"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); var logger_1 = require("@ethersproject/logger"); var _version_1 = require("./_version"); var logger = new logger_1.Logger(_version_1.version); /////////////////////////////// function isHexable(value) { return !!(value.toHexString); } function addSlice(array) { if (array.slice) { return array; } array.slice = function () { var args = Array.prototype.slice.call(arguments); return addSlice(new Uint8Array(Array.prototype.slice.apply(array, args))); }; return array; } function isBytesLike(value) { return ((isHexString(value) && !(value.length % 2)) || isBytes(value)); } exports.isBytesLike = isBytesLike; function isBytes(value) { if (value == null) { return false; } if (value.constructor === Uint8Array) { return true; } if (typeof (value) === "string") { return false; } if (value.length == null) { return false; } for (var i = 0; i < value.length; i++) { var v = value[i]; if (v < 0 || v >= 256 || (v % 1)) { return false; } } return true; } exports.isBytes = isBytes; function arrayify(value, options) { if (!options) { options = {}; } if (typeof (value) === "number") { logger.checkSafeUint53(value, "invalid arrayify value"); var result = []; while (value) { result.unshift(value & 0xff); value /= 256; } if (result.length === 0) { result.push(0); } return addSlice(new Uint8Array(result)); } if (options.allowMissingPrefix && typeof (value) === "string" && value.substring(0, 2) !== "0x") { value = "0x" + value; } if (isHexable(value)) { value = value.toHexString(); } if (isHexString(value)) { var hex = value.substring(2); if (!options.allowOddLength && hex.length % 2) { logger.throwArgumentError("hex data is odd-length", "value", value); } var result = []; for (var i = 0; i < hex.length; i += 2) { result.push(parseInt(hex.substring(i, i + 2), 16)); } return addSlice(new Uint8Array(result)); } if (isBytes(value)) { return addSlice(new Uint8Array(value)); } return logger.throwArgumentError("invalid arrayify value", "value", value); } exports.arrayify = arrayify; function concat(items) { var objects = items.map(function (item) { return arrayify(item); }); var length = objects.reduce(function (accum, item) { return (accum + item.length); }, 0); var result = new Uint8Array(length); objects.reduce(function (offset, object) { result.set(object, offset); return offset + object.length; }, 0); return addSlice(result); } exports.concat = concat; function stripZeros(value) { var result = arrayify(value); if (result.length === 0) { return result; } // Find the first non-zero entry var start = 0; while (start < result.length && result[start] === 0) { start++; } // If we started with zeros, strip them if (start) { result = result.slice(start); } return result; } exports.stripZeros = stripZeros; function zeroPad(value, length) { value = arrayify(value); if (value.length > length) { logger.throwArgumentError("value out of range", "value", arguments[0]); } var result = new Uint8Array(length); result.set(value, length - value.length); return addSlice(result); } exports.zeroPad = zeroPad; function isHexString(value, length) { if (typeof (value) !== "string" || !value.match(/^0x[0-9A-Fa-f]*$/)) { return false; } if (length && value.length !== 2 + 2 * length) { return false; } return true; } exports.isHexString = isHexString; var HexCharacters = "0123456789abcdef"; function hexlify(value, options) { if (!options) { options = {}; } if (typeof (value) === "number") { logger.checkSafeUint53(value, "invalid hexlify value"); var hex = ""; while (value) { hex = HexCharacters[value & 0x0f] + hex; value = Math.floor(value / 16); } if (hex.length) { if (hex.length % 2) { hex = "0" + hex; } return "0x" + hex; } return "0x00"; } if (options.allowMissingPrefix && typeof (value) === "string" && value.substring(0, 2) !== "0x") { value = "0x" + value; } if (isHexable(value)) { return value.toHexString(); } if (isHexString(value)) { if (!options.allowOddLength && value.length % 2) { logger.throwArgumentError("hex data is odd-length", "value", value); } return value.toLowerCase(); } if (isBytes(value)) { var result = "0x"; for (var i = 0; i < value.length; i++) { var v = value[i]; result += HexCharacters[(v & 0xf0) >> 4] + HexCharacters[v & 0x0f]; } return result; } return logger.throwArgumentError("invalid hexlify value", "value", value); } exports.hexlify = hexlify; /* function unoddify(value: BytesLike | Hexable | number): BytesLike | Hexable | number { if (typeof(value) === "string" && value.length % 2 && value.substring(0, 2) === "0x") { return "0x0" + value.substring(2); } return value; } */ function hexDataLength(data) { if (typeof (data) !== "string") { data = hexlify(data); } else if (!isHexString(data) || (data.length % 2)) { return null; } return (data.length - 2) / 2; } exports.hexDataLength = hexDataLength; function hexDataSlice(data, offset, endOffset) { if (typeof (data) !