package main import ( "archive/tar" "bytes" "context" "encoding/json" "fmt" "io" "io/ioutil" "net/http" "regexp" "strings" "github.com/docker/docker/api/types" "github.com/docker/docker/integration-cli/checker" "github.com/docker/docker/internal/test/fakecontext" "github.com/docker/docker/internal/test/fakegit" "github.com/docker/docker/internal/test/fakestorage" "github.com/docker/docker/internal/test/request" "github.com/go-check/check" "github.com/gotestyourself/gotestyourself/assert" is "github.com/gotestyourself/gotestyourself/assert/cmp" ) func (s *DockerSuite) TestBuildAPIDockerFileRemote(c *check.C) { testRequires(c, NotUserNamespace) var testD string if testEnv.OSType == "windows" { testD = `FROM busybox RUN find / -name ba* RUN find /tmp/` } else { // -xdev is required because sysfs can cause EPERM testD = `FROM busybox RUN find / -xdev -name ba* RUN find /tmp/` } server := fakestorage.New(c, "", fakecontext.WithFiles(map[string]string{"testD": testD})) defer server.Close() res, body, err := request.Post("/build?dockerfile=baz&remote="+server.URL()+"/testD", request.JSON) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) buf, err := request.ReadBody(body) c.Assert(err, checker.IsNil) // Make sure Dockerfile exists. // Make sure 'baz' doesn't exist ANYWHERE despite being mentioned in the URL out := string(buf) c.Assert(out, checker.Contains, "RUN find /tmp") c.Assert(out, checker.Not(checker.Contains), "baz") } func (s *DockerSuite) TestBuildAPIRemoteTarballContext(c *check.C) { buffer := new(bytes.Buffer) tw := tar.NewWriter(buffer) defer tw.Close() dockerfile := []byte("FROM busybox") err := tw.WriteHeader(&tar.Header{ Name: "Dockerfile", Size: int64(len(dockerfile)), }) // failed to write tar file header c.Assert(err, checker.IsNil) _, err = tw.Write(dockerfile) // failed to write tar file content c.Assert(err, checker.IsNil) // failed to close tar archive c.Assert(tw.Close(), checker.IsNil) server := fakestorage.New(c, "", fakecontext.WithBinaryFiles(map[string]*bytes.Buffer{ "testT.tar": buffer, })) defer server.Close() res, b, err := request.Post("/build?remote="+server.URL()+"/testT.tar", request.ContentType("application/tar")) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) b.Close() } func (s *DockerSuite) TestBuildAPIRemoteTarballContextWithCustomDockerfile(c *check.C) { buffer := new(bytes.Buffer) tw := tar.NewWriter(buffer) defer tw.Close() dockerfile := []byte(`FROM busybox RUN echo 'wrong'`) err := tw.WriteHeader(&tar.Header{ Name: "Dockerfile", Size: int64(len(dockerfile)), }) // failed to write tar file header c.Assert(err, checker.IsNil) _, err = tw.Write(dockerfile) // failed to write tar file content c.Assert(err, checker.IsNil) custom := []byte(`FROM busybox RUN echo 'right' `) err = tw.WriteHeader(&tar.Header{ Name: "custom", Size: int64(len(custom)), }) // failed to write tar file header c.Assert(err, checker.IsNil) _, err = tw.Write(custom) // failed to write tar file content c.Assert(err, checker.IsNil) // failed to close tar archive c.Assert(tw.Close(), checker.IsNil) server := fakestorage.New(c, "", fakecontext.WithBinaryFiles(map[string]*bytes.Buffer{ "testT.tar": buffer, })) defer server.Close() url := "/build?dockerfile=custom&remote=" + server.URL() + "/testT.tar" res, body, err := request.Post(url, request.ContentType("application/tar")) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) defer body.Close() content, err := request.ReadBody(body) c.Assert(err, checker.IsNil) // Build used the wrong dockerfile. c.Assert(string(content), checker.Not(checker.Contains), "wrong") } func (s *DockerSuite) TestBuildAPILowerDockerfile(c *check.C) { git := fakegit.New(c, "repo", map[string]string{ "dockerfile": `FROM busybox RUN echo from dockerfile`, }, false) defer git.Close() res, body, err := request.Post("/build?remote="+git.RepoURL, request.JSON) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) buf, err := request.ReadBody(body) c.Assert(err, checker.IsNil) out := string(buf) c.Assert(out, checker.Contains, "from dockerfile") } func (s *DockerSuite) TestBuildAPIBuildGitWithF(c *check.C) { git := fakegit.New(c, "repo", map[string]string{ "baz": `FROM busybox RUN echo from baz`, "Dockerfile": `FROM busybox RUN echo from Dockerfile`, }, false) defer git.Close() // Make sure it tries to 'dockerfile' query param value res, body, err := request.Post("/build?dockerfile=baz&remote="+git.RepoURL, request.JSON) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) buf, err := request.ReadBody(body) c.Assert(err, checker.IsNil) out := string(buf) c.Assert(out, checker.Contains, "from baz") } func (s *DockerSuite) TestBuildAPIDoubleDockerfile(c *check.C) { testRequires(c, UnixCli) // dockerfile overwrites Dockerfile on Windows git := fakegit.New(c, "repo", map[string]string{ "Dockerfile": `FROM busybox RUN echo from Dockerfile`, "dockerfile": `FROM busybox RUN echo from dockerfile`, }, false) defer git.Close() // Make sure it tries to 'dockerfile' query param value res, body, err := request.Post("/build?remote="+git.RepoURL, request.JSON) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) buf, err := request.ReadBody(body) c.Assert(err, checker.IsNil) out := string(buf) c.Assert(out, checker.Contains, "from Dockerfile") } func (s *DockerSuite) TestBuildAPIUnnormalizedTarPaths(c *check.C) { // Make sure that build context tars with entries of the form // x/./y don't cause caching false positives. buildFromTarContext := func(fileContents []byte) string { buffer := new(bytes.Buffer) tw := tar.NewWriter(buffer) defer tw.Close() dockerfile := []byte(`FROM busybox COPY dir /dir/`) err := tw.WriteHeader(&tar.Header{ Name: "Dockerfile", Size: int64(len(dockerfile)), }) //failed to write tar file header c.Assert(err, checker.IsNil) _, err = tw.Write(dockerfile) // failed to write Dockerfile in tar file content c.Assert(err, checker.IsNil) err = tw.WriteHeader(&tar.Header{ Name: "dir/./file", Size: int64(len(fileContents)), }) //failed to write tar file header c.Assert(err, checker.IsNil) _, err = tw.Write(fileContents) // failed to write file contents in tar file content c.Assert(err, checker.IsNil) // failed to close tar archive c.Assert(tw.Close(), checker.IsNil) res, body, err := request.Post("/build", request.RawContent(ioutil.NopCloser(buffer)), request.ContentType("application/x-tar")) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) out, err := request.ReadBody(body) c.Assert(err, checker.IsNil) lines := strings.Split(string(out), "\n") c.Assert(len(lines), checker.GreaterThan, 1) c.Assert(lines[len(lines)-2], checker.Matches, ".*Successfully built [0-9a-f]{12}.*") re := regexp.MustCompile("Successfully built ([0-9a-f]{12})") matches := re.FindStringSubmatch(lines[len(lines)-2]) return matches[1] } imageA := buildFromTarContext([]byte("abc")) imageB := buildFromTarContext([]byte("def")) c.Assert(imageA, checker.Not(checker.Equals), imageB) } func (s *DockerSuite) TestBuildOnBuildWithCopy(c *check.C) { dockerfile := ` FROM ` + minimalBaseImage() + ` as onbuildbase ONBUILD COPY file /file FROM onbuildbase ` ctx := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), fakecontext.WithFile("file", "some content"), ) defer ctx.Close() res, body, err := request.Post( "/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) out, err := request.ReadBody(body) c.Assert(err, checker.IsNil) c.Assert(string(out), checker.Contains, "Successfully built") } func (s *DockerSuite) TestBuildOnBuildCache(c *check.C) { build := func(dockerfile string) []byte { ctx := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), ) defer ctx.Close() res, body, err := request.Post( "/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) assert.NilError(c, err) assert.Check(c, is.DeepEqual(http.StatusOK, res.StatusCode)) out, err := request.ReadBody(body) assert.NilError(c, err) assert.Check(c, is.Contains(string(out), "Successfully built")) return out } dockerfile := ` FROM ` + minimalBaseImage() + ` as onbuildbase ENV something=bar ONBUILD ENV foo=bar ` build(dockerfile) dockerfile += "FROM onbuildbase" out := build(dockerfile) imageIDs := getImageIDsFromBuild(c, out) assert.Check(c, is.Len(imageIDs, 2)) parentID, childID := imageIDs[0], imageIDs[1] client := testEnv.APIClient() // check parentID is correct image, _, err := client.ImageInspectWithRaw(context.Background(), childID) assert.NilError(c, err) assert.Check(c, is.Equal(parentID, image.Parent)) } func (s *DockerRegistrySuite) TestBuildCopyFromForcePull(c *check.C) { client := testEnv.APIClient() repoName := fmt.Sprintf("%v/dockercli/busybox", privateRegistryURL) // tag the image to upload it to the private registry err := client.ImageTag(context.TODO(), "busybox", repoName) assert.Check(c, err) // push the image to the registry rc, err := client.ImagePush(context.TODO(), repoName, types.ImagePushOptions{RegistryAuth: "{}"}) assert.Check(c, err) _, err = io.Copy(ioutil.Discard, rc) assert.Check(c, err) dockerfile := fmt.Sprintf(` FROM %s AS foo RUN touch abc FROM %s COPY --from=foo /abc / `, repoName, repoName) ctx := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), ) defer ctx.Close() res, body, err := request.Post( "/build?pull=1", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) assert.NilError(c, err) assert.Check(c, is.DeepEqual(http.StatusOK, res.StatusCode)) out, err := request.ReadBody(body) assert.NilError(c, err) assert.Check(c, is.Contains(string(out), "Successfully built")) } func (s *DockerSuite) TestBuildAddRemoteNoDecompress(c *check.C) { buffer := new(bytes.Buffer) tw := tar.NewWriter(buffer) dt := []byte("contents") err := tw.WriteHeader(&tar.Header{ Name: "foo", Size: int64(len(dt)), Mode: 0600, Typeflag: tar.TypeReg, }) assert.NilError(c, err) _, err = tw.Write(dt) assert.NilError(c, err) err = tw.Close() assert.NilError(c, err) server := fakestorage.New(c, "", fakecontext.WithBinaryFiles(map[string]*bytes.Buffer{ "test.tar": buffer, })) defer server.Close() dockerfile := fmt.Sprintf(` FROM busybox ADD %s/test.tar / RUN [ -f test.tar ] `, server.URL()) ctx := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), ) defer ctx.Close() res, body, err := request.Post( "/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) assert.NilError(c, err) assert.Check(c, is.DeepEqual(http.StatusOK, res.StatusCode)) out, err := request.ReadBody(body) assert.NilError(c, err) assert.Check(c, is.Contains(string(out), "Successfully built")) } func (s *DockerSuite) TestBuildChownOnCopy(c *check.C) { // new feature added in 1.31 - https://github.com/moby/moby/pull/34263 testRequires(c, DaemonIsLinux, MinimumAPIVersion("1.31")) dockerfile := `FROM busybox RUN echo 'test1:x:1001:1001::/bin:/bin/false' >> /etc/passwd RUN echo 'test1:x:1001:' >> /etc/group RUN echo 'test2:x:1002:' >> /etc/group COPY --chown=test1:1002 . /new_dir RUN ls -l / RUN [ $(ls -l / | grep new_dir | awk '{print $3":"$4}') = 'test1:test2' ] RUN [ $(ls -nl / | grep new_dir | awk '{print $3":"$4}') = '1001:1002' ] ` ctx := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), fakecontext.WithFile("test_file1", "some test content"), ) defer ctx.Close() res, body, err := request.Post( "/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) out, err := request.ReadBody(body) assert.NilError(c, err) assert.Check(c, is.Contains(string(out), "Successfully built")) } func (s *DockerSuite) TestBuildCopyCacheOnFileChange(c *check.C) { dockerfile := `FROM busybox COPY file /file` ctx1 := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), fakecontext.WithFile("file", "foo")) ctx2 := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), fakecontext.WithFile("file", "bar")) var build = func(ctx *fakecontext.Fake) string { res, body, err := request.Post("/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) assert.NilError(c, err) assert.Check(c, is.DeepEqual(http.StatusOK, res.StatusCode)) out, err := request.ReadBody(body) assert.NilError(c, err) ids := getImageIDsFromBuild(c, out) return ids[len(ids)-1] } id1 := build(ctx1) id2 := build(ctx1) id3 := build(ctx2) if id1 != id2 { c.Fatal("didn't use the cache") } if id1 == id3 { c.Fatal("COPY With different source file should not share same cache") } } func (s *DockerSuite) TestBuildAddCacheOnFileChange(c *check.C) { dockerfile := `FROM busybox ADD file /file` ctx1 := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), fakecontext.WithFile("file", "foo")) ctx2 := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), fakecontext.WithFile("file", "bar")) var build = func(ctx *fakecontext.Fake) string { res, body, err := request.Post("/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) assert.NilError(c, err) assert.Check(c, is.DeepEqual(http.StatusOK, res.StatusCode)) out, err := request.ReadBody(body) assert.NilError(c, err) ids := getImageIDsFromBuild(c, out) return ids[len(ids)-1] } id1 := build(ctx1) id2 := build(ctx1) id3 := build(ctx2) if id1 != id2 { c.Fatal("didn't use the cache") } if id1 == id3 { c.Fatal("COPY With different source file should not share same cache") } } func (s *DockerSuite) TestBuildScratchCopy(c *check.C) { testRequires(c, DaemonIsLinux) dockerfile := `FROM scratch ADD Dockerfile / ENV foo bar` ctx := fakecontext.New(c, "", fakecontext.WithDockerfile(dockerfile), ) defer ctx.Close() res, body, err := request.Post( "/build", request.RawContent(ctx.AsTarReader(c)), request.ContentType("application/x-tar")) c.Assert(err, checker.IsNil) c.Assert(res.StatusCode, checker.Equals, http.StatusOK) out, err := request.ReadBody(body) assert.NilError(c, err) assert.Check(c, is.Contains(string(out), "Successfully built")) } type buildLine struct { Stream string Aux struct { ID string } } func getImageIDsFromBuild(c *check.C, output []byte) []string { var ids []string for _, line := range bytes.Split(output, []byte("\n")) { if len(line) == 0 { continue } entry := buildLine{} assert.NilError(c, json.Unmarshal(line, &entry)) if entry.Aux.ID != "" { ids = append(ids, entry.Aux.ID) } } return ids }