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import jsigs from 'jsonld-signatures';
import jsonld from 'jsonld';
import { EcdsaSecp256k1VerificationKey2019 } from '@blockcerts/ecdsa-secp256k1-verification-key-2019';
import { EcdsaSecp256k1Signature2019 as Secp256k1VerificationSuite } from '@blockcerts/ecdsa-secp256k1-signature-2019';
import { Suite } from '../models/Suite';
import { VerifierError } from '../models';
import { preloadedContexts } from '../constants';
import { deepCopy } from '../helpers/object';
import { publicKeyBase58FromPublicKeyHex, publicKeyHexFromJwkSecp256k1 } from '../helpers/keyUtils';
import * as inspectors from '../inspectors';
import type { Blockcerts } from '../models/Blockcerts';
import type IVerificationMethod from '../models/VerificationMethod';
import type { Issuer } from '../models/Issuer';
import type VerificationSubstep from '../domain/verifier/valueObjects/VerificationSubstep';
import type { SuiteAPI } from '../models/Suite';
import type { BlockcertsV3, VCProof } from '../models/BlockcertsV3';
import type { IPublicKeyJwk } from '../helpers/keyUtils';
import type { IDidDocument } from '../models/DidDocument';
const { purposes: { AssertionProofPurpose, AuthenticationProofPurpose } } = jsigs;
enum SUB_STEPS {
retrieveVerificationMethodPublicKey = 'retrieveVerificationMethodPublicKey',
ensureVerificationMethodValidity = 'ensureVerificationMethodValidity',
checkDocumentSignature = 'checkDocumentSignature'
}
export default class EcdsaSecp256k1Signature2019 extends Suite {
public verificationProcess = [
SUB_STEPS.retrieveVerificationMethodPublicKey,
SUB_STEPS.ensureVerificationMethodValidity,
SUB_STEPS.checkDocumentSignature
];
public documentToVerify: Blockcerts;
public issuer: Issuer;
public proof: VCProof;
public type = 'EcdsaSecp256k1Signature2019';
public verificationKey: EcdsaSecp256k1VerificationKey2019;
public verificationMethod: IVerificationMethod;
public publicKey: any;
public proofPurpose: string;
public challenge: string;
public domain: string | string[];
private readonly proofPurposeMap: any;
constructor (props: SuiteAPI) {
super(props);
if (props.executeStep) {
this.executeStep = props.executeStep;
}
this.documentToVerify = props.document;
this.issuer = props.issuer;
this.proof = props.proof as VCProof;
this.proofPurpose = props.proofPurpose ?? 'assertionMethod';
this.challenge = props.proofChallenge ?? '';
this.domain = props.proofDomain;
this.proofPurposeMap = {
authentication: AuthenticationProofPurpose,
assertionMethod: AssertionProofPurpose
};
this.validateProofType();
}
async init (): Promise<void> {}
async verifyProof (): Promise<void> {
for (const verificationStep of this.verificationProcess) {
if (!this[verificationStep]) {
console.error('verification logic for', verificationStep, 'not implemented');
return;
}
await this[verificationStep]();
}
}
async verifyIdentity (): Promise<void> {}
getProofVerificationSteps (parentStepKey): VerificationSubstep[] {
// TODO: for now we are relying on i18n from this package, eventually we would want to split it and make this suite
// TODO: standalone
return this.verificationProcess.map(childStepKey =>
domain.verifier.convertToVerificationSubsteps(parentStepKey, childStepKey)
);
}
getIdentityVerificationSteps (): VerificationSubstep[] {
return [];
}
getIssuerPublicKey (): string {
return this.publicKey;
}
getIssuerName (): string {
return this.issuer.name ?? '';
}
getIssuerProfileDomain (): string {
try {
const issuerProfileUrl = new URL(this.getIssuerProfileUrl());
return issuerProfileUrl.hostname ?? '';
} catch (e) {
return '';
}
}
getIssuerProfileUrl (): string {
return this.issuer.id ?? '';
}
getSigningDate (): string {
return this.proof.created;
}
async executeStep (step: string, action, verificationSuite: string): Promise<any> {
throw new Error('doAction method needs to be overwritten by injecting from CVJS');
}
private validateProofType (): void {
const proofType = this.isProofChain() ? this.proof.chainedProofType : this.proof.type;
if (proofType !== this.type) {
throw new Error(`Incompatible proof type passed. Expected: ${this.type}, Got: ${proofType}`);
}
}
private isProofChain (): boolean {
return this.proof.type === 'ChainedProof2021';
}
private generateDocumentLoader (): any {
preloadedContexts[(this.documentToVerify as BlockcertsV3).issuer as string] = this.getTargetVerificationMethodContainer();
const customLoader = function (url): any {
if (url in preloadedContexts) {
return {
contextUrl: null,
document: preloadedContexts[url],
documentUrl: url
};
}
return jsonld.documentLoader(url);
};
return customLoader;
}
private retrieveInitialDocument (): BlockcertsV3 {
const document: BlockcertsV3 = deepCopy<BlockcertsV3>(this.documentToVerify as BlockcertsV3);
