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PhutilChannel.php
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Created
Thu, Nov 21, 20:12
Size
7 KB
Mime Type
text/x-php
Expires
Sat, Nov 23, 20:12 (1 d, 19 h)
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blob
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Handle
22466023
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rPHU libphutil
PhutilChannel.php
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<?php
/**
* Wrapper arounds streams, pipes, and other things that have basic read/write
* I/O characteristics.
*
* Channels include buffering, so you can do fire-and-forget writes and reads
* without worrying about network/pipe buffers. Use @{method:read} and
* @{method:write} to read and write.
*
* Channels are nonblocking and provide a select()-oriented interface so you
* can reasonably write server-like and daemon-like things with them. Use
* @{method:waitForAny} to select channels.
*
* Channel operations other than @{method:update} generally operate on buffers.
* Writes and reads affect buffers, while @{method:update} flushes output
* buffers and fills input buffers.
*
* Channels are either "open" or "closed". You can detect that a channel has
* closed by calling @{method:isOpen} or examining the return value of
* @{method:update}.
*
* NOTE: Channels are new (as of June 2012) and subject to interface changes.
*
* @task io Reading and Writing
* @task wait Waiting for Activity
* @task update Responding to Activity
* @task impl Channel Implementation
*
* @group channel
*/
abstract
class
PhutilChannel
{
private
$ibuf
=
''
;
private
$obuf
=
''
;
private
$name
;
/* -( Reading and Writing )------------------------------------------------ */
/**
* Read from the channel. A channel defines the format of data that is read
* from it, so this method may return strings, objects, or anything else.
*
* The default implementation returns bytes.
*
* @return wild Data from the channel, normally bytes.
*
* @task io
*/
public
function
read
()
{
$result
=
$this
->
ibuf
;
$this
->
ibuf
=
''
;
return
$result
;
}
/**
* Write to the channel. A channel defines what data format it accepts,
* so this method may take strings, objects, or anything else.
*
* The default implementation accepts bytes.
*
* @param wild Data to write to the channel, normally bytes.
* @return this
*
* @task io
*/
public
function
write
(
$bytes
)
{
if
(!
is_scalar
(
$bytes
))
{
throw
new
Exception
(
"PhutilChannel->write() may only write strings!"
);
}
$this
->
obuf
.=
$bytes
;
return
$this
;
}
/* -( Waiting for Activity )----------------------------------------------- */
/**
* Wait (using select()) for activity on any channel. This method blocks until
* some channel is ready to be updated.
*
* It does not provide a way to determine which channels are ready to be
* updated. The expectation is that you'll just update every channel. This
* might change eventually.
*
* Available options are:
*
* - 'read' (list<stream>) Additional streams to select for read.
* - 'write' (list<stream>) Additional streams to select for write.
* - 'except' (list<stream>) Additional streams to select for except.
* - 'timeout' (float) Select timeout, defaults to 1.
*
* NOTE: Extra streams must be //streams//, not //sockets//, because this
* method uses `stream_select()`, not `socket_select()`.
*
* @param list<PhutilChannel> A list of channels to wait for.
* @param dict Options, see above.
* @return void
*
* @task wait
*/
public
static
function
waitForAny
(
array
$channels
,
array
$options
=
array
())
{
assert_instances_of
(
$channels
,
'PhutilChannel'
);
$read
=
idx
(
$options
,
'read'
,
array
());
$write
=
idx
(
$options
,
'write'
,
array
());
$except
=
idx
(
$options
,
'except'
,
array
());
$wait
=
idx
(
$options
,
'timeout'
,
1
);
foreach
(
$channels
as
$channel
)
{
// If any of the channels have data in read buffers, return immediately.
// If we don't, we risk running select() on a bunch of sockets which won't
// become readable because the data the application expects is already
// in a read buffer.
if
(!
$channel
->
isReadBufferEmpty
())
{
return
;
}
$r_sockets
=
$channel
->
getReadSockets
();
$w_sockets
=
$channel
->
getWriteSockets
();
// If any channel has no read sockets and no write sockets, assume it
// isn't selectable and return immediately (effectively degrading to a
// busy wait).
if
(!
