package staticfiles import ( "context" "errors" "net/http" "net/http/httptest" "net/url" "os" "path/filepath" "strconv" "strings" "testing" "time" ) var ( ErrCustom = errors.New("Custom Error") testDir = filepath.Join(os.TempDir(), "caddy_testdir") testWebRoot = filepath.Join(testDir, "webroot") ) var ( webrootFile1HTML = filepath.Join("webroot", "file1.html") webrootDirFile2HTML = filepath.Join("webroot", "dir", "file2.html") webrootDirHiddenHTML = filepath.Join("webroot", "dir", "hidden.html") webrootDirwithindexIndeHTML = filepath.Join("webroot", "dirwithindex", "index.html") webrootSubGzippedHTML = filepath.Join("webroot", "sub", "gzipped.html") webrootSubGzippedHTMLGz = filepath.Join("webroot", "sub", "gzipped.html.gz") webrootSubGzippedHTMLBr = filepath.Join("webroot", "sub", "gzipped.html.br") webrootSubBrotliHTML = filepath.Join("webroot", "sub", "brotli.html") webrootSubBrotliHTMLGz = filepath.Join("webroot", "sub", "brotli.html.gz") webrootSubBrotliHTMLBr = filepath.Join("webroot", "sub", "brotli.html.br") webrootSubBarDirWithIndexIndexHTML = filepath.Join("webroot", "bar", "dirwithindex", "index.html") ) // testFiles is a map with relative paths to test files as keys and file content as values. // The map represents the following structure: // - $TEMP/caddy_testdir/ // '-- unreachable.html // '-- webroot/ // '---- file1.html // '---- dirwithindex/ // '------ index.html // '---- dir/ // '------ file2.html // '------ hidden.html var testFiles = map[string]string{ "unreachable.html": "

must not leak

", webrootFile1HTML: "

file1.html

", webrootDirFile2HTML: "

dir/file2.html

", webrootDirwithindexIndeHTML: "

dirwithindex/index.html

", webrootDirHiddenHTML: "

dir/hidden.html

", webrootSubGzippedHTML: "

gzipped.html

", webrootSubGzippedHTMLGz: "1.gzipped.html.gz", webrootSubGzippedHTMLBr: "2.gzipped.html.br", webrootSubBrotliHTML: "3.brotli.html", webrootSubBrotliHTMLGz: "4.brotli.html.gz", webrootSubBrotliHTMLBr: "5.brotli.html.br", webrootSubBarDirWithIndexIndexHTML: "

