mirror of
https://gitlab.com/sortix/sortix.git
synced 2023-02-13 20:55:38 -05:00
494 lines
12 KiB
C++
494 lines
12 KiB
C++
/*******************************************************************************
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Copyright(C) Jonas 'Sortie' Termansen 2011, 2012, 2013, 2014.
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This file is part of Sortix.
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Sortix is free software: you can redistribute it and/or modify it under the
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terms of the GNU General Public License as published by the Free Software
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Foundation, either version 3 of the License, or (at your option) any later
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version.
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Sortix is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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details.
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You should have received a copy of the GNU General Public License along with
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Sortix. If not, see <http://www.gnu.org/licenses/>.
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pipe.cpp
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A device with a writing end and a reading end.
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*******************************************************************************/
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#include <assert.h>
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#include <errno.h>
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#include <string.h>
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#include <sortix/fcntl.h>
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#include <sortix/poll.h>
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#include <sortix/signal.h>
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#include <sortix/stat.h>
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#include <sortix/kernel/copy.h>
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#include <sortix/kernel/descriptor.h>
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#include <sortix/kernel/dtable.h>
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#include <sortix/kernel/inode.h>
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#include <sortix/kernel/interlock.h>
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#include <sortix/kernel/ioctx.h>
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#include <sortix/kernel/kernel.h>
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#include <sortix/kernel/kthread.h>
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#include <sortix/kernel/pipe.h>
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#include <sortix/kernel/poll.h>
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#include <sortix/kernel/process.h>
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#include <sortix/kernel/refcount.h>
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#include <sortix/kernel/signal.h>
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#include <sortix/kernel/syscall.h>
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#include <sortix/kernel/thread.h>
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#include <sortix/kernel/vnode.h>
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#include "pipe.h"
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namespace Sortix {
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class PipeChannel
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{
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public:
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PipeChannel(uint8_t* buffer, size_t buffersize);
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~PipeChannel();
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void CloseReading();
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void CloseWriting();
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void PerhapsShutdown();
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bool GetSIGPIPEDelivery();
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void SetSIGPIPEDelivery(bool deliver_sigpipe);
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size_t ReadSize();
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size_t WriteSize();
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bool ReadResize(size_t new_size);
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bool WriteResize(size_t new_size);
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ssize_t read(ioctx_t* ctx, uint8_t* buf, size_t count);
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ssize_t write(ioctx_t* ctx, const uint8_t* buf, size_t count);
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int read_poll(ioctx_t* ctx, PollNode* node);
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int write_poll(ioctx_t* ctx, PollNode* node);
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private:
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short ReadPollEventStatus();
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short WritePollEventStatus();
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private:
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PollChannel read_poll_channel;
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PollChannel write_poll_channel;
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kthread_mutex_t pipelock;
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kthread_cond_t readcond;
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kthread_cond_t writecond;
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uint8_t* buffer;
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size_t bufferoffset;
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size_t bufferused;
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size_t buffersize;
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size_t pretended_read_buffer_size;
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bool anyreading;
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bool anywriting;
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bool is_sigpipe_enabled;
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};
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PipeChannel::PipeChannel(uint8_t* buffer, size_t buffersize)
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{
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pipelock = KTHREAD_MUTEX_INITIALIZER;
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readcond = KTHREAD_COND_INITIALIZER;
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writecond = KTHREAD_COND_INITIALIZER;
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this->buffer = buffer;
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this->buffersize = buffersize;
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bufferoffset = bufferused = 0;
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anyreading = anywriting = true;
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is_sigpipe_enabled = true;
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}
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PipeChannel::~PipeChannel()
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{
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delete[] buffer;
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}
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void PipeChannel::CloseReading()
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{
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anyreading = false;
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kthread_cond_broadcast(&writecond);
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PerhapsShutdown();
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}
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void PipeChannel::CloseWriting()
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{
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anywriting = false;
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kthread_cond_broadcast(&readcond);
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PerhapsShutdown();
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}
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void PipeChannel::PerhapsShutdown()
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{
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kthread_mutex_lock(&pipelock);
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read_poll_channel.Signal(ReadPollEventStatus());
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write_poll_channel.Signal(WritePollEventStatus());
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bool deleteme = !anyreading & !anywriting;
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kthread_mutex_unlock(&pipelock);
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if ( deleteme )
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delete this;
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}
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ssize_t PipeChannel::read(ioctx_t* ctx, uint8_t* buf, size_t count)
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{
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ScopedLockSignal lock(&pipelock);
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if ( !lock.IsAcquired() ) { errno = EINTR; return -1; }
