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|
/*
*
* Copyright 2015-2016, Google Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <memory>
#include <vector>
#include <map>
#include <node.h>
#include "grpc/support/log.h"
#include "grpc/grpc.h"
#include "grpc/grpc_security.h"
#include "grpc/support/alloc.h"
#include "grpc/support/time.h"
#include "byte_buffer.h"
#include "call.h"
#include "channel.h"
#include "completion_queue_async_worker.h"
#include "call_credentials.h"
#include "timeval.h"
using std::unique_ptr;
using std::shared_ptr;
using std::vector;
namespace grpc {
namespace node {
using Nan::Callback;
using Nan::EscapableHandleScope;
using Nan::HandleScope;
using Nan::Maybe;
using Nan::MaybeLocal;
using Nan::ObjectWrap;
using Nan::Persistent;
using Nan::Utf8String;
using v8::Array;
using v8::Boolean;
using v8::Exception;
using v8::External;
using v8::Function;
using v8::FunctionTemplate;
using v8::Integer;
using v8::Local;
using v8::Number;
using v8::Object;
using v8::ObjectTemplate;
using v8::Uint32;
using v8::String;
using v8::Value;
Callback *Call::constructor;
Persistent<FunctionTemplate> Call::fun_tpl;
/**
* Helper function for throwing errors with a grpc_call_error value.
* Modified from the answer by Gus Goose to
* http://stackoverflow.com/questions/31794200.
*/
Local<Value> nanErrorWithCode(const char *msg, grpc_call_error code) {
EscapableHandleScope scope;
Local<Object> err = Nan::Error(msg).As<Object>();
Nan::Set(err, Nan::New("code").ToLocalChecked(), Nan::New<Uint32>(code));
return scope.Escape(err);
}
bool CreateMetadataArray(Local<Object> metadata, grpc_metadata_array *array,
shared_ptr<Resources> resources) {
HandleScope scope;
grpc_metadata_array_init(array);
Local<Array> keys = Nan::GetOwnPropertyNames(metadata).ToLocalChecked();
for (unsigned int i = 0; i < keys->Length(); i++) {
Local<String> current_key = Nan::To<String>(
Nan::Get(keys, i).ToLocalChecked()).ToLocalChecked();
Local<Value> value_array = Nan::Get(metadata, current_key).ToLocalChecked();
if (!value_array->IsArray()) {
return false;
}
array->capacity += Local<Array>::Cast(value_array)->Length();
}
array->metadata = reinterpret_cast<grpc_metadata*>(
gpr_malloc(array->capacity * sizeof(grpc_metadata)));
for (unsigned int i = 0; i < keys->Length(); i++) {
Local<String> current_key(keys->Get(i)->ToString());
Utf8String *utf8_key = new Utf8String(current_key);
resources->strings.push_back(unique_ptr<Utf8String>(utf8_key));
Local<Array> values = Local<Array>::Cast(
Nan::Get(metadata, current_key).ToLocalChecked());
for (unsigned int j = 0; j < values->Length(); j++) {
Local<Value> value = Nan::Get(values, j).ToLocalChecked();
grpc_metadata *current = &array->metadata[array->count];
current->key = **utf8_key;
// Only allow binary headers for "-bin" keys
if (grpc_is_binary_header(current->key, strlen(current->key))) {
if (::node::Buffer::HasInstance(value)) {
current->value = ::node::Buffer::Data(value);
current->value_length = ::node::Buffer::Length(value);
PersistentValue *handle = new PersistentValue(value);
resources->handles.push_back(unique_ptr<PersistentValue>(handle));
} else {
return false;
}
} else {
if (value->IsString()) {
Local<String> string_value = Nan::To<String>(value).ToLocalChecked();
Utf8String *utf8_value = new Utf8String(string_value);
resources->strings.push_back(unique_ptr<Utf8String>(utf8_value));
current->value = **utf8_value;
current->value_length = string_value->Length();
} else {
return false;
}
}
array->count += 1;
}
}
return true;
