package afero import ( "os" "path/filepath" "runtime" "testing" ) func TestBasePath(t *testing.T) { baseFs := &MemMapFs{} baseFs.MkdirAll("/base/path/tmp", 0777) bp := NewBasePathFs(baseFs, "/base/path") if _, err := bp.Create("/tmp/foo"); err != nil { t.Errorf("Failed to set real path") } if fh, err := bp.Create("../tmp/bar"); err == nil { t.Errorf("succeeded in creating %s ...", fh.Name()) } } func TestBasePathRoot(t *testing.T) { baseFs := &MemMapFs{} baseFs.MkdirAll("/base/path/foo/baz", 0777) baseFs.MkdirAll("/base/path/boo/", 0777) bp := NewBasePathFs(baseFs, "/base/path") rd, err := ReadDir(bp, string(os.PathSeparator)) if len(rd) != 2 { t.Errorf("base path doesn't respect root") } if err != nil { t.Error(err) } } func TestRealPath(t *testing.T) { fs := NewOsFs() baseDir, err := TempDir(fs, "", "base") if err != nil { t.Fatal("error creating tempDir", err) } defer fs.RemoveAll(baseDir) anotherDir, err := TempDir(fs, "", "another") if err != nil { t.Fatal("error creating tempDir", err) } defer fs.RemoveAll(anotherDir) bp := NewBasePathFs(fs, baseDir).(*BasePathFs) subDir := filepath.Join(baseDir, "s1") realPath, err := bp.RealPath("/s1") if err != nil { t.Errorf("Got error %s", err) } if realPath != subDir { t.Errorf("Expected \n%s got \n%s", subDir, realPath) } if runtime.GOOS == "windows" { _, err = bp.RealPath(anotherDir) if err == nil { t.Errorf("Expected error") } } else { // on *nix we have no way of just looking at the path and tell that anotherDir // is not inside the base file system. // The user will receive an os.ErrNotExist later. surrealPath, err := bp.RealPath(anotherDir) if err != nil { t.Errorf("Got error %s", err) } excpected := filepath.Join(baseDir, anotherDir) if surrealPath != excpected { t.Errorf("Expected \n%s got \n%s", excpected, surrealPath) } } } func TestNestedBasePaths(t *testing.T) { type dirSpec struct { Dir1, Dir2, Dir3 string } dirSpecs := []dirSpec{ dirSpec{Dir1: "/", Dir2: "/", Dir3: "/"}, dirSpec{Dir1: "/", Dir2: "/path2", Dir3: "/"}, dirSpec{Dir1: "/path1/dir", Dir2: "/path2/dir/", Dir3: "/path3/dir"}, dirSpec{Dir1: "C:/path1", Dir2: "path2/dir", Dir3: "/path3/dir/"}, } for _, ds := range dirSpecs { memFs := NewMemMapFs() level1Fs := NewBasePathFs(memFs, ds.Dir1) level2Fs := NewBasePathFs(level1Fs, ds.Dir2) level3Fs := NewBasePathFs(level2Fs, ds.Dir3) type spec struct { BaseFs Fs FileName string ExpectedPath string } specs := []spec{ spec{BaseFs: level3Fs, FileName: "f.txt", ExpectedPath: filepath.Join(ds.Dir1, ds.Dir2, ds.Dir3, "f.txt")}, spec{BaseFs: level2Fs, FileName: "f.txt", ExpectedPath: filepath.Join(ds.Dir1, ds.Dir2, "f.txt")}, spec{BaseFs: level1Fs, FileName: "f.txt", ExpectedPath: filepath.Join(ds.Dir1, "f.txt")}, } for _, s := range specs { if err := s.BaseFs.MkdirAll(s.FileName, 0755); err != nil { t.Errorf("Got error %s", err.Error()) } if _, err := s.BaseFs.Stat(s.FileName); err != nil { t.Errorf("Got error %s", err.Error()) } if s.BaseFs == level3Fs { pathToExist := filepath.Join(ds.Dir3, s.FileName) if _, err := level2Fs.Stat(pathToExist); err != nil { t.Errorf("Got error %s (path %s)", err.Error(), pathToExist) } } else if s.BaseFs == level2Fs { pathToExist := filepath.Join(ds.Dir2, ds.Dir3, s.FileName) if _, err := level1Fs.Stat(pathToExist); err != nil { t.Errorf("Got error %s (path %s)", err.Error(), pathToExist) } } } } }