4 * Copyright (c) 2015 - 2016 Samsung Electronics Co., Ltd. All rights reserved.
6 * Contact: Anupam Roy <anupam.r@samsung.com>
8 * Licensed under the Apache License, Version 2.0 (the "License");
9 * you may not use this file except in compliance with the License.
10 * You may obtain a copy of the License at
12 * http://www.apache.org/licenses/LICENSE-2.0
14 * Unless required by applicable law or agreed to in writing, software
15 * distributed under the License is distributed on an "AS IS" BASIS,
16 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
17 * See the License for the specific language governing permissions and
18 * limitations under the License.
29 #include <bundle_internal.h>
30 #include <eventsystem.h>
44 #include "bt-hal-log.h"
45 #include "bt-hal-msg.h"
46 #include "bt-hal-internal.h"
47 #include "bt-hal-utils.h"
48 #include "bt-hal-event-receiver.h"
49 #include "bt-hal-dbus-common-utils.h"
51 #include "bt-hal-adapter-dbus-handler.h"
52 #include "bt-hal-rfcomm-dbus-handler.h"
53 #include "bt-hal-event-receiver.h"
55 #include <bt-hal-agent.h>
56 #include <bt-hal-gap-agent.h>
57 #include <bt-hal-dbus-common-utils.h>
59 /* TODO_40 : 4.0 merge */
60 #include "bt-internal-types.h"
62 #define BT_HAL_AGENT_AUTO_PAIR_BLACKLIST_FILE (APP_SYSCONFDIR"/auto-pair-blacklist")
63 #define BT_HAL_AGENT_NEW_LINE "\r\n"
65 #define PAGE_SIZE (1 << 12)
66 #define _ALIGN_UP(addr, size) (((addr)+((size)-1))&(~((size)-1)))
67 #define _ALIGN_DOWN(addr, size) ((addr)&(~((size)-1)))
68 #define PAGE_ALIGN(addr) _ALIGN_DOWN(addr, PAGE_SIZE)
69 #define BT_HAL_PIN_MAX_LENGTH 16
70 #define BT_HAL_PASSKEY_MAX_LENGTH 4
71 #define BT_HAL_LOWER_ADDRESS_LENGTH 9
72 #define BT_HAL_AGENT_SYSPOPUP_TIMEOUT_FOR_MULTIPLE_POPUPS 200
73 #define BT_HAL_AGENT_SYSPOPUP_MAX_ATTEMPT 3
75 #define G_VARIANT_UNREF(variant) \
76 g_variant_unref(variant); \
78 #define BT_HAL_MAX_EVENT_STR_LENGTH 50
80 static void *adapter_agent = NULL;
81 static gboolean passkey_display_notification = FALSE;
82 static gboolean passkey_confirm_notification = FALSE;
83 static gboolean passkey_notification = FALSE;
84 static gboolean pincode_notification = FALSE;
86 /* Forward delcaration */
87 static void __bt_hal_send_pin_request_event(const gchar *address, const gchar *name,
89 static gboolean __bt_hal_pincode_request(GapAgentPrivate *agent, GDBusProxy *device);
90 static gboolean __bt_hal_display_request(GapAgentPrivate *agent, GDBusProxy *device,
92 static gboolean __bt_hal_passkey_request(GapAgentPrivate *agent, GDBusProxy *device);
93 static gboolean __bt_hal_confirm_request(GapAgentPrivate *agent, GDBusProxy *device,
95 static gboolean __bt_hal_authorize_request(GapAgentPrivate *agent, GDBusProxy *device,
97 static gboolean __bt_hal_authorize_cancel_request(GapAgentPrivate *agent, const char *address);
98 static gboolean __bt_hal_pairing_cancel_request(GapAgentPrivate *agent, const char *address);
99 static GVariant *__bt_hal_service_getall(GDBusProxy *device, const char *interface);
100 static void __bt_hal_agent_release_memory(void);
101 static inline void stack_trim(void);
103 static gboolean __bt_hal_device_is_hid_keyboard(unsigned int dev_class);
104 static gboolean __bt_hal_is_hid_device_connectable(void);
105 static int __bt_hal_device_generate_passkey(char *passkey, int size);
106 static gboolean __bt_hal_device_is_auto_response(uint32_t dev_class,
107 const gchar *address, const gchar *name);
108 static gboolean __bt_hal_device_is_device_blacklisted(const char *address, const char *name);
109 static gboolean __bt_hal_find_device_by_address_exactname(char *buffer,
110 const char *address);
111 static gboolean __bt_hal_find_device_by_partial_name(char *buffer,
