csrc/node-v0.10.24/src/node_dtrace.cc - third_party - Git at Google

 // Copyright Joyent, Inc. and other Node contributors.
 //
 // Permission is hereby granted, free of charge, to any person obtaining a
 // copy of this software and associated documentation files (the
 // "Software"), to deal in the Software without restriction, including
 // without limitation the rights to use, copy, modify, merge, publish,
 // distribute, sublicense, and/or sell copies of the Software, and to permit
 // persons to whom the Software is furnished to do so, subject to the
 // following conditions:
 //
 // The above copyright notice and this permission notice shall be included
 // in all copies or substantial portions of the Software.
 //
 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
 // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
 // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
 // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
 // USE OR OTHER DEALINGS IN THE SOFTWARE.


 #ifdef HAVE_DTRACE
 #include "node_dtrace.h"
 #include <string.h>
 #include "node_provider.h"
 #elif HAVE_ETW
 #include "node_dtrace.h"
 #include <string.h>
 #include "node_win32_etw_provider.h"
 #include "node_win32_etw_provider-inl.h"
 #elif HAVE_SYSTEMTAP
 #include <string.h>
 #include <node.h>
 #include <v8.h>
 #include <sys/sdt.h>
 #include "node_systemtap.h"
 #include "node_dtrace.h"
 #else
 #define NODE_HTTP_SERVER_REQUEST(arg0, arg1)
 #define NODE_HTTP_SERVER_REQUEST_ENABLED() (0)
 #define NODE_HTTP_SERVER_RESPONSE(arg0)
 #define NODE_HTTP_SERVER_RESPONSE_ENABLED() (0)
 #define NODE_HTTP_CLIENT_REQUEST(arg0, arg1)
 #define NODE_HTTP_CLIENT_REQUEST_ENABLED() (0)
 #define NODE_HTTP_CLIENT_RESPONSE(arg0)
 #define NODE_HTTP_CLIENT_RESPONSE_ENABLED() (0)
 #define NODE_NET_SERVER_CONNECTION(arg0)
 #define NODE_NET_SERVER_CONNECTION_ENABLED() (0)
 #define NODE_NET_STREAM_END(arg0)
 #define NODE_NET_STREAM_END_ENABLED() (0)
 #define NODE_NET_SOCKET_READ(arg0, arg1)
 #define NODE_NET_SOCKET_READ_ENABLED() (0)
 #define NODE_NET_SOCKET_WRITE(arg0, arg1)
 #define NODE_NET_SOCKET_WRITE_ENABLED() (0)
 #define NODE_GC_START(arg0, arg1)
 #define NODE_GC_DONE(arg0, arg1)
 #endif

 namespace node {

 using namespace v8;

 #define SLURP_STRING(obj, member, valp) \
   if (!(obj)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "object for " #obj " to contain string member " #member)))); \
   } \
   String::Utf8Value _##member(obj->Get(String::New(#member))); \
   if ((*(const char **)valp = *_##member) == NULL) \
     *(const char **)valp = "<unknown>";

 #define SLURP_INT(obj, member, valp) \
   if (!(obj)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "object for " #obj " to contain integer member " #member)))); \
   } \
   *valp = obj->Get(String::New(#member))->ToInteger()->Value();

 #define SLURP_OBJECT(obj, member, valp) \
   if (!(obj)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "object for " #obj " to contain object member " #member)))); \
   } \
   *valp = Local<Object>::Cast(obj->Get(String::New(#member)));

 #define SLURP_CONNECTION(arg, conn) \
   if (!(arg)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "argument " #arg " to be a connection object")))); \
   } \
   node_dtrace_connection_t conn; \
   Local<Object> _##conn = Local<Object>::Cast(arg); \
   Local<Value> _handle = (_##conn)->Get(String::New("_handle")); \
   if (_handle->IsObject()) { \
     SLURP_INT(_handle.As<Object>(), fd, &conn.fd); \
   } else { \
     conn.fd = -1; \
   } \
   SLURP_STRING(_##conn, remoteAddress, &conn.remote); \
   SLURP_INT(_##conn, remotePort, &conn.port); \
   SLURP_INT(_##conn, bufferSize, &conn.buffered);