bar/dirwithindex/index.html

", } // TestServeHTTP covers positive scenarios when serving files. func TestServeHTTP(t *testing.T) { beforeServeHTTPTest(t) defer afterServeHTTPTest(t) fileserver := FileServer{ Root: http.Dir(testWebRoot), Hide: []string{"dir/hidden.html"}, } movedPermanently := "Moved Permanently" tests := []struct { url string cleanedPath string acceptEncoding string expectedLocation string expectedStatus int expectedBodyContent string expectedEtag string expectedVary string expectedEncoding string expectedContentLength string }{ // Test 0 - access without any path { url: "https://foo", expectedStatus: http.StatusNotFound, }, // Test 1 - access root (without index.html) { url: "https://foo/", expectedStatus: http.StatusNotFound, }, // Test 2 - access existing file { url: "https://foo/file1.html", expectedStatus: http.StatusOK, expectedBodyContent: testFiles[webrootFile1HTML], expectedEtag: `"2n9cj"`, expectedContentLength: strconv.Itoa(len(testFiles[webrootFile1HTML])), }, // Test 3 - access folder with index file with trailing slash { url: "https://foo/dirwithindex/", expectedStatus: http.StatusOK, expectedBodyContent: testFiles[webrootDirwithindexIndeHTML], expectedEtag: `"2n9cw"`, expectedContentLength: strconv.Itoa(len(testFiles[webrootDirwithindexIndeHTML])), }, // Test 4 - access folder with index file without trailing slash { url: "https://foo/dirwithindex", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/dirwithindex/", expectedBodyContent: movedPermanently, }, // Test 5 - access folder without index file { url: "https://foo/dir/", expectedStatus: http.StatusNotFound, }, // Test 6 - access folder without trailing slash { url: "https://foo/dir", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/dir/", expectedBodyContent: movedPermanently, }, // Test 7 - access file with trailing slash { url: "https://foo/file1.html/", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/file1.html", expectedBodyContent: movedPermanently, }, // Test 8 - access not existing path { url: "https://foo/not_existing", expectedStatus: http.StatusNotFound, }, // Test 9 - access a file, marked as hidden { url: "https://foo/dir/hidden.html", expectedStatus: http.StatusNotFound, }, // Test 10 - access a index file directly { url: "https://foo/dirwithindex/index.html", expectedStatus: http.StatusOK, expectedBodyContent: testFiles[webrootDirwithindexIndeHTML], expectedEtag: `"2n9cw"`, expectedContentLength: strconv.Itoa(len(testFiles[webrootDirwithindexIndeHTML])), }, // Test 11 - send a request with query params { url: "https://foo/dir?param1=val", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/dir/?param1=val", expectedBodyContent: movedPermanently, }, // Test 12 - attempt to bypass hidden file { url: "https://foo/dir/hidden.html%20", expectedStatus: http.StatusNotFound, }, // Test 13 - attempt to bypass hidden file { url: "https://foo/dir/hidden.html.", expectedStatus: http.StatusNotFound, }, // Test 14 - attempt to bypass hidden file { url: "https://foo/dir/hidden.html.%20", expectedStatus: http.StatusNotFound, }, // Test 15 - attempt to bypass hidden file { url: "https://foo/dir/hidden.html%20.", acceptEncoding: "br, gzip", expectedStatus: http.StatusNotFound, }, // Test 16 - serve another file with same name as hidden file. { url: "https://foo/hidden.html", expectedStatus: http.StatusNotFound, }, // Test 17 - try to get below the root directory. { url: "https://foo/%2f..%2funreachable.html", expectedStatus: http.StatusNotFound, }, // Test 18 - try to get pre-gzipped file. { url: "https://foo/sub/gzipped.html", acceptEncoding: "gzip", expectedStatus: http.StatusOK, expectedBodyContent: testFiles[webrootSubGzippedHTMLGz], expectedEtag: `"2n9ch"`, expectedVary: "Accept-Encoding", expectedEncoding: "gzip", expectedContentLength: strconv.Itoa(len(testFiles[webrootSubGzippedHTMLGz])), }, // Test 19 - try to get pre-brotli encoded file. { url: "https://foo/sub/brotli.html", acceptEncoding: "br,gzip", expectedStatus: http.StatusOK, expectedBodyContent: testFiles[webrootSubBrotliHTMLBr], expectedEtag: `"2n9cg"`, expectedVary: "Accept-Encoding", expectedEncoding: "br", expectedContentLength: strconv.Itoa(len(testFiles[webrootSubBrotliHTMLBr])), }, // Test 20 - not allowed to get pre-brotli encoded file. { url: "https://foo/sub/brotli.html", acceptEncoding: "nicebrew", // contains "br" substring but not "br" expectedStatus: http.StatusOK, expectedBodyContent: testFiles[webrootSubBrotliHTML], expectedEtag: `"2n9cd"`, expectedVary: "", expectedEncoding: "", expectedContentLength: strconv.Itoa(len(testFiles[webrootSubBrotliHTML])), }, // Test 