node - evented I/O for V8 javascript
An example of a web server written with Node which responds with "Hello World" after waiting two seconds:
node.http.createServer(function (request, response) {
setTimeout(function () {
response.sendHeader(200, {"Content-Type": "text/plain"});
response.sendBody("Hello World");
response.finish();
}, 2000);
}).listen(8000);
puts("Server running at http://127.0.0.1:8000/");
To run the server, put the code into a file called example.js and execute it with the node program
> node example.js Server running at http://127.0.0.1:8000/
Node supports 4 byte-string encodings. ASCII ("ascii"), UTF-8 ("utf8") both use the string object, obviously. Then two "raw binary" encodings - one uses an array of integers ("raw") and the other uses a string ("raws"). Neither raw encodings are perfect and their implementations are rather inefficient. Hopefully the raw encoding situation will improve in the future.
Unless otherwise noted, functions are all asynchronous and do not block execution.
Outputs the string and a trailing new-line to stdout.
Everything in node is asynchronous; puts() is no exception. This might seem ridiculous but, if for example, one is piping stdout into an NFS file, printf() will block from network latency. There is an internal queue for puts() output, so you can be assured that output will be displayed in the order it was called.
A synchronous output function. Will block the process and output the string immediately to stdout.
Print the JSON representation of object to the standard output.
Like puts() but without the trailing new-line.
Immediately ends the process with the specified code.
Returns the current working directory of the process.
An array containing the command line arguments.
An object containing the user environment. See environ(7).
The filename of the script being executed.
A special global object. The process object is like the window object of browser-side javascript.
Many objects in Node emit events: a TCP server emits an event each time there is a connection, a child process emits an event when it exits. All objects which emit events are are instances of node.EventEmitter.
Events are represented by a snakecased string. Here are some examples: "connection", "receive", "message_begin".
Functions can be then be attached to objects, to be executed when an event is emitted. These functions are called listeners.
Some asynchronous file operations return an EventEmitter called a promise. A promise emits just a single event when the operation is complete.
All EventEmitters emit the event "newListener" when new listeners are added.
| Event | Parameters | Notes |
|---|---|---|
"newListener" |
event, listener |
This event is made any time someone adds a new listener. |
Adds a listener to the end of the listeners array for the specified event.
server.addListener("connection", function (socket) {
puts("someone connected!");
});
Returns an array of listeners for the specified event. This array can be manipulated, e.g. to remove listeners.
Execute each of the listeners in order with the supplied arguments.
node.Promise inherits from node.eventEmitter. A promise emits one of two events: "success" or "error". After emitting its event, it will not emit anymore events.
| Event | Parameters | Notes |
|---|---|---|
"success" |
(depends) |
|
"error" |
(depends) |
Adds a listener for the "success" event. Returns the same promise object.
Adds a listener for the "error" event. Returns the same promise object.
Blocks futher execution until the promise emits a success or error event. Events setup before the call to promise.wait() was made may still be emitted and executed while promise.wait() is blocking.
If there was a single argument to the "success" event then it is returned. If there were multiple arguments to "success" then they are returned as an array.
If "error" was emitted instead, wait() throws an error.
IMPORTANT promise.wait() is not a true fiber/coroutine. If any other promises are created and made to wait while the first promise waits, the first promise’s wait will not return until all others return. The benefit of this is a simple implementation and the event loop does not get blocked. Disadvantage is the possibility of situations where the promise stack grows infinitely large because promises keep getting created and keep being told to wait(). Use promise.wait() sparingly—probably best used only during program setup, not during busy server activity.
Standard I/O is handled through a special object node.stdio. stdout and stdin are fully non-blocking (even when piping to files). stderr is synchronous.
| Event | Parameters | Notes |
|---|---|---|
"data" |
data |
Made when stdin has received a chunk of data. Depending on the encoding that stdin was opened with, data will be either an array of integers (raw encoding) or a string (ascii or utf8 encoding). This event will only be emited after node.stdio.open() has been called. |
"close" |
Made when stdin has been closed. |
Open stdin. The program will not exit until node.stdio.close() has been called or the "close" event has been emitted.
Write data to stdout.
