func (s *DockerTrustSuite) TestCreateWhenCertExpired(c *check.C) {
c.Skip("Currently changes system time, causing instability")
repoName := s.setupTrustedImage(c, "trusted-create-expired")
// Certificates have 10 years of expiration
elevenYearsFromNow := time.Now().Add(time.Hour * 24 * 365 * 11)
testutil.RunAtDifferentDate(elevenYearsFromNow, func() {
// Try create
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "create", repoName},
}, trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "could not validate the path to a trusted root",
})
})
testutil.RunAtDifferentDate(elevenYearsFromNow, func() {
// Try create
result := icmd.RunCmd(icmd.Command(dockerBinary, "create", "--disable-content-trust", repoName), trustedCmd)
c.Assert(result.Error, check.Not(check.IsNil))
c.Assert(string(result.Combined()), checker.Contains, "Status: Downloaded", check.Commentf("Missing expected output on trusted create in the distant future:\n%s", result.Combined()))
})
}
func (s *DockerTrustSuite) TestTrustedPullIgnoresOtherDelegationRoles(c *check.C) {
testRequires(c, NotaryHosting)
repoName := fmt.Sprintf("%v/dockerclipullotherdelegation/trusted", privateRegistryURL)
targetName := fmt.Sprintf("%s:latest", repoName)
// We'll create a repo first with a non-release delegation role, so that when we
// push we'll sign it into the delegation role
s.notaryInitRepo(c, repoName)
s.notaryCreateDelegation(c, repoName, "targets/other", s.not.keys[0].Public)
s.notaryImportKey(c, repoName, "targets/other", s.not.keys[0].Private)
s.notaryPublish(c, repoName)
// Push should write to the delegation role, not targets
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", targetName), trustedCmd).Assert(c, icmd.Success)
s.assertTargetInRoles(c, repoName, "latest", "targets/other")
s.assertTargetNotInRoles(c, repoName, "latest", "targets")
// Try pull - we should fail, since pull will only pull from the targets/releases
// role or the targets role
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "No trust data for",
})
// try a pull -a: we should fail since pull will only pull from the targets/releases
// role or the targets role
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", "-a", repoName), trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "No trusted tags for",
})
}
func (s *DockerTrustSuite) TestTrustedCreateFromBadTrustServer(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclievilcreate/trusted:latest", privateRegistryURL)
evilLocalConfigDir, err := ioutil.TempDir("", "evilcreate-local-config-dir")
c.Assert(err, check.IsNil)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
dockerCmd(c, "rmi", repoName)
// Try create
icmd.RunCmd(icmd.Command(dockerBinary, "create", repoName), trustedCmd).Assert(c, SuccessTagging)
dockerCmd(c, "rmi", repoName)
// Kill the notary server, start a new "evil" one.
s.not.Close()
s.not, err = newTestNotary(c)
c.Assert(err, check.IsNil)
// In order to make an evil server, lets re-init a client (with a different trust dir) and push new data.
// tag an image and upload it to the private registry
dockerCmd(c, "--config", evilLocalConfigDir, "tag", "busybox", repoName)
// Push up to the new server
icmd.RunCmd(icmd.Command(dockerBinary, "--config", evilLocalConfigDir, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// Now, try creating with the original client from this new trust server. This should fail because the new root is invalid.
