/* This file is part of TALER (C) 2015 GNUnet e.V. TALER is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. TALER is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with TALER; see the file COPYING. If not, see */ import { AmountJson } from "./types"; import * as EmscWrapper from "../emscripten/emsc"; /** * High-level interface to emscripten-compiled modules used * by the wallet. * * @author Florian Dold */ "use strict"; // Size of a native pointer. const PTR_SIZE = 4; const GNUNET_OK = 1; const GNUNET_YES = 1; const GNUNET_NO = 0; const GNUNET_SYSERR = -1; let Module = EmscWrapper.Module; let getEmsc: EmscWrapper.EmscFunGen = (...args: any[]) => Module.cwrap.apply( null, args); var emsc = { free: (ptr: number) => Module._free(ptr), get_value: getEmsc('TALER_WR_get_value', 'number', ['number']), get_fraction: getEmsc('TALER_WR_get_fraction', 'number', ['number']), get_currency: getEmsc('TALER_WR_get_currency', 'string', ['number']), amount_add: getEmsc('TALER_amount_add', 'number', ['number', 'number', 'number']), amount_subtract: getEmsc('TALER_amount_subtract', 'number', ['number', 'number', 'number']), amount_normalize: getEmsc('TALER_amount_normalize', 'void', ['number']), amount_get_zero: getEmsc('TALER_amount_get_zero', 'number', ['string', 'number']), amount_cmp: getEmsc('TALER_amount_cmp', 'number', ['number', 'number']), amount_hton: getEmsc('TALER_amount_hton', 'void', ['number', 'number']), amount_ntoh: getEmsc('TALER_amount_ntoh', 'void', ['number', 'number']), hash: getEmsc('GNUNET_CRYPTO_hash', 'void', ['number', 'number', 'number']), memmove: getEmsc('memmove', 'number', ['number', 'number', 'number']), rsa_public_key_free: getEmsc('GNUNET_CRYPTO_rsa_public_key_free', 'void', ['number']), rsa_signature_free: getEmsc('GNUNET_CRYPTO_rsa_signature_free', 'void', ['number']), string_to_data: getEmsc('GNUNET_STRINGS_string_to_data', 'number', ['number', 'number', 'number', 'number']), eddsa_sign: getEmsc('GNUNET_CRYPTO_eddsa_sign', 'number', ['number', 'number', 'number']), eddsa_verify: getEmsc('GNUNET_CRYPTO_eddsa_verify', 'number', ['number', 'number', 'number', 'number']), hash_create_random: getEmsc('GNUNET_CRYPTO_hash_create_random', 'void', ['number', 'number']), rsa_blinding_key_destroy: getEmsc('GNUNET_CRYPTO_rsa_blinding_key_free', 'void', ['number']), random_block: getEmsc('GNUNET_CRYPTO_random_block', 'void', ['number', 'number', 'number']), hash_context_abort: getEmsc('GNUNET_CRYPTO_hash_context_abort', 'void', ['number']), hash_context_read: getEmsc('GNUNET_CRYPTO_hash_context_read', 'void', ['number', 'number', 'number']), hash_context_finish: getEmsc('GNUNET_CRYPTO_hash_context_finish', 'void', ['number', 'number']), }; var emscAlloc = { get_amount: getEmsc('TALER_WRALL_get_amount', 'number', ['number', 'number', 'number', 'string']), eddsa_key_create: getEmsc('GNUNET_CRYPTO_eddsa_key_create', 'number', []), ecdsa_key_create: getEmsc('GNUNET_CRYPTO_ecdsa_key_create', 'number', []), eddsa_public_key_from_private: getEmsc( 'TALER_WRALL_eddsa_public_key_from_private', 'number', ['number']), ecdsa_public_key_from_private: getEmsc( 'TALER_WRALL_ecdsa_public_key_from_private', 'number', ['number']), data_to_string_alloc: getEmsc('GNUNET_STRINGS_data_to_string_alloc', 'number', ['number', 'number']), purpose_create: getEmsc('TALER_WRALL_purpose_create', 'number', ['number', 'number', 'number']), rsa_blind: getEmsc('GNUNET_CRYPTO_rsa_blind', 'number', ['number', 'number', 'number', 'number']), rsa_blinding_key_create: getEmsc('GNUNET_CRYPTO_rsa_blinding_key_create', 