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moby--moby/daemon/list.go
David Calavera 27c76522de Define a context per request.
Avoid creating a global context object that will be used while the daemon is running.

Not only this object won't ever be garbage collected, but it won't ever be used for anything else than creating other contexts in each request. I think it's a bad practive to have something like this sprawling aroud the code.

This change removes that global object and initializes a context in the cases we don't have already one, like shutting down the server.
This also removes a bunch of context arguments from functions that did nothing with it.

Signed-off-by: David Calavera <david.calavera@gmail.com>
2015-09-24 18:44:53 -04:00

403 lines
12 KiB
Go

package daemon
import (
"errors"
"fmt"
"strconv"
"strings"
"github.com/Sirupsen/logrus"
"github.com/docker/docker/api/types"
"github.com/docker/docker/context"
derr "github.com/docker/docker/errors"
"github.com/docker/docker/image"
"github.com/docker/docker/pkg/graphdb"
"github.com/docker/docker/pkg/nat"
"github.com/docker/docker/pkg/parsers/filters"
)
// iterationAction represents possible outcomes happening during the container iteration.
type iterationAction int
// containerReducer represents a reducer for a container.
// Returns the object to serialize by the api.
type containerReducer func(context.Context, *Container, *listContext) (*types.Container, error)
const (
// includeContainer is the action to include a container in the reducer.
includeContainer iterationAction = iota
// excludeContainer is the action to exclude a container in the reducer.
excludeContainer
// stopIteration is the action to stop iterating over the list of containers.
stopIteration
)
// errStopIteration makes the iterator to stop without returning an error.
var errStopIteration = errors.New("container list iteration stopped")
// List returns an array of all containers registered in the daemon.
func (daemon *Daemon) List() []*Container {
return daemon.containers.List()
}
// ContainersConfig is the filtering specified by the user to iterate over containers.
type ContainersConfig struct {
// if true show all containers, otherwise only running containers.
All bool
// show all containers created after this container id
Since string
// show all containers created before this container id
Before string
// number of containers to return at most
Limit int
// if true include the sizes of the containers
Size bool
// return only containers that match filters
Filters string
}
// listContext is the daemon generated filtering to iterate over containers.
// This is created based on the user specification.
type listContext struct {
// idx is the container iteration index for this context
idx int
// ancestorFilter tells whether it should check ancestors or not
ancestorFilter bool
// names is a list of container names to filter with
names map[string][]string
// images is a list of images to filter with
images map[string]bool
// filters is a collection of arguments to filter with, specified by the user
filters filters.Args
// exitAllowed is a list of exit codes allowed to filter with
exitAllowed []int
// beforeContainer is a filter to ignore containers that appear before the one given
beforeContainer *Container
// sinceContainer is a filter to stop the filtering when the iterator arrive to the given container
sinceContainer *Container
// ContainersConfig is the filters set by the user
*ContainersConfig
}
// Containers returns the list of containers to show given the user's filtering.
func (daemon *Daemon) Containers(ctx context.Context, config *ContainersConfig) ([]*types.Container, error) {
return daemon.reduceContainers(ctx, config, daemon.transformContainer)
}
// reduceContainer parses the user filtering and generates the list of containers to return based on a reducer.
func (daemon *Daemon) reduceContainers(ctx context.Context, config *ContainersConfig, reducer containerReducer) ([]*types.Container, error) {
containers := []*types.Container{}
fctx, err := daemon.foldFilter(ctx, config)
if err != nil {
return nil, err
}
for _, container := range daemon.List() {
t, err := daemon.reducePsContainer(ctx, container, fctx, reducer)
if err != nil {
if err != errStopIteration {
return nil, err
}
break
}
if t != nil {
containers = append(containers, t)
fctx.idx++
}
}
return containers, nil
}
// reducePsContainer is the basic representation for a container as expected by the ps command.
func (daemon *Daemon) reducePsContainer(ctx context.Context, container *Container, lctx *listContext, reducer containerReducer) (*types.Container, error) {
container.Lock()
defer container.Unlock()
// filter containers to return
action := includeContainerInList(container, lctx)
switch action {
case excludeContainer:
return nil, nil
case stopIteration:
return nil, errStopIteration
}
// transform internal container struct into api structs
return reducer(ctx, container, lctx)
}
// foldFilter generates the container filter based in the user's filtering options.
func (daemon *Daemon) foldFilter(ctx context.Context, config *ContainersConfig) (*listContext, error) {
psFilters, err := filters.FromParam(config.Filters)
if err != nil {
return nil, err
}
var filtExited []int
if i, ok := psFilters["exited"]; ok {
for _, value := range i {
code, err := strconv.Atoi(value)
if err != nil {
return nil, err
}
filtExited = append(filtExited, code)
}
}
if i, ok := psFilters["status"]; ok {
for _, value := range i {
if !isValidStateString(value) {
return nil, errors.New("Unrecognised filter value for status")
}
if value == "exited" || value == "created" {
config.All = true
}
}
}
imagesFilter := map[string]bool{}
var ancestorFilter bool
if ancestors, ok := psFilters["ancestor"]; ok {
ancestorFilter = true
byParents := daemon.Graph().ByParent()
// The idea is to walk the graph down the most "efficient" way.