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while ( anywriting && !bufferused )
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{
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if ( ctx->dflags & O_NONBLOCK )
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return errno = EWOULDBLOCK, -1;
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if ( !kthread_cond_wait_signal(&readcond, &pipelock) )
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{
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errno = EINTR;
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return -1;
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}
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}
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if ( !bufferused && !anywriting ) { return 0; }
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if ( bufferused < count ) { count = bufferused; }
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size_t amount = count;
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size_t linear = buffersize - bufferoffset;
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if ( linear < amount ) { amount = linear; }
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assert(amount);
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ctx->copy_to_dest(buf, buffer + bufferoffset, amount);
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bufferoffset = (bufferoffset + amount) % buffersize;
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bufferused -= amount;
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kthread_cond_broadcast(&writecond);
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read_poll_channel.Signal(ReadPollEventStatus());
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write_poll_channel.Signal(WritePollEventStatus());
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return amount;
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}
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ssize_t PipeChannel::write(ioctx_t* ctx, const uint8_t* buf, size_t count)
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{
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ScopedLockSignal lock(&pipelock);
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if ( !lock.IsAcquired() ) { errno = EINTR; return -1; }
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while ( anyreading && bufferused == buffersize )
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{
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if ( ctx->dflags & O_NONBLOCK )
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return errno = EWOULDBLOCK, -1;
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if ( !kthread_cond_wait_signal(&writecond, &pipelock) )
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{
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errno = EINTR;
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return -1;
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}
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}
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if ( !anyreading )
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{
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if ( is_sigpipe_enabled )
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CurrentThread()->DeliverSignal(SIGPIPE);
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return errno = EPIPE, -1;
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}
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if ( buffersize - bufferused < count ) { count = buffersize - bufferused; }
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size_t writeoffset = (bufferoffset + bufferused) % buffersize;
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size_t amount = count;
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size_t linear = buffersize - writeoffset;
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if ( linear < amount ) { amount = linear; }
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assert(amount);
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ctx->copy_from_src(buffer + writeoffset, buf, amount);
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bufferused += amount;
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kthread_cond_broadcast(&readcond);
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read_poll_channel.Signal(ReadPollEventStatus());
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write_poll_channel.Signal(WritePollEventStatus());
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return amount;
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}
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short PipeChannel::ReadPollEventStatus()
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{
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short status = 0;
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if ( !anywriting && !bufferused )
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status |= POLLHUP;
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if ( bufferused )
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status |= POLLIN | POLLRDNORM;
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return status;
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}
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short PipeChannel::WritePollEventStatus()
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{
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short status = 0;
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if ( !anyreading )
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status |= POLLERR;
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if ( anyreading && bufferused != buffersize )
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status |= POLLOUT | POLLWRNORM;
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return status;
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}
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int PipeChannel::read_poll(ioctx_t* /*ctx*/, PollNode* node)
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{
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ScopedLockSignal lock(&pipelock);
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short ret_status = ReadPollEventStatus() & node->events;
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if ( ret_status )
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return node->master->revents |= ret_status, 0;
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read_poll_channel.Register(node);
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return errno = EAGAIN, -1;
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}
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int PipeChannel::write_poll(ioctx_t* /*ctx*/, PollNode* node)
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{
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ScopedLockSignal lock(&pipelock);
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short ret_status = WritePollEventStatus() & node->events;
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if ( ret_status )
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return node->master->revents |= ret_status, 0;
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write_poll_channel.Register(node);
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return errno = EAGAIN, -1;
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}
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bool PipeChannel::GetSIGPIPEDelivery()
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{
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ScopedLockSignal lock(&pipelock);
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return is_sigpipe_enabled;
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}
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void PipeChannel::SetSIGPIPEDelivery(bool deliver_sigpipe)
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{
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ScopedLockSignal lock(&pipelock);
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is_sigpipe_enabled = deliver_sigpipe;
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}
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size_t PipeChannel::ReadSize()
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{
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ScopedLockSignal lock(&pipelock);
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return pretended_read_buffer_size;
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}
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size_t PipeChannel::WriteSize()
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{
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ScopedLockSignal lock(&pipelock);
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return buffersize;
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}
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bool PipeChannel::ReadResize(size_t new_size)
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{
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ScopedLockSignal lock(&pipelock);
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if ( !new_size )
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return errno = EINVAL, false;
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// The read and write end share the same buffer, so let the write end decide
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// how big a buffer it wants and pretend the read end can decide too.