}
Local<Value> ParseMetadata(const grpc_metadata_array *metadata_array) {
EscapableHandleScope scope;
grpc_metadata *metadata_elements = metadata_array->metadata;
size_t length = metadata_array->count;
std::map<const char*, size_t> size_map;
std::map<const char*, size_t> index_map;
for (unsigned int i = 0; i < length; i++) {
const char *key = metadata_elements[i].key;
if (size_map.count(key)) {
size_map[key] += 1;
} else {
size_map[key] = 1;
}
index_map[key] = 0;
}
Local<Object> metadata_object = Nan::New<Object>();
for (unsigned int i = 0; i < length; i++) {
grpc_metadata* elem = &metadata_elements[i];
Local<String> key_string = Nan::New(elem->key).ToLocalChecked();
Local<Array> array;
MaybeLocal<Value> maybe_array = Nan::Get(metadata_object, key_string);
if (maybe_array.IsEmpty() || !maybe_array.ToLocalChecked()->IsArray()) {
array = Nan::New<Array>(size_map[elem->key]);
Nan::Set(metadata_object, key_string, array);
} else {
array = Local<Array>::Cast(maybe_array.ToLocalChecked());
}
if (grpc_is_binary_header(elem->key, strlen(elem->key))) {
Nan::Set(array, index_map[elem->key],
MakeFastBuffer(
Nan::CopyBuffer(elem->value,
elem->value_length).ToLocalChecked()));
} else {
Nan::Set(array, index_map[elem->key],
Nan::New(elem->value).ToLocalChecked());
}
index_map[elem->key] += 1;
}
return scope.Escape(metadata_object);
}
Local<Value> Op::GetOpType() const {
EscapableHandleScope scope;
return scope.Escape(Nan::New(GetTypeString()).ToLocalChecked());
}
Op::~Op() {
}
class SendMetadataOp : public Op {
public:
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(Nan::True());
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
if (!value->IsObject()) {
return false;
}
grpc_metadata_array array;
MaybeLocal<Object> maybe_metadata = Nan::To<Object>(value);
if (maybe_metadata.IsEmpty()) {
return false;
}
if (!CreateMetadataArray(maybe_metadata.ToLocalChecked(),
&array, resources)) {
return false;
}
out->data.send_initial_metadata.count = array.count;
out->data.send_initial_metadata.metadata = array.metadata;
return true;
}
protected:
std::string GetTypeString() const {
return "send_metadata";
}
};
class SendMessageOp : public Op {
public:
SendMessageOp() {
send_message = NULL;
}
~SendMessageOp() {
if (send_message != NULL) {
grpc_byte_buffer_destroy(send_message);
}
}
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(Nan::True());
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
if (!::node::Buffer::HasInstance(value)) {
return false;
}
Local<Object> object_value = Nan::To<Object>(value).ToLocalChecked();
MaybeLocal<Value> maybe_flag_value = Nan::Get(
object_value, Nan::New("grpcWriteFlags").ToLocalChecked());
if (!maybe_flag_value.IsEmpty()) {
Local<Value> flag_value = maybe_flag_value.ToLocalChecked();
if (flag_value->IsUint32()) {
Maybe<uint32_t> maybe_flag = Nan::To<uint32_t>(flag_value);
out->flags = maybe_flag.FromMaybe(0) & GRPC_WRITE_USED_MASK;
}
}
send_message = BufferToByteBuffer(value);
out->data.send_message = send_message;
PersistentValue *handle = new PersistentValue(value);
resources->handles.push_back(unique_ptr<PersistentValue>(handle));
return true;
}
protected:
std::string GetTypeString() const {
return "send_message";
}
private:
grpc_byte_buffer *send_message;
};
class SendClientCloseOp : public Op {
public:
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(Nan::True());
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
return true;
}
protected:
std::string GetTypeString() const {
return "client_close";
}
};
