'use strict'; var crc32 = require('@aws-crypto/crc32'); var utilHexEncoding = require('@smithy/util-hex-encoding'); class Int64 { bytes; constructor(bytes) { this.bytes = bytes; if (bytes.byteLength !== 8) { throw new Error("Int64 buffers must be exactly 8 bytes"); } } static fromNumber(number) { if (number > 9_223_372_036_854_775_807 || number < -9223372036854776e3) { throw new Error(`${number} is too large (or, if negative, too small) to represent as an Int64`); } const bytes = new Uint8Array(8); for (let i = 7, remaining = Math.abs(Math.round(number)); i > -1 && remaining > 0; i--, remaining /= 256) { bytes[i] = remaining; } if (number < 0) { negate(bytes); } return new Int64(bytes); } valueOf() { const bytes = this.bytes.slice(0); const negative = bytes[0] & 0b10000000; if (negative) { negate(bytes); } return parseInt(utilHexEncoding.toHex(bytes), 16) * (negative ? -1 : 1); } toString() { return String(this.valueOf()); } } function negate(bytes) { for (let i = 0; i < 8; i++) { bytes[i] ^= 0xff; } for (let i = 7; i > -1; i--) { bytes[i]++; if (bytes[i] !== 0) break; } } class HeaderMarshaller { toUtf8; fromUtf8; constructor(toUtf8, fromUtf8) { this.toUtf8 = toUtf8; this.fromUtf8 = fromUtf8; } format(headers) { const chunks = []; for (const headerName of Object.keys(headers)) { const bytes = this.fromUtf8(headerName); chunks.push(Uint8Array.from([bytes.byteLength]), bytes, this.formatHeaderValue(headers[headerName])); } const out = new Uint8Array(chunks.reduce((carry, bytes) => carry + bytes.byteLength, 0)); let position = 0; for (const chunk of chunks) { out.set(chunk, position); position += chunk.byteLength; } return out; } formatHeaderValue(header) { switch (header.type) { case "boolean": return Uint8Array.from([header.value ? 0 : 1]); case "byte": return Uint8Array.from([2, header.value]); case "short": const shortView = new DataView(new ArrayBuffer(3)); shortView.setUint8(0, 3); shortView.setInt16(1, header.value, false); return new Uint8Array(shortView.buffer); case "integer": const intView = new DataView(new ArrayBuffer(5)); intView.setUint8(0, 4); intView.setInt32(1, header.value, false); return new Uint8Array(intView.buffer); case "long": const longBytes = new Uint8Array(9); longBytes[0] = 5; longBytes.set(header.value.bytes, 1); return longBytes; case "binary": const binView = new DataView(new ArrayBuffer(3 + header.value.byteLength)); binView.setUint8(0, 6); binView.setUint16(1, header.value.byteLength, false); const binBytes = new Uint8Array(binView.buffer); binBytes.set(header.value, 3); return binBytes; case "string": const utf8Bytes = this.fromUtf8(header.value); const strView = new DataView(new ArrayBuffer(3 + utf8Bytes.byteLength)); strView.setUint8(0, 7); strView.setUint16(1, utf8Bytes.byteLength, false); const strBytes = new Uint8Array(strView.buffer); strBytes.set(utf8Bytes, 3); return strBytes; case "timestamp": const tsBytes = new Uint8Array(9); tsBytes[0] = 8; tsBytes.set(Int64.fromNumber(header.value.valueOf()).bytes, 1); return tsBytes; case "uuid": if (!UUID_PATTERN.test(header.value)) { throw new Error(`Invalid UUID received: ${header.value}`); } const uuidBytes = new Uint8Array(17); uuidBytes[0] = 9; uuidBytes.set(utilHexEncoding.fromHex(header.value.replace(/\-/g, "")), 1); return uuidBytes; } } parse(headers) { const out = {}; let position = 0; while (position < headers.byteLength) { const nameLength = headers.getUint8(position++); const name = this.toUtf8(new Uint8Array(headers.buffer, headers.byteOffset + position, nameLength)); position += nameLength; switch (headers.getUint8(position++)) { case 0: out[name] = { type: BOOLEAN_TAG, value: true, }; break; case 1: out[name] = { type: BOOLEAN_TAG, value: false, }; break; case 2: out[name] = { type: BYTE_TAG, value: headers.getInt8(position++), }; break; case 3: out[name] = { type: SHORT_TAG, value: headers.getInt16(position, false), }; position += 2; break; case 4: out[name] = { type: INT_TAG, value: headers.getInt32(position, false), }; position += 4; break; case 5: out[name] = { type: LONG_TAG, value: new Int64(new Uint8Array(headers.buffer, headers.byteOffset + position, 8)), }; position += 8; break; case 6: const binaryLength = headers.getUint16(position, false); position += 2; out[name] = { type: BINARY_TAG, value: new Uint8Array(headers.buffer, headers.byteOffset + position, binaryLength), }; position += binaryLength; break; case 7: const stringLength = headers.getUint16(position, false); position += 2; out[name] = { type: STRING_TAG, value: this.toUtf8(new Uint8Array(headers.buffer, headers.byteOffset + position, stringLength)), }; position += stringLength; break; case 8: out[name] = { type: TIMESTAMP_TAG, value: new Date(new Int64(new Uint8Array(headers.buffer, headers.byteOffset + position, 8)).valueOf()), }; position += 8; break; case 9: const uuidBytes = new Uint8Array(headers.buffer, headers.byteOffset + position, 16); position += 16; out[name] = { type: UUID_TAG, value: `${utilHexEncoding.toHex(uuidBytes.subarray(0, 4))}-${utilHexEncoding.toHex(uuidBytes.subarray(4, 6))}-${utilHexEncoding.toHex(uuidBytes.subarray(6, 8))}-${utilHexEncoding.toHex(uuidBytes.subarray(8, 10))}-${utilHexEncoding.toHex(uuidBytes.subarray(10))}`, }; break; default: throw new Error(`Unrecognized header type tag`); } } return out; } } const BOOLEAN_TAG = "boolean"; const BYTE_TAG = "byte"; const SHORT_TAG = "short"; const INT_TAG = "integer"; const LONG_TAG = "long"; const BINARY_TAG = "binary"; const STRING_TAG = "string"; const TIMESTAMP_TAG = "timestamp"; const UUID_TAG = "uuid"; const UUID_PATTERN = /^[a-f0-9]{8}-[a-f0-9]{4}-[a-f0-9]{4}-[a-f0-9]{4}-[a-f0-9]{12}$/; const PRELUDE_MEMBER_LENGTH = 4; const PRELUDE_LENGTH = PRELUDE_MEMBER_LENGTH * 2; const CHECKSUM_LENGTH = 4; const MINIMUM_MESSAGE_LENGTH = PRELUDE_LENGTH + CHECKSUM_LENGTH * 2; function splitMessage({ byteLength, byteOffset, buffer }) { if (byteLength < MINIMUM_MESSAGE_LENGTH) { throw new Error("Provided message too short to accommodate event stream message overhead"); } const view = new DataView(buffer, byteOffset, byteLength); const messageLength = view.getUint32(0, false); if (byteLength !== messageLength) { throw new Error("Reported message length does not match received message length"); } const headerLength = view.getUint32(PRELUDE_MEMBER_LENGTH, false); const expectedPreludeChecksum = view.getUint32(PRELUDE_LENGTH, false); const expectedMessageChecksum = view.getUint32(byteLength - CHECKSUM_LENGTH, false); const checksummer = new crc32.Crc32().update(new Uint8Array(buffer, byteOffset, PRELUDE_LENGTH)); if (expectedPreludeChecksum !== checksummer.digest()) { throw new Error(`The prelude checksum specified in the message (${expectedPreludeChecksum}) does not match the calculated CRC32 checksum (${checksummer.digest()})`); } checksummer.update(new Uint8Array(buffer, byteOffset + PRELUDE_LENGTH, byteLength - (PRELUDE_LENGTH + CHECKSUM_LENGTH))); if (expectedMessageChecksum !