Write data to stderr. Synchronous.
Close stdin.
Node has a simple module loading system. In Node, files and modules are in one-to-one correspondence. As an example, foo.js loads the module circle.js.
The contents of foo.js:
var circle = require("circle.js");
puts("The area of a circle of radius 4 is " + circle.area(4));
The contents of circle.js:
var PI = 3.14;
exports.area = function (r) {
return PI * r * r;
};
exports.circumference = function (r) {
return 2 * PI * r;
};
The module circle.js has exported the functions area() and circumference(). To export an object, add to the special exports object. (Alternatively, one can use this instead of exports.) Variables local to the module will be private. In this example the variable PI is private to circle.js.
The module path is relative to the file calling require(). That is, circle.js must be in the same directory as foo.js for require() to find it.
HTTP URLs can also be used to load modules. For example,
var circle = require("http://tinyclouds.org/node/circle.js");
Like require() the function include() also loads a module. Instead of returning a namespace object, include() will add the module’s exports into the global namespace. For example:
include("circle.js");
puts("The area of a cirlce of radius 4 is " + area(4));
Functions require_async() and include_async() also exist.
When the program exits a special object called process will emit an "exit" event.
The "exit" event cannot perform I/O since the process is going to forcibly exit in less than microsecond. However, it is a good hook to perform constant time checks of the module’s state. E.G. for unit tests:
include("asserts.js");
var timer_executed = false;
setTimeout(function () {
timer_executed = true
}, 1000);
process.addListener("exit", function () {
assertTrue(timer_executed);
});
Just to reiterate: the "exit" event, is not the place to close files or shutdown servers. The process will exit before they get performed.
To schedule execution of callback after delay milliseconds. Returns a timeoutId for possible use with clearTimeout().
Prevents said timeout from triggering.
To schedule the repeated execution of callback every delay milliseconds. Returns a intervalId for possible use with clearInterval().
Stops a interval from triggering.
Node provides a tridirectional popen(3) facility through the class node.ChildProcess. It is possible to stream data through the child’s stdin, stdout, and stderr in a fully non-blocking way.
| Event | Parameters | Notes |
|---|---|---|
"output" |
data |
Each time the child process sends data to its stdout, this event is
emitted. data is a string. |
"error" |
data |
Identical to the "output" event except for stderr instead of stdout. |
"exit" |
code |
This event is emitted after the child process ends. code is the final exit code of the process. One can be assured that after this event is emitted that the "output" and "error" callbacks will no longer be made. |
Launches a new process with the given command. For example:
var ls = node.createChildProcess("ls -lh /usr");
ls.addListener("output", function (data) {
puts(data);
});
The PID of the child process.
Write data to the child process’s stdin. The second argument is optional and specifies the encoding: possible values are "utf8", "ascii", and "raw".
Closes the process’s stdin stream.
Send a single to the child process. If no argument is given, the process will be sent node.SIGTERM. The standard POSIX signals are defined under the node namespace (node.SIGINT, node.SIGUSR1, …).
File I/O is provided by simple wrappers around standard POSIX functions. All POSIX wrappers have a similar form. They return a promise (node.Promise). Example:
var promise = node.fs.unlink("/tmp/hello");
promise.addCallback(function () {
puts("successfully deleted /tmp/hello");
});
There is no guaranteed ordering to the POSIX wrappers. The following is very much prone to error
node.fs.rename("/tmp/hello", "/tmp/world");
node.fs.stat("/tmp/world").addCallback(function (stats) {
puts("stats: " + JSON.stringify(stats));
});
It could be that stat() is executed before the rename(). The correct way to do this is to chain the promises.
node.fs.rename("/tmp/hello", "/tmp/world").addCallback(function () {
node.fs.stat("/tmp/world").addCallback(function (stats) {
puts("stats: " + JSON.stringify(stats));
});
});
Or use the promise.wait() functionality:
node.fs.rename("/tmp/hello", "/tmp/world").wait();
node.fs.stat("/tmp/world").addCallback(function (stats) {
puts("stats: " + JSON.stringify(stats));
});
See rename(2).
on success: no parameters.
on error: no parameters.
