/* GLIB - Library of useful routines for C programming * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * giowin32.c: IO Channels for Win32. * Copyright 1998 Owen Taylor and Tor Lillqvist * Copyright 1999-2000 Tor Lillqvist and Craig Setera * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* * Modified by the GLib Team and others 1997-2000. See the AUTHORS * file for a list of people on the GLib Team. See the ChangeLog * files for a list of changes. These files are distributed with * GLib at ftp://ftp.gtk.org/pub/gtk/. */ /* Define this to get (very) verbose logging of all channels */ /* #define G_IO_WIN32_DEBUG */ #include "glib.h" #include #include #include /* Not everybody has winsock2 */ #include #include #include #include #include typedef struct _GIOWin32Channel GIOWin32Channel; typedef struct _GIOWin32Watch GIOWin32Watch; #define BUFFER_SIZE 4096 typedef enum { G_IO_WINDOWS_MESSAGES, /* Windows messages */ G_IO_FILE_DESC, /* Unix-like file descriptors from * _open() or _pipe(). Read with read(). * Have to create separate thread to read. */ G_IO_STREAM_SOCKET /* Stream sockets. Similar as fds, but * read with recv(). */ } GIOWin32ChannelType; struct _GIOWin32Channel { GIOChannel channel; gint fd; /* Either a Unix-like file handle as provided * by the Microsoft C runtime, or a SOCKET * as provided by WinSock. */ GIOWin32ChannelType type; gboolean debug; /* This is used by G_IO_WINDOWS_MESSAGES channels */ HWND hwnd; /* handle of window, or NULL */ /* Following fields used by fd and socket channels for input */ /* Data is kept in a circular buffer. To be able to distinguish between * empty and full buffer, we cannot fill it completely, but have to * leave a one character gap. * * Data available is between indexes rdp and wrp-1 (modulo BUFFER_SIZE). * * Empty: wrp == rdp * Full: (wrp + 1) % BUFFER_SIZE == rdp * Partial: otherwise */ guchar *buffer; /* (Circular) buffer */ gint wrp, rdp; /* Buffer indices for writing and reading */ gboolean running; /* Is reader thread running. FALSE if * EOF has been reached. */ guint thread_id; /* If non-NULL has a reader thread, or has * had.*/ HANDLE data_avail_event; HANDLE space_avail_event; CRITICAL_SECTION mutex; /* Function that actually reads from fd */ int (*reader) (int fd, guchar *buf, int len); }; #define LOCK(mutex) EnterCriticalSection (&mutex) #define UNLOCK(mutex) LeaveCriticalSection (&mutex) struct _GIOWin32Watch { GSource source; GPollFD pollfd; GIOChannel *channel; GIOCondition condition; GIOFunc callback; }; static void g_io_channel_win32_init (GIOWin32Channel *channel) { #ifdef G_IO_WIN32_DEBUG channel->debug = TRUE; #else if (getenv ("G_IO_WIN32_DEBUG") != NULL) channel->debug = TRUE; else channel->debug = FALSE; #endif channel->buffer = NULL; channel->running = FALSE; channel->thread_id = 0; channel->data_avail_event = NULL; channel->space_avail_event = NULL; } static void create_events (GIOWin32Channel *channel) { SECURITY_ATTRIBUTES sec_attrs; sec_attrs.nLength = sizeof(SECURITY_ATTRIBUTES); sec_attrs.lpSecurityDescriptor = NULL; sec_attrs.bInheritHandle = FALSE; /* The data available event is manual reset, the space available event * is automatic reset. */ if (!(channel->data_avail_event = CreateEvent (&sec_attrs, TRUE, FALSE, NULL)) || !(channel->space_avail_event = CreateEvent (&sec_attrs, FALSE, FALSE, NULL))) { gchar *msg = g_win32_error_message (GetLastError ()); g_error ("Error creating event: %s", msg); } InitializeCriticalSection (&channel->mutex); } static unsigned __stdcall reader_thread (void *parameter) { GIOWin32Channel *channel = parameter; guchar *buffer; guint nbytes; g_io_channel_ref ((GIOChannel *) channel); if (channel->debug) g_print ("thread %#x: starting. pid:%#x, fd:%d, data_avail:%#x, space_avail:%#x\n", channel->thread_id, (guint) GetCurrentProcessId (), channel->fd, (guint) channel->data_avail_event, (guint) channel->space_avail_event); channel->buffer = g_malloc (BUFFER_SIZE); channel->rdp = channel->wrp = 0; channel->running = TRUE; SetEvent (channel->space_avail_event); while (channel->running) { LOCK (channel->mutex); if (channel->debug) g_print ("thread %#x: rdp=%d, wrp=%d\n", channel->thread_id, channel->rdp, channel->wrp); if ((channel->wrp + 1) % BUFFER_SIZE == channel->rdp) { /* Buffer is full */ if (channel->debug) g_print ("thread %#x: resetting space_available\n", channel->thread_id); ResetEvent (channel->space_avail_event); if (channel->debug) g_print ("thread %#x: waiting for space\n", channel->thread_id); UNLOCK (channel->mutex); WaitForSingleObject (channel->space_avail_event, INFINITE); LOCK (channel->mutex); if (channel->debug) g_print ("thread %#x: rdp=%d, wrp=%d\n", channel->thread_id, channel->rdp, channel->wrp); } buffer = channel->buffer + channel->wrp; /* Always leave at least one byte unused gap to be able to * distinguish between the full and empty condition... */ nbytes = MIN ((channel->rdp + BUFFER_SIZE - channel->wrp - 1) % BUFFER_SIZE, BUFFER_SIZE - channel->wrp); if (channel->debug) g_print ("thread %#x: calling reader for %d bytes\n", channel->thread_id, nbytes); UNLOCK (channel->mutex); nbytes = (*channel->reader) (channel->fd, buffer, nbytes); if (nbytes <= 0) break; LOCK (channel->mutex); if (channel->debug) g_print ("thread %#x: got %d bytes, rdp=%d, wrp=%d\n", channel->thread_id, nbytes, channel->rdp, channel->wrp); channel->wrp = (channel->wrp + nbytes) % BUFFER_SIZE; if (channel->debug) g_print ("thread %#x: rdp=%d, wrp=%d, setting data available\n", channel->thread_id, channel->rdp, channel->wrp); SetEvent (channel->data_avail_event); UNLOCK (channel->mutex); } LOCK (channel->mutex); channel->running = FALSE; if (channel->debug) g_print ("thread %#x: got EOF, rdp=%d, wrp=%d, setting data available\n", channel->thread_id, channel->rdp, channel->wrp); SetEvent (channel->data_avail_event); UNLOCK (channel->mutex); g_io_channel_unref((GIOChannel *) channel); /* All of the Microsoft docs say we should explicitly * end the thread... */ _endthreadex(1); return 0; } static void create_reader_thread (GIOWin32Channel *channel, gpointer reader) { channel->reader = reader; if (_beginthreadex (NULL, 0, reader_thread, channel, 0, &channel->thread_id) == 0) g_warning ("Error creating reader thread: %s", strerror (errno)); WaitForSingleObject (channel->space_avail_event, INFINITE); } static int buffer_read (GIOWin32Channel *channel, guchar *dest, guint count, GIOError *error) { guint nbytes; guint left = count; LOCK (channel->mutex); if (channel->debug) g_print ("reading from thread %#x %d bytes, rdp=%d, wrp=%d\n", channel->thread_id, count, channel->rdp, channel->wrp); if (channel->rdp == channel->wrp) { UNLOCK (channel->mutex); if (channel->debug) g_print ("waiting for data from thread %#x\n", channel->thread_id); WaitForSingleObject (channel->data_avail_event, INFINITE); LOCK (channel->mutex); if (channel->rdp == channel->wrp && !channel->running) { UNLOCK (channel->mutex); return 0; } } if (channel->rdp < channel->wrp) nbytes = channel->wrp - channel->rdp; else nbytes = BUFFER_SIZE - channel->rdp; UNLOCK (channel->mutex); nbytes = MIN (left, nbytes); if (channel->debug) g_print ("moving %d bytes from thread %#x\n", nbytes, channel->thread_id); memcpy (dest, channel->buffer + channel->rdp, nbytes); dest += nbytes; left -= nbytes; LOCK (channel->mutex); channel->rdp = (channel->rdp + nbytes) % BUFFER_SIZE; if (channel->debug) g_print ("setting space available for thread %#x\n", channel->thread_id); SetEvent (channel->space_avail_event); if (channel->debug) g_print ("for thread %#x: rdp=%d, wrp=%d\n", channel->thread_id, channel->rdp, channel->wrp); if (channel->running && channel->rdp == channel->wrp) { if (channel->debug) g_print ("resetting data_available of thread %#x\n", channel->thread_id); ResetEvent (channel->data_avail_event); }; UNLOCK (channel->mutex); /* We have no way to indicate any errors form the actual * read() or recv() call in the reader thread. Should we have? */ *error = G_IO_ERROR_NONE; return count - left; } static gboolean g_io_win32_prepare (GSource *source, gint *timeout) { *timeout = -1; return FALSE; } static gboolean g_io_win32_check (GSource *source) { GIOWin32Watch *watch = (GIOWin32Watch *)source; GIOWin32Channel *channel = (GIOWin32Channel *) watch->channel; /* If the thread has died, we have encountered EOF. If the buffer * also is emtpty set the HUP bit. */ if (!channel->running && channel->rdp == channel->wrp) { if (channel->debug) g_print ("g_io_win32_check: setting G_IO_HUP thread %#x rdp=%d wrp=%d\n", channel->thread_id, channel->rdp, channel->wrp); watch->pollfd.revents |= G_IO_HUP; return TRUE; } return (watch->pollfd.revents & watch->condition); } static gboolean g_io_win32_dispatch (GSource *source, GSourceFunc callback, gpointer user_data) { GIOWin32Watch *watch = (GIOWin32Watch *)source; return (*callback) (watch->channel, watch->pollfd.revents & watch->condition, user_data); } static void g_io_win32_destroy (GSource *source) { GIOWin32Watch *watch = (GIOWin32Watch *)source; g_io_channel_unref (watch->channel); } static GSourceFuncs win32_watch_funcs = { g_io_win32_prepare, g_io_win32_check, g_io_win32_dispatch, g_io_win32_destroy }; static GSource * g_io_win32_create_watch (GIOChannel *channel, GIOCondition condition, int (*reader) (int, guchar *, int))) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; GIOWin32Watch *watch; GSource *source; source = g_source_new (&win32_watch_funcs, sizeof (GIOWin32Watch)); watch = (GIOWin32Watch *)source; watch->channel = channel; g_io_channel_ref (channel); watch->condition = condition; if (win32_channel->data_avail_event == NULL) create_events (win32_channel); watch->pollfd.fd = (gint) win32_channel->data_avail_event; watch->pollfd.events = condition; if (win32_channel->debug) g_print ("g_io_win32_create_watch: fd:%d handle:%#x\n", win32_channel->fd, watch->pollfd.fd); if (win32_channel->thread_id == 0) create_reader_thread (win32_channel, reader); g_source_add_poll (source, &watch->pollfd); return source; } static GIOError g_io_win32_msg_read (GIOChannel *channel, gchar *buf, guint count, guint *bytes_read) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; MSG msg; /* In case of alignment problems */ if (count < sizeof (MSG)) return G_IO_ERROR_INVAL; if (!PeekMessage (&msg, win32_channel->hwnd, 0, 0, PM_REMOVE)) return G_IO_ERROR_AGAIN; memmove (buf, &msg, sizeof (MSG)); *bytes_read = sizeof (MSG); return G_IO_ERROR_NONE; } static GIOError g_io_win32_msg_write (GIOChannel *channel, gchar *buf, guint count, guint *bytes_written) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; MSG msg; if (count != sizeof (MSG)) return G_IO_ERROR_INVAL; /* In case of alignment problems */ memmove (&msg, buf, sizeof (MSG)); if (!PostMessage (win32_channel->hwnd, msg.message, msg.wParam, msg.lParam)) return G_IO_ERROR_UNKNOWN; *bytes_written = sizeof (MSG); return G_IO_ERROR_NONE; } static GIOError g_io_win32_no_seek (GIOChannel *channel, gint offset, GSeekType type) { return G_IO_ERROR_UNKNOWN; } static void g_io_win32_msg_close (GIOChannel *channel) { /* Nothing to be done. Or should we set hwnd to some invalid value? */ } static void g_io_win32_free (GIOChannel *channel) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; if (win32_channel->buffer) { CloseHandle (win32_channel->data_avail_event); CloseHandle (win32_channel->space_avail_event); DeleteCriticalSection (&win32_channel->mutex); } g_free (win32_channel->buffer); g_free (win32_channel); } static GSource * g_io_win32_msg_create_watch (GIOChannel *channel, GIOCondition condition) { GIOWin32Watch *watch; GSource *source; source = g_source_new (&win32_watch_funcs, sizeof (GIOWin32Watch)); watch = (GIOWin32Watch *)source; watch->channel = channel; g_io_channel_ref (channel); watch->condition = condition; watch->pollfd.fd = G_WIN32_MSG_HANDLE; watch->pollfd.events = condition; g_source_add_poll (source, &watch->pollfd); return source; } static GIOError g_io_win32_fd_read (GIOChannel *channel, gchar *buf, guint count, guint *bytes_read) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; gint result; GIOError error; if (win32_channel->debug) g_print ("g_io_win32_fd_read: fd:%d count:%d\n", win32_channel->fd, count); if (win32_channel->thread_id) { result = buffer_read (win32_channel, buf, count, &error); if (result < 0) { *bytes_read = 0; return error; } else { *bytes_read = result; return G_IO_ERROR_NONE; } } result = read (win32_channel->fd, buf, count); if (result < 0) { *bytes_read = 0; if (errno == EINVAL) return G_IO_ERROR_INVAL; else return G_IO_ERROR_UNKNOWN; } else { *bytes_read = result; return G_IO_ERROR_NONE; } } static GIOError g_io_win32_fd_write (GIOChannel *channel, gchar *buf, guint count, guint *bytes_written) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; gint result; result = write (win32_channel->fd, buf, count); if (win32_channel->debug) g_print ("g_io_win32_fd_write: fd:%d count:%d = %d\n", win32_channel->fd, count, result); if (result < 0) { *bytes_written = 0; switch (errno) { case EINVAL: return G_IO_ERROR_INVAL; case EAGAIN: return G_IO_ERROR_AGAIN; default: return G_IO_ERROR_UNKNOWN; } } else { *bytes_written = result; return G_IO_ERROR_NONE; } } static GIOError g_io_win32_fd_seek (GIOChannel *channel, gint offset, GSeekType type) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; int whence; off_t result; switch (type) { case G_SEEK_SET: whence = SEEK_SET; break; case G_SEEK_CUR: whence = SEEK_CUR; break; case G_SEEK_END: whence = SEEK_END; break; default: g_warning ("g_io_win32_fd_seek: unknown seek type"); return G_IO_ERROR_UNKNOWN; } result = lseek (win32_channel->fd, offset, whence); if (result < 0) { switch (errno) { case EINVAL: return G_IO_ERROR_INVAL; default: return G_IO_ERROR_UNKNOWN; } } else return G_IO_ERROR_NONE; } static void g_io_win32_fd_close (GIOChannel *channel) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; close (win32_channel->fd); return; } static int fd_reader (int fd, guchar *buf, int len) { return read (fd, buf, len); } static GSource * g_io_win32_fd_create_watch (GIOChannel *channel, GIOCondition condition) { return g_io_win32_create_watch (channel, condition, fd_reader); } static GIOError g_io_win32_sock_read (GIOChannel *channel, gchar *buf, guint count, guint *bytes_read) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; gint result; GIOError error; if (win32_channel->thread_id) { result = buffer_read (win32_channel, buf, count, &error); if (result < 0) { *bytes_read = 0; return error; } else { *bytes_read = result; return G_IO_ERROR_NONE; } } result = recv (win32_channel->fd, buf, count, 0); if (result < 0) { *bytes_read = 0; return G_IO_ERROR_UNKNOWN; } else { *bytes_read = result; return G_IO_ERROR_NONE; } } static GIOError g_io_win32_sock_write (GIOChannel *channel, gchar *buf, guint count, guint *bytes_written) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; gint result; result = send (win32_channel->fd, buf, count, 0); if (result == SOCKET_ERROR) { *bytes_written = 0; switch (WSAGetLastError ()) { case WSAEINVAL: return G_IO_ERROR_INVAL; case WSAEWOULDBLOCK: case WSAEINTR: return G_IO_ERROR_AGAIN; default: return G_IO_ERROR_UNKNOWN; } } else { *bytes_written = result; return G_IO_ERROR_NONE; } } static void g_io_win32_sock_close (GIOChannel *channel) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; closesocket (win32_channel->fd); } static int sock_reader (int fd, guchar *buf, int len) { return recv (fd, buf, len, 0); } static GSource * g_io_win32_sock_create_watch (GIOChannel *channel, GIOCondition condition) { return g_io_win32_add_watch (channel, condition, sock_reader); } static GIOFuncs win32_channel_msg_funcs = { g_io_win32_msg_read, g_io_win32_msg_write, g_io_win32_no_seek, g_io_win32_msg_close, g_io_win32_msg_create_watch, g_io_win32_free }; static GIOFuncs win32_channel_fd_funcs = { g_io_win32_fd_read, g_io_win32_fd_write, g_io_win32_fd_seek, g_io_win32_fd_close, g_io_win32_fd_create_watch, g_io_win32_free }; static GIOFuncs win32_channel_sock_funcs = { g_io_win32_sock_read, g_io_win32_sock_write, g_io_win32_no_seek, g_io_win32_sock_close, g_io_win32_sock_create_watch, g_io_win32_free }; GIOChannel * g_io_channel_win32_new_messages (guint hwnd) { GIOWin32Channel *win32_channel = g_new (GIOWin32Channel, 1); GIOChannel *channel = (GIOChannel *) win32_channel; g_io_channel_init (channel); g_io_channel_win32_init (win32_channel); channel->funcs = &win32_channel_msg_funcs; win32_channel->type = G_IO_WINDOWS_MESSAGES; win32_channel->hwnd = (HWND) hwnd; return channel; } GIOChannel * g_io_channel_win32_new_fd (gint fd) { GIOWin32Channel *win32_channel; GIOChannel *channel; struct stat st; if (fstat (fd, &st) == -1) { g_warning ("%d isn't a (emulated) file descriptor", fd); return NULL; } win32_channel = g_new (GIOWin32Channel, 1); channel = (GIOChannel *) win32_channel; g_io_channel_init (channel); g_io_channel_win32_init (win32_channel); channel->funcs = &win32_channel_fd_funcs; win32_channel->type = G_IO_FILE_DESC; win32_channel->fd = fd; return channel; } gint g_io_channel_win32_get_fd (GIOChannel *channel) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; return win32_channel->fd; } GIOChannel * g_io_channel_win32_new_stream_socket (int socket) { GIOWin32Channel *win32_channel = g_new (GIOWin32Channel, 1); GIOChannel *channel = (GIOChannel *) win32_channel; g_io_channel_init (channel); g_io_channel_win32_init (win32_channel); channel->funcs = &win32_channel_sock_funcs; win32_channel->type = G_IO_STREAM_SOCKET; win32_channel->fd = socket; return channel; } GIOChannel * g_io_channel_unix_new (gint fd) { return g_io_channel_win32_new_fd (fd); } gint g_io_channel_unix_get_fd (GIOChannel *channel) { return g_io_channel_win32_get_fd (channel); } void g_io_channel_win32_set_debug (GIOChannel *channel, gboolean flag) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; win32_channel->debug = flag; } gint g_io_channel_win32_poll (GPollFD *fds, gint n_fds, gint timeout) { int result; g_return_val_if_fail (n_fds >= 0, 0); result = (*g_main_win32_get_poll_func ()) (fds, n_fds, timeout); return result; } void g_io_channel_win32_make_pollfd (GIOChannel *channel, GIOCondition condition, GPollFD *fd) { GIOWin32Channel *win32_channel = (GIOWin32Channel *) channel; if (win32_channel->data_avail_event == NULL) create_events (win32_channel); fd->fd = (gint) win32_channel->data_avail_event; fd->events = condition; if (win32_channel->thread_id == 0) if (win32_channel->type == G_IO_FILE_DESC) create_reader_thread (win32_channel, fd_reader); else if (win32_channel->type == G_IO_STREAM_SOCKET) create_reader_thread (win32_channel, sock_reader); } /* This variable and the functions below are present just to be * binary compatible with old clients... But note that in GIMP, the * libgimp/gimp.c:gimp_extension_process() function will have to be modified * anyhow for this new approach. * * These will be removed after some weeks. */ guint g_pipe_readable_msg = 0; GIOChannel * g_io_channel_win32_new_pipe (int fd) { return g_io_channel_win32_new_fd (fd); } GIOChannel * g_io_channel_win32_new_pipe_with_wakeups (int fd, guint peer, int peer_fd) { return g_io_channel_win32_new_fd (fd); } void g_io_channel_win32_pipe_request_wakeups (GIOChannel *channel, guint peer, int peer_fd) { /* Nothing needed now */ } void g_io_channel_win32_pipe_readable (gint fd, guint offset) { /* Nothing needed now */ }