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More progress towards new API compatibility

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murgatroid99 2015-02-09 10:43:21 -08:00
parent 9ef48b6126
commit 616e875f23
7 changed files with 494 additions and 344 deletions
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648
ext/call.cc
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@ -31,24 +31,26 @@
*
*/
#include <memory>
#include <vector>
#include <node.h>
#include "grpc/support/log.h"
#include "grpc/grpc.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 "timeval.h"
#include "tag.h"
namespace grpc {
namespace node {
using ::node::Buffer;
using std::unique_ptr;
using v8::Arguments;
using v8::Array;
using v8::Exception;
@ -70,9 +72,11 @@ using v8::Value;
Persistent<Function> Call::constructor;
Persistent<FunctionTemplate> Call::fun_tpl;
bool CreateMetadataArray(Handle<Object> metadata, grpc_metadata_array *array
vector<NanUtf8String*> *string_handles,
vector<Persistent<Value>*> *handles) {
bool CreateMetadataArray(
Handle<Object> metadata, grpc_metadata_array *array,
std::vector<unique_ptr<NanUtf8String> > *string_handles,
std::vector<unique_ptr<PersistentHolder> > *handles) {
NanScope();
Handle<Array> keys(metadata->GetOwnPropertyNames());
for (unsigned int i = 0; i < keys->Length(); i++) {
@ -82,27 +86,27 @@ bool CreateMetadataArray(Handle<Object> metadata, grpc_metadata_array *array
}
array->capacity += Local<Array>::Cast(metadata->Get(current_key))->Length();
}
array->metadata = calloc(array->capacity, sizeof(grpc_metadata));
array->metadata = reinterpret_cast<grpc_metadata*>(
gpr_malloc(array->capacity * sizeof(grpc_metadata)));
for (unsigned int i = 0; i < keys->Length(); i++) {
Handle<String> current_key(keys->Get(i)->ToString());
NanUtf8String *utf8_key = new NanUtf8String(current_key);
string_handles->push_back(utf8_key);
string_handles->push_back(unique_ptr<NanUtf8String(utf8_key));
Handle<Array> values = Local<Array>::Cast(metadata->Get(current_key));
for (unsigned int j = 0; j < values->Length(); j++) {
Handle<Value> value = values->Get(j);
grpc_metadata *current = &array[array->count];
grpc_call_error error;
grpc_metadata *current = &array->metadata[array->count];
current->key = **utf8_key;
if (Buffer::HasInstance(value)) {
current->value = Buffer::Data(value);
current->value_length = Buffer::Length(value);
Persistent<Value> *handle = new Persistent<Value>();
NanAssignPersistent(handle, object);
handles->push_back(handle);
Persistent<Value> handle;
NanAssignPersistent(handle, value);
handles->push_back(PersistentHolder(handle));
} else if (value->IsString()) {
Handle<String> string_value = value->ToString();
NanUtf8String *utf8_value = new NanUtf8String(string_value);
string_handles->push_back(utf8_value);
string_handles->push_back(unique_ptr<NanUtf8String>(utf8_value));
current->value = **utf8_value;
current->value_length = string_value->Length();
} else {
@ -114,6 +118,294 @@ bool CreateMetadataArray(Handle<Object> metadata, grpc_metadata_array *array
return true;
}
Handle<Value> ParseMetadata(grpc_metadata_array *metadata_array) {
NanEscapableScope();
grpc_metadata *metadata_elements = metadata_array->metadata;
size_t length = metadata_array->count;
std::map<char*, size_t> size_map;
std::map<char*, size_t> index_map;
for (unsigned int i = 0; i < length; i++) {
char *key = metadata_elements[i].key;
if (size_map.count(key)) {
size_map[key] += 1;
}
index_map[key] = 0;
}
Handle<Object> metadata_object = NanNew<Object>();
for (unsigned int i = 0; i < length; i++) {
grpc_metadata* elem = &metadata_elements[i];
Handle<String> key_string = String::New(elem->key);
Handle<Array> array;
if (metadata_object->Has(key_string)) {
array = Handle<Array>::Cast(metadata_object->Get(key_string));
} else {
array = NanNew<Array>(size_map[elem->key]);
metadata_object->Set(key_string, array);
}
array->Set(index_map[elem->key],
MakeFastBuffer(
NanNewBufferHandle(elem->value, elem->value_length)));