112 const char *partial_name);
113 static void __bt_hal_send_ssp_request_events(const gchar *address, const gchar *name,
114 guint passkey, uint32_t cod, unsigned char variant);
115 static void __bt_hal_send_authorize_request_event(const gchar *address, const char *uuid);
117 void* _bt_hal_create_agent(const char *path, gboolean adapter)
119 GAP_AGENT_FUNC_CB func_cb;
120 GDBusProxy *adapter_proxy;
121 GapAgentPrivate *agent;
124 adapter_proxy = _bt_hal_get_adapter_proxy();
128 func_cb.pincode_func = __bt_hal_pincode_request;
129 func_cb.display_func = __bt_hal_display_request;
130 func_cb.passkey_func = __bt_hal_passkey_request;
131 func_cb.confirm_func = __bt_hal_confirm_request;
132 func_cb.authorize_func = __bt_hal_authorize_request;
133 func_cb.pairing_cancel_func = __bt_hal_pairing_cancel_request;
134 func_cb.authorization_cancel_func = __bt_hal_authorize_cancel_request;
137 agent = g_new0(GapAgentPrivate, 1);
139 _gap_agent_setup_dbus(agent, &func_cb, path, adapter_proxy);
142 if (!_gap_agent_register(agent)) {
143 ERR("gap agent registration failed!");
144 _bt_hal_destroy_agent(agent);
152 void _bt_hal_destroy_agent(void *agent)
158 _gap_agent_reset_dbus((GapAgentPrivate *)agent);
164 gboolean _bt_hal_agent_is_canceled(void)
166 void *agent = _bt_hal_get_adapter_agent();
170 return _gap_agent_is_canceled(agent);
173 int _bt_hal_agent_reply_cancellation(void)
175 void *agent = _bt_hal_get_adapter_agent();
177 return BT_STATUS_FAIL;
179 if (gap_agent_reply_confirmation(agent, GAP_AGENT_CANCEL, NULL) != TRUE) {
180 ERR("Fail to reply agent");
181 return BT_STATUS_FAIL;
183 DBG("gap agent cancellation done successfully!");
184 return BT_STATUS_SUCCESS;
188 void _bt_hal_agent_set_canceled(gboolean value)
190 void *agent = _bt_hal_get_adapter_agent();
194 return _gap_agent_set_canceled(agent, value);
197 void _bt_hal_initialize_adapter_agent(void)
200 ERR("Adapter agent already exist!");
204 adapter_agent = _bt_hal_create_agent(BT_HAL_ADAPTER_AGENT_PATH, TRUE);
205 if (!adapter_agent) {
206 ERR("Fail to register agent");
211 void _bt_hal_destroy_adapter_agent(void)
214 _bt_hal_destroy_agent(adapter_agent);
215 adapter_agent = NULL;
218 void* _bt_hal_get_adapter_agent(void)
220 return adapter_agent;
223 void _bt_hal_enable_gap_auth_notifications(unsigned int type, gboolean enable)
225 INFO("type: %d, enable: %d", type, enable);
228 case BT_PASSKEY_CONFIRMATION:
229 /* Note: Currently not used for notification sending, should be used when required */
230 passkey_confirm_notification = enable;
232 case BT_PASSKEY_DISPLAY:
233 passkey_display_notification = enable;
235 case BT_PASSKEY_ENTRY:
236 /* Note: Currently not used for notification sending, should be used when required */
237 passkey_notification = enable;
239 case BT_PINCODE_ENTRY:
240 pincode_notification = enable;
243 ERR("Unknown type: %d", type);
247 static void __bt_hal_send_authorize_request_event(const gchar *address, const char *uuid)
249 struct hal_ev_authorize_request ev;
250 memset(&ev, 0, sizeof(ev));
252 DBG("Remote Device address [%s]", address);
254 _bt_hal_convert_addr_string_to_type(ev.bdaddr, address);
256 /* UUID received in authorization request (In case of HFP unit, UUID received from Bluez
257 would be of that of Audio Gateway UUID (0x111f) */
258 ev.service_id = _bt_convert_uuid_string_to_service_id(uuid);
260 handle_stack_msg event_cb = _bt_hal_get_stack_message_handler();
262 event_cb(HAL_EV_AUTHORIZE_REQUEST, (void*)&ev, sizeof(ev));
267 static void __bt_hal_send_rfcomm_authorize_request_event(const gchar *address, const char *uuid, const char *name, char *path, int fd)
269 struct hal_ev_sock_conn_auth ev;
