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"use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", { value: true }); exports.Updater = void 0; const models_1 = require("@tufjs/models"); const debug_1 = __importDefault(require("debug")); const fs = __importStar(require("fs")); const path = __importStar(require("path")); const config_1 = require("./config"); const error_1 = require("./error"); const fetcher_1 = require("./fetcher"); const store_1 = require("./store"); const url = __importStar(require("./utils/url")); const log = (0, debug_1.default)('tuf:cache'); class Updater { constructor(options) { const { metadataDir, metadataBaseUrl, targetDir, targetBaseUrl, fetcher, config, } = options; this.dir = metadataDir; this.metadataBaseUrl = metadataBaseUrl; this.targetDir = targetDir; this.targetBaseUrl = targetBaseUrl; this.forceCache = options.forceCache ?? false; const data = this.loadLocalMetadata(models_1.MetadataKind.Root); this.trustedSet = new store_1.TrustedMetadataStore(data); this.config = { ...config_1.defaultConfig, ...config }; this.fetcher = fetcher || new fetcher_1.DefaultFetcher({ timeout: this.config.fetchTimeout, retry: this.config.fetchRetries ?? this.config.fetchRetry, }); } // refresh and load the metadata before downloading the target // refresh should be called once after the client is initialized async refresh() { // If forceCache is true, try to load the timestamp from local storage // without fetching it from the remote. Otherwise, load the root and // timestamp from the remote per the TUF spec. if (this.forceCache) { // If anything fails, load the root and timestamp from the remote. This // should cover any situation where the local metadata is corrupted or // expired. try { await this.loadTimestamp({ checkRemote: false }); } catch (error) { await this.loadRoot(); await this.loadTimestamp(); } } else { await this.loadRoot(); await this.loadTimestamp(); } await this.loadSnapshot(); await this.loadTargets(models_1.MetadataKind.Targets, models_1.MetadataKind.Root); } // Returns the TargetFile instance with information for the given target path. // // Implicitly calls refresh if it hasn't already been called. async getTargetInfo(targetPath) { if (!this.trustedSet.targets) { await this.refresh(); } return this.preorderDepthFirstWalk(targetPath); } async downloadTarget(targetInfo, filePath, targetBaseUrl) { const targetPath = filePath || this.generateTargetPath(targetInfo); if (!targetBaseUrl) { if (!this.targetBaseUrl) { throw new error_1.ValueError('Target base URL not set'); } targetBaseUrl = this.targetBaseUrl; } let targetFilePath = targetInfo.path; const consistentSnapshot = this.trustedSet.root.signed.consistentSnapshot; if (consistentSnapshot && this.config.prefixTargetsWithHash) { const hashes = Object.values(targetInfo.hashes); const { dir, base } = path.parse(targetFilePath); const filename = `${hashes[0]}.${base}`; targetFilePath = dir ? `${dir}/${filename}` : filename; } const targetUrl = url.join(targetBaseUrl, targetFilePath); // Client workflow 5.7.3: download target file await this.fetcher.downloadFile(targetUrl, targetInfo.length, async (fileName) => { // Verify hashes and length of downloaded file await targetInfo.verify(fs.createReadStream(fileName)); // Copy file to target path log('WRITE %s', targetPath); fs.copyFileSync(fileName, targetPath); }); return targetPath; } async findCachedTarget(targetInfo, filePath) { if (!filePath) { filePath = this.generateTargetPath(targetInfo); } try { if (fs.existsSync(filePath)) { await targetInfo.verify(fs.createReadStream(filePath)); return filePath; } } catch (error) { return; // File not found } return; // File not found } loadLocalMetadata(fileName) { const filePath = path.join(this.dir, `${fileName}.json`); log('READ %s', filePath); return fs.readFileSync(filePath); } // Sequentially load and persist on local disk every newer root metadata // version available on the remote. // Client workflow 5.3: update root role async loadRoot() { // Client workflow 5.3.2: version of trusted root metadata file const rootVersion = this.trustedSet.root.signed.version; const lowerBound = rootVersion + 1; const upperBound = lowerBound + this.config.maxRootRotations; for (let version = lowerBound; version <= upperBound; version++) { const rootUrl = url.join(this.metadataBaseUrl, `${version}.root.json`); try { // Client workflow 5.3.3: download new root metadata file const bytesData = await this.fetcher.downloadBytes(rootUrl, this.config.rootMaxLength); // Client workflow 5.3.4 - 5.4.7 this.trustedSet.updateRoot(bytesData); // Client workflow 5.3.8: persist root metadata file this.persistMetadata(models_1.MetadataKind.Root, bytesData); } catch (error) { break; } } } // Load local and remote timestamp metadata. // Client workflow 5.4: update timestamp role async loadTimestamp({ checkRemote } = { checkRemote: true }) { // Load local and remote timestamp metadata try { const data = this.loadLocalMetadata(models_1.MetadataKind.Timestamp); this.trustedSet.updateTimestamp(data); // If checkRemote is disabled, return here to avoid fetching the remote // timestamp metadata. if (!checkRemote) { return; } } catch (error) { // continue } //Load from remote (whether local load succeeded or not) const timestampUrl = url.join(this.metadataBaseUrl, 'timestamp.json'); // Client workflow 5.4.1: download timestamp metadata file const bytesData = await this.fetcher.downloadBytes(timestampUrl, this.config.timestampMaxLength); try { // Client workflow 5.4.2 - 5.4.4 this.trustedSet.updateTimestamp(bytesData); } catch (error) { // If new timestamp version is same as current, discardd the new one. // This is normal and should NOT raise an error. if (error instanceof error_1.EqualVersionError) { return; } // Re-raise any other error throw error; } // Client workflow 5.4.5: persist timestamp metadata this.persistMetadata(models_1.MetadataKind.Timestamp, bytesData); } // Load local and remote snapshot metadata. // Client workflow 5.5: update snapshot role async loadSnapshot() { //Load local (and if needed remote) snapshot metadata try { const data = this.loadLocalMetadata(models_1.MetadataKind.Snapshot); this.trustedSet.updateSnapshot(data, true); } catch (error) { if (!this.trustedSet.timestamp) { throw new ReferenceError('No timestamp metadata'); } const snapshotMeta = this.trustedSet.timestamp.signed.snapshotMeta; const maxLength = snapshotMeta.length || this.config.snapshotMaxLength; const version = this.trustedSet.root.signed.consistentSnapshot ? snapshotMeta.version : undefined; const snapshotUrl = url.join(this.metadataBaseUrl, version ? `${version}.snapshot.json` : 'snapshot.json'); try { // Client workflow 5.5.1: download snapshot metadata file const bytesData = await this.fetcher.downloadBytes(snapshotUrl, maxLength); // Client workflow 5.5.2 - 5.5.6 this.trustedSet.updateSnapshot(bytesData); // Client workflow 5.5.7: persist snapshot metadata file this.persistMetadata(models_1.MetadataKind.Snapshot, bytesData); } catch (error) { throw new error_1.RuntimeError(`Unable to load snapshot metadata error ${error}`); } } } // Load local and remote targets metadata. // Client workflow 5.6: update targets role async loadTargets(role, parentRole) { if (this.trustedSet.getRole(role)) { return this.trustedSet.getRole(role); } try { const buffer = this.loadLocalMetadata(role); this.trustedSet.updateDelegatedTargets(buffer, role, parentRole); } catch (error) { // Local 'role' does not exist or is invalid: update from remote if (!this.trustedSet.snapshot) { throw new ReferenceError('No snapshot metadata'); } const metaInfo = this.trustedSet.snapshot.signed.meta[`${role}.json`]; // TODO: use length for fetching const maxLength = metaInfo.length || this.config.targetsMaxLength; const version = this.trustedSet.root.signed.consistentSnapshot ? metaInfo.version : undefined; const metadataUrl = url.join(this.metadataBaseUrl, version ? `${version}.${role}.json` : `${role}.json`); try { // Client workflow 5.6.1: download targets metadata file const bytesData = await this.fetcher.downloadBytes(metadataUrl, maxLength); // Client workflow 5.6.2 - 5.6.6 this.trustedSet.updateDelegatedTargets(bytesData, role, parentRole); // Client workflow 5.6.7: persist targets metadata file this.persistMetadata(role, bytesData); } catch (error) { throw new error_1.RuntimeError(`Unable to load targets error ${error}`); } } return this.trustedSet.getRole(role); } async preorderDepthFirstWalk(targetPath) { // Interrogates the tree of target delegations in order of appearance // (which implicitly order trustworthiness), and returns the matching // target found in the most trusted role. // List of delegations to be interrogated. A (role, parent role) pair // is needed to load and verify the delegated targets metadata. const delegationsToVisit = [ { roleName: models_1.MetadataKind.Targets, parentRoleName: models_1.MetadataKind.Root, }, ]; const visitedRoleNames = new Set(); // Client workflow 5.6.7: preorder depth-first traversal of the graph of // target delegations while (visitedRoleNames.size <= this.config.maxDelegations && delegationsToVisit.length > 0) { // Pop the role name from the top of the stack. // eslint-disable-next-line @typescript-eslint/no-non-null-assertion const { roleName, parentRoleName } = delegationsToVisit.pop(); // Skip any visited current role to prevent cycles. // Client workflow 5.6.7.1: skip already-visited roles if (visitedRoleNames.has(roleName)) { continue; } // The metadata for 'role_name' must be downloaded/updated before // its targets, delegations, and child roles can be inspected. const targets = (await this.loadTargets(roleName, parentRoleName)) ?.signed; if (!targets) { continue; } const target = targets.targets?.[targetPath]; if (target) { return target; } // After preorder check, add current role to set of visited roles. visitedRoleNames.add(roleName); if (targets.delegations) { const childRolesToVisit = []; // NOTE: This may be a slow operation if there are many delegated roles. const rolesForTarget = targets.delegations.rolesForTarget(targetPath); for (const { role: childName, terminating } of rolesForTarget) { childRolesToVisit.push({ roleName: childName, parentRoleName: roleName, }); // Client workflow 5.6.7.2.1 if (terminating) { delegationsToVisit.splice(0); // empty the array break; } } childRolesToVisit.reverse(); delegationsToVisit.push(...childRolesToVisit); } } return; // no matching target found } generateTargetPath(targetInfo) { if (!this.targetDir) { throw new error_1.ValueError('Target directory not set'); } // URL encode target path const filePath = encodeURIComponent(targetInfo.path); return path.join(this.targetDir, filePath); } persistMetadata(metaDataName, bytesData) { try { const filePath = path.join(this.dir, `${metaDataName}.json`); log('WRITE %s', filePath); fs.writeFileSync(filePath, bytesData.toString('utf8')); } catch (error) { throw new error_1.PersistError(`Failed to persist metadata ${metaDataName} error: ${error}`); } } } exports.Updater = Updater;