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@ -47,14 +47,18 @@ static const struct addrinfo client_tcp_hints = |
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Persistent<FunctionTemplate> Connection::constructor_template; |
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// Initialize the tcp.Connection object.
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void Connection::Initialize(v8::Handle<v8::Object> target) { |
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HandleScope scope; |
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Local<FunctionTemplate> t = FunctionTemplate::New(New); |
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constructor_template = Persistent<FunctionTemplate>::New(t); |
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// Inherits from node.EventEmitter
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constructor_template->Inherit(EventEmitter::constructor_template); |
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// All native node objects have 1 internal field (required by ObjectWrap)
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constructor_template->InstanceTemplate()->SetInternalFieldCount(1); |
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// Set class name for debugging output
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constructor_template->SetClassName(String::NewSymbol("Connection")); |
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NODE_SET_PROTOTYPE_METHOD(constructor_template, "connect", Connect); |
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@ -67,16 +71,19 @@ void Connection::Initialize(v8::Handle<v8::Object> target) { |
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NODE_SET_PROTOTYPE_METHOD(constructor_template, "setTimeout", SetTimeout); |
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NODE_SET_PROTOTYPE_METHOD(constructor_template, "setNoDelay", SetNoDelay); |
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// Getter for connection.readyState
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constructor_template->PrototypeTemplate()->SetAccessor( |
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READY_STATE_SYMBOL, |
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ReadyStateGetter); |
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// Assign class to its place as tcp.Connection
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target->Set(String::NewSymbol("Connection"), |
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constructor_template->GetFunction()); |
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} |
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Handle<Value> Connection::ReadyStateGetter(Local<String> property, |
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const AccessorInfo& info) { |
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// Unwrap the javascript object to get the C++ object
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Connection *connection = ObjectWrap::Unwrap<Connection>(info.This()); |
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assert(connection); |
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@ -84,8 +91,12 @@ Handle<Value> Connection::ReadyStateGetter(Local<String> property, |
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assert(property == READY_STATE_SYMBOL); |
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// Resolving is not done in evcom, it's done in this file. Thus we add
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// this "opening" symbol to the native EVCOM ready states. "opening"
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// really means "resolving".
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if (connection->resolving_) return scope.Close(OPENING_SYMBOL); |
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// Map between the evcom enum and V8 strings:
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switch (evcom_stream_state(&connection->stream_)) { |
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case EVCOM_INITIALIZED: return scope.Close(CLOSED_SYMBOL); |
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case EVCOM_CONNECTING: return scope.Close(OPENING_SYMBOL); |
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@ -101,6 +112,9 @@ Handle<Value> Connection::ReadyStateGetter(Local<String> property, |
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String::New("This shouldn't happen."))); |
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} |
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// Constructor - these actions are not taken in the normal constructor
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// (Connection::Connection) because sometimes the Connection needs to be
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// reinitialized without destroying the object.
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void Connection::Init() { |
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resolving_ = false; |
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evcom_stream_init(&stream_); |
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@ -116,27 +130,39 @@ Connection::~Connection() { |
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assert(stream_.sendfd < 0 && "garbage collecting open Connection"); |
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} |
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// V8 contstructor
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Handle<Value> Connection::New(const Arguments& args) { |
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HandleScope scope; |
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// All constructors in node look similar to this.
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// allocate the C++ object
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Connection *connection = new Connection(); |
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// Use ObjectWrap::Wrap to assign it to the internal field in the V8
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// object.
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connection->Wrap(args.This()); |
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return args.This(); |
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} |
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// Open a connection. Starts resolving the hostname in the libeio
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// thread pool, when that completes in Connection::AfterResolve, actually
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// open the connection.
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Handle<Value> Connection::Connect(const Arguments& args) { |
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// Unwrap V8 object into C++ object
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Connection *connection = ObjectWrap::Unwrap<Connection>(args.Holder()); |
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assert(connection); |
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HandleScope scope; |
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// If the connection is closed, reinitialize it.
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if (connection->ReadyState() == EVCOM_CLOSED) { |
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connection->Init(); // in case we're reusing the socket
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assert(connection->ReadyState() == EVCOM_INITIALIZED); |
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} |
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// If connect() is called on an open connection, raise an error.
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if (connection->ReadyState() != EVCOM_INITIALIZED) { |
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Local<Value> exception = Exception::Error( |
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String::New("Socket is not in CLOSED state.")); |
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@ -146,39 +172,51 @@ Handle<Value> Connection::Connect(const Arguments& args) { |
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assert(connection->stream_.recvfd < 0); |
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assert(connection->stream_.sendfd < 0); |
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// Make sure we have at least one argument (a port)
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if (args.Length() == 0) { |
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Local<Value> exception = Exception::TypeError( |
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String::New("First argument must be a port number")); |
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return ThrowException(exception); |
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} |
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// We need the port as a string for getaddrinfo().
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// Thus cast it to a string. The strdup()'d value will be freed in
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// Resolve().
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String::AsciiValue port_sv(args[0]->ToString()); |
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assert(connection->port_ == NULL); |
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connection->port_ = strdup(*port_sv); |
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// Get the host, if any is present.
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assert(connection->host_ == NULL); |
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if (args.Length() > 1 && args[1]->IsString()) { |
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String::Utf8Value host_sv(args[1]->ToString()); |
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connection->host_ = strdup(*host_sv); |
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} |
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connection->resolving_ = true; |
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connection->resolving_ = true; // This is done so that readyState can return
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// "opening" while getaddinfo() runs.
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// There will not be any active watchers from this object on the event
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// loop while getaddrinfo() runs. If the only thing happening in the
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// script was this hostname resolution, then the event loop would drop
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// out. Thus we need to add ev_ref() until AfterResolve().
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ev_ref(EV_DEFAULT_UC); |
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// Attach the object so it doesn't get garbage collected.
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connection->Attach(); |
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/* For the moment I will do DNS lookups in the eio thread pool. This is
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* sub-optimal and cannot handle massive numbers of requests. |
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* In the future I will move to a system using adns or udns: |
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* http://lists.schmorp.de/pipermail/libev/2009q1/000632.html
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*/ |
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// For the moment I will do DNS lookups in the eio thread pool. This is
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// sub-optimal and cannot handle massive numbers of requests.
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// In the future I will move to a system using adns or udns:
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// http://lists.schmorp.de/pipermail/libev/2009q1/000632.html
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eio_custom(Connection::Resolve, EIO_PRI_DEFAULT, Connection::AfterResolve, |
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connection); |
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return Undefined(); |
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} |
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// This function is executed in the thread pool. It cannot modify any
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// members of the connection object.
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int Connection::Resolve(eio_req *req) { |
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Connection *connection = static_cast<Connection*> (req->data); |
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struct addrinfo *address = NULL; |
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