See stat(2).
on success: Returns node.fs.Stats object. It looks like this: { dev: 2049, ino: 305352, mode: 16877, nlink: 12, uid: 1000, gid: 1000, rdev: 0, size: 4096, blksize: 4096, blocks: 8, atime: "2009-06-29T11:11:55Z", mtime: "2009-06-29T11:11:40Z", ctime: "2009-06-29T11:11:40Z" } See the node.fs.Stats section below for more information.
on error: no parameters.
See unlink(2)
on success: no parameters.
on error: no parameters.
See rmdir(2)
on success: no parameters.
on error: no parameters.
See mkdir(2)
on success: no parameters.
on error: no parameters.
Reads the contents of a directory.
on success: One argument, an array containing the names (strings) of the files in the directory (excluding "." and "..").
on error: no parameters.
See close(2)
on success: no parameters.
on error: no parameters.
See open(2). The constants like O_CREAT are defined at node.O_CREAT.
on success: fd is given as the parameter.
on error: no parameters.
Write data to the file specified by fd. data is either an array of integers (for raw data) or a string for UTF-8 encoded characters. position refers to the offset from the beginning of the file where this data should be written. If position is null, the data will be written at the current position. See pwrite(2).
on success: returns an integer written which specifies how many bytes were written.
on error: no parameters.
Read data from the file specified by fd.
length is an integer specifying the number of bytes to read.
position is an integer specifying where to begin reading from in the file.
encoding is either node.UTF8 or node.RAW.
on success: returns data, bytes_read, what was read from the file.
on error: no parameters.
Outputs the entire contents of a file. Example:
node.fs.cat("/etc/passwd", "utf8").addCallback(function (content) {
puts(content);
});
on success: returns data, what was read from the file.
on error: no parameters.
Objects returned from node.fs.stat() are of this type.
…
The HTTP interfaces in Node are designed to support many features of the protocol which have been traditionally difficult to use. In particular, large, possibly chunk-encoded, messages. The interface is careful to never buffer entire requests or responses—the user is able to stream data.
HTTP message headers are represented by an object like this
{ "Content-Length": "123"
, "Content-Type": "text/plain"
, "Connection": "keep-alive"
, "Accept": "*/*"
}
In order to support the full spectrum of possible HTTP applications, Node’s HTTP API is very low-level. It deals with connection handling and message parsing only. It parses a message into headers and body but it does not parse the actual headers or the body. That means, for example, that Node does not, and will never, provide API to access or manipulate Cookies or multi-part bodies. This is left to the user.
| Event | Parameters | Notes |
|---|---|---|
"request" |
request, response |
request is an instance of node.http.ServerRequest |
"connection" |
connection |
When a new TCP connection is established. connection is an object of type node.http.Connection. Usually users will not want to access this event. The connection can also be accessed at request.connection. |
"close" |
errorno |
Emitted when the server closes. errorno is an integer which indicates what, if any, error caused the server to close. If no error occured errorno will be 0. |
Returns a new web server object.
The options argument is optional. The options argument accepts the same values as the options argument for node.tcp.Server does.
The request_listener is a function which is automatically added to the "request" event.
Begin accepting connections on the specified port and hostname. If the hostname is omitted, the server will accept connections directed to any address. This function is synchronous.
Stops the server from accepting new connections.
This object is created internally by a HTTP server—not by the user—and passed as the first argument to a "request" listener.
| Event | Parameters | Notes |
|---|---|---|
"body" |
chunk |
Emitted when a piece of the message body is received. Example: A chunk of the body is given as the single argument. The transfer-encoding has been decoded. The body chunk is either a String in the case of UTF-8 encoding or an array of numbers in the case of raw encoding. The body encoding is set with request.setBodyEncoding(). |
"complete" |
Emitted exactly once for each message. No arguments. After emitted no other events will be emitted on the request. |
The request method as a string. Read only. Example: "GET", "DELETE".