 #define SLURP_CONNECTION_HTTP_CLIENT(arg, conn) \
   if (!(arg)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "argument " #arg " to be a connection object")))); \
   } \
   node_dtrace_connection_t conn; \
   Local<Object> _##conn = Local<Object>::Cast(arg); \
   SLURP_INT(_##conn, fd, &conn.fd); \
   SLURP_STRING(_##conn, host, &conn.remote); \
   SLURP_INT(_##conn, port, &conn.port); \
   SLURP_INT(_##conn, bufferSize, &conn.buffered);

 #define SLURP_CONNECTION_HTTP_CLIENT_RESPONSE(arg0, arg1, conn) \
   if (!(arg0)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "argument " #arg0 " to be a connection object")))); \
   } \
   if (!(arg1)->IsObject()) { \
     return (ThrowException(Exception::Error(String::New("expected " \
       "argument " #arg1 " to be a connection object")))); \
   } \
   node_dtrace_connection_t conn; \
   Local<Object> _##conn = Local<Object>::Cast(arg0); \
   SLURP_INT(_##conn, fd, &conn.fd); \
   SLURP_INT(_##conn, bufferSize, &conn.buffered); \
   _##conn = Local<Object>::Cast(arg1); \
   SLURP_STRING(_##conn, host, &conn.remote); \
   SLURP_INT(_##conn, port, &conn.port);


 Handle<Value> DTRACE_NET_SERVER_CONNECTION(const Arguments& args) {
 #ifndef HAVE_SYSTEMTAP
   if (!NODE_NET_SERVER_CONNECTION_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   SLURP_CONNECTION(args[0], conn);
 #ifdef HAVE_SYSTEMTAP
   NODE_NET_SERVER_CONNECTION(conn.fd, conn.remote, conn.port, \
                              conn.buffered);
 #else
   NODE_NET_SERVER_CONNECTION(&conn, conn.remote, conn.port, conn.fd);
 #endif

   return Undefined();
 }

 Handle<Value> DTRACE_NET_STREAM_END(const Arguments& args) {
 #ifndef HAVE_SYSTEMTAP
   if (!NODE_NET_STREAM_END_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   SLURP_CONNECTION(args[0], conn);
 #ifdef HAVE_SYSTEMTAP
   NODE_NET_STREAM_END(conn.fd, conn.remote, conn.port, conn.buffered);
 #else
   NODE_NET_STREAM_END(&conn, conn.remote, conn.port, conn.fd);
 #endif

   return Undefined();
 }

 Handle<Value> DTRACE_NET_SOCKET_READ(const Arguments& args) {
 #ifndef HAVE_SYSTEMTAP
   if (!NODE_NET_SOCKET_READ_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   SLURP_CONNECTION(args[0], conn);

 #ifdef HAVE_SYSTEMTAP
   NODE_NET_SOCKET_READ(conn.fd, conn.remote, conn.port, conn.buffered);
 #else
   if (!args[1]->IsNumber()) {
     return (ThrowException(Exception::Error(String::New("expected "
       "argument 1 to be number of bytes"))));
   }
   int nbytes = args[1]->Int32Value();
   NODE_NET_SOCKET_READ(&conn, nbytes, conn.remote, conn.port, conn.fd);
 #endif

   return Undefined();
 }

 Handle<Value> DTRACE_NET_SOCKET_WRITE(const Arguments& args) {
 #ifndef HAVE_SYSTEMTAP
   if (!NODE_NET_SOCKET_WRITE_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   SLURP_CONNECTION(args[0], conn);

 #ifdef HAVE_SYSTEMTAP
   NODE_NET_SOCKET_WRITE(conn.fd, conn.remote, conn.port, conn.buffered);
 #else
   if (!args[1]->IsNumber()) {
     return (ThrowException(Exception::Error(String::New("expected "
       "argument 1 to be number of bytes"))));
   }
   int nbytes = args[1]->Int32Value();
   NODE_NET_SOCKET_WRITE(&conn, nbytes, conn.remote, conn.port, conn.fd);
 #endif

   return Undefined();
 }

 Handle<Value> DTRACE_HTTP_SERVER_REQUEST(const Arguments& args) {
   node_dtrace_http_server_request_t req;