271 DBG("Remote Device address [%s], uuid: %s", address, uuid);
273 memset(&ev, 0, sizeof(ev));
274 _bt_hal_convert_addr_string_to_type(ev.bdaddr, address);
275 _bt_hal_convert_uuid_string_to_type(ev.uuid, uuid);
278 g_strlcpy((char *)ev.name, name, BT_HAL_DEVICE_NAME_LENGTH_MAX);
281 g_strlcpy((char *)ev.path, path, BT_HAL_PATH_NAME_LENGTH_MAX);
285 handle_stack_msg event_cb = _bt_hal_get_stack_message_handler();
287 event_cb(HAL_EV_SOCK_AUTHORIZE_REQUEST, (void*)&ev, sizeof(ev));
293 static void __bt_hal_send_pin_request_event(const gchar *address, const gchar *name,
296 struct hal_ev_pin_request ev;
297 memset(&ev, 0, sizeof(ev));
299 DBG("Remote Device address [%s]", address);
300 DBG("Remote Device Name [%s]", name);
301 DBG("Remote Device COD [%u]", cod);
303 _bt_hal_convert_addr_string_to_type(ev.bdaddr, address);
305 memcpy(ev.name, name, strlen(name)+1);
306 ev.class_of_dev = cod;
308 handle_stack_msg event_cb = _bt_hal_get_stack_message_handler();
310 DBG("Sending PIN REQUEST");
311 event_cb(HAL_EV_PIN_REQUEST, (void*)&ev, sizeof(ev));
318 void __bt_hal_get_auth_info(GVariant *reply, char *auth_info)
322 char *manufacturer_data = NULL;
323 int manufacturer_data_len;
324 gboolean is_alias_set;
325 GVariantIter *value_iter;
329 tmp_value = g_variant_lookup_value(reply, "IsAliasSet",
330 G_VARIANT_TYPE_BOOLEAN);
332 is_alias_set = g_variant_get_boolean(tmp_value);
333 g_variant_unref(tmp_value);
335 is_alias_set = FALSE;
337 if (is_alias_set == FALSE) {
338 tmp_value = g_variant_lookup_value(reply, "LagacyManufacturerDataLen",
339 G_VARIANT_TYPE_UINT16);
341 manufacturer_data_len = g_variant_get_uint16(tmp_value);
342 if (manufacturer_data_len >
343 MAX_MANUFACTURE_LEN) {
344 ERR("manufacturer_data_len is too long");
345 manufacturer_data_len = MAX_MANUFACTURE_LEN;
347 g_variant_unref(tmp_value);
349 manufacturer_data_len = 0;
351 tmp_value = g_variant_lookup_value(reply, "LagacyManufacturerData",
352 G_VARIANT_TYPE_ARRAY);
354 if ((manufacturer_data_len == 0) ||
355 manufacturer_data_len != g_variant_get_size(tmp_value)) {
356 ERR("manufacturer data length doesn't match");
357 manufacturer_data_len = 0;
358 manufacturer_data = NULL;
360 manufacturer_data = g_malloc0(manufacturer_data_len);
361 g_variant_get(tmp_value, "ay", &value_iter);
362 while (g_variant_iter_loop(value_iter, "y", &m_value))
363 manufacturer_data[i++] = m_value;
365 g_variant_iter_free(value_iter);
367 g_variant_unref(tmp_value);
369 INFO("manufacture data is not a G_VARIANT_TYPE_ARRAY ");
370 manufacturer_data_len = 0;
371 manufacturer_data = NULL;
373 /*minimum Size of the samsung specific manufacturer data is greater than 30 */
374 if (manufacturer_data_len < 30) {
375 g_free(manufacturer_data);
378 if (manufacturer_data[0] != 0x00 || manufacturer_data[1] != 0x75) {
379 DBG("This is not a samsung specific manufaturer data");
380 g_free(manufacturer_data);
384 /* 2 samsung (0x00 0x75) + 1 (control and version) + 1 (service ID) +
385 1 (discovery version) + 1 (associated service ID)
386 2 (Proxamity and locality) + 2 (Device type and icon) */
390 memcpy(auth_info, &(manufacturer_data[cursor]), 5);
392 g_free(manufacturer_data);
395 static gboolean __bt_hal_pincode_request(GapAgentPrivate *agent, GDBusProxy *device)
397 uint32_t device_class;
399 unsigned char auth_info[5] = {0, };
401 GVariant *reply = NULL;
402 GVariant *reply_temp = NULL;
406 reply_temp = __bt_hal_service_getall(device, BT_HAL_DEVICE_INTERFACE);
408 if (reply_temp == NULL) {
409 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT, "",
414 g_variant_get(reply_temp, "(@a{sv})", &reply); /* Format of reply a{sv}*/
416 tmp_value = g_variant_lookup_value(reply, "Class", G_VARIANT_TYPE_UINT32);
