/****************************************************************************** * * Copyright (C) 2009-2012 Broadcom Corporation * * 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. * ******************************************************************************/ /****************************************************************************** * * this file contains GATT utility functions * ******************************************************************************/ #include "common/bt_target.h" #include "osi/allocator.h" #if BLE_INCLUDED == TRUE #include #include #include "stack/l2cdefs.h" #include "gatt_int.h" #include "stack/gatt_api.h" #include "stack/gattdefs.h" #include "stack/sdp_api.h" #include "btm_int.h" /* check if [x, y] and [a, b] have overlapping range */ #define GATT_VALIDATE_HANDLE_RANGE(x, y, a, b) (y >= a && x <= b) #define GATT_GET_NEXT_VALID_HANDLE(x) (((x)/10 + 1) * 10) const char *const op_code_name[] = { "UNKNOWN", "ATT_RSP_ERROR", "ATT_REQ_MTU", "ATT_RSP_MTU", "ATT_REQ_READ_INFO", "ATT_RSP_READ_INFO", "ATT_REQ_FIND_TYPE_VALUE", "ATT_RSP_FIND_TYPE_VALUE", "ATT_REQ_READ_BY_TYPE", "ATT_RSP_READ_BY_TYPE", "ATT_REQ_READ", "ATT_RSP_READ", "ATT_REQ_READ_BLOB", "ATT_RSP_READ_BLOB", "GATT_REQ_READ_MULTI", "GATT_RSP_READ_MULTI", "GATT_REQ_READ_BY_GRP_TYPE", "GATT_RSP_READ_BY_GRP_TYPE", "ATT_REQ_WRITE", "ATT_RSP_WRITE", "ATT_CMD_WRITE", "ATT_SIGN_CMD_WRITE", "ATT_REQ_PREPARE_WRITE", "ATT_RSP_PREPARE_WRITE", "ATT_REQ_EXEC_WRITE", "ATT_RSP_EXEC_WRITE", "Reserved", "ATT_HANDLE_VALUE_NOTIF", "Reserved", "ATT_HANDLE_VALUE_IND", "ATT_HANDLE_VALUE_CONF", "ATT_OP_CODE_MAX" }; static const UINT8 base_uuid[LEN_UUID_128] = {0xFB, 0x34, 0x9B, 0x5F, 0x80, 0x00, 0x00, 0x80, 0x00, 0x10, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; static UINT32 gatt_tcb_id; /******************************************************************************* ** ** Function gatt_free_pending_ind ** ** Description Free all pending indications ** ** Returns None ** *******************************************************************************/ void gatt_free_pending_ind(tGATT_TCB *p_tcb) { GATT_TRACE_DEBUG("gatt_free_pending_ind"); if (p_tcb->pending_ind_q == NULL) { return; } /* release all queued indications */ while (!fixed_queue_is_empty(p_tcb->pending_ind_q)) { osi_free(fixed_queue_dequeue(p_tcb->pending_ind_q, 0)); } fixed_queue_free(p_tcb->pending_ind_q, NULL); p_tcb->pending_ind_q = NULL; } /******************************************************************************* ** ** Function gatt_free_pending_enc_queue ** ** Description Free all buffers in pending encyption queue ** ** Returns None ** *******************************************************************************/ void gatt_free_pending_enc_queue(tGATT_TCB *p_tcb) { GATT_TRACE_DEBUG("gatt_free_pending_enc_queue"); if (p_tcb->pending_enc_clcb == NULL) { return; } /* release all queued indications */ while (!fixed_queue_is_empty(p_tcb->pending_enc_clcb)) { osi_free(fixed_queue_dequeue(p_tcb->pending_enc_clcb, 0)); } fixed_queue_free(p_tcb->pending_enc_clcb, NULL); p_tcb->pending_enc_clcb = NULL; } /******************************************************************************* ** ** Function gatt_free_pending_prepare_write_queue ** ** Description Free all buffers in pending prepare write packets queue ** ** Returns None ** *******************************************************************************/ void gatt_free_pending_prepare_write_queue(tGATT_TCB *p_tcb) { GATT_TRACE_DEBUG("gatt_free_pending_prepare_write_queue"); if (p_tcb->prepare_write_record.queue) { /* release all queued prepare write packets */ while (!fixed_queue_is_empty(p_tcb->prepare_write_record.queue)) { osi_free(fixed_queue_dequeue(p_tcb->prepare_write_record.queue, FIXED_QUEUE_MAX_TIMEOUT)); } fixed_queue_free(p_tcb->prepare_write_record.queue, NULL); p_tcb->prepare_write_record.queue = NULL; } p_tcb->prepare_write_record.total_num = 0; p_tcb->prepare_write_record.error_code_app = GATT_SUCCESS; } /******************************************************************************* ** ** Function gatt_delete_dev_from_srv_chg_clt_list ** ** Description Delete a device from the service changed client lit ** ** Returns None ** *******************************************************************************/ void gatt_delete_dev_from_srv_chg_clt_list(BD_ADDR bd_addr) { tGATTS_SRV_CHG *p_buf; tGATTS_SRV_CHG_REQ req; GATT_TRACE_DEBUG ("gatt_delete_dev_from_srv_chg_clt_list"); if ((p_buf = gatt_is_bda_in_the_srv_chg_clt_list(bd_addr)) != NULL) { if (gatt_cb.cb_info.p_srv_chg_callback) { /* delete from NV */ memcpy(req.srv_chg.bda, bd_addr, BD_ADDR_LEN); (*gatt_cb.cb_info.p_srv_chg_callback)(GATTS_SRV_CHG_CMD_REMOVE_CLIENT, &req, NULL); } osi_free(fixed_queue_try_remove_from_queue(gatt_cb.srv_chg_clt_q, p_buf)); } } /******************************************************************************* ** ** Function gatt_set_srv_chg ** ** Description Set the service changed flag to TRUE ** ** Returns None ** *******************************************************************************/ void gatt_set_srv_chg(void) { GATT_TRACE_DEBUG ("gatt_set_srv_chg"); if (fixed_queue_is_empty(gatt_cb.srv_chg_clt_q)) { return; } list_t *list = fixed_queue_get_list(gatt_cb.srv_chg_clt_q); for (const list_node_t *node = list_begin(list); node != list_end(list); node = list_next(node)) { GATT_TRACE_DEBUG ("found a srv_chg clt"); tGATTS_SRV_CHG *p_buf = (tGATTS_SRV_CHG *)list_node(node); if (!p_buf->srv_changed) { GATT_TRACE_DEBUG("set srv_changed to TRUE"); p_buf->srv_changed = TRUE; tGATTS_SRV_CHG_REQ req; memcpy(&req.srv_chg, p_buf, sizeof(tGATTS_SRV_CHG)); if (gatt_cb.cb_info.p_srv_chg_callback) { (*gatt_cb.cb_info.p_srv_chg_callback)(GATTS_SRV_CHG_CMD_UPDATE_CLIENT,&req, NULL); } } } } /******************************************************************************* ** ** Function gatt_sr_is_new_srv_chg ** ** Description Find the app id in on the new service changed list ** ** Returns Pointer to the found new service changed item othwerwise NULL ** *******************************************************************************/ tGATTS_PENDING_NEW_SRV_START *gatt_sr_is_new_srv_chg(tBT_UUID *p_app_uuid128, tBT_UUID *p_svc_uuid, UINT16 svc_inst) { tGATTS_PENDING_NEW_SRV_START *p_buf = NULL; if (fixed_queue_is_empty(gatt_cb.pending_new_srv_start_q)) { return NULL; } list_t *list = fixed_queue_get_list(gatt_cb.pending_new_srv_start_q); for (const list_node_t *node = list_begin(list); node != list_end(list); node = list_next(node)) { p_buf = (tGATTS_PENDING_NEW_SRV_START *)list_node(node); tGATTS_HNDL_RANGE *p = p_buf->p_new_srv_start; if (gatt_uuid_compare(*p_app_uuid128, p->app_uuid128) && gatt_uuid_compare (*p_svc_uuid, p->svc_uuid) && (svc_inst == p->svc_inst)) { GATT_TRACE_DEBUG("gatt_sr_is_new_srv_chg: Yes"); break; } } return p_buf; } /******************************************************************************* ** ** Function gatt_add_pending_ind ** ** Description Add a pending indication ** ** Returns Pointer to the current pending indication buffer, NULL no buffer available ** *******************************************************************************/ tGATT_VALUE *gatt_add_pending_ind(tGATT_TCB *p_tcb, tGATT_VALUE *p_ind) { tGATT_VALUE *p_buf; GATT_TRACE_DEBUG ("gatt_add_pending_ind"); if ((p_buf = (tGATT_VALUE *)osi_malloc((UINT16)sizeof(tGATT_VALUE))) != NULL) { GATT_TRACE_DEBUG ("enqueue a pending indication"); memcpy(p_buf, p_ind, sizeof(tGATT_VALUE)); fixed_queue_enqueue(p_tcb->pending_ind_q, p_buf, FIXED_QUEUE_MAX_TIMEOUT); } return p_buf; } /******************************************************************************* ** ** Function gatt_add_pending_new_srv_start ** ** Description Add a pending new srv start to the new service start queue ** ** Returns Pointer to the new service start buffer, NULL no buffer available ** *******************************************************************************/ tGATTS_PENDING_NEW_SRV_START *gatt_add_pending_new_srv_start(tGATTS_HNDL_RANGE *p_new_srv_start) { tGATTS_PENDING_NEW_SRV_START *p_buf; GATT_TRACE_DEBUG ("gatt_add_pending_new_srv_start"); if ((p_buf = (tGATTS_PENDING_NEW_SRV_START *)osi_malloc((UINT16)sizeof(tGATTS_PENDING_NEW_SRV_START))) != NULL) { GATT_TRACE_DEBUG ("enqueue a new pending new srv start"); p_buf->p_new_srv_start = p_new_srv_start; fixed_queue_enqueue(gatt_cb.pending_new_srv_start_q, p_buf, FIXED_QUEUE_MAX_TIMEOUT); } return p_buf; } /******************************************************************************* ** ** Function gatt_add_srv_chg_clt ** ** Description Add a service chnage client to the service change client queue ** ** Returns Pointer to the service change client buffer; Null no buffer available ** *******************************************************************************/ tGATTS_SRV_CHG *gatt_add_srv_chg_clt(tGATTS_SRV_CHG *p_srv_chg) { tGATTS_SRV_CHG *p_buf; GATT_TRACE_DEBUG ("gatt_add_srv_chg_clt"); if ((p_buf = (tGATTS_SRV_CHG *)osi_malloc((UINT16)sizeof(tGATTS_SRV_CHG))) != NULL) { GATT_TRACE_DEBUG ("enqueue a srv chg client"); memcpy(p_buf, p_srv_chg, sizeof(tGATTS_SRV_CHG)); fixed_queue_enqueue(gatt_cb.srv_chg_clt_q, p_buf, FIXED_QUEUE_MAX_TIMEOUT); } return p_buf; } /******************************************************************************* ** ** Function gatt_alloc_hdl_buffer ** ** Description Allocate a handle buufer ** ** Returns Pointer to the allocated buffer, NULL no buffer available ** *******************************************************************************/ #if (GATTS_INCLUDED == TRUE) tGATT_HDL_LIST_ELEM *gatt_alloc_hdl_buffer(void) { UINT8 i; tGATT_CB *p_cb = &gatt_cb; tGATT_HDL_LIST_ELEM *p_elem = &p_cb->hdl_list[0]; for (i = 0; i < GATT_MAX_SR_PROFILES; i++, p_elem ++) { if (!p_cb->hdl_list[i].in_use) { memset(p_elem, 0, sizeof(tGATT_HDL_LIST_ELEM)); p_elem->in_use = TRUE; p_elem->svc_db.svc_buffer = fixed_queue_new(QUEUE_SIZE_MAX); return p_elem; } } return NULL; } /******************************************************************************* ** ** Function gatt_find_hdl_buffer_by_handle ** ** Description Find handle range buffer by service handle. ** ** Returns Pointer to the buffer, NULL no buffer available ** *******************************************************************************/ tGATT_HDL_LIST_ELEM *gatt_find_hdl_buffer_by_handle(UINT16 handle) { tGATT_HDL_LIST_INFO *p_list_info = &gatt_cb.hdl_list_info; tGATT_HDL_LIST_ELEM *p_list = NULL; p_list = p_list_info->p_first; while (p_list != NULL) { if (p_list->in_use && p_list->asgn_range.s_handle == handle) { return (p_list); } p_list = p_list->p_next; } return NULL; } /******************************************************************************* ** ** Function gatt_find_hdl_buffer_by_attr_handle ** ** Description Find handle range buffer by attribute handle. ** ** Returns Pointer to the buffer, NULL no buffer available ** *******************************************************************************/ tGATT_HDL_LIST_ELEM *gatt_find_hdl_buffer_by_attr_handle(UINT16 attr_handle) { tGATT_HDL_LIST_INFO *p_list_info = &gatt_cb.hdl_list_info; tGATT_HDL_LIST_ELEM *p_list = NULL; p_list = p_list_info->p_first; while (p_list != NULL) { if (p_list->in_use && (p_list->asgn_range.s_handle <= attr_handle) && (p_list->asgn_range.e_handle >= attr_handle)) { return (p_list); } p_list = p_list->p_next; } return NULL; } /******************************************************************************* ** ** Function gatt_find_hdl_buffer_by_app_id ** ** Description Find handle range buffer by app ID, service and service instance ID. ** ** Returns Pointer to the buffer, NULL no buffer available ** *******************************************************************************/ tGATT_HDL_LIST_ELEM *gatt_find_hdl_buffer_by_app_id (tBT_UUID *p_app_uuid128, tBT_UUID *p_svc_uuid, UINT16 svc_inst) { tGATT_HDL_LIST_INFO *p_list_info = &gatt_cb.hdl_list_info; tGATT_HDL_LIST_ELEM *p_list = NULL; p_list = p_list_info->p_first; while (p_list != NULL) { if ( gatt_uuid_compare (*p_app_uuid128, p_list->asgn_range.app_uuid128) && gatt_uuid_compare (*p_svc_uuid, p_list->asgn_range.svc_uuid) && (svc_inst == p_list->asgn_range.svc_inst) ) { GATT_TRACE_DEBUG ("Already allocated handles for this service before!!"); return (p_list); } p_list = p_list->p_next; } return NULL; } #endif ///GATTS_INCLUDED == TRUE /******************************************************************************* ** ** Function gatt_free_attr_value_buffer ** ** Description free characteristic attribute value buffer in a service ** ** Returns None ** *******************************************************************************/ void gatt_free_attr_value_buffer(tGATT_HDL_LIST_ELEM *p) { if (p){ tGATT_SVC_DB *p_db = &(p->svc_db); tGATT_ATTR16 *p_attr = p_db->p_attr_list; tGATT_ATTR_VALUE *p_value = NULL; while(p_attr){ if (p_attr->mask & GATT_ATTR_VALUE_ALLOCATED){ p_value = p_attr->p_value; if ((p_value != NULL) && (p_value->attr_val.attr_val != NULL)){ osi_free(p_value->attr_val.attr_val); } } p_attr = p_attr->p_next; } } } /******************************************************************************* ** ** Function gatt_free_hdl_buffer ** ** Description free a handle buffer ** ** Returns None ** *******************************************************************************/ void gatt_free_hdl_buffer(tGATT_HDL_LIST_ELEM *p) { if (p) { while (!fixed_queue_is_empty(p->svc_db.svc_buffer)) { osi_free(fixed_queue_dequeue(p->svc_db.svc_buffer, 0)); } fixed_queue_free(p->svc_db.svc_buffer, NULL); memset(p, 0, sizeof(tGATT_HDL_LIST_ELEM)); } } /******************************************************************************* ** ** Function gatt_free_srvc_db_buffer_app_id ** ** Description free the service attribute database buffers by the owner of the ** service app ID. ** ** Returns None ** *******************************************************************************/ #if (GATTS_INCLUDED == TRUE) void gatt_free_srvc_db_buffer_app_id(tBT_UUID *p_app_id) { tGATT_HDL_LIST_ELEM *p_elem = &gatt_cb.hdl_list[0]; UINT8 i; for (i = 0; i < GATT_MAX_SR_PROFILES; i ++, p_elem ++) { if (memcmp(p_app_id, &p_elem->asgn_range.app_uuid128, sizeof(tBT_UUID)) == 0) { gatt_free_attr_value_buffer(p_elem); while (!fixed_queue_is_empty(p_elem->svc_db.svc_buffer)) { osi_free(fixed_queue_dequeue(p_elem->svc_db.svc_buffer, 0)); } fixed_queue_free(p_elem->svc_db.svc_buffer, NULL); p_elem->svc_db.svc_buffer = NULL; p_elem->svc_db.mem_free = 0; p_elem->svc_db.p_attr_list = p_elem->svc_db.p_free_mem = NULL; } } } /******************************************************************************* ** ** Function gatt_is_last_attribute ** ** Description Check this is the last attribute of the specified value or not ** ** Returns TRUE - yes this is the last attribute ** *******************************************************************************/ BOOLEAN gatt_is_last_attribute(tGATT_SRV_LIST_INFO *p_list, tGATT_SRV_LIST_ELEM *p_start, tBT_UUID value) { tGATT_SRV_LIST_ELEM *p_srv = p_start->p_next; BOOLEAN is_last_attribute = TRUE; tGATT_SR_REG *p_rcb = NULL; tBT_UUID *p_svc_uuid; p_list->p_last_primary = NULL; while (p_srv) { p_rcb = GATT_GET_SR_REG_PTR(p_srv->i_sreg); p_svc_uuid = gatts_get_service_uuid (p_rcb->p_db); if (gatt_uuid_compare(value, *p_svc_uuid)) { is_last_attribute = FALSE; break; } p_srv = p_srv->p_next; } return is_last_attribute; } /******************************************************************************* ** ** Function gatt_update_last_pri_srv_info ** ** Description Update the the last primary info for the service list info ** ** Returns None ** *******************************************************************************/ void gatt_update_last_pri_srv_info(tGATT_SRV_LIST_INFO *p_list) { tGATT_SRV_LIST_ELEM *p_srv = p_list->p_first; p_list->p_last_primary = NULL; while (p_srv) { if (p_srv->is_primary) { p_list->p_last_primary = p_srv; } p_srv = p_srv->p_next; } } /******************************************************************************* ** ** Function gatts_update_srv_list_elem ** ** Description update an element in the service list. ** ** Returns None. ** *******************************************************************************/ void gatts_update_srv_list_elem(UINT8 i_sreg, UINT16 handle, BOOLEAN is_primary) { UNUSED(handle); gatt_cb.srv_list[i_sreg].in_use = TRUE; gatt_cb.srv_list[i_sreg].i_sreg = i_sreg; gatt_cb.srv_list[i_sreg].s_hdl = gatt_cb.sr_reg[i_sreg].s_hdl; gatt_cb.srv_list[i_sreg].is_primary = is_primary; return; } #endif ///GATTS_INCLUDED == TRUE /******************************************************************************* ** ** Function gatt_add_a_srv_to_list ** ** Description add an service to the list in ascending ** order of the start handle ** ** Returns BOOLEAN TRUE-if add is successful ** *******************************************************************************/ BOOLEAN gatt_add_a_srv_to_list(tGATT_SRV_LIST_INFO *p_list, tGATT_SRV_LIST_ELEM *p_new) { tGATT_SRV_LIST_ELEM *p_old; if (!p_new) { GATT_TRACE_DEBUG("p_new==NULL"); return FALSE; } if (!p_list->p_first) { /* this is an empty list */ p_list->p_first = p_list->p_last = p_new; p_new->p_next = p_new->p_prev = NULL; } else { p_old = p_list->p_first; while (1) { if (p_old == NULL) { p_list->p_last->p_next = p_new; p_new->p_prev = p_list->p_last; p_new->p_next = NULL; p_list->p_last = p_new; break; } else { if (p_new->s_hdl < p_old->s_hdl) { /* if not the first in list */ if (p_old->p_prev != NULL) { p_old->p_prev->p_next = p_new; } else { p_list->p_first = p_new; } p_new->p_prev = p_old->p_prev; p_new->p_next = p_old; p_old->p_prev = p_new; break; } } p_old = p_old->p_next; } } p_list->count++; gatt_update_last_pri_srv_info(p_list); return TRUE; } /******************************************************************************* ** ** Function gatt_remove_a_srv_from_list ** ** Description Remove a service from the list ** ** Returns BOOLEAN TRUE-if remove is successful ** *******************************************************************************/ BOOLEAN gatt_remove_a_srv_from_list(tGATT_SRV_LIST_INFO *p_list, tGATT_SRV_LIST_ELEM *p_remove) { if (!p_remove || !p_list->p_first) { GATT_TRACE_DEBUG("p_remove==NULL || p_list->p_first==NULL"); return FALSE; } if (p_remove->p_prev == NULL) { p_list->p_first = p_remove->p_next; if (p_remove->p_next) { p_remove->p_next->p_prev = NULL; } } else if (p_remove->p_next == NULL) { p_list->p_last = p_remove->p_prev; p_remove->p_prev->p_next = NULL; } else { p_remove->p_next->p_prev = p_remove->p_prev; p_remove->p_prev->p_next = p_remove->p_next; } p_list->count--; gatt_update_last_pri_srv_info(p_list); return TRUE; } /******************************************************************************* ** ** Function gatt_add_an_item_to_list ** ** Description add an service handle range to the list in decending ** order of the start handle ** ** Returns BOOLEAN TRUE-if add is successful ** *******************************************************************************/ BOOLEAN gatt_add_an_item_to_list(tGATT_HDL_LIST_INFO *p_list, tGATT_HDL_LIST_ELEM *p_new) { tGATT_HDL_LIST_ELEM *p_old; if (!p_new) { GATT_TRACE_DEBUG("p_new==NULL"); return FALSE; } if (!p_list->p_first) { /* this is an empty list */ p_list->p_first = p_list->p_last = p_new; p_new->p_next = p_new->p_prev = NULL; } else { p_old = p_list->p_first; while (1) { if (p_old == NULL) { p_list->p_last->p_next = p_new; p_new->p_prev = p_list->p_last; p_new->p_next = NULL; p_list->p_last = p_new; break; } else { if (p_new->asgn_range.s_handle > p_old->asgn_range.s_handle) { if (p_old == p_list->p_first) { p_list->p_first = p_new; } p_new->p_prev = p_old->p_prev; p_new->p_next = p_old; p_old->p_prev = p_new; break; } } p_old = p_old->p_next; } } p_list->count++; return TRUE; } /******************************************************************************* ** ** Function gatt_remove_an_item_from_list ** ** Description Remove an service handle range from the list ** ** Returns BOOLEAN TRUE-if remove is successful ** *******************************************************************************/ BOOLEAN gatt_remove_an_item_from_list(tGATT_HDL_LIST_INFO *p_list, tGATT_HDL_LIST_ELEM *p_remove) { if (!p_remove || !p_list->p_first) { GATT_TRACE_DEBUG("p_remove==NULL || p_list->p_first==NULL"); return FALSE; } if (p_remove->p_prev == NULL) { p_list->p_first = p_remove->p_next; if (p_remove->p_next) { p_remove->p_next->p_prev = NULL; } } else if (p_remove->p_next == NULL) { p_list->p_last = p_remove->p_prev; p_remove->p_prev->p_next = NULL; } else { p_remove->p_next->p_prev = p_remove->p_prev; p_remove->p_prev->p_next = p_remove->p_next; } p_list->count--; return TRUE; } /******************************************************************************* ** ** Function gatt_find_the_connected_bda ** ** Description This function find the connected bda ** ** Returns TRUE if found ** *******************************************************************************/ BOOLEAN gatt_find_the_connected_bda(UINT8 start_idx, BD_ADDR bda, UINT8 *p_found_idx, tBT_TRANSPORT *p_transport) { BOOLEAN found = FALSE; GATT_TRACE_DEBUG("gatt_find_the_connected_bda start_idx=%d", start_idx); tGATT_TCB *p_tcb = NULL; list_node_t *p_node = NULL; p_tcb = gatt_get_tcb_by_idx(start_idx); if (p_tcb) { for(p_node = list_get_node(gatt_cb.p_tcb_list, p_tcb); p_node; p_node = list_next(p_node)) { p_tcb = list_node(p_node); if (p_tcb->in_use && p_tcb->ch_state == GATT_CH_OPEN) { memcpy( bda, p_tcb->peer_bda, BD_ADDR_LEN); *p_found_idx = p_tcb->tcb_idx; *p_transport = p_tcb->transport; found = TRUE; GATT_TRACE_DEBUG("gatt_find_the_connected_bda bda :%02x-%02x-%02x-%02x-%02x-%02x", bda[0], bda[1], bda[2], bda[3], bda[4], bda[5]); break; } } GATT_TRACE_DEBUG("gatt_find_the_connected_bda found=%d found_idx=%d", found, p_tcb->tcb_idx); } return found; } /******************************************************************************* ** ** Function gatt_is_srv_chg_ind_pending ** ** Description Check whether a service chnaged is in the indication pending queue ** or waiting for an Ack already ** ** Returns BOOLEAN ** *******************************************************************************/ BOOLEAN gatt_is_srv_chg_ind_pending (tGATT_TCB *p_tcb) { BOOLEAN srv_chg_ind_pending = FALSE; GATT_TRACE_DEBUG("gatt_is_srv_chg_ind_pending is_queue_empty=%d", fixed_queue_is_empty(p_tcb->pending_ind_q)); if (p_tcb->indicate_handle == gatt_cb.handle_of_h_r) { srv_chg_ind_pending = TRUE; } else if (! fixed_queue_is_empty(p_tcb->pending_ind_q)) { list_t *list = fixed_queue_get_list(p_tcb->pending_ind_q); for (const list_node_t *node = list_begin(list); node != list_end(list); node = list_next(node)) { tGATT_VALUE *p_buf = (tGATT_VALUE *)list_node(node); if (p_buf->handle == gatt_cb.handle_of_h_r) { srv_chg_ind_pending = TRUE; break; } } } GATT_TRACE_DEBUG("srv_chg_ind_pending = %d", srv_chg_ind_pending); return srv_chg_ind_pending; } /******************************************************************************* ** ** Function gatt_is_bda_in_the_srv_chg_clt_list ** ** Description This function check the specified bda is in the srv chg clinet list or not ** ** Returns pointer to the found elemenet otherwise NULL ** *******************************************************************************/ tGATTS_SRV_CHG *gatt_is_bda_in_the_srv_chg_clt_list (BD_ADDR bda) { tGATTS_SRV_CHG *p_buf = NULL; GATT_TRACE_DEBUG("gatt_is_bda_in_the_srv_chg_clt_list :%02x-%02x-%02x-%02x-%02x-%02x", bda[0], bda[1], bda[2], bda[3], bda[4], bda[5]); if (fixed_queue_is_empty(gatt_cb.srv_chg_clt_q)) { return NULL; } list_t *list = fixed_queue_get_list(gatt_cb.srv_chg_clt_q); for (const list_node_t *node = list_begin(list); node != list_end(list); node = list_next(node)) { p_buf = (tGATTS_SRV_CHG *)list_node(node); if (!memcmp( bda, p_buf->bda, BD_ADDR_LEN)) { GATT_TRACE_DEBUG("bda is in the srv chg clt list"); break; } } return p_buf; } /******************************************************************************* ** ** Function gatt_is_bda_connected ** ** Description ** ** Returns GATT_INDEX_INVALID if not found. Otherwise index to the tcb. ** *******************************************************************************/ BOOLEAN gatt_is_bda_connected(BD_ADDR bda) { BOOLEAN connected = FALSE; tGATT_TCB *p_tcb = NULL; list_node_t *p_node = NULL; for(p_node = list_begin(gatt_cb.p_tcb_list); p_node; p_node = list_next(p_node)) { p_tcb = list_node(p_node); if (p_tcb->in_use && !memcmp(p_tcb->peer_bda, bda, BD_ADDR_LEN)) { connected = TRUE; break; } } return connected; } /******************************************************************************* ** ** Function gatt_find_i_tcb_by_addr ** ** Description The function searches for an empty tcb entry, and return the index. ** ** Returns GATT_INDEX_INVALID if not found. Otherwise index to the tcb. ** *******************************************************************************/ UINT8 gatt_find_i_tcb_by_addr(BD_ADDR bda, tBT_TRANSPORT transport) { UINT8 i = 0; list_node_t *p_node = NULL; tGATT_TCB *p_tcb = NULL; for(p_node = list_begin(gatt_cb.p_tcb_list); p_node; p_node = list_next(p_node)) { p_tcb = list_node(p_node); if (!memcmp(p_tcb->peer_bda, bda, BD_ADDR_LEN) && p_tcb->transport == transport) { i = p_tcb->tcb_idx; return i; } } return GATT_INDEX_INVALID; } /******************************************************************************* ** ** Function gatt_get_tcb_by_idx ** ** Description The function get TCB using the TCB index ** ** Returns NULL if not found. Otherwise index to the tcb. ** *******************************************************************************/ tGATT_TCB *gatt_get_tcb_by_idx(UINT8 tcb_idx) { tGATT_TCB *p_tcb = NULL; list_node_t *p_node = NULL; for(p_node = list_begin(gatt_cb.p_tcb_list); p_node; p_node = list_next(p_node)) { p_tcb = list_node(p_node); if ( (tcb_idx < GATT_MAX_PHY_CHANNEL) && p_tcb->in_use && p_tcb->tcb_idx == tcb_idx ) { break; } else { p_tcb = NULL; } } return p_tcb; } /******************************************************************************* ** ** Function gatt_find_tcb_by_addr ** ** Description The function searches for an empty tcb entry, and return pointer. ** ** Returns NULL if not found. Otherwise index to the tcb. ** *******************************************************************************/ tGATT_TCB *gatt_find_tcb_by_addr(BD_ADDR bda, tBT_TRANSPORT transport) { tGATT_TCB *p_tcb = NULL; UINT8 i = 0; if ((i = gatt_find_i_tcb_by_addr(bda, transport)) != GATT_INDEX_INVALID) { p_tcb = gatt_get_tcb_by_idx(i); } return p_tcb; } /******************************************************************************* ** ** Function gatt_find_i_tcb_free ** ** Description The function searches for an empty tcb entry, and return the index. ** ** Returns GATT_INDEX_INVALID if not found. Otherwise index to the tcb. ** *******************************************************************************/ UINT8 gatt_find_i_tcb_free(void) { UINT8 i = 0, j = GATT_INDEX_INVALID; for (i = 0; i < GATT_MAX_PHY_CHANNEL; i ++) { if (!