for _, ancestor := range ancestors {
// First, get the imageId of the ancestor filter (yay)
image, err := daemon.Repositories().LookupImage(ancestor)
if err != nil {
logrus.Warnf("Error while looking up for image %v", ancestor)
continue
}
if imagesFilter[ancestor] {
// Already seen this ancestor, skip it
continue
}
// Then walk down the graph and put the imageIds in imagesFilter
populateImageFilterByParents(imagesFilter, image.ID, byParents)
}
}
names := map[string][]string{}
daemon.containerGraph().Walk("/", func(p string, e *graphdb.Entity) error {
names[e.ID()] = append(names[e.ID()], p)
return nil
}, 1)
var beforeCont, sinceCont *Container
if config.Before != "" {
beforeCont, err = daemon.Get(ctx, config.Before)
if err != nil {
return nil, err
}
}
if config.Since != "" {
sinceCont, err = daemon.Get(ctx, config.Since)
if err != nil {
return nil, err
}
}
return &listContext{
filters: psFilters,
ancestorFilter: ancestorFilter,
names: names,
images: imagesFilter,
exitAllowed: filtExited,
beforeContainer: beforeCont,
sinceContainer: sinceCont,
ContainersConfig: config,
}, nil
}
// includeContainerInList decides whether a containers should be include in the output or not based in the filter.
// It also decides if the iteration should be stopped or not.
func includeContainerInList(container *Container, ctx *listContext) iterationAction {
// Do not include container if it's stopped and we're not filters
if !container.Running && !ctx.All && ctx.Limit <= 0 && ctx.beforeContainer == nil && ctx.sinceContainer == nil {
return excludeContainer
}
// Do not include container if the name doesn't match
if !ctx.filters.Match("name", container.Name) {
return excludeContainer
}
// Do not include container if the id doesn't match
if !ctx.filters.Match("id", container.ID) {
return excludeContainer
}
// Do not include container if any of the labels don't match
if !ctx.filters.MatchKVList("label", container.Config.Labels) {
return excludeContainer
}
// Do not include container if it's in the list before the filter container.
// Set the filter container to nil to include the rest of containers after this one.
if ctx.beforeContainer != nil {
if container.ID == ctx.beforeContainer.ID {
ctx.beforeContainer = nil
}
return excludeContainer
}
// Stop iteration when the index is over the limit
if ctx.Limit > 0 && ctx.idx == ctx.Limit {
return stopIteration
}
// Stop interation when the container arrives to the filter container
if ctx.sinceContainer != nil {
if container.ID == ctx.sinceContainer.ID {
return stopIteration
}
}
// Do not include container if its exit code is not in the filter
if len(ctx.exitAllowed) > 0 {
shouldSkip := true
for _, code := range ctx.exitAllowed {
if code == container.ExitCode && !container.Running {
shouldSkip = false
break
}
}
if shouldSkip {
return excludeContainer
}
}
// Do not include container if its status doesn't match the filter
if !ctx.filters.Match("status", container.State.StateString()) {
return excludeContainer
}
if ctx.ancestorFilter {
if len(ctx.images) == 0 {
return excludeContainer
}
if !ctx.images[container.ImageID] {
return excludeContainer
}
}
return includeContainer
}
// transformContainer generates the container type expected by the docker ps command.
func (daemon *Daemon) transformContainer(ctx context.Context, container *Container, lctx *listContext) (*types.Container, error) {
newC := &types.Container{
ID: container.ID,
Names: lctx.names[container.ID],
}
img, err := daemon.Repositories().LookupImage(container.Config.Image)
if err != nil {
// If the image can no longer be found by its original reference,
// it makes sense to show the ID instead of a stale reference.
newC.Image = container.ImageID
} else if container.ImageID == img.ID {
newC.Image = container.Config.Image
} else {
newC.Image = container.ImageID
}
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, " ")
newC.Command = fmt.Sprintf("%s %s", container.Path, argsAsString)
} else {
newC.Command = container.Path
}
newC.Created = container.Created.Unix()
newC.Status = container.State.String()
newC.HostConfig.NetworkMode = string(container.hostConfig.NetworkMode)
newC.Ports = []types.Port{}
for port, bindings := range container.NetworkSettings.Ports {
p, err := nat.ParsePort(port.Port())
if err != nil {
return nil, err
}
if len(bindings) == 0 {
newC.Ports = append(newC.Ports, types.Port{
PrivatePort: p,
Type: port.Proto(),
})
continue
}
for _, binding := range bindings {
h, err := nat.ParsePort(binding.HostPort)
if err != nil {
return nil, err
}
newC.Ports = append(newC.Ports, types.Port{
PrivatePort: p,
PublicPort: h,
Type: port.Proto(),
IP: binding.HostIP,
})
}
}
if lctx.Size {
sizeRw, sizeRootFs := container.getSize(ctx)
newC.SizeRw = sizeRw
newC.SizeRootFs = sizeRootFs
}
newC.Labels = container.Config.Labels
return newC, nil
}
// Volumes lists known volumes, using the filter to restrict the range
// of volumes returned.
func (daemon *Daemon) Volumes(ctx context.Context, filter string) ([]*types.Volume, error) {
var volumesOut []*types.Volume
volFilters, err := filters.FromParam(filter)
if err != nil {
return nil, err
}
filterUsed := false
if i, ok := volFilters["dangling"]; ok {
if len(i) > 1 {
return nil, derr.ErrorCodeDanglingOne
}
filterValue := i[0]
if strings.ToLower(filterValue) == "true" || filterValue == "1" {
filterUsed = true
}
}
volumes := daemon.volumes.List()
for _, v := range volumes {
if filterUsed && daemon.volumes.Count(v) > 0 {
continue
}
volumesOut = append(volumesOut, volumeToAPIType(v))
}
return volumesOut, nil
}
func populateImageFilterByParents(ancestorMap map[string]bool, imageID string, byParents map[string][]*image.Image) {
if !ancestorMap[imageID] {
if images, ok := byParents[imageID]; ok {
for _, image := range images {
populateImageFilterByParents(ancestorMap, image.ID, byParents)
}
}
ancestorMap[imageID] = true
}
}