index_map[elem->key] += 1;
}
return NanEscapeScope(metadata_object);
}
class Op {
public:
Handle<Value> GetOpType() const {
NanEscapableScope();
return NanEscapeScope(NanNew(GetTypeString()));
}
};
class SendMetadataOp : public Op {
public:
Handle<Value> GetNodeValue() {
NanEscapableScope();
return NanEscapeScope(NanTrue());
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
if (!value->IsObject()) {
return false;
}
grpc_metadata_array array;
if (!CreateMetadataArray(value->ToObject(), &array, strings, handles)) {
return false;
}
out->data.send_initial_metadata.count = array.count;
out->data.send_initial_metadata.metadata = array.metadata;
return true;
}
protected:
char *GetTypeString() {
return "send metadata";
}
};
class SendMessageOp : public Op {
public:
Handle<Value> GetNodeValue() {
NanEscapableScope();
return NanEscapeScope(NanTrue());
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
if (!Buffer::HasInstance(value)) {
return false;
}
out->.data.send_message = BufferToByteBuffer(obj->Get(type));
NanAssignPersistent(handle, value);
handles->push_back(PersistentHolder(handle));
}
protected:
char *GetTypeString() {
return "send message";
}
};
class SendClientCloseOp : public Op {
public:
Handle<Value> GetNodeValue() {
NanEscapableScope();
return NanEscapeScope(NanTrue());
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
return true;
}
protected:
char *GetTypeString() {
return "client close";
}
};
class SendServerStatusOp : public Op {
public:
Handle<Value> GetNodeValue() {
NanEscapableScope();
return NanEscapeScope(NanTrue());
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
if (value->IsObject()) {
return false;
}
Handle<Object> server_status = value->ToObject();
if (!server_status->Get(NanNew("metadata"))->IsObject()) {
return false;
}
if (!server_status->Get(NanNew("code"))->IsUint32()) {
return false;
}
if (!server_status->Get(NanNew("details"))->IsString()) {
return false;
}
grpc_metadata_array array;
if (!CreateMetadataArray(server_status->Get(NanNew("metadata"))->
ToObject(),
&array, strings, handles)) {
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>(
server_status->Get(NanNew("code"))->Uint32Value());
NanUtf8String *str = new NanUtf8String(
server_status->Get(NanNew("details")));
strings->push_back(unique_ptr<NanUtf8String>(str));
out->data.send_status_from_server.status_details = **str;
return true;
}
protected:
char *GetTypeString() {
return "send status";
}
}
class GetMetadataOp : public Op {
public:
GetMetadataOp() {
grpc_metadata_array_init(&recv_metadata);
}
~GetMetadataOp() {
grpc_metadata_array_destroy(&recv_metadata);
}
Handle<Value> GetNodeValue() const {
NanEscapableScope();
return NanEscapeScope(ParseMetadata(&recv_metadata));
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
out->data.recv_initial_metadata = &recv_metadata;
}
protected:
char *GetTypeString() {
return "metadata";
}
private:
grpc_metadata_array recv_metadata;
};
class ReadMessageOp : public Op {
public:
ReadMessageOp() {
recv_message = NULL;
}
~ReadMessageOp() {
if (recv_message != NULL) {
gpr_free(recv_message);
}
}
Handle<Value> GetNodeValue() const {
NanEscapableScope();
return NanEscapeScope(ByteBufferToBuffer(*recv_message));
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
out->data.recv_message = &recv_message;
}
protected:
char *GetTypeString() {
return "read";
}
private:
grpc_byte_buffer *recv_message;
};
class ClientStatusOp : public Op {
public:
ClientStatusOp() {
grpc_metadata_array_init(&metadata);
status_details = NULL;
}
~ClientStatusOp() {
gprc_metadata_array_destroy(&metadata_array);
gpr_free(status_details);
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
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;
}
Handle<Value> GetNodeValue() const {
NanEscapableScope();
Handle<Object> status_obj = NanNew<Object>();
status_obj->Set(NanNew("code"), NanNew<Number>(status));
if (event->data.finished.details != NULL) {
status_obj->Set(NanNew("details"), String::New(status_details));
