#ifndef my_extern #define my_extern extern #endif #include "io.h" #include "array.h" #include "iarray.h" #ifdef __MINGW32__ #include "socket.h" my_extern HANDLE io_comport; #else #include "haveepoll.h" #include "havekqueue.h" #include "havedevpoll.h" #include "havesigio.h" #ifdef HAVE_SIGIO #define _GNU_SOURCE #include #endif #endif /* We simulate a level-triggered API on top of an event signalling * mechanism that can be level-triggered (epoll/kqueue/poll) or * edge-triggered (SIGIO). * Difficulty: we want to avoid unnecessary syscalls, so we keep state * internally. If the user says he does not want to read/write anymore, * we don't tell the kernel straight away. The rationale is that the * typical protocol consists of interleaved reading and writing, so * after each read you'd call io_dontwantread, io_wantwrite, io_wait, * io_dontwantwrite, io_wantread, and in the regular case there is no * incoming data between io_dontwantread and io_wantread, so we might as * well optimistically not do those syscalls and then handle the * complexity if there is more incoming data. */ /* Basically, we tell the kernel that we want to read if !canread, * and we tell the kernel that we want to write if !canwrite. */ typedef struct { tai6464 timeout; unsigned int wantread:1; /* does the app want to read/write? */ unsigned int wantwrite:1; unsigned int canread:1; /* do we know we can read/write? */ unsigned int canwrite:1; unsigned int nonblock:1; /* is this socket non-blocking? */ unsigned int inuse:1; /* internal consistency checking */ unsigned int kernelwantread:1; /* did we tell the kernel we want to read/write? */ unsigned int kernelwantwrite:1; unsigned int epolladded:1; unsigned int closed:1; /* io_close called, but close deferred because of outstanding events */ #ifdef __MINGW32__ unsigned int readqueued:2; unsigned int writequeued:2; unsigned int acceptqueued:2; unsigned int connectqueued:2; unsigned int sendfilequeued:2; unsigned int listened:1; #endif long next_read; long next_write; void* cookie; void* mmapped; long maplen; uint64 mapofs; #ifdef __MINGW32__ OVERLAPPED or,ow,os; /* overlapped for read+accept, write+connect, sendfile */ HANDLE /* fd, */ mh; char inbuf[8192]; int bytes_read,bytes_written; DWORD errorcode; SOCKET next_accept; #endif } io_entry; extern int io_multithreaded; extern int io_sockets[2]; my_extern iarray io_fds; my_extern uint64 io_wanted_fds; my_extern array io_pollfds; my_extern long first_readable; my_extern long first_writeable; my_extern long first_deferred; my_extern enum __io_waitmode { UNDECIDED, POLL #ifdef HAVE_KQUEUE ,KQUEUE #endif #ifdef HAVE_EPOLL ,EPOLL #endif #ifdef HAVE_SIGIO ,_SIGIO #endif #ifdef HAVE_DEVPOLL ,DEVPOLL #endif #ifdef __MINGW32__ ,COMPLETIONPORT #endif } io_waitmode; #if defined(HAVE_KQUEUE) || defined(HAVE_EPOLL) || defined(HAVE_DEVPOLL) my_extern int io_master; #endif #if defined(HAVE_SIGIO) my_extern int io_signum; my_extern sigset_t io_ss; my_extern long alt_firstread; my_extern long alt_firstwrite; #endif int64 io_waituntil2(int64 milliseconds); void io_sigpipe(void); /* return next descriptor from io_wait that can be read from */ int64 io_canread_unlocked(); /* return next descriptor from io_wait that can be written to */ int64 io_canwrite_unlocked(); /* return next descriptor with expired timeout */ int64 io_timeouted_unlocked(); struct eventpacket { int fd; enum { CANREAD, CANWRITE, TIMEOUT } what; }; #define debug_printf(x)