 #ifndef HAVE_SYSTEMTAP
   if (!NODE_HTTP_SERVER_REQUEST_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   Local<Object> arg0 = Local<Object>::Cast(args[0]);
   Local<Object> headers;

   memset(&req, 0, sizeof(req));
   req._un.version = 1;
   SLURP_STRING(arg0, url, &req.url);
   SLURP_STRING(arg0, method, &req.method);

   SLURP_OBJECT(arg0, headers, &headers);

   if (!(headers)->IsObject())
     return (ThrowException(Exception::Error(String::New("expected "
       "object for request to contain string member headers"))));

   Local<Value> strfwdfor = headers->Get(String::New("x-forwarded-for"));
   String::Utf8Value fwdfor(strfwdfor);

   if (!strfwdfor->IsString() || (req.forwardedFor = *fwdfor) == NULL)
     req.forwardedFor = const_cast<char*>("");

   SLURP_CONNECTION(args[1], conn);

 #ifdef HAVE_SYSTEMTAP
   NODE_HTTP_SERVER_REQUEST(&req, conn.fd, conn.remote, conn.port, \
                            conn.buffered);
 #else
   NODE_HTTP_SERVER_REQUEST(&req, &conn, conn.remote, conn.port, req.method, \
                            req.url, conn.fd);
 #endif
   return Undefined();
 }

 Handle<Value> DTRACE_HTTP_SERVER_RESPONSE(const Arguments& args) {
 #ifndef HAVE_SYSTEMTAP
   if (!NODE_HTTP_SERVER_RESPONSE_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   SLURP_CONNECTION(args[0], conn);
 #ifdef HAVE_SYSTEMTAP
   NODE_HTTP_SERVER_RESPONSE(conn.fd, conn.remote, conn.port, conn.buffered);
 #else
   NODE_HTTP_SERVER_RESPONSE(&conn, conn.remote, conn.port, conn.fd);
 #endif

   return Undefined();
 }

 Handle<Value> DTRACE_HTTP_CLIENT_REQUEST(const Arguments& args) {
   node_dtrace_http_client_request_t req;
   char *header;

 #ifndef HAVE_SYSTEMTAP
   if (!NODE_HTTP_CLIENT_REQUEST_ENABLED())
     return Undefined();
 #endif

   HandleScope scope;

   /*
    * For the method and URL, we're going to dig them out of the header.  This
    * is not as efficient as it could be, but we would rather not force the
    * caller here to retain their method and URL until the time at which
    * DTRACE_HTTP_CLIENT_REQUEST can be called.
    */
   Local<Object> arg0 = Local<Object>::Cast(args[0]);
   SLURP_STRING(arg0, _header, &header);

   req.method = header;

   while (*header != '\0' && *header != ' ')
     header++;

   if (*header != '\0')
     *header++ = '\0';

   req.url = header;

   while (*header != '\0' && *header != ' ')
     header++;

   *header = '\0';

   SLURP_CONNECTION_HTTP_CLIENT(args[1], conn);
 #ifdef HAVE_SYSTEMTAP
   NODE_HTTP_CLIENT_REQUEST(&req, conn.fd, conn.remote, conn.port, \
                            conn.buffered);
 #else
   NODE_HTTP_CLIENT_REQUEST(&req, &conn, conn.remote, conn.port, req.method, \
                            req.url, conn.fd);
 #endif
   return Undefined();
 }

 Handle<Value> DTRACE_HTTP_CLIENT_RESPONSE(const Arguments& args) {
 #ifndef HAVE_SYSTEMTAP
   if (!NODE_HTTP_CLIENT_RESPONSE_ENABLED())
     return Undefined();
 #endif
   HandleScope scope;