}
status_obj->Set(NanNew("metadata"), ParseMetadata(&metadata_array));
return NanEscapeScope(status_obj);
}
private:
grpc_metadata_array metadata_array;
grpc_status_code status;
char *status_details;
size_t details_capacity;
};
class ServerCloseResponseOp : public Op {
public:
Handle<Value> GetNodeValue() const {
NanEscapableScope();
NanEscapeScope(NanNew<Boolean>(cancelled));
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) {
out->data.recv_close_on_server.cancelled = &cancelled;
}
private:
int cancelled;
};
struct tag {
tag(NanCallback *callback, std::vector<unique_ptr<Op> > *ops,
std::vector<unique_ptr<PersistentHolder> > *handles,
std::vector<unique_ptr<NanUtf8String> > *strings) :
callback(callback), ops(ops), handles(handles), strings(strings){
}
~tag() {
if (strings != null) {
for (std::vector<NanUtf8String *>::iterator it = strings.begin();
it != strings.end(); ++it) {
delete *it;
}
delete strings;
}
delete callback;
delete ops;
if (handles != null) {
delete handles;
}
}
};
Call::Call(grpc_call *call) : wrapped_call(call) {}
Call::~Call() { grpc_call_destroy(wrapped_call); }
@ -123,28 +415,10 @@ void Call::Init(Handle<Object> exports) {
Local<FunctionTemplate> tpl = FunctionTemplate::New(New);
tpl->SetClassName(NanNew("Call"));
tpl->InstanceTemplate()->SetInternalFieldCount(1);
NanSetPrototypeTemplate(tpl, "addMetadata",
FunctionTemplate::New(AddMetadata)->GetFunction());
NanSetPrototypeTemplate(tpl, "invoke",
FunctionTemplate::New(Invoke)->GetFunction());
NanSetPrototypeTemplate(tpl, "serverAccept",
FunctionTemplate::New(ServerAccept)->GetFunction());
NanSetPrototypeTemplate(
tpl, "serverEndInitialMetadata",
FunctionTemplate::New(ServerEndInitialMetadata)->GetFunction());
NanSetPrototypeTemplate(tpl, "startBatch",
FunctionTemplate::New(StartBatch)->GetFunction());
NanSetPrototypeTemplate(tpl, "cancel",
FunctionTemplate::New(Cancel)->GetFunction());
NanSetPrototypeTemplate(tpl, "startWrite",
FunctionTemplate::New(StartWrite)->GetFunction());
NanSetPrototypeTemplate(
tpl, "startWriteStatus",
FunctionTemplate::New(StartWriteStatus)->GetFunction());
NanSetPrototypeTemplate(tpl, "writesDone",
FunctionTemplate::New(WritesDone)->GetFunction());
NanSetPrototypeTemplate(tpl, "startReadMetadata",
FunctionTemplate::New(WritesDone)->GetFunction());
NanSetPrototypeTemplate(tpl, "startRead",
FunctionTemplate::New(StartRead)->GetFunction());
NanAssignPersistent(fun_tpl, tpl);
NanAssignPersistent(constructor, tpl->GetFunction());
constructor->Set(NanNew("WRITE_BUFFER_HINT"),
@ -225,211 +499,64 @@ NAN_METHOD(Call::StartBatch) {
if (!args[1]->IsFunction()) {
return NanThrowError("startBatch's second argument must be a callback");
}
vector<Persistent<Value> *> *handles = new vector<Persistent<Value>>();
vector<NanUtf8String *> *strings = new vector<NanUtf8String *>();
Persistent<Value> *handle;
Handle<Array> keys = args[0]->GetOwnPropertyNames();
Call *call = ObjectWrap::Unwrap<Call>(args.This());
std::vector<unique_ptr<PersistentHolder> > *handles =
new std::vector<unique_ptr<PersistentHolder> >();
std::vector<unique_ptr<NanUtf8String> > *strings =
new std::vector<unique_ptr<NanUtf8String> >();
Persistent<Value> handle;
Handle<Object> obj = args[0]->ToObject();
Handle<Array> keys = obj->GetOwnPropertyNames();
size_t nops = keys->Length();
grpc_op *ops = calloc(nops, sizeof(grpc_op));
grpc_metadata_array array;
Handle<Object> server_status;
NanUtf8String *str;
grpc_op *ops = new grpc_op[nops];
std::vector<unique_ptr<Op> > *op_vector = new std::vector<unique_ptr<Op> >();
for (unsigned int i = 0; i < nops; i++) {
if (!keys->Get(i)->IsUInt32()) {
Op *op;
if (!keys->Get(i)->IsUint32()) {
return NanThrowError(
"startBatch's first argument's keys must be integers");
}
uint32_t type = keys->Get(i)->UInt32Value();
ops[i].op = type;
uint32_t type = keys->Get(i)->Uint32Value();
ops[i].op = static_cast<grpc_op_type>(type);
switch (type) {
case GRPC_OP_SEND_INITIAL_METADATA:
if (!args[0]->Get(type)->IsObject()) {