'number', ['number']), rsa_blinding_key_encode: getEmsc('GNUNET_CRYPTO_rsa_blinding_key_encode', 'number', ['number', 'number']), rsa_signature_encode: getEmsc('GNUNET_CRYPTO_rsa_signature_encode', 'number', ['number', 'number']), rsa_blinding_key_decode: getEmsc('GNUNET_CRYPTO_rsa_blinding_key_decode', 'number', ['number', 'number']), rsa_public_key_decode: getEmsc('GNUNET_CRYPTO_rsa_public_key_decode', 'number', ['number', 'number']), rsa_signature_decode: getEmsc('GNUNET_CRYPTO_rsa_signature_decode', 'number', ['number', 'number']), rsa_public_key_encode: getEmsc('GNUNET_CRYPTO_rsa_public_key_encode', 'number', ['number', 'number']), rsa_unblind: getEmsc('GNUNET_CRYPTO_rsa_unblind', 'number', ['number', 'number', 'number']), hash_context_start: getEmsc('GNUNET_CRYPTO_hash_context_start', 'number', []), malloc: (size: number) => Module._malloc(size), }; export enum SignaturePurpose { RESERVE_WITHDRAW = 1200, WALLET_COIN_DEPOSIT = 1201, MASTER_DENOMINATION_KEY_VALIDITY = 1025, WALLET_COIN_MELT = 1202, } enum RandomQuality { WEAK = 0, STRONG = 1, NONCE = 2 } interface ArenaObject { destroy(): void; } export class HashContext implements ArenaObject { private hashContextPtr: number | undefined; constructor() { this.hashContextPtr = emscAlloc.hash_context_start(); } read(obj: PackedArenaObject): void { if (!this.hashContextPtr) { throw Error("assertion failed"); } emsc.hash_context_read(this.hashContextPtr, obj.getNative(), obj.size()); } finish(h: HashCode) { if (!this.hashContextPtr) { throw Error("assertion failed"); } h.alloc(); emsc.hash_context_finish(this.hashContextPtr, h.getNative()); } destroy(): void { if (this.hashContextPtr) { emsc.hash_context_abort(this.hashContextPtr); } this.hashContextPtr = undefined; } } abstract class MallocArenaObject implements ArenaObject { protected _nativePtr: number | undefined = undefined; /** * Is this a weak reference to the underlying memory? */ isWeak = false; arena: Arena; abstract destroy(): void; constructor(arena?: Arena) { if (!arena) { if (arenaStack.length == 0) { throw Error("No arena available") } arena = arenaStack[arenaStack.length - 1]; } arena.put(this); this.arena = arena; } getNative(): number { // We want to allow latent allocation // of native wrappers, but we never want to // pass 'undefined' to emscripten. if (this._nativePtr === undefined) { throw Error("Native pointer not initialized"); } return this._nativePtr; } free() { if (this.nativePtr && !this.isWeak) { emsc.free(this.nativePtr); this._nativePtr = undefined; } } alloc(size: number) { if (this._nativePtr !== undefined) { throw Error("Double allocation"); } this.nativePtr = emscAlloc.malloc(size); } setNative(n: number) { if (n === undefined) { throw Error("Native pointer must be a number or null"); } this._nativePtr = n; } set nativePtr(v: number) { this.setNative(v); } get nativePtr() { return this.getNative(); } } interface Arena { put(obj: ArenaObject): void; destroy(): void; } class DefaultArena implements Arena { heap: Array; constructor() { this.heap = []; } put(obj: ArenaObject) { this.heap.push(obj); } destroy() { for (let obj of this.heap) { obj.destroy(); } this.heap = [] } } function mySetTimeout(ms: number, fn: () => void) { // We need to use different timeouts, depending on whether // we run in node or a web extension if ("function" === typeof setTimeout) { setTimeout(fn, ms); } else { chrome.extension.getBackgroundPage().setTimeout(fn, ms); } } /** * Arena that destroys all its objects once control has returned to the message * loop and a small interval has passed. */ class SyncArena