   SLURP_CONNECTION_HTTP_CLIENT_RESPONSE(args[0], args[1], conn);
 #ifdef HAVE_SYSTEMTAP
   NODE_HTTP_CLIENT_RESPONSE(conn.fd, conn.remote, conn.port, conn.buffered);
 #else
   NODE_HTTP_CLIENT_RESPONSE(&conn, conn.remote, conn.port, conn.fd);
 #endif

   return Undefined();
 }

 #define NODE_PROBE(name) #name, name, Persistent<FunctionTemplate>()

 static int dtrace_gc_start(GCType type, GCCallbackFlags flags) {
 #ifdef HAVE_SYSTEMTAP
   NODE_GC_START();
 #else
   NODE_GC_START(type, flags);
 #endif
   /*
    * We avoid the tail-call elimination of the USDT probe (which screws up
    * args) by forcing a return of 0.
    */
   return 0;
 }

 static int dtrace_gc_done(GCType type, GCCallbackFlags flags) {
 #ifdef HAVE_SYSTEMTAP
   NODE_GC_DONE();
 #else
   NODE_GC_DONE(type, flags);
 #endif
   return 0;
 }

 void InitDTrace(Handle<Object> target) {
   static struct {
     const char *name;
     Handle<Value> (*func)(const Arguments&);
     Persistent<FunctionTemplate> templ;
   } tab[] = {
     { NODE_PROBE(DTRACE_NET_SERVER_CONNECTION) },
     { NODE_PROBE(DTRACE_NET_STREAM_END) },
     { NODE_PROBE(DTRACE_NET_SOCKET_READ) },
     { NODE_PROBE(DTRACE_NET_SOCKET_WRITE) },
     { NODE_PROBE(DTRACE_HTTP_SERVER_REQUEST) },
     { NODE_PROBE(DTRACE_HTTP_SERVER_RESPONSE) },
     { NODE_PROBE(DTRACE_HTTP_CLIENT_REQUEST) },
     { NODE_PROBE(DTRACE_HTTP_CLIENT_RESPONSE) }
   };

   for (unsigned int i = 0; i < ARRAY_SIZE(tab); i++) {
     tab[i].templ = Persistent<FunctionTemplate>::New(
         FunctionTemplate::New(tab[i].func));
     target->Set(String::NewSymbol(tab[i].name), tab[i].templ->GetFunction());
   }

 #ifdef HAVE_ETW
   init_etw();
 #endif

 #if defined HAVE_DTRACE || defined HAVE_ETW || defined HAVE_SYSTEMTAP
   v8::V8::AddGCPrologueCallback((GCPrologueCallback)dtrace_gc_start);
   v8::V8::AddGCEpilogueCallback((GCEpilogueCallback)dtrace_gc_done);
 #endif
 }

 }
	// Copyright Joyent, Inc. and other Node contributors.
	//
	// Permission is hereby granted, free of charge, to any person obtaining a
	// copy of this software and associated documentation files (the
	// "Software"), to deal in the Software without restriction, including
	// without limitation the rights to use, copy, modify, merge, publish,
	// distribute, sublicense, and/or sell copies of the Software, and to permit
	// persons to whom the Software is furnished to do so, subject to the
	// following conditions:
	//
	// The above copyright notice and this permission notice shall be included
	// in all copies or substantial portions of the Software.
	//
	// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
	// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
	// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
	// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
	// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
	// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
	// USE OR OTHER DEALINGS IN THE SOFTWARE.


	#ifdef HAVE_DTRACE
	#include "node_dtrace.h"
	#include <string.h>
	#include "node_provider.h"
	#elif HAVE_ETW
	#include "node_dtrace.h"
	#include <string.h>
	#include "node_win32_etw_provider.h"
	#include "node_win32_etw_provider-inl.h"
	#elif HAVE_SYSTEMTAP
	#include <string.h>
	#include <node.h>
	#include <v8.h>
	#include <sys/sdt.h>
	#include "node_systemtap.h"
	#include "node_dtrace.h"
	#else
	#define NODE_HTTP_SERVER_REQUEST(arg0, arg1)
	#define NODE_HTTP_SERVER_REQUEST_ENABLED() (0)
	#define NODE_HTTP_SERVER_RESPONSE(arg0)
	#define NODE_HTTP_SERVER_RESPONSE_ENABLED() (0)
	#define NODE_HTTP_CLIENT_REQUEST(arg0, arg1)
	#define NODE_HTTP_CLIENT_REQUEST_ENABLED() (0)
	#define NODE_HTTP_CLIENT_RESPONSE(arg0)
	#define NODE_HTTP_CLIENT_RESPONSE_ENABLED() (0)
	#define NODE_NET_SERVER_CONNECTION(arg0)
	#define NODE_NET_SERVER_CONNECTION_ENABLED() (0)
	#define NODE_NET_STREAM_END(arg0)
	#define NODE_NET_STREAM_END_ENABLED() (0)
	#define NODE_NET_SOCKET_READ(arg0, arg1)
	#define NODE_NET_SOCKET_READ_ENABLED() (0)
	#define NODE_NET_SOCKET_WRITE(arg0, arg1)
	#define NODE_NET_SOCKET_WRITE_ENABLED() (0)
	#define NODE_GC_START(arg0, arg1)
	#define NODE_GC_DONE(arg0, arg1)
	#endif

	namespace node {

	using namespace v8;