if (Array.isArray(document.proof)) {
// TODO: handle case when secp256k1 proof is chained
const initialProof = document.proof.find(p => p.type === this.type);
delete document.proof;
document.proof = initialProof;
}
return document;
}
private getTargetVerificationMethodContainer (): Issuer | IDidDocument {
if (this.issuer.didDocument) {
const verificationMethod = this.findVerificationMethod(
this.issuer.didDocument.verificationMethod, this.issuer.didDocument.id);
if (verificationMethod) {
return this.issuer.didDocument;
}
}
// let's assume the verification method is in the issuer profile and further checks will fail
// if that's not the case
const controller = {
...this.issuer
};
delete controller.didDocument; // not defined in JSONLD for verification
return controller;
}
private findVerificationMethod (verificationMethods: IVerificationMethod[], controller: string): IVerificationMethod {
return verificationMethods.find(
verificationMethod => {
return verificationMethod.id === this.proof.verificationMethod ||
controller + verificationMethod.id === this.proof.verificationMethod;
}) ?? null;
}
private getErrorMessage (verificationStatus): string {
return verificationStatus.error.errors[0].message;
}
private async retrieveVerificationMethodPublicKey (): Promise<void> {
this.verificationKey = await this.executeStep(
SUB_STEPS.retrieveVerificationMethodPublicKey,
async (): Promise<EcdsaSecp256k1VerificationKey2019> => {
this.verificationMethod = inspectors.retrieveVerificationMethodPublicKey(
this.getTargetVerificationMethodContainer(),
this.proof.verificationMethod
);
if (this.verificationMethod.publicKeyJwk && !this.verificationMethod.publicKeyBase58) {
const hexKey = publicKeyHexFromJwkSecp256k1(this.verificationMethod.publicKeyJwk as IPublicKeyJwk);
this.verificationMethod.publicKeyBase58 = publicKeyBase58FromPublicKeyHex(hexKey);
// EcdsaSecp256k1Signature2019 library does not follow DataIntegrityProof spec, some words get dropped
if (this.documentToVerify['@context'].includes('https://www.w3.org/ns/credentials/v2') &&
!this.documentToVerify['@context'].includes('https://w3id.org/security/suites/secp256k1-2019/v1')) {
this.documentToVerify['@context'].push('https://w3id.org/security/suites/secp256k1-2019/v1');
}
}
this.publicKey = this.verificationMethod.publicKeyBase58;
const key = EcdsaSecp256k1VerificationKey2019.from({
...this.verificationMethod as any // old package does not match CID definition of verification method
});
if (!key) {
throw new VerifierError(SUB_STEPS.retrieveVerificationMethodPublicKey, 'Could not derive the verification key');
}
// TODO: revoked property should exist but we are currently using a forked implementation which does not expose it
if ((key as any).revoked) {
throw new VerifierError(SUB_STEPS.retrieveVerificationMethodPublicKey, 'The verification key has been revoked');
}
return key;
},
this.type
);
}
private async ensureVerificationMethodValidity (): Promise<void> {
await this.executeStep(
SUB_STEPS.ensureVerificationMethodValidity,
async (): Promise<void> => {
if (this.verificationMethod.expires) {
const expirationDate = new Date(this.verificationMethod.expires).getTime();
if (expirationDate < Date.now()) {
throw new VerifierError(SUB_STEPS.ensureVerificationMethodValidity, 'The verification key has expired');
}
}
if (this.verificationMethod.revoked) {
// waiting on clarification https://github.com/w3c/cid/issues/152
throw new VerifierError(SUB_STEPS.ensureVerificationMethodValidity, 'The verification key has been revoked');
}
},
this.type
);
}
private async checkDocumentSignature (): Promise<void> {
await this.executeStep(
SUB_STEPS.checkDocumentSignature,
async (): Promise<void> => {
const suite = new Secp256k1VerificationSuite({ key: this.verificationKey });
// TODO: date property should exist but we are currently using a forked implementation which does not expose it
(suite as any).date = new Date(Date.now()).toISOString();
if (this.proofPurpose === 'authentication' && !this.proof.challenge) {
this.proof.challenge = '';
}
const verificationStatus = await jsigs.verify(this.retrieveInitialDocument(), {
suite,
purpose: new this.proofPurposeMap[this.proofPurpose]({
controller: this.getTargetVerificationMethodContainer(),
challenge: this.challenge,
domain: this.domain
}),
documentLoader: this.generateDocumentLoader()
});
if (!verificationStatus.verified) {
console.error(JSON.stringify(verificationStatus, null, 2));
throw new VerifierError(SUB_STEPS.checkDocumentSignature,
`The document's ${this.type} signature could not be confirmed: ${this.getErrorMessage(verificationStatus)}`
);
} else {
console.log('Credential Secp256k1 signature successfully verified');
}
},
this.type
);
}
}
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