package fileutils // import "github.com/docker/docker/pkg/fileutils" import ( "fmt" "os" "path" "path/filepath" "runtime" "strings" "testing" "gotest.tools/v3/assert" is "gotest.tools/v3/assert/cmp" ) // CopyFile with invalid src func TestCopyFileWithInvalidSrc(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") // #nosec G303 defer os.RemoveAll(tempFolder) if err != nil { t.Fatal(err) } bytes, err := CopyFile("/invalid/file/path", path.Join(tempFolder, "dest")) if err == nil { t.Fatal("Should have fail to copy an invalid src file") } if bytes != 0 { t.Fatal("Should have written 0 bytes") } } // CopyFile with invalid dest func TestCopyFileWithInvalidDest(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") defer os.RemoveAll(tempFolder) if err != nil { t.Fatal(err) } src := path.Join(tempFolder, "file") err = os.WriteFile(src, []byte("content"), 0740) if err != nil { t.Fatal(err) } bytes, err := CopyFile(src, path.Join(tempFolder, "/invalid/dest/path")) if err == nil { t.Fatal("Should have fail to copy an invalid src file") } if bytes != 0 { t.Fatal("Should have written 0 bytes") } } // CopyFile with same src and dest func TestCopyFileWithSameSrcAndDest(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") defer os.RemoveAll(tempFolder) if err != nil { t.Fatal(err) } file := path.Join(tempFolder, "file") err = os.WriteFile(file, []byte("content"), 0740) if err != nil { t.Fatal(err) } bytes, err := CopyFile(file, file) if err != nil { t.Fatal(err) } if bytes != 0 { t.Fatal("Should have written 0 bytes as it is the same file.") } } // CopyFile with same src and dest but path is different and not clean func TestCopyFileWithSameSrcAndDestWithPathNameDifferent(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") defer os.RemoveAll(tempFolder) if err != nil { t.Fatal(err) } testFolder := path.Join(tempFolder, "test") err = os.MkdirAll(testFolder, 0740) if err != nil { t.Fatal(err) } file := path.Join(testFolder, "file") sameFile := testFolder + "/../test/file" err = os.WriteFile(file, []byte("content"), 0740) if err != nil { t.Fatal(err) } bytes, err := CopyFile(file, sameFile) if err != nil { t.Fatal(err) } if bytes != 0 { t.Fatal("Should have written 0 bytes as it is the same file.") } } func TestCopyFile(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") defer os.RemoveAll(tempFolder) if err != nil { t.Fatal(err) } src := path.Join(tempFolder, "src") dest := path.Join(tempFolder, "dest") os.WriteFile(src, []byte("content"), 0777) os.WriteFile(dest, []byte("destContent"), 0777) bytes, err := CopyFile(src, dest) if err != nil { t.Fatal(err) } if bytes != 7 { t.Fatalf("Should have written %d bytes but wrote %d", 7, bytes) } actual, err := os.ReadFile(dest) if err != nil { t.Fatal(err) } if string(actual) != "content" { t.Fatalf("Dest content was '%s', expected '%s'", string(actual), "content") } } // Reading a symlink to a directory must return the directory func TestReadSymlinkedDirectoryExistingDirectory(t *testing.T) { // TODO Windows: Port this test if runtime.GOOS == "windows" { t.Skip("Needs porting to Windows") } var err error if err = os.Mkdir("/tmp/testReadSymlinkToExistingDirectory", 0777); err != nil { t.Errorf("failed to create directory: %s", err) } if err = os.Symlink("/tmp/testReadSymlinkToExistingDirectory", "/tmp/dirLinkTest"); err != nil { t.Errorf("failed to create symlink: %s", err) } var path string if path, err = ReadSymlinkedDirectory("/tmp/dirLinkTest"); err != nil { t.Fatalf("failed to read symlink to directory: %s", err) } if path != "/tmp/testReadSymlinkToExistingDirectory" { t.Fatalf("symlink returned unexpected directory: %s", path) } if err = os.Remove("/tmp/testReadSymlinkToExistingDirectory"); err != nil { t.Errorf("failed to remove temporary directory: %s", err) } if err = os.Remove("/tmp/dirLinkTest"); err != nil { t.Errorf("failed to remove symlink: %s", err) } } // Reading a non-existing symlink must fail func TestReadSymlinkedDirectoryNonExistingSymlink(t *testing.T) { var path string var err error if path, err = ReadSymlinkedDirectory("/tmp/test/foo/Non/ExistingPath"); err == nil { t.Fatalf("error expected for non-existing symlink") } if path != "" { t.Fatalf("expected empty path, but '%s' was returned", path) } } // Reading a symlink to a file must fail func TestReadSymlinkedDirectoryToFile(t *testing.T) { // TODO Windows: Port this test if runtime.GOOS == "windows" { t.Skip("Needs porting to Windows") } var err error var file *os.File // #nosec G303 if file, err = os.Create("/tmp/testReadSymlinkToFile"); err != nil { t.Fatalf("failed to create file: %s", err) } file.Close() if err = os.Symlink("/tmp/testReadSymlinkToFile", "/tmp/fileLinkTest"); err != nil { t.Errorf("failed to create symlink: %s", err) } var path string if path, err = ReadSymlinkedDirectory("/tmp/fileLinkTest"); err == nil { t.Fatalf("ReadSymlinkedDirectory on a symlink to a file should've failed") } if path != "" { t.Fatalf("path should've been empty: %s", path) } if err = os.Remove("/tmp/testReadSymlinkToFile"); err != nil { t.Errorf("failed to remove file: %s", err) } if err = os.Remove("/tmp/fileLinkTest"); err != nil { t.Errorf("failed to remove symlink: %s", err) } } func TestWildcardMatches(t *testing.T) { match, _ := Matches("fileutils.go", []string{"*"}) if !match { t.Errorf("failed to get a wildcard match, got %v", match) } } // A simple pattern match should return true. func TestPatternMatches(t *testing.T) { match, _ := Matches("fileutils.go", []string{"*.go"}) if !match { t.Errorf("failed to get a match, got %v", match) } } // An exclusion followed by an inclusion should return true. func TestExclusionPatternMatchesPatternBefore(t *testing.T) { match, _ := Matches("fileutils.go", []string{"!fileutils.go", "*.go"}) if !match { t.Errorf("failed to get true match on exclusion pattern, got %v", match) } } // A folder pattern followed by an exception should return false. func TestPatternMatchesFolderExclusions(t *testing.T) { match, _ := Matches("docs/README.md", []string{"docs", "!docs/README.md"}) if match { t.Errorf("failed to get a false match on exclusion pattern, got %v", match) } } // A folder pattern followed by an exception should return false. func TestPatternMatchesFolderWithSlashExclusions(t *testing.T) { match, _ := Matches("docs/README.md", []string{"docs/", "!docs/README.md"}) if match { t.Errorf("failed to get a false match on exclusion pattern, got %v", match) } } // A folder pattern followed by an exception should return false. func TestPatternMatchesFolderWildcardExclusions(t *testing.T) { match, _ := Matches("docs/README.md", []string{"docs/*", "!docs/README.md"}) if match { t.Errorf("failed to get a false match on exclusion pattern, got %v", match) } } // A pattern followed by an exclusion should return false. func TestExclusionPatternMatchesPatternAfter(t *testing.T) { match, _ := Matches("fileutils.go", []string{"*.go", "!fileutils.go"}) if match { t.Errorf("failed to get false match on exclusion pattern, got %v", match) } } // A filename evaluating to . should return false. func TestExclusionPatternMatchesWholeDirectory(t *testing.T) { match, _ := Matches(".", []string{"*.go"}) if match { t.Errorf("failed to get false match on ., got %v", match) } } // A single ! pattern should return an error. func TestSingleExclamationError(t *testing.T) { _, err := Matches("fileutils.go", []string{"!"