/* $Xorg: fsio.c,v 1.3 2000/08/17 19:46:36 cpqbld Exp $ */ /* * Copyright 1990 Network Computing Devices * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Network Computing Devices not be * used in advertising or publicity pertaining to distribution of the * software without specific, written prior permission. Network Computing * Devices makes no representations about the suitability of this software * for any purpose. It is provided "as is" without express or implied * warranty. * * NETWORK COMPUTING DEVICES DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS * SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, * IN NO EVENT SHALL NETWORK COMPUTING DEVICES BE LIABLE FOR ANY SPECIAL, * INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE * OR PERFORMANCE OF THIS SOFTWARE. * * Author: Dave Lemke, Network Computing Devices, Inc */ /* $XFree86: xc/lib/font/fc/fsio.c,v 3.15 2001/07/25 15:04:56 dawes Exp $ */ /* * font server i/o routines */ #ifdef WIN32 #define _WILLWINSOCK_ #endif #include "X11/Xtrans.h" #include "X11/Xpoll.h" #include "FS.h" #include "FSproto.h" #include "fontmisc.h" #include "fontstruct.h" #include "fservestr.h" #include #include #include #if !defined(WIN32) #ifndef Lynx #include #else #include #endif #endif #include #ifdef WIN32 #define EWOULDBLOCK WSAEWOULDBLOCK #undef EINTR #define EINTR WSAEINTR #endif #ifdef __EMX__ #define select(n,r,w,x,t) os2PseudoSelect(n,r,w,x,t) #endif static int padlength[4] = {0, 3, 2, 1}; fd_set _fs_fd_mask; static int _fs_resize (FSBufPtr buf, long size); static void _fs_downsize (FSBufPtr buf, long size); int _fs_poll_connect (XtransConnInfo trans_conn, int timeout) { fd_set w_mask; struct timeval tv; int fs_fd = _FontTransGetConnectionNumber (trans_conn); int ret; do { tv.tv_usec = 0; tv.tv_sec = timeout; FD_ZERO (&w_mask); FD_SET (fs_fd, &w_mask); ret = Select (fs_fd + 1, NULL, &w_mask, NULL, &tv); } while (ret < 0 && ECHECK(EINTR)); if (ret == 0) return FSIO_BLOCK; if (ret < 0) return FSIO_ERROR; return FSIO_READY; } XtransConnInfo _fs_connect(char *servername, int *err) { XtransConnInfo trans_conn; /* transport connection object */ int ret; int i = 0; int retries = 5; /* * Open the network connection. */ if( (trans_conn=_FontTransOpenCOTSClient(servername)) == NULL ) { *err = FSIO_ERROR; return 0; } /* * Set the connection non-blocking since we use select() to block. */ _FontTransSetOption(trans_conn, TRANS_NONBLOCKING, 1); do { if (i == TRANS_TRY_CONNECT_AGAIN) sleep(1); i = _FontTransConnect(trans_conn,servername); } while ((i == TRANS_TRY_CONNECT_AGAIN) && (retries-- > 0)); if (i < 0) { if (i == TRANS_IN_PROGRESS) ret = FSIO_BLOCK; else ret = FSIO_ERROR; } else ret = FSIO_READY; if (ret == FSIO_ERROR) { _FontTransClose(trans_conn); trans_conn = 0; } *err = ret; return trans_conn; } int _fs_fill (FSFpePtr conn) { long avail, need; long bytes_read; Bool waited = FALSE; if (_fs_flush (conn) < 0) return FSIO_ERROR; /* * Don't go overboard here; stop reading when we've * got enough to satisfy the pending request */ while ((need = conn->inNeed - (conn->inBuf.insert - conn->inBuf.remove)) > 