class SendServerStatusOp : public Op {
public:
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(Nan::True());
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
if (!value->IsObject()) {
return false;
}
Local<Object> server_status = Nan::To<Object>(value).ToLocalChecked();
MaybeLocal<Value> maybe_metadata = Nan::Get(
server_status, Nan::New("metadata").ToLocalChecked());
if (maybe_metadata.IsEmpty()) {
return false;
}
if (!maybe_metadata.ToLocalChecked()->IsObject()) {
return false;
}
Local<Object> metadata = Nan::To<Object>(
maybe_metadata.ToLocalChecked()).ToLocalChecked();
MaybeLocal<Value> maybe_code = Nan::Get(server_status,
Nan::New("code").ToLocalChecked());
if (maybe_code.IsEmpty()) {
return false;
}
if (!maybe_code.ToLocalChecked()->IsUint32()) {
return false;
}
uint32_t code = Nan::To<uint32_t>(maybe_code.ToLocalChecked()).FromJust();
MaybeLocal<Value> maybe_details = Nan::Get(
server_status, Nan::New("details").ToLocalChecked());
if (maybe_details.IsEmpty()) {
return false;
}
if (!maybe_details.ToLocalChecked()->IsString()) {
return false;
}
Local<String> details = Nan::To<String>(
maybe_details.ToLocalChecked()).ToLocalChecked();
grpc_metadata_array array;
if (!CreateMetadataArray(metadata, &array, resources)) {
return false;
}
out->data.send_status_from_server.trailing_metadata_count = array.count;
out->data.send_status_from_server.trailing_metadata = array.metadata;
out->data.send_status_from_server.status =
static_cast<grpc_status_code>(code);
Utf8String *str = new Utf8String(details);
resources->strings.push_back(unique_ptr<Utf8String>(str));
out->data.send_status_from_server.status_details = **str;
return true;
}
protected:
std::string GetTypeString() const {
return "send_status";
}
};
class GetMetadataOp : public Op {
public:
GetMetadataOp() {
grpc_metadata_array_init(&recv_metadata);
}
~GetMetadataOp() {
grpc_metadata_array_destroy(&recv_metadata);
}
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(ParseMetadata(&recv_metadata));
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
out->data.recv_initial_metadata = &recv_metadata;
return true;
}
protected:
std::string GetTypeString() const {
return "metadata";
}
private:
grpc_metadata_array recv_metadata;
};
class ReadMessageOp : public Op {
public:
ReadMessageOp() {
recv_message = NULL;
}
~ReadMessageOp() {
if (recv_message != NULL) {
grpc_byte_buffer_destroy(recv_message);
}
}
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(ByteBufferToBuffer(recv_message));
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
out->data.recv_message = &recv_message;
return true;
}
protected:
std::string GetTypeString() const {
return "read";
}
private:
grpc_byte_buffer *recv_message;
};
class ClientStatusOp : public Op {
public:
ClientStatusOp() {
grpc_metadata_array_init(&metadata_array);
status_details = NULL;
details_capacity = 0;
}
~ClientStatusOp() {
grpc_metadata_array_destroy(&metadata_array);
gpr_free(status_details);
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
out->data.recv_status_on_client.trailing_metadata = &metadata_array;
out->data.recv_status_on_client.status = &status;
out->data.recv_status_on_client.status_details = &status_details;
out->data.recv_status_on_client.status_details_capacity = &details_capacity;
return true;
}
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
Local<Object> status_obj = Nan::New<Object>();
Nan::Set(status_obj, Nan::New("code").ToLocalChecked(),
Nan::New<Number>(status));
if (status_details != NULL) {