== checksummer.digest()) { throw new Error(`The message checksum (${checksummer.digest()}) did not match the expected value of ${expectedMessageChecksum}`); } return { headers: new DataView(buffer, byteOffset + PRELUDE_LENGTH + CHECKSUM_LENGTH, headerLength), body: new Uint8Array(buffer, byteOffset + PRELUDE_LENGTH + CHECKSUM_LENGTH + headerLength, messageLength - headerLength - (PRELUDE_LENGTH + CHECKSUM_LENGTH + CHECKSUM_LENGTH)), }; } class EventStreamCodec { headerMarshaller; messageBuffer; isEndOfStream; constructor(toUtf8, fromUtf8) { this.headerMarshaller = new HeaderMarshaller(toUtf8, fromUtf8); this.messageBuffer = []; this.isEndOfStream = false; } feed(message) { this.messageBuffer.push(this.decode(message)); } endOfStream() { this.isEndOfStream = true; } getMessage() { const message = this.messageBuffer.pop(); const isEndOfStream = this.isEndOfStream; return { getMessage() { return message; }, isEndOfStream() { return isEndOfStream; }, }; } getAvailableMessages() { const messages = this.messageBuffer; this.messageBuffer = []; const isEndOfStream = this.isEndOfStream; return { getMessages() { return messages; }, isEndOfStream() { return isEndOfStream; }, }; } encode({ headers: rawHeaders, body }) { const headers = this.headerMarshaller.format(rawHeaders); const length = headers.byteLength + body.byteLength + 16; const out = new Uint8Array(length); const view = new DataView(out.buffer, out.byteOffset, out.byteLength); const checksum = new crc32.Crc32(); view.setUint32(0, length, false); view.setUint32(4, headers.byteLength, false); view.setUint32(8, checksum.update(out.subarray(0, 8)).digest(), false); out.set(headers, 12); out.set(body, headers.byteLength + 12); view.setUint32(length - 4, checksum.update(out.subarray(8, length - 4)).digest(), false); return out; } decode(message) { const { headers, body } = splitMessage(message); return { headers: this.headerMarshaller.parse(headers), body }; } formatHeaders(rawHeaders) { return this.headerMarshaller.format(rawHeaders); } } class MessageDecoderStream { options; constructor(options) { this.options = options; } [Symbol.asyncIterator]() { return this.asyncIterator(); } async *asyncIterator() { for await (const bytes of this.options.inputStream) { const decoded = this.options.decoder.decode(bytes); yield decoded; } } } class MessageEncoderStream { options; constructor(options) { this.options = options; } [Symbol.asyncIterator]() { return this.asyncIterator(); } async *asyncIterator() { for await (const msg of this.options.messageStream) { const encoded = this.options.encoder.encode(msg); yield encoded; } if (this.options.includeEndFrame) { yield new Uint8Array(0); } } } class SmithyMessageDecoderStream { options; constructor(options) { this.options = options; } [Symbol.asyncIterator]() { return this.asyncIterator(); } async *asyncIterator() { for await (const message of this.options.messageStream) { const deserialized = await this.options.deserializer(message); if (deserialized === undefined) continue; yield deserialized; } } } class SmithyMessageEncoderStream { options; constructor(options) { this.options = options; } [Symbol.asyncIterator]() { return this.asyncIterator(); } async *asyncIterator() { for await (const chunk of this.options.inputStream) { const payloadBuf = this.options.serializer(chunk); yield payloadBuf; } } } exports.EventStreamCodec = EventStreamCodec; exports.HeaderMarshaller = HeaderMarshaller; exports.Int64 = Int64; exports.MessageDecoderStream = MessageDecoderStream; exports.MessageEncoderStream = MessageEncoderStream; exports.SmithyMessageDecoderStream = SmithyMessageDecoderStream; exports.SmithyMessageEncoderStream = SmithyMessageEncoderStream;