moby--moby/integration-cli/events_utils_test.go

package main

import (
	"bufio"
	"bytes"
	"io"
	"os/exec"
	"regexp"
	"strconv"
	"strings"
	"testing"

	eventstestutils "github.com/docker/docker/daemon/events/testutils"
	"github.com/sirupsen/logrus"
	"gotest.tools/assert"
)

// eventMatcher is a function that tries to match an event input.
// It returns true if the event matches and a map with
// a set of key/value to identify the match.
type eventMatcher func(text string) (map[string]string, bool)

// eventMatchProcessor is a function to handle an event match.
// It receives a map of key/value with the information extracted in a match.
type eventMatchProcessor func(matches map[string]string)

// eventObserver runs an events commands and observes its output.
type eventObserver struct {
	buffer             *bytes.Buffer
	command            *exec.Cmd
	scanner            *bufio.Scanner
	startTime          string
	disconnectionError error
}

// newEventObserver creates the observer and initializes the command
// without running it. Users must call `eventObserver.Start` to start the command.
func newEventObserver(c *testing.T, args ...string) (*eventObserver, error) {
	since := daemonTime(c).Unix()
	return newEventObserverWithBacklog(c, since, args...)
}

// newEventObserverWithBacklog creates a new observer changing the start time of the backlog to return.
func newEventObserverWithBacklog(c *testing.T, since int64, args ...string) (*eventObserver, error) {
	startTime := strconv.FormatInt(since, 10)
	cmdArgs := []string{"events", "--since", startTime}
	if len(args) > 0 {
		cmdArgs = append(cmdArgs, args...)
	}
	eventsCmd := exec.Command(dockerBinary, cmdArgs...)
	stdout, err := eventsCmd.StdoutPipe()
	if err != nil {
		return nil, err
	}

	return &eventObserver{
		buffer:    new(bytes.Buffer),
		command:   eventsCmd,
		scanner:   bufio.NewScanner(stdout),
		startTime: startTime,
	}, nil
}

// Start starts the events command.
func (e *eventObserver) Start() error {
	return e.command.Start()
}

// Stop stops the events command.
func (e *eventObserver) Stop() {
	e.command.Process.Kill()
	e.command.Wait()
}

// Match tries to match the events output with a given matcher.
func (e *eventObserver) Match(match eventMatcher, process eventMatchProcessor) {
	for e.scanner.Scan() {
		text := e.scanner.Text()
		e.buffer.WriteString(text)
		e.buffer.WriteString("\n")

		if matches, ok := match(text); ok {
			process(matches)
		}
	}

	err := e.scanner.Err()
	if err == nil {
		err = io.EOF
	}

	logrus.Debugf("EventObserver scanner loop finished: %v", err)
	e.disconnectionError = err
}

func (e *eventObserver) CheckEventError(c *testing.T, id, event string, match eventMatcher) {
	var foundEvent bool
	scannerOut := e.buffer.String()

	if e.disconnectionError != nil {
		until := daemonUnixTime(c)
		out, _ := dockerCmd(c, "events", "--since", e.startTime, "--until", until)
		events := strings.Split(strings.TrimSpace(out), "\n")
		for _, e := range events {
			if _, ok := match(e); ok {
				foundEvent = true
				break
			}
		}
		scannerOut = out
	}
	if !foundEvent {
		c.Fatalf("failed to observe event `%s` for %s. Disconnection error: %v\nout:\n%v", event, id, e.disconnectionError, scannerOut)
	}
}

// matchEventLine matches a text with the event regular expression.
// It returns the matches and true if the regular expression matches with the given id and event type.
// It returns an empty map and false if there is no match.
func matchEventLine(id, eventType string, actions map[string]chan bool) eventMatcher {
	return func(text string) (map[string]string, bool) {
		matches := eventstestutils.ScanMap(text)
		if len(matches) == 0 {
			return matches, false
		}

		if matchIDAndEventType(matches, id, eventType) {
			if _, ok := actions[matches["action"]]; ok {
				return matches, true
			}
		}
		return matches, false
	}
}

// processEventMatch closes an action channel when an event line matches the expected action.
func processEventMatch(actions map[string]chan bool) eventMatchProcessor {
	return func(matches map[string]string) {
		if ch, ok := actions[matches["action"]]; ok {
			ch <- true
		}
	}
}

// parseEventAction parses an event text and returns the action.
// It fails if the text is not in the event format.
func parseEventAction(c *testing.T, text string) string {
	matches := eventstestutils.ScanMap(text)
	return matches["action"]
}

// eventActionsByIDAndType returns the actions for a given id and type.
// It fails if the text is not in the event format.
func eventActionsByIDAndType(c *testing.T, events []string, id, eventType string) []string {
	var filtered []string
	for _, event := range events {
		matches := eventstestutils.ScanMap(event)
		assert.Assert(c, matches != nil)
		if matchIDAndEventType(matches, id, eventType) {
			filtered = append(filtered, matches["action"])
		}
	}
	return filtered
}

// matchIDAndEventType returns true if an event matches a given id and type.
// It also resolves names in the event attributes if the id doesn't match.
func matchIDAndEventType(matches map[string]string, id, eventType string) bool {
	return matchEventID(matches, id) && matches["eventType"] == eventType
}

func matchEventID(matches map[string]string, id string) bool {
	matchID := matches["id"] == id || strings.HasPrefix(matches["id"], id)
	if !matchID && matches["attributes"] != "" {
		// try matching a name in the attributes
		attributes := map[string]string{}
		for _, a := range strings.Split(matches["attributes"], ", ") {
			kv := strings.Split(a, "=")
			attributes[kv[0]] = kv[1]
		}
		matchID = attributes["name"] == id
	}
	return matchID
}

func parseEvents(c *testing.T, out, match string) {
	events := strings.Split(strings.TrimSpace(out), "\n")
	for _, event := range events {
		matches := eventstestutils.ScanMap(event)
		matched, err := regexp.MatchString(match, matches["action"])
		assert.NilError(c, err)
		assert.Assert(c, matched, "Matcher: %s did not match %s", match, matches["action"])
	}
}