icmd.RunCmd(icmd.Command(dockerBinary, "create", repoName), trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "could not rotate trust to a new trusted root",
})
}
func (s *DockerTrustSuite) TestPluginTrustedInstall(c *check.C) {
testRequires(c, DaemonIsLinux, IsAmd64, Network)
trustedName := s.setupTrustedplugin(c, pNameWithTag, "trusted-plugin-install")
icmd.RunCmd(icmd.Command(dockerBinary, "plugin", "install", "--grant-all-permissions", trustedName), trustedCmd).Assert(c, icmd.Expected{
Out: trustedName,
})
out, _, err := dockerCmdWithError("plugin", "ls")
c.Assert(err, checker.IsNil)
c.Assert(out, checker.Contains, "true")
out, _, err = dockerCmdWithError("plugin", "disable", trustedName)
c.Assert(err, checker.IsNil)
c.Assert(strings.TrimSpace(out), checker.Contains, trustedName)
out, _, err = dockerCmdWithError("plugin", "enable", trustedName)
c.Assert(err, checker.IsNil)
c.Assert(strings.TrimSpace(out), checker.Contains, trustedName)
out, _, err = dockerCmdWithError("plugin", "rm", "-f", trustedName)
c.Assert(err, checker.IsNil)
c.Assert(strings.TrimSpace(out), checker.Contains, trustedName)
// Try untrusted pull to ensure we pushed the tag to the registry
icmd.RunCmd(icmd.Command(dockerBinary, "plugin", "install", "--disable-content-trust=true", "--grant-all-permissions", trustedName), trustedCmd).Assert(c, SuccessDownloaded)
out, _, err = dockerCmdWithError("plugin", "ls")
c.Assert(err, checker.IsNil)
c.Assert(out, checker.Contains, "true")
}
// Can't use localhost here since go has a special case to not use proxy if connecting to localhost
// See https://golang.org/pkg/net/http/#ProxyFromEnvironment
func (s *DockerDaemonSuite) TestCLIProxyProxyTCPSock(c *check.C) {
testRequires(c, SameHostDaemon)
// get the IP to use to connect since we can't use localhost
addrs, err := net.InterfaceAddrs()
c.Assert(err, checker.IsNil)
var ip string
for _, addr := range addrs {
sAddr := addr.String()
if !strings.Contains(sAddr, "127.0.0.1") {
addrArr := strings.Split(sAddr, "/")
ip = addrArr[0]
break
}
}
c.Assert(ip, checker.Not(checker.Equals), "")
s.d.Start(c, "-H", "tcp://"+ip+":2375")
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "info"},
Env: []string{"DOCKER_HOST=tcp://" + ip + ":2375", "HTTP_PROXY=127.0.0.1:9999"},
}).Assert(c, icmd.Expected{Error: "exit status 1", ExitCode: 1})
// Test with no_proxy
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "info"},
Env: []string{"DOCKER_HOST=tcp://" + ip + ":2375", "HTTP_PROXY=127.0.0.1:9999", "NO_PROXY=" + ip},
}).Assert(c, icmd.Success)
}
func (s *DockerTrustSuite) TestTrustedPushSignsForRolesWithKeysAndValidPaths(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclirolesbykeysandpaths/trusted", privateRegistryURL)
targetName := fmt.Sprintf("%s:latest", repoName)
s.notaryInitRepo(c, repoName)
s.notaryCreateDelegation(c, repoName, "targets/role1", s.not.keys[0].Public, "l", "z")
s.notaryCreateDelegation(c, repoName, "targets/role2", s.not.keys[1].Public, "x", "y")
s.notaryCreateDelegation(c, repoName, "targets/role3", s.not.keys[2].Public, "latest")
s.notaryCreateDelegation(c, repoName, "targets/role4", s.not.keys[3].Public, "latest")
// import everything except the third key
s.notaryImportKey(c, repoName, "targets/role1", s.not.keys[0].Private)
s.notaryImportKey(c, repoName, "targets/role2", s.not.keys[1].Private)
s.notaryImportKey(c, repoName, "targets/role4", s.not.keys[3].Private)
s.notaryPublish(c, repoName)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", targetName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// check to make sure that the target has been added to targets/role1 and targets/role4, and
// not targets (because there are delegations) or targets/role2 (due to path restrictions) or
// targets/role3 (due to missing key)
s.assertTargetInRoles(c, repoName, "latest", "targets/role1", "targets/role4")
s.assertTargetNotInRoles(c, repoName, "latest", "targets")
// Try pull after push
os.RemoveAll(filepath.Join(cliconfig.Dir(), "trust"))
// pull should fail because none of these are the releases role
