a portable and fast pairing-based cryptography library
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mcl/docs/demo/she.js

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6.2 KiB

function setupWasm(fileName, nameSpace, setupFct) {
console.log('setupWasm ' + fileName)
let mod = {}
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 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
//SheSecretKey = function() {
// this.a_ = new Uint8Array(
//}
function define_she_extra_functions(mod) {
ptrToStr = function(pos, n) {
let s = ''
for (let i = 0; i < n; i++) {
s += String.fromCharCode(mod.HEAP8[pos + i])
}
return s
}
Uint8ArrayToMem = function(pos, buf) {
for (let i = 0; i < buf.length; i++) {
mod.HEAP8[pos + i] = buf[i]
}
}
AsciiStrToMem = function(pos, s) {
for (let i = 0; i < s.length; i++) {
mod.HEAP8[pos + i] = s.charCodeAt(i)
}
}
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
}
}
}
wrap_outputArray = function(func) {
return wrap_outputString(func, false)
}
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)
}
}
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)
}
}
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)
}
}
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
}
}
let crypto = window.crypto || window.msCrypto
let copyToUint32Array = function(a, pos) {
for (let i = 0; i < a.length; i++) {
a[i] = mod.HEAP32[pos / 4 + i]
}
}
let copyFromUint32Array = function(pos, a) {
for (let i = 0; i < a.length; i++) {
mod.HEAP32[pos / 4 + i] = a[i]
}
}
let 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)
}
let 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
}
let 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_free = function(p) {
mod._free(p)
}
///////////////////////////////////////////////////////////////
sheSecretKey_malloc = function() {
return mod._malloc(SHE_SECRETKEY_SIZE)
}
sheSecretKeySerialize = wrap_outputArray(_sheSecretKeySerialize)
sheSecretKeyDeserialize = wrap_input1(_sheSecretKeyDeserialize)
///////////////////////////////////////////////////////////////
shePublicKey_malloc = function() {
return mod._malloc(SHE_PUBLICKEY_SIZE)
}
shePublicKeySerialize = wrap_outputArray(_shePublicKeySerialize)
shePublicKeyDeserialize = wrap_input1(_shePublicKeyDeserialize)
///////////////////////////////////////////////////////////////
sheCipherTextG1_malloc = function() {
return mod._malloc(SHE_CIPHERTEXT_G1_SIZE)
}
sheCipherTextG1Serialize = wrap_outputArray(_sheCipherTextG1Serialize)
sheCipherTextG1Deserialize = wrap_input1(_sheCipherTextG1Deserialize)
sheDecG1 = wrap_dec(_sheDecG1)
///////////////////////////////////////////////////////////////
sheCipherTextG2_malloc = function() {
return mod._malloc(SHE_CIPHERTEXT_G2_SIZE)
}
sheCipherTextG2Serialize = wrap_outputArray(_sheCipherTextG2Serialize)
sheCipherTextG2Deserialize = wrap_input1(_sheCipherTextG2Deserialize)
///////////////////////////////////////////////////////////////
sheCipherTextGT_malloc = function() {
return mod._malloc(SHE_CIPHERTEXT_GT_SIZE)
}
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')
// r = sheSetRangeForGTDLP(128, 1024)
}
}