== "string") { data = hexlify(data); } else if (!isHexString(data) || (data.length % 2)) { logger.throwArgumentError("invalid hexData", "value", data); } offset = 2 + 2 * offset; if (endOffset != null) { return "0x" + data.substring(offset, 2 + 2 * endOffset); } return "0x" + data.substring(offset); } exports.hexDataSlice = hexDataSlice; function hexConcat(items) { var result = "0x"; items.forEach(function (item) { result += hexlify(item).substring(2); }); return result; } exports.hexConcat = hexConcat; function hexValue(value) { var trimmed = hexStripZeros(hexlify(value, { allowOddLength: true })); if (trimmed === "0x") { return "0x0"; } return trimmed; } exports.hexValue = hexValue; function hexStripZeros(value) { if (typeof (value) !== "string") { value = hexlify(value); } if (!isHexString(value)) { logger.throwArgumentError("invalid hex string", "value", value); } value = value.substring(2); var offset = 0; while (offset < value.length && value[offset] === "0") { offset++; } return "0x" + value.substring(offset); } exports.hexStripZeros = hexStripZeros; function hexZeroPad(value, length) { if (typeof (value) !== "string") { value = hexlify(value); } else if (!isHexString(value)) { logger.throwArgumentError("invalid hex string", "value", value); } if (value.length > 2 * length + 2) { logger.throwArgumentError("value out of range", "value", arguments[1]); } while (value.length < 2 * length + 2) { value = "0x0" + value.substring(2); } return value; } exports.hexZeroPad = hexZeroPad; function splitSignature(signature) { var result = { r: "0x", s: "0x", _vs: "0x", recoveryParam: 0, v: 0 }; if (isBytesLike(signature)) { var bytes = arrayify(signature); if (bytes.length !== 65) { logger.throwArgumentError("invalid signature string; must be 65 bytes", "signature", signature); } // Get the r and s result.r = hexlify(bytes.slice(0, 32)); result.s = hexlify(bytes.slice(32, 64)); // Reduce v to the canonical 27 or 28 result.v = bytes[64]; if (result.v !== 27 && result.v !== 28) { result.v = 27 + (result.v % 2); } // Compute recoveryParam from v result.recoveryParam = (result.v - 27); // Compute _vs from recoveryParam and s if (result.recoveryParam) { bytes[32] |= 0x80; } result._vs = hexlify(bytes.slice(32, 64)); } else { result.r = signature.r; result.s = signature.s; result.v = signature.v; result.recoveryParam = signature.recoveryParam; result._vs = signature._vs; // Normalize v into a canonical 27 or 28 if (result.v != null && !(result.v == 27 || result.v == 28)) { result.v = 27 + (result.v % 2); } // Populate a missing v or recoveryParam if possible if (result.recoveryParam == null && result.v != null) { result.recoveryParam = 1 - (result.v % 2); } else if (result.recoveryParam != null && result.v == null) { result.v = 27 + result.recoveryParam; } else if (result.recoveryParam != null && result.v != null) { if (result.v !== 27 + result.recoveryParam) { logger.throwArgumentError("signature v mismatch recoveryParam", "signature", signature); } } // Make sure r and s are padded properly if (result.r != null) { result.r = hexZeroPad(result.r, 32); } if (result.s != null) { result.s = hexZeroPad(result.s, 32); } // If the _vs is available, use it to populate missing s, v and recoveryParam // and verify non-missing s, v and recoveryParam if (result._vs != null) { result._vs = hexZeroPad(result._vs, 32); if (result._vs.length > 66) { logger.throwArgumentError("signature _vs overflow", "signature", signature); } var vs = arrayify(result._vs); var recoveryParam = ((vs[0] >= 128) ? 1 : 0); var v = 27 + result.recoveryParam; // Use _vs to compute s vs[0] &= 0x7f; var s = hexlify(vs); // Check _vs aggress with other parameters if (result.s == null) { result.s = s; } else if (result.s !== s) { logger.throwArgumentError("signature v mismatch _vs", "signature", signature); } if (result.v == null) { result.v = v; } else if (result.v !== v) { logger.throwArgumentError("signature v mismatch _vs", "signature", signature); } if (recoveryParam == null) { result.recoveryParam = recoveryParam; } else if (result.recoveryParam !== recoveryParam) { logger.throwArgumentError("signature recoveryParam mismatch _vs", "signature", signature); } } // After all populating, both v and recoveryParam are still missing... if (result.v == null && result.recoveryParam == null) { logger.throwArgumentError("signature requires at least one of recoveryParam, v or _vs", "signature", signature); } // Check for canonical v if (result.v !== 27 && result.v !== 28) { logger.throwArgumentError("signature v not canonical", "signature", signature); } // Check that r and s are in range if (result.r.length > 66 || result.s.length > 66) { logger.throwArgumentError("signature overflow r or s", "signature", signature); } if (result._vs == null) { var vs = arrayify(result.s); if (vs[0] >= 128) { logger.throwArgumentError("signature s out of range", "signature", signature); } if (result.recoveryParam) { vs[0] |= 0x80; } result._vs = hexlify(vs); } } return result; } exports.splitSignature = splitSignature; function joinSignature(signature) { signature = splitSignature(signature); return hexlify(concat([ signature.r, signature.s, (signature.recoveryParam ? "0x1c" : "0x1b") ])); } exports.joinSignature = joinSignature;