icmd.RunCmd(icmd.Command(dockerBinary, "pull", targetName), trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
})
}
func (s *DockerTrustSuite) TestTrustedPushWithReleasesDelegationOnly(c *check.C) {
testRequires(c, NotaryHosting)
repoName := fmt.Sprintf("%v/dockerclireleasedelegationinitfirst/trusted", privateRegistryURL)
targetName := fmt.Sprintf("%s:latest", repoName)
s.notaryInitRepo(c, repoName)
s.notaryCreateDelegation(c, repoName, "targets/releases", s.not.keys[0].Public)
s.notaryPublish(c, repoName)
s.notaryImportKey(c, repoName, "targets/releases", s.not.keys[0].Private)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", targetName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// check to make sure that the target has been added to targets/releases and not targets
s.assertTargetInRoles(c, repoName, "latest", "targets/releases")
s.assertTargetNotInRoles(c, repoName, "latest", "targets")
// Try pull after push
os.RemoveAll(filepath.Join(cliconfig.Dir(), "trust"))
icmd.RunCmd(icmd.Command(dockerBinary, "pull", targetName), trustedCmd).Assert(c, icmd.Expected{
Out: "Status: Image is up to date",
})
}
func (s *DockerTrustSuite) TestTrustedPull(c *check.C) {
repoName := s.setupTrustedImage(c, "trusted-pull")
// Try pull
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmd).Assert(c, SuccessTagging)
dockerCmd(c, "rmi", repoName)
// Try untrusted pull to ensure we pushed the tag to the registry
icmd.RunCmd(icmd.Command(dockerBinary, "pull", "--disable-content-trust=true", repoName), trustedCmd).Assert(c, SuccessDownloaded)
}
func (s *DockerTrustSuite) TestTrustedPushWithEnvPasswords(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclienv/trusted:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmdWithPassphrases("12345678", "12345678")).Assert(c, SuccessSigningAndPushing)
// Try pull after push
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
Out: "Status: Image is up to date",
})
}
func (s *DockerTrustSuite) TestTrustedPushWithIncorrectPassphraseForNonRoot(c *check.C) {
repoName := fmt.Sprintf("%v/dockercliincorretpwd/trusted:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
// Push with default passphrases
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// Push with wrong passphrases
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmdWithPassphrases("12345678", "87654321")).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "could not find necessary signing keys",
})
}
func (s *DockerTrustSuite) TestTrustedOfflinePull(c *check.C) {
repoName := s.setupTrustedImage(c, "trusted-offline-pull")
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmdWithServer("https://invalidnotaryserver")).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "error contacting notary server",
})
// Do valid trusted pull to warm cache
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmd).Assert(c, SuccessTagging)
dockerCmd(c, "rmi", repoName)
// Try pull again with invalid notary server, should use cache
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmdWithServer("https://invalidnotaryserver")).Assert(c, SuccessTagging)
}
func (s *DockerTrustSuite) TestTrustedPushWithExistingSignedTag(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclipushpush/trusted:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
// Do a trusted push
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// Do another trusted push
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
dockerCmd(c, "rmi", repoName)
// Try pull to ensure the double push did not break our ability to pull
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmd).Assert(c, SuccessDownloaded)
}
func (s *DockerSuite) TestBuildAddChangeOwnership(c *check.C) {
testRequires(c, DaemonIsLinux)
name := "testbuildaddown"
ctx := func() *FakeContext {
dockerfile := `
FROM busybox
ADD foo /bar/
RUN [ $(stat -c %U:%G "/bar") = 'root:root' ]
RUN [ $(stat -c %U:%G "/bar/foo") = 'root:root' ]
`
tmpDir, err := ioutil.TempDir("", "fake-context")
c.Assert(err, check.IsNil)
testFile, err := os.Create(filepath.Join(tmpDir, "foo"))