((1 << i) & gatt_tcb_id)) { j = i; break; } } return j; } /******************************************************************************* ** ** Function gatt_tcb_alloc ** ** Description The function allocates tcb for given tcb_idx and update tcb_id ** ** Returns Allocated tcb block ** *******************************************************************************/ tGATT_TCB *gatt_tcb_alloc(UINT8 tcb_idx) { /* Allocate tcb block */ tGATT_TCB *p_tcb = (tGATT_TCB *)osi_malloc(sizeof(tGATT_TCB)); if (p_tcb && list_length(gatt_cb.p_tcb_list) < GATT_MAX_PHY_CHANNEL) { memset(p_tcb, 0, sizeof(tGATT_TCB)); /* Add tcb block to list in gatt_cb */ list_append(gatt_cb.p_tcb_list, p_tcb); /* Update tcb id */ gatt_tcb_id |= 1 << tcb_idx; } else if(p_tcb) { osi_free(p_tcb); p_tcb = NULL; } return p_tcb; } /******************************************************************************* ** ** Function gatt_tcb_free ** ** Description The function free the given tcb block and update tcb id ** ** Returns void ** *******************************************************************************/ void gatt_tcb_free( tGATT_TCB *p_tcb) { UINT8 tcb_idx = p_tcb->tcb_idx; if (list_remove(gatt_cb.p_tcb_list, p_tcb)) { gatt_tcb_id &= ~(1 << tcb_idx); } } /******************************************************************************* ** ** Function gatt_allocate_tcb_by_bdaddr ** ** Description The function locate or allocate new tcb entry for matching bda. ** ** Returns GATT_INDEX_INVALID if not found. Otherwise index to the tcb. ** *******************************************************************************/ tGATT_TCB *gatt_allocate_tcb_by_bdaddr(BD_ADDR bda, tBT_TRANSPORT transport) { UINT8 i = 0; BOOLEAN allocated = FALSE; tGATT_TCB *p_tcb = NULL; /* search for existing tcb with matching bda */ i = gatt_find_i_tcb_by_addr(bda, transport); /* find free tcb */ if (i == GATT_INDEX_INVALID) { i = gatt_find_i_tcb_free(); allocated = TRUE; } if (i != GATT_INDEX_INVALID) { p_tcb = gatt_tcb_alloc(i); if (!p_tcb) { return NULL; } if (allocated) { memset(p_tcb, 0, sizeof(tGATT_TCB)); p_tcb->pending_enc_clcb = fixed_queue_new(QUEUE_SIZE_MAX); p_tcb->pending_ind_q = fixed_queue_new(QUEUE_SIZE_MAX); p_tcb->in_use = TRUE; p_tcb->tcb_idx = i; p_tcb->transport = transport; } memcpy(p_tcb->peer_bda, bda, BD_ADDR_LEN); } return p_tcb; } /******************************************************************************* ** ** Function gatt_convert_uuid16_to_uuid128 ** ** Description Convert a 16 bits UUID to be an standard 128 bits one. ** ** Returns TRUE if two uuid match; FALSE otherwise. ** *******************************************************************************/ void gatt_convert_uuid16_to_uuid128(UINT8 uuid_128[LEN_UUID_128], UINT16 uuid_16) { UINT8 *p = &uuid_128[LEN_UUID_128 - 4]; memcpy (uuid_128, base_uuid, LEN_UUID_128); UINT16_TO_STREAM(p, uuid_16); } /******************************************************************************* ** ** Function gatt_convert_uuid32_to_uuid128 ** ** Description Convert a 32 bits UUID to be an standard 128 bits one. ** ** Returns TRUE if two uuid match; FALSE otherwise. ** *******************************************************************************/ void gatt_convert_uuid32_to_uuid128(UINT8 uuid_128[LEN_UUID_128], UINT32 uuid_32) { UINT8 *p = &uuid_128[LEN_UUID_128 - 4]; memcpy (uuid_128, base_uuid, LEN_UUID_128); UINT32_TO_STREAM(p, uuid_32); } /******************************************************************************* ** ** Function gatt_uuid_compare ** ** Description Compare two UUID to see if they are the same. ** ** Returns TRUE if two uuid match; FALSE otherwise. ** *******************************************************************************/ BOOLEAN gatt_uuid_compare (tBT_UUID src, tBT_UUID tar) { UINT8 su[LEN_UUID_128], tu[LEN_UUID_128]; UINT8 *ps, *pt; /* any of the UUID is unspecified */ if (src.len == 0 || tar.len == 0) { return TRUE; } /* If both are 16-bit, we can do a simple compare */ if (src.len == LEN_UUID_16 && tar.len == LEN_UUID_16) { return src.uu.uuid16 == tar.uu.uuid16; } /* If both are 32-bit, we can do a simple compare */ if (src.len == LEN_UUID_32 && tar.len == LEN_UUID_32) { return src.uu.uuid32 == tar.uu.uuid32; } /* One or both of the UUIDs is 128-bit */ if (src.len == LEN_UUID_16) { /* convert a 16 bits UUID to 128 bits value */ gatt_convert_uuid16_to_uuid128(su, src.uu.uuid16); ps = su; } else if (src.len == LEN_UUID_32) { gatt_convert_uuid32_to_uuid128(su, src.uu.uuid32); ps = su; } else { ps = src.uu.uuid128; } if (tar.len == LEN_UUID_16) { /* convert a 16 bits UUID to 128 bits value */ gatt_convert_uuid16_to_uuid128(tu, tar.uu.uuid16); pt = tu; } else if (tar.len == LEN_UUID_32) { /* convert a 32 bits UUID to 128 bits value */ gatt_convert_uuid32_to_uuid128(tu, tar.uu.uuid32); pt = tu; } else { pt = tar.uu.uuid128; } return (memcmp(ps, pt, LEN_UUID_128) == 0); } /******************************************************************************* ** ** Function gatt_build_uuid_to_stream ** ** Description Add UUID into stream. ** ** Returns UUID length. ** *******************************************************************************/ UINT8 gatt_build_uuid_to_stream(UINT8 **p_dst, tBT_UUID uuid) { UINT8 *p = *p_dst; UINT8 len = 0; if (uuid.len == LEN_UUID_16) { UINT16_TO_STREAM (p, uuid.uu.uuid16); len = LEN_UUID_16; } else if (uuid.len == LEN_UUID_32) { /* always convert 32 bits into 128 bits as alwats */ gatt_convert_uuid32_to_uuid128(p, uuid.uu.uuid32); p += LEN_UUID_128; len = LEN_UUID_128; } else if (uuid.len == LEN_UUID_128) { ARRAY_TO_STREAM (p, uuid.uu.uuid128, LEN_UUID_128); len = LEN_UUID_128; } *p_dst = p; return len; } /******************************************************************************* ** ** Function gatt_parse_uuid_from_cmd ** ** Description Convert a 128 bits UUID into a 16 bits UUID. ** ** Returns TRUE if command sent, otherwise FALSE. ** *******************************************************************************/ BOOLEAN gatt_parse_uuid_from_cmd(tBT_UUID *p_uuid_rec, UINT16 uuid_size, UINT8 **p_data) { BOOLEAN is_base_uuid, ret = TRUE; UINT8 xx; UINT8 *p_uuid = *p_data; memset(p_uuid_rec, 0, sizeof(tBT_UUID)); switch (uuid_size) { case LEN_UUID_16: p_uuid_rec->len = uuid_size; STREAM_TO_UINT16 (p_uuid_rec->uu.uuid16, p_uuid); *p_data += LEN_UUID_16; break; case LEN_UUID_128: /* See if we can compress his UUID down to 16 or 32bit UUIDs */ is_base_uuid = TRUE; for (xx = 0; xx < LEN_UUID_128 - 4; xx++) { if (p_uuid[xx] != base_uuid[xx]) { is_base_uuid = FALSE; break; } } if (is_base_uuid) { if ((p_uuid[LEN_UUID_128 - 1] == 0) && (p_uuid[LEN_UUID_128 - 2] == 0)) { p_uuid += (LEN_UUID_128 - 4); p_uuid_rec->len = LEN_UUID_16; STREAM_TO_UINT16(p_uuid_rec->uu.uuid16, p_uuid); } else { p_uuid += (LEN_UUID_128 - LEN_UUID_32); p_uuid_rec->len = LEN_UUID_32; STREAM_TO_UINT32(p_uuid_rec->uu.uuid32, p_uuid); } } if (!is_base_uuid) { p_uuid_rec->len = LEN_UUID_128; memcpy(p_uuid_rec->uu.uuid128, p_uuid, LEN_UUID_128); } *p_data += LEN_UUID_128; break; /* do not allow 32 bits UUID in ATT PDU now */ case LEN_UUID_32: GATT_TRACE_ERROR("DO NOT ALLOW 32 BITS UUID IN ATT PDU"); case 0: default: if (uuid_size != 0) { ret = FALSE; } GATT_TRACE_WARNING("gatt_parse_uuid_from_cmd invalid uuid size"); break; } return ( ret); } /******************************************************************************* ** ** Function gatt_start_rsp_timer ** ** Description Start a wait_for_response timer. ** ** Returns TRUE if command sent, otherwise FALSE. ** *******************************************************************************/ void gatt_start_rsp_timer(UINT16 clcb_idx) { tGATT_CLCB *p_clcb = gatt_clcb_find_by_idx(clcb_idx); UINT32 timeout = GATT_WAIT_FOR_RSP_TOUT; p_clcb->rsp_timer_ent.param = (TIMER_PARAM_TYPE)p_clcb; if (p_clcb->operation == GATTC_OPTYPE_DISCOVERY && p_clcb->op_subtype == GATT_DISC_SRVC_ALL) { timeout = GATT_WAIT_FOR_DISC_RSP_TOUT; } btu_start_timer (&p_clcb->rsp_timer_ent, BTU_TTYPE_ATT_WAIT_FOR_RSP, timeout); } /******************************************************************************* ** ** Function gatt_start_conf_timer ** ** Description Start a wait_for_confirmation