417 g_variant_get(tmp_value, "u", &device_class);
418 G_VARIANT_UNREF(tmp_value);
420 tmp_value = g_variant_lookup_value(reply, "Address", G_VARIANT_TYPE_STRING);
421 g_variant_get(tmp_value, "s", &address);
422 G_VARIANT_UNREF(tmp_value);
424 tmp_value = g_variant_lookup_value(reply, "Name", G_VARIANT_TYPE_STRING);
425 g_variant_get(tmp_value, "s", &name);
426 G_VARIANT_UNREF(tmp_value);
431 if (headed_plugin_info->plugin_headed_enabled) {
432 __bt_hal_get_auth_info(reply, (char *)auth_info);
433 if (__bt_hal_device_is_hid_keyboard(device_class)) {
434 char str_passkey[BT_HAL_PASSKEY_MAX_LENGTH + 1] = { 0 };
436 DBG("Device is HID Keyboard");
437 if (__bt_hal_device_generate_passkey(str_passkey,
438 BT_HAL_PASSKEY_MAX_LENGTH) != 0) {
439 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT,
444 gap_agent_reply_pin_code(agent, GAP_AGENT_ACCEPT,
447 DBG("Launch BT Syspopup");
448 headed_plugin_info->headed_plugin->bt_launch_system_popup(
449 BT_HAL_AGENT_EVENT_KEYBOARD_PASSKEY_REQUEST, name,
450 address, auth_info, str_passkey, NULL, _gap_agent_get_path(agent));
451 } else if (__bt_hal_device_is_auto_response(device_class, address, name)) {
452 DBG("Device is of Type Auto response, send event to HAL");
453 __bt_hal_send_pin_request_event(address, name, device_class);
454 } else if (pincode_notification) {
455 DBG("pincode_notification is enabled, send event to HAL");
456 __bt_hal_send_pin_request_event(address, name, device_class);
458 DBG("Device is not of Auto response class, Show PIN Entry");
459 headed_plugin_info->headed_plugin->bt_launch_system_popup(
460 BT_HAL_AGENT_EVENT_PIN_REQUEST, name, address,
461 auth_info, NULL, NULL, _gap_agent_get_path(agent));
464 INFO("Plugin Headed not Enabled");
465 __bt_hal_send_pin_request_event(address, name, device_class);
471 g_variant_unref(reply);
472 g_variant_unref(reply_temp);
473 __bt_hal_agent_release_memory();
480 /* BT_SSP_VARIANT_PASSKEY_CONFIRMATION */
481 /* BT_SSP_VARIANT_PASSKEY_NOTIFICATION */
482 /* BT_SSP_VARIANT_PASSKEY_ENTRY */
483 /* BT_SSP_VARIANT_CONSENT */
485 static void __bt_hal_send_ssp_request_events(const gchar *address,
489 unsigned char variant)
491 struct hal_ev_ssp_request ev;
492 memset(&ev, 0, sizeof(ev));
493 DBG("sizeof ev [%zu]", sizeof(ev));
495 DBG("Remote Device address [%s]", address);
496 DBG("Remote Device Name [%s]", name);
497 DBG("Remote Device passkey [%d]", passkey);
498 DBG("Remote Device pairing variant [0x%x]", variant);
499 DBG("Remote Device cod [%d]", cod);
501 _bt_hal_convert_addr_string_to_type(ev.bdaddr, address);
503 memcpy(ev.name, name, strlen(name)+1);
504 ev.class_of_dev = cod;
505 ev.pairing_variant = variant;
506 ev.passkey = passkey;
508 handle_stack_msg event_cb = _bt_hal_get_stack_message_handler();
510 DBG("Sending SSP type [%d]", variant);
511 event_cb(HAL_EV_SSP_REQUEST, (void*)&ev, sizeof(ev));
518 static gboolean __bt_hal_display_request(GapAgentPrivate *agent, GDBusProxy *device,
523 unsigned char auth_info[5] = {0, };
525 uint32_t device_class;
526 GVariant *reply = NULL;
527 GVariant *reply_temp = NULL;
528 GVariant *tmp_value = NULL;
531 reply_temp = __bt_hal_service_getall(device, BT_HAL_DEVICE_INTERFACE);
532 if (reply_temp == NULL) {
533 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT, "",
538 g_variant_get(reply_temp, "(@a{sv})", &reply); /* Format of reply a{sv}*/
540 tmp_value = g_variant_lookup_value(reply, "Address", G_VARIANT_TYPE_STRING);
541 g_variant_get(tmp_value, "s", &address);
542 G_VARIANT_UNREF(tmp_value);
544 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT, "", NULL);
548 tmp_value = g_variant_lookup_value(reply, "Name", G_VARIANT_TYPE_STRING);