20 - treat existing file as a directory. { url: "https://foo/file1.html/other", expectedStatus: http.StatusNotFound, }, // Test 20 - access folder with index file without trailing slash, with // cleaned path { url: "https://foo/bar/dirwithindex", cleanedPath: "/dirwithindex", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/bar/dirwithindex/", expectedBodyContent: movedPermanently, }, // Test 21 - access folder with index file without trailing slash, with // cleaned path and query params { url: "https://foo/bar/dirwithindex?param1=val", cleanedPath: "/dirwithindex", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/bar/dirwithindex/?param1=val", expectedBodyContent: movedPermanently, }, // Test 22 - access file with trailing slash with cleaned path { url: "https://foo/bar/file1.html/", cleanedPath: "file1.html/", expectedStatus: http.StatusMovedPermanently, expectedLocation: "https://foo/bar/file1.html", expectedBodyContent: movedPermanently, }, } for i, test := range tests { responseRecorder := httptest.NewRecorder() request, err := http.NewRequest("GET", test.url, nil) ctx := context.WithValue(request.Context(), URLPathCtxKey, request.URL.Path) request = request.WithContext(ctx) request.Header.Add("Accept-Encoding", test.acceptEncoding) if err != nil { t.Errorf("Test %d: Error making request: %v", i, err) } // prevent any URL sanitization within Go: we need unmodified paths here if u, _ := url.Parse(test.url); u.RawPath != "" { request.URL.Path = u.RawPath } // Caddy may trim a request's URL path. Overwrite the path with // the cleanedPath to test redirects when the path has been // modified. if test.cleanedPath != "" { request.URL.Path = test.cleanedPath } status, err := fileserver.ServeHTTP(responseRecorder, request) etag := responseRecorder.Header().Get("Etag") body := responseRecorder.Body.String() vary := responseRecorder.Header().Get("Vary") encoding := responseRecorder.Header().Get("Content-Encoding") length := responseRecorder.Header().Get("Content-Length") // check if error matches expectations if err != nil { t.Errorf("Test %d: Serving file at %s failed. Error was: %v", i, test.url, err) } // check status code if test.expectedStatus != status { t.Errorf("Test %d: Expected status %d, found %d", i, test.expectedStatus, status) } // check etag if test.expectedEtag != etag { t.Errorf("Test %d: Expected Etag header %s, found %s", i, test.expectedEtag, etag) } // check vary if test.expectedVary != vary { t.Errorf("Test %d: Expected Vary header %s, found %s", i, test.expectedVary, vary) } // check content-encoding if test.expectedEncoding != encoding { t.Errorf("Test %d: Expected Content-Encoding header %s, found %s", i, test.expectedEncoding, encoding) } // check body content if !strings.Contains(body, test.expectedBodyContent) { t.Errorf("Test %d: Expected body to contain %q, found %q", i, test.expectedBodyContent, body) } if test.expectedLocation != "" { l := responseRecorder.Header().Get("Location") if test.expectedLocation != l { t.Errorf("Test %d: Expected Location header %q, found %q", i, test.expectedLocation, l) } } // check content length if test.expectedContentLength != length { t.Errorf("Test %d: Expected Content-Length header %s, found %s", i, test.expectedContentLength, length) } } } // beforeServeHTTPTest creates a test directory with the structure, defined in the variable testFiles func beforeServeHTTPTest(t *testing.T) { // make the root test dir err := os.MkdirAll(testWebRoot, os.ModePerm) if err != nil { if !os.IsExist(err) { t.Fatalf("Failed to create test dir. Error was: %v", err) return } } fixedTime := time.Unix(123456, 0) for relFile, fileContent := range testFiles { absFile := filepath.Join(testDir, relFile) // make sure the parent directories exist parentDir := filepath.Dir(absFile) _, err = os.Stat(parentDir) if err != nil { os.MkdirAll(parentDir, os.ModePerm) } // now create the test files f, err := os.Create(absFile) if err != nil { t.Fatalf("Failed to create test file %s. Error was: %v", absFile, err) return } // and fill them with content _, err = f.WriteString(fileContent) if err != nil { t.Fatalf("Failed to write to %s. Error was: %v", absFile, err) return } f.Close() // and set the last modified time err = os.Chtimes(absFile, fixedTime, fixedTime) if err != nil { t.Fatalf("Failed to set file time to %s. Error was: %v", fixedTime, err) } } } // afterServeHTTPTest removes the test dir and all its content func afterServeHTTPTest(t *testing.T) { // cleans up everything under the test dir. No need to clean the individual files. err := os.RemoveAll(testDir) if err != nil { t.Fatalf("Failed