}) if err == nil { t.Errorf("failed to get an error for a single exclamation point, got %v", err) } } // Matches with no patterns func TestMatchesWithNoPatterns(t *testing.T) { matches, err := Matches("/any/path/there", []string{}) if err != nil { t.Fatal(err) } if matches { t.Fatalf("Should not have match anything") } } // Matches with malformed patterns func TestMatchesWithMalformedPatterns(t *testing.T) { matches, err := Matches("/any/path/there", []string{"["}) if err == nil { t.Fatal("Should have failed because of a malformed syntax in the pattern") } if matches { t.Fatalf("Should not have match anything") } } type matchesTestCase struct { pattern string text string pass bool } type multiPatternTestCase struct { patterns []string text string pass bool } func TestMatches(t *testing.T) { tests := []matchesTestCase{ {"**", "file", true}, {"**", "file/", true}, {"**/", "file", true}, // weird one {"**/", "file/", true}, {"**", "/", true}, {"**/", "/", true}, {"**", "dir/file", true}, {"**/", "dir/file", true}, {"**", "dir/file/", true}, {"**/", "dir/file/", true}, {"**/**", "dir/file", true}, {"**/**", "dir/file/", true}, {"dir/**", "dir/file", true}, {"dir/**", "dir/file/", true}, {"dir/**", "dir/dir2/file", true}, {"dir/**", "dir/dir2/file/", true}, {"**/dir", "dir", true}, {"**/dir", "dir/file", true}, {"**/dir2/*", "dir/dir2/file", true}, {"**/dir2/*", "dir/dir2/file/", true}, {"**/dir2/**", "dir/dir2/dir3/file", true}, {"**/dir2/**", "dir/dir2/dir3/file/", true}, {"**file", "file", true}, {"**file", "dir/file", true}, {"**/file", "dir/file", true}, {"**file", "dir/dir/file", true}, {"**/file", "dir/dir/file", true}, {"**/file*", "dir/dir/file", true}, {"**/file*", "dir/dir/file.txt", true}, {"**/file*txt", "dir/dir/file.txt", true}, {"**/file*.txt", "dir/dir/file.txt", true}, {"**/file*.txt*", "dir/dir/file.txt", true}, {"**/**/*.txt", "dir/dir/file.txt", true}, {"**/**/*.txt2", "dir/dir/file.txt", false}, {"**/*.txt", "file.txt", true}, {"**/**/*.txt", "file.txt", true}, {"a**/*.txt", "a/file.txt", true}, {"a**/*.txt", "a/dir/file.txt", true}, {"a**/*.txt", "a/dir/dir/file.txt", true}, {"a/*.txt", "a/dir/file.txt", false}, {"a/*.txt", "a/file.txt", true}, {"a/*.txt**", "a/file.txt", true}, {"a[b-d]e", "ae", false}, {"a[b-d]e", "ace", true}, {"a[b-d]e", "aae", false}, {"a[^b-d]e", "aze", true}, {".*", ".foo", true}, {".*", "foo", false}, {"abc.def", "abcdef", false}, {"abc.def", "abc.def", true}, {"abc.def", "abcZdef", false}, {"abc?def", "abcZdef", true}, {"abc?def", "abcdef", false}, {"a\\\\", "a\\", true}, {"**/foo/bar", "foo/bar", true}, {"**/foo/bar", "dir/foo/bar", true}, {"**/foo/bar", "dir/dir2/foo/bar", true}, {"abc/**", "abc", false}, {"abc/**", "abc/def", true}, {"abc/**", "abc/def/ghi", true}, {"**/.foo", ".foo", true}, {"**/.foo", "bar.foo", false}, {"a(b)c/def", "a(b)c/def", true}, {"a(b)c/def", "a(b)c/xyz", false}, {"a.|)$(}+{bc", "a.|)$(}+{bc", true}, {"dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl", "dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl", true}, {"dist/*.whl", "dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl", true}, } multiPatternTests := []multiPatternTestCase{ {[]string{"**", "!util/docker/web"}, "util/docker/web/foo", false}, {[]string{"**", "!util/docker/web", "util/docker/web/foo"}, "util/docker/web/foo", true}, {[]string{"**", "!dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl"}, "dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl", false}, {[]string{"**", "!dist/*.whl"}, "dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl", false}, } if runtime.GOOS != "windows" { tests = append(tests, []matchesTestCase{ {"a\\*b", "a*b", true}, }...) } t.Run("MatchesOrParentMatches", func(t *testing.T) { for _, test := range tests { desc := fmt.Sprintf("pattern=%q text=%q", test.pattern, test.text) pm, err := NewPatternMatcher([]string{test.pattern}) assert.NilError(t, err, desc) res, _ := pm.MatchesOrParentMatches(test.text) assert.Check(t, is.Equal(test.pass, res), desc) } for _, test := range multiPatternTests { desc := fmt.Sprintf("patterns=%q text=%q", test.patterns, test.text) pm, err := NewPatternMatcher(test.patterns) assert.NilError(t, err, desc) res, _ := pm.MatchesOrParentMatches(test.text) assert.Check(t, is.Equal(test.pass, res), desc) } }) t.Run("MatchesUsingParentResult", func(t *testing.T) { for _, test := range tests { desc := fmt.Sprintf("pattern=%q text=%q", test.pattern, test.text) pm, err := NewPatternMatcher([]string{test.pattern}) assert.NilError(t, err, desc) parentPath := filepath.Dir(filepath.FromSlash(test.text)) parentPathDirs := strings.Split(parentPath, string(os.PathSeparator)) parentMatched := false if parentPath != "." { for i := range parentPathDirs { parentMatched, _ = pm.MatchesUsingParentResult(strings.Join(parentPathDirs[:i+1], "/"), parentMatched) } } res, _ := pm.MatchesUsingParentResult(test.text, parentMatched) assert.Check(t, is.Equal(test.pass, res), desc) } }) t.Run("MatchesUsingParentResults", func(t *testing.T) { check := func(pm *PatternMatcher, text string, pass bool, desc string) { parentPath := filepath.Dir(filepath.FromSlash(text)) parentPathDirs := strings.Split(parentPath, string(os.PathSeparator)) parentMatchInfo := MatchInfo{} if parentPath != "." { for i := range parentPathDirs { _, parentMatchInfo, _ = pm.MatchesUsingParentResults(strings.Join(parentPathDirs[:i+1], "/"), parentMatchInfo) } } res, _, _ := pm.MatchesUsingParentResults(text, parentMatchInfo) assert.Check(t, is.Equal(pass, res), desc) } for _, test := range tests { desc := fmt.Sprintf("pattern=%q text=%q", test.pattern, test.text) pm, err := NewPatternMatcher([]string{test.pattern}) assert.NilError(t, err, desc) check(pm, test.text, test.pass, desc) } for _, test := range multiPatternTests { desc := fmt.Sprintf("pattern=%q text=%q", test.patterns, test.text) pm, err := NewPatternMatcher(test.patterns) assert.NilError(t, err, desc) check(pm, test.text, test.pass, desc) } }) t.Run("MatchesUsingParentResultsNoContext", func(t *testing.T) { check := func(pm *PatternMatcher, text string, pass bool, desc string) { res, _, _ := pm.MatchesUsingParentResults(text, MatchInfo{}) assert.Check(t, is.Equal(pass, res), desc) } for _, test := range tests { desc := fmt.Sprintf("pattern=%q text=%q", test.pattern, test.text) pm, err := NewPatternMatcher([]string{test.pattern}) assert.NilError(t, err, desc) check(pm, test.text, test.pass, desc) } for _, test := range multiPatternTests { desc := fmt.Sprintf("pattern=%q text=%q", test.patterns, test.text) pm, err := NewPatternMatcher(test.patterns) assert.NilError(t, err, desc) check(pm, test.text, test.pass, desc) } }) } func TestCleanPatterns(t *testing.T) { patterns := []string{"docs", "config"} pm, err := NewPatternMatcher(patterns) if err != nil { t.Fatalf("invalid pattern %v", patterns) } cleaned := pm.Patterns() if len(cleaned) != 2 { t.Errorf("expected 2 element slice, got %v", len(cleaned)) } } func TestCleanPatternsStripEmptyPatterns(t *testing.T) { patterns := []string{"docs", "config", ""} pm, err := NewPatternMatcher(patterns) if err != nil { t.Fatalf("invalid pattern %v", patterns) } cleaned := pm.Patterns() if len(cleaned) != 2 { t.Errorf("expected 2 element slice, got %v", len(cleaned)) } } func TestCleanPatternsExceptionFlag(t *testing.T) { patterns := []string{"docs", "!docs/README.md"} pm, err := NewPatternMatcher(patterns) if err != nil { t.Fatalf("invalid pattern %v", patterns) } if !pm.Exclusions() { t.Errorf("expected exceptions to be true, got %v", pm.Exclusions()) } } func TestCleanPatternsLeadingSpaceTrimmed(t *testing.T) { patterns := []string{"docs", " !docs/README.md"} pm, err := NewPatternMatcher(patterns) if err != nil { t.Fatalf("invalid pattern %v", patterns) } if !pm.Exclusions() { t.Errorf("expected exceptions to be true, got %v", pm.Exclusions()) } } func TestCleanPatternsTrailingSpaceTrimmed(t *testing.T) { patterns := []string{"docs", "!docs/README.md "} pm, err := NewPatternMatcher(patterns) if err != nil { t.Fatalf("invalid pattern %v", patterns) } if !pm.Exclusions() { t.Errorf("expected exceptions to be true, got %v", pm.Exclusions()) } } func TestCleanPatternsErrorSingleException(t *testing.T) { patterns := []string{"!"} _, err := NewPatternMatcher(patterns) if err == nil { t.Errorf("expected error on single exclamation point, got %v", err) } } func TestCreateIfNotExistsDir(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") if err != nil { t.Fatal(err) } defer os.RemoveAll(tempFolder) folderToCreate := filepath.Join(tempFolder, "tocreate") if err := CreateIfNotExists(folderToCreate, true); err != nil { t.Fatal(err) } fileinfo, err := os.Stat(folderToCreate) if err != nil { t.Fatalf("Should have create a folder, got %v", err) } if !fileinfo.IsDir() { t.Fatalf("Should have been a dir, seems it's not") } } func TestCreateIfNotExistsFile(t *testing.T) { tempFolder, err := os.MkdirTemp("", "docker-fileutils-test") if err != nil { t.Fatal(err) } defer os.RemoveAll(tempFolder) fileToCreate := filepath.Join(tempFolder, "file/to/create") if err := CreateIfNotExists(fileToCreate, false); err != nil { t.Fatal(err) } fileinfo, err := os.Stat(fileToCreate) if err != nil { t.Fatalf("Should have create a file, got %v", err) } if fileinfo.IsDir() { t.Fatalf("Should have been a file, seems it's not") } } // These matchTests are stolen from go's filepath Match tests. type matchTest struct { pattern, s string match bool err error } var matchTests = []matchTest{ {"abc", "abc", true, nil}, {"*", "abc", true, nil}, {"*c", "abc", true, nil}, {"a*", "a", true, nil}, {"a*", "abc", true, nil}, {"a*", "ab/c", true, nil}, {"a*/b", "abc/b", true, nil}, {"a*/b", "a/c/b", false, nil}, {"a*b*c*d*e*/f", "axbxcxdxe/f", true, nil}, {"a*b*c*d*e*/f", "axbxcxdxexxx/f", true, nil}, {"a*b*c*d*e*/f", "axbxcxdxe/xxx/f", false, nil}, {"a*b*c*d*e*/f", "axbxcxdxexxx/fff", false, nil}, {"a*b?c*x", "abxbbxdbxebxczzx", true, nil}, {"a*b?c*x", "abxbbxdbxebxczzy", false, nil}, {"ab[c]", "abc", true, nil}, {"ab[b-d]", "abc", true, nil}, {"ab[e-g]", "abc", false, nil}, {"ab[^c]", "abc", false, nil}, {"ab[^b-d]", "abc", false, nil}, {"ab[^e-g]", "abc", true, nil}, {"a\\*b", "a*b", true, nil}, {"a\\*b", "ab", false, nil}, {"a?b", "a☺b", true, nil}, {"a[^a]b", "a☺b", true, nil}, {"a???b", "a☺b", false, nil}, {"a[^a][^a][^a]b", "a☺b", false, nil}, {"[a-ζ]*", "α", true, nil}, {"*[a-ζ]", "A", false, nil}, {"a?b", "a/b", false, nil}, {"a*b", "a/b", false, nil}, {"[\\]a]", "]", true, nil}, {"[\\-]", "-", true, nil}, {"[x\\-]", "x", true, nil}, {"[x\\-]", "-", true, nil}, {"[x\\-]", "z", false, nil}, {"[\\-x]", "x", true, nil}, {"[\\-x]", "-", true, nil}, {"[\\-x]", "a", false, nil}, {"[]a]", "]", false, filepath.ErrBadPattern}, {"[-]", "-", false, filepath.ErrBadPattern}, {"[x-]", "x", false, filepath.ErrBadPattern}, {"[x-]", "-", false, filepath.ErrBadPattern}, {"[x-]", "z", false, filepath.ErrBadPattern}, {"[-x]", "x", false, filepath.ErrBadPattern}, {"[-x]", "-", false, filepath.ErrBadPattern}, {"[-x]", "a", false, filepath.ErrBadPattern}, {"\\", "a", false, filepath.ErrBadPattern}, {"[a-b-c]", "a", false, filepath.ErrBadPattern}, {"[", "a", false, filepath.ErrBadPattern}, {"[^", "a", false, filepath.ErrBadPattern}, {"[^bc", "a", false, filepath.ErrBadPattern}, {"a[", "a", false, filepath.ErrBadPattern}, // was