return NanThrowError("metadata must be an object");
}
if (!CreateMetadataArray(args[0]->Get(type)->ToObject(), &array,
strings, handles)) {
return NanThrowError("failed to parse metadata");
}
ops[i].data.send_initial_metadata.count = array.count;
ops[i].data.send_initial_metadata.metadata = array.metadata;
break
op = new SendMetadataOp();
break;
case GRPC_OP_SEND_MESSAGE:
if (!Buffer::HasInstance(args[0]->Get(type))) {
return NanThrowError("message must be a Buffer");
}
ops[i].data.send_message = BufferToByteBuffer(args[0]->Get(type));
handle = new Persistent<Value>();
NanAssignPersistent(*handle, args[0]->Get(type));
handles->push_back(handle);
op = new SendMessageOp();
break;
case GRPC_OP_SEND_CLOSE_FROM_CLIENT:
op = new SendClientCloseOp();
break;
case GRPC_OP_SEND_STATUS_FROM_SERVER:
if (!args[0]->Get(type)->IsObject()) {
return NanThrowError("server status must be an object");
}
server_status = args[0]->Get(type)->ToObject();
if (!server_status->Get("metadata")->IsObject()) {
return NanThrowError("status metadata must be an object");
}
if (!server_status->Get("code")->IsUInt32()) {
return NanThrowError("status code must be a positive integer");
}
if (!server_status->Get("details")->IsString()) {
return NanThrowError("status details must be a string");
}
if (!CreateMetadataArray(server_status->Get("metadata")->ToObject(),
&array, strings, handles)) {
return NanThrowError("Failed to parse status metadata");
}
ops[i].data.send_status_from_server.trailing_metadata_count =
array.count;
ops[i].data.send_status_from_server.trailing_metadata = array.metadata;
ops[i].data.send_status_from_server.status =
server_status->Get("code")->UInt32Value();
str = new NanUtf8String(server_status->Get("details"));
strings->push_back(str);
ops[i].data.send_status_from_server.status_details = **str;
op = new SendServerStatusOp();
break;
case GRPC_OP_RECV_INITIAL_METADATA:
ops[i].data.recv_initial_metadata = malloc(sizeof(grpc_metadata_array));
grpc_metadata_array_init(ops[i].data.recv_initial_metadata);
op = new GetMetadataOp();
break;
case GRPC_OP_RECV_MESSAGE:
ops[i].data.recv_message = malloc(sizeof(grpc_byte_buffer*));
op = new ReadMessageOp();
break;
case GRPC_OP_RECV_STATUS_ON_CLIENT:
ops[i].data.recv_status_on_client.trailing_metadata =
malloc(sizeof(grpc_metadata_array));
grpc_metadata_array_init(ops[i].data.recv_status_on_client);
ops[i].data.recv_status_on_client.status =
malloc(sizeof(grpc_status_code));
ops[i].data.recv_status_on_client.status_details =
malloc(sizeof(char *));
ops[i].data.recv_status_on_client.status_details_capacity =
malloc(sizeof(size_t));
op = new ClientStatusOp();
break;
case GRPC_OP_RECV_CLOSE_ON_SERVER:
ops[i].data.recv_close_on_server = malloc(sizeof(int));
op = new ServerCloseResponseOp();
break;
default:
return NanThrowError("Argument object had an unrecognized key");
}
op.ParseOp(obj.get(type), &ops[i], strings, handles);
op_vector.push_back(unique_ptr<Op>(op));
}
}
NAN_METHOD(Call::AddMetadata) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError("addMetadata can only be called on Call objects");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
if (!args[0]->IsObject()) {
return NanThrowTypeError("addMetadata's first argument must be an object");
}
Handle<Object> metadata = args[0]->ToObject();
Handle<Array> keys(metadata->GetOwnPropertyNames());
for (unsigned int i = 0; i < keys->Length(); i++) {
Handle<String> current_key(keys->Get(i)->ToString());
if (!metadata->Get(current_key)->IsArray()) {
return NanThrowTypeError(
"addMetadata's first argument's values must be arrays");
}
NanUtf8String utf8_key(current_key);
Handle<Array> values = Local<Array>::Cast(metadata->Get(current_key));
for (unsigned int j = 0; j < values->Length(); j++) {
Handle<Value> value = values->Get(j);
grpc_metadata metadata;
grpc_call_error error;
metadata.key = *utf8_key;
if (Buffer::HasInstance(value)) {
metadata.value = Buffer::Data(value);
metadata.value_length = Buffer::Length(value);