Nan::Set(status_obj, Nan::New("details").ToLocalChecked(),
Nan::New(status_details).ToLocalChecked());
}
Nan::Set(status_obj, Nan::New("metadata").ToLocalChecked(),
ParseMetadata(&metadata_array));
return scope.Escape(status_obj);
}
protected:
std::string GetTypeString() const {
return "status";
}
private:
grpc_metadata_array metadata_array;
grpc_status_code status;
char *status_details;
size_t details_capacity;
};
class ServerCloseResponseOp : public Op {
public:
Local<Value> GetNodeValue() const {
EscapableHandleScope scope;
return scope.Escape(Nan::New<Boolean>(cancelled));
}
bool ParseOp(Local<Value> value, grpc_op *out,
shared_ptr<Resources> resources) {
out->data.recv_close_on_server.cancelled = &cancelled;
return true;
}
protected:
std::string GetTypeString() const {
return "cancelled";
}
private:
int cancelled;
};
tag::tag(Callback *callback, OpVec *ops,
shared_ptr<Resources> resources) :
callback(callback), ops(ops), resources(resources){
}
tag::~tag() {
delete callback;
delete ops;
}
Local<Value> GetTagNodeValue(void *tag) {
EscapableHandleScope scope;
struct tag *tag_struct = reinterpret_cast<struct tag *>(tag);
Local<Object> tag_obj = Nan::New<Object>();
for (vector<unique_ptr<Op> >::iterator it = tag_struct->ops->begin();
it != tag_struct->ops->end(); ++it) {
Op *op_ptr = it->get();
Nan::Set(tag_obj, op_ptr->GetOpType(), op_ptr->GetNodeValue());
}
return scope.Escape(tag_obj);
}
Callback *GetTagCallback(void *tag) {
struct tag *tag_struct = reinterpret_cast<struct tag *>(tag);
return tag_struct->callback;
}
void DestroyTag(void *tag) {
struct tag *tag_struct = reinterpret_cast<struct tag *>(tag);
delete tag_struct;
}
Call::Call(grpc_call *call) : wrapped_call(call) {
}
Call::~Call() {
grpc_call_destroy(wrapped_call);
}
void Call::Init(Local<Object> exports) {
HandleScope scope;
Local<FunctionTemplate> tpl = Nan::New<FunctionTemplate>(New);
tpl->SetClassName(Nan::New("Call").ToLocalChecked());
tpl->InstanceTemplate()->SetInternalFieldCount(1);
Nan::SetPrototypeMethod(tpl, "startBatch", StartBatch);
Nan::SetPrototypeMethod(tpl, "cancel", Cancel);
Nan::SetPrototypeMethod(tpl, "cancelWithStatus", CancelWithStatus);
Nan::SetPrototypeMethod(tpl, "getPeer", GetPeer);
Nan::SetPrototypeMethod(tpl, "setCredentials", SetCredentials);
fun_tpl.Reset(tpl);
Local<Function> ctr = Nan::GetFunction(tpl).ToLocalChecked();
Nan::Set(exports, Nan::New("Call").ToLocalChecked(), ctr);
constructor = new Callback(ctr);
}
bool Call::HasInstance(Local<Value> val) {
HandleScope scope;
return Nan::New(fun_tpl)->HasInstance(val);
}
Local<Value> Call::WrapStruct(grpc_call *call) {
EscapableHandleScope scope;
if (call == NULL) {
return scope.Escape(Nan::Null());
}
const int argc = 1;
Local<Value> argv[argc] = {Nan::New<External>(
reinterpret_cast<void *>(call))};
MaybeLocal<Object> maybe_instance = Nan::NewInstance(
constructor->GetFunction(), argc, argv);
if (maybe_instance.IsEmpty()) {
return scope.Escape(Nan::Null());
} else {
return scope.Escape(maybe_instance.ToLocalChecked());
}
}
NAN_METHOD(Call::New) {
if (info.IsConstructCall()) {
Call *call;
if (info[0]->IsExternal()) {
Local<External> ext = info[0].As<External>();
// This option is used for wrapping an existing call
grpc_call *call_value =
reinterpret_cast<grpc_call *>(ext->Value());
call = new Call(call_value);
} else {
if (!Channel::HasInstance(info[0])) {
return Nan::ThrowTypeError("Call's first argument must be a Channel");
}
if (!info[1]->IsString()) {
return Nan::ThrowTypeError("Call's second argument must be a string");
}