	#define SLURP_STRING(obj, member, valp) \
	if (!(obj)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"object for " #obj " to contain string member " #member)))); \
	} \
	String::Utf8Value _##member(obj->Get(String::New(#member))); \
	if (((const char )valp = _##member) == NULL) \
	(const char *)valp = "<unknown>";

	#define SLURP_INT(obj, member, valp) \
	if (!(obj)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"object for " #obj " to contain integer member " #member)))); \
	} \
	*valp = obj->Get(String::New(#member))->ToInteger()->Value();

	#define SLURP_OBJECT(obj, member, valp) \
	if (!(obj)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"object for " #obj " to contain object member " #member)))); \
	} \
	*valp = Local<Object>::Cast(obj->Get(String::New(#member)));

	#define SLURP_CONNECTION(arg, conn) \
	if (!(arg)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"argument " #arg " to be a connection object")))); \
	} \
	node_dtrace_connection_t conn; \
	Local<Object> _##conn = Local<Object>::Cast(arg); \
	Local<Value> _handle = (_##conn)->Get(String::New("_handle")); \
	if (_handle->IsObject()) { \
	SLURP_INT(_handle.As<Object>(), fd, &conn.fd); \
	} else { \
	conn.fd = -1; \
	} \
	SLURP_STRING(_##conn, remoteAddress, &conn.remote); \
	SLURP_INT(_##conn, remotePort, &conn.port); \
	SLURP_INT(_##conn, bufferSize, &conn.buffered);

	#define SLURP_CONNECTION_HTTP_CLIENT(arg, conn) \
	if (!(arg)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"argument " #arg " to be a connection object")))); \
	} \
	node_dtrace_connection_t conn; \
	Local<Object> _##conn = Local<Object>::Cast(arg); \
	SLURP_INT(_##conn, fd, &conn.fd); \
	SLURP_STRING(_##conn, host, &conn.remote); \
	SLURP_INT(_##conn, port, &conn.port); \
	SLURP_INT(_##conn, bufferSize, &conn.buffered);

	#define SLURP_CONNECTION_HTTP_CLIENT_RESPONSE(arg0, arg1, conn) \
	if (!(arg0)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"argument " #arg0 " to be a connection object")))); \
	} \
	if (!(arg1)->IsObject()) { \
	return (ThrowException(Exception::Error(String::New("expected " \
	"argument " #arg1 " to be a connection object")))); \
	} \
	node_dtrace_connection_t conn; \
	Local<Object> _##conn = Local<Object>::Cast(arg0); \
	SLURP_INT(_##conn, fd, &conn.fd); \
	SLURP_INT(_##conn, bufferSize, &conn.buffered); \
	_##conn = Local<Object>::Cast(arg1); \
	SLURP_STRING(_##conn, host, &conn.remote); \
	SLURP_INT(_##conn, port, &conn.port);


	Handle<Value> DTRACE_NET_SERVER_CONNECTION(const Arguments& args) {
	#ifndef HAVE_SYSTEMTAP
	if (!NODE_NET_SERVER_CONNECTION_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	SLURP_CONNECTION(args[0], conn);
	#ifdef HAVE_SYSTEMTAP
	NODE_NET_SERVER_CONNECTION(conn.fd, conn.remote, conn.port, \
	conn.buffered);
	#else
	NODE_NET_SERVER_CONNECTION(&conn, conn.remote, conn.port, conn.fd);
	#endif

	return Undefined();
	}

	Handle<Value> DTRACE_NET_STREAM_END(const Arguments& args) {
	#ifndef HAVE_SYSTEMTAP
	if (!NODE_NET_STREAM_END_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	SLURP_CONNECTION(args[0], conn);
	#ifdef HAVE_SYSTEMTAP
	NODE_NET_STREAM_END(conn.fd, conn.remote, conn.port, conn.buffered);
	#else
	NODE_NET_STREAM_END(&conn, conn.remote, conn.port, conn.fd);
	#endif

	return Undefined();
	}

	Handle<Value> DTRACE_NET_SOCKET_READ(const Arguments& args) {
	#ifndef HAVE_SYSTEMTAP
	if (!NODE_NET_SOCKET_READ_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	SLURP_CONNECTION(args[0], conn);