error = grpc_call_add_metadata_old(call->wrapped_call, &metadata, 0);
} else if (value->IsString()) {
Handle<String> string_value = value->ToString();
NanUtf8String utf8_value(string_value);
metadata.value = *utf8_value;
metadata.value_length = string_value->Length();
gpr_log(GPR_DEBUG, "adding metadata: %s, %s, %d", metadata.key,
metadata.value, metadata.value_length);
error = grpc_call_add_metadata_old(call->wrapped_call, &metadata, 0);
} else {
return NanThrowTypeError(
"addMetadata values must be strings or buffers");
}
if (error != GRPC_CALL_OK) {
return NanThrowError("addMetadata failed", error);
}
}
}
NanReturnUndefined();
}
NAN_METHOD(Call::Invoke) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError("invoke can only be called on Call objects");
}
if (!args[0]->IsFunction()) {
return NanThrowTypeError("invoke's first argument must be a function");
}
if (!args[1]->IsFunction()) {
return NanThrowTypeError("invoke's second argument must be a function");
}
if (!args[2]->IsUint32()) {
return NanThrowTypeError("invoke's third argument must be integer flags");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
unsigned int flags = args[3]->Uint32Value();
grpc_call_error error = grpc_call_invoke_old(
call->wrapped_call, CompletionQueueAsyncWorker::GetQueue(),
CreateTag(args[0], args.This()), CreateTag(args[1], args.This()), flags);
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
CompletionQueueAsyncWorker::Next();
} else {
return NanThrowError("invoke failed", error);
}
NanReturnUndefined();
}
NAN_METHOD(Call::ServerAccept) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError("accept can only be called on Call objects");
}
if (!args[0]->IsFunction()) {
return NanThrowTypeError("accept's first argument must be a function");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
grpc_call_error error = grpc_call_server_accept_old(
call->wrapped_call, CompletionQueueAsyncWorker::GetQueue(),
CreateTag(args[0], args.This()));
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
} else {
return NanThrowError("serverAccept failed", error);
}
NanReturnUndefined();
}
NAN_METHOD(Call::ServerEndInitialMetadata) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError(
"serverEndInitialMetadata can only be called on Call objects");
}
if (!args[0]->IsUint32()) {
return NanThrowTypeError(
"serverEndInitialMetadata's second argument must be integer flags");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
unsigned int flags = args[1]->Uint32Value();
grpc_call_error error =
grpc_call_server_end_initial_metadata_old(call->wrapped_call, flags);
grpc_call_error error = grpc_call_start_batch(
call->wrapped_call, ops, nops, new struct tag(args[1].As<Function>(),
op_vector, nops, handles,
strings));
if (error != GRPC_CALL_OK) {
return NanThrowError("serverEndInitialMetadata failed", error);
return NanThrowError("startBatch failed", error);
}
CompletionQueueAsyncWorker::Next();
NanReturnUndefined();
}
@ -446,102 +573,5 @@ NAN_METHOD(Call::Cancel) {
NanReturnUndefined();
}
NAN_METHOD(Call::StartWrite) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError("startWrite can only be called on Call objects");
}
if (!Buffer::HasInstance(args[0])) {
return NanThrowTypeError("startWrite's first argument must be a Buffer");
}
if (!args[1]->IsFunction()) {
return NanThrowTypeError("startWrite's second argument must be a function");
}
if (!args[2]->IsUint32()) {
return NanThrowTypeError(
"startWrite's third argument must be integer flags");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
grpc_byte_buffer *buffer = BufferToByteBuffer(args[0]);
unsigned int flags = args[2]->Uint32Value();
grpc_call_error error = grpc_call_start_write_old(
call->wrapped_call, buffer, CreateTag(args[1], args.This()), flags);
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
} else {
return NanThrowError("startWrite failed", error);
}
NanReturnUndefined();
}
NAN_METHOD(Call::StartWriteStatus) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError(
