package discovery import ( "errors" "fmt" "io" "io/ioutil" "log" "net/http" "os" "path/filepath" "runtime" "strconv" "strings" "github.com/hashicorp/errwrap" getter "github.com/hashicorp/go-getter" multierror "github.com/hashicorp/go-multierror" "github.com/hashicorp/terraform-svchost/disco" "github.com/hashicorp/terraform/addrs" "github.com/hashicorp/terraform/httpclient" "github.com/hashicorp/terraform/registry" "github.com/hashicorp/terraform/registry/regsrc" "github.com/hashicorp/terraform/registry/response" "github.com/hashicorp/terraform/tfdiags" tfversion "github.com/hashicorp/terraform/version" "github.com/mitchellh/cli" ) // Releases are located by querying the terraform registry. const protocolVersionHeader = "x-terraform-protocol-version" var httpClient *http.Client var errVersionNotFound = errors.New("version not found") func init() { httpClient = httpclient.New() httpGetter := &getter.HttpGetter{ Client: httpClient, Netrc: true, } getter.Getters["http"] = httpGetter getter.Getters["https"] = httpGetter } // An Installer maintains a local cache of plugins by downloading plugins // from an online repository. type Installer interface { Get(provider addrs.Provider, req Constraints) (PluginMeta, tfdiags.Diagnostics, error) PurgeUnused(used map[string]PluginMeta) (removed PluginMetaSet, err error) } // ProviderInstaller is an Installer implementation that knows how to // download Terraform providers from the official HashiCorp releases service // into a local directory. The files downloaded are compliant with the // naming scheme expected by FindPlugins, so the target directory of a // provider installer can be used as one of several plugin discovery sources. type ProviderInstaller struct { Dir string // Cache is used to access and update a local cache of plugins if non-nil. // Can be nil to disable caching. Cache PluginCache PluginProtocolVersion uint // OS and Arch specify the OS and architecture that should be used when // installing plugins. These use the same labels as the runtime.GOOS and // runtime.GOARCH variables respectively, and indeed the values of these // are used as defaults if either of these is the empty string. OS string Arch string // Skip checksum and signature verification SkipVerify bool Ui cli.Ui // Ui for output // Services is a required *disco.Disco, which may have services and // credentials pre-loaded. Services *disco.Disco // registry client registry *registry.Client } // Get is part of an implementation of type Installer, and attempts to download // and install a Terraform provider matching the given constraints. // // This method may return one of a number of sentinel errors from this // package to indicate issues that are likely to be resolvable via user action: // // ErrorNoSuchProvider: no provider with the given name exists in the repository. // ErrorNoSuitableVersion: the provider exists but no available version matches constraints. // ErrorNoVersionCompatible: a plugin was found within the constraints but it is // incompatible with the current Terraform version. // // These errors should be recognized and handled as special cases by the caller // to present a suitable user-oriented error message. // // All other errors indicate an internal problem that is likely _not_ solvable // through user action, or at least not within Terraform's scope. Error messages // are produced under the assumption that if presented to the user they will // be presented alongside context about what is being installed, and thus the // error messages do not redundantly include such information. func (i *ProviderInstaller) Get(provider addrs.Provider, req Constraints) (PluginMeta, tfdiags.Diagnostics, error) { var diags tfdiags.Diagnostics // a little bit of initialization. if i.OS == "" { i.OS = runtime.GOOS } if i.Arch == "" { i.Arch = runtime.GOARCH } if i.registry == nil { i.registry = registry.NewClient(i.Services, nil) } // get a full listing of versions for the requested provider allVersions, err := i.listProviderVersions(provider) // TODO: return multiple errors if err != nil { log.Printf("[DEBUG] %s", err) if registry.IsServiceUnreachable(err) { registryHost, err := i.hostname() if err == nil && registryHost == regsrc.PublicRegistryHost.Raw { return PluginMeta{}, diags, ErrorPublicRegistryUnreachable } return PluginMeta{}, diags, ErrorServiceUnreachable } if registry.IsServiceNotProvided(err) { return PluginMeta{}, diags, err } return PluginMeta{}, diags, ErrorNoSuchProvider } // Add any warnings from the response to diags for _, warning := range allVersions.Warnings { hostname, err := i.hostname() if err != nil { return PluginMeta{}, diags, err } diag := tfdiags.SimpleWarning(fmt.Sprintf("%s: %s", hostname, warning)) diags = diags.Append(diag) } if len(allVersions.Versions) == 0 { return PluginMeta{}, diags, ErrorNoSuitableVersion } providerSource := allVersions.ID // Filter the list of plugin versions to those which meet the version constraints versions := allowedVersions(allVersions, req) if len(versions) == 0 { return PluginMeta{}, diags, ErrorNoSuitableVersion } // sort them newest to oldest. The newest version wins! response.ProviderVersionCollection(versions).Sort() // if the chosen provider version does not support the requested platform, // filter the list of acceptable versions to those that support that platform if err := i.checkPlatformCompatibility(versions[0]); err != nil { versions = i.platformCompatibleVersions(versions) if len(versions) == 0 { return PluginMeta{}, diags, ErrorNoVersionCompatibleWithPlatform } } // we now have a winning platform-compatible version versionMeta := versions[0] v := VersionStr(versionMeta.Version).MustParse() // check protocol compatibility if err := i.checkPluginProtocol(versionMeta); err != nil { closestMatch, err := i.findClosestProtocolCompatibleVersion(allVersions.Versions) if err != nil { // No operation here if we can't find a version with compatible protocol return PluginMeta{}, diags, err } // Prompt version suggestion to UI based on closest protocol match var errMsg string closestVersion := VersionStr(closestMatch.Version).MustParse() if v.NewerThan(closestVersion) { errMsg = providerProtocolTooNew } else { errMsg = providerProtocolTooOld } constraintStr := req.String() if constraintStr == "" { constraintStr = "(any version)" } return PluginMeta{}, diags, errwrap.Wrap(ErrorVersionIncompatible, fmt.Errorf(fmt.Sprintf( errMsg, provider, v.String(), tfversion.String(), closestVersion.String(), closestVersion.MinorUpgradeConstraintStr(), constraintStr))) } downloadURLs, err := i.listProviderDownloadURLs(providerSource, versionMeta.Version) if err != nil { return PluginMeta{}, diags, err } providerURL := downloadURLs.DownloadURL if !i.SkipVerify { // Terraform verifies the integrity of a provider release before downloading // the plugin binary. The digital signature (SHA256SUMS.sig) on the // release distribution (SHA256SUMS) is verified with the public key of the // publisher provided in the Terraform Registry response, ensuring that // everything is as intended by the publisher. The checksum of the provider // plugin is expected in the SHA256SUMS file and is double checked to match // the checksum of the original published release to the Registry. This // enforces immutability of releases between the Registry and the plugin's // host location. Lastly, the integrity of the binary is verified upon // download matches the Registry and signed checksum. sha256, err := i.getProviderChecksum(downloadURLs) if err != nil { return PluginMeta{}, diags, err } // add the checksum parameter for go-getter to verify the download for us. if sha256 != "" { providerURL = providerURL + "?checksum=sha256:" + sha256 } } printedProviderName := fmt.Sprintf("%q (%s)", provider.Type, providerSource) i.Ui.Info(fmt.Sprintf("- Downloading plugin for provider %s %s...", printedProviderName, versionMeta.Version)) log.Printf("[DEBUG] getting provider %s version %q", printedProviderName, versionMeta.Version) err = i.install(provider, v, providerURL) if err != nil { return PluginMeta{}, diags, err } // Find what we just installed // (This is weird, because go-getter doesn't directly return // information about what was extracted, and we just extracted // the archive directly into a shared dir here.) log.Printf("[DEBUG] looking for the %s %s plugin we just installed", provider.Type, versionMeta.Version) metas := FindPlugins("provider", []string{i.Dir}) log.Printf("[DEBUG] all plugins found %#v", metas) metas, _ = metas.ValidateVersions() metas = metas.WithName(provider.Type).WithVersion(v) log.Printf("[DEBUG] filtered plugins %#v", metas) if metas.Count() == 0 { // This should never happen. Suggests that the release archive // contains an executable file whose name doesn't match the // expected convention. return PluginMeta{}, diags, fmt.Errorf( "failed to find installed plugin version %s; this is a bug in Terraform and should be reported", versionMeta.Version, ) } if metas.Count() > 1 { // This should also never happen, and suggests that a // particular version was re-released with a different // executable filename. We consider releases as immutable, so // this is an error. return PluginMeta{}, diags, fmt.Errorf( "multiple plugins installed for version %s; this is a bug in Terraform and should be reported", versionMeta.Version, ) } // By