	#ifdef HAVE_SYSTEMTAP
	NODE_NET_SOCKET_READ(conn.fd, conn.remote, conn.port, conn.buffered);
	#else
	if (!args[1]->IsNumber()) {
	return (ThrowException(Exception::Error(String::New("expected "
	"argument 1 to be number of bytes"))));
	}
	int nbytes = args[1]->Int32Value();
	NODE_NET_SOCKET_READ(&conn, nbytes, conn.remote, conn.port, conn.fd);
	#endif

	return Undefined();
	}

	Handle<Value> DTRACE_NET_SOCKET_WRITE(const Arguments& args) {
	#ifndef HAVE_SYSTEMTAP
	if (!NODE_NET_SOCKET_WRITE_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	SLURP_CONNECTION(args[0], conn);

	#ifdef HAVE_SYSTEMTAP
	NODE_NET_SOCKET_WRITE(conn.fd, conn.remote, conn.port, conn.buffered);
	#else
	if (!args[1]->IsNumber()) {
	return (ThrowException(Exception::Error(String::New("expected "
	"argument 1 to be number of bytes"))));
	}
	int nbytes = args[1]->Int32Value();
	NODE_NET_SOCKET_WRITE(&conn, nbytes, conn.remote, conn.port, conn.fd);
	#endif

	return Undefined();
	}

	Handle<Value> DTRACE_HTTP_SERVER_REQUEST(const Arguments& args) {
	node_dtrace_http_server_request_t req;

	#ifndef HAVE_SYSTEMTAP
	if (!NODE_HTTP_SERVER_REQUEST_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	Local<Object> arg0 = Local<Object>::Cast(args[0]);
	Local<Object> headers;

	memset(&req, 0, sizeof(req));
	req._un.version = 1;
	SLURP_STRING(arg0, url, &req.url);
	SLURP_STRING(arg0, method, &req.method);

	SLURP_OBJECT(arg0, headers, &headers);

	if (!(headers)->IsObject())
	return (ThrowException(Exception::Error(String::New("expected "
	"object for request to contain string member headers"))));

	Local<Value> strfwdfor = headers->Get(String::New("x-forwarded-for"));
	String::Utf8Value fwdfor(strfwdfor);

	if (!strfwdfor->IsString() \|\| (req.forwardedFor = *fwdfor) == NULL)
	req.forwardedFor = const_cast<char*>("");

	SLURP_CONNECTION(args[1], conn);

	#ifdef HAVE_SYSTEMTAP
	NODE_HTTP_SERVER_REQUEST(&req, conn.fd, conn.remote, conn.port, \
	conn.buffered);
	#else
	NODE_HTTP_SERVER_REQUEST(&req, &conn, conn.remote, conn.port, req.method, \
	req.url, conn.fd);
	#endif
	return Undefined();
	}

	Handle<Value> DTRACE_HTTP_SERVER_RESPONSE(const Arguments& args) {
	#ifndef HAVE_SYSTEMTAP
	if (!NODE_HTTP_SERVER_RESPONSE_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	SLURP_CONNECTION(args[0], conn);
	#ifdef HAVE_SYSTEMTAP
	NODE_HTTP_SERVER_RESPONSE(conn.fd, conn.remote, conn.port, conn.buffered);
	#else
	NODE_HTTP_SERVER_RESPONSE(&conn, conn.remote, conn.port, conn.fd);
	#endif

	return Undefined();
	}

	Handle<Value> DTRACE_HTTP_CLIENT_REQUEST(const Arguments& args) {
	node_dtrace_http_client_request_t req;
	char *header;

	#ifndef HAVE_SYSTEMTAP
	if (!NODE_HTTP_CLIENT_REQUEST_ENABLED())
	return Undefined();
	#endif