549 g_variant_get(tmp_value, "s", &name);
550 G_VARIANT_UNREF(tmp_value);
552 tmp_value = g_variant_lookup_value(reply, "Class", G_VARIANT_TYPE_UINT32);
553 g_variant_get(tmp_value, "u", &device_class);
554 G_VARIANT_UNREF(tmp_value);
559 str_passkey = g_strdup_printf("%d", passkey);
561 __bt_hal_get_auth_info(reply, (char *)auth_info);
563 DBG("KEYBOARD_PASSKEY_REQUEST");
565 if (passkey_display_notification) {
566 DBG("passkey_display_notification is enabled, send event to HAL");
567 __bt_hal_send_ssp_request_events(address, name, passkey, device_class,
568 BT_SSP_VARIANT_PASSKEY_NOTIFICATION);
569 } else if (headed_plugin_info->plugin_headed_enabled) {
570 INFO("Plugin Headed Enabled");
571 headed_plugin_info->headed_plugin->bt_launch_system_popup(BT_HAL_AGENT_EVENT_KEYBOARD_PASSKEY_REQUEST,
572 name, address, auth_info, str_passkey, NULL, _gap_agent_get_path(agent));
574 INFO("Plugin Headed not Enabled");
575 __bt_hal_send_ssp_request_events(address, name, passkey, device_class,
576 BT_SSP_VARIANT_PASSKEY_NOTIFICATION);
583 g_variant_unref(reply);
584 g_variant_unref(reply_temp);
585 __bt_hal_agent_release_memory();
592 static gboolean __bt_hal_passkey_request(GapAgentPrivate *agent, GDBusProxy *device)
596 unsigned char auth_info[5] = {0, };
597 uint32_t device_class;
598 GVariant *reply = NULL;
599 GVariant *reply_temp = NULL;
603 reply_temp = __bt_hal_service_getall(device, BT_HAL_DEVICE_INTERFACE);
605 if (reply_temp == NULL) {
606 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT, "",
611 g_variant_get(reply_temp, "(@a{sv})", &reply); /* Format of reply a{sv}*/
613 tmp_value = g_variant_lookup_value(reply, "Address", G_VARIANT_TYPE_STRING);
614 g_variant_get(tmp_value, "s", &address);
615 G_VARIANT_UNREF(tmp_value);
617 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT, "", NULL);
621 tmp_value = g_variant_lookup_value(reply, "Name", G_VARIANT_TYPE_STRING);
622 g_variant_get(tmp_value, "s", &name);
623 G_VARIANT_UNREF(tmp_value);
625 tmp_value = g_variant_lookup_value(reply, "Class", G_VARIANT_TYPE_UINT32);
626 g_variant_get(tmp_value, "u", &device_class);
627 G_VARIANT_UNREF(tmp_value);
632 DBG("PASSKEY_REQUEST");
634 __bt_hal_get_auth_info(reply, (char *)auth_info);
636 if (headed_plugin_info->plugin_headed_enabled) {
637 headed_plugin_info->headed_plugin->bt_launch_system_popup(BT_HAL_AGENT_EVENT_PASSKEY_REQUEST,
638 name, address, auth_info, NULL, NULL, _gap_agent_get_path(agent));
640 __bt_hal_send_ssp_request_events(address, name, 0, device_class,
641 BT_SSP_VARIANT_PASSKEY_ENTRY);
647 g_variant_unref(reply);
648 g_variant_unref(reply_temp);
649 __bt_hal_agent_release_memory();
656 static gboolean __bt_hal_confirm_request(GapAgentPrivate *agent, GDBusProxy *device,
662 uint32_t device_class;
663 GVariant *reply_temp = NULL;
664 GVariant *reply = NULL;
666 DBG("+ passkey[%.6d]", passkey);
667 DBG("Agent Path [%s]", agent->path);
669 snprintf(str_passkey, sizeof(str_passkey), "%.6d", passkey);
671 reply_temp = __bt_hal_service_getall(device, BT_HAL_DEVICE_INTERFACE);
673 if (reply_temp == NULL) {
674 ERR("####Device doesn't exist####");
675 gap_agent_reply_pin_code(agent, GAP_AGENT_REJECT, "",
679 g_variant_get(reply_temp, "(@a{sv})", &reply); /* Format of reply a{sv}*/
681 tmp_value = g_variant_lookup_value(reply, "Address", G_VARIANT_TYPE_STRING);
682 g_variant_get(tmp_value, "s", &address);
683 G_VARIANT_UNREF(tmp_value);
685 tmp_value = g_variant_lookup_value(reply, "Name", G_VARIANT_TYPE_STRING);
686 g_variant_get(tmp_value, "s", &name);
687 G_VARIANT_UNREF(tmp_value);
689 tmp_value = g_variant_lookup_value(reply, "Class", G_VARIANT_TYPE_UINT32);
690 g_variant_get(tmp_value, "u", &device_class);