0) { avail = conn->inBuf.size - conn->inBuf.insert; /* * For SVR4 with a unix-domain connection, ETEST() after selecting * readable means the server has died. To do this here, we look for * two consecutive reads returning ETEST(). */ ESET (0); bytes_read =_FontTransRead(conn->trans_conn, conn->inBuf.buf + conn->inBuf.insert, avail); if (bytes_read > 0) { conn->inBuf.insert += bytes_read; waited = FALSE; } else { if (bytes_read == 0 || ETEST ()) { if (!waited) { waited = TRUE; if (_fs_wait_for_readable (conn, 0) == FSIO_BLOCK) return FSIO_BLOCK; continue; } } _fs_connection_died (conn); return FSIO_ERROR; } } return FSIO_READY; } /* * Make space and return whether data have already arrived */ int _fs_start_read (FSFpePtr conn, long size, char **buf) { int ret; conn->inNeed = size; if (fs_inqueued(conn) < size) { if (_fs_resize (&conn->inBuf, size) != FSIO_READY) { _fs_connection_died (conn); return FSIO_ERROR; } ret = _fs_fill (conn); if (ret == FSIO_ERROR) return ret; if (ret == FSIO_BLOCK || fs_inqueued(conn) < size) return FSIO_BLOCK; } if (buf) *buf = conn->inBuf.buf + conn->inBuf.remove; return FSIO_READY; } void _fs_done_read (FSFpePtr conn, long size) { if (conn->inBuf.insert - conn->inBuf.remove < size) { #ifdef DEBUG fprintf (stderr, "_fs_done_read skipping to many bytes\n"); #endif return; } conn->inBuf.remove += size; conn->inNeed -= size; _fs_downsize (&conn->inBuf, FS_BUF_MAX); } long _fs_pad_length (long len) { return len + padlength[len&3]; } int _fs_flush (FSFpePtr conn) { long bytes_written; long remain; /* XXX - hack. The right fix is to remember that the font server has gone away when we first discovered it. */ if (conn->fs_fd < 0) return FSIO_ERROR; while ((remain = conn->outBuf.insert - conn->outBuf.remove) > 0) { bytes_written = _FontTransWrite(conn->trans_conn, conn->outBuf.buf + conn->outBuf.remove, (int) remain); if (bytes_written > 0) { conn->outBuf.remove += bytes_written; } else { if (bytes_written == 0 || ETEST ()) { conn->brokenWriteTime = GetTimeInMillis () + FS_FLUSH_POLL; _fs_mark_block (conn, FS_BROKEN_WRITE); break; } if (!ECHECK (EINTR)) { _fs_connection_died (conn); return FSIO_ERROR; } } } if (conn->outBuf.remove == conn->outBuf.insert) { _fs_unmark_block (conn, FS_BROKEN_WRITE|FS_PENDING_WRITE); if (conn->outBuf.size > FS_BUF_INC) conn->outBuf.buf = xrealloc (conn->outBuf.buf, FS_BUF_INC); conn->outBuf.remove = conn->outBuf.insert = 0; } return FSIO_READY; } static int _fs_resize (FSBufPtr buf, long size) { char *new; long new_size; if (buf->remove) { if (buf->remove != buf->insert) { memmove (buf->buf, buf->buf + buf->remove, buf->insert - buf->remove); } buf->insert -= buf->remove; buf->remove = 0; } if (buf->size - buf->remove < size) { new_size = ((buf->remove + size + FS_BUF_INC) / FS_BUF_INC) * FS_BUF_INC; new = xrealloc (buf->buf, new_size); if (!new) return FSIO_ERROR; buf->buf = new; buf->size = new_size; } return FSIO_READY; } static void _fs_downsize (FSBufPtr buf, long size) { if (buf->insert == buf->remove) { buf->insert = buf->remove = 0; if (buf->size > size) { buf->buf = xrealloc (buf->buf, size); buf->size = size; } } } void _fs_io_reinit (FSFpePtr conn) { conn->outBuf.insert = conn->outBuf.remove = 0; _fs_downsize (&conn->outBuf, FS_BUF_INC); conn->inBuf.insert = conn->inBuf.remove = 0; _fs_downsize (&conn->inBuf, FS_BUF_MAX); } Bool _fs_io_init (FSFpePtr conn) { conn->outBuf.insert = conn->outBuf.remove = 0; conn->outBuf.buf = xalloc (FS_BUF_INC); if (!conn->outBuf.buf) return FALSE; conn->outBuf.size = FS_BUF_INC; conn->inBuf.insert = conn->inBuf.remove = 0; conn->inBuf.buf = xalloc (FS_BUF_INC); if (!conn->inBuf.buf) { xfree (conn->outBuf.buf); conn->outBuf.buf = 0; return FALSE; } conn->inBuf.size = FS_BUF_INC; return TRUE; } void _fs_io_fini (FSFpePtr conn) { if (conn->outBuf.buf) xfree (conn->outBuf.buf); if (conn->inBuf.buf) xfree (conn->inBuf.buf); } static int _fs_do_write(FSFpePtr conn, char *data, long len, long size) { if (size == 0) { #ifdef DEBUG fprintf(stderr, "tried to write 0 bytes \n"); #endif return FSIO_READY; } if (conn->fs_fd == -1) return FSIO_ERROR; while (conn->outBuf.insert + size > conn->outBuf.size) { if (_fs_flush (conn) < 0) return FSIO_ERROR; if (_fs_resize (&conn->outBuf, size) < 0) { _fs_connection_died (conn); return FSIO_ERROR; } } memcpy (conn->outBuf.buf + conn->outBuf.insert, data, len); conn->outBuf.insert += size; _fs_mark_block (conn, FS_PENDING_WRITE); return FSIO_READY; } /* * Write the indicated bytes */ int _fs_write (FSFpePtr conn, char *data, long len) { return _fs_do_write (conn, data, len, len); } /* * Write the indicated bytes adding any appropriate pad */ int _fs_write_pad(FSFpePtr conn, char *data, long len) { return _fs_do_write (conn, data, len, len + padlength[len & 3]); } /* * returns the amount of data waiting to be read */ int _fs_data_ready(FSFpePtr conn) { BytesReadable_t readable; if (_FontTransBytesReadable(conn->trans_conn, &readable) < 0) return -1; return readable; } int _fs_wait_for_readable(FSFpePtr conn, int ms) { fd_set r_mask; fd_set e_mask; int result; struct timeval tv; for (;;) { if (conn->fs_fd < 0) return FSIO_ERROR; FD_ZERO(&r_mask); FD_ZERO(&e_mask); tv.tv_sec = ms / 1000; tv.tv_usec = (ms % 1000) * 1000; FD_SET(conn->fs_fd, &r_mask); FD_SET(conn->fs_fd, &e_mask); result = Select(conn->fs_fd + 1, &r_mask, NULL, &e_mask, &tv); if (result < 0) { if (ECHECK(EINTR) || ECHECK(EAGAIN)) continue; else return FSIO_ERROR; } if (result == 0) return FSIO_BLOCK; if (FD_ISSET(conn->fs_fd, &r_mask)) return FSIO_READY; return FSIO_ERROR; } } int _fs_set_bit(fd_set *mask, int fd) { FD_SET(fd, mask); return fd; } int _fs_is_bit_set(fd_set *mask, int fd) { return FD_ISSET(fd, mask); } void _fs_bit_clear(fd_set *mask, int fd) { FD_CLR(fd, mask); } int _fs_any_bit_set(fd_set *mask) { return XFD_ANYSET(mask); } void _fs_or_bits(fd_set *dst, fd_set *m1, fd_set *m2) { #ifdef WIN32 int i; if (dst != m1) { for (i = m1->fd_count; --i >= 0; ) { if (!FD_ISSET(m1->fd_array[i], dst)) FD_SET(m1->fd_array[i], dst); } } if (dst != m2) { for (i = m2->fd_count; --i >= 0; ) { if (!FD_ISSET(m2->fd_array[i], dst)) FD_SET(m2->fd_array[i], dst); } } #else XFD_ORSET(dst, m1, m2); #endif }