$r_sockets
&&
!
$w_sockets
)
{
return
;
}
foreach
(
$r_sockets
as
$socket
)
{
$read
[]
=
$socket
;
$except
[]
=
$socket
;
}
foreach
(
$w_sockets
as
$socket
)
{
$write
[]
=
$socket
;
$except
[]
=
$socket
;
}
}
if
(!
$read
&&
!
$write
&&
!
$except
)
{
return
false
;
}
$wait_sec
=
(
int
)
$wait
;
$wait_usec
=
1000000
*
(
$wait
-
$wait_sec
);
@
stream_select
(
$read
,
$write
,
$except
,
$wait_sec
,
$wait_usec
);
}
/* -( Responding to Activity )--------------------------------------------- */
/**
* Updates the channel, filling input buffers and flushing output buffers.
* Returns false if the channel has closed.
*
* @return bool True if the channel is still open.
*
* @task update
*/
public
function
update
()
{
while
(
true
)
{
$in
=
$this
->
readBytes
();
if
(!
strlen
(
$in
))
{
// Reading is blocked for now.
break
;
}
$this
->
ibuf
.=
$in
;
}
while
(
strlen
(
$this
->
obuf
))
{
$len
=
$this
->
writeBytes
(
$this
->
obuf
);
if
(!
$len
)
{
// Writing is blocked for now.
break
;
}
$this
->
obuf
=
substr
(
$this
->
obuf
,
$len
);
}
return
$this
->
isOpen
();
}
/* -( Channel Implementation )--------------------------------------------- */
/**
* Set a channel name. This is primarily intended to allow you to debug
* channel code more easily, by naming channels something meaningful.
*
* @param string Channel name.
* @return this
*
* @task impl
*/
public
function
setName
(
$name
)
{
$this
->
name
=
$name
;
return
$this
;
}
/**
* Get the channel name, as set by @{method:setName}.
*
* @return string Name of the channel.
*
* @task impl
*/
public
function
getName
()
{
return
coalesce
(
$this
->
name
,
get_class
(
$this
));
}
/**
* Test if the channel is open: active, can be read from and written to, etc.
*
* @return bool True if the channel is open.
*
* @task impl
*/
abstract
public
function
isOpen
();
/**
* Read from the channel's underlying I/O.
*
* @return string Bytes, if available.
*
* @task impl
*/
abstract
protected
function
readBytes
();
/**
* Write to the channel's underlying I/O.
*
* @param string Bytes to write.
* @return int Number of bytes written.
*
* @task impl
*/
abstract
protected
function
writeBytes
(
$bytes
);
/**
* Get sockets to select for reading.
*
* @return list<stream> Read sockets.
*
* @task impl
*/
protected
function
getReadSockets
()
{
return
array
();
}
/**
* Get sockets to select for writing.
*
* @return list<stream> Write sockets.
*
* @task impl
*/
protected
function
getWriteSockets
()
{
return
array
();
}
/**
* Test state of the read buffer.
*
* @return bool True if the read buffer is empty.
*
* @task impl
*/
protected
function
isReadBufferEmpty
()
{
return
(
strlen
(
$this
->
ibuf
)
==
0
);
}
/**
* Test state of the write buffer.
*
* @return bool True if the write buffer is empty.
*
* @task impl
*/
protected
function
isWriteBufferEmpty
()
{
return
(
strlen
(
$this
->
obuf
)
==
0
);
}
/**
* Wait for any buffered writes to complete. This is a blocking call. When
* the call returns, the write buffer will be empty.
*
* @task impl
*/
public
function
flush
()
{
while
(!
$this
->
isWriteBufferEmpty
())
{
self
::
waitForAny
(
array
(
$this
));
if
(!
$this
->
update
())
{
throw
new
Exception
(
"Channel closed while flushing output!"
);
}
}
return
$this
;
}
}
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