691 G_VARIANT_UNREF(tmp_value);
696 if (headed_plugin_info->plugin_headed_enabled) {
697 unsigned char auth_info[5] = {0, };
699 DBG("LAUNCH SYSPOPUP");
700 DBG("Name [%s]", name);
701 DBG("Passkey [%s]", str_passkey);
703 __bt_hal_get_auth_info(reply, (char *)auth_info);
704 headed_plugin_info->headed_plugin->bt_launch_system_popup(BT_HAL_AGENT_EVENT_PASSKEY_CONFIRM_REQUEST,
705 name, address, auth_info, str_passkey, NULL,
706 _gap_agent_get_path(agent));
708 DBG("Headless Confirmation");
710 if (TIZEN_FEATURE_BLUEZ_SPEAKER_REFERENCE) {
711 /* Reply the ssp confirmation automaticaly */
712 gap_agent_reply_confirmation(agent, GAP_AGENT_ACCEPT, NULL);
715 __bt_hal_send_ssp_request_events(address, name, passkey,
716 device_class, BT_SSP_VARIANT_PASSKEY_CONFIRMATION);
722 g_variant_unref(reply);
723 g_variant_unref(reply_temp);
724 __bt_hal_agent_release_memory();
729 static gboolean __bt_hal_authorize_request(GapAgentPrivate *agent, GDBusProxy *device,
736 GVariant *reply = NULL;
737 GVariant *reply_temp = NULL;
739 #ifdef TIZEN_FEATURE_BT_RFCOMM_DIRECT
740 bt_hal_agent_osp_server_t *osp_server;
743 reply_temp = __bt_hal_service_getall(device, BT_HAL_DEVICE_INTERFACE);
744 if (reply_temp == NULL) {
745 gap_agent_reply_authorize(agent, GAP_AGENT_REJECT, NULL);
749 g_variant_get(reply_temp, "(@a{sv})", &reply); /* Format of reply a{sv}*/
751 tmp_value = g_variant_lookup_value(reply, "Address", G_VARIANT_TYPE_STRING);
752 g_variant_get(tmp_value, "s", &address);
753 G_VARIANT_UNREF(tmp_value);
755 gap_agent_reply_authorize(agent, GAP_AGENT_REJECT, NULL);
759 tmp_value = g_variant_lookup_value(reply, "Alias", G_VARIANT_TYPE_STRING);
760 g_variant_get(tmp_value, "s", &name);
761 G_VARIANT_UNREF(tmp_value);
765 tmp_value = g_variant_lookup_value(reply, "Trusted", G_VARIANT_TYPE_BOOLEAN);
766 g_variant_get(tmp_value, "b", &trust);
767 G_VARIANT_UNREF(tmp_value);
769 tmp_value = g_variant_lookup_value(reply, "Paired", G_VARIANT_TYPE_BOOLEAN);
770 g_variant_get(tmp_value, "b", &paired);
771 G_VARIANT_UNREF(tmp_value);
772 if ((paired == FALSE) && (trust == FALSE)) {
773 ERR("No paired & No trusted device");
774 gap_agent_reply_authorize(agent, GAP_AGENT_REJECT, NULL);
778 INFO("Authorization request for device [%s] Service:[%s]\n", address + 12, uuid);
781 DBG("Trusted device, so authorize\n");
782 gap_agent_reply_authorize(agent, GAP_AGENT_ACCEPT, NULL);
786 if (!strcasecmp(uuid, BT_HAL_HID_UUID)) {
787 gboolean is_connectable = __bt_hal_is_hid_device_connectable();
788 DBG("Automatically %s authorization for HID",
789 is_connectable ? "accept" : "reject");
790 if (is_connectable == TRUE)
791 gap_agent_reply_authorize(agent, GAP_AGENT_ACCEPT, NULL);
793 gap_agent_reply_authorize(agent, GAP_AGENT_REJECT, NULL);
797 if (!strcasecmp(uuid, BT_HAL_HFP_AUDIO_GATEWAY_UUID) ||
798 !strcasecmp(uuid, BT_HAL_HSP_AUDIO_GATEWAY_UUID) ||
799 !strcasecmp(uuid, BT_HAL_HFP_HF_UUID) ||
800 !strcasecmp(uuid, BT_HAL_HSP_HS_UUID) ||
801 !strcasecmp(uuid, BT_HAL_A2DP_PROFILE_UUID) ||
802 !strcasecmp(uuid, BT_HAL_HID_DEVICE_UUID) ||
803 !strcasecmp(uuid, BT_HAL_SAP_UUID_OLD) ||
804 !strcasecmp(uuid, BT_HAL_SAP_UUID_NEW) ||
806 !strcasecmp(uuid, BT_HAL_IOTIVITY_UUID) ||
808 !strcasecmp(uuid, BT_HAL_AVRCP_TARGET_UUID)) {
809 __bt_hal_send_authorize_request_event(address, uuid);
814 if (!strcasecmp(uuid, BT_HAL_OPP_UUID)) {
815 if (NULL != _bt_hal_gap_agent_find_osp_server_by_type(
816 agent->osp_servers, BT_OSP_SERVER_OBEX, NULL)) {
817 INFO("OSP server for OPP found, send event");
818 __bt_hal_send_authorize_request_event(address, uuid);
821 INFO("Native OPP server, auto accept");
822 gap_agent_reply_authorize(agent,
823 GAP_AGENT_ACCEPT, NULL);
