package mounts // import "github.com/docker/docker/volume/mounts" import ( "fmt" "strings" "testing" "github.com/docker/docker/api/types/mount" "gotest.tools/v3/assert" is "gotest.tools/v3/assert/cmp" ) func TestLinuxParseMountRaw(t *testing.T) { valid := []string{ "/home", "/home:/home", "/home:/something/else", "/with space", "/home:/with space", "relative:/absolute-path", "hostPath:/containerPath:ro", "/hostPath:/containerPath:rw", "/rw:/ro", "/hostPath:/containerPath:shared", "/hostPath:/containerPath:rshared", "/hostPath:/containerPath:slave", "/hostPath:/containerPath:rslave", "/hostPath:/containerPath:private", "/hostPath:/containerPath:rprivate", "/hostPath:/containerPath:ro,shared", "/hostPath:/containerPath:ro,slave", "/hostPath:/containerPath:ro,private", "/hostPath:/containerPath:ro,z,shared", "/hostPath:/containerPath:ro,Z,slave", "/hostPath:/containerPath:Z,ro,slave", "/hostPath:/containerPath:slave,Z,ro", "/hostPath:/containerPath:Z,slave,ro", "/hostPath:/containerPath:slave,ro,Z", "/hostPath:/containerPath:rslave,ro,Z", "/hostPath:/containerPath:ro,rshared,Z", "/hostPath:/containerPath:ro,Z,rprivate", } invalid := map[string]string{ "": "invalid volume specification", "./": "mount path must be absolute", "../": "mount path must be absolute", "/:../": "mount path must be absolute", "/:path": "mount path must be absolute", ":": "invalid volume specification", "/tmp:": "invalid volume specification", ":test": "invalid volume specification", ":/test": "invalid volume specification", "tmp:": "invalid volume specification", ":test:": "invalid volume specification", "::": "invalid volume specification", ":::": "invalid volume specification", "/tmp:::": "invalid volume specification", ":/tmp::": "invalid volume specification", "/path:rw": "invalid volume specification", "/path:ro": "invalid volume specification", "/rw:rw": "invalid volume specification", "path:ro": "invalid volume specification", "/path:/path:sw": `invalid mode`, "/path:/path:rwz": `invalid mode`, "/path:/path:ro,rshared,rslave": `invalid mode`, "/path:/path:ro,z,rshared,rslave": `invalid mode`, "/path:shared": "invalid volume specification", "/path:slave": "invalid volume specification", "/path:private": "invalid volume specification", "name:/absolute-path:shared": "invalid volume specification", "name:/absolute-path:rshared": "invalid volume specification", "name:/absolute-path:slave": "invalid volume specification", "name:/absolute-path:rslave": "invalid volume specification", "name:/absolute-path:private": "invalid volume specification", "name:/absolute-path:rprivate": "invalid volume specification", } parser := NewLinuxParser() if p, ok := parser.(*linuxParser); ok { p.fi = mockFiProvider{} } for _, path := range valid { if _, err := parser.ParseMountRaw(path, "local"); err != nil { t.Errorf("ParseMountRaw(`%q`) should succeed: error %q", path, err) } } for path, expectedError := range invalid { if mp, err := parser.ParseMountRaw(path, "local"); err == nil { t.Errorf("ParseMountRaw(`%q`) should have failed validation. Err '%v' - MP: %v", path, err, mp) } else { if !strings.Contains(err.Error(), expectedError) { t.Errorf("ParseMountRaw(`%q`) error should contain %q, got %v", path, expectedError, err.Error()) } } } } func TestLinuxParseMountRawSplit(t *testing.T) { cases := []struct { bind string driver string expType mount.Type expDest string expSource string expName string expDriver string expRW bool fail bool }{ { bind: "/tmp:/tmp1", expType: mount.TypeBind, expDest: "/tmp1", expSource: "/tmp", expRW: true, }, { bind: "/tmp:/tmp2:ro", expType: mount.TypeBind, expDest: "/tmp2", expSource: "/tmp", }, { bind: "/tmp:/tmp3:rw", expType: mount.TypeBind, expDest: "/tmp3", expSource: "/tmp", expRW: true, }, { bind: "/tmp:/tmp4:foo", expType: mount.TypeBind, fail: true, }, { bind: "name:/named1", expType: mount.TypeVolume, expDest: "/named1", expName: "name", expRW: true, }, { bind: "name:/named2", driver: "external", expType: mount.TypeVolume, expDest: "/named2", expName: "name", expDriver: "external", expRW: true, }, { bind: "name:/named3:ro", driver: "local", expType: mount.TypeVolume, expDest: "/named3", expName: "name", expDriver: "local", }, { bind: "local/name:/tmp:rw", expType: mount.TypeVolume, expDest: "/tmp", expName: "local/name", expRW: true, }, { bind: "/tmp:tmp", expType: mount.TypeBind, expRW: true, fail: true, }, } parser := NewLinuxParser() if p, ok := parser.(*linuxParser); ok { p.fi = mockFiProvider{} } for _, tc := range cases { tc := tc t.Run(tc.bind, func(t *testing.T) { m, err := parser.ParseMountRaw(tc.bind, tc.driver) if tc.fail { assert.Check(t, is.ErrorContains(err, ""), "expected an error") return } assert.NilError(t, err) assert.Check(t, is.Equal(m.Destination, tc.expDest)) assert.Check(t, is.Equal(m.Source, tc.expSource)) assert.Check(t, is.Equal(m.Name, tc.expName)) assert.Check(t, is.Equal(m.Driver, tc.expDriver)) assert.Check(t, is.Equal(m.RW, tc.expRW)) assert.Check(t, is.Equal(m.Type, tc.expType)) }) } } // TestLinuxParseMountSpecBindWithFileinfoError makes sure that the parser returns // the error produced by the fileinfo provider. // // Some extra context for the future in case of changes and possible wtf are we // testing this for: // // Currently this "fileInfoProvider" returns (bool, bool, error) // The 1st bool is "does this path exist" // The 2nd bool is "is this path a dir" // Then of course the error is an error. // // The issue is the parser was ignoring the error and only looking at the // "does this path exist" boolean, which is always false if there is an error. // Then the error returned to the caller was a (slightly, maybe) friendlier // error string than what comes from `os.Stat` // So ...the caller was always getting an error saying the path doesn't exist // even if it does exist but got some other error (like a permission error). // This is confusing to users. func TestLinuxParseMountSpecBindWithFileinfoError(t *testing.T) { parser := NewLinuxParser() testErr := fmt.Errorf("some crazy error") if pr, ok := parser.(*linuxParser); ok { pr.fi = &mockFiProviderWithError{err: testErr} } _, err := parser.ParseMountSpec(mount.Mount{ Type: mount.TypeBind, Source: `/bananas`, Target: `/bananas`, }) assert.ErrorContains(t, err, testErr.Error()) } func TestConvertTmpfsOptions(t *testing.T) { type testCase struct { opt mount.TmpfsOptions readOnly bool expectedSubstrings []string unexpectedSubstrings []string err bool } cases := []testCase{ { opt: mount.TmpfsOptions{SizeBytes: 1024 * 1024, Mode: 0o700}, readOnly: false, expectedSubstrings: []string{"size=1m", "mode=700"}, unexpectedSubstrings: []string{"ro"}, }, { opt: mount.TmpfsOptions{}, readOnly: true, expectedSubstrings: []string{"ro"}, unexpectedSubstrings: []string{}, }, { opt: mount.TmpfsOptions{Options: [][]string{{"exec"}}}, readOnly: true, expectedSubstrings: []string{"ro", "exec"}, unexpectedSubstrings: []string{"noexec"}, }, { opt: mount.TmpfsOptions{Options: [][]string{{"INVALID"}}}, err: true, }, } p := NewLinuxParser() for _, tc := range cases { data, err := p.ConvertTmpfsOptions(&tc.opt, tc.readOnly) if tc.err { if err == nil { t.Fatalf("expected error for %+v, got nil", tc.opt) } continue } if err != nil { t.Fatalf("could not convert %+v (readOnly: %v) to string: %v", tc.opt, tc.readOnly, err) } t.Logf("data=%q", data) for _, s := range tc.expectedSubstrings { if !strings.Contains(data, s) { t.Fatalf("expected substring: %s, got %v (case=%+v)", s, data, tc) } } for _, s := range tc.unexpectedSubstrings { if strings.Contains(data, s) { t.Fatalf("unexpected substring: %s, got %v (case=%+v)", s, data, tc) } } } }