Request URI Object. This contains only the parameters that are present in the actual HTTP request. That is, if the request is
GET /status?name=ryan HTTP/1.1\r\n Accept: */*\r\n \r\n
Then request.uri will be
{ path: "/status",
file: "status",
directory: "/",
params: { "name" : "ryan" }
}
In particular, note that request.uri.protocol is undefined. This is because there was no URI protocol given in the actual HTTP Request.
request.uri.anchor, request.uri.query, request.uri.file, request.uri.directory, request.uri.path, request.uri.relative, request.uri.port, request.uri.host, request.uri.password, request.uri.user, request.uri.authority, request.uri.protocol, request.uri.params, request.uri.toString(), request.uri.source
Read only.
The HTTP protocol version as a string. Read only. Examples: "1.1", "1.0"
Set the encoding for the request body. Either "utf8" or "raw". Defaults to raw.
Pauses request from emitting events. Useful to throttle back an upload.
Resumes a paused request.
The node.http.Connection object.
This object is created internally by a HTTP server—not by the user. It is passed as the second parameter to the "request" event.
Sends a response header to the request. The status code is a 3-digit HTTP status code, like 404. The second argument, headers are the response headers.
Example:
var body = "hello world";
response.sendHeader(200, {
"Content-Length": body.length,
"Content-Type": "text/plain"
});
This method must only be called once on a message and it must be called before response.finish() is called.
This method must be called after sendHeader was called. It sends a chunk of the response body. This method may be called multiple times to provide successive parts of the body.
If chunk is a string, the second parameter specifies how to encode it into a byte stream. By default the encoding is "ascii".
Note: This is the raw HTTP body and has nothing to do with higher-level multi-part body encodings that may be used.
The first time sendBody is called, it will send the buffered header information and the first body to the client. The second time sendBody is called, Node assumes you’re going to be streaming data, and sends that seperately. That is, the response is buffered up to the first chunk of body.
This method signals to the server that all of the response headers and body has been sent; that server should consider this message complete. The method, response.finish(), MUST be called on each response.
An HTTP client is constructed with a server address as its argument, the returned handle is then used to issue one or more requests. Depending on the server connected to, the client might pipeline the requests or reestablish the connection after each connection. Currently the implementation does not pipeline requests.
Example of connecting to google.com
var google = node.http.createClient(80, "google.com");
var request = google.get("/");
request.finish(function (response) {
puts("STATUS: " + response.statusCode);
puts("HEADERS: " + JSON.stringify(response.headers));
response.setBodyEncoding("utf8");
response.addListener("body", function (chunk) {
puts("BODY: " + chunk);
});
});
Constructs a new HTTP client. port and host refer to the server to be connected to. A connection is not established until a request is issued.
Issues a request; if necessary establishes connection. Returns a node.http.ClientRequest instance.
request_headers is optional. Additional request headers might be added internally by Node. Returns a ClientRequest object.
Do remember to include the Content-Length header if you plan on sending a body. If you plan on streaming the body, perhaps set Transfer-Encoding: chunked.
|
Note
|
the request is not complete. This method only sends the header of the request. One needs to call request.finish() to finalize the request and retrieve the response. (This sounds convoluted but it provides a chance for the user to stream a body to the server with request.sendBody().) |
This object is created internally and returned from the request methods of a node.http.Client. It represents an in-progress request whose header has already been sent.
| Event | Parameters | Notes |
|---|---|---|
"response" |
response |
Emitted when a response is received to this request. Typically the user will
set a listener to this via the request.finish() method. |
Sends a chunk of the body. By calling this method many times, the user can stream a request body to a server—in that case it is suggested to use the ["Transfer-Encoding", "chunked"] header line when creating the request.
The chunk argument should be an array of integers or a string.
The encoding argument is optional and only applies when chunk is a string. The encoding argument should be either "utf8" or "ascii". By default the body uses ASCII encoding, as it is faster.
Finishes sending the request. If any parts of the body are unsent, it will flush them to the socket. If the request is chunked, this will send the terminating "0\r\n\r\n".
The parameter response_listener is a callback which will be executed when the response headers have been received. The response_listener callback is executed with one argument which is an instance of node.http.ClientResponse.
This object is created internally and passed to the "response" event.
| Event | Parameters | Notes |
|---|---|---|
"body" |
chunk |
Emitted when a piece of the message body is received. Example: A chunk of the body is given as the single argument. The transfer-encoding has been decoded. The body chunk is either a String in the case of UTF-8 encoding or an array of numbers in the case of raw encoding. The body encoding is set with response.setBodyEncoding(). |
"complete" |
Emitted exactly once for each message. No arguments. After emitted no other events will be emitted on the response. |
The 3-digit HTTP response status code. E.G. 404.
The HTTP version of the connected-to server. Probably either "1.1" or "1.0".
The response headers.
Set the encoding for the response body. Either "utf8" or "raw". Defaults to raw.
Pauses response from emitting events. Useful to throttle back a download.
Resumes a paused response.
A reference to the node.http.Client that this response belongs to.
Here is an example of a echo server which listens for connections on port 7000
function echo (socket) {
socket.setEncoding("utf8");
socket.addListener("connect", function () {
socket.send("hello\r\n");
});
socket.addListener("receive", function (data) {
socket.send(data);
});
socket.addListener("eof", function () {
socket.send("goodbye\r\n");
socket.close();
});
}
var server = node.tcp.createServer(echo);
server.listen(7000, "localhost");
| Event | Parameters | Notes |
|---|---|---|
"connection" |
connection |
Emitted when a new connection is made. connection is an instance of node.tcp.Connection. |
"close" |
errorno |
Emitted when the server closes. errorno is an integer which indicates what, if any, error caused the server to close. If no error occurred errorno will be 0. |
Creates a new TCP server.
The connection_listener argument is automatically set as a listener for the "connection" event.
Tells the server to listen for TCP connections to port and host.
host is optional. If host is not specified the server will accept client connections on any network address.
The third argument, backlog, is also optional and defaults to 1024. The backlog argument defines the maximum length to which the queue of pending connections for the server may grow.
This function is synchronous.
Stops the server from accepting new connections. This function is asynchronous, the server is finally closed when the server emits a "close" event.
This object is used as a TCP client and also as a server-side socket for node.tcp.Server.
| Event | Parameters | Notes |
|---|---|---|
"connect" |
Call once the connection is established after a call to createConnection() or connect(). |
|
"receive" |
data |
Called when data is received on the connection. Encoding of data is set by connection.setEncoding(). data will either be a string, in the case of utf8, or an array of integer in the case of raw encoding. |
"eof" |
Called when the other end of the connection sends a FIN packet. After this is emitted the readyState will be "writeOnly". One should probably just call connection.close() when this event is emitted. |
|
"timeout" |
Emitted if the connection times out from inactivity. The "close" event will be emitted immediately following this event. |
|
"close" |
had_error |
Emitted once the connection is fully closed. The argument had_error is a boolean which says if the connection was closed due to a transmission error. (TODO: access error codes.) |
Creates a new connection object and opens a connection to the specified port and host. If the second parameter is omitted, localhost is assumed.
When the connection is established the "connect" event will be emitted.
Opens a connection to the specified port and host. createConnection() also opens a connection; normally this method is not needed. Use this only if a connection is closed and you want to reuse the object to connect to another server.
This function is asynchronous. When the "connect" event is emitted the connection is established. If there is a problem connecting, the "connect" event will not be emitted, the "close" event will be emitted with had_error == true.
The string representation of the remote IP address. For example, "74.125.127.100" or "2001:4860:a005::68".
This member is only present in server-side connections.
Either "closed", "open", "opening", "readOnly", or "writeOnly".
Sets the encoding (either "utf8" or "raw") for data that is received.
Sends data on the connection. The data should be eithre an array of integers (for raw binary) or a string (for utf8 or ascii). The second parameter specifies the encoding in the case of a string—it defaults to ASCII because encoding to UTF8 is rather slow.
Half-closes the connection. I.E., it sends a FIN packet. It is possible the server will still send some data. After calling this readyState will be "readOnly".
Ensures that no more I/O activity happens on this socket. Only necessary in case of errors (parse error or so).
Pauses the reading of data. That is, "receive" events will not be emitted. Useful to throttle back an upload.
Resumes reading if reading was paused by readPause().
Sets the connection to timeout after timeout milliseconds of inactivity on the connection. By default all node.tcp.Connection objects have a timeout of 60 seconds (60000 ms).
