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"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.verifyCertificateChain = void 0; /* Copyright 2023 The Sigstore Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ const error_1 = require("../error"); function verifyCertificateChain(opts) { const verifier = new CertificateChainVerifier(opts); return verifier.verify(); } exports.verifyCertificateChain = verifyCertificateChain; class CertificateChainVerifier { constructor(opts) { this.certs = opts.certs; this.trustedCerts = opts.trustedCerts; this.localCerts = dedupeCertificates([...opts.trustedCerts, ...opts.certs]); this.validAt = opts.validAt || new Date(); } verify() { if (this.certs.length === 0) { throw new error_1.VerificationError('No certificates provided'); } // Construct certificate path from leaf to root const certificatePath = this.sort(); // Perform validation checks on each certificate in the path this.checkPath(certificatePath); // Return verified certificate path return certificatePath; } sort() { const leafCert = this.localCerts[this.localCerts.length - 1]; // Construct all possible paths from the leaf let paths = this.buildPaths(leafCert); // Filter for paths which contain a trusted certificate paths = paths.filter((path) => path.some((cert) => this.trustedCerts.includes(cert))); if (paths.length === 0) { throw new error_1.VerificationError('No trusted certificate path found'); } // Find the shortest of possible paths const path = paths.reduce((prev, curr) => prev.length < curr.length ? prev : curr); // Construct chain from shortest path return [leafCert, ...path]; } // Recursively build all possible paths from the leaf to the root buildPaths(certificate) { const paths = []; const issuers = this.findIssuer(certificate); if (issuers.length === 0) { throw new error_1.VerificationError('No valid certificate path found'); } for (let i = 0; i < issuers.length; i++) { const issuer = issuers[i]; // Base case - issuer is self if (issuer.equals(certificate)) { paths.push([certificate]); continue; } // Recursively build path for the issuer const subPaths = this.buildPaths(issuer); // Construct paths by appending the issuer to each subpath for (let j = 0; j < subPaths.length; j++) { paths.push([issuer, ...subPaths[j]]); } } return paths; } // Return all possible issuers for the given certificate findIssuer(certificate) { let issuers = []; let keyIdentifier; // Exit early if the certificate is self-signed if (certificate.subject.equals(certificate.issuer)) { if (certificate.verify()) { return [certificate]; } } // If the certificate has an authority key identifier, use that // to find the issuer if (certificate.extAuthorityKeyID) { keyIdentifier = certificate.extAuthorityKeyID.keyIdentifier; // TODO: Add support for authorityCertIssuer/authorityCertSerialNumber // though Fulcio doesn't appear to use these } // Find possible issuers by comparing the authorityKeyID/subjectKeyID // or issuer/subject. Potential issuers are added to the result array. this.localCerts.forEach((possibleIssuer) => { if (keyIdentifier) { if (possibleIssuer.extSubjectKeyID) { if (possibleIssuer.extSubjectKeyID.keyIdentifier.equals(keyIdentifier)) { issuers.push(possibleIssuer); } return; } } // Fallback to comparing certificate issuer and subject if // subjectKey/authorityKey extensions are not present if (possibleIssuer.subject.equals(certificate.issuer)) { issuers.push(possibleIssuer); } }); // Remove any issuers which fail to verify the certificate issuers = issuers.filter((issuer) => { try { return certificate.verify(issuer); } catch (ex) { return false; } }); return issuers; } checkPath(path) { if (path.length < 2) { throw new error_1.VerificationError('Certificate chain must contain at least two certificates'); } // Check that all certificates are valid at the check date const validForDate = path.every((cert) => cert.validForDate(this.validAt)); if (!validForDate) { throw new error_1.VerificationError('Certificate is not valid or expired at the specified date'); } // Ensure that all certificates beyond the leaf are CAs const validCAs = path.slice(1).every((cert) => cert.isCA); if (!validCAs) { throw new error_1.VerificationError('Intermediate certificate is not a CA'); } // Certificate's issuer must match the subject of the next certificate // in the chain for (let i = path.length - 2; i >= 0; i--) { if (!path[i].issuer.equals(path[i + 1].subject)) { throw new error_1.VerificationError('Incorrect certificate name chaining'); } } } } // Remove duplicate certificates from the array function dedupeCertificates(certs) { for (let i = 0; i < certs.length; i++) { for (let j = i + 1; j < certs.length; j++) { if (certs[i].equals(certs[j])) { certs.splice(j, 1); j--; } } } return certs; }