(function(return_she) { if (typeof exports === 'object') { module.exports = return_she() } else { window.she = return_she() } })(function() { const crypto = window.crypto || window.msCrypto const MCLBN_CURVE_FP254BNB = 0 const MCLBN_FP_UNIT_SIZE = 4 const MCLBN_FP_SIZE = MCLBN_FP_UNIT_SIZE * 8 const MCLBN_G1_SIZE = MCLBN_FP_SIZE * 3 const MCLBN_G2_SIZE = MCLBN_FP_SIZE * 6 const MCLBN_GT_SIZE = MCLBN_FP_SIZE * 12 const SHE_SECRETKEY_SIZE = MCLBN_FP_SIZE * 2 const SHE_PUBLICKEY_SIZE = MCLBN_G1_SIZE + MCLBN_G2_SIZE const SHE_CIPHERTEXT_G1_SIZE = MCLBN_G1_SIZE * 2 const SHE_CIPHERTEXT_G2_SIZE = MCLBN_G2_SIZE * 2 const SHE_CIPHERTEXT_GT_SIZE = MCLBN_GT_SIZE * 4 let mod = {} let she = {} she.mod = mod const setupWasm = function(fileName, nameSpace, setupFct) { console.log('setupWasm ' + fileName) fetch(fileName) .then(response => response.arrayBuffer()) .then(buffer => new Uint8Array(buffer)) .then(binary => { mod['wasmBinary'] = binary mod['onRuntimeInitialized'] = function() { setupFct(mod, nameSpace) console.log('setupWasm end') } Module(mod) }) return mod } const define_she_extra_functions = function(mod) { const ptrToStr = function(pos, n) { let s = '' for (let i = 0; i < n; i++) { s += String.fromCharCode(mod.HEAP8[pos + i]) } return s } const Uint8ArrayToMem = function(pos, buf) { for (let i = 0; i < buf.length; i++) { mod.HEAP8[pos + i] = buf[i] } } const AsciiStrToMem = function(pos, s) { for (let i = 0; i < s.length; i++) { mod.HEAP8[pos + i] = s.charCodeAt(i) } } const wrap_outputString = function(func, doesReturnString = true) { return function(x, ioMode = 0) { let maxBufSize = 2048 let stack = mod.Runtime.stackSave() let pos = mod.Runtime.stackAlloc(maxBufSize) let n = func(pos, maxBufSize, x, ioMode) if (n < 0) { throw('err gen_str:' + x) } if (doesReturnString) { let s = ptrToStr(pos, n) mod.Runtime.stackRestore(stack) return s } else { let a = new Uint8Array(n) for (let i = 0; i < n; i++) { a[i] = mod.HEAP8[pos + i] } mod.Runtime.stackRestore(stack) return a } } } const wrap_outputArray = function(func) { return wrap_outputString(func, false) } const wrap_input0 = function(func, returnValue = false) { return function(buf, ioMode = 0) { let stack = mod.Runtime.stackSave() let pos = mod.Runtime.stackAlloc(buf.length) if (typeof(buf) == "string") { AsciiStrToMem(pos, buf) } else { Uint8ArrayToMem(pos, buf) } let r = func(pos, buf.length, ioMode) mod.Runtime.stackRestore(stack) if (returnValue) return r if (r) throw('err wrap_input0 ' + buf) } } const wrap_input1 = function(func, returnValue = false) { return function(x1, buf, ioMode = 0) { let stack = mod.Runtime.stackSave() let pos = mod.Runtime.stackAlloc(buf.length) if (typeof(buf) == "string") { AsciiStrToMem(pos, buf) } else { Uint8ArrayToMem(pos, buf) } let r = func(x1, pos, buf.length, ioMode) mod.Runtime.stackRestore(stack) if (returnValue) return r if (r) throw('err wrap_input1 ' + buf) } } const wrap_input2 = function(func, returnValue = false) { return function(x1, x2, buf, ioMode = 0) { let stack = mod.Runtime.stackSave() let pos = mod.Runtime.stackAlloc(buf.length) if (typeof(buf) == "string") { AsciiStrToMem(pos, buf) } else { Uint8ArrayToMem(pos, buf) } let r = func(x1, x2, pos, buf.length, ioMode) mod.Runtime.stackRestore(stack) if (returnValue) return r if (r) throw('err wrap_input2 ' + buf) } } const wrap_dec = function(func) { return function(sec, c) { let stack = mod.Runtime.stackSave() let pos = mod.Runtime.stackAlloc(8) let r = func(pos, sec, c) mod.Runtime.stackRestore(stack) if (r != 0) throw('sheDec') let v = mod.HEAP32[pos / 4] return v } } const copyToUint32Array = function(a, pos) { for (let i = 0; i < a.length; i++) { a[i] = mod.HEAP32[pos / 4 + i] } } const copyFromUint32Array = function(pos, a) { for (let i = 0; i < a.length; i++) { mod.HEAP32[pos / 4 + i] = a[i] } } const callSetter = function(func, a, p1, p2) { let pos = mod._malloc(a.length * 4) func(pos, p1, p2) // p1, p2 may be undefined copyToUint32Array(a, pos) mod._free(pos) } const callGetter = function(func, a, p1, p2) { let pos = mod._malloc(a.length * 4) mod.HEAP32.set(a, pos / 4) let s = func(pos, p1, p2) mod._free(pos) return s } const callModifier = function(func, a, p1, p2) { let pos = mod._malloc(a.length * 4) mod.HEAP32.set(a, pos / 4) func(pos, p1, p2) // p1, p2 may be undefined copyToUint32Array(a, pos) mod._free(pos) } she.toHex = function(a, start, n) { let s = '' for (let i = 0; i < n; i++) { s += ('0' + a[start + i].toString(16)).slice(-2) } return s } she.toHexStr = function(a) { return she.toHex(a, 0, a.length) } const callEnc = function(func, cstr, pub, m) { let c = new cstr() let stack = mod.Runtime.stackSave() let cPos = mod.Runtime.stackAlloc(c.a_.length * 4) let pubPos = mod.Runtime.stackAlloc(pub.length * 4) copyFromUint32Array(pubPos, pub); func(cPos, pubPos, m) copyToUint32Array(c.a_, cPos) mod.Runtime.stackRestore(stack) return c } // return func(x, y) const callAddSub = function(func, cstr, x, y) { let z = new cstr() let stack = mod.Runtime.stackSave() let xPos = mod.Runtime.stackAlloc(x.length * 4) let yPos = mod.Runtime.stackAlloc(y.length * 4) let zPos = mod.Runtime.stackAlloc(z.a_.length * 4) copyFromUint32Array(xPos, x); copyFromUint32Array(yPos, y); func(zPos, xPos, yPos) copyToUint32Array(z.a_, zPos) mod.Runtime.stackRestore(stack) return z } // return func(x, y) const callMulInt = function(func, cstr, x, y) { let z = new cstr() let stack = mod.Runtime.stackSave() let xPos = mod.Runtime.stackAlloc(x.length * 4) let zPos = mod.Runtime.stackAlloc(z.a_.length * 4) copyFromUint32Array(xPos, x); func(zPos, xPos, y) copyToUint32Array(z.a_, zPos) mod.Runtime.stackRestore(stack) return z } // return func(c) const callDec = function(func, sec, c) { let stack = mod.Runtime.stackSave() let secPos = mod.Runtime.stackAlloc(sec.length * 4) let cPos = mod.Runtime.stackAlloc(c.length * 4) copyFromUint32Array(secPos, sec); copyFromUint32Array(cPos, c); let r = func(secPos, cPos) mod.Runtime.stackRestore(stack) return r } // reRand(c) const callReRand = function(func, c, pub) { let stack = mod.Runtime.stackSave() let cPos = mod.Runtime.stackAlloc(c.length * 4) let pubPos = mod.Runtime.stackAlloc(pub.length * 4) copyFromUint32Array(cPos, c); copyFromUint32Array(pubPos, pub); let r = func(cPos, pubPos) copyToUint32Array(c, cPos) mod.Runtime.stackRestore(stack) if (r) throw('callReRand err') } she_free = function(p) { mod._free(p) } sheSecretKey_malloc = function() { return mod._malloc(SHE_SECRETKEY_SIZE) } shePublicKey_malloc = function() { return mod._malloc(SHE_PUBLICKEY_SIZE) } sheCipherTextG2_malloc = function() { return mod._malloc(SHE_CIPHERTEXT_G2_SIZE) } sheCipherTextGT_malloc = function() { return mod._malloc(SHE_CIPHERTEXT_GT_SIZE) } sheCipherTextG1_malloc = function() { return mod._malloc(SHE_CIPHERTEXT_G1_SIZE) } sheSecretKeySerialize = wrap_outputArray(_sheSecretKeySerialize) sheSecretKeyDeserialize = wrap_input1(_sheSecretKeyDeserialize) shePublicKeySerialize = wrap_outputArray(_shePublicKeySerialize) shePublicKeyDeserialize = wrap_input1(_shePublicKeyDeserialize) sheCipherTextG1Serialize = wrap_outputArray(_sheCipherTextG1Serialize) sheCipherTextG1Deserialize = wrap_input1(_sheCipherTextG1Deserialize) sheDecG1 = wrap_dec(_sheDecG1) sheCipherTextG2Serialize = wrap_outputArray(_sheCipherTextG2Serialize) sheCipherTextG2Deserialize = wrap_input1(_sheCipherTextG2Deserialize) sheDecG2 = wrap_dec(_sheDecG2) sheCipherTextGTSerialize = wrap_outputArray(_sheCipherTextGTSerialize) sheCipherTextGTDeserialize = wrap_input1(_sheCipherTextGTDeserialize) sheDecGT = wrap_dec(_sheDecGT) sheInit = function(curveType = MCLBN_CURVE_FP254BNB) { let r = _sheInit(curveType, MCLBN_FP_UNIT_SIZE) console.log('sheInit ' + r) if (r) throw('sheInit') } she.SecretKey = function() { this.a_ = new Uint32Array(SHE_SECRETKEY_SIZE / 4) } she.SecretKey.prototype.serialize = function() { return callGetter(sheSecretKeySerialize, this.a_) } she.SecretKey.prototype.deserialize = function(s) { return callSetter(sheSecretKeyDeserialize, this.a_, s) } she.SecretKey.prototype.dump = function(msg = 'sec ') { console.log(msg + she.toHexStr(this.serialize())) } she.PublicKey = function() { this.a_ = new Uint32Array(SHE_PUBLICKEY_SIZE / 4) } she.PublicKey.prototype.serialize = function() { return callGetter(shePublicKeySerialize, this.a_) } she.PublicKey.prototype.deserialize = function(s) { return callSetter(shePublicKeyDeserialize, this.a_, s) } she.PublicKey.prototype.dump = function(msg = 'pub ') { console.log(msg + she.toHexStr(this.serialize())) } she.CipherTextG1 = function() { this.a_ = new Uint32Array(SHE_CIPHERTEXT_G1_SIZE / 4) } she.CipherTextG1.prototype.serialize = function() { return callGetter(sheCipherTextG1Serialize, this.a_) } she.CipherTextG1.prototype.deserialize = function(s) { return callSetter(sheCipherTextG1Deserialize, this.a_, s) } she.CipherTextG1.prototype.dump = function(msg = 'ct1 ') { console.log(msg + she.toHexStr(this.serialize())) } she.CipherTextG2 = function() { this.a_ = new Uint32Array(SHE_CIPHERTEXT_G2_SIZE / 4) } she.CipherTextG2.prototype.serialize = function() { return callGetter(sheCipherTextG2Serialize, this.a_) } she.CipherTextG2.prototype.deserialize = function(s) { return callSetter(sheCipherTextG2Deserialize, this.a_, s) } she.CipherTextG2.prototype.dump = function(msg = 'ct2 ') { console.log(msg + she.toHexStr(this.serialize())) } she.CipherTextGT = function() { this.a_ = new Uint32Array(SHE_CIPHERTEXT_GT_SIZE / 4) } she.CipherTextGT.prototype.serialize = function() { return callGetter(sheCipherTextGTSerialize, this.a_) } she.CipherTextGT.prototype.deserialize = function(s) { return callSetter(sheCipherTextGTDeserialize, this.a_, s) } she.CipherTextGT.prototype.dump = function(msg = 'ctt ') { console.log(msg + she.toHexStr(this.serialize())) } she.SecretKey.prototype.setByCSPRNG = function() { let stack = mod.Runtime.stackSave() let secPos = mod.Runtime.stackAlloc(this.a_.length * 4) sheSecretKeySetByCSPRNG(secPos) copyToUint32Array(this.a_, secPos) mod.Runtime.stackRestore(stack) } she.SecretKey.prototype.getPublicKey = function() { let pub = new she.PublicKey() let stack = mod.Runtime.stackSave() let secPos = mod.Runtime.stackAlloc(this.a_.length * 4) let pubPos = mod.Runtime.stackAlloc(pub.a_.length * 4) copyFromUint32Array(secPos, this.a_) sheGetPublicKey(pubPos, secPos) copyToUint32Array(pub.a_, pubPos) mod.Runtime.stackRestore(stack) return pub } she.PublicKey.prototype.encG1 = function(m) { return callEnc(sheEnc32G1, she.CipherTextG1, this.a_, m) } she.PublicKey.prototype.encG2 = function(m) { return callEnc(sheEnc32G2, she.CipherTextG2, this.a_, m) } she.PublicKey.prototype.encGT = function(m) { return callEnc(sheEnc32GT, she.CipherTextGT, this.a_, m) } // return x + y she.add = function(x, y) { if (x.a_.length != y.a_.length) throw('she.add:bad type') let add = null let cstr = null if (she.CipherTextG1.prototype.isPrototypeOf(x)) { add = sheAddG1 cstr = she.CipherTextG1 } else if (she.CipherTextG2.prototype.isPrototypeOf(x)) { add = sheAddG2 cstr = she.CipherTextG2 } else if (she.CipherTextGT.prototype.isPrototypeOf(x)) { add = sheAddGT cstr = she.CipherTextGT } else { throw('she.add:not supported') } return callAddSub(add, cstr, x.a_, y.a_) } // return x - y she.sub = function(x, y) { if (x.a_.length != y.a_.length) throw('she.sub:bad type') let sub = null let cstr = null if (she.CipherTextG1.prototype.isPrototypeOf(x)) { sub = sheSubG1 cstr = she.CipherTextG1 } else if (she.CipherTextG2.prototype.isPrototypeOf(x)) { sub = sheSubG2 cstr = she.CipherTextG2 } else if (she.CipherTextGT.prototype.isPrototypeOf(x)) { sub = sheSubGT cstr = she.CipherTextGT } else { throw('she.sub:not supported') } return callAddSub(sub, cstr, x.a_, y.a_) } // return x * (int)y she.mulInt = function(x, y) { let mulInt = null let cstr = null if (she.CipherTextG1.prototype.isPrototypeOf(x)) { mulInt = sheMul32G1 cstr = she.CipherTextG1 } else if (she.CipherTextG2.prototype.isPrototypeOf(x)) { mulInt = sheMul32G2 cstr = she.CipherTextG2 } else if (she.CipherTextGT.prototype.isPrototypeOf(x)) { mulInt = sheMul32GT cstr = she.CipherTextGT } else { throw('she.mulInt:not supported') } return callMulInt(mulInt, cstr, x.a_, y) } // return (G1)x * (G2)y she.mul = function(x, y) { if (!she.CipherTextG1.prototype.isPrototypeOf(x) || !she.CipherTextG2.prototype.isPrototypeOf(y)) throw('she.mul:bad type') let z = new she.CipherTextGT() let stack = mod.Runtime.stackSave() let xPos = mod.Runtime.stackAlloc(x.a_.length * 4) let yPos = mod.Runtime.stackAlloc(y.a_.length * 4) let zPos = mod.Runtime.stackAlloc(z.a_.length * 4) copyFromUint32Array(xPos, x.a_) copyFromUint32Array(yPos, y.a_) sheMul(zPos, xPos, yPos) copyToUint32Array(z.a_, zPos) mod.Runtime.stackRestore(stack) return z } // return dec(c) she.SecretKey.prototype.dec = function(c) { let dec = null if (she.CipherTextG1.prototype.isPrototypeOf(c)) { dec = sheDecG1 } else if (she.CipherTextG2.prototype.isPrototypeOf(c)) { dec = sheDecG2 } else if (she.CipherTextGT.prototype.isPrototypeOf(c)) { dec = sheDecGT } else { throw('she.SecretKey.dec:not supported') } return callDec(dec, this.a_, c.a_) } // rerand(c) she.PublicKey.prototype.reRand = function(c) { let reRand = null if (she.CipherTextG1.prototype.isPrototypeOf(c)) { reRand = sheReRandG1 } else if (she.CipherTextG2.prototype.isPrototypeOf(c)) { reRand = sheReRandG2 } else if (she.CipherTextGT.prototype.isPrototypeOf(c)) { reRand = sheReRandGT } else { throw('she.PublicKey.reRand:not supported') } return callReRand(reRand, c.a_, this.a_) } } she.init = function(range = 1024, tryNum = 1024, callback = null) { setupWasm('mclshe.wasm', null, function(_mod, ns) { mod = _mod define_exported_she(mod) define_she_extra_functions(mod) sheInit() console.log('initializing sheSetRangeForDLP') let r = sheSetRangeForDLP(range, tryNum) console.log('finished ' + r) if (callback) callback() }) } return she })