extends DefaultArena { private isScheduled: boolean; constructor() { super(); } pub(obj: MallocArenaObject) { super.put(obj); if (!this.isScheduled) { this.schedule(); } this.heap.push(obj); } destroy() { super.destroy(); } private schedule() { this.isScheduled = true; mySetTimeout(50, () => { this.isScheduled = false; this.destroy(); }); } } let arenaStack: Arena[] = []; arenaStack.push(new SyncArena()); export class Amount extends MallocArenaObject { constructor(args?: AmountJson, arena?: Arena) { super(arena); if (args) { this.nativePtr = emscAlloc.get_amount(args.value, 0, args.fraction, args.currency); } else { this.nativePtr = emscAlloc.get_amount(0, 0, 0, ""); } } destroy() { super.free(); } static getZero(currency: string, a?: Arena): Amount { let am = new Amount(undefined, a); let r = emsc.amount_get_zero(currency, am.getNative()); if (r != GNUNET_OK) { throw Error("invalid currency"); } return am; } toNbo(a?: Arena): AmountNbo { let x = new AmountNbo(a); x.alloc(); emsc.amount_hton(x.nativePtr, this.nativePtr); return x; } fromNbo(nbo: AmountNbo): void { emsc.amount_ntoh(this.nativePtr, nbo.nativePtr); } get value() { return emsc.get_value(this.nativePtr); } get fraction() { return emsc.get_fraction(this.nativePtr); } get currency(): String { return emsc.get_currency(this.nativePtr); } toJson(): AmountJson { return { value: emsc.get_value(this.nativePtr), fraction: emsc.get_fraction(this.nativePtr), currency: emsc.get_currency(this.nativePtr) }; } /** * Add an amount to this amount. */ add(a: Amount) { let res = emsc.amount_add(this.nativePtr, a.nativePtr, this.nativePtr); if (res < 1) { // Overflow return false; } return true; } /** * Perform saturating subtraction on amounts. */ sub(a: Amount) { // this = this - a let res = emsc.amount_subtract(this.nativePtr, this.nativePtr, a.nativePtr); if (res == 0) { // Underflow return false; } if (res > 0) { return true; } throw Error("Incompatible currencies"); } cmp(a: Amount) { // If we don't check this, the c code aborts. if (this.currency !== a.currency) { throw Error(`incomparable currencies (${this.currency} and ${a.currency})`); } return emsc.amount_cmp(this.nativePtr, a.nativePtr); } normalize() { emsc.amount_normalize(this.nativePtr); } } /** * Count the UTF-8 characters in a JavaScript string. */ function countUtf8Bytes(str: string): number { var s = str.length; // JavaScript strings are UTF-16 arrays for (let i = str.length - 1; i >= 0; i--) { var code = str.charCodeAt(i); if (code > 0x7f && code <= 0x7ff) { // We need an extra byte in utf-8 here s++; } else if (code > 0x7ff && code <= 0xffff) { // We need two extra bytes in utf-8 here s += 2; } // Skip over the other surrogate if (code >= 0xDC00 && code <= 0xDFFF) { i--; } } return s; } /** * Managed reference to a contiguous block of memory in the Emscripten heap. * Should contain only data, not pointers. */ abstract class PackedArenaObject extends MallocArenaObject { abstract size(): number; constructor(a?: Arena) { super(a); } randomize(qual: RandomQuality = RandomQuality.STRONG): void { emsc.random_block(qual, this.nativePtr, this.size()); } toCrock(): string { var d = emscAlloc.data_to_string_alloc(this.nativePtr, this.size()); var s = Module.Pointer_stringify(d); emsc.free(d); return s; } toJson(): any { // Per default, the json encoding of // packed arena objects is just the crockford encoding. // Subclasses typically want to override this. return this.toCrock(); } loadCrock(s: string) { this.alloc(); // We need to get the javascript string // to the emscripten heap first. let buf = ByteArray.fromString(s); let res = emsc.string_to_data(buf.nativePtr, s.length, this.nativePtr, this.size()); buf.destroy(); if (res < 1) { throw { error: "wrong encoding" }; } } alloc() { // FIXME: should the client be allowed to call alloc multiple times? if (!this._nativePtr) { this.nativePtr = emscAlloc.malloc(this.size()); } } destroy() { emsc.free(this.nativePtr); this.nativePtr = 0; } hash(): HashCode { var x = new HashCode(); x.alloc(); emsc.hash(this.nativePtr, this.size(), x.nativePtr); return x; } hexdump() { let bytes: string[] = []; for (let i = 0; i < this.size(); i++) { let b = Module.getValue(this.getNative() + i, "i8"); b = (b + 256) % 256; bytes.push("0".concat(b.toString(16)).slice(-2)); } let lines: string[] = []; for (let i = 0; i < bytes.length; i += 8) { lines.push(bytes.slice(i, i + 8).join(",")); } return lines.join("\n"); } } export class AmountNbo extends PackedArenaObject { size() { return 24; } toJson(): any { let a = new DefaultArena(); let am = new Amount(undefined, a); am.fromNbo(this); let json = am.toJson(); a.destroy(); return json; } } export class EddsaPrivateKey extends PackedArenaObject { static create(a?: Arena): EddsaPrivateKey { let obj = new EddsaPrivateKey(a); obj.nativePtr = emscAlloc.eddsa_key_create(); return obj; } size() { return 32; } getPublicKey(a?: Arena): EddsaPublicKey { let obj = new EddsaPublicKey(a); obj.nativePtr = emscAlloc.eddsa_public_key_from_private(this.nativePtr); return obj; } static fromCrock: (s: string) => EddsaPrivateKey; } mixinStatic(EddsaPrivateKey, fromCrock); export class EcdsaPrivateKey extends PackedArenaObject { static create(a?: Arena): EcdsaPrivateKey { let obj = new EcdsaPrivateKey(a); obj.nativePtr = emscAlloc.ecdsa_key_create(); return obj; } size() { return 32; } getPublicKey(a?: Arena): EcdsaPublicKey { let obj = new EcdsaPublicKey(a); obj.nativePtr = emscAlloc.ecdsa_public_key_from_private(this.nativePtr); return obj; } static fromCrock: (s: string) => EcdsaPrivateKey; } mixinStatic(EcdsaPrivateKey, fromCrock); function fromCrock(s: string) { let x = new this(); x.alloc(); x.loadCrock(s); return x; } function mixin(obj: any, method: any, name?: string) { if (!name) { name = method.name; } if (!name) { throw Error("Mixin needs a name."); } obj.prototype[method.name] = method; } function mixinStatic(obj: any, method: any, name?: string) { if (!name) { name = method.name; } if (!name) { throw Error("Mixin needs a name."); } obj[method.name] = method; } export class EddsaPublicKey extends PackedArenaObject { size() { return 32; } static fromCrock: (s: string) => EddsaPublicKey; } mixinStatic(EddsaPublicKey, fromCrock); export class EcdsaPublicKey extends PackedArenaObject { size() { return 32; } static fromCrock: (s: string) => EcdsaPublicKey; } mixinStatic(EddsaPublicKey, fromCrock); function makeFromCrock(decodeFn: (p: number, s: number) => number) { function fromCrock(s: string, a?: Arena) { let obj = new this(a); let buf = ByteArray.fromCrock(s); obj.setNative(decodeFn(buf.getNative(), buf.size())); buf.destroy(); return obj; } return fromCrock; } function makeToCrock(encodeFn: (po: number, ps: number) => number): () => string { function toCrock() { let ptr = emscAlloc.malloc(PTR_SIZE); let size = emscAlloc.rsa_blinding_key_encode(this.nativePtr, ptr); let res = new ByteArray(size, Module.getValue(ptr, '*')); let s = res.toCrock(); emsc.free(ptr); res.destroy(); return s; } return toCrock; } export class RsaBlindingKeySecret extends PackedArenaObject { size() { return 32; } /** * Create a random blinding key secret. */ static create(a?: Arena): RsaBlindingKeySecret { let o = new RsaBlindingKeySecret(a); o.alloc(); o.randomize(); return o; } static fromCrock: (s: string) => RsaBlindingKeySecret; } mixinStatic(RsaBlindingKeySecret, fromCrock); export class HashCode extends PackedArenaObject { size() { return 64; } static fromCrock: (s: string) => HashCode; random(qual: RandomQuality = RandomQuality.STRONG) { this.alloc(); emsc.hash_create_random(qual, this.nativePtr); } } mixinStatic(HashCode, fromCrock); export class ByteArray extends PackedArenaObject { private allocatedSize: number; size() { return this.allocatedSize; } constructor(desiredSize: number, init?: number, a?: Arena) { super(a); if (init === undefined) { this.nativePtr = emscAlloc.malloc(desiredSize); } else { this.nativePtr = init; } this.allocatedSize = desiredSize; } static fromString(s: string, a?: Arena): ByteArray { // UTF-8 bytes, including 0-terminator let terminatedByteLength = countUtf8Bytes(s) + 1; let hstr = emscAlloc.malloc(terminatedByteLength); Module.stringToUTF8(s, hstr, terminatedByteLength); return new ByteArray(terminatedByteLength, hstr, a); } static fromCrock(s: string, a?: Arena): ByteArray { let byteLength = countUtf8Bytes(s); let hstr = emscAlloc.malloc(byteLength + 1); Module.stringToUTF8(s, hstr, byteLength + 1); let decodedLen = Math.floor((byteLength * 5) / 8); let ba = new ByteArray(decodedLen, undefined, a); let res = emsc.string_to_data(hstr, byteLength, ba.nativePtr, decodedLen); emsc.free(hstr); if (res != GNUNET_OK) { throw Error("decoding failed"); } return ba; } } export class EccSignaturePurpose extends PackedArenaObject { size() { return this.payloadSize + 8; } payloadSize: number; constructor(purpose: SignaturePurpose, payload: PackedArenaObject, a?: Arena) { super(a); this.nativePtr = emscAlloc.purpose_create(purpose, payload.nativePtr, payload.size()); this.payloadSize = payload.size(); } } abstract class SignatureStruct { abstract fieldTypes(): Array; abstract purpose(): SignaturePurpose; private members: any = {}; constructor(x: { [name: string]: any }) { for (let k in x) { this.set(k, x[k]); } } toPurpose(a?: Arena): EccSignaturePurpose { let totalSize = 0; for (let f of this.fieldTypes()) { let name = f[0]; let member = this.members[name]; if (!member) { throw Error(`Member ${name} not set`); } totalSize += member.size(); } let buf = emscAlloc.malloc(totalSize); let ptr = buf; for (let f of this.fieldTypes()) { let name = f[0]; let member = this.members[name]; let size = member.size(); emsc.memmove(ptr, member.nativePtr, size); ptr += size; } let ba = new ByteArray(totalSize, buf, a); return new EccSignaturePurpose(this.purpose(), ba); } toJson() { let res: any = {}; for (let f of this.fieldTypes()) { let name = f[0]; let member = this.members[name]; if (!member) { throw Error(`Member ${name} not set`); } res[name] = member.toJson(); } res["purpose"] = this.purpose(); return res; } protected set(name: string, value: PackedArenaObject) { let typemap: any = {}; for (let f of this.fieldTypes()) { typemap[f[0]] = f[1]; } if (!(name in typemap)) { throw Error(`Key ${name} not found`); } if (!