshot.Image = container.Config.Image snapshot.Labels = container.Config.Labels for exposed := range container.Config.ExposedPorts { snapshot.ExposedPorts[exposed] = struct{}{} } } if len(container.Args) > 0 { args := []string{} for _, arg := range container.Args { if strings.Contains(arg, " ") { args = append(args, fmt.Sprintf("'%s'", arg)) } else { args = append(args, arg) } } argsAsString := strings.Join(args, " ") snapshot.Command = fmt.Sprintf("%s %s", container.Path, argsAsString) } else { snapshot.Command = container.Path } snapshot.Ports = []types.Port{} networks := make(map[string]*network.EndpointSettings) if container.NetworkSettings != nil { for name, netw := range container.NetworkSettings.Networks { if netw == nil || netw.EndpointSettings == nil { continue } networks[name] = &network.EndpointSettings{ EndpointID: netw.EndpointID, Gateway: netw.Gateway, IPAddress: netw.IPAddress, IPPrefixLen: netw.IPPrefixLen, IPv6Gateway: netw.IPv6Gateway, GlobalIPv6Address: netw.GlobalIPv6Address, GlobalIPv6PrefixLen: netw.GlobalIPv6PrefixLen, MacAddress: netw.MacAddress, NetworkID: netw.NetworkID, } if netw.IPAMConfig != nil { networks[name].IPAMConfig = &network.EndpointIPAMConfig{ IPv4Address: netw.IPAMConfig.IPv4Address, IPv6Address: netw.IPAMConfig.IPv6Address, } } } for port, bindings := range container.NetworkSettings.Ports { p, err := nat.ParsePort(port.Port()) if err != nil { logrus.Warnf("invalid port map %+v", err) continue } if len(bindings) == 0 { snapshot.Ports = append(snapshot.Ports, types.Port{ PrivatePort: uint16(p), Type: port.Proto(), }) continue } for _, binding := range bindings { h, err := nat.ParsePort(binding.HostPort) if err != nil { logrus.Warnf("invalid host port map %+v", err) continue } snapshot.Ports = append(snapshot.Ports, types.Port{ PrivatePort: uint16(p), PublicPort: uint16(h), Type: port.Proto(), IP: binding.HostIP, }) } } } snapshot.NetworkSettings = &types.SummaryNetworkSettings{Networks: networks} return snapshot } // containerByIDIndexer is used to extract the ID field from Container types. // memdb.StringFieldIndex can not be used since ID is a field from an embedded struct. type containerByIDIndexer struct{} // FromObject implements the memdb.SingleIndexer interface for Container objects func (e *containerByIDIndexer) FromObject(obj interface{}) (bool, []byte, error) { c, ok := obj.(*Container) if !ok { return false, nil, fmt.Errorf("%T is not a Container", obj) } // Add the null character as a terminator v := c.ID + "\x00" return true, []byte(v), nil } // FromArgs implements the memdb.Indexer interface func (e *containerByIDIndexer) FromArgs(args ...interface{}) ([]byte, error) { if len(args) != 1 { return nil, fmt.Errorf("must provide only a single argument") } arg, ok := args[0].(string) if !ok { return nil, fmt.Errorf("argument must be a string: %#v", args[0]) } // Add the null character as a terminator arg += "\x00" return []byte(arg), nil } // namesByNameIndexer is used to index container name associations by name. type namesByNameIndexer struct{} func (e *namesByNameIndexer) FromObject(obj interface{}) (bool, []byte, error) { n, ok := obj.(nameAssociation) if !ok { return false, nil, fmt.Errorf(`%T does not have type "nameAssociation"`, obj) } // Add the null character as a terminator return true, []byte(n.name + "\x00"), nil } func (e *namesByNameIndexer) FromArgs(args ...interface{}) ([]byte, error) { if len(args) != 1 { return nil, fmt.Errorf("must provide only a single argument") } arg, ok := args[0].(string) if !ok { return nil, fmt.Errorf("argument must be a string: %#v", args[0]) } // Add the null character as a terminator arg += "\x00" return []byte(arg), nil } // namesByContainerIDIndexer is used to index container names by container ID. type namesByContainerIDIndexer struct{} func (e *namesByContainerIDIndexer) FromObject(obj interface{}) (bool, []byte, error) { n, ok := obj.(nameAssociation) if !ok { return false, nil, fmt.Errorf(`%T does not have type "nameAssocation"`, obj) } // Add the null character as a terminator return true, []byte(n.containerID + "\x00"), nil } func (e *namesByContainerIDIndexer) FromArgs(args ...interface{}) ([]byte, error) { if len(args) != 1 { return nil, fmt.Errorf("must provide only a single argument") } arg, ok := args[0].(string) if !ok { return nil, fmt.Errorf("argument must be a string: %#v", args[0]) } // Add the null character as a terminator arg += "\x00" return []byte(arg), nil }