Fix for latest nan and eccrypto

Fixes #17
This commit is contained in:
Kagami Hiiragi 2015-11-13 21:32:32 +03:00
parent 4c184c2a25
commit 8310ff1a9c
2 changed files with 26 additions and 31 deletions

View File

@ -50,10 +50,10 @@
"bn.js": "^3.0.1",
"bs58": "^2.0.0",
"buffer-equal": "~0.0.1",
"eccrypto": "^1.0.1",
"es6-promise": "^2.0.1",
"eccrypto": "^1.0.3",
"es6-promise": "^3.0.2",
"hash.js": "^1.0.2",
"nan": "^1.4.1",
"nan": "^2.1.0",
"object-assign": "^2.0.0",
"sha.js": "^2.3.1",
"webworkify": "^1.0.1"

View File

@ -13,13 +13,13 @@ using v8::Number;
static const uint64_t MAX_SAFE_INTEGER = 9007199254740991ULL;
class PowWorker : public NanAsyncWorker {
class PowWorker : public Nan::AsyncWorker {
public:
PowWorker(NanCallback* callback,
PowWorker(Nan::Callback* callback,
size_t pool_size,
uint64_t target,
uint8_t* initial_hash)
: NanAsyncWorker(callback),
: Nan::AsyncWorker(callback),
pool_size(pool_size),
target(target),
initial_hash(initial_hash) {}
@ -40,17 +40,16 @@ class PowWorker : public NanAsyncWorker {
// this function will be run inside the main event loop
// so it is safe to use V8 again
void HandleOKCallback () {
NanScope();
if (error) {
Local<Value> argv[1];
if (error == -1) {
argv[0] = NanError("Max safe integer overflow");
argv[0] = Nan::Error("Max safe integer overflow");
} else {
argv[0] = NanError("Internal error");
argv[0] = Nan::Error("Internal error");
}
callback->Call(1, argv);
} else {
Local<Value> argv[] = {NanNull(), NanNew<Number>(nonce)};
Local<Value> argv[] = {Nan::Null(), Nan::New<Number>(nonce)};
callback->Call(2, argv);
}
}
@ -64,39 +63,35 @@ class PowWorker : public NanAsyncWorker {
};
NAN_METHOD(PowAsync) {
NanScope();
if (args.Length() != 4 ||
!args[0]->IsNumber() || // pool_size
!args[1]->IsNumber() || // target
!node::Buffer::HasInstance(args[2]) || // initial_hash
!args[3]->IsFunction()) { // cb
return NanThrowError("Bad input");
if (info.Length() != 4 ||
!info[0]->IsNumber() || // pool_size
!info[1]->IsNumber() || // target
!node::Buffer::HasInstance(info[2]) || // initial_hash
!info[3]->IsFunction()) { // cb
return Nan::ThrowError("Bad input");
}
size_t pool_size = args[0]->Uint32Value();
uint64_t target = args[1]->IntegerValue();
char* buf = node::Buffer::Data(args[2]);
size_t length = node::Buffer::Length(args[2]);
size_t pool_size = info[0]->Uint32Value();
uint64_t target = info[1]->IntegerValue();
char* buf = node::Buffer::Data(info[2]);
size_t length = node::Buffer::Length(info[2]);
if (pool_size < 1 ||
pool_size > MAX_POOL_SIZE ||
buf == NULL ||
length != HASH_SIZE) {
return NanThrowError("Bad input");
return Nan::ThrowError("Bad input");
}
// TODO(Kagami): Do we need to process `std::bad_alloc`?
uint8_t* initial_hash = new uint8_t[length];
memcpy(initial_hash, buf, length);
NanCallback* callback = new NanCallback(args[3].As<Function>());
NanAsyncQueueWorker(new PowWorker(callback, pool_size, target, initial_hash));
NanReturnUndefined();
Nan::Callback* callback = new Nan::Callback(info[3].As<Function>());
Nan::AsyncQueueWorker(
new PowWorker(callback, pool_size, target, initial_hash));
}
void InitAll(Handle<Object> exports) {
exports->Set(
NanNew<String>("powAsync"),
NanNew<FunctionTemplate>(PowAsync)->GetFunction());
NAN_MODULE_INIT(InitAll) {
Nan::Set(target, Nan::New<String>("powAsync").ToLocalChecked(),
Nan::GetFunction(Nan::New<FunctionTemplate>(PowAsync)).ToLocalChecked());
}
NODE_MODULE(worker, InitAll)