/* * * AT chat library with GLib integration * * Copyright (C) 2008-2009 Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include "ringbuffer.h" #include "gsm0710.h" #include "gatmux.h" typedef struct _GAtMuxChannel GAtMuxChannel; typedef struct _GAtMuxWatch GAtMuxWatch; struct _GAtMuxChannel { GIOChannel channel; GAtMux *mux; GIOCondition condition; struct ring_buffer *buffer; }; struct _GAtMuxWatch { GSource source; GIOChannel *channel; GIOCondition condition; }; struct _GAtMux { gint ref_count; /* Ref count */ guint read_watch; /* GSource read id, 0 if none */ GIOChannel *channel; /* channel */ GAtChat *chat; /* for muxer setup */ GAtDisconnectFunc user_disconnect; /* user disconnect func */ gpointer user_disconnect_data; /* user disconnect data */ GAtDebugFunc debugf; /* debugging output function */ gpointer debug_data; /* Data to pass to debug func */ GAtMuxChannel *mux_channel; struct gsm0710_context ctx; }; static gboolean received_data(GIOChannel *channel, GIOCondition cond, gpointer data) { GAtMux *mux = data; if (cond & G_IO_NVAL) return FALSE; gsm0710_ready_read(&mux->ctx); return TRUE; } static int do_read(struct gsm0710_context *ctx, void *data, int len) { GAtMux *mux = ctx->user_data; GError *error = NULL; GIOStatus status; gsize bytes_read; status = g_io_channel_read_chars(mux->channel, data, len, &bytes_read, &error); return bytes_read; } static int do_write(struct gsm0710_context *ctx, const void *data, int len) { GAtMux *mux = ctx->user_data; GError *error = NULL; GIOStatus status; gssize count = len; gsize bytes_written; status = g_io_channel_write_chars(mux->channel, (gchar *) data, count, &bytes_written, &error); return bytes_written; } static void deliver_data(struct gsm0710_context *ctx, int channel, const void *data, int len) { GAtMux *mux = ctx->user_data; GMainContext *context; int written; written = ring_buffer_write(mux->mux_channel->buffer, data, len); if (written < 0) return; context = g_main_context_default(); g_main_context_wakeup(context); } static void deliver_status(struct gsm0710_context *ctx, int channel, int status) { GAtMux *mux = ctx->user_data; GMainContext *context; if (status & GSM0710_RTS) mux->mux_channel->condition |= G_IO_OUT; else mux->mux_channel->condition &= ~G_IO_OUT; context = g_main_context_default(); g_main_context_wakeup(context); } static void debug_message(struct gsm0710_context *ctx, const char *msg) { } GAtMux *g_at_mux_new(GIOChannel *channel) { GAtMux *mux; if (!channel) return NULL; mux = g_try_new0(GAtMux, 1); if (!mux) return NULL; mux->ref_count = 1; mux->channel = channel; g_io_channel_ref(channel); g_io_channel_set_close_on_unref(channel, TRUE); gsm0710_initialize(&mux->ctx); mux->ctx.user_data = mux; mux->ctx.mode = GSM0710_MODE_ADVANCED; mux->ctx.read = do_read; mux->ctx.write = do_write; mux->ctx.deliver_data = deliver_data; mux->ctx.deliver_status = deliver_status; mux->ctx.debug_message = debug_message; return mux; } GAtMux *g_at_mux_ref(GAtMux *mux) { if (mux == NULL) return NULL; g_atomic_int_inc(&mux->ref_count); return mux; } void g_at_mux_unref(GAtMux *mux) { if (mux == NULL) return; if (g_atomic_int_dec_and_test(&mux->ref_count)) { g_at_mux_shutdown(mux); g_io_channel_unref(mux->channel); g_free(mux); } } static gboolean startup_callback(gpointer data) { GAtMux *mux = data; GIOFlags flags; g_at_chat_shutdown(mux->chat); g_at_chat_unref(mux->chat); mux->chat = NULL; g_io_channel_flush(mux->channel, NULL); flags = g_io_channel_get_flags(mux->channel) | G_IO_FLAG_NONBLOCK; g_io_channel_set_flags(mux->channel, flags, NULL); g_io_channel_set_encoding(mux->channel, NULL, NULL); g_io_channel_set_buffered(mux->channel, FALSE); mux->read_watch = g_io_add_watch_full(mux->channel, G_PRIORITY_DEFAULT, G_IO_IN | G_IO_HUP | G_IO_ERR | G_IO_NVAL, received_data, mux, NULL); gsm0710_startup(&mux->ctx); gsm0710_open_channel(&mux->ctx, 1); return FALSE; } static void setup_callback(gboolean ok, GAtResult *result, gpointer user_data) { GAtMux *mux = user_data; if (!ok) return; g_idle_add(startup_callback, mux); } static void chat_disconnect(gpointer user_data) { } gboolean g_at_mux_start(GAtMux *mux) { GAtSyntax *syntax; char *cmd; int speed; if (mux->channel == NULL) return FALSE; syntax = g_at_syntax_new_gsm_permissive(); mux->chat = g_at_chat_new(mux->channel, syntax); g_at_syntax_unref(syntax); if (!mux->chat) return FALSE; g_at_chat_set_debug(mux->chat, mux->debugf, mux->debug_data); g_at_chat_set_disconnect_function(mux->chat, chat_disconnect, NULL); g_at_chat_set_wakeup_command(mux->chat, "\r", 1000, 5000); g_at_chat_send(mux->chat, "ATE0", NULL, NULL, NULL, NULL); //g_at_chat_send(mux->chat, "AT+CFUN=0", NULL, NULL, NULL, NULL); switch (mux->ctx.port_speed) { case 9600: speed = 1; break; case 19200: speed = 2; break; case 38400: speed = 3; break; case 57600: speed = 4; break; case 115200: speed = 5; break; case 230400: speed = 6; break; default: speed = 5; break; } cmd = g_strdup_printf("AT+CMUX=%u,0,%u,%u", mux->ctx.mode, speed, mux->ctx.frame_size); g_at_chat_send(mux->chat, cmd, NULL, setup_callback, mux, NULL); return TRUE; } gboolean g_at_mux_shutdown(GAtMux *mux) { if (mux->read_watch > 0) g_source_remove(mux->read_watch); if (mux->channel == NULL) return FALSE; gsm0710_shutdown(&mux->ctx); return TRUE; } gboolean g_at_mux_set_disconnect_function(GAtMux *mux, GAtDisconnectFunc disconnect, gpointer user_data) { if (mux == NULL) return FALSE; mux->user_disconnect = disconnect; mux->user_disconnect_data = user_data; return TRUE; } gboolean g_at_mux_set_debug(GAtMux *mux, GAtDebugFunc func, gpointer user) { if (mux == NULL) return FALSE; mux->debugf = func; mux->debug_data = user; return TRUE; } static gboolean watch_check(GSource *source) { GAtMuxWatch *watch = (GAtMuxWatch *) source; GAtMuxChannel *channel = (GAtMuxChannel *) watch->channel; if (ring_buffer_len(channel->buffer) > 0) channel->condition |= G_IO_IN; else channel->condition &= ~G_IO_IN; if (channel->condition & watch->condition) return TRUE; return FALSE; } static gboolean watch_prepare(GSource *source, gint *timeout) { *timeout = -1; return watch_check(source); } static gboolean watch_dispatch(GSource *source, GSourceFunc callback, gpointer user_data) { GIOFunc func = (GIOFunc) callback; GAtMuxWatch *watch = (GAtMuxWatch *) source; GAtMuxChannel *channel = (GAtMuxChannel *) watch->channel; if (!func) return FALSE; return func(watch->channel, channel->condition & watch->condition, user_data); } static void watch_finalize(GSource *source) { GAtMuxWatch *watch = (GAtMuxWatch *) source; g_io_channel_unref(watch->channel); } static GSourceFuncs watch_funcs = { watch_prepare, watch_check, watch_dispatch, watch_finalize }; static GIOStatus channel_read(GIOChannel *channel, gchar *buf, gsize count, gsize *bytes_read, GError **err) { GAtMuxChannel *mux_channel = (GAtMuxChannel *) channel; unsigned int avail = ring_buffer_len_no_wrap(mux_channel->buffer); if (avail > count) avail = count; *bytes_read = ring_buffer_read(mux_channel->buffer, buf, avail); return G_IO_STATUS_NORMAL; } static GIOStatus channel_write(GIOChannel *channel, const gchar *buf, gsize count, gsize *bytes_written, GError **err) { GAtMuxChannel *mux_channel = (GAtMuxChannel *) channel; GAtMux *mux = mux_channel->mux; gsm0710_write_data(&mux->ctx, 1, buf, count); *bytes_written = count; return G_IO_STATUS_NORMAL; } static GIOStatus channel_seek(GIOChannel *channel, gint64 offset, GSeekType type, GError **err) { return G_IO_STATUS_NORMAL; } static GIOStatus channel_close(GIOChannel *channel, GError **err) { return G_IO_STATUS_NORMAL; } static void channel_free(GIOChannel *channel) { GAtMuxChannel *mux_channel = (GAtMuxChannel *) channel; ring_buffer_free(mux_channel->buffer); g_free(channel); } static GSource *channel_create_watch(GIOChannel *channel, GIOCondition condition) { GSource *source; GAtMuxWatch *watch; source = g_source_new(&watch_funcs, sizeof(GAtMuxWatch)); watch = (GAtMuxWatch *) source; watch->channel = channel; g_io_channel_ref(channel); watch->condition = condition; return source; } static GIOStatus channel_set_flags(GIOChannel *channel, GIOFlags flags, GError **err) { return G_IO_STATUS_NORMAL; } static GIOFlags channel_get_flags(GIOChannel *channel) { GIOFlags flags = 0; return flags; } static GIOFuncs channel_funcs = { channel_read, channel_write, channel_seek, channel_close, channel_create_watch, channel_free, channel_set_flags, channel_get_flags, }; GIOChannel *g_at_mux_create_channel(GAtMux *mux) { GAtMuxChannel *mux_channel; GIOChannel *channel; mux_channel = g_try_new0(GAtMuxChannel, 1); if (mux_channel == NULL) return NULL; channel = (GIOChannel *) mux_channel; g_io_channel_init(channel); channel->close_on_unref = TRUE; channel->funcs = &channel_funcs; channel->is_seekable = FALSE; mux_channel->mux = mux; mux->mux_channel = mux_channel; mux_channel->buffer = ring_buffer_new(GSM0710_BUFFER_SIZE); return channel; } GAtChat *g_at_mux_create_chat(GAtMux *mux, GAtSyntax *syntax) { GIOChannel *channel; g_at_mux_start(mux); channel = g_at_mux_create_channel(mux); if (channel == NULL) return NULL; return g_at_chat_new(channel, syntax); }