	HandleScope scope;

	/*
	* For the method and URL, we're going to dig them out of the header. This
	* is not as efficient as it could be, but we would rather not force the
	* caller here to retain their method and URL until the time at which
	* DTRACE_HTTP_CLIENT_REQUEST can be called.
	*/
	Local<Object> arg0 = Local<Object>::Cast(args[0]);
	SLURP_STRING(arg0, _header, &header);

	req.method = header;

	while (header != '\0' && header != ' ')
	header++;

	if (*header != '\0')
	*header++ = '\0';

	req.url = header;

	while (header != '\0' && header != ' ')
	header++;

	*header = '\0';

	SLURP_CONNECTION_HTTP_CLIENT(args[1], conn);
	#ifdef HAVE_SYSTEMTAP
	NODE_HTTP_CLIENT_REQUEST(&req, conn.fd, conn.remote, conn.port, \
	conn.buffered);
	#else
	NODE_HTTP_CLIENT_REQUEST(&req, &conn, conn.remote, conn.port, req.method, \
	req.url, conn.fd);
	#endif
	return Undefined();
	}

	Handle<Value> DTRACE_HTTP_CLIENT_RESPONSE(const Arguments& args) {
	#ifndef HAVE_SYSTEMTAP
	if (!NODE_HTTP_CLIENT_RESPONSE_ENABLED())
	return Undefined();
	#endif
	HandleScope scope;

	SLURP_CONNECTION_HTTP_CLIENT_RESPONSE(args[0], args[1], conn);
	#ifdef HAVE_SYSTEMTAP
	NODE_HTTP_CLIENT_RESPONSE(conn.fd, conn.remote, conn.port, conn.buffered);
	#else
	NODE_HTTP_CLIENT_RESPONSE(&conn, conn.remote, conn.port, conn.fd);
	#endif

	return Undefined();
	}

	#define NODE_PROBE(name) #name, name, Persistent<FunctionTemplate>()

	static int dtrace_gc_start(GCType type, GCCallbackFlags flags) {
	#ifdef HAVE_SYSTEMTAP
	NODE_GC_START();
	#else
	NODE_GC_START(type, flags);
	#endif
	/*
	* We avoid the tail-call elimination of the USDT probe (which screws up
	* args) by forcing a return of 0.
	*/
	return 0;
	}

	static int dtrace_gc_done(GCType type, GCCallbackFlags flags) {
	#ifdef HAVE_SYSTEMTAP
	NODE_GC_DONE();
	#else
	NODE_GC_DONE(type, flags);
	#endif
	return 0;
	}

	void InitDTrace(Handle<Object> target) {
	static struct {
	const char *name;
	Handle<Value> (*func)(const Arguments&);
	Persistent<FunctionTemplate> templ;
	} tab[] = {
	{ NODE_PROBE(DTRACE_NET_SERVER_CONNECTION) },
	{ NODE_PROBE(DTRACE_NET_STREAM_END) },
	{ NODE_PROBE(DTRACE_NET_SOCKET_READ) },
	{ NODE_PROBE(DTRACE_NET_SOCKET_WRITE) },
	{ NODE_PROBE(DTRACE_HTTP_SERVER_REQUEST) },
	{ NODE_PROBE(DTRACE_HTTP_SERVER_RESPONSE) },
	{ NODE_PROBE(DTRACE_HTTP_CLIENT_REQUEST) },
	{ NODE_PROBE(DTRACE_HTTP_CLIENT_RESPONSE) }
	};

	for (unsigned int i = 0; i < ARRAY_SIZE(tab); i++) {
	tab[i].templ = Persistent<FunctionTemplate>::New(
	FunctionTemplate::New(tab[i].func));
	target->Set(String::NewSymbol(tab[i].name), tab[i].templ->GetFunction());
	}

	#ifdef HAVE_ETW
	init_etw();
	#endif

	#if defined HAVE_DTRACE \|\| defined HAVE_ETW \|\| defined HAVE_SYSTEMTAP
	v8::V8::AddGCPrologueCallback((GCPrologueCallback)dtrace_gc_start);
	v8::V8::AddGCEpilogueCallback((GCEpilogueCallback)dtrace_gc_done);
	#endif
	}

	}