if (!(info[2]->IsNumber() || info[2]->IsDate())) {
return Nan::ThrowTypeError(
"Call's third argument must be a date or a number");
}
// These arguments are at the end because they are optional
grpc_call *parent_call = NULL;
if (Call::HasInstance(info[4])) {
Call *parent_obj = ObjectWrap::Unwrap<Call>(
Nan::To<Object>(info[4]).ToLocalChecked());
parent_call = parent_obj->wrapped_call;
} else if (!(info[4]->IsUndefined() || info[4]->IsNull())) {
return Nan::ThrowTypeError(
"Call's fifth argument must be another call, if provided");
}
uint32_t propagate_flags = GRPC_PROPAGATE_DEFAULTS;
if (info[5]->IsUint32()) {
propagate_flags = Nan::To<uint32_t>(info[5]).FromJust();
} else if (!(info[5]->IsUndefined() || info[5]->IsNull())) {
return Nan::ThrowTypeError(
"Call's sixth argument must be propagate flags, if provided");
}
Local<Object> channel_object = Nan::To<Object>(info[0]).ToLocalChecked();
Channel *channel = ObjectWrap::Unwrap<Channel>(channel_object);
if (channel->GetWrappedChannel() == NULL) {
return Nan::ThrowError("Call cannot be created from a closed channel");
}
Utf8String method(info[1]);
double deadline = Nan::To<double>(info[2]).FromJust();
grpc_channel *wrapped_channel = channel->GetWrappedChannel();
grpc_call *wrapped_call;
if (info[3]->IsString()) {
Utf8String host_override(info[3]);
wrapped_call = grpc_channel_create_call(
wrapped_channel, parent_call, propagate_flags,
CompletionQueueAsyncWorker::GetQueue(), *method,
*host_override, MillisecondsToTimespec(deadline), NULL);
} else if (info[3]->IsUndefined() || info[3]->IsNull()) {
wrapped_call = grpc_channel_create_call(
wrapped_channel, parent_call, propagate_flags,
CompletionQueueAsyncWorker::GetQueue(), *method,
NULL, MillisecondsToTimespec(deadline), NULL);
} else {
return Nan::ThrowTypeError("Call's fourth argument must be a string");
}
call = new Call(wrapped_call);
info.This()->SetHiddenValue(Nan::New("channel_").ToLocalChecked(),
channel_object);
}
call->Wrap(info.This());
info.GetReturnValue().Set(info.This());
} else {
const int argc = 4;
Local<Value> argv[argc] = {info[0], info[1], info[2], info[3]};
MaybeLocal<Object> maybe_instance = constructor->GetFunction()->NewInstance(
argc, argv);
if (maybe_instance.IsEmpty()) {
// There's probably a pending exception
return;
} else {
info.GetReturnValue().Set(maybe_instance.ToLocalChecked());
}
}
}
NAN_METHOD(Call::StartBatch) {
if (!Call::HasInstance(info.This())) {
return Nan::ThrowTypeError("startBatch can only be called on Call objects");
}
if (!info[0]->IsObject()) {
return Nan::ThrowError("startBatch's first argument must be an object");
}
if (!info[1]->IsFunction()) {
return Nan::ThrowError("startBatch's second argument must be a callback");
}
Local<Function> callback_func = info[1].As<Function>();
Call *call = ObjectWrap::Unwrap<Call>(info.This());
shared_ptr<Resources> resources(new Resources);
Local<Object> obj = Nan::To<Object>(info[0]).ToLocalChecked();
Local<Array> keys = Nan::GetOwnPropertyNames(obj).ToLocalChecked();
size_t nops = keys->Length();
vector<grpc_op> ops(nops);
unique_ptr<OpVec> op_vector(new OpVec());
for (unsigned int i = 0; i < nops; i++) {
unique_ptr<Op> op;
MaybeLocal<Value> maybe_key = Nan::Get(keys, i);
if (maybe_key.IsEmpty() || (!maybe_key.ToLocalChecked()->IsUint32())) {
return Nan::ThrowError(
"startBatch's first argument's keys must be integers");
}
uint32_t type = Nan::To<uint32_t>(maybe_key.ToLocalChecked()).FromJust();
ops[i].op = static_cast<grpc_op_type>(type);
ops[i].flags = 0;
ops[i].reserved = NULL;