if err != nil {
c.Fatalf("failed to create foo file: %v", err)
}
defer testFile.Close()
icmd.RunCmd(icmd.Cmd{
Command: []string{"chown", "daemon:daemon", "foo"},
Dir: tmpDir,
}).Assert(c, icmd.Success)
if err := ioutil.WriteFile(filepath.Join(tmpDir, "Dockerfile"), []byte(dockerfile), 0644); err != nil {
c.Fatalf("failed to open destination dockerfile: %v", err)
}
return fakeContextFromDir(tmpDir)
}()
defer ctx.Close()
buildImageSuccessfully(c, name, withExternalBuildContext(ctx))
}
// execute a docker command in a directory
func dockerCmdInDir(c *check.C, path string, args ...string) (string, int, error) {
if err := validateArgs(args...); err != nil {
c.Fatalf(err.Error())
}
result := icmd.RunCmd(icmd.Cmd{Command: binaryWithArgs(args...), Dir: path})
return result.Combined(), result.ExitCode, result.Error
}
func (s *DockerSuite) TestImportFileWithMessage(c *check.C) {
testRequires(c, DaemonIsLinux)
dockerCmd(c, "run", "--name", "test-import", "busybox", "true")
temporaryFile, err := ioutil.TempFile("", "exportImportTest")
c.Assert(err, checker.IsNil, check.Commentf("failed to create temporary file"))
defer os.Remove(temporaryFile.Name())
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "export", "test-import"},
Stdout: bufio.NewWriter(temporaryFile),
}).Assert(c, icmd.Success)
message := "Testing commit message"
out, _ := dockerCmd(c, "import", "-m", message, temporaryFile.Name())
c.Assert(out, checker.Count, "\n", 1, check.Commentf("display is expected 1 '\\n' but didn't"))
image := strings.TrimSpace(out)
out, _ = dockerCmd(c, "history", image)
split := strings.Split(out, "\n")
c.Assert(split, checker.HasLen, 3, check.Commentf("expected 3 lines from image history"))
r := regexp.MustCompile("[\\s]{2,}")
split = r.Split(split[1], -1)
c.Assert(message, checker.Equals, split[3], check.Commentf("didn't get expected value in commit message"))
out, _ = dockerCmd(c, "run", "--rm", image, "true")
c.Assert(out, checker.Equals, "", check.Commentf("command output should've been nothing"))
}
func waitForContainer(contID string, args ...string) error {
args = append([]string{dockerBinary, "run", "--name", contID}, args...)
result := icmd.RunCmd(icmd.Cmd{Command: args})
if result.Error != nil {
return result.Error
}
return waitRun(contID)
}
func (s *DockerSuite) TestCLIProxyDisableProxyUnixSock(c *check.C) {
testRequires(c, DaemonIsLinux, SameHostDaemon)
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "info"},
Env: appendBaseEnv(false, "HTTP_PROXY=http://127.0.0.1:9999"),
}).Assert(c, icmd.Success)
}
func (s *DockerTrustSuite) TestTrustedIsolatedCreate(c *check.C) {
repoName := s.setupTrustedImage(c, "trusted-isolated-create")
// Try create
icmd.RunCmd(icmd.Command(dockerBinary, "--config", "/tmp/docker-isolated-create", "create", repoName), trustedCmd).Assert(c, SuccessTagging)
dockerCmd(c, "rmi", repoName)
}
func (s *DockerTrustSuite) TestTrustedIsolatedPull(c *check.C) {
repoName := s.setupTrustedImage(c, "trusted-isolated-pull")
// Try pull (run from isolated directory without trust information)
icmd.RunCmd(icmd.Command(dockerBinary, "--config", "/tmp/docker-isolated", "pull", repoName), trustedCmd).Assert(c, SuccessTagging)
dockerCmd(c, "rmi", repoName)
}
func (s *DockerTrustSuite) TestTrustedPush(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclitrusted/pushtest:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// Try pull after push
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
Out: "Status: Image is up to date",
})
// Assert that we rotated the snapshot key to the server by checking our local keystore
contents, err := ioutil.ReadDir(filepath.Join(cliconfig.Dir(), "trust/private/tuf_keys", privateRegistryURL, "dockerclitrusted/pushtest"))
c.Assert(err, check.IsNil, check.Commentf("Unable to read local tuf key files"))
// Check that we only have 1 key (targets key)
c.Assert(contents, checker.HasLen, 1)
}
func (s *DockerTrustSuite) TestTrustedPushWithoutServerAndUntrusted(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclitrusted/trustedandnot:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