(value instanceof typemap[name])) { throw Error("Wrong type for ${name}"); } this.members[name] = value; } } // It's redundant, but more type safe. export interface WithdrawRequestPS_Args { reserve_pub: EddsaPublicKey; amount_with_fee: AmountNbo; withdraw_fee: AmountNbo; h_denomination_pub: HashCode; h_coin_envelope: HashCode; } export class WithdrawRequestPS extends SignatureStruct { constructor(w: WithdrawRequestPS_Args) { super(w); } purpose() { return SignaturePurpose.RESERVE_WITHDRAW; } fieldTypes() { return [ ["reserve_pub", EddsaPublicKey], ["amount_with_fee", AmountNbo], ["withdraw_fee", AmountNbo], ["h_denomination_pub", HashCode], ["h_coin_envelope", HashCode] ]; } } interface RefreshMeltCoinAffirmationPS_Args { session_hash: HashCode; amount_with_fee: AmountNbo; melt_fee: AmountNbo; coin_pub: EddsaPublicKey; } export class RefreshMeltCoinAffirmationPS extends SignatureStruct { constructor(w: RefreshMeltCoinAffirmationPS_Args) { super(w); } purpose() { return SignaturePurpose.WALLET_COIN_MELT; } fieldTypes() { return [ ["session_hash", HashCode], ["amount_with_fee", AmountNbo], ["melt_fee", AmountNbo], ["coin_pub", EddsaPublicKey] ]; } } export class AbsoluteTimeNbo extends PackedArenaObject { static fromTalerString(s: string): AbsoluteTimeNbo { let x = new AbsoluteTimeNbo(); x.alloc(); let r = /Date\(([0-9]+)\)/; let m = r.exec(s); if (!m || m.length != 2) { throw Error(); } let n = parseInt(m[1]) * 1000000; // XXX: This only works up to 54 bit numbers. set64(x.getNative(), n); return x; } size() { return 8; } } // XXX: This only works up to 54 bit numbers. function set64(p: number, n: number) { for (let i = 0; i < 8; ++i) { Module.setValue(p + (7 - i), n & 0xFF, "i8"); n = Math.floor(n / 256); } } // XXX: This only works up to 54 bit numbers. function set32(p: number, n: number) { for (let i = 0; i < 4; ++i) { Module.setValue(p + (3 - i), n & 0xFF, "i8"); n = Math.floor(n / 256); } } export class UInt64 extends PackedArenaObject { static fromNumber(n: number): UInt64 { let x = new UInt64(); x.alloc(); set64(x.getNative(), n); return x; } size() { return 8; } } export class UInt32 extends PackedArenaObject { static fromNumber(n: number): UInt64 { let x = new UInt32(); x.alloc(); set32(x.getNative(), n); return x; } size() { return 8; } } // It's redundant, but more type safe. export interface DepositRequestPS_Args { h_contract: HashCode; h_wire: HashCode; timestamp: AbsoluteTimeNbo; refund_deadline: AbsoluteTimeNbo; transaction_id: UInt64; amount_with_fee: AmountNbo; deposit_fee: AmountNbo; merchant: EddsaPublicKey; coin_pub: EddsaPublicKey; } export class DepositRequestPS extends SignatureStruct { constructor(w: DepositRequestPS_Args) { super(w); } purpose() { return SignaturePurpose.WALLET_COIN_DEPOSIT; } fieldTypes() { return [ ["h_contract", HashCode], ["h_wire", HashCode], ["timestamp", AbsoluteTimeNbo], ["refund_deadline", AbsoluteTimeNbo], ["transaction_id", UInt64], ["amount_with_fee", AmountNbo], ["deposit_fee", AmountNbo], ["merchant", EddsaPublicKey], ["coin_pub", EddsaPublicKey], ]; } } export interface DenominationKeyValidityPS_args { master: EddsaPublicKey; start: AbsoluteTimeNbo; expire_withdraw: AbsoluteTimeNbo; expire_spend: AbsoluteTimeNbo; expire_legal: AbsoluteTimeNbo; value: AmountNbo; fee_withdraw: AmountNbo; fee_deposit: AmountNbo; fee_refresh: AmountNbo; fee_refund: AmountNbo; denom_hash: HashCode; } export class DenominationKeyValidityPS extends SignatureStruct { constructor(w: DenominationKeyValidityPS_args) { super(w); } purpose() { return SignaturePurpose.MASTER_DENOMINATION_KEY_VALIDITY; } fieldTypes() { return [ ["master", EddsaPublicKey], ["start", AbsoluteTimeNbo], ["expire_withdraw", AbsoluteTimeNbo], ["expire_spend", AbsoluteTimeNbo], ["expire_legal", AbsoluteTimeNbo], ["value", AmountNbo], ["fee_withdraw", AmountNbo], ["fee_deposit", AmountNbo], ["fee_refresh", AmountNbo], ["fee_refund", AmountNbo], ["denom_hash", HashCode] ]; } } interface Encodeable { encode(arena?: Arena): ByteArray; } function makeEncode(encodeFn: any) { function encode(arena?: Arena) { let ptr = emscAlloc.malloc(PTR_SIZE); let len = encodeFn(this.getNative(), ptr); let res = new ByteArray(len, undefined, arena); res.setNative(Module.getValue(ptr, '*')); emsc.free(ptr); return res; } return encode; } export class RsaPublicKey extends MallocArenaObject implements Encodeable { static fromCrock: (s: string, a?: Arena) => RsaPublicKey; toCrock() { return this.encode().toCrock(); } destroy() { emsc.rsa_public_key_free(this.nativePtr); this.nativePtr = 0; } encode: (arena?: Arena) => ByteArray; } mixinStatic(RsaPublicKey, makeFromCrock(emscAlloc.rsa_public_key_decode)); mixin(RsaPublicKey, makeEncode(emscAlloc.rsa_public_key_encode)); export class EddsaSignature extends PackedArenaObject { size() { return 64; } } export class RsaSignature extends MallocArenaObject implements Encodeable { static fromCrock: (s: string, a?: Arena) => RsaSignature; encode: (arena?: Arena) => ByteArray; destroy() { emsc.rsa_signature_free(this.getNative()); this.setNative(0); } } mixinStatic(RsaSignature, makeFromCrock(emscAlloc.rsa_signature_decode)); mixin(RsaSignature, makeEncode(emscAlloc.rsa_signature_encode)); export function rsaBlind(hashCode: HashCode, blindingKey: RsaBlindingKeySecret, pkey: RsaPublicKey, arena?: Arena): ByteArray { let ptr = emscAlloc.malloc(PTR_SIZE); let s = emscAlloc.rsa_blind(hashCode.nativePtr, blindingKey.nativePtr, pkey.nativePtr, ptr); return new ByteArray(s, Module.getValue(ptr, '*'), arena); } export function eddsaSign(purpose: EccSignaturePurpose, priv: EddsaPrivateKey, a?: Arena): EddsaSignature { let sig = new EddsaSignature(a); sig.alloc(); let res = emsc.eddsa_sign(priv.nativePtr, purpose.nativePtr, sig.nativePtr); if (res < 1) { throw Error("EdDSA signing failed"); } return sig; } export function eddsaVerify(purposeNum: number, verify: EccSignaturePurpose, sig: EddsaSignature, pub: EddsaPublicKey, a?: Arena): boolean { let r = emsc.eddsa_verify(purposeNum, verify.nativePtr, sig.nativePtr, pub.nativePtr); if (r === GNUNET_OK) { return true; } return false; } export function rsaUnblind(sig: RsaSignature, bk: RsaBlindingKeySecret, pk: RsaPublicKey, a?: Arena): RsaSignature { let x = new RsaSignature(a); x.nativePtr = emscAlloc.rsa_unblind(sig.nativePtr, bk.nativePtr, pk.nativePtr); return x; } type TransferSecretP = HashCode; export function kdf(outLength: number, salt: PackedArenaObject, skm: PackedArenaObject, ...contextChunks: PackedArenaObject[]): ByteArray { const args: number[] = []; let out = new ByteArray(outLength); args.push(out.nativePtr, outLength); args.push(salt.nativePtr, salt.size()); args.push(skm.nativePtr, skm.size()); for (let chunk of contextChunks) { args.push(chunk.nativePtr, chunk.size()); } // end terminator (it's varargs) args.push(0); args.push(0); let argTypes = args.map(() => "number"); const res = Module.ccall("GNUNET_CRYPTO_kdf", "number", argTypes, args); if (res != GNUNET_OK) { throw Error("fatal: kdf failed"); } return out; } export interface FreshCoin { priv: EddsaPrivateKey; blindingKey: RsaBlindingKeySecret; } export function setupFreshCoin(secretSeed: TransferSecretP, coinIndex: number): FreshCoin { let priv = new EddsaPrivateKey(); priv.isWeak = true; let blindingKey = new RsaBlindingKeySecret(); blindingKey.isWeak = true; let buf = kdf(priv.size() + blindingKey.size(), UInt32.fromNumber(coinIndex), ByteArray.fromString("taler-coin-derivation")); priv.nativePtr = buf.nativePtr; blindingKey.nativePtr = buf.nativePtr + priv.size(); return { priv, blindingKey }; }