switch (type) {
case GRPC_OP_SEND_INITIAL_METADATA:
op.reset(new SendMetadataOp());
break;
case GRPC_OP_SEND_MESSAGE:
op.reset(new SendMessageOp());
break;
case GRPC_OP_SEND_CLOSE_FROM_CLIENT:
op.reset(new SendClientCloseOp());
break;
case GRPC_OP_SEND_STATUS_FROM_SERVER:
op.reset(new SendServerStatusOp());
break;
case GRPC_OP_RECV_INITIAL_METADATA:
op.reset(new GetMetadataOp());
break;
case GRPC_OP_RECV_MESSAGE:
op.reset(new ReadMessageOp());
break;
case GRPC_OP_RECV_STATUS_ON_CLIENT:
op.reset(new ClientStatusOp());
break;
case GRPC_OP_RECV_CLOSE_ON_SERVER:
op.reset(new ServerCloseResponseOp());
break;
default:
return Nan::ThrowError("Argument object had an unrecognized key");
}
if (!op->ParseOp(obj->Get(type), &ops[i], resources)) {
return Nan::ThrowTypeError("Incorrectly typed arguments to startBatch");
}
op_vector->push_back(std::move(op));
}
Callback *callback = new Callback(callback_func);
grpc_call_error error = grpc_call_start_batch(
call->wrapped_call, &ops[0], nops, new struct tag(
callback, op_vector.release(), resources), NULL);
if (error != GRPC_CALL_OK) {
return Nan::ThrowError(nanErrorWithCode("startBatch failed", error));
}
CompletionQueueAsyncWorker::Next();
}
NAN_METHOD(Call::Cancel) {
if (!Call::HasInstance(info.This())) {
return Nan::ThrowTypeError("cancel can only be called on Call objects");
}
Call *call = ObjectWrap::Unwrap<Call>(info.This());
grpc_call_error error = grpc_call_cancel(call->wrapped_call, NULL);
if (error != GRPC_CALL_OK) {
return Nan::ThrowError(nanErrorWithCode("cancel failed", error));
}
}
NAN_METHOD(Call::CancelWithStatus) {
Nan::HandleScope scope;
if (!HasInstance(info.This())) {
return Nan::ThrowTypeError("cancel can only be called on Call objects");
}
if (!info[0]->IsUint32()) {
return Nan::ThrowTypeError(
"cancelWithStatus's first argument must be a status code");
}
if (!info[1]->IsString()) {
return Nan::ThrowTypeError(
"cancelWithStatus's second argument must be a string");
}
Call *call = ObjectWrap::Unwrap<Call>(info.This());
grpc_status_code code = static_cast<grpc_status_code>(
Nan::To<uint32_t>(info[0]).FromJust());
if (code == GRPC_STATUS_OK) {
return Nan::ThrowRangeError(
"cancelWithStatus cannot be called with OK status");
}
Utf8String details(info[1]);
grpc_call_cancel_with_status(call->wrapped_call, code, *details, NULL);
}
NAN_METHOD(Call::GetPeer) {
Nan::HandleScope scope;
if (!HasInstance(info.This())) {
return Nan::ThrowTypeError("getPeer can only be called on Call objects");
}
Call *call = ObjectWrap::Unwrap<Call>(info.This());
char *peer = grpc_call_get_peer(call->wrapped_call);
Local<Value> peer_value = Nan::New(peer).ToLocalChecked();
gpr_free(peer);
info.GetReturnValue().Set(peer_value);
}
NAN_METHOD(Call::SetCredentials) {
Nan::HandleScope scope;
if (!HasInstance(info.This())) {
return Nan::ThrowTypeError(
"setCredentials can only be called on Call objects");
}
if (!CallCredentials::HasInstance(info[0])) {
return Nan::ThrowTypeError(
"setCredentials' first argument must be a CallCredentials");
}
Call *call = ObjectWrap::Unwrap<Call>(info.This());
CallCredentials *creds_object = ObjectWrap::Unwrap<CallCredentials>(
Nan::To<Object>(info[0]).ToLocalChecked());
grpc_call_credentials *creds = creds_object->GetWrappedCredentials();
grpc_call_error error = GRPC_CALL_ERROR;
if (creds) {
error = grpc_call_set_credentials(call->wrapped_call, creds);
}
info.GetReturnValue().Set(Nan::New<Uint32>(error));
}
} // namespace node
} // namespace grpc
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