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"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.X509SCTExtension = exports.X509SubjectKeyIDExtension = exports.X509AuthorityKeyIDExtension = exports.X509SubjectAlternativeNameExtension = exports.X509KeyUsageExtension = exports.X509BasicConstraintsExtension = exports.X509Extension = void 0;
const stream_1 = require("../stream");
const sct_1 = require("./sct");
// https://www.rfc-editor.org/rfc/rfc5280#section-4.1
class X509Extension {
constructor(asn1) {
this.root = asn1;
}
get oid() {
return this.root.subs[0].toOID();
}
get critical() {
// The critical field is optional and will be the second element of the
// extension sequence if present. Default to false if not present.
return this.root.subs.length === 3 ? this.root.subs[1].toBoolean() : false;
}
get value() {
return this.extnValueObj.value;
}
get valueObj() {
return this.extnValueObj;
}
get extnValueObj() {
// The extnValue field will be the last element of the extension sequence
return this.root.subs[this.root.subs.length - 1];
}
}
exports.X509Extension = X509Extension;
// https://www.rfc-editor.org/rfc/rfc5280#section-4.2.1.9
class X509BasicConstraintsExtension extends X509Extension {
get isCA() {
return this.sequence.subs[0]?.toBoolean() ?? false;
}
get pathLenConstraint() {
return this.sequence.subs.length > 1
? this.sequence.subs[1].toInteger()
: undefined;
}
// The extnValue field contains a single sequence wrapping the isCA and
// pathLenConstraint.
get sequence() {
return this.extnValueObj.subs[0];
}
}
exports.X509BasicConstraintsExtension = X509BasicConstraintsExtension;
// https://www.rfc-editor.org/rfc/rfc5280#section-4.2.1.3
class X509KeyUsageExtension extends X509Extension {
get digitalSignature() {
return this.bitString[0] === 1;
}
get keyCertSign() {
return this.bitString[5] === 1;
}
get crlSign() {
return this.bitString[6] === 1;
}
// The extnValue field contains a single bit string which is a bit mask
// indicating which key usages are enabled.
get bitString() {
return this.extnValueObj.subs[0].toBitString();
}
}
exports.X509KeyUsageExtension = X509KeyUsageExtension;
// https://www.rfc-editor.org/rfc/rfc5280#section-4.2.1.6
class X509SubjectAlternativeNameExtension extends X509Extension {
get rfc822Name() {
return this.findGeneralName(0x01)?.value.toString('ascii');
}
get uri() {
return this.findGeneralName(0x06)?.value.toString('ascii');
}
// Retrieve the value of an otherName with the given OID.
otherName(oid) {
const otherName = this.findGeneralName(0x00);
if (otherName === undefined) {
return undefined;
}
// The otherName is a sequence containing an OID and a value.
// Need to check that the OID matches the one we're looking for.
const otherNameOID = otherName.subs[0].toOID();
if (otherNameOID !== oid) {
return undefined;
}
// The otherNameValue is a sequence containing the actual value.
const otherNameValue = otherName.subs[1];
return otherNameValue.subs[0].value.toString('ascii');
}
findGeneralName(tag) {
return this.generalNames.find((gn) => gn.tag.isContextSpecific(tag));
}
// The extnValue field contains a sequence of GeneralNames.
get generalNames() {
return this.extnValueObj.subs[0].subs;
}
}
exports.X509SubjectAlternativeNameExtension = X509SubjectAlternativeNameExtension;
// https://www.rfc-editor.org/rfc/rfc5280#section-4.2.1.1
class X509AuthorityKeyIDExtension extends X509Extension {
get keyIdentifier() {
return this.findSequenceMember(0x00)?.value;
}
findSequenceMember(tag) {
return this.sequence.subs.find((el) => el.tag.isContextSpecific(tag));
}
// The extnValue field contains a single sequence wrapping the keyIdentifier
get sequence() {
return this.extnValueObj.subs[0];
}
}
exports.X509AuthorityKeyIDExtension = X509AuthorityKeyIDExtension;
// https://www.rfc-editor.org/rfc/rfc5280#section-4.2.1.2
class X509SubjectKeyIDExtension extends X509Extension {
get keyIdentifier() {
return this.extnValueObj.subs[0].value;
}
}
exports.X509SubjectKeyIDExtension = X509SubjectKeyIDExtension;
// https://www.rfc-editor.org/rfc/rfc6962#section-3.3
class X509SCTExtension extends X509Extension {
constructor(asn1) {
super(asn1);
}
get signedCertificateTimestamps() {
const buf = this.extnValueObj.subs[0].value;
const stream = new stream_1.ByteStream(buf);
// The overall list length is encoded in the first two bytes -- note this
// is the length of the list in bytes, NOT the number of SCTs in the list
const end = stream.getUint16() + 2;
const sctList = [];
while (stream.position < end) {
// Read the length of the next SCT
const sctLength = stream.getUint16();
// Slice out the bytes for the next SCT and parse it
const sct = stream.getBlock(sctLength);
sctList.push(sct_1.SignedCertificateTimestamp.parse(sct));
}
if (stream.position !== end) {
throw new Error('SCT list length does not match actual length');
}
return sctList;
}
}
exports.X509SCTExtension = X509SCTExtension;