/** * xrdp: A Remote Desktop Protocol server. * * Copyright (C) Jay Sorg 2009-2012 * Copyright (C) Laxmikant Rashinkar 2009-2012 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "arch.h" #include "os_calls.h" #include "thread_calls.h" #include "trans.h" #include "chansrv.h" #include "defines.h" #include "sound.h" #include "clipboard.h" #include "devredir.h" #include "list.h" #include "file.h" #include "file_loc.h" #include "log.h" #include "rail.h" #include "xcommon.h" #include "chansrv_fuse.h" static struct trans *g_lis_trans = 0; static struct trans *g_con_trans = 0; static struct trans *g_api_lis_trans = 0; static struct trans *g_api_con_trans = 0; static struct chan_item g_chan_items[32]; static int g_num_chan_items = 0; static int g_cliprdr_index = -1; static int g_rdpsnd_index = -1; static int g_rdpdr_index = -1; static int g_rail_index = -1; static int g_drdynvc_index = -1; /* state info for dynamic virtual channels */ static struct xrdp_api_data *g_dvc_channels[MAX_DVC_CHANNELS]; static tbus g_term_event = 0; static tbus g_thread_done_event = 0; static int g_use_unix_socket = 0; static char g_xrdpapi_magic[12] = { 0x78, 0x32, 0x10, 0x67, 0x00, 0x92, 0x30, 0x56, 0xff, 0xd8, 0xa9, 0x1f }; int g_display_num = 0; int g_cliprdr_chan_id = -1; /* cliprdr */ int g_rdpsnd_chan_id = -1; /* rdpsnd */ int g_rdpdr_chan_id = -1; /* rdpdr */ int g_rail_chan_id = -1; /* rail */ int g_drdynvc_chan_id = -1; /* drdynvc */ char *g_exec_name; tbus g_exec_event; tbus g_exec_mutex; tbus g_exec_sem; int g_exec_pid = 0; /* each time we create a DVC we need a unique DVC channel id */ /* this variable gets bumped up once per DVC we create */ tui32 g_dvc_chan_id = 100; /*****************************************************************************/ /* add data to chan_item, on its way to the client */ /* returns error */ static int APP_CC add_data_to_chan_item(struct chan_item *chan_item, char *data, int size) { struct stream *s; struct chan_out_data *cod; make_stream(s); init_stream(s, size); g_memcpy(s->data, data, size); s->end = s->data + size; cod = (struct chan_out_data *)g_malloc(sizeof(struct chan_out_data), 1); cod->s = s; if (chan_item->tail == 0) { chan_item->tail = cod; chan_item->head = cod; } else { chan_item->tail->next = cod; chan_item->tail = cod; } return 0; } /*****************************************************************************/ /* returns error */ static int APP_CC send_data_from_chan_item(struct chan_item *chan_item) { struct stream *s; struct chan_out_data *cod; int bytes_left; int size; int chan_flags; int error; if (chan_item->head == 0) { return 0; } cod = chan_item->head; bytes_left = (int)(cod->s->end - cod->s->p); size = MIN(1600, bytes_left); chan_flags = 0; if (cod->s->p == cod->s->data) { chan_flags |= 1; /* first */ } if (cod->s->p + size >= cod->s->end) { chan_flags |= 2; /* last */ } s = trans_get_out_s(g_con_trans, 8192); out_uint32_le(s, 0); /* version */ out_uint32_le(s, 8 + 8 + 2 + 2 + 2 + 4 + size); /* size */ out_uint32_le(s, 8); /* msg id */ out_uint32_le(s, 8 + 2 + 2 + 2 + 4 + size); /* size */ out_uint16_le(s, chan_item->id); out_uint16_le(s, chan_flags); out_uint16_le(s, size); out_uint32_le(s, cod->s->size); out_uint8a(s, cod->s->p, size); s_mark_end(s); LOGM((LOG_LEVEL_DEBUG, "chansrv::send_channel_data: -- " "size %d chan_flags 0x%8.8x", size, chan_flags)); error = trans_force_write(g_con_trans); if (error != 0) { return 1; } cod->s->p += size; if (cod->s->p >= cod->s->end) { free_stream(cod->s); chan_item->head = chan_item->head->next; if (chan_item->head == 0) { chan_item->tail = 0; } g_free(cod); } return 0; } /*****************************************************************************/ /* returns error */ static int APP_CC check_chan_items(void) { int index; for (index = 0; index < g_num_chan_items; index++) { if (g_chan_items[index].head != 0) { send_data_from_chan_item(g_chan_items + index); } } return 0; } /*****************************************************************************/ /* returns error */ int APP_CC send_channel_data(int chan_id, char *data, int size) { int index; //g_writeln("send_channel_data chan_id %d size %d", chan_id, size); LOGM((LOG_LEVEL_DEBUG, "chansrv::send_channel_data: size %d", size)); if (chan_id == -1) { g_writeln("send_channel_data: error, chan_id is -1"); return 1; } for (index = 0; index < g_num_chan_items; index++) { if (g_chan_items[index].id == chan_id) { add_data_to_chan_item(g_chan_items + index, data, size); check_chan_items(); return 0; } } return 1; } /*****************************************************************************/ /* returns error */ static int APP_CC send_init_response_message(void) { struct stream *s = (struct stream *)NULL; LOGM((LOG_LEVEL_INFO, "send_init_response_message:")); s = trans_get_out_s(g_con_trans, 8192); if (s == 0) { return 1; } out_uint32_le(s, 0); /* version */ out_uint32_le(s, 8 + 8); /* size */ out_uint32_le(s, 2); /* msg id */ out_uint32_le(s, 8); /* size */ s_mark_end(s); return trans_force_write(g_con_trans); } /*****************************************************************************/ /* returns error */ static int APP_CC send_channel_setup_response_message(void) { struct stream *s = (struct stream *)NULL; LOGM((LOG_LEVEL_DEBUG, "send_channel_setup_response_message:")); s = trans_get_out_s(g_con_trans, 8192); if (s == 0) { return 1; } out_uint32_le(s, 0); /* version */ out_uint32_le(s, 8 + 8); /* size */ out_uint32_le(s, 4); /* msg id */ out_uint32_le(s, 8); /* size */ s_mark_end(s); return trans_force_write(g_con_trans); } /*****************************************************************************/ /* returns error */ static int APP_CC send_channel_data_response_message(void) { struct stream *s = (struct stream *)NULL; LOGM((LOG_LEVEL_DEBUG, "send_channel_data_response_message:")); s = trans_get_out_s(g_con_trans, 8192); if (s == 0) { return 1; } out_uint32_le(s, 0); /* version */ out_uint32_le(s, 8 + 8); /* size */ out_uint32_le(s, 6); /* msg id */ out_uint32_le(s, 8); /* size */ s_mark_end(s); return trans_force_write(g_con_trans); } /*****************************************************************************/ /* returns error */ static int APP_CC process_message_init(struct stream *s) { LOGM((LOG_LEVEL_DEBUG, "process_message_init:")); return send_init_response_message(); } /*****************************************************************************/ /* returns error */ static int APP_CC process_message_channel_setup(struct stream *s) { int num_chans; int index; int rv; struct chan_item *ci; g_num_chan_items = 0; g_cliprdr_index = -1; g_rdpsnd_index = -1; g_rdpdr_index = -1; g_rail_index = -1; g_cliprdr_chan_id = -1; g_rdpsnd_chan_id = -1; g_rdpdr_chan_id = -1; g_rail_chan_id = -1; g_drdynvc_chan_id = -1; LOGM((LOG_LEVEL_DEBUG, "process_message_channel_setup:")); in_uint16_le(s, num_chans); LOGM((LOG_LEVEL_DEBUG, "process_message_channel_setup: num_chans %d", num_chans)); for (index = 0; index < num_chans; index++) { ci = &(g_chan_items[g_num_chan_items]); g_memset(ci->name, 0, sizeof(ci->name)); in_uint8a(s, ci->name, 8); in_uint16_le(s, ci->id); in_uint16_le(s, ci->flags); LOGM((LOG_LEVEL_DEBUG, "process_message_channel_setup: chan name '%s' " "id %d flags %8.8x", ci->name, ci->id, ci->flags)); g_writeln("process_message_channel_setup: chan name '%s' " "id %d flags %8.8x", ci->name, ci->id, ci->flags); if (g_strcasecmp(ci->name, "cliprdr") == 0) { g_cliprdr_index = g_num_chan_items; g_cliprdr_chan_id = ci->id; } else if (g_strcasecmp(ci->name, "rdpsnd") == 0) { g_rdpsnd_index = g_num_chan_items; g_rdpsnd_chan_id = ci->id; } else if (g_strcasecmp(ci->name, "rdpdr") == 0) { g_rdpdr_index = g_num_chan_items; g_rdpdr_chan_id = ci->id; } else if (g_strcasecmp(ci->name, "rail") == 0) { g_rail_index = g_num_chan_items; g_rail_chan_id = ci->id; } else if (g_strcasecmp(ci->name, "drdynvc") == 0) { g_drdynvc_index = g_num_chan_items; // LK_TODO use this g_drdynvc_chan_id = ci->id; // LK_TODO use this } else { LOG(10, ("other %s", ci->name)); } g_num_chan_items++; } rv = send_channel_setup_response_message(); if (g_cliprdr_index >= 0) { clipboard_init(); fuse_init(); } if (g_rdpsnd_index >= 0) { sound_init(); } if (g_rdpdr_index >= 0) { dev_redir_init(); } if (g_rail_index >= 0) { rail_init(); } if (g_drdynvc_index >= 0) { g_memset(&g_dvc_channels[0], 0, sizeof(g_dvc_channels)); drdynvc_init(); } return rv; } /*****************************************************************************/ /* returns error */ static int APP_CC process_message_channel_data(struct stream *s) { int chan_id = 0; int chan_flags = 0; int rv = 0; int length = 0; int total_length = 0; struct stream *ls; in_uint16_le(s, chan_id); in_uint16_le(s, chan_flags); in_uint16_le(s, length); in_uint32_le(s, total_length); LOGM((LOG_LEVEL_DEBUG, "process_message_channel_data: chan_id %d " "chan_flags %d", chan_id, chan_flags)); LOG(10, ("process_message_channel_data")); rv = send_channel_data_response_message(); if (rv == 0) { if (chan_id == g_cliprdr_chan_id) { rv = clipboard_data_in(s, chan_id, chan_flags, length, total_length); } else if (chan_id == g_rdpsnd_chan_id) { rv = sound_data_in(s, chan_id, chan_flags, length, total_length); } else if (chan_id == g_rdpdr_chan_id) { rv = dev_redir_data_in(s, chan_id, chan_flags, length, total_length); } else if (chan_id == g_rail_chan_id) { rv = rail_data_in(s, chan_id, chan_flags, length, total_length); } else if (chan_id == g_drdynvc_chan_id) { rv = drdynvc_data_in(s, chan_id, chan_flags, length, total_length); } else if (chan_id == ((struct xrdp_api_data *) (g_api_con_trans->callback_data))->chan_id) { LOG(10, ("process_message_channel_data length %d total_length %d " "chan_flags 0x%8.8x", length, total_length, chan_flags)); ls = g_api_con_trans->out_s; if (chan_flags & 1) /* first */ { init_stream(ls, total_length); } out_uint8a(ls, s->p, length); if (chan_flags & 2) /* last */ { s_mark_end(ls); trans_force_write(g_api_con_trans); } } } return rv; } /*****************************************************************************/ /* returns error */ static int APP_CC process_message_channel_data_response(struct stream *s) { LOG(10, ("process_message_channel_data_response:")); check_chan_items(); return 0; } /*****************************************************************************/ /* returns error */ static int APP_CC process_message(void) { struct stream *s = (struct stream *)NULL; int size = 0; int id = 0; int rv = 0; char *next_msg = (char *)NULL; if (g_con_trans == 0) { return 1; } s = trans_get_in_s(g_con_trans); if (s == 0) { return 1; } rv = 0; while (s_check_rem(s, 8)) { next_msg = s->p; in_uint32_le(s, id); in_uint32_le(s, size); next_msg += size; switch (id) { case 1: /* init */ rv = process_message_init(s); break; case 3: /* channel setup */ rv = process_message_channel_setup(s); break; case 5: /* channel data */ rv = process_message_channel_data(s); break; case 7: /* channel data response */ rv = process_message_channel_data_response(s); break; default: LOGM((LOG_LEVEL_ERROR, "process_message: error in process_message ", "unknown msg %d", id)); break; } if (rv != 0) { break; } s->p = next_msg; } return rv; } /*****************************************************************************/ /* returns error */ int DEFAULT_CC my_trans_data_in(struct trans *trans) { struct stream *s = (struct stream *)NULL; int id = 0; int size = 0; int error = 0; if (trans == 0) { return 0; } if (trans != g_con_trans) { return 1; } LOGM((LOG_LEVEL_DEBUG, "my_trans_data_in:")); s = trans_get_in_s(trans); in_uint32_le(s, id); in_uint32_le(s, size); error = trans_force_read(trans, size - 8); if (error == 0) { /* here, the entire message block is read in, process it */ error = process_message(); } return error; } /* * called when WTSVirtualChannelWrite() is invoked in xrdpapi.c * ******************************************************************************/ int DEFAULT_CC my_api_trans_data_in(struct trans *trans) { struct stream *s; int bytes_read; int i32; struct xrdp_api_data *ad; //g_writeln("my_api_trans_data_in:"); LOG(10, ("my_api_trans_data_in:")); if (trans == 0) { return 0; } if (trans != g_api_con_trans) { return 1; } LOGM((LOG_LEVEL_DEBUG, "my_api_trans_data_in:")); s = trans_get_in_s(trans); bytes_read = g_tcp_recv(trans->sck, s->data, 16, 0); if (bytes_read == 16) { if (g_memcmp(s->data, g_xrdpapi_magic, 12) == 0) { in_uint8s(s, 12); in_uint32_le(s, bytes_read); init_stream(s, bytes_read); trans_force_read(trans, bytes_read); } else if (g_tcp_select(trans->sck, 0) & 1) { i32 = bytes_read; bytes_read = g_tcp_recv(trans->sck, s->data + bytes_read, 8192 * 4 - bytes_read, 0); if (bytes_read > 0) { bytes_read += i32; } } } //g_writeln("bytes_read %d", bytes_read); if (bytes_read > 0) { LOG(10, ("my_api_trans_data_in: got data %d", bytes_read)); ad = (struct xrdp_api_data *) trans->callback_data; if (ad->dvc_chan_id < 0) { /* writing data to a static virtual channel */ if (send_channel_data(ad->chan_id, s->data, bytes_read) != 0) { LOG(0, ("my_api_trans_data_in: send_channel_data failed")); } } else { /* writing data to a dynamic virtual channel */ drdynvc_write_data(ad->dvc_chan_id, s->data, bytes_read); } } else { ad = (struct xrdp_api_data *) (trans->callback_data); if ((ad != NULL) && (ad->dvc_chan_id > 0)) { /* WTSVirtualChannelClose() was invoked, or connection dropped */ LOG(10, ("my_api_trans_data_in: g_tcp_recv failed or disconnected for DVC")); ad->transp = NULL; ad->is_connected = 0; remove_struct_with_chan_id(ad->dvc_chan_id); } else { LOG(10, ("my_api_trans_data_in: g_tcp_recv failed or disconnected for SVC")); } return 1; } return 0; } /*****************************************************************************/ int DEFAULT_CC