package getproviders import ( "fmt" "log" "os" "path/filepath" "strings" svchost "github.com/hashicorp/terraform-svchost" "github.com/hashicorp/terraform/addrs" ) // SearchLocalDirectory performs an immediate, one-off scan of the given base // directory for provider plugins using the directory structure defined for // FilesystemMirrorSource. // // This is separated to allow other callers, such as the provider plugin cache // management in the "internal/providercache" package, to use the same // directory structure conventions. func SearchLocalDirectory(baseDir string) (map[addrs.Provider]PackageMetaList, error) { ret := make(map[addrs.Provider]PackageMetaList) err := filepath.Walk(baseDir, func(fullPath string, info os.FileInfo, err error) error { if err != nil { return fmt.Errorf("cannot search %s: %s", fullPath, err) } // There are two valid directory structures that we support here... // Unpacked: registry.terraform.io/hashicorp/aws/2.0.0/linux_amd64 (a directory) // Packed: registry.terraform.io/hashicorp/aws/terraform-provider-aws_2.0.0_linux_amd64.zip (a file) // // Both of these give us enough information to identify the package // metadata. fsPath, err := filepath.Rel(baseDir, fullPath) if err != nil { // This should never happen because the filepath.Walk contract is // for the paths to include the base path. log.Printf("[TRACE] getproviders.SearchLocalDirectory: ignoring malformed path %q during walk: %s", fullPath, err) return nil } relPath := filepath.ToSlash(fsPath) parts := strings.Split(relPath, "/") if len(parts) < 3 { // Likely a prefix of a valid path, so we'll ignore it and visit // the full valid path on a later call. return nil } hostnameGiven := parts[0] namespace := parts[1] typeName := parts[2] hostname, err := svchost.ForComparison(hostnameGiven) if err != nil { log.Printf("[WARN] local provider path %q contains invalid hostname %q; ignoring", fullPath, hostnameGiven) return nil } var providerAddr addrs.Provider if namespace == addrs.LegacyProviderNamespace { if hostname != addrs.DefaultRegistryHost { log.Printf("[WARN] local provider path %q indicates a legacy provider not on the default registry host; ignoring", fullPath) return nil } providerAddr = addrs.NewLegacyProvider(typeName) } else { providerAddr = addrs.NewProvider(hostname, namespace, typeName) } // The "info" passed to our function is an Lstat result, so it might // be referring to a symbolic link. We'll do a full "Stat" on it // now to make sure we're making tests against the real underlying // filesystem object below. info, err = os.Stat(fullPath) if err != nil { return fmt.Errorf("failed to read metadata about %s: %s", fullPath, err) } switch len(parts) { case 5: // Might be unpacked layout if !info.IsDir() { return nil // packed layout requires a directory } versionStr := parts[3] version, err := ParseVersion(versionStr) if err != nil { log.Printf("[WARN] ignoring local provider path %q with invalid version %q: %s", fullPath, versionStr, err) return nil } platformStr := parts[4] platform, err := ParsePlatform(platformStr) if err != nil { log.Printf("[WARN] ignoring local provider path %q with invalid platform %q: %s", fullPath, platformStr, err) return nil } log.Printf("[TRACE] getproviders.SearchLocalDirectory: found %s v%s for %s at %s", providerAddr, version, platform, fullPath) meta := PackageMeta{ Provider: providerAddr, Version: version, // FIXME: How do we populate this? ProtocolVersions: nil, TargetPlatform: platform, // Because this is already unpacked, the filename is synthetic // based on the standard naming scheme. Filename: fmt.Sprintf("terraform-provider-%s_%s_%s.zip", providerAddr.Type, version, platform), Location: PackageLocalDir(fullPath), // FIXME: What about the SHA256Sum field? As currently specified // it's a hash of the zip file, but this thing is already // unpacked and so we don't have the zip file to hash. } ret[providerAddr] = append(ret[providerAddr], meta) case 4: // Might be packed layout if info.IsDir() { return nil // packed layout requires a file } filename := filepath.Base(fsPath) // the filename components are matched case-insensitively, and // the normalized form of them is in lowercase so we'll convert // to lowercase for comparison here. (This normalizes only for case, // because that is the primary constraint affecting compatibility // between filesystem implementations on different platforms; // filenames are expected to be pre-normalized and valid in other // regards.) normFilename := strings.ToLower(filename) // In the packed layout, the version number and target platform // are derived from the package filename, but only if the // filename has the expected prefix identifying it as a package // for the provider in question, and the suffix identifying it // as a zip file. prefix := "terraform-provider-" + providerAddr.Type + "_" const suffix = ".zip" if !strings.HasPrefix(normFilename, prefix) { log.Printf("[WARN] ignoring file %q as possible package for %s: filename lacks expected prefix %q", fsPath, providerAddr, prefix) return nil } if !strings.HasSuffix(normFilename, suffix) { log.Printf("[WARN] ignoring file %q as possible package for %s: filename lacks expected suffix %q", fsPath, providerAddr, suffix) return nil } // Extract the version and target part of the filename, which // will look like "2.1.0_linux_amd64" infoSlice := normFilename[len(prefix) : len(normFilename)-len(suffix)] infoParts := strings.Split(infoSlice, "_") if len(infoParts) < 3 { log.Printf("[WARN] ignoring file %q as possible package for %s: filename does not include version number, target OS, and target architecture", fsPath, providerAddr) return nil } versionStr := infoParts[0] version, err := ParseVersion(versionStr) if err != nil { log.Printf("[WARN] ignoring local provider path %q with invalid version %q: %s", fullPath, versionStr, err) return nil } // We'll reassemble this back into a single string just so we can // easily re-use our existing parser and its normalization rules. platformStr := infoParts[1] + "_" + infoParts[2] platform, err := ParsePlatform(platformStr) if err != nil { log.Printf("[WARN] ignoring local provider path %q with invalid platform %q: %s", fullPath, platformStr, err) return nil } log.Printf("[TRACE] getproviders.SearchLocalDirectory: found %s v%s for %s at %s", providerAddr, version, platform, fullPath) meta := PackageMeta{ Provider: providerAddr, Version: version, // FIXME: How do we populate this? ProtocolVersions: nil, TargetPlatform: platform, // Because this is already unpacked, the filename is synthetic // based on the standard naming scheme. Filename: normFilename, // normalized filename, because this field says what it _should_ be called, not what it _is_ called Location: PackageLocalArchive(fullPath), // non-normalized here, because this is the actual physical location // TODO: Also populate the SHA256Sum field. Skipping that // for now because our initial uses of this result -- // scanning already-installed providers in local directories, // rather than explicit filesystem mirrors -- doesn't do // any hash verification anyway, and this is consistent with // the FIXME in the unpacked case above even though technically // we _could_ populate SHA256Sum here right now. } ret[providerAddr] = append(ret[providerAddr], meta) } return nil }) if err != nil { return nil, err } // Sort the results to be deterministic (aside from semver build metadata) // and consistent with ordering from other functions. for _, l := range ret { l.Sort() } return ret, nil } // UnpackedDirectoryPathForPackage is similar to // PackageMeta.UnpackedDirectoryPath but makes its decision based on // individually-passed provider address, version, and target platform so that // it can be used by callers outside this package that may have other // types that represent package identifiers. func UnpackedDirectoryPathForPackage(baseDir string, provider addrs.Provider, version Version, platform Platform) string { return filepath.ToSlash(filepath.Join( baseDir, provider.Hostname.ForDisplay(), provider.Namespace, provider.Type, version.String(), platform.String(), )) }