nil but IMO its wrong {"a[", "ab", false, filepath.ErrBadPattern}, {"*x", "xxx", true, nil}, } func errp(e error) string { if e == nil { return "" } return e.Error() } // TestMatch tests our version of filepath.Match, called Matches. func TestMatch(t *testing.T) { for _, tt := range matchTests { pattern := tt.pattern s := tt.s if runtime.GOOS == "windows" { if strings.Contains(pattern, "\\") { // no escape allowed on windows. continue } pattern = filepath.Clean(pattern) s = filepath.Clean(s) } ok, err := Matches(s, []string{pattern}) if ok != tt.match || err != tt.err { t.Fatalf("Match(%#q, %#q) = %v, %q want %v, %q", pattern, s, ok, errp(err), tt.match, errp(tt.err)) } } } type compileTestCase struct { pattern string matchType matchType compiledRegexp string windowsCompiledRegexp string } var compileTests = []compileTestCase{ {"*", regexpMatch, `^[^/]*$`, `^[^\\]*$`}, {"file*", regexpMatch, `^file[^/]*$`, `^file[^\\]*$`}, {"*file", regexpMatch, `^[^/]*file$`, `^[^\\]*file$`}, {"a*/b", regexpMatch, `^a[^/]*/b$`, `^a[^\\]*\\b$`}, {"**", suffixMatch, "", ""}, {"**/**", regexpMatch, `^(.*/)?.*$`, `^(.*\\)?.*$`}, {"dir/**", prefixMatch, "", ""}, {"**/dir", suffixMatch, "", ""}, {"**/dir2/*", regexpMatch, `^(.*/)?dir2/[^/]*$`, `^(.*\\)?dir2\\[^\\]*$`}, {"**/dir2/**", regexpMatch, `^(.*/)?dir2/.*$`, `^(.*\\)?dir2\\.*$`}, {"**file", suffixMatch, "", ""}, {"**/file*txt", regexpMatch, `^(.*/)?file[^/]*txt$`, `^(.*\\)?file[^\\]*txt$`}, {"**/**/*.txt", regexpMatch, `^(.*/)?(.*/)?[^/]*\.txt$`, `^(.*\\)?(.*\\)?[^\\]*\.txt$`}, {"a[b-d]e", regexpMatch, `^a[b-d]e$`, `^a[b-d]e$`}, {".*", regexpMatch, `^\.[^/]*$`, `^\.[^\\]*$`}, {"abc.def", exactMatch, "", ""}, {"abc?def", regexpMatch, `^abc[^/]def$`, `^abc[^\\]def$`}, {"**/foo/bar", suffixMatch, "", ""}, {"a(b)c/def", exactMatch, "", ""}, {"a.|)$(}+{bc", exactMatch, "", ""}, {"dist/proxy.py-2.4.0rc3.dev36+g08acad9-py3-none-any.whl", exactMatch, "", ""}, } // TestCompile confirms that "compile" assigns the correct match type to a // variety of test case patterns. If the match type is regexp, it also confirms // that the compiled regexp matches the expected regexp. func TestCompile(t *testing.T) { t.Run("slash", testCompile("/")) t.Run("backslash", testCompile(`\`)) } func testCompile(sl string) func(*testing.T) { return func(t *testing.T) { for _, tt := range compileTests { // Avoid NewPatternMatcher, which has platform-specific behavior pm := &PatternMatcher{ patterns: make([]*Pattern, 1), } pattern := path.Clean(tt.pattern) if sl != "/" { pattern = strings.ReplaceAll(pattern, "/", sl) } newp := &Pattern{} newp.cleanedPattern = pattern newp.dirs = strings.Split(pattern, sl) pm.patterns[0] = newp if err := pm.patterns[0].compile(sl); err != nil { t.Fatalf("Failed to compile pattern %q: %v", pattern, err) } if pm.patterns[0].matchType != tt.matchType { t.Errorf("pattern %q: matchType = %v, want %v", pattern, pm.patterns[0].matchType, tt.matchType) continue } if tt.matchType == regexpMatch { if sl == `\` { if pm.patterns[0].regexp.String() != tt.windowsCompiledRegexp { t.Errorf("pattern %q: regexp = %s, want %s", pattern, pm.patterns[0].regexp, tt.windowsCompiledRegexp) } } else if pm.patterns[0].regexp.String() != tt.compiledRegexp { t.Errorf("pattern %q: regexp = %s, want %s", pattern, pm.patterns[0].regexp, tt.compiledRegexp) } } } } }