to clean up test dir %s. Error was: %v", testDir, err) } } // failingFS implements the http.FileSystem interface. The Open method always returns the error, assigned to err type failingFS struct { err error // the error to return when Open is called fileImpl http.File // inject the file implementation } // Open returns the assigned failingFile and error func (f failingFS) Open(path string) (http.File, error) { return f.fileImpl, f.err } // failingFile implements http.File but returns a predefined error on every Stat() method call. type failingFile struct { http.File err error } // Stat returns nil FileInfo and the provided error on every call func (ff failingFile) Stat() (os.FileInfo, error) { return nil, ff.err } // Close is noop and returns no error func (ff failingFile) Close() error { return nil } // TestServeHTTPFailingFS tests error cases where the Open function fails with various errors. func TestServeHTTPFailingFS(t *testing.T) { tests := []struct { fsErr error expectedStatus int expectedErr error expectedHeaders map[string]string }{ { fsErr: os.ErrNotExist, expectedStatus: http.StatusNotFound, expectedErr: nil, }, { fsErr: os.ErrPermission, expectedStatus: http.StatusForbidden, expectedErr: os.ErrPermission, }, { fsErr: ErrCustom, expectedStatus: http.StatusServiceUnavailable, expectedErr: ErrCustom, expectedHeaders: map[string]string{"Retry-After": "5"}, }, } for i, test := range tests { // initialize a file server with the failing FileSystem fileserver := FileServer{Root: failingFS{err: test.fsErr}} // prepare the request and response request, err := http.NewRequest("GET", "https://foo/", nil) if err != nil { t.Fatalf("Failed to build request. Error was: %v", err) } responseRecorder := httptest.NewRecorder() status, actualErr := fileserver.ServeHTTP(responseRecorder, request) // check the status if status != test.expectedStatus { t.Errorf("Test %d: Expected status %d, found %d", i, test.expectedStatus, status) } // check the error if actualErr != test.expectedErr { t.Errorf("Test %d: Expected err %v, found %v", i, test.expectedErr, actualErr) } // check the headers - a special case for server under load if test.expectedHeaders != nil && len(test.expectedHeaders) > 0 { for expectedKey, expectedVal := range test.expectedHeaders { actualVal := responseRecorder.Header().Get(expectedKey) if expectedVal != actualVal { t.Errorf("Test %d: Expected header %s: %s, found %s", i, expectedKey, expectedVal, actualVal) } } } } } // TestServeHTTPFailingStat tests error cases where the initial Open function succeeds, but the Stat method on the opened file fails. func TestServeHTTPFailingStat(t *testing.T) { tests := []struct { statErr error expectedStatus int expectedErr error }{ { statErr: os.ErrNotExist, expectedStatus: http.StatusNotFound, expectedErr: nil, }, { statErr: os.ErrPermission, expectedStatus: http.StatusForbidden, expectedErr: os.ErrPermission, }, { statErr: ErrCustom, expectedStatus: http.StatusInternalServerError, expectedErr: ErrCustom, }, } for i, test := range tests { // initialize a file server. The FileSystem will not fail, but calls to the Stat method of the returned File object will fileserver := FileServer{Root: failingFS{err: nil, fileImpl: failingFile{err: test.statErr}}} // prepare the request and response request, err := http.NewRequest("GET", "https://foo/", nil) if err != nil { t.Fatalf("Failed to build request. Error was: %v", err) } responseRecorder := httptest.NewRecorder() status, actualErr := fileserver.ServeHTTP(responseRecorder, request) // check the status if status != test.expectedStatus { t.Errorf("Test %d: Expected status %d, found %d", i, test.expectedStatus, status) } // check the error if actualErr != test.expectedErr { t.Errorf("Test %d: Expected err %v, found %v", i, test.expectedErr, actualErr) } } } //------------------------------------------------------------------------------------------------- type fileInfo struct { name string size int64 mode os.FileMode modTime time.Time isDir bool } func (fi fileInfo) Name() string { return fi.name } func (fi fileInfo) Size() int64 { return fi.size } func (fi fileInfo) Mode() os.FileMode { return fi.mode } func (fi fileInfo) ModTime() time.Time { return fi.modTime } func (fi fileInfo) IsDir() bool { return fi.isDir } func (fi fileInfo) Sys() interface{} { return nil } var _ os.FileInfo = fileInfo{} //------------------------------------------------------------------------------------------------- func BenchmarkEtag(b *testing.B) { d := fileInfo{ size: 1234567890, modTime: time.Now(), } b.ResetTimer() for i := 0; i < b.N; i++ { calculateEtag(d) } }