timer. ** ** Returns TRUE if command sent, otherwise FALSE. ** *******************************************************************************/ void gatt_start_conf_timer(tGATT_TCB *p_tcb) { p_tcb->conf_timer_ent.param = (TIMER_PARAM_TYPE)p_tcb; btu_start_timer (&p_tcb->conf_timer_ent, BTU_TTYPE_ATT_WAIT_FOR_RSP, GATT_WAIT_FOR_RSP_TOUT); } /******************************************************************************* ** ** Function gatt_start_ind_ack_timer ** ** Description start the application ack timer ** ** Returns void ** *******************************************************************************/ void gatt_start_ind_ack_timer(tGATT_TCB *p_tcb) { p_tcb->ind_ack_timer_ent.param = (TIMER_PARAM_TYPE)p_tcb; /* start notification cache timer */ btu_start_timer (&p_tcb->ind_ack_timer_ent, BTU_TTYPE_ATT_WAIT_FOR_IND_ACK, GATT_WAIT_FOR_IND_ACK_TOUT); } /******************************************************************************* ** ** Function gatt_rsp_timeout ** ** Description Called when GATT wait for ATT command response timer expires ** ** Returns void ** *******************************************************************************/ void gatt_rsp_timeout(TIMER_LIST_ENT *p_tle) { tGATT_CLCB *p_clcb = (tGATT_CLCB *)p_tle->param; if (p_clcb == NULL || p_clcb->p_tcb == NULL) { GATT_TRACE_WARNING("gatt_rsp_timeout clcb is already deleted"); return; } if (p_clcb->operation == GATTC_OPTYPE_DISCOVERY && p_clcb->op_subtype == GATT_DISC_SRVC_ALL && p_clcb->retry_count < GATT_REQ_RETRY_LIMIT) { UINT8 rsp_code; GATT_TRACE_WARNING("gatt_rsp_timeout retry discovery primary service"); if (p_clcb != gatt_cmd_dequeue(p_clcb->p_tcb, &rsp_code)) { GATT_TRACE_ERROR("gatt_rsp_timeout command queue out of sync, disconnect"); } else { p_clcb->retry_count++; #if (GATTC_INCLUDED == TRUE) gatt_act_discovery(p_clcb); #endif ///GATTC_INCLUDED == TRUE return; } } GATT_TRACE_WARNING("gatt_rsp_timeout disconnecting..."); gatt_disconnect (p_clcb->p_tcb); } /******************************************************************************* ** ** Function gatt_ind_ack_timeout ** ** Description Called when GATT wait for ATT handle confirmation timeout ** ** Returns void ** *******************************************************************************/ void gatt_ind_ack_timeout(TIMER_LIST_ENT *p_tle) { tGATT_TCB *p_tcb = (tGATT_TCB *)p_tle->param; GATT_TRACE_WARNING("gatt_ind_ack_timeout send ack now"); if (p_tcb != NULL) { p_tcb->ind_count = 0; } attp_send_cl_msg(((tGATT_TCB *)p_tle->param), 0, GATT_HANDLE_VALUE_CONF, NULL); } /******************************************************************************* ** ** Function gatt_sr_find_i_rcb_by_handle ** ** Description The function searches for a service that owns a specific handle. ** ** Returns GATT_MAX_SR_PROFILES if not found. Otherwise index of th eservice. ** *******************************************************************************/ UINT8 gatt_sr_find_i_rcb_by_handle(UINT16 handle) { UINT8 i_rcb = 0; for ( ; i_rcb < GATT_MAX_SR_PROFILES; i_rcb++) { if (gatt_cb.sr_reg[i_rcb].in_use && gatt_cb.sr_reg[i_rcb].s_hdl <= handle && gatt_cb.sr_reg[i_rcb].e_hdl >= handle ) { break; } } return i_rcb; } /******************************************************************************* ** ** Function gatt_sr_find_i_rcb_by_handle ** ** Description The function searches for a service that owns a specific handle. ** ** Returns 0 if not found. Otherwise index of th eservice. ** *******************************************************************************/ #if (GATTS_INCLUDED == TRUE) UINT8 gatt_sr_find_i_rcb_by_app_id(tBT_UUID *p_app_uuid128, tBT_UUID *p_svc_uuid, UINT16 svc_inst) { UINT8 i_rcb = 0; tGATT_SR_REG *p_sreg; tBT_UUID *p_this_uuid; for (i_rcb = 0, p_sreg = gatt_cb.sr_reg; i_rcb < GATT_MAX_SR_PROFILES; i_rcb++, p_sreg++) { if ( p_sreg->in_use ) { p_this_uuid = gatts_get_service_uuid (p_sreg->p_db); if (p_this_uuid && gatt_uuid_compare (*p_app_uuid128, p_sreg->app_uuid ) && gatt_uuid_compare (*p_svc_uuid, *p_this_uuid) && (svc_inst == p_sreg->service_instance)) { GATT_TRACE_ERROR ("Active Service Found "); gatt_dbg_display_uuid(*p_svc_uuid); break; } } } return i_rcb; } #endif ///GATTS_INCLUDED == TRUE /******************************************************************************* ** ** Function gatt_sr_find_i_rcb_by_handle ** ** Description The function searches for a service that owns a specific handle. ** ** Returns 0 if not found. Otherwise index of th eservice. ** *******************************************************************************/ UINT8 gatt_sr_alloc_rcb(tGATT_HDL_LIST_ELEM *p_list ) { UINT8 ii = 0; tGATT_SR_REG *p_sreg = NULL; /*this is a new application servoce start */ for (ii = 0, p_sreg = gatt_cb.sr_reg; ii < GATT_MAX_SR_PROFILES; ii++, p_sreg++) { if (!p_sreg->in_use) { memset (p_sreg, 0, sizeof(tGATT_SR_REG)); p_sreg->in_use = TRUE; memcpy (&p_sreg->app_uuid, &p_list->asgn_range.app_uuid128, sizeof(tBT_UUID)); p_sreg->service_instance = p_list->asgn_range.svc_inst; p_sreg->type = p_list->asgn_range.is_primary ? GATT_UUID_PRI_SERVICE : GATT_UUID_SEC_SERVICE; p_sreg->s_hdl = p_list->asgn_range.s_handle; p_sreg->e_hdl = p_list->asgn_range.e_handle; p_sreg->p_db = &p_list->svc_db; GATT_TRACE_DEBUG ("total buffer in db [%d]", fixed_queue_length(p_sreg->p_db->svc_buffer)); break; } } return ii; } /******************************************************************************* ** ** Function gatt_sr_get_sec_info ** ** Description Get the security flag and key size information for the peer ** device. ** ** Returns void ** *******************************************************************************/ void gatt_sr_get_sec_info(BD_ADDR rem_bda, tBT_TRANSPORT transport, UINT8 *p_sec_flag, UINT8 *p_key_size) { UINT8 sec_flag = 0; BTM_GetSecurityFlagsByTransport(rem_bda, &sec_flag, transport); sec_flag &= (GATT_SEC_FLAG_LKEY_UNAUTHED | GATT_SEC_FLAG_LKEY_AUTHED | GATT_SEC_FLAG_ENCRYPTED); #if (SMP_INCLUDED == TRUE) *p_key_size = btm_ble_read_sec_key_size(rem_bda); #endif ///SMP_INCLUDED == TRUE *p_sec_flag = sec_flag; } /******************************************************************************* ** ** Function gatt_sr_send_req_callback ** ** Description ** ** ** Returns void ** *******************************************************************************/ void gatt_sr_send_req_callback(UINT16 conn_id, UINT32 trans_id, tGATTS_REQ_TYPE type, tGATTS_DATA *p_data) { tGATT_IF gatt_if = GATT_GET_GATT_IF(conn_id); tGATT_REG *p_reg = gatt_get_regcb(gatt_if); if (!p_reg ) { GATT_TRACE_ERROR ("p_reg not found discard request"); return; } if ( p_reg->in_use && p_reg->app_cb.p_req_cb) { (*p_reg->app_cb.p_req_cb)(conn_id, trans_id, type, p_data); } else { GATT_TRACE_WARNING("Call back not found for application conn_id=%d", conn_id); } } /******************************************************************************* ** ** Function gatt_send_error_rsp ** ** Description This function sends an error response. ** ** Returns void ** *******************************************************************************/ tGATT_STATUS gatt_send_error_rsp (tGATT_TCB *p_tcb, UINT8 err_code, UINT8 op_code, UINT16 handle, BOOLEAN deq) { tGATT_ERROR error; tGATT_STATUS status; BT_HDR *p_buf; error.cmd_code = op_code; error.reason = err_code; error.handle = handle; if ((p_buf = attp_build_sr_msg(p_tcb, GATT_RSP_ERROR, (tGATT_SR_MSG *)&error)) != NULL) { status = attp_send_sr_msg (p_tcb, p_buf); } else { status = GATT_INSUF_RESOURCE; } #if (GATTS_INCLUDED == TRUE) if (deq) { gatt_dequeue_sr_cmd(p_tcb); } #endif ///GATTS_INCLUDED == TRUE return status; } #if (SDP_INCLUDED == TRUE && CLASSIC_BT_GATT_INCLUDED == TRUE) /******************************************************************************* ** ** Function gatt_add_sdp_record ** ** Description This function add a SDP record for a GATT primary service ** ** Returns 0 if error else sdp handle for the record. ** *******************************************************************************/ UINT32 gatt_add_sdp_record (tBT_UUID *p_uuid, UINT16 start_hdl, UINT16 end_hdl) { tSDP_PROTOCOL_ELEM proto_elem_list[2]; UINT32 sdp_handle; UINT16 list = UUID_SERVCLASS_PUBLIC_BROWSE_GROUP; UINT8 buff[60]; UINT8 *p = buff; GATT_TRACE_DEBUG("gatt_add_sdp_record s_hdl=0x%x s_hdl=0x%x", start_hdl, end_hdl); if ((sdp_handle = SDP_CreateRecord()) == 0) { return 0; } switch (p_uuid->len) { case LEN_UUID_16: SDP_AddServiceClassIdList(sdp_handle, 1, &p_uuid->uu.uuid16); break; case LEN_UUID_32: UINT8_TO_BE_STREAM (p, (UUID_DESC_TYPE << 3) | SIZE_FOUR_BYTES); UINT32_TO_BE_STREAM (p, p_uuid->uu.uuid32); SDP_AddAttribute (sdp_handle, ATTR_ID_SERVICE_CLASS_ID_LIST, DATA_ELE_SEQ_DESC_TYPE, (UINT32) (p - buff), buff); break; case LEN_UUID_128: UINT8_TO_BE_STREAM (p, (UUID_DESC_TYPE << 3) | SIZE_SIXTEEN_BYTES); ARRAY_TO_BE_STREAM_REVERSE (p, p_uuid->uu.uuid128, LEN_UUID_128); SDP_AddAttribute (sdp_handle, ATTR_ID_SERVICE_CLASS_ID_LIST, DATA_ELE_SEQ_DESC_TYPE, (UINT32) (p - buff), buff); break; default: GATT_TRACE_ERROR("inavlid UUID len=%d", p_uuid->len); SDP_DeleteRecord(sdp_handle); return 0; break; } /*** Fill out the protocol element sequence for SDP ***/ proto_elem_list[0].protocol_uuid = UUID_PROTOCOL_L2CAP; proto_elem_list[0].num_params = 1; proto_elem_list[0].params[0] = BT_PSM_ATT; proto_elem_list[1].protocol_uuid = UUID_PROTOCOL_ATT; proto_elem_list[1].num_params = 2; proto_elem_list[1].params[0] = start_hdl; proto_elem_list[1].params[1] = end_hdl; SDP_AddProtocolList(sdp_handle, 2, proto_elem_list); /* Make the service browseable */ SDP_AddUuidSequence (sdp_handle, ATTR_ID_BROWSE_GROUP_LIST, 1, &list); return (sdp_handle); } #endif ///SDP_INCLUDED == TRUE && CLASSIC_BT_GATT_INCLUDED == TRUE #if GATT_CONFORMANCE_TESTING == TRUE /******************************************************************************* ** ** Function gatt_set_err_rsp ** ** Description This function is called to set the test confirm value ** ** Returns void ** *******************************************************************************/ void gatt_set_err_rsp(BOOLEAN enable, UINT8 req_op_code, UINT8 err_status) { GATT_TRACE_DEBUG("gatt_set_err_rsp enable=%d op_code=%d, err_status=%d", enable, req_op_code, err_status); gatt_cb.enable_err_rsp = enable; gatt_cb.req_op_code = req_op_code; gatt_cb.err_status = err_status; } #endif /******************************************************************************* ** ** Function gatt_get_regcb ** ** Description The function returns the registration control block. ** ** Returns pointer to the registration control block or NULL ** *******************************************************************************/ tGATT_REG *gatt_get_regcb (tGATT_IF gatt_if) { UINT8 ii = (UINT8)gatt_if; tGATT_REG *p_reg = NULL; if (ii < 1 || ii > GATT_MAX_APPS) { GATT_TRACE_WARNING("gatt_if out of range [ = %d]", ii); return NULL; } // Index for cl_rcb is always 1 less than gatt_if. p_reg = &gatt_cb.cl_rcb[ii - 1]; if (!p_reg->in_use) { GATT_TRACE_WARNING("gatt_if found but not in use.\n"); return NULL; } return p_reg; } /******************************************************************************* ** ** Function gatt_is_clcb_allocated ** ** Description The function check clcb for conn_id is allocated or not ** ** Returns True already allocated ** *******************************************************************************/ BOOLEAN gatt_is_clcb_allocated (UINT16 conn_id) { BOOLEAN is_allocated = FALSE; tGATT_CLCB *p_clcb = gatt_clcb_find_by_conn_id(conn_id); if (p_clcb) { is_allocated = TRUE; } return is_allocated; } /******************************************************************************* ** ** Function gatt_clcb_find_by_conn_id ** ** Description Find clcb block using clcb_idx stored at the time of alloc ** ** Returns pointer to clcb corresponding to conn_id ** *******************************************************************************/ tGATT_CLCB *gatt_clcb_find_by_conn_id(UINT16 conn_id) { list_node_t *p_node = NULL; tGATT_CLCB *p_clcb = NULL; tGATT_CLCB *p_clcb_ret = NULL; for(p_node = list_begin(gatt_cb.p_clcb_list); p_node; p_node = list_next(p_node)) { p_clcb = list_node(p_node); if (p_clcb->conn_id == conn_id) { p_clcb_ret = p_clcb; break; } } return p_clcb_ret; } /******************************************************************************* ** ** Function gatt_clcb_find_by_idx ** ** Description Find clcb block using clcb_idx stored at the time of alloc ** ** Returns pointer to clcb corresponding to clcb_idx ** *******************************************************************************/ tGATT_CLCB *gatt_clcb_find_by_idx(UINT16 clcb_idx) { list_node_t *p_node = NULL; tGATT_CLCB *p_clcb = NULL; tGATT_CLCB *p_clcb_ret = NULL; for(p_node = list_begin(gatt_cb.p_clcb_list); p_node; p_node = list_next(p_node)) { p_clcb = list_node(p_node); if (p_clcb->clcb_idx == clcb_idx) { p_clcb_ret = p_clcb; break; } } return p_clcb_ret; } /******************************************************************************* ** ** Function gatt_clcb_alloc ** ** Description The function allocates a GATT connection link control block ** ** Returns NULL if not found. Otherwise pointer to the connection link block. ** *******************************************************************************/ tGATT_CLCB *gatt_clcb_alloc (UINT16 conn_id) { tGATT_CLCB *p_clcb = NULL; tGATT_IF gatt_if = GATT_GET_GATT_IF(conn_id); UINT8 tcb_idx = GATT_GET_TCB_IDX(conn_id); tGATT_TCB *p_tcb = gatt_get_tcb_by_idx(tcb_idx); tGATT_REG *p_reg = gatt_get_regcb(gatt_if); if (list_length(gatt_cb.p_clcb_list) < GATT_CL_MAX_LCB) { p_clcb = (tGATT_CLCB *)osi_malloc(sizeof(tGATT_CLCB)); if (p_clcb) { list_append(gatt_cb.p_clcb_list, p_clcb); memset(p_clcb, 0, sizeof(tGATT_CLCB)); p_clcb->in_use = TRUE; p_clcb->conn_id = conn_id; //Add index of the clcb same as conn_id p_clcb->clcb_idx = conn_id; p_clcb->p_reg = p_reg; p_clcb->p_tcb = p_tcb; } } return p_clcb; } /******************************************************************************* ** ** Function gatt_clcb_dealloc ** ** Description The function de allocates a GATT connection link control block ** ** Returns None ** *******************************************************************************/ void gatt_clcb_dealloc (tGATT_CLCB *p_clcb) { if (p_clcb && p_clcb->in_use) { btu_free_timer(&p_clcb->rsp_timer_ent); memset(p_clcb, 0, sizeof(tGATT_CLCB)); list_remove(gatt_cb.p_clcb_list, p_clcb); p_clcb = NULL; } } /******************************************************************************* ** ** Function gatt_find_tcb_by_cid ** ** Description The function searches for an empty entry ** in registration info table for GATT client ** ** Returns NULL if not found. Otherwise pointer to the rcb. ** *******************************************************************************/ tGATT_TCB *gatt_find_tcb_by_cid (UINT16 lcid) { tGATT_TCB *p_tcb = NULL; list_node_t *p_node = NULL; for(p_node = list_begin(gatt_cb.p_tcb_list); p_node; p_node = list_next(p_node)) { p_tcb = list_node(p_node); if (p_tcb->in_use && p_tcb->att_lcid == lcid) { break; } } return p_tcb; } /******************************************************************************* ** ** Function gatt_num_apps_hold_link ** ** Description The function find the number of applcaitions is holding the link ** ** Returns total number of applications holding this acl link. ** *******************************************************************************/ UINT8 gatt_num_apps_hold_link(tGATT_TCB *p_tcb) { UINT8 i, num = 0; for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_tcb->app_hold_link[i]) { num ++; } } GATT_TRACE_DEBUG("gatt_num_apps_hold_link num=%d", num); return num; } /******************************************************************************* ** ** Function gatt_num_clcb_by_bd_addr ** ** Description The function searches all LCB with macthing bd address ** ** Returns total number of clcb found. ** *******************************************************************************/ UINT8 gatt_num_clcb_by_bd_addr(BD_ADDR bda) { UINT8 num = 0; list_node_t *p_node = NULL; tGATT_CLCB *p_clcb = NULL; for(p_node = list_begin(gatt_cb.p_clcb_list); p_node; p_node = list_next(p_node)) { p_clcb = list_node(p_node); if (memcmp(p_clcb->p_tcb->peer_bda, bda, BD_ADDR_LEN) == 0) { num++; } } return num; } /******************************************************************************* ** ** Function gatt_sr_update_cback_cnt ** ** Description The function searches all LCB with macthing bd address ** ** Returns total number of clcb found. ** *******************************************************************************/ void gatt_sr_copy_prep_cnt_to_cback_cnt(tGATT_TCB *p_tcb ) { #if (GATTS_INCLUDED == TRUE) UINT8 i; if (p_tcb) { for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_tcb->prep_cnt[i]) { p_tcb->sr_cmd.cback_cnt[i] = 1; } } } #endif ///GATTS_INCLUDED == TRUE } /******************************************************************************* ** ** Function gatt_sr_is_cback_cnt_zero ** ** Description The function searches all LCB with macthing bd address ** ** Returns True if thetotal application callback count is zero ** *******************************************************************************/ BOOLEAN gatt_sr_is_cback_cnt_zero(tGATT_TCB *p_tcb ) { BOOLEAN status = TRUE; #if (GATTS_INCLUDED == TRUE) UINT8 i; if (p_tcb) { for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_tcb->sr_cmd.cback_cnt[i]) { status = FALSE; break; } } } else { status = FALSE; } #endif ///GATTS_INCLUDED == TRUE return status; } /******************************************************************************* ** ** Function