result := icmd.RunCmd(icmd.Command(dockerBinary, "push", "--disable-content-trust", repoName), trustedCmdWithServer("https://server.invalid:81/"))
result.Assert(c, icmd.Success)
c.Assert(result.Combined(), check.Not(checker.Contains), "Error establishing connection to notary repository", check.Commentf("Missing expected output on trusted push with --disable-content-trust:"))
}
func (s *DockerTrustSuite) TestTrustedPushWithExpiredTimestamp(c *check.C) {
c.Skip("Currently changes system time, causing instability")
repoName := fmt.Sprintf("%v/dockercliexpiredtimestamppush/trusted:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
// Push with default passphrases
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// The timestamps expire in two weeks. Lets check three
threeWeeksLater := time.Now().Add(time.Hour * 24 * 21)
// Should succeed because the server transparently re-signs one
testutil.RunAtDifferentDate(threeWeeksLater, func() {
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName),
trustedCmd).Assert(c, SuccessSigningAndPushing)
})
}
func (s *DockerTrustSuite) TestTrustedPullReadsFromReleasesRole(c *check.C) {
testRequires(c, NotaryHosting)
repoName := fmt.Sprintf("%v/dockerclireleasesdelegationpulling/trusted", privateRegistryURL)
targetName := fmt.Sprintf("%s:latest", repoName)
// Push with targets first, initializing the repo
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", targetName), trustedCmd).Assert(c, icmd.Success)
s.assertTargetInRoles(c, repoName, "latest", "targets")
// Try pull, check we retrieve from targets role
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
Err: "retrieving target for targets role",
})
// Now we'll create the releases role, and try pushing and pulling
s.notaryCreateDelegation(c, repoName, "targets/releases", s.not.keys[0].Public)
s.notaryImportKey(c, repoName, "targets/releases", s.not.keys[0].Private)
s.notaryPublish(c, repoName)
// try a pull, check that we can still pull because we can still read the
// old tag in the targets role
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
Err: "retrieving target for targets role",
})
// try a pull -a, check that it succeeds because we can still pull from the
// targets role
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", "-a", repoName), trustedCmd).Assert(c, icmd.Success)
// Push, should sign with targets/releases
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", targetName), trustedCmd).Assert(c, icmd.Success)
s.assertTargetInRoles(c, repoName, "latest", "targets", "targets/releases")
// Try pull, check we retrieve from targets/releases role
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
Err: "retrieving target for targets/releases role",
})
// Create another delegation that we'll sign with
s.notaryCreateDelegation(c, repoName, "targets/other", s.not.keys[1].Public)
s.notaryImportKey(c, repoName, "targets/other", s.not.keys[1].Private)
s.notaryPublish(c, repoName)
dockerCmd(c, "tag", "busybox", targetName)
icmd.RunCmd(icmd.Command(dockerBinary, "push", targetName), trustedCmd).Assert(c, icmd.Success)
s.assertTargetInRoles(c, repoName, "latest", "targets", "targets/releases", "targets/other")
// Try pull, check we retrieve from targets/releases role
icmd.RunCmd(icmd.Command(dockerBinary, "-D", "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
Err: "retrieving target for targets/releases role",
})
}
func buildImage(name string, cmdOperators ...func(*icmd.Cmd) func()) *icmd.Result {
cmd := icmd.Command(dockerBinary, "build", "-t", name)
for _, op := range cmdOperators {
deferFn := op(&cmd)
if deferFn != nil {
defer deferFn()
}
}
return icmd.RunCmd(cmd)
}
// BuildImageWithOut builds an image with the specified dockerfile and options and returns the output
func (d *Daemon) BuildImageWithOut(name, dockerfile string, useCache bool, buildFlags ...string) (string, int, error) {
buildCmd := BuildImageCmdWithHost(d.dockerBinary, name, dockerfile, d.Sock(), useCache, buildFlags...)
