It wasn't waiting for the child process' stderr to close, so not an
assertion was made *before* all the data that the child process sent
was received by node.
This implements server.listen({ fd: <filedescriptor> }). The fd should
refer to an underlying resource that is already bound and listening, and
causes the new server to also accept connections on it.
Not supported on Windows. Raises ENOTSUP.
The test would fail if the child process writes anything to the stdout.
This doesn't happen on unix, since `cat` is spawned. However, on Windows
`cmd` is started, which *does* write stuff to it's stdout. This
meanlingless assert is now removed.
In Windows the callbacks arrive in slightly different order. A bunch
of write operations complete immediately, and after that there is a
gap of a few hundred ms. This causes the timeout timer to fire, which
is not really warranted; the first few write operations just finished a
little quicker than expected.
Callbacks that were passed to the binding layer ran in the context of the
(internal) binding object. Make sure they run in the global context.
Before:
fs.symlink('a', 'b', function() {
console.log(this); // prints "{ oncomplete: [Function] }"
});
After:
fs.symlink('a', 'b', function() {
console.log(this); // prints "{ <global object> }"
});
The server 'close' event was emitted before the last client 'close' event. Not
exactly fatal but potentially confusing.
Before this commit the order looked something like [client, server, client],
now it looks like [client, client, server].
See #3340 for more details.
In case a fd option is given to fs.createReadStream a read will instantly
happen. But in the edge case where fd point to an empty file and .pause()
was executed instantly, the end event would emit since no async wait was
between fs.createReadStream and the file read there emits end.
Said test relies a great deal on internals and implementation details (I should
know, I wrote it). Patch it up to work with libuv's new refcounting scheme.
In case a worker would spawn a new subprocess with process.env, NODE_UNIQUE_ID
would have been a part of the env. Making the new subprocess believe it is a
worker, this would result in some confusion if the subprocess where to listen to
a port, since the server handle request would then be relayed to the worker.
This patch removes the NODE_UNIQUE_ID flag from process.env on startup so any
subprocess spawned by a worker is a normal process with no cluster stuff.