package main import ( "bytes" "encoding/json" "flag" "fmt" "io" "io/ioutil" "log" "os" "strings" "github.com/vbatts/go-mtree" ) var ( flCreate = flag.Bool("c", false, "create a directory hierarchy spec") flFile = flag.String("f", "", "directory hierarchy spec to validate") flPath = flag.String("p", "", "root path that the hierarchy spec is relative to") flAddKeywords = flag.String("K", "", "Add the specified (delimited by comma or space) keywords to the current set of keywords") flUseKeywords = flag.String("k", "", "Use the specified (delimited by comma or space) keywords as the current set of keywords") flListKeywords = flag.Bool("list-keywords", false, "List the keywords available") flResultFormat = flag.String("result-format", "bsd", "output the validation results using the given format (bsd, json, path)") flTar = flag.String("T", "", "use tar archive to create or validate a directory hierarchy spec (\"-\" indicates stdin)") flBsdKeywords = flag.Bool("bsd-keywords", false, "only operate on keywords that are supported by upstream mtree(8)") flListUsedKeywords = flag.Bool("list-used", false, "list all the keywords found in a validation manifest") flDebug = flag.Bool("debug", false, "output debug info to STDERR") ) var formats = map[string]func(*mtree.Result) string{ // Outputs the errors in the BSD format. "bsd": func(r *mtree.Result) string { var buffer bytes.Buffer for _, fail := range r.Failures { fmt.Fprintln(&buffer, fail) } return buffer.String() }, // Outputs the full result struct in JSON. "json": func(r *mtree.Result) string { var buffer bytes.Buffer if err := json.NewEncoder(&buffer).Encode(r); err != nil { panic(err) } return buffer.String() }, // Outputs only the paths which failed to validate. "path": func(r *mtree.Result) string { var buffer bytes.Buffer for _, fail := range r.Failures { fmt.Fprintln(&buffer, fail.Path) } return buffer.String() }, } func main() { flag.Parse() if *flDebug { os.Setenv("DEBUG", "1") } // so that defers cleanly exec var isErr bool defer func() { if isErr { os.Exit(1) } }() // -list-keywords if *flListKeywords { fmt.Println("Available keywords:") for k := range mtree.KeywordFuncs { fmt.Print(" ") fmt.Print(k) if mtree.Keyword(k).Default() { fmt.Print(" (default)") } if !mtree.Keyword(k).Bsd() { fmt.Print(" (not upstream)") } fmt.Print("\n") } return } // --result-format formatFunc, ok := formats[*flResultFormat] if !ok { log.Printf("invalid output format: %s", *flResultFormat) isErr = true return } var ( tmpKeywords []string currentKeywords []string ) // -k if *flUseKeywords != "" { tmpKeywords = splitKeywordsArg(*flUseKeywords) if !inSlice("type", tmpKeywords) { tmpKeywords = append([]string{"type"}, tmpKeywords...) } } else { if *flTar != "" { tmpKeywords = mtree.DefaultTarKeywords[:] } else { tmpKeywords = mtree.DefaultKeywords[:] } } // -K if *flAddKeywords != "" { for _, kw := range splitKeywordsArg(*flAddKeywords) { if !inSlice(kw, tmpKeywords) { tmpKeywords = append(tmpKeywords, kw) } } } // -bsd-keywords if *flBsdKeywords { for _, k := range tmpKeywords { if mtree.Keyword(k).Bsd() { currentKeywords = append(currentKeywords, k) } else { fmt.Fprintf(os.Stderr, "INFO: ignoring %q as it is not an upstream keyword\n", k) } } } else { currentKeywords = tmpKeywords } // -f var dh *mtree.DirectoryHierarchy if *flFile != "" && !*flCreate { // load the hierarchy, if we're not creating a new spec fh, err := os.Open(*flFile) if err != nil { log.Println(err) isErr = true return } dh, err = mtree.ParseSpec(fh) fh.Close() if err != nil { log.Println(err) isErr = true return } } // -list-used if *flListUsedKeywords { if *flFile == "" { log.Println("no specification provided. please provide a validation manifest") defer os.Exit(1) isErr = true return } usedKeywords := mtree.CollectUsedKeywords(dh) if *flResultFormat == "json" { // if they're asking for json, give it to them data := map[string][]string{*flFile: usedKeywords} buf, err := json.MarshalIndent(data, "", " ") if err != nil { defer os.Exit(1) isErr = true return } fmt.Println(string(buf)) } else { fmt.Printf("Keywords used in [%s]:\n", *flFile) for _, kw := range usedKeywords { fmt.Printf(" %s", kw) if _, ok := mtree.KeywordFuncs[kw]; !ok { fmt.Print(" (unsupported)") } fmt.Printf("\n") } } return } // -p var rootPath = "." if *flPath != "" { rootPath = *flPath } // -T var tdh *mtree.DirectoryHierarchy if *flTar != "" { var input io.Reader if *flTar == "-" { input = os.Stdin } else { fh, err := os.Open(*flTar) if err != nil { log.Println(err) isErr = true return } defer fh.Close() input = fh } ts := mtree.NewTarStreamer(input, currentKeywords) if _, err := io.Copy(ioutil.Discard, ts); err != nil && err != io.EOF { log.Println(err) isErr = true return } if err := ts.Close(); err != nil { log.Println(err) isErr = true return } var err error tdh, err = ts.Hierarchy() if err != nil { log.Println(err) isErr = true return } } // -c if *flCreate { // create a directory hierarchy // with a tar stream if tdh != nil { tdh.WriteTo(os.Stdout) } else { // with a root directory dh, err := mtree.Walk(rootPath, nil, currentKeywords) if err != nil { log.Println(err) isErr = true return } dh.WriteTo(os.Stdout) } } else if tdh != nil || dh != nil { var res *mtree.Result var err error // else this is a validation if *flTar != "" { res, err = mtree.TarCheck(tdh, dh, currentKeywords) } else { res, err = mtree.Check(rootPath, dh, currentKeywords) } if err != nil { log.Println(err) isErr = true return } if res != nil && len(res.Failures) > 0 { defer os.Exit(1) out := formatFunc(res) if _, err := os.Stdout.Write([]byte(out)); err != nil { log.Println(err) isErr = true return } } if res != nil { if len(res.Extra) > 0 { defer os.Exit(1) for _, extra := range res.Extra { extrapath, err := extra.Path() if err != nil { log.Println(err) isErr = true return } fmt.Printf("%s extra\n", extrapath) } } if len(res.Missing) > 0 { defer os.Exit(1) for _, missing := range res.Missing { missingpath, err := missing.Path() if err != nil { log.Println(err) isErr = true return } fmt.Printf("%s missing\n", missingpath) } } } } else { log.Println("neither validating or creating a manifest. Please provide additional arguments") isErr = true defer os.Exit(1) return } } func splitKeywordsArg(str string) []string { return strings.Fields(strings.Replace(str, ",", " ", -1)) } func inSlice(a string, list []string) bool { for _, b := range list { if b == a { return true } } return false }