result := icmd.RunCmd(icmd.Cmd{
Command: buildCmd.Args,
Env: buildCmd.Env,
Dir: buildCmd.Dir,
Stdin: buildCmd.Stdin,
Stdout: buildCmd.Stdout,
})
return result.Combined(), result.ExitCode, result.Error
}
func (s *DockerTrustSuite) TestTrustedPushWithFailingServer(c *check.C) {
repoName := fmt.Sprintf("%v/dockerclitrusted/failingserver:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
// Using a name that doesn't resolve to an address makes this test faster
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmdWithServer("https://server.invalid:81/")).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "error contacting notary server",
})
}
func (s *DockerSuite) TestRmiForceWithExistingContainers(c *check.C) {
image := "busybox-clone"
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "build", "--no-cache", "-t", image, "-"},
Stdin: strings.NewReader(`FROM busybox
MAINTAINER foo`),
}).Assert(c, icmd.Success)
dockerCmd(c, "run", "--name", "test-force-rmi", image, "/bin/true")
dockerCmd(c, "rmi", "-f", image)
}
func (s *DockerTrustSuite) setupTrustedplugin(c *check.C, source, name string) string {
repoName := fmt.Sprintf("%v/dockercli/%s:latest", privateRegistryURL, name)
// tag the image and upload it to the private registry
dockerCmd(c, "plugin", "install", "--grant-all-permissions", "--alias", repoName, source)
icmd.RunCmd(icmd.Command(dockerBinary, "plugin", "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
if out, status := dockerCmd(c, "plugin", "rm", "-f", repoName); status != 0 {
c.Fatalf("Error removing plugin %q\n%s", repoName, out)
}
return repoName
}
func (s *DockerTrustSuite) TestUntrustedPull(c *check.C) {
repoName := fmt.Sprintf("%v/dockercliuntrusted/pulltest:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
dockerCmd(c, "push", repoName)
dockerCmd(c, "rmi", repoName)
// Try trusted pull on untrusted tag
icmd.RunCmd(icmd.Command(dockerBinary, "pull", repoName), trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "Error: remote trust data does not exist",
})
}
func (s *DockerTrustSuite) TestTrustedPushWithExpiredSnapshot(c *check.C) {
c.Skip("Currently changes system time, causing instability")
repoName := fmt.Sprintf("%v/dockercliexpiredsnapshot/trusted:latest", privateRegistryURL)
// tag the image and upload it to the private registry
dockerCmd(c, "tag", "busybox", repoName)
// Push with default passphrases
icmd.RunCmd(icmd.Command(dockerBinary, "push", repoName), trustedCmd).Assert(c, SuccessSigningAndPushing)
// Snapshots last for three years. This should be expired
fourYearsLater := time.Now().Add(time.Hour * 24 * 365 * 4)
testutil.RunAtDifferentDate(fourYearsLater, func() {
// Push with wrong passphrases
icmd.RunCmd(icmd.Cmd{
Command: []string{dockerBinary, "push", repoName},
}, trustedCmd).Assert(c, icmd.Expected{
ExitCode: 1,
Err: "repository out-of-date",
})
})
}