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pretended_read_buffer_size = new_size;
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return true;
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}
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bool PipeChannel::WriteResize(size_t new_size)
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{
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ScopedLockSignal lock(&pipelock);
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if ( !new_size )
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return errno = EINVAL, false;
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size_t MAX_PIPE_SIZE = 2 * 1024 * 1024;
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if ( MAX_PIPE_SIZE < new_size )
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new_size = MAX_PIPE_SIZE;
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// Refuse to lose data if the the new size would cause truncation.
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if ( new_size < bufferused )
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new_size = bufferused;
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uint8_t* new_buffer = new uint8_t[new_size];
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if ( !new_buffer )
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return false;
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for ( size_t i = 0; i < bufferused; i++ )
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new_buffer[i] = buffer[(bufferoffset + i) % buffersize];
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delete[] buffer;
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buffer = new_buffer;
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buffersize = new_size;
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return true;
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}
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PipeEndpoint::PipeEndpoint()
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{
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channel = NULL;
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reading = false;
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}
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PipeEndpoint::~PipeEndpoint()
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{
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if ( channel )
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Disconnect();
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}
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bool PipeEndpoint::Connect(PipeEndpoint* destination)
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{
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assert(!channel);
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assert(!destination->channel);
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const size_t BUFFER_SIZE = 64 * 1024;
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size_t size = BUFFER_SIZE;
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uint8_t* buffer = new uint8_t[size];
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if ( !buffer )
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return false;
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destination->reading = !(reading = false);
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if ( !(destination->channel = channel = new PipeChannel(buffer, size)) )
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{
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delete[] buffer;
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return false;
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}
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return true;
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}
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void PipeEndpoint::Disconnect()
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{
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assert(channel);
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if ( reading )
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channel->CloseReading();
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else
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channel->CloseWriting();
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reading = false;
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}
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ssize_t PipeEndpoint::read(ioctx_t* ctx, uint8_t* buf, size_t count)
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{
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if ( !reading ) { errno = EBADF; return -1; }
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return channel->read(ctx, buf, count);
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}
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ssize_t PipeEndpoint::write(ioctx_t* ctx, const uint8_t* buf, size_t count)
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{
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if ( reading ) { errno = EBADF; return -1; }
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return channel->write(ctx, buf, count);
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}
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int PipeEndpoint::poll(ioctx_t* ctx, PollNode* node)
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{
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return reading ? channel->read_poll(ctx, node)
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: channel->write_poll(ctx, node);
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}
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bool PipeEndpoint::GetSIGPIPEDelivery()
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{
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return !reading ? channel->GetSIGPIPEDelivery() : false;
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}
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bool PipeEndpoint::SetSIGPIPEDelivery(bool deliver_sigpipe)
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{
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if ( !reading )
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channel->SetSIGPIPEDelivery(deliver_sigpipe);
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else if ( reading && deliver_sigpipe != false )
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return errno = EINVAL, false;
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return true;
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}
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size_t PipeEndpoint::Size()
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{
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return reading ? channel->ReadSize()
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: channel->WriteSize();
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}
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bool PipeEndpoint::Resize(size_t new_size)
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{
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return reading ? channel->ReadResize(new_size)