gatt_sr_is_prep_cnt_zero ** ** Description Check the prepare write request count is zero or not ** ** Returns True no prepare write request ** *******************************************************************************/ BOOLEAN gatt_sr_is_prep_cnt_zero(tGATT_TCB *p_tcb) { BOOLEAN status = TRUE; UINT8 i; if (p_tcb) { for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_tcb->prep_cnt[i]) { status = FALSE; break; } } } else { status = FALSE; } return status; } /******************************************************************************* ** ** Function gatt_sr_reset_cback_cnt ** ** Description Reset the application callback count to zero ** ** Returns None ** *******************************************************************************/ void gatt_sr_reset_cback_cnt(tGATT_TCB *p_tcb ) { #if (GATTS_INCLUDED == TRUE) UINT8 i; if (p_tcb) { for (i = 0; i < GATT_MAX_APPS; i ++) { p_tcb->sr_cmd.cback_cnt[i] = 0; } } #endif ///GATTS_INCLUDED == TRUE } /******************************************************************************* ** ** Function gatt_sr_reset_prep_cnt ** ** Description Reset the prep write count to zero ** ** Returns None ** *******************************************************************************/ void gatt_sr_reset_prep_cnt(tGATT_TCB *p_tcb ) { UINT8 i; if (p_tcb) { for (i = 0; i < GATT_MAX_APPS; i ++) { p_tcb->prep_cnt[i] = 0; } } } /******************************************************************************* ** ** Function gatt_sr_update_cback_cnt ** ** Description Update the teh application callback count ** ** Returns None ** *******************************************************************************/ void gatt_sr_update_cback_cnt(tGATT_TCB *p_tcb, tGATT_IF gatt_if, BOOLEAN is_inc, BOOLEAN is_reset_first) { #if (GATTS_INCLUDED == TRUE) UINT8 idx = ((UINT8) gatt_if) - 1 ; if (p_tcb) { if (is_reset_first) { gatt_sr_reset_cback_cnt(p_tcb); } if (is_inc) { p_tcb->sr_cmd.cback_cnt[idx]++; } else { if ( p_tcb->sr_cmd.cback_cnt[idx]) { p_tcb->sr_cmd.cback_cnt[idx]--; } } } #endif ///GATTS_INCLUDED == TRUE } /******************************************************************************* ** ** Function gatt_sr_update_prep_cnt ** ** Description Update the teh prepare write request count ** ** Returns None ** *******************************************************************************/ void gatt_sr_update_prep_cnt(tGATT_TCB *p_tcb, tGATT_IF gatt_if, BOOLEAN is_inc, BOOLEAN is_reset_first) { UINT8 idx = ((UINT8) gatt_if) - 1 ; GATT_TRACE_DEBUG("gatt_sr_update_prep_cnt tcb idx=%d gatt_if=%d is_inc=%d is_reset_first=%d", p_tcb->tcb_idx, gatt_if, is_inc, is_reset_first); if (p_tcb) { if (is_reset_first) { gatt_sr_reset_prep_cnt(p_tcb); } if (is_inc) { p_tcb->prep_cnt[idx]++; } else { if (p_tcb->prep_cnt[idx]) { p_tcb->prep_cnt[idx]--; } } } } /******************************************************************************* ** ** Function gatt_cancel_open ** ** Description Cancel open request ** ** Returns Boolean ** *******************************************************************************/ BOOLEAN gatt_cancel_open(tGATT_IF gatt_if, BD_ADDR bda) { tGATT_TCB *p_tcb = NULL; BOOLEAN status = TRUE; p_tcb = gatt_find_tcb_by_addr(bda, BT_TRANSPORT_LE); if (p_tcb) { if (gatt_get_ch_state(p_tcb) == GATT_CH_OPEN) { GATT_TRACE_ERROR("GATT_CancelConnect - link connected Too late to cancel"); status = FALSE; } else { gatt_update_app_use_link_flag(gatt_if, p_tcb, FALSE, FALSE); if (!gatt_num_apps_hold_link(p_tcb)) { gatt_disconnect(p_tcb); } } } return status; } /******************************************************************************* ** ** Function gatt_find_app_hold_link ** ** Description find the application that is holding the specified link ** ** Returns Boolean ** *******************************************************************************/ BOOLEAN gatt_find_app_hold_link(tGATT_TCB *p_tcb, UINT8 start_idx, UINT8 *p_found_idx, tGATT_IF *p_gatt_if) { UINT8 i; BOOLEAN found = FALSE; for (i = start_idx; i < GATT_MAX_APPS; i ++) { if (p_tcb->app_hold_link[i]) { *p_gatt_if = p_tcb->app_hold_link[i]; *p_found_idx = i; found = TRUE; break; } } return found; } /******************************************************************************* ** ** Function gatt_find_specific_app_in_hold_link ** ** Description find the specific application that is holding the specified link ** ** Returns Boolean ** *******************************************************************************/ BOOLEAN gatt_find_specific_app_in_hold_link(tGATT_TCB *p_tcb, tGATT_IF p_gatt_if) { UINT8 i; BOOLEAN found = FALSE; for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_tcb->app_hold_link[i] && p_tcb->app_hold_link[i] == p_gatt_if) { found = TRUE; break; } } return found; } /******************************************************************************* ** ** Function gatt_cmd_enq ** ** Description Enqueue this command. ** ** Returns None. ** *******************************************************************************/ BOOLEAN gatt_cmd_enq(tGATT_TCB *p_tcb, UINT16 clcb_idx, BOOLEAN to_send, UINT8 op_code, BT_HDR *p_buf) { tGATT_CMD_Q *p_cmd = &p_tcb->cl_cmd_q[p_tcb->next_slot_inq]; p_cmd->to_send = to_send; /* waiting to be sent */ p_cmd->op_code = op_code; p_cmd->p_cmd = p_buf; p_cmd->clcb_idx = clcb_idx; if (!to_send) { p_tcb->pending_cl_req = p_tcb->next_slot_inq; } p_tcb->next_slot_inq ++; p_tcb->next_slot_inq %= GATT_CL_MAX_LCB; return TRUE; } /******************************************************************************* ** ** Function gatt_cmd_dequeue ** ** Description dequeue the command in the client CCB command queue. ** ** Returns total number of clcb found. ** *******************************************************************************/ tGATT_CLCB *gatt_cmd_dequeue(tGATT_TCB *p_tcb, UINT8 *p_op_code) { tGATT_CMD_Q *p_cmd = &p_tcb->cl_cmd_q[p_tcb->pending_cl_req]; tGATT_CLCB *p_clcb = NULL; if (p_tcb->pending_cl_req != p_tcb->next_slot_inq) { p_clcb = gatt_clcb_find_by_idx(p_cmd->clcb_idx); *p_op_code = p_cmd->op_code; p_tcb->pending_cl_req ++; p_tcb->pending_cl_req %= GATT_CL_MAX_LCB; } return p_clcb; } /******************************************************************************* ** ** Function gatt_send_write_msg ** ** Description This real function send out the ATT message for write. ** ** Returns status code ** *******************************************************************************/ UINT8 gatt_send_write_msg (tGATT_TCB *p_tcb, UINT16 clcb_idx, UINT8 op_code, UINT16 handle, UINT16 len, UINT16 offset, UINT8 *p_data) { tGATT_CL_MSG msg; msg.attr_value.handle = handle; msg.attr_value.len = len; msg.attr_value.offset = offset; memcpy (msg.attr_value.value, p_data, len); /* write by handle */ return attp_send_cl_msg(p_tcb, clcb_idx, op_code, &msg); } /******************************************************************************* ** ** Function gatt_act_send_browse ** ** Description This function ends a browse command request, including read ** information request and read by type request. ** ** Returns status code ** *******************************************************************************/ UINT8 gatt_act_send_browse(tGATT_TCB *p_tcb, UINT16 index, UINT8 op, UINT16 s_handle, UINT16 e_handle, tBT_UUID uuid) { tGATT_CL_MSG msg; msg.browse.s_handle = s_handle; msg.browse.e_handle = e_handle; memcpy(&msg.browse.uuid, &uuid, sizeof(tBT_UUID)); /* write by handle */ return attp_send_cl_msg(p_tcb, index, op, &msg); } /******************************************************************************* ** ** Function gatt_end_operation ** ** Description This function ends a discovery, send callback and finalize ** some control value. ** ** Returns 16 bits uuid. ** *******************************************************************************/ void gatt_end_operation(tGATT_CLCB *p_clcb, tGATT_STATUS status, void *p_data) { tGATT_CL_COMPLETE cb_data; tGATT_CMPL_CBACK *p_cmpl_cb = (p_clcb->p_reg) ? p_clcb->p_reg->app_cb.p_cmpl_cb : NULL; UINT8 op = p_clcb->operation, disc_type = GATT_DISC_MAX; tGATT_DISC_CMPL_CB *p_disc_cmpl_cb = (p_clcb->p_reg) ? p_clcb->p_reg->app_cb.p_disc_cmpl_cb : NULL; UINT16 conn_id; #if (!CONFIG_BT_STACK_NO_LOG) UINT8 operation; #endif GATT_TRACE_DEBUG ("gatt_end_operation status=%d op=%d subtype=%d", status, p_clcb->operation, p_clcb->op_subtype); memset(&cb_data.att_value, 0, sizeof(tGATT_VALUE)); if (p_cmpl_cb != NULL && p_clcb->operation != 0) { if (p_clcb->operation == GATTC_OPTYPE_READ) { cb_data.att_value.handle = p_clcb->s_handle; cb_data.att_value.len = p_clcb->counter; if (p_data && p_clcb->counter) { memcpy (cb_data.att_value.value, p_data, cb_data.att_value.len); } } if (p_clcb->operation == GATTC_OPTYPE_WRITE) { memset(&cb_data.att_value, 0, sizeof(tGATT_VALUE)); cb_data.handle = cb_data.att_value.handle = p_clcb->s_handle; if (p_clcb->op_subtype == GATT_WRITE_PREPARE) { if (p_data) { cb_data.att_value = *((tGATT_VALUE *) p_data); } else { GATT_TRACE_DEBUG("Rcv Prepare write rsp but no data"); } } } if (p_clcb->operation == GATTC_OPTYPE_CONFIG) { cb_data.mtu = p_clcb->p_tcb->payload_size; } if (p_clcb->operation == GATTC_OPTYPE_DISCOVERY) { disc_type = p_clcb->op_subtype; } } if (p_clcb->p_attr_buf) { osi_free(p_clcb->p_attr_buf); } #if !CONFIG_BT_STACK_NO_LOG operation = p_clcb->operation; #endif conn_id = p_clcb->conn_id; btu_stop_timer(&p_clcb->rsp_timer_ent); gatt_clcb_dealloc(p_clcb); if (p_disc_cmpl_cb && (op == GATTC_OPTYPE_DISCOVERY)) { (*p_disc_cmpl_cb)(conn_id, disc_type, status); } else if (p_cmpl_cb && op) { (*p_cmpl_cb)(conn_id, op, status, &cb_data); } else { GATT_TRACE_WARNING ("gatt_end_operation not sent out op=%d p_disc_cmpl_cb:%p p_cmpl_cb:%p", operation, p_disc_cmpl_cb, p_cmpl_cb); } } /******************************************************************************* ** ** Function gatt_cleanup_upon_disc ** ** Description This function cleans up the control blocks when L2CAP channel ** disconnect. ** ** Returns 16 bits uuid. ** *******************************************************************************/ void gatt_cleanup_upon_disc(BD_ADDR bda, UINT16 reason, tBT_TRANSPORT transport) { tGATT_TCB *p_tcb = NULL; tGATT_CLCB *p_clcb; UINT8 i; UINT16 conn_id; tGATT_REG *p_reg = NULL; GATT_TRACE_DEBUG ("gatt_cleanup_upon_disc "); if ((p_tcb = gatt_find_tcb_by_addr(bda, transport)) != NULL) { GATT_TRACE_DEBUG ("found p_tcb "); gatt_set_ch_state(p_tcb, GATT_CH_CLOSE); list_node_t *p_node = NULL; list_node_t *p_node_next = NULL; for(p_node = list_begin(gatt_cb.p_clcb_list); p_node; p_node = p_node_next) { p_clcb = list_node(p_node); p_node_next = list_next(p_node); if (p_clcb->in_use && p_clcb->p_tcb == p_tcb) { btu_stop_timer(&p_clcb->rsp_timer_ent); GATT_TRACE_DEBUG ("found p_clcb conn_id=%d clcb_idx=%d", p_clcb->conn_id, p_clcb->clcb_idx); if (p_clcb->operation != GATTC_OPTYPE_NONE) { gatt_end_operation(p_clcb, GATT_ERROR, NULL); } gatt_clcb_dealloc(p_clcb); } } btu_free_timer (&p_tcb->ind_ack_timer_ent); btu_free_timer (&p_tcb->conf_timer_ent); gatt_free_pending_ind(p_tcb); gatt_free_pending_enc_queue(p_tcb); gatt_free_pending_prepare_write_queue(p_tcb); #if (GATTS_INCLUDED) fixed_queue_free(p_tcb->sr_cmd.multi_rsp_q, osi_free_func); p_tcb->sr_cmd.multi_rsp_q = NULL; #endif /* #if (GATTS_INCLUDED) */ for (i = 0; i < GATT_MAX_APPS; i ++) { p_reg = &gatt_cb.cl_rcb[i]; if (p_reg->in_use && p_reg->app_cb.p_conn_cb) { conn_id = GATT_CREATE_CONN_ID(p_tcb->tcb_idx, p_reg->gatt_if); GATT_TRACE_DEBUG ("found p_reg tcb_idx=%d gatt_if=%d conn_id=0x%x", p_tcb->tcb_idx, p_reg->gatt_if, conn_id); (*p_reg->app_cb.p_conn_cb)(p_reg->gatt_if, bda, conn_id, FALSE, reason, transport); } } gatt_tcb_free(p_tcb); } else { GATT_TRACE_DEBUG ("exit gatt_cleanup_upon_disc "); BTM_Recovery_Pre_State(); } gatt_delete_dev_from_srv_chg_clt_list(bda); } /******************************************************************************* ** ** Function gatt_dbg_req_op_name ** ** Description Get op code description name, for debug information. ** ** Returns UINT8 *: name of the operation. ** *******************************************************************************/ UINT8 *gatt_dbg_op_name(UINT8 op_code) { UINT8 pseduo_op_code_idx = op_code & (~GATT_WRITE_CMD_MASK); if (op_code == GATT_CMD_WRITE ) { pseduo_op_code_idx = 0x14; /* just an index to op_code_name */ } if (op_code == GATT_SIGN_CMD_WRITE) { pseduo_op_code_idx = 0x15; /* just an index to op_code_name */ } if (pseduo_op_code_idx <= GATT_OP_CODE_MAX) { return (UINT8 *) op_code_name[pseduo_op_code_idx]; } else { return (UINT8 *)"Op Code Exceed Max"; } } /******************************************************************************* ** ** Function gatt_dbg_display_uuid ** ** Description Disaplay the UUID ** ** Returns None ** *******************************************************************************/ void gatt_dbg_display_uuid(tBT_UUID bt_uuid) { char str_buf[50]; int x = 0; if (bt_uuid.len == LEN_UUID_16) { sprintf(str_buf, "0x%04x", bt_uuid.uu.uuid16); } else if (bt_uuid.len == LEN_UUID_32) { sprintf(str_buf, "0x%08x", (unsigned int)bt_uuid.uu.uuid32); } else if (bt_uuid.len == LEN_UUID_128) { x += sprintf(&str_buf[x], "0x%02x%02x%02x%02x%02x%02x%02x%02x", bt_uuid.uu.uuid128[15], bt_uuid.uu.uuid128[14], bt_uuid.uu.uuid128[13], bt_uuid.uu.uuid128[12], bt_uuid.uu.uuid128[11], bt_uuid.uu.uuid128[10], bt_uuid.uu.uuid128[9], bt_uuid.uu.uuid128[8]); sprintf(&str_buf[x], "%02x%02x%02x%02x%02x%02x%02x%02x", bt_uuid.uu.uuid128[7], bt_uuid.uu.uuid128[6], bt_uuid.uu.uuid128[5], bt_uuid.uu.uuid128[4], bt_uuid.uu.uuid128[3], bt_uuid.uu.uuid128[2], bt_uuid.uu.uuid128[1], bt_uuid.uu.uuid128[0]); } else { BCM_STRNCPY_S(str_buf, "Unknown UUID 0", 15); } GATT_TRACE_DEBUG ("UUID=[%s]", str_buf); } /******************************************************************************* ** ** Function gatt_is_bg_dev_for_app ** ** Description find is this one of the background devices for the application ** ** Returns TRUE this is one of the background devices for the application ** *******************************************************************************/ BOOLEAN gatt_is_bg_dev_for_app(tGATT_BG_CONN_DEV *p_dev, tGATT_IF gatt_if) { UINT8 i; for (i = 0; i < GATT_MAX_APPS; i ++ ) { if (p_dev->in_use && (p_dev->gatt_if[i] == gatt_if)) { return TRUE; } } return FALSE; } /******************************************************************************* ** ** Function gatt_find_bg_dev ** ** Description find background connection device from the list. ** ** Returns pointer to the device record ** *******************************************************************************/ tGATT_BG_CONN_DEV *gatt_find_bg_dev(BD_ADDR remote_bda) { tGATT_BG_CONN_DEV *p_dev_list = &gatt_cb.bgconn_dev[0]; UINT8 i; for (i = 0; i < GATT_MAX_BG_CONN_DEV; i ++, p_dev_list ++) { if (p_dev_list->in_use && !memcmp(p_dev_list->remote_bda, remote_bda, BD_ADDR_LEN)) { return p_dev_list; } } return NULL; } /******************************************************************************* ** ** Function gatt_alloc_bg_dev ** ** Description allocate a background connection device record ** ** Returns pointer to the device record ** *******************************************************************************/ tGATT_BG_CONN_DEV *gatt_alloc_bg_dev(BD_ADDR remote_bda) { tGATT_BG_CONN_DEV *p_dev_list = &gatt_cb.bgconn_dev[0]; UINT8 i; for (i = 0; i < GATT_MAX_BG_CONN_DEV; i ++, p_dev_list ++) { if (!p_dev_list->in_use) { p_dev_list->in_use = TRUE; memcpy(p_dev_list->remote_bda, remote_bda, BD_ADDR_LEN); return p_dev_list; } } return NULL; } /******************************************************************************* ** ** Function gatt_add_bg_dev_list ** ** Description add/remove device from the background connection device list ** ** Returns TRUE if device added to the list; FALSE failed ** *******************************************************************************/ BOOLEAN gatt_add_bg_dev_list(tGATT_REG *p_reg, BD_ADDR bd_addr, BOOLEAN is_initator) { tGATT_IF gatt_if = p_reg->gatt_if; tGATT_BG_CONN_DEV *p_dev = NULL; UINT8 i; BOOLEAN ret = FALSE; if ((p_dev = gatt_find_bg_dev(bd_addr)) == NULL) { p_dev = gatt_alloc_bg_dev(bd_addr); } if (p_dev) { for (i = 0; i < GATT_MAX_APPS; i ++) { if (is_initator) { if (p_dev->gatt_if[i] == gatt_if) { GATT_TRACE_ERROR("device already in iniator white list"); return TRUE; } else if (p_dev->gatt_if[i] == 0) { p_dev->gatt_if[i] = gatt_if; if (i == 0) { ret = BTM_BleUpdateBgConnDev(TRUE, bd_addr); } else { ret = TRUE; } break; } } else { if (p_dev->listen_gif[i] == gatt_if) { GATT_TRACE_ERROR("device already in adv white list"); return TRUE; } else if (p_dev->listen_gif[i] == 0) { if (p_reg->listening == GATT_LISTEN_TO_ALL) { p_reg->listening = GATT_LISTEN_TO_NONE; } p_reg->listening ++; p_dev->listen_gif[i] = gatt_if; if (i == 0) { // To check, we do not support background connection, code will not be called here ret = BTM_BleUpdateAdvWhitelist(TRUE, bd_addr, 0, NULL); } else { ret = TRUE; } break; } } } } else { GATT_TRACE_ERROR("no device record available"); } return ret; } /******************************************************************************* ** ** Function gatt_remove_bg_dev_for_app ** ** Description Remove the application interface for the specified background device ** ** Returns Boolean ** *******************************************************************************/ BOOLEAN gatt_remove_bg_dev_for_app(tGATT_IF gatt_if, BD_ADDR bd_addr) { tGATT_TCB *p_tcb = gatt_find_tcb_by_addr(bd_addr, BT_TRANSPORT_LE); BOOLEAN status; if (p_tcb) { gatt_update_app_use_link_flag(gatt_if, p_tcb, FALSE, FALSE); } status = gatt_update_auto_connect_dev(gatt_if, FALