// ServeApi loops through all of the protocols sent in to docker and spawns
// off a go routine to setup a serving http.Server for each.
func ServeApi(job *engine.Job) engine.Status {
if len(job.Args) == 0 {
return job.Errorf("usage: %s PROTO://ADDR [PROTO://ADDR ...]", job.Name)
}
var (
protoAddrs = job.Args
chErrors = make(chan error, len(protoAddrs))
)
activationLock = make(chan struct{})
for _, protoAddr := range protoAddrs {
protoAddrParts := strings.SplitN(protoAddr, "://", 2)
if len(protoAddrParts) != 2 {
return job.Errorf("usage: %s PROTO://ADDR [PROTO://ADDR ...]", job.Name)
}
go func() {
log.Printf("Listening for HTTP on %s (%s)\n", protoAddrParts[0], protoAddrParts[1])
chErrors <- ListenAndServe(protoAddrParts[0], protoAddrParts[1], job)
}()
}
for i := 0; i < len(protoAddrs); i += 1 {
err := <-chErrors
if err != nil {
return job.Error(err)
}
}
return engine.StatusOK
}
// Allocate a network interface
func Allocate(job *engine.Job) engine.Status {
var (
ip *net.IP
err error
id = job.Args[0]
requestedIP = net.ParseIP(job.Getenv("RequestedIP"))
)
if requestedIP != nil {
ip, err = ipallocator.RequestIP(bridgeNetwork, &requestedIP)
} else {
ip, err = ipallocator.RequestIP(bridgeNetwork, nil)
}
if err != nil {
return job.Error(err)
}
out := engine.Env{}
out.Set("IP", ip.String())
out.Set("Mask", bridgeNetwork.Mask.String())
out.Set("Gateway", bridgeNetwork.IP.String())
out.Set("Bridge", bridgeIface)
size, _ := bridgeNetwork.Mask.Size()
out.SetInt("IPPrefixLen", size)
currentInterfaces.Set(id, &networkInterface{
IP: *ip,
})
out.WriteTo(job.Stdout)
return engine.StatusOK
}
// CmdLookup return an image encoded in JSON
func (s *TagStore) CmdLookup(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
if image, err := s.LookupImage(name); err == nil && image != nil {
if job.GetenvBool("dirty") {
b, err := json.Marshal(image)
if err != nil {
return job.Error(err)
}
job.Stdout.Write(b)
return engine.StatusOK
}
out := &engine.Env{}
out.Set("Id", image.ID)
out.Set("Parent", image.Parent)
out.Set("Comment", image.Comment)
out.SetAuto("Created", image.Created)
out.Set("Container", image.Container)
out.SetJson("ContainerConfig", image.ContainerConfig)
out.Set("DockerVersion", image.DockerVersion)
out.Set("Author", image.Author)
out.SetJson("Config", image.Config)
out.Set("Architecture", image.Architecture)
out.Set("Os", image.OS)
out.SetInt64("Size", image.Size)
if _, err = out.WriteTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
return job.Errorf("No such image: %s", name)
}
// ServeApi loops through all of the protocols sent in to docker and spawns
// off a go routine to setup a serving http.Server for each.
func ServeApi(job *engine.Job) engine.Status {
var (
protoAddrs = job.Args
chErrors = make(chan error, len(protoAddrs))
)
activationLock = make(chan struct{})
if err := job.Eng.Register("acceptconnections", AcceptConnections); err != nil {
return job.Error(err)
}
for _, protoAddr := range protoAddrs {
protoAddrParts := strings.SplitN(protoAddr, "://", 2)
go func() {
log.Printf("Listening for HTTP on %s (%s)\n", protoAddrParts[0], protoAddrParts[1])
chErrors <- ListenAndServe(protoAddrParts[0], protoAddrParts[1], job.Eng, job.GetenvBool("Logging"), job.GetenvBool("EnableCors"), job.Getenv("Version"))
}()
}
for i := 0; i < len(protoAddrs); i += 1 {
err := <-chErrors
if err != nil {
return job.Error(err)
}
}
return engine.StatusOK
}
func LinkContainers(job *engine.Job) engine.Status {
var (
action = job.Args[0]
childIP = job.Getenv("ChildIP")
parentIP = job.Getenv("ParentIP")
ignoreErrors = job.GetenvBool("IgnoreErrors")
ports = job.GetenvList("Ports")
)
split := func(p string) (string, string) {
parts := strings.Split(p, "/")
return parts[0], parts[1]
}
for _, p := range ports {
port, proto := split(p)
if output, err := iptables.Raw(action, "FORWARD",
"-i", bridgeIface, "-o", bridgeIface,
"-p", proto,
"-s", parentIP,
"--dport", port,
"-d", childIP,
"-j", "ACCEPT"); !ignoreErrors && err != nil {
job.Error(err)
return engine.StatusErr
} else if len(output) != 0 {
job.Errorf("Error toggle iptables forward: %s", output)
return engine.StatusErr
}
}
return engine.StatusOK
}
func (daemon *Daemon) ContainerInspect(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
if container := daemon.Get(name); container != nil {
container.Lock()
defer container.Unlock()
if job.GetenvBool("raw") {
b, err := json.Marshal(&struct {
*Container
HostConfig *runconfig.HostConfig
}{container, container.hostConfig})
if err != nil {
return job.Error(err)
}
job.Stdout.Write(b)
return engine.StatusOK
}
out := &engine.Env{}
out.Set("Id", container.ID)
out.SetAuto("Created", container.Created)
out.Set("Path", container.Path)
out.SetList("Args", container.Args)
out.SetJson("Config", container.Config)
out.SetJson("State", container.State)
out.Set("Image", container.Image)
out.SetJson("NetworkSettings", container.NetworkSettings)
out.Set("ResolvConfPath", container.ResolvConfPath)
out.Set("HostnamePath", container.HostnamePath)
out.Set("HostsPath", container.HostsPath)
out.Set("Name", container.Name)
out.Set("Driver", container.Driver)
out.Set("ExecDriver", container.ExecDriver)
out.Set("MountLabel", container.MountLabel)
out.Set("ProcessLabel", container.ProcessLabel)
out.SetJson("Volumes", container.Volumes)
out.SetJson("VolumesRW", container.VolumesRW)
if children, err := daemon.Children(container.Name); err == nil {
for linkAlias, child := range children {
container.hostConfig.Links = append(container.hostConfig.Links, fmt.Sprintf("%s:%s", child.Name, linkAlias))
}
}
out.SetJson("HostConfig", container.hostConfig)
container.hostConfig.Links = nil
if _, err := out.WriteTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
return job.Errorf("No such container: %s", name)
}
// CmdLookup return an image encoded in JSON
func (s *TagStore) CmdLookup(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
if image, err := s.LookupImage(name); err == nil && image != nil {
b, err := json.Marshal(image)
if err != nil {
return job.Error(err)
}
job.Stdout.Write(b)
return engine.StatusOK
}
return job.Errorf("No such image: %s", name)
}
// builtins jobs independent of any subsystem
func dockerVersion(job *engine.Job) engine.Status {
v := &engine.Env{}
v.Set("Version", dockerversion.VERSION)
v.SetJson("ApiVersion", api.APIVERSION)
v.Set("GitCommit", dockerversion.GITCOMMIT)
v.Set("GoVersion", runtime.Version())
v.Set("Os", runtime.GOOS)
v.Set("Arch", runtime.GOARCH)
if kernelVersion, err := utils.GetKernelVersion(); err == nil {
v.Set("KernelVersion", kernelVersion.String())
}
if _, err := v.WriteTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
// CmdTag assigns a new name and tag to an existing image. If the tag already exists,
// it is changed and the image previously referenced by the tag loses that reference.
// This may cause the old image to be garbage-collected if its reference count reaches zero.
//
// Syntax: image_tag NEWNAME OLDNAME
// Example: image_tag shykes/myapp:latest shykes/myapp:1.42.0
func (s *TagStore) CmdTag(job *engine.Job) engine.Status {
if len(job.Args) != 2 {
return job.Errorf("usage: %s NEWNAME OLDNAME", job.Name)
}
var (
newName = job.Args[0]
oldName = job.Args[1]
)
newRepo, newTag := utils.ParseRepositoryTag(newName)
// FIXME: Set should either parse both old and new name, or neither.
// the current prototype is inconsistent.
if err := s.Set(newRepo, newTag, oldName, true); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
func (daemon *Daemon) ContainerInspect(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
if container := daemon.Get(name); container != nil {
if job.GetenvBool("dirty") {
b, err := json.Marshal(&struct {
*Container
HostConfig *runconfig.HostConfig
}{container, container.HostConfig()})
if err != nil {
return job.Error(err)
}
job.Stdout.Write(b)
return engine.StatusOK
}
out := &engine.Env{}
out.Set("Id", container.ID)
out.SetAuto("Created", container.Created)
out.Set("Path", container.Path)
out.SetList("Args", container.Args)
out.SetJson("Config", container.Config)
out.SetJson("State", container.State)
out.Set("Image", container.Image)
out.SetJson("NetworkSettings", container.NetworkSettings)
out.Set("ResolvConfPath", container.ResolvConfPath)
out.Set("HostnamePath", container.HostnamePath)
out.Set("HostsPath", container.HostsPath)
out.Set("Name", container.Name)
out.Set("Driver", container.Driver)
out.Set("ExecDriver", container.ExecDriver)
out.Set("MountLabel", container.MountLabel)
out.Set("ProcessLabel", container.ProcessLabel)
out.SetJson("Volumes", container.Volumes)
out.SetJson("VolumesRW", container.VolumesRW)
out.SetJson("HostConfig", container.hostConfig)
if _, err := out.WriteTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
return job.Errorf("No such container: %s", name)
}
func (daemon *Daemon) ContainerInspect(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
if container := daemon.Get(name); container != nil {
b, err := json.Marshal(&struct {
*Container
HostConfig *runconfig.HostConfig
}{container, container.HostConfig()})
if err != nil {
return job.Error(err)
}
job.Stdout.Write(b)
return engine.StatusOK
}
return job.Errorf("No such container: %s", name)
}
// Search queries the public registry for images matching the specified
// search terms, and returns the results.
//
// Argument syntax: search TERM
//
// Option environment:
// 'authConfig': json-encoded credentials to authenticate against the registry.
// The search extends to images only accessible via the credentials.
//
// 'metaHeaders': extra HTTP headers to include in the request to the registry.
// The headers should be passed as a json-encoded dictionary.
//
// Output:
// Results are sent as a collection of structured messages (using engine.Table).
// Each result is sent as a separate message.
// Results are ordered by number of stars on the public registry.
func (s *Service) Search(job *engine.Job) engine.Status {
if n := len(job.Args); n != 1 {
return job.Errorf("Usage: %s TERM", job.Name)
}
var (
term = job.Args[0]
metaHeaders = map[string][]string{}
authConfig = &AuthConfig{}
)
job.GetenvJson("authConfig", authConfig)
job.GetenvJson("metaHeaders", metaHeaders)
r, err := NewRegistry(authConfig, HTTPRequestFactory(metaHeaders), IndexServerAddress())
if err != nil {
return job.Error(err)
}
results, err := r.SearchRepositories(term)
if err != nil {
return job.Error(err)
}
outs := engine.NewTable("star_count", 0)
for _, result := range results.Results {
out := &engine.Env{}
out.Import(result)
outs.Add(out)
}
outs.ReverseSort()
if _, err := outs.WriteListTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
// Auth contacts the public registry with the provided credentials,
// and returns OK if authentication was sucessful.
// It can be used to verify the validity of a client's credentials.
func (s *Service) Auth(job *engine.Job) engine.Status {
var (
err error
authConfig = &AuthConfig{}
)
job.GetenvJson("authConfig", authConfig)
// TODO: this is only done here because auth and registry need to be merged into one pkg
if addr := authConfig.ServerAddress; addr != "" && addr != IndexServerAddress() {
addr, err = ExpandAndVerifyRegistryUrl(addr)
if err != nil {
return job.Error(err)
}
authConfig.ServerAddress = addr
}
status, err := Login(authConfig, HTTPRequestFactory(nil))
if err != nil {
return job.Error(err)
}
job.Printf("%s\n", status)
return engine.StatusOK
}
// CmdGet returns information about an image.
// If the image doesn't exist, an empty object is returned, to allow
// checking for an image's existence.
func (s *TagStore) CmdGet(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
res := &engine.Env{}
img, err := s.LookupImage(name)
// Note: if the image doesn't exist, LookupImage returns
// nil, nil.
if err != nil {
return job.Error(err)
}
if img != nil {
// We don't directly expose all fields of the Image objects,
// to maintain a clean public API which we can maintain over
// time even if the underlying structure changes.
// We should have done this with the Image object to begin with...
// but we didn't, so now we're doing it here.
//
// Fields that we're probably better off not including:
// - ID (the caller already knows it, and we stay more flexible on
// naming down the road)
// - Parent. That field is really an implementation detail of
// layer storage ("layer is a diff against this other layer).
// It doesn't belong at the same level as author/description/etc.
// - Config/ContainerConfig. Those structs have the same sprawl problem,
// so we shouldn't include them wholesale either.
// - Comment: initially created to fulfill the "every image is a git commit"
// metaphor, in practice people either ignore it or use it as a
// generic description field which it isn't. On deprecation shortlist.
res.Set("created", fmt.Sprintf("%v", img.Created))
res.Set("author", img.Author)
res.Set("os", img.OS)
res.Set("architecture", img.Architecture)
res.Set("docker_version", img.DockerVersion)
}
res.WriteTo(job.Stdout)
return engine.StatusOK
}
// CmdTarLayer return the tarLayer of the image
func (s *TagStore) CmdTarLayer(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
if image, err := s.LookupImage(name); err == nil && image != nil {
fs, err := image.TarLayer()
if err != nil {
return job.Error(err)
}
defer fs.Close()
if written, err := io.Copy(job.Stdout, fs); err != nil {
return job.Error(err)
} else {
utils.Debugf("rendered layer for %s of [%d] size", image.ID, written)
}
return engine.StatusOK
}
return job.Errorf("No such image: %s", name)
}
// CmdSet stores a new image in the graph.
// Images are stored in the graph using 4 elements:
// - A user-defined ID
// - A collection of metadata describing the image
// - A directory tree stored as a tar archive (also called the "layer")
// - A reference to a "parent" ID on top of which the layer should be applied
//
// NOTE: even though the parent ID is only useful in relation to the layer and how
// to apply it (ie you could represent the full directory tree as 'parent_layer + layer',
// it is treated as a top-level property of the image. This is an artifact of early
// design and should probably be cleaned up in the future to simplify the design.
//
// Syntax: image_set ID
// Input:
// - Layer content must be streamed in tar format on stdin. An empty input is
// valid and represents a nil layer.
//
// - Image metadata must be passed in the command environment.
// 'json': a json-encoded object with all image metadata.
// It will be stored as-is, without any encoding/decoding artifacts.
// That is a requirement of the current registry client implementation,
// because a re-encoded json might invalidate the image checksum at
// the next upload, even with functionaly identical content.
func (s *TagStore) CmdSet(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
var (
imgJSON = []byte(job.Getenv("json"))
layer = job.Stdin
)
if len(imgJSON) == 0 {
return job.Errorf("mandatory key 'json' is not set")
}
// We have to pass an *image.Image object, even though it will be completely
// ignored in favor of the redundant json data.
// FIXME: the current prototype of Graph.Register is stupid and redundant.
img, err := image.NewImgJSON(imgJSON)
if err != nil {
return job.Error(err)
}
if err := s.graph.Register(imgJSON, layer, img); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
// Initializes the plugin by handling job arguments
func (rax *RaxCloud) init(job *engine.Job) (status engine.Status) {
app := cli.NewApp()
app.Name = "rax"
app.Usage = "Deploy Docker containers onto your Rackspace Cloud account. Accepts environment variables as listed in: https://github.com/openstack/python-novaclient/#command-line-api"
app.Version = "0.0.1"
app.Flags = []cli.Flag{
cli.StringFlag{"instance", "", "Sets the server instance to target for specific commands such as version."},
cli.StringFlag{"region", "DFW", "Sets the Rackspace region to target. This overrides any environment variables for region."},
cli.StringFlag{"key", "/etc/swarmd/rax.id_rsa", "Sets SSH keys file to use when initializing secure connections."},
cli.StringFlag{"user", "root", "Username to use when initializing secure connections."},
cli.StringFlag{"image", "", "Image to use when provisioning new hosts."},
cli.StringFlag{"flavor", "", "Flavor to use when provisioning new hosts."},
cli.StringFlag{"auto-scaling", "none", "Flag that when set determines the mode used for auto-scaling."},
}
var err error
app.Action = func(ctx *cli.Context) {
err = rax.run(ctx, job.Eng)
}
if len(job.Args) > 1 {
app.Run(append([]string{job.Name}, job.Args...))
}
// Failed to init?
if err != nil || rax.gopher == nil {
app.Run([]string{"rax", "help"})
if err == nil {
return engine.StatusErr
} else {
return job.Error(err)
}
}
return engine.StatusOK
}
// CmdGet returns information about an image.
// If the image doesn't exist, an empty object is returned, to allow
// checking for an image's existence.
func (s *TagStore) CmdGet(job *engine.Job) engine.Status {
if len(job.Args) != 1 {
return job.Errorf("usage: %s NAME", job.Name)
}
name := job.Args[0]
res := &engine.Env{}
img, err := s.LookupImage(name)
// Note: if the image doesn't exist, LookupImage returns
// nil, nil.
if err != nil {
return job.Error(err)
}
if img != nil {
// We don't directly expose all fields of the Image objects,
// to maintain a clean public API which we can maintain over
// time even if the underlying structure changes.
// We should have done this with the Image object to begin with...
// but we didn't, so now we're doing it here.
//
// Fields that we're probably better off not including:
// - Config/ContainerConfig. Those structs have the same sprawl problem,
// so we shouldn't include them wholesale either.
// - Comment: initially created to fulfill the "every image is a git commit"
// metaphor, in practice people either ignore it or use it as a
// generic description field which it isn't. On deprecation shortlist.
res.SetAuto("Created", img.Created)
res.Set("Author", img.Author)
res.Set("Os", img.OS)
res.Set("Architecture", img.Architecture)
res.Set("DockerVersion", img.DockerVersion)
res.Set("Id", img.ID)
res.Set("Parent", img.Parent)
}
res.WriteTo(job.Stdout)
return engine.StatusOK
}
// ServeApi loops through all of the protocols sent in to docker and spawns
// off a go routine to setup a serving http.Server for each.
func ServeApi(job *engine.Job) engine.Status {
protoAddrs := job.Args
chErrors := make(chan error, len(protoAddrs))
for _, protoAddr := range protoAddrs {
protoAddrParts := strings.SplitN(protoAddr, "://", 2)
go func() {
log.Printf("Listening for HTTP on %s (%s)\n", protoAddrParts[0], protoAddrParts[1])
chErrors <- ListenAndServe(protoAddrParts[0], protoAddrParts[1], job.Eng, job.GetenvBool("Logging"), job.GetenvBool("EnableCors"), job.Getenv("Version"))
}()
}
for i := 0; i < len(protoAddrs); i += 1 {
err := <-chErrors
if err != nil {
return job.Error(err)
}
}
// Tell the init daemon we are accepting requests
go systemd.SdNotify("READY=1")
return engine.StatusOK
}
// Allocate an external port and map it to the interface
func AllocatePort(job *engine.Job) engine.Status {
var (
err error
ip = defaultBindingIP
id = job.Args[0]
hostIP = job.Getenv("HostIP")
hostPort = job.GetenvInt("HostPort")
containerPort = job.GetenvInt("ContainerPort")
proto = job.Getenv("Proto")
network = currentInterfaces[id]
)
if hostIP != "" {
ip = net.ParseIP(hostIP)
}
// host ip, proto, and host port
hostPort, err = portallocator.RequestPort(ip, proto, hostPort)
if err != nil {
job.Error(err)
return engine.StatusErr
}
var (
container net.Addr
host net.Addr
)
if proto == "tcp" {
host = &net.TCPAddr{IP: ip, Port: hostPort}
container = &net.TCPAddr{IP: network.IP, Port: containerPort}
} else {
host = &net.UDPAddr{IP: ip, Port: hostPort}
container = &net.UDPAddr{IP: network.IP, Port: containerPort}
}
if err := portmapper.Map(container, ip, hostPort); err != nil {
portallocator.ReleasePort(ip, proto, hostPort)
job.Error(err)
return engine.StatusErr
}
network.PortMappings = append(network.PortMappings, host)
out := engine.Env{}
out.Set("HostIP", ip.String())
out.SetInt("HostPort", hostPort)
if _, err := out.WriteTo(job.Stdout); err != nil {
job.Error(err)
return engine.StatusErr
}
return engine.StatusOK
}
func InitDriver(job *engine.Job) engine.Status {
var (
network *net.IPNet
enableIPTables = job.GetenvBool("EnableIptables")
icc = job.GetenvBool("InterContainerCommunication")
ipForward = job.GetenvBool("EnableIpForward")
bridgeIP = job.Getenv("BridgeIP")
)
if defaultIP := job.Getenv("DefaultBindingIP"); defaultIP != "" {
defaultBindingIP = net.ParseIP(defaultIP)
}
bridgeIface = job.Getenv("BridgeIface")
usingDefaultBridge := false
if bridgeIface == "" {
usingDefaultBridge = true
bridgeIface = DefaultNetworkBridge
}
addr, err := networkdriver.GetIfaceAddr(bridgeIface)
if err != nil {
// If we're not using the default bridge, fail without trying to create it
if !usingDefaultBridge {
job.Logf("bridge not found: %s", bridgeIface)
return job.Error(err)
}
// If the iface is not found, try to create it
job.Logf("creating new bridge for %s", bridgeIface)
if err := createBridge(bridgeIP); err != nil {
return job.Error(err)
}
job.Logf("getting iface addr")
addr, err = networkdriver.GetIfaceAddr(bridgeIface)
if err != nil {
return job.Error(err)
}
network = addr.(*net.IPNet)
} else {
network = addr.(*net.IPNet)
// validate that the bridge ip matches the ip specified by BridgeIP
if bridgeIP != "" {
bip, _, err := net.ParseCIDR(bridgeIP)
if err != nil {
return job.Error(err)
}
if !network.IP.Equal(bip) {
return job.Errorf("bridge ip (%s) does not match existing bridge configuration %s", network.IP, bip)
}
}
}
// Configure iptables for link support
if enableIPTables {
if err := setupIPTables(addr, icc); err != nil {
return job.Error(err)
}
}
if ipForward {
// Enable IPv4 forwarding
if err := ioutil.WriteFile("/proc/sys/net/ipv4/ip_forward", []byte{'1', '\n'}, 0644); err != nil {
job.Logf("WARNING: unable to enable IPv4 forwarding: %s\n", err)
}
}
// We can always try removing the iptables
if err := iptables.RemoveExistingChain("DOCKER"); err != nil {
return job.Error(err)
}
if enableIPTables {
chain, err := iptables.NewChain("DOCKER", bridgeIface)
if err != nil {
return job.Error(err)
}
portmapper.SetIptablesChain(chain)
}
bridgeNetwork = network
// https://github.com/dotcloud/docker/issues/2768
job.Eng.Hack_SetGlobalVar("httpapi.bridgeIP", bridgeNetwork.IP)
for name, f := range map[string]engine.Handler{
"allocate_interface": Allocate,
"release_interface": Release,
"allocate_port": AllocatePort,
"link": LinkContainers,
} {
if err := job.Eng.Register(name, f); err != nil {
return job.Error(err)
}
}
return engine.StatusOK
}
// Allocate an external port and map it to the interface
func AllocatePort(job *engine.Job) engine.Status {
var (
err error
ip = defaultBindingIP
id = job.Args[0]
hostIP = job.Getenv("HostIP")
origHostPort = job.GetenvInt("HostPort")
containerPort = job.GetenvInt("ContainerPort")
proto = job.Getenv("Proto")
network = currentInterfaces.Get(id)
)
if hostIP != "" {
ip = net.ParseIP(hostIP)
}
var (
hostPort int
container net.Addr
host net.Addr
)
/*
Try up to 10 times to get a port that's not already allocated.
In the event of failure to bind, return the error that portmapper.Map
yields.
*/
for i := 0; i < 10; i++ {
// host ip, proto, and host port
hostPort, err = portallocator.RequestPort(ip, proto, origHostPort)
if err != nil {
return job.Error(err)
}
if proto == "tcp" {
host = &net.TCPAddr{IP: ip, Port: hostPort}
container = &net.TCPAddr{IP: network.IP, Port: containerPort}
} else {
host = &net.UDPAddr{IP: ip, Port: hostPort}
container = &net.UDPAddr{IP: network.IP, Port: containerPort}
}
if err = portmapper.Map(container, ip, hostPort); err == nil {
break
}
job.Logf("Failed to bind %s:%d for container address %s:%d. Trying another port.", ip.String(), hostPort, network.IP.String(), containerPort)
}
if err != nil {
return job.Error(err)
}
network.PortMappings = append(network.PortMappings, host)
out := engine.Env{}
out.Set("HostIP", ip.String())
out.SetInt("HostPort", hostPort)
if _, err := out.WriteTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}
// Allocate an external port and map it to the interface
func AllocatePort(job *engine.Job) engine.Status {
var (
err error
ip = defaultBindingIP
id = job.Args[0]
hostIP = job.Getenv("HostIP")
hostPort = job.GetenvInt("HostPort")
containerPort = job.GetenvInt("ContainerPort")
proto = job.Getenv("Proto")
network = currentInterfaces.Get(id)
)
if hostIP != "" {
ip = net.ParseIP(hostIP)
}
// host ip, proto, and host port
var container net.Addr
switch proto {
case "tcp":
container = &net.TCPAddr{IP: network.IP, Port: containerPort}
case "udp":
container = &net.UDPAddr{IP: network.IP, Port: containerPort}
default:
return job.Errorf("unsupported address type %s", proto)
}
//
// Try up to 10 times to get a port that's not already allocated.
//
// In the event of failure to bind, return the error that portmapper.Map
// yields.
//
var host net.Addr
for i := 0; i < MaxAllocatedPortAttempts; i++ {
if host, err = portmapper.Map(container, ip, hostPort); err == nil {
break
}
if allocerr, ok := err.(portallocator.ErrPortAlreadyAllocated); ok {
// There is no point in immediately retrying to map an explicitly
// chosen port.
if hostPort != 0 {
job.Logf("Failed to bind %s for container address %s: %s", allocerr.IPPort(), container.String(), allocerr.Error())
break
}
// Automatically chosen 'free' port failed to bind: move on the next.
job.Logf("Failed to bind %s for container address %s. Trying another port.", allocerr.IPPort(), container.String())
} else {
// some other error during mapping
job.Logf("Received an unexpected error during port allocation: %s", err.Error())
break
}
}
if err != nil {
return job.Error(err)
}
network.PortMappings = append(network.PortMappings, host)
out := engine.Env{}
switch netAddr := host.(type) {
case *net.TCPAddr:
out.Set("HostIP", netAddr.IP.String())
out.SetInt("HostPort", netAddr.Port)
case *net.UDPAddr:
out.Set("HostIP", netAddr.IP.String())
out.SetInt("HostPort", netAddr.Port)
}
if _, err := out.WriteTo(job.Stdout); err != nil {
return job.Error(err)
}
return engine.StatusOK
}