"startWriteStatus can only be called on Call objects");
}
if (!args[0]->IsUint32()) {
return NanThrowTypeError(
"startWriteStatus's first argument must be a status code");
}
if (!args[1]->IsString()) {
return NanThrowTypeError(
"startWriteStatus's second argument must be a string");
}
if (!args[2]->IsFunction()) {
return NanThrowTypeError(
"startWriteStatus's third argument must be a function");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
NanUtf8String details(args[1]);
grpc_call_error error = grpc_call_start_write_status_old(
call->wrapped_call, (grpc_status_code)args[0]->Uint32Value(), *details,
CreateTag(args[2], args.This()));
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
} else {
return NanThrowError("startWriteStatus failed", error);
}
NanReturnUndefined();
}
NAN_METHOD(Call::WritesDone) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError("writesDone can only be called on Call objects");
}
if (!args[0]->IsFunction()) {
return NanThrowTypeError("writesDone's first argument must be a function");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
grpc_call_error error = grpc_call_writes_done_old(
call->wrapped_call, CreateTag(args[0], args.This()));
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
} else {
return NanThrowError("writesDone failed", error);
}
NanReturnUndefined();
}
NAN_METHOD(Call::StartRead) {
NanScope();
if (!HasInstance(args.This())) {
return NanThrowTypeError("startRead can only be called on Call objects");
}
if (!args[0]->IsFunction()) {
return NanThrowTypeError("startRead's first argument must be a function");
}
Call *call = ObjectWrap::Unwrap<Call>(args.This());
grpc_call_error error = grpc_call_start_read_old(
call->wrapped_call, CreateTag(args[0], args.This()));
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
} else {
return NanThrowError("startRead failed", error);
}
NanReturnUndefined();
}
} // namespace node
} // namespace grpc

49
ext/call.h
View File

@ -34,6 +34,8 @@
#ifndef NET_GRPC_NODE_CALL_H_
#define NET_GRPC_NODE_CALL_H_
#include <memory>
#include <node.h>
#include <nan.h>
#include "grpc/grpc.h"
@ -43,6 +45,44 @@
namespace grpc {
namespace node {
using std::unique_ptr;
class PersistentHolder {
public:
explicit PersistentHolder(v8::Persistent<Value> persist) : persist(persist) {
}
~PersistentHolder() {
persist.Dispose();
}
private:
v8::Persistent<Value> persist;
};
class Op {
public:
virtual Handle<Value> GetNodeValue() const = 0;
virtual bool ParseOp(v8::Handle<v8::Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > *strings,
std::vector<unique_ptr<PersistentHolder> > *handles) = 0;
Handle<Value> GetOpType();
protected:
virtual char *GetTypeString();
};
struct tag {
tag(NanCallback *callback, std::vector<unique_ptr<Op> > *ops,
std::vector<unique_ptr<PersistentHolder> > *handles,
std::vector<unique_ptr<NanUtf8String> > *strings);
~tag();
NanCallback *callback;
std::vector<unique_ptr<Op> > *ops;
std::vector<unique_ptr<PersistentHolder> > *handles;
std::vector<unique_ptr<NanUtf8String> > *strings;
};
/* Wrapper class for grpc_call structs. */
class Call : public ::node::ObjectWrap {
public:
@ -60,15 +100,8 @@ class Call : public ::node::ObjectWrap {
Call &operator=(const Call &);
static NAN_METHOD(New);
static NAN_METHOD(AddMetadata);
static NAN_METHOD(Invoke);
static NAN_METHOD(ServerAccept);
static NAN_METHOD(ServerEndInitialMetadata);
static NAN_METHOD(StartBatch);
static NAN_METHOD(Cancel);
static NAN_METHOD(StartWrite);
static NAN_METHOD(StartWriteStatus);
static NAN_METHOD(WritesDone);
static NAN_METHOD(StartRead);
static v8::Persistent<v8::Function> constructor;
// Used for typechecking instances of this javascript class
static v8::Persistent<v8::FunctionTemplate> fun_tpl;

22
ext/completion_queue_async_worker.cc
View File

@ -37,7 +37,6 @@
#include "grpc/grpc.h"
#include "grpc/support/time.h"
#include "completion_queue_async_worker.h"
#include "event.h"
#include "tag.h"
namespace grpc {