828 #ifdef TIZEN_FEATURE_BT_RFCOMM_DIRECT
829 /* If user only listens(without accepts) to rfcomm server, occurs connection requested cb not popup */
830 osp_server = _bt_hal_gap_agent_find_osp_server_by_type(agent->osp_servers, BT_OSP_SERVER_RFCOMM, uuid);
832 INFO("Found rfcomm osp server. path: %s, fd: %d", osp_server->path, osp_server->fd);
833 __bt_hal_send_rfcomm_authorize_request_event(address, uuid, name, osp_server->path, osp_server->fd);
837 if (_is_rfcomm_server_uuid(uuid)) {
838 __bt_hal_send_rfcomm_authorize_request_event(address, uuid, NULL, NULL, -1);
844 if (trust || !headed_plugin_info->plugin_headed_enabled) {
845 INFO("Trusted or Headless device, so authorize\n");
846 gap_agent_reply_authorize(agent,
847 GAP_AGENT_ACCEPT, NULL);
852 if (headed_plugin_info->plugin_headed_enabled) {
853 unsigned char auth_info[5] = {0, };
854 int request_type = BT_HAL_AGENT_EVENT_AUTHORIZE_REQUEST;
856 __bt_hal_get_auth_info(reply, (char *)auth_info);
858 if (!strcasecmp(uuid, BT_HAL_OPP_UUID))
859 request_type = BT_HAL_AGENT_EVENT_EXCHANGE_REQUEST;
860 else if (!strcasecmp(uuid, BT_HAL_PBAP_UUID))
861 request_type = BT_HAL_AGENT_EVENT_PBAP_REQUEST;
862 else if (!strcasecmp(uuid, BT_HAL_MAP_UUID))
863 request_type = BT_HAL_AGENT_EVENT_MAP_REQUEST;
865 headed_plugin_info->headed_plugin->bt_launch_system_popup(request_type, name,
866 address, auth_info, NULL, NULL, _gap_agent_get_path(agent));
872 g_variant_unref(reply);
873 g_variant_unref(reply_temp);
874 __bt_hal_agent_release_memory();
879 static gboolean __bt_hal_authorize_cancel_request(GapAgentPrivate *agent,
882 DBG("On Going Authorization is cancelled by remote [%s]", address);
883 gap_agent_reply_authorize(agent, GAP_AGENT_CANCEL, NULL);
885 if (headed_plugin_info->plugin_headed_enabled)
886 headed_plugin_info->headed_plugin->bt_destroy_popup_all();
888 __bt_hal_agent_release_memory();
892 static gboolean __bt_hal_pairing_cancel_request(GapAgentPrivate *agent, const char *address)
894 DBG("On Going Pairing is cancelled by remote [%s]", address);
896 if (headed_plugin_info->plugin_headed_enabled)
897 headed_plugin_info->headed_plugin->bt_destroy_popup_all();
899 __bt_hal_agent_release_memory();
903 static gboolean __bt_hal_device_is_hid_keyboard(unsigned int dev_class)
905 switch ((dev_class & 0x1f00) >> 8) {
907 switch ((dev_class & 0xc0) >> 6) {
909 /* input-keyboard" */
918 static gboolean __bt_hal_is_hid_device_connectable(void)
920 GDBusProxy *proxy = NULL;
921 GVariant *reply = NULL;
923 gboolean connectable = FALSE;
925 proxy = _bt_hal_get_hid_agent_proxy();
929 reply = g_dbus_proxy_call_sync(proxy, "IsHidConnectable", NULL,
930 G_DBUS_CALL_FLAGS_NONE, 2000, NULL, &err);
932 ERR("Error returned in method call");
934 ERR("Error message = %s", err->message);
939 g_variant_get(reply, "(b)", &connectable);
940 g_variant_unref(reply);
942 g_object_unref(proxy);
944 INFO("HID Device is %s",
945 connectable ? "Connectable" : "Non-connectable");
950 static int __bt_hal_device_generate_passkey(char *passkey, int size)
955 unsigned int value = 0;
963 random_fd = open("/dev/urandom", O_RDONLY);
968 for (i = 0; i < size; i++) {
969 len = read(random_fd, &value, sizeof(value));
971 passkey[i] = '0' + (value % 10);
976 DBG("passkey: %s", passkey);
981 static gboolean __bt_hal_find_device_by_address_exactname(char *buffer,
987 pch = strtok_r(buffer, "= ,", &last);
992 while ((pch = strtok_r(NULL, ",", &last))) {
993 if (0 == g_strcmp0(pch, address)) {
994 DBG("Match found\n");
1001 static gboolean __bt_hal_find_device_by_partial_name(char *buffer,
1002 const char *partial_name)
1007 pch = strtok_r(buffer, "= ,", &last);
1012 while ((pch = strtok_r(NULL, ",", &last))) {
