5.0 KiB
Warning: this is not actual API but desired API.
uv_handle_t
This is the abstract base class of all types of handles. All handles have in common:
-
When handles are initialized, the reference count to the event loop is increased by one.
-
The user owns the
uv_handle_t
memory and is in charge of freeing it. -
In order to free resources associated with a handle, one must
uv_close()
and wait for theuv_close_cb
callback. After the close callback has been made, the user is allowed to theuv_handle_t
object. -
The
uv_close_cb
is always made directly off the event loop. That is, it is not called fromuv_close()
.
uv_tcp_server_t
A TCP server class that is a subclass of uv_handle_t
. This can be bound to
an address and begin accepting new TCP sockets.
int uv_bind4(uv_tcp_server_t* tcp_server, struct sockaddr_in* address);
int uv_bind6(uv_tcp_server_t* tcp_server, struct sockaddr_in6* address);
Binds the TCP server to an address. The address
can be created with
uv_ip4_addr()
. Call this before uv_listen()
Returns zero on success, -1 on failure. Errors in order of least-seriousness:
-
UV_EADDRINUSE
There is already another socket bound to the specified address. -
UV_EADDRNOTAVAIL
Theaddress
parameter is an IP address that is not -
UV_EINVAL
The server is already bound to an address. -
UV_EFAULT
Memory ofaddress
parameter is unintelligible.int uv_listen(uv_tcp_server_t*, int backlog, uv_connection_cb cb);
Begins listening for connections. The accept callback is level-triggered.
int uv_accept(uv_tcp_server_t* server,
uv_tcp_t* client);
Accepts a connection. This should be called after the accept callback is
made. The client
parameter should be uninitialized memory; uv_accept
is
used instead of uv_tcp_init
for server-side uv_tcp_t
initialization.
Return value 0 indicates success, -1 failure. Possible errors:
-
UV_EAGAIN
There are no connections. Wait for theuv_connection_cb
callback to be called again. -
UV_EFAULT
The memory of eitherserver
is unintelligible.
uv_stream_t
An abstract subclass of uv_handle_t
. Streams represent something that
reads and/or writes data. Streams can be half or full-duplex. TCP sockets
are streams, files are streams with offsets.
int uv_read_start(uv_stream_t* stream,
uv_alloc_cb alloc_cb,
uv_read_cb read_cb);
Starts the stream reading continuously. The alloc_cb
is used to allow the
user to implement various means of supplying the stream with buffers to
fill. The read_cb
returns buffers to the user filled with data.
Sometimes the buffers returned to the user do not contain data. This does
not indicate EOF as in other systems. EOF is made via the uv_eof_cb
which
can be set like this uv_set_eof_cb(stream, eof_cb);
int uv_read_stop(uv_stream_t* stream);
Stops reading from the stream.
int uv_write_req_init(uv_write_req_t*,
uv_stream_t*,
uv_buf_t bufs[],
int butcnf);
Initiates a write request on a stream.
int uv_shutdown_req_init(uv_shutdown_req_t*, uv_stream_t*)
Initiates a shutdown of outgoing data once the write queue drains.
uv_tcp_t
The TCP handle class represents one endpoint of a duplex TCP stream.
uv_tcp_t
is a subclass of uv_stream_t
. A TCP handle can represent a
client side connection (one that has been used with uv_connect_req_init) or a server-side connection (one that was initialized with
uv_accept`)
int uv_connect_req_init(uv_connect_req_t* req,
uv_tcp_t* socket,
struct sockaddr* addr);
Initiates a request to open a connection.
uv_req_t
Abstract class represents an asynchronous request. This is a subclass of uv_handle_t
.
uv_connect_req_t
Subclass of uv_req_t
. Represents a request for a TCP connection. Operates
on uv_tcp_t
handles. Like other types of requests the close_cb
indicates
completion of the request.
int uv_connect_req_init(uv_connect_req_t* req,
uv_tcp_t* socket,
struct sockaddr* addr);
Initializes the connection request. Returning 0 indicates success, -1 if
there was an error. The following values can be retrieved from
uv_last_error
in the case of an error:
- ???
uv_shutdown_req_t
Subclass of uv_req_t
. Represents an ongoing shutdown request. Once the
write queue of the parent uv_stream_t
is drained, the outbound data
channel is shutdown. Once a shutdown request is initiated on a stream, the
stream will allow no more writes.
int uv_shutdown_req_init(uv_shutdown_req_t*,
uv_stream_t* parent);
Initializes the shutdown request.
uv_write_req_t
int uv_write_req_init(uv_write_req_t*,
uv_stream_t*,
uv_buf_t bufs[],
int butcnf);
Initiates a write request on a stream.