now we know we have exactly one meta, and so "Newest" will // return that one. return metas.Newest(), diags, nil } func (i *ProviderInstaller) install(provider addrs.Provider, version Version, url string) error { if i.Cache != nil { log.Printf("[DEBUG] looking for provider %s %s in plugin cache", provider.Type, version) cached := i.Cache.CachedPluginPath("provider", provider.Type, version) if cached == "" { log.Printf("[DEBUG] %s %s not yet in cache, so downloading %s", provider.Type, version, url) err := getter.Get(i.Cache.InstallDir(), url) if err != nil { return err } // should now be in cache cached = i.Cache.CachedPluginPath("provider", provider.Type, version) if cached == "" { // should never happen if the getter is behaving properly // and the plugins are packaged properly. return fmt.Errorf("failed to find downloaded plugin in cache %s", i.Cache.InstallDir()) } } // Link or copy the cached binary into our install dir so the // normal resolution machinery can find it. filename := filepath.Base(cached) targetPath := filepath.Join(i.Dir, filename) // check if the target dir exists, and create it if not var err error if _, StatErr := os.Stat(i.Dir); os.IsNotExist(StatErr) { err = os.MkdirAll(i.Dir, 0700) } if err != nil { return err } log.Printf("[DEBUG] installing %s %s to %s from local cache %s", provider.Type, version, targetPath, cached) // Delete if we can. If there's nothing there already then no harm done. // This is important because we can't create a link if there's // already a file of the same name present. // (any other error here we'll catch below when we try to write here) os.Remove(targetPath) // We don't attempt linking on Windows because links are not // comprehensively supported by all tools/apps in Windows and // so we choose to be conservative to avoid creating any // weird issues for Windows users. linkErr := errors.New("link not supported for Windows") // placeholder error, never actually returned if runtime.GOOS != "windows" { // Try hard linking first. Hard links are preferable because this // creates a self-contained directory that doesn't depend on the // cache after install. linkErr = os.Link(cached, targetPath) // If that failed, try a symlink. This _does_ depend on the cache // after install, so the user must manage the cache more carefully // in this case, but avoids creating redundant copies of the // plugins on disk. if linkErr != nil { linkErr = os.Symlink(cached, targetPath) } } // If we still have an error then we'll try a copy as a fallback. // In this case either the OS is Windows or the target filesystem // can't support symlinks. if linkErr != nil { srcFile, err := os.Open(cached) if err != nil { return fmt.Errorf("failed to open cached plugin %s: %s", cached, err) } defer srcFile.Close() destFile, err := os.OpenFile(targetPath, os.O_TRUNC|os.O_CREATE|os.O_WRONLY, os.ModePerm) if err != nil { return fmt.Errorf("failed to create %s: %s", targetPath, err) } _, err = io.Copy(destFile, srcFile) if err != nil { destFile.Close() return fmt.Errorf("failed to copy cached plugin from %s to %s: %s", cached, targetPath, err) } err = destFile.Close() if err != nil { return fmt.Errorf("error creating %s: %s", targetPath, err) } } // One way or another, by the time we get here we should have either // a link or a copy of the cached plugin within i.Dir, as expected. } else { log.Printf("[DEBUG] plugin cache is disabled, so downloading %s %s from %s", provider.Type, version, url) err := getter.Get(i.Dir, url) if err != nil { return err } } return nil } func (i *ProviderInstaller) PurgeUnused(used map[string]PluginMeta) (PluginMetaSet, error) { purge := make(PluginMetaSet) present := FindPlugins("provider", []string{i.Dir}) for meta := range present { chosen, ok := used[meta.Name] if !ok { purge.Add(meta) } if chosen.Path != meta.Path { purge.Add(meta) } } removed := make(PluginMetaSet) var errs error for meta := range purge { path := meta.Path err := os.Remove(path) if err != nil { errs = multierror.Append(errs, fmt.Errorf( "failed to remove unused provider plugin %s: %s", path, err, )) } else { removed.Add(meta) } } return removed, errs } func (i *ProviderInstaller) getProviderChecksum(resp *response.TerraformProviderPlatformLocation) (string, error) { // Get SHA256SUMS file. shasums, err := getFile(resp.ShasumsURL) if err != nil { log.Printf("[ERROR] error fetching checksums from %q: %s", resp.ShasumsURL, err) return "", ErrorMissingChecksumVerification } // Get SHA256SUMS.sig file. signature, err := getFile(resp.ShasumsSignatureURL) if err != nil { log.Printf("[ERROR] error fetching checksums signature from %q: %s", resp.ShasumsSignatureURL, err) return "", ErrorSignatureVerification } // Verify the GPG signature returned from the Registry. asciiArmor := resp.SigningKeys.GPGASCIIArmor() signer, err := verifySig(shasums, signature, asciiArmor) if err != nil { log.Printf("[ERROR] error verifying signature: %s", err) return "", ErrorSignatureVerification } // Also verify the GPG signature against the HashiCorp public key. This is // a temporary additional check until a more robust key verification // process is added in a future release. _, err = verifySig(shasums, signature, HashicorpPublicKey) if err != nil { log.Printf("[ERROR] error verifying signature against HashiCorp public key: %s", err) return "", ErrorSignatureVerification } // Display identity for GPG key which succeeded verifying the signature. // This could also be used to display to the user with i.Ui.Info(). identities := []string{} for k := range signer.Identities { identities = append(identities, k) } identity := strings.Join(identities, ", ") log.Printf("[DEBUG] verified GPG signature with key from %s", identity) // Extract checksum for this os/arch platform binary and verify against Registry checksum := checksumForFile(shasums, resp.Filename) if checksum == "" { log.Printf("[ERROR] missing checksum for %s from source %s", resp.Filename, resp.ShasumsURL) return "", ErrorMissingChecksumVerification } else if checksum != resp.Shasum { log.Printf("[ERROR] unexpected checksum for %s from source %q", resp.Filename, resp.ShasumsURL) return "", ErrorChecksumVerification } return checksum, nil } func (i *ProviderInstaller) hostname() (string, error) { provider := regsrc.NewTerraformProvider("", i.OS, i.Arch) svchost, err := provider.SvcHost() if err != nil { return "", err } return svchost.ForDisplay(), nil } // list all versions available for the named provider func (i *ProviderInstaller) listProviderVersions(provider addrs.Provider) (*response.TerraformProviderVersions, error) { req := regsrc.NewTerraformProvider(provider.Type, i.OS, i.Arch) versions, err := i.registry.TerraformProviderVersions(req) return versions, err } func (i *ProviderInstaller) listProviderDownloadURLs(name, version string) (*response.TerraformProviderPlatformLocation, error) { urls, err := i.registry.TerraformProviderLocation(regsrc.NewTerraformProvider(name, i.OS, i.Arch), version) if urls == nil { return nil, fmt.Errorf("No download urls found for provider %s", name) } return urls, err } // findClosestProtocolCompatibleVersion searches for the provider version with the closest protocol match. // Prerelease versions are filtered. func (i *ProviderInstaller) findClosestProtocolCompatibleVersion(versions []*response.TerraformProviderVersion) (*response.TerraformProviderVersion, error) { // Loop through all the provider versions to find the earliest and latest // versions that match the installer protocol to then select the closest of the two var latest, earliest *response.TerraformProviderVersion for _, version := range versions { // Prereleases are filtered and will not be suggested v, err := VersionStr(version.Version).Parse() if err != nil || v.IsPrerelease() { continue } if err := i.checkPluginProtocol(version); err == nil { if earliest == nil { // Found the first provider version with compatible protocol earliest = version } // Update the latest protocol compatible version latest = version } } if earliest == nil { // No compatible protocol was found for any version return nil, ErrorNoVersionCompatible } // Convert protocols to comparable types protoString := strconv.Itoa(int(i.PluginProtocolVersion)) protocolVersion, err := VersionStr(protoString).Parse() if err != nil { return nil, fmt.Errorf("invalid plugin protocol version: %q", i.PluginProtocolVersion) } earliestVersionProtocol, err := VersionStr(earliest.Protocols[0]).Parse() if err != nil { return nil, err } // Compare installer protocol version with the first protocol listed of the earliest match // [A, B] where A is assumed the earliest compatible major version of the protocol pair if protocolVersion.NewerThan(earliestVersionProtocol) { // Provider protocols are too old, the closest version is the earliest compatible version return earliest, nil } // Provider protocols are too new, the closest version is the latest compatible version return latest, nil } func (i *ProviderInstaller) checkPluginProtocol(versionMeta *response.TerraformProviderVersion) error { // TODO: should this be a different error? We should probably differentiate between // no compatible versions and no protocol versions listed at all if len(versionMeta.Protocols) == 0 { return fmt.Errorf("no plugin protocol versions listed") } protoString := strconv.Itoa(int(i.PluginProtocolVersion)) protocolVersion, err := VersionStr(protoString).Parse() if err != nil { return fmt.Errorf("invalid plugin protocol version: %q", i.PluginProtocolVersion) } protocolConstraint, err := protocolVersion.MinorUpgradeConstraintStr().Parse() if err != nil { // This should not fail if the preceding function succeeded. return fmt.Errorf("invalid plugin protocol version: %q", protocolVersion.String()) } for _, p := range versionMeta.Protocols { proPro, err := VersionStr(p).Parse() if err != nil { // invalid protocol reported by the registry. Move along. log.Printf("[WARN] invalid provider protocol version %q found in the registry", versionMeta.Version) continue } // success! if protocolConstraint.Allows(proPro) { return nil } } return ErrorNoVersionCompatible } // REVIEWER QUESTION (again): this ends up swallowing a bunch of errors from // checkPluginProtocol. Do they need to be percolated up better, or would // debug messages would suffice in these situations? func (i *ProviderInstaller) findPlatformCompatibleVersion(versions []*response.TerraformProviderVersion) (*response.TerraformProviderVersion, error) { for _, version := range versions { if err := i.checkPlatformCompatibility(version); err == nil { return version, nil } } return nil, ErrorNoVersionCompatibleWithPlatform } // platformCompatibleVersions returns a list of provider versions that are // compatible with the requested platform. func (i *ProviderInstaller) platformCompatibleVersions(versions []*response.TerraformProviderVersion) []*response.TerraformProviderVersion { var v []*response.TerraformProviderVersion for _, version := range versions { if err := i.checkPlatformCompatibility(version); err == nil { v = append(v, version) } } return v } func (i *ProviderInstaller) checkPlatformCompatibility(versionMeta *response.TerraformProviderVersion) error { if len(versionMeta.Platforms) == 0 { return fmt.Errorf("no supported provider platforms listed") } for _, p := range versionMeta.Platforms { if p.Arch == i.Arch && p.OS == i.OS { return nil } } return fmt.Errorf("version %s does not support the requested platform %s_%s", versionMeta.Version, i.OS, i.Arch) } // take the list of available versions for a plugin, and filter out those that // don't fit the constraints. func allowedVersions(available *response.TerraformProviderVersions, required Constraints) []*response.TerraformProviderVersion { var allowed []*response.TerraformProviderVersion for _, v := range available.Versions { version, err := VersionStr(v.Version).Parse() if err != nil { log.Printf("[WARN] invalid version found for %q: %s", available.ID, err) continue } if required.Allows(version) { allowed = append(allowed, v) } } return allowed } func checksumForFile(sums []byte, name string) string { for _, line := range strings.Split(string(sums), "\n") { parts := strings.Fields(line) if len(parts) > 1 && parts[1] == name { return parts[0] } } return "" } func getFile(url string) ([]byte, error) { resp, err := httpClient.Get(url) if err != nil { return nil, err } defer resp.Body.Close() if resp.StatusCode != http.StatusOK { return nil, fmt.Errorf("%s", resp.Status) } data, err := ioutil.ReadAll(resp.Body) if err != nil { return data, err } return data, nil } // providerProtocolTooOld is a message sent to the CLI UI if the provider's // supported protocol versions are too old for the user's version of terraform, // but an older version of the provider is compatible. const providerProtocolTooOld = ` [reset][bold][red]Provider %q v%s is not compatible with Terraform %s.[reset][red] Provider version %s is the earliest compatible version. Select it with the following version constraint: version = %q Terraform checked all of the plugin versions matching the given constraint: %s Consult the documentation for this provider for more information on compatibility between provider and Terraform versions. ` // providerProtocolTooNew is a message sent to the CLI UI if the provider's // supported protocol versions are too new for the user's version of terraform, // and the user could either upgrade terraform or choose an older version of the // provider const providerProtocolTooNew = ` [reset][bold][red]Provider %q v%s is not compatible with Terraform %s.[reset][red] Provider version %s is the latest compatible version. Select it with the following constraint: version = %q Terraform checked all of the plugin versions matching the given constraint: %s Consult the documentation for this provider for more information on compatibility between provider and Terraform versions. Alternatively, upgrade to the latest version of Terraform for compatibility with newer provider releases. `