// Config handling // +build go1.11 package main import ( "io/ioutil" "log" "path" "github.com/ncw/rclone/fs" "github.com/pkg/errors" yaml "gopkg.in/yaml.v2" ) // Test describes an integration test to run with `go test` type Test struct { Path string // path to the source directory SubDir bool // if it is possible to add -sub-dir to tests FastList bool // if it is possible to add -fast-list to tests AddBackend bool // set if Path needs the current backend appending NoRetries bool // set if no retries should be performed NoBinary bool // set to not build a binary in advance } // Backend describes a backend test // // FIXME make bucket based remotes set sub-dir automatically??? type Backend struct { Backend string // name of the backend directory Remote string // name of the test remote SubDir bool // set to test with -sub-dir FastList bool // set to test with -fast-list OneOnly bool // set to run only one backend test at once Ignore []string // test names to ignore the failure of } // MakeRuns creates Run objects the Backend and Test // // There can be several created, one for each combination of SubDir // and FastList func (b *Backend) MakeRuns(t *Test) (runs []*Run) { subdirs := []bool{false} if b.SubDir && t.SubDir { subdirs = append(subdirs, true) } fastlists := []bool{false} if b.FastList && t.FastList { fastlists = append(fastlists, true) } ignore := make(map[string]struct{}, len(b.Ignore)) for _, item := range b.Ignore { ignore[item] = struct{}{} } for _, subdir := range subdirs { for _, fastlist := range fastlists { run := &Run{ Remote: b.Remote, Backend: b.Backend, Path: t.Path, SubDir: subdir, FastList: fastlist, NoRetries: t.NoRetries, OneOnly: b.OneOnly, NoBinary: t.NoBinary, Ignore: ignore, } if t.AddBackend { run.Path = path.Join(run.Path, b.Backend) } runs = append(runs, run) } } return runs } // Config describes the config for this program type Config struct { Tests []Test Backends []Backend } // NewConfig reads the config file func NewConfig(configFile string) (*Config, error) { d, err := ioutil.ReadFile(configFile) if err != nil { return nil, errors.Wrap(err, "failed to read config file") } config := &Config{} err = yaml.Unmarshal(d, &config) if err != nil { return nil, errors.Wrap(err, "failed to parse config file") } // d, err = yaml.Marshal(&config) // if err != nil { // log.Fatalf("error: %v", err) // } // fmt.Printf("--- m dump:\n%s\n\n", string(d)) return config, nil } // MakeRuns makes Run objects for each combination of Backend and Test // in the config func (c *Config) MakeRuns() (runs Runs) { for _, backend := range c.Backends { for _, test := range c.Tests { runs = append(runs, backend.MakeRuns(&test)...) } } return runs } // Filter the Backends with the remotes passed in. // // If no backend is found with a remote is found then synthesize one func (c *Config) filterBackendsByRemotes(remotes []string) { var newBackends []Backend for _, name := range remotes { found := false for i := range c.Backends { if c.Backends[i].Remote == name { newBackends = append(newBackends, c.Backends[i]) found = true } } if !found { log.Printf("Remote %q not found - inserting with default flags", name) // Lookup which backend fsInfo, _, _, _, err := fs.ConfigFs(name) if err != nil { log.Fatalf("couldn't find remote %q: %v", name, err) } newBackends = append(newBackends, Backend{Backend: fsInfo.FileName(), Remote: name}) } } c.Backends = newBackends } // Filter the Backends with the backendNames passed in func (c *Config) filterBackendsByBackends(backendNames []string) { var newBackends []Backend for _, name := range backendNames { for i := range c.Backends { if c.Backends[i].Backend == name { newBackends = append(newBackends, c.Backends[i]) } } } c.Backends = newBackends } // Filter the incoming tests into the backends selected func (c *Config) filterTests(paths []string) { var newTests []Test for _, path := range paths { for i := range c.Tests { if c.Tests[i].Path == path { newTests = append(newTests, c.Tests[i]) } } } c.Tests = newTests } // Remotes returns the unique remotes func (c *Config) Remotes() (remotes []string) { found := map[string]struct{}{} for _, backend := range c.Backends { if _, ok := found[backend.Remote]; ok { continue } remotes = append(remotes, backend.Remote) found[backend.Remote] = struct{}{} } return remotes }