If timeout is 0, then the idle timeout is disabled.
Here is an example of which resolves "www.google.com" then reverse resolves the IP addresses which are returned.
var resolution = node.dns.resolve4("www.google.com");
resolution.addCallback(function (addresses, ttl, cname) {
puts("addresses: " + JSON.stringify(addresses));
puts("ttl: " + JSON.stringify(ttl));
puts("cname: " + JSON.stringify(cname));
for (var i = 0; i < addresses.length; i++) {
var a = addresses[i];
var reversing = node.dns.reverse(a);
reversing.addCallback( function (domains, ttl, cname) {
puts("reverse for " + a + ": " + JSON.stringify(domains));
});
reversing.addErrback( function (code, msg) {
puts("reverse for " + a + " failed: " + msg);
});
}
});
resolution.addErrback(function (code, msg) {
puts("error: " + msg);
});
Resolves a domain (e.g. "google.com") into an array of IPv4 addresses (e.g. ["74.125.79.104", "74.125.79.105", "74.125.79.106"]). This function returns a promise.
on success: returns addresses, ttl, cname. ttl (time-to-live) is an integer specifying the number of seconds this result is valid for. cname is the canonical name for the query.
on error: returns code, msg. code is one of the error codes listed below and msg is a string describing the error in English.
The same as node.dns.resolve4() except for IPv6 queries (an AAAA query).
Reverse resolves an ip address to an array of domain names.
on success: returns domains, ttl, cname. ttl (time-to-live) is an integer specifying the number of seconds this result is valid for. cname is the canonical name for the query. domains is an array of domains.
on error: returns code, msg. code is one of the error codes listed below and msg is a string describing the error in English.
Each DNS query can return an error code.
node.dns.TEMPFAIL: timeout, SERVFAIL or similar.
node.dns.PROTOCOL: got garbled reply.
node.dns.NXDOMAIN: domain does not exists.
node.dns.NODATA: domain exists but no data of reqd type.
node.dns.NOMEM: out of memory while processing.
node.dns.BADQUERY: the query is malformed.
External modules can be compiled and dynamically linked into Node. Node is more or less glue between several C and C++ libraries:
V8 Javascript, a C++ library. Used for interfacing with Javascript: creating objects, calling functions, etc. Documented mostly in the v8.h header file (deps/v8/include/v8.h in the Node source tree).
libev, C event loop library. Anytime one needs to wait for a file descriptor to become readable, wait for a timer, or wait for a signal to received one will need to interface with libev. That is, if you perform any I/O, libev will need to be used. Node uses the EV_DEFAULT event loop. Documentation can be found here.
libeio, C thread pool library. Used to execute blocking POSIX system calls asynchronously. Mostly wrappers already exist for such calls, in src/file.cc so you will probably not need to use it. If you do need it, look at the header file deps/libeio/eio.h.
Internal Node libraries. Most importantly is the node::EventEmitter class which you will likely want to derive from.
Others. Look in deps/ for what else is available.
Node statically compiles all its dependencies into the executable. When compiling your module, you don’t need to worry about linking to any of these libraries.
Here is a sample Makefile taken from node_postgres:
binding.node: binding.o Makefile
gcc -shared -o binding.node binding.o \
-L`pg_config --libdir` -lpq
binding.o: binding.cc Makefile
gcc `node --cflags` -I`pg_config --includedir` \
binding.cc -c -o binding.o
clean:
rm -f binding.o binding.node
.PHONY: clean
As you can see, the only thing your module needs to know about Node is the CFLAGS that node was compiled with which are gotten from node --cflags If you want to make a debug build, then use node_g --cflags. (node_g is the debug build of node, which can built with configure --debug; make; make install.)
Node extension modules are dynamically linked libraries with a .node extension. Node opens this file and looks for a function called init() which must be of the form:
extern "C" void init (Handle<Object> target)
In this function you can create new javascript objects and attach them to target. Here is a very simple module:
extern "C" void
init (Handle<Object> target)
{
HandleScope scope;
target->Set(String::New("hello"), String::New("World"));
}
Further documentation will come soon. For now see the source code of node_postgres.