1013 if (g_str_has_prefix(partial_name, pch)) {
1014 DBG("Match found\n");
1021 static gboolean __bt_hal_device_is_device_blacklisted(const char *address,
1033 fp = fopen(BT_HAL_AGENT_AUTO_PAIR_BLACKLIST_FILE, "r");
1036 ERR("Unable to open blacklist file");
1040 fseek(fp, 0, SEEK_END);
1043 DBG("size is not a positive number");
1050 buffer = g_malloc0(sizeof(char) * size);
1051 /* Fix : NULL_RETURNS */
1052 if (buffer == NULL) {
1053 ERR("Fail to allocate memory");
1057 result = fread((char *)buffer, 1, size, fp);
1059 if (result != size) {
1065 lines = g_strsplit_set(buffer, BT_HAL_AGENT_NEW_LINE, 0);
1068 if (lines == NULL) {
1069 ERR("No lines in the file");
1073 for (i = 0; lines[i] != NULL; i++) {
1074 if (g_str_has_prefix(lines[i], "AddressBlacklist"))
1075 if (__bt_hal_find_device_by_address_exactname(
1078 if (g_str_has_prefix(lines[i], "ExactNameBlacklist"))
1079 if (__bt_hal_find_device_by_address_exactname(
1082 if (g_str_has_prefix(lines[i], "PartialNameBlacklist"))
1083 if (__bt_hal_find_device_by_partial_name(lines[i],
1086 if (g_str_has_prefix(lines[i], "KeyboardAutoPair"))
1087 if (__bt_hal_find_device_by_address_exactname(
1095 DBG("Found the device");
1100 static gboolean __bt_hal_device_is_auto_response(uint32_t dev_class,
1101 const gchar *address, const gchar *name)
1103 gboolean is_headset = FALSE;
1104 gboolean is_mouse = FALSE;
1105 unsigned int adapter_class = 0;
1106 char lap_address[BT_HAL_LOWER_ADDRESS_LENGTH];
1108 DBG("bt_agent_is_headset_class, %d +", dev_class);
1110 if (address == NULL)
1113 _bt_hal_dbus_get_adapter_class(&adapter_class);
1115 if (((adapter_class & 0x1f00) >> 8) == 0x05)
1117 DBG("Adapter is Peripheral, do not response automatically");
1121 switch ((dev_class & 0x1f00) >> 8) {
1123 switch ((dev_class & 0xfc) >> 2) {
1133 case 0x0b: /* VCR */
1134 case 0x0c: /* Video Camera */
1135 case 0x0d: /* Camcorder */
1138 /* Other audio device */
1144 switch (dev_class & 0xff) {
1145 case 0x80: /* 0x80: Pointing device(Mouse) */
1149 case 0x40: /* 0x40: input device (BT keyboard) */
1151 /* Get the LAP(Lower Address part) */
1152 g_strlcpy(lap_address, address, sizeof(lap_address));
1154 /* Need to Auto pair the blacklisted Keyboard */
1155 if (__bt_hal_device_is_device_blacklisted(lap_address, name) != TRUE) {
1156 DBG("Device is not black listed\n");
1159 ERR("Device is black listed\n");
1165 if ((!is_headset) && (!is_mouse))
1168 /* Get the LAP(Lower Address part) */
1169 g_strlcpy(lap_address, address, sizeof(lap_address));
1171 DBG("Device address = %s\n", address);
1172 DBG("Address 3 byte = %s\n", lap_address);
1174 if (__bt_hal_device_is_device_blacklisted(lap_address, name)) {
1175 ERR("Device is black listed\n");
1182 static GVariant *__bt_hal_service_getall(GDBusProxy *device, const char *interface)
1184 GError *error = NULL;
1187 reply = g_dbus_proxy_call_sync(device,
1188 "GetAll", g_variant_new("(s)", interface),
1189 G_DBUS_CALL_FLAGS_NONE, -1,
1191 if (reply == NULL) {
1192 ERR("GetAll dBUS-RPC failed");
1194 ERR("D-Bus API failure: errCode[%x], message[%s]",
1195 error->code, error->message);
1196 g_clear_error(&error);
1204 static void __bt_hal_agent_release_memory(void)
1206 /* Release Malloc Memory*/
1209 /* Release Stack Memory*/
1213 static inline void stack_trim(void)
1219 unsigned int stacktop;
1222 asm volatile ("mov %0,sp " : "=r"(sp));
1224 sprintf(buf, "/proc/%d/maps", getpid());
1225 file = fopen(buf, "r");
1226 while (fgets(buf, BUF_SIZE, file) != NULL) {
1227 if (strstr(buf, "[stack]")) {
1235 sscanf(buf, "%x-", &stacktop);
1236 if (madvise((void *)PAGE_ALIGN(stacktop), PAGE_ALIGN(sp) - stacktop,
1238 perror("stack madvise fail");