@ -58,6 +57,9 @@ CompletionQueueAsyncWorker::~CompletionQueueAsyncWorker() {}
void CompletionQueueAsyncWorker::Execute() {
result = grpc_completion_queue_next(queue, gpr_inf_future);
if (result->data.op_complete != GRPC_OP_OK) {
SetErrorMessage("The batch encountered an error");
}
}
grpc_completion_queue *CompletionQueueAsyncWorker::GetQueue() { return queue; }
@ -75,14 +77,26 @@ void CompletionQueueAsyncWorker::Init(Handle<Object> exports) {
void CompletionQueueAsyncWorker::HandleOKCallback() {
NanScope();
NanCallback event_callback(GetTagHandle(result->tag).As<Function>());
Handle<Value> argv[] = {CreateEventObject(result)};
NanCallback callback = GetTagCallback(result->tag);
Handle<Value> argv[] = {NanNull(), GetNodeValue(result->tag)};
DestroyTag(result->tag);
grpc_event_finish(result);
result = NULL;
event_callback.Call(1, argv);
callback.Call(2, argv);
}
void CompletionQueueAsyncWorker::HandleErrorCallback() {
NanScope();
NanCallback callback = GetTagCallback(result->tag);
Handle<Value> argv[] = {NanError(ErrorMessage())};
DestroyTag(result->tag);
grpc_event_finish(result);
result = NULL;
callback.Call(1, argv);
}
} // namespace node

2
ext/completion_queue_async_worker.h
View File

@ -67,6 +67,8 @@ class CompletionQueueAsyncWorker : public NanAsyncWorker {
completion_queue_next */
void HandleOKCallback();
void HandleErrorCallback();
private:
grpc_event *result;

55
ext/server.cc
View File

@ -31,6 +31,8 @@
*
*/
#include <memory>
#include "server.h"
#include <node.h>
@ -49,6 +51,7 @@
namespace grpc {
namespace node {
using std::unique_ptr;
using v8::Arguments;
using v8::Array;
using v8::Boolean;
@ -67,6 +70,45 @@ using v8::Value;
Persistent<Function> Server::constructor;
Persistent<FunctionTemplate> Server::fun_tpl;
class NewCallOp : public Op {
public:
NewCallOp() {
call = NULL;
grpc_call_details_init(&details);
grpc_metadata_array_init(&request_metadata);
}
~NewCallOp() {
grpc_call_details_destroy(&details);
grpc_metadata_array_destroy(&details);
}
Handle<Value> GetNodeValue() const {
NanEscapableScope();
if (*call == NULL) {
return NanEscapeScope(NanNull());
}
Handle<Object> obj = NanNew<Object>();
obj->Set(NanNew("call"), Call::WrapStruct(call));
obj->Set(NanNew("method"), NanNew(details.method));
obj->Set(NanNew("host"), NanNew(details.host));
obj->Set(NanNew("deadline"),
NanNew<Date>(TimespecToMilliseconds(details.deadline)));
obj->Set(NanNew("metadata"), ParseMetadata(&request_metadata));
return NanEscapeScope(obj);
}
bool ParseOp(Handle<Value> value, grpc_op *out,
std::vector<unique_ptr<NanUtf8String> > strings,
std::vector<unique_ptr<PersistentHolder> > handles) {
return true;
}
grpc_call *call;
grpc_call_details details;
grpc_metadata_array request_metadata;
}
Server::Server(grpc_server *server) : wrapped_server(server) {}
Server::~Server() { grpc_server_destroy(wrapped_server); }
@ -175,13 +217,16 @@ NAN_METHOD(Server::RequestCall) {
return NanThrowTypeError("requestCall can only be called on a Server");
}
Server *server = ObjectWrap::Unwrap<Server>(args.This());
grpc_call_error error = grpc_server_request_call_old(
server->wrapped_server, CreateTag(args[0], NanNull()));
if (error == GRPC_CALL_OK) {
CompletionQueueAsyncWorker::Next();
} else {
Op *op = new NewCallOp();
std::vector<unique_ptr<Op> > *ops = { unique_ptr<Op>(op) };
grpc_call_error error = grpc_server_request_call(
server->wrapped_server, &op->call, &op->details, &op->metadata,
CompletionQueueAsyncWorker::GetQueue(),
new struct tag(args[0].As<Function>(), ops, NULL, NULL));
if (error != GRPC_CALL_OK) {
return NanThrowError("requestCall failed", error);
}
CompletionQueueAsyncWorker::Next();
NanReturnUndefined();
}

49
ext/tag.cc
View File

@ -89,6 +89,7 @@ class OpResponse {
explicit OpResponse(char *name): name(name) {
}
virtual Handle<Value> GetNodeValue() const = 0;
virtual bool ParseOp() = 0;
Handle<Value> GetOpType() const {
NanEscapableScope();
return NanEscapeScope(NanNew(name));
@ -136,16 +137,23 @@ class MessageResponse : public OpResponse {
}
private:
grpc_byte_buffer **recv_message
grpc_byte_buffer **recv_message;
};
switch () {
case GRPC_RECV_CLIENT_STATUS:
op = new ClientStatusResponse;
break;
}
class ClientStatusResponse : public OpResponse {
public:
explicit ClientStatusResponse(grpc_metadata_array *metadata_array,
grpc_status_code *status,
char **status_details):
metadata_array(metadata_array), status(status),
status_details(status_details), OpResponse("status") {
explicit ClientStatusResponse():
OpResponse("status") {
}
bool ParseOp(Handle<Value> obj, grpc_op *out) {
}
Handle<Value> GetNodeValue() const {
@ -159,9 +167,9 @@ class ClientStatusResponse : public OpResponse {
return NanEscapeScope(status_obj);
}
private:
grpc_metadata_array *metadata_array;
grpc_status_code *status;
char **status_details;
grpc_metadata_array metadata_array;
grpc_status_code status;
char *status_details;
};
class ServerCloseResponse : public OpResponse {
@ -208,22 +216,35 @@ class NewCallResponse : public OpResponse {
}
struct tag {
tag(NanCallback *callback, std::vector<OpResponse*> *responses) :
callback(callback), repsonses(responses) {
tag(NanCallback *callback, std::vector<OpResponse*> *responses,
std::vector<Persistent<Value>> *handles,
std::vector<NanUtf8String *> *strings) :
callback(callback), repsonses(responses), handles(handles),
strings(strings){
}
~tag() {
for (std::vector<OpResponse *>::iterator it = responses->begin();
it != responses->end(); ++it) {
delete *it;
}
for (std::vector<NanUtf8String *>::iterator it = responses->begin();
it != responses->end(); ++it) {
delete *it;
}
delete callback;
delete responses;
delete handles;
delete strings;
}
NanCallback *callback;
std::vector<OpResponse*> *responses;
std::vector<Persistent<Value>> *handles;
std::vector<NanUtf8String *> *strings;
};
void *CreateTag(Handle<Function> callback, grpc_op *ops, size_t nops) {
void *CreateTag(Handle<Function> callback, grpc_op *ops, size_t nops,
std::vector<Persistent<Value>> *handles,
std::vector<NanUtf8String *> *strings) {
NanScope();
NanCallback *cb = new NanCallback(callback);
vector<OpResponse*> *responses = new vector<OpResponse*>();
@ -264,7 +285,7 @@ void *CreateTag(Handle<Function> callback, grpc_op *ops, size_t nops) {
}
responses->push_back(resp);
}
struct tag *tag_struct = new struct tag(cb, responses);
struct tag *tag_struct = new struct tag(cb, responses, handles, strings);
return reinterpret_cast<void *>(tag_struct);
}
@ -280,7 +301,7 @@ void *CreateTag(Handle<Function> callback, grpc_call **call,
return reinterpret_cast<void *>(tag_struct);
}
NanCallback GetCallback(void *tag) {
NanCallback GetTagCallback(void *tag) {
NanEscapableScope();
struct tag *tag_struct = reinterpret_cast<struct tag *>(tag);
return NanEscapeScope(*tag_struct->callback);

13
ext/tag.h
View File

@ -34,6 +34,9 @@
#ifndef NET_GRPC_NODE_TAG_H_
#define NET_GRPC_NODE_TAG_H_
#include <vector>
#include <grpc/grpc.h>
#include <node.h>
#include <nan.h>
@ -41,9 +44,11 @@
namespace grpc {
namespace node {
/* Create a void* tag that can be passed to grpc_call_start_batch from a callback
function and an ops array */
void *CreateTag(v8::Handle<v8::Function> callback, grpc_op *ops, size_t nops);
/* Create a void* tag that can be passed to grpc_call_start_batch from a
callback function and an ops array */
void *CreateTag(v8::Handle<v8::Function> callback, grpc_op *ops, size_t nops,
std::vector<v8::Persistent<v8::Value> > *handles,
std::vector<NanUtf8String *> *strings);
/* Create a void* tag that can be passed to grpc_server_request_call from a
callback and the various out parameters to that function */
@ -55,7 +60,7 @@ void *CreateTag(v8::Handle<v8::Function> callback, grpc_call **call,
NanCallback GetCallback(void *tag);
/* Get the combined output value from the tag */
v8::Handle<v8::Value> GetNodevalue(void *tag);
v8::Handle<v8::Value> GetNodeValue(void *tag);
/* Destroy the tag and all resources it is holding. It is illegal to call any
of these other functions on a tag after it has been destroyed. */