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factor/library/io/unix/io.factor

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! Copyright (C) 2004, 2006 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
IN: io-internals
USING: alien arrays errors generic hashtables io kernel
kernel-internals math parser sequences strings threads
unix-internals vectors words ;
! We want namespaces::bind to shadow the bind system call from
! unix-internals
USING: namespaces ;
! This will go elsewhere soon
: byte-bit ( n alien -- byte bit )
over -5 shift alien-unsigned-4 swap 31 bitand ;
: bit-nth ( n alien -- ? )
byte-bit 1 swap shift bitand 0 > ;
: set-bit ( ? byte bit -- byte )
1 swap shift rot [ bitor ] [ bitnot bitand ] if ;
: set-bit-nth ( ? n alien -- )
[ byte-bit set-bit ] 2keep
swap -5 shift set-alien-unsigned-4 ;
: clear-bits ( alien len -- )
[ 0 -rot set-alien-unsigned-1 ] each-with ;
! Global variables
SYMBOL: read-fdset
SYMBOL: read-tasks
SYMBOL: write-fdset
SYMBOL: write-tasks
! Some general stuff
: file-mode OCT: 0600 ;
: (io-error) ( -- * ) err_no strerror throw ;
: check-null ( n -- ) zero? [ (io-error) ] when ;
: io-error ( n -- ) 0 < [ (io-error) ] when ;
: init-handle ( fd -- )
#! We drop the error code rather than calling io-error,
#! since on OS X 10.3, this operation fails from init-io
#! when running the Factor.app (presumably because fd 0 and
#! 1 are closed).
F_SETFL O_NONBLOCK fcntl drop ;
! Common delegate of native stream readers and writers
SYMBOL: input
SYMBOL: output
SYMBOL: closed
TUPLE: port handle error timeout cutoff type sbuf eof? ;
PREDICATE: port input-port port-type input eq? ;
PREDICATE: port output-port port-type output eq? ;
C: port ( handle buffer -- port )
[ set-delegate ] keep
[ >r dup init-handle r> set-port-handle ] keep
[ 0 swap set-port-timeout ] keep
[ 0 swap set-port-cutoff ] keep
80 <sbuf> over set-port-sbuf ;
: touch-port ( port -- )
dup port-timeout dup zero?
[ 2drop ] [ millis + swap set-port-cutoff ] if ;
M: port set-timeout
[ set-port-timeout ] keep touch-port ;
: buffered-port 32768 <buffer> <port> ;
: >port< dup port-handle swap delegate ;
: pending-error ( port -- )
dup port-error f rot set-port-error [ throw ] when* ;
: report-error ( error port -- )
[ "Error on fd " % dup port-handle # ": " % swap % ] "" make
swap set-port-error ;
: defer-error ( port -- ? )
#! Return t if it is an unrecoverable error.
err_no dup EAGAIN = over EINTR = or
[ 2drop f ] [ strerror swap report-error t ] if ;
! Associates a port with a list of continuations waiting on the
! port to finish I/O
TUPLE: io-task port callbacks ;
C: io-task ( port -- task )
[ set-io-task-port ] keep
V{ } clone over set-io-task-callbacks ;
! Multiplexer
GENERIC: do-io-task ( task -- ? )
GENERIC: task-container ( task -- vector )
: io-task-fd io-task-port port-handle ;
: add-io-task ( callback task -- )
[ io-task-callbacks push ] keep
dup io-task-fd over task-container 2dup hash [
"Cannot perform multiple reads from the same port" throw
] when set-hash ;
: remove-io-task ( task -- )
dup io-task-fd swap task-container remove-hash ;
: pop-callbacks ( task -- )
dup io-task-callbacks swap remove-io-task
[ schedule-thread ] each ;
: handle-fd ( task -- )
dup io-task-port touch-port
dup do-io-task [ pop-callbacks ] [ drop ] if ;
: timeout? ( port -- ? )
port-cutoff dup zero? not swap millis < and ;
: handle-fdset ( fdset tasks -- )
[
nip dup io-task-port timeout? [
dup io-task-port "Timeout" swap report-error
nip pop-callbacks
] [
tuck io-task-fd swap bit-nth
[ handle-fd ] [ drop ] if
] if
] hash-each-with ;
: init-fdset ( fdset tasks -- fdset )
>r dup dup FD_SETSIZE clear-bits r>
[ drop t swap rot set-bit-nth ] hash-each-with ;
: read-fdset/tasks
read-fdset get-global read-tasks get-global ;
: write-fdset/tasks
write-fdset get-global write-tasks get-global ;
: init-fdsets ( -- read write except )
read-fdset/tasks init-fdset
write-fdset/tasks init-fdset f ;
: io-multiplex ( timeout -- )
>r FD_SETSIZE init-fdsets r> make-timeval select io-error
read-fdset/tasks handle-fdset
write-fdset/tasks handle-fdset ;
! Readers
: <reader> ( fd -- stream )
buffered-port input over set-port-type <line-reader> ;
: open-read ( path -- fd )
O_RDONLY file-mode open dup io-error ;
: reader-eof ( reader -- )
dup port-sbuf empty? [ t swap set-port-eof? ] [ drop ] if ;
: (refill) ( port -- n )
>port< dup buffer-end swap buffer-capacity read ;
: refill ( port -- ? )
#! Return f if there is a recoverable error
dup buffer-empty? [
dup (refill) dup 0 >= [
swap n>buffer t
] [
drop defer-error
] if
] [
drop t
] if ;
! Reading a single character
TUPLE: read1-task ;
C: read1-task ( port -- task )
[ >r <io-task> r> set-delegate ] keep ;
M: read1-task do-io-task
io-task-port dup refill [
[
dup buffer-empty?
[ t over set-port-eof? ] when
] when drop
] keep ;
M: read1-task task-container drop read-tasks get-global ;
: wait-to-read1 ( port -- )
dup buffer-empty? [
[ swap <read1-task> add-io-task stop ] callcc0
] when pending-error ;
M: input-port stream-read1
dup wait-to-read1
dup port-eof? [ drop f ] [ buffer-pop ] if ;
! Reading character counts
: read-step ( count reader -- ? )
dup port-sbuf -rot >r over length - r>
2dup buffer-length <= [
buffer> nappend t
] [
buffer>> nip nappend f
] if ;
: can-read-count? ( count reader -- ? )
dup port-sbuf delete-all read-step ;
TUPLE: read-task count ;
C: read-task ( count port -- task )
[ >r <io-task> r> set-delegate ] keep
[ set-read-task-count ] keep ;
: >read-task< dup read-task-count swap io-task-port ;
M: read-task do-io-task
>read-task< dup refill [
dup buffer-empty? [
reader-eof drop t
] [
read-step
] if
] [
2drop f
] if ;
M: read-task task-container drop read-tasks get-global ;
: wait-to-read ( count port -- )
2dup can-read-count? [
[ -rot <read-task> add-io-task stop ] callcc0
] unless pending-error drop ;
M: input-port stream-read
[ wait-to-read ] keep dup port-eof?
[ drop f ] [ port-sbuf >string ] if ;
! Writers
: open-write ( path -- fd )
O_WRONLY O_CREAT bitor O_TRUNC bitor file-mode open
dup io-error ;
: <writer> ( fd -- writer )
buffered-port output over set-port-type <plain-writer> ;
: write-step ( port -- )
dup >port< dup buffer@ swap buffer-length write dup 0 >= [
swap buffer-consume
] [
drop defer-error drop
] if ;
: can-write? ( len writer -- ? )
#! If the buffer is empty and the string is too long,
#! extend the buffer.
dup buffer-empty? [
2drop t
] [
[ buffer-fill + ] keep buffer-capacity <=
] if ;
TUPLE: write-task ;
C: write-task ( port -- task )
[ >r <io-task> r> set-delegate ] keep ;
M: write-task do-io-task
io-task-port dup buffer-length zero? over port-error or
[ 0 swap buffer-reset t ] [ write-step f ] if ;
M: write-task task-container drop write-tasks get-global ;
: add-write-io-task ( callback task -- )
dup io-task-fd write-tasks get-global hash
[ io-task-callbacks push ] [ add-io-task ] ?if ;
: port-flush ( port -- )
[ swap <write-task> add-write-io-task stop ] callcc0 drop ;
M: output-port stream-flush
dup port-flush pending-error ;
: wait-to-write ( len port -- )
tuck can-write? [ drop ] [ stream-flush ] if ;
M: output-port stream-write1
1 over wait-to-write ch>buffer ;
M: output-port stream-write
over length over wait-to-write >buffer ;
M: port stream-close
dup port-type closed eq? [
dup port-type >r closed over set-port-type r>
output eq? [ dup port-flush ] when dup port-handle close
dup delegate [ buffer-free ] when* f over set-delegate
] unless drop ;
! Make a duplex stream for reading/writing a pair of fds
: open-r/w ( path -- fd ) O_RDWR file-mode open dup io-error ;
: <fd-stream> ( infd outfd -- stream )
>r <reader> r> <writer> <duplex-stream> ;
USE: io
: init-io ( -- )
#! Should only be called on startup. Calling this at any
#! other time can have unintended consequences.
global [
H{ } clone read-tasks set
FD_SETSIZE <byte-array> read-fdset set
H{ } clone write-tasks set
FD_SETSIZE <byte-array> write-fdset set
0 1 <fd-stream> stdio set
] bind ;
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