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: channel->WriteResize(new_size);
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}
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class PipeNode : public AbstractInode
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{
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public:
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PipeNode(dev_t dev, uid_t owner, gid_t group, mode_t mode);
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~PipeNode();
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bool Connect(PipeNode* destination);
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virtual ssize_t read(ioctx_t* ctx, uint8_t* buf, size_t count);
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virtual ssize_t write(ioctx_t* ctx, const uint8_t* buf, size_t count);
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virtual int poll(ioctx_t* ctx, PollNode* node);
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private:
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PipeEndpoint endpoint;
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};
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bool PipeNode::Connect(PipeNode* destination)
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{
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return endpoint.Connect(&destination->endpoint);
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}
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PipeNode::PipeNode(dev_t dev, uid_t owner, gid_t group, mode_t mode)
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{
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inode_type = INODE_TYPE_STREAM;
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this->dev = dev;
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this->ino = (ino_t) this;
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this->stat_uid = owner;
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this->stat_gid = group;
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this->type = S_IFCHR;
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this->stat_mode = (mode & S_SETABLE) | this->type;
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}
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PipeNode::~PipeNode()
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{
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}
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ssize_t PipeNode::read(ioctx_t* ctx, uint8_t* buf, size_t count)
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{
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return endpoint.read(ctx, buf, count);
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}
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ssize_t PipeNode::write(ioctx_t* ctx, const uint8_t* buf, size_t count)
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{
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return endpoint.write(ctx, buf, count);
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}
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int PipeNode::poll(ioctx_t* ctx, PollNode* node)
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{
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return endpoint.poll(ctx, node);
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}
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namespace Pipe {
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static int sys_pipe2(int pipefd[2], int flags)
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{
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int fdflags = 0;
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if ( flags & O_CLOEXEC ) fdflags |= FD_CLOEXEC;
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if ( flags & O_CLOFORK ) fdflags |= FD_CLOFORK;
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flags &= ~(O_CLOEXEC | O_CLOFORK);
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if ( flags & ~(O_NONBLOCK) )
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return errno = EINVAL, -1;
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Process* process = CurrentProcess();
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uid_t uid = process->uid;
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uid_t gid = process->gid;
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mode_t mode = 0600;
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Ref<PipeNode> recv_inode(new PipeNode(0, uid, gid, mode));
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if ( !recv_inode ) return -1;
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Ref<PipeNode> send_inode(new PipeNode(0, uid, gid, mode));
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if ( !send_inode ) return -1;
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if ( !send_inode->Connect(recv_inode.Get()) )
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return -1;
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Ref<Vnode> recv_vnode(new Vnode(recv_inode, Ref<Vnode>(NULL), 0, 0));
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Ref<Vnode> send_vnode(new Vnode(send_inode, Ref<Vnode>(NULL), 0, 0));
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if ( !recv_vnode || !send_vnode ) return -1;
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Ref<Descriptor> recv_desc(new Descriptor(recv_vnode, O_READ));
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Ref<Descriptor> send_desc(new Descriptor(send_vnode, O_WRITE));
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if ( !recv_desc || !send_desc ) return -1;
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Ref<DescriptorTable> dtable = process->GetDTable();
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int recv_index, send_index;
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if ( 0 <= (recv_index = dtable->Allocate(recv_desc, fdflags)) )
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{
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if ( 0 <= (send_index = dtable->Allocate(send_desc, fdflags)) )
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{
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int ret[2] = { recv_index, send_index };
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if ( CopyToUser(pipefd, ret, sizeof(ret)) )
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return 0;
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dtable->Free(send_index);
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}
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dtable->Free(recv_index);
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}
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return -1;
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}
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void Init()
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{
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Syscall::Register(SYSCALL_PIPE2, (void*) sys_pipe2);
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}
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} // namespace Pipe
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} // namespace Sortix
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