my_trans_conn_in(struct trans *trans, struct trans *new_trans) { if (trans == 0) { return 1; } if (trans != g_lis_trans) { return 1; } if (g_con_trans != 0) /* if already set, error */ { return 1; } if (new_trans == 0) { return 1; } LOGM((LOG_LEVEL_DEBUG, "my_trans_conn_in:")); g_con_trans = new_trans; g_con_trans->trans_data_in = my_trans_data_in; g_con_trans->header_size = 8; /* stop listening */ trans_delete(g_lis_trans); g_lis_trans = 0; return 0; } /* * called when WTSVirtualChannelOpenEx is invoked in xrdpapi.c * ******************************************************************************/ int DEFAULT_CC my_api_trans_conn_in(struct trans *trans, struct trans *new_trans) { struct xrdp_api_data *ad; struct stream *s; int error; int index; char chan_pri; if ((trans == 0) || (trans != g_api_lis_trans) || (new_trans == 0)) { return 1; } LOGM((LOG_LEVEL_DEBUG, "my_api_trans_conn_in:")); LOG(10, ("my_api_trans_conn_in: got incoming")); s = trans_get_in_s(new_trans); s->end = s->data; error = trans_force_read(new_trans, 64); if (error != 0) { LOG(0, ("my_api_trans_conn_in: trans_force_read failed")); trans_delete(new_trans); } s->end = s->data; ad = (struct xrdp_api_data *) g_malloc(sizeof(struct xrdp_api_data), 1); g_memcpy(ad->header, s->data, 64); ad->flags = GGET_UINT32(ad->header, 16); ad->chan_id = -1; ad->dvc_chan_id = -1; if (ad->flags > 0) { /* opening a dynamic virtual channel */ if ((index = find_empty_slot_in_dvc_channels()) < 0) { /* exceeded MAX_DVC_CHANNELS */ LOG(0, ("my_api_trans_conn_in: MAX_DVC_CHANNELS reached; giving up!")) g_free(ad); trans_delete(new_trans); return 1; } g_dvc_channels[index] = ad; chan_pri = 4 - ad->flags; ad->dvc_chan_id = g_dvc_chan_id++; ad->is_connected = 0; ad->transp = new_trans; drdynvc_send_open_channel_request(chan_pri, ad->dvc_chan_id, ad->header); } else { /* opening a static virtual channel */ for (index = 0; index < g_num_chan_items; index++) { LOG(10, ("my_api_trans_conn_in: %s %s", ad->header, g_chan_items[index].name)); if (g_strcasecmp(ad->header, g_chan_items[index].name) == 0) { LOG(10, ("my_api_trans_conn_in: found it at %d", index)); ad->chan_id = g_chan_items[index].id; break; } } if (index == g_num_chan_items) { g_writeln("did not find SVC named %s", ad->header); } } new_trans->callback_data = ad; trans_delete(g_api_con_trans); g_api_con_trans = new_trans; g_api_con_trans->trans_data_in = my_api_trans_data_in; g_api_con_trans->header_size = 0; return 0; } /*****************************************************************************/ static int APP_CC setup_listen(void) { char port[256]; int error = 0; if (g_lis_trans != 0) { trans_delete(g_lis_trans); } if (g_use_unix_socket) { g_lis_trans = trans_create(2, 8192, 8192); g_snprintf(port, 255, "/tmp/.xrdp/xrdp_chansrv_socket_%d", 7200 + g_display_num); } else { g_lis_trans = trans_create(1, 8192, 8192); g_snprintf(port, 255, "%d", 7200 + g_display_num); } g_lis_trans->trans_conn_in = my_trans_conn_in; error = trans_listen(g_lis_trans, port); if (error != 0) { LOGM((LOG_LEVEL_ERROR, "setup_listen: trans_listen failed for port %s", port)); return 1; } return 0; } /*****************************************************************************/ static int APP_CC setup_api_listen(void) { char port[256]; int error = 0; g_api_lis_trans = trans_create(TRANS_MODE_UNIX, 8192 * 4, 8192 * 4); g_snprintf(port, 255, "/tmp/.xrdp/xrdpapi_%d", g_display_num); g_api_lis_trans->trans_conn_in = my_api_trans_conn_in; error = trans_listen(g_api_lis_trans, port); if (error != 0) { LOGM((LOG_LEVEL_ERROR, "setup_api_listen: trans_listen failed for port %s", port)); return 1; } return 0; } /*****************************************************************************/ THREAD_RV THREAD_CC channel_thread_loop(void *in_val) { tbus objs[32]; int num_objs; int timeout; int error; THREAD_RV rv; LOGM((LOG_LEVEL_INFO, "channel_thread_loop: thread start")); rv = 0; setup_api_listen(); error = setup_listen(); if (error == 0) { timeout = -1; num_objs = 0; objs[num_objs] = g_term_event; num_objs++; trans_get_wait_objs(g_lis_trans, objs, &num_objs); trans_get_wait_objs(g_api_lis_trans, objs, &num_objs); while (g_obj_wait(objs, num_objs, 0, 0, timeout) == 0) { if (g_is_wait_obj_set(g_term_event)) { LOGM((LOG_LEVEL_INFO, "channel_thread_loop: g_term_event set")); clipboard_deinit(); sound_deinit(); dev_redir_deinit(); rail_deinit(); break; } if (g_lis_trans != 0) { if (trans_check_wait_objs(g_lis_trans) != 0) { LOGM((LOG_LEVEL_INFO, "channel_thread_loop: " "trans_check_wait_objs error")); } } if (g_con_trans != 0) { if (trans_check_wait_objs(g_con_trans) != 0) { LOGM((LOG_LEVEL_INFO, "channel_thread_loop: " "trans_check_wait_objs error resetting")); clipboard_deinit(); sound_deinit(); dev_redir_deinit(); rail_deinit(); /* delete g_con_trans */ trans_delete(g_con_trans); g_con_trans = 0; /* create new listener */ error = setup_listen(); if (error != 0) { break; } } } if (g_api_lis_trans != 0) { if (trans_check_wait_objs(g_api_lis_trans) != 0) { LOG(0, ("channel_thread_loop: trans_check_wait_objs failed")); } } LOG(10, ("0 %p", g_api_con_trans)); if (g_api_con_trans != 0) { LOG(10, ("1 %p %d", g_api_con_trans, g_tcp_can_recv(g_api_con_trans->sck, 0))); if (trans_check_wait_objs(g_api_con_trans) != 0) { LOG(10, ("channel_thread_loop: trans_check_wait_objs failed, " "or disconnected")); g_free(g_api_con_trans->callback_data); trans_delete(g_api_con_trans); g_api_con_trans = 0; } } xcommon_check_wait_objs(); sound_check_wait_objs(); dev_redir_check_wait_objs(); fuse_check_wait_objs(); timeout = -1; num_objs = 0; objs[num_objs] = g_term_event; num_objs++; trans_get_wait_objs(g_lis_trans, objs, &num_objs); trans_get_wait_objs(g_con_trans, objs, &num_objs); trans_get_wait_objs(g_api_lis_trans, objs, &num_objs); trans_get_wait_objs(g_api_con_trans, objs, &num_objs); xcommon_get_wait_objs(objs, &num_objs, &timeout); sound_get_wait_objs(objs, &num_objs, &timeout); dev_redir_get_wait_objs(objs, &num_objs, &timeout); fuse_get_wait_objs(objs, &num_objs, &timeout); } } trans_delete(g_lis_trans); g_lis_trans = 0; trans_delete(g_con_trans); g_con_trans = 0; trans_delete(g_api_lis_trans); g_api_lis_trans = 0; trans_delete(g_api_con_trans); g_api_con_trans = 0; LOGM((LOG_LEVEL_INFO, "channel_thread_loop: thread stop")); g_set_wait_obj(g_thread_done_event); return rv; } /*****************************************************************************/ void DEFAULT_CC term_signal_handler(int sig) { LOGM((LOG_LEVEL_INFO, "term_signal_handler: got signal %d", sig)); g_set_wait_obj(g_term_event); } /*****************************************************************************/ void DEFAULT_CC nil_signal_handler(int sig) { LOGM((LOG_LEVEL_INFO, "nil_signal_handler: got signal %d", sig)); } /*****************************************************************************/ void DEFAULT_CC child_signal_handler(int sig) { int i1; LOG(10, ("child_signal_handler:")); do { i1 = g_waitchild(); if (i1 == g_exec_pid) { LOG(0, ("child_signal_handler: found pid %d", i1)); //shutdownx(); } LOG(10, (" %d", i1)); } while (i1 >= 0); } /*****************************************************************************/ static int APP_CC get_display_num_from_display(char *display_text) { int index; int mode; int host_index; int disp_index; int scre_index; char host[256]; char disp[256]; char scre[256]; g_memset(host, 0, 256); g_memset(disp, 0, 256); g_memset(scre, 0, 256); index = 0; host_index = 0; disp_index = 0; scre_index = 0; mode = 0; while (display_text[index] != 0) { if (display_text[index] == ':') { mode = 1; } else if (display_text[index] == '.') { mode = 2; } else if (mode == 0) { host[host_index] = display_text[index]; host_index++; } else if (mode == 1) { disp[disp_index] = display_text[index]; disp_index++; } else if (mode == 2) { scre[scre_index] = display_text[index]; scre_index++; } index++; } host[host_index] = 0; disp[disp_index] = 0; scre[scre_index] = 0; g_display_num = g_atoi(disp); return 0; } /*****************************************************************************/ int APP_CC main_cleanup(void) { g_delete_wait_obj(g_term_event); g_delete_wait_obj(g_thread_done_event); g_delete_wait_obj(g_exec_event); tc_mutex_delete(g_exec_mutex); g_deinit(); /* os_calls */ return 0; } /*****************************************************************************/ static int APP_CC read_ini(void) { char filename[256]; struct list *names; struct list *values; char *name; char *value; int index; g_memset(filename, 0, (sizeof(char) * 256)); names = list_create(); names->auto_free = 1; values = list_create(); values->auto_free = 1; g_use_unix_socket = 0; g_snprintf(filename, 255, "%s/sesman.ini", XRDP_CFG_PATH); if (file_by_name_read_section(filename, "Globals", names, values) == 0) { for (index = 0; index < names->count; index++) { name = (char *)list_get_item(names, index); value = (char *)list_get_item(values, index); if (g_strcasecmp(name, "ListenAddress") == 0) { if (g_strcasecmp(value, "127.0.0.1") == 0) { g_use_unix_socket = 1; } } } } list_delete(names); list_delete(values); return 0; } /*****************************************************************************/ static int APP_CC run_exec(void) { int pid; LOG(10, ("run_exec:")); pid = g_fork(); if (pid == 0) { trans_delete(g_con_trans); g_close_wait_obj(g_term_event); g_close_wait_obj(g_thread_done_event); g_close_wait_obj(g_exec_event); tc_mutex_delete(g_exec_mutex); tc_sem_delete(g_exec_sem); g_execlp3(g_exec_name, g_exec_name, 0); g_exit(0); } g_exec_pid = pid; tc_sem_inc(g_exec_sem); return 0; } /*****************************************************************************/ int DEFAULT_CC main(int argc, char **argv) { tbus waiters[4]; int pid = 0; char text[256]; char *home_text; char *display_text; char log_file[256]; enum logReturns error; struct log_config logconfig; g_init("xrdp-chansrv"); /* os_calls */ home_text = g_getenv("HOME"); if (home_text == 0) { g_writeln("error reading HOME environment variable"); g_deinit(); return 1; } read_ini(); pid = g_getpid(); /* starting logging subsystem */ g_memset(&logconfig, 0, sizeof(struct log_config)); logconfig.program_name = "XRDP-Chansrv"; g_snprintf(log_file, 255, "%s/xrdp-chansrv.log", home_text); g_writeln("chansrv::main: using log file [%s]", log_file); if (g_file_exist(log_file)) { g_file_delete(log_file); } logconfig.log_file = log_file; logconfig.fd = -1; logconfig.log_level = LOG_LEVEL_ERROR; logconfig.enable_syslog = 0; logconfig.syslog_level = 0; error = log_start_from_param(&logconfig); if (error != LOG_STARTUP_OK) { switch (error) { case LOG_ERROR_MALLOC: g_writeln("error on malloc. cannot start logging. quitting."); break; case LOG_ERROR_FILE_OPEN: g_writeln("error opening log file [%s]. quitting.", getLogFile(text, 255)); break; default: g_writeln("log_start error"); break; } g_deinit(); return 1; } LOGM((LOG_LEVEL_ALWAYS, "main: app started pid %d(0x%8.8x)", pid, pid)); /* set up signal handler */ g_signal_kill(term_signal_handler); /* SIGKILL */ g_signal_terminate(term_signal_handler); /* SIGTERM */ g_signal_user_interrupt(term_signal_handler); /* SIGINT */ g_signal_pipe(nil_signal_handler); /* SIGPIPE */ g_signal_child_stop(child_signal_handler); /* SIGCHLD */ display_text = g_getenv("DISPLAY"); LOGM((LOG_LEVEL_INFO, "main: DISPLAY env var set to %s", display_text)); get_display_num_from_display(display_text); if (g_display_num == 0) { LOGM((LOG_LEVEL_ERROR, "main: error, display is zero")); g_deinit(); return 1; } LOGM((LOG_LEVEL_INFO, "main: using DISPLAY %d", g_display_num)); g_snprintf(text, 255, "xrdp_chansrv_%8.8x_main_term", pid); g_term_event = g_create_wait_obj(text); g_snprintf(text, 255, "xrdp_chansrv_%8.8x_thread_done", pid); g_thread_done_event = g_create_wait_obj(text); g_snprintf(text, 255, "xrdp_chansrv_%8.8x_exec", pid); g_exec_event = g_create_wait_obj(text); g_exec_mutex = tc_mutex_create(); g_exec_sem = tc_sem_create(0); tc_thread_create(channel_thread_loop, 0); while (g_term_event > 0 && !g_is_wait_obj_set(g_term_event)) { waiters[0] = g_term_event; waiters[1] = g_exec_event; if (g_obj_wait(waiters, 2, 0, 0, 0) != 0) { LOGM((LOG_LEVEL_ERROR, "main: error, g_obj_wait failed")); break; } if (g_is_wait_obj_set(g_term_event)) { break; } if (g_is_wait_obj_set(g_exec_event)) { g_reset_wait_obj(g_exec_event); run_exec(); } } while (g_thread_done_event > 0 && !g_is_wait_obj_set(g_thread_done_event)) { /* wait for thread to exit */ if (g_obj_wait(&g_thread_done_event, 1, 0, 0, 0) != 0) { LOGM((LOG_LEVEL_ERROR, "main: error, g_obj_wait failed")); break; } } /* cleanup */ main_cleanup(); LOGM((LOG_LEVEL_INFO, "main: app exiting pid %d(0x%8.8x)", pid, pid)); g_deinit(); return 0; } /* * return unused slot in dvc_channels[] * * @return unused slot index on success, -1 on failure ******************************************************************************/ int APP_CC find_empty_slot_in_dvc_channels() { int i; for (i = 0; i < MAX_DVC_CHANNELS; i++) { if (g_dvc_channels[i] == NULL) { return i; } } return -1; } /* * return struct xrdp_api_data that contains specified dvc_chan_id * * @param dvc_chan_id channel id to look for * * @return xrdp_api_data struct containing dvc_chan_id or NULL on failure ******************************************************************************/ struct xrdp_api_data *APP_CC struct_from_dvc_chan_id(tui32 dvc_chan_id) { int i; for (i = 0; i < MAX_DVC_CHANNELS; i++) { if (g_dvc_channels[i]->dvc_chan_id == dvc_chan_id) { return g_dvc_channels[i]; } } return NULL; } int remove_struct_with_chan_id(tui32 dvc_chan_id) { int i; if (dvc_chan_id < 0) { return -1; } for (i = 0; i < MAX_DVC_CHANNELS; i++) { if (g_dvc_channels[i]->dvc_chan_id == dvc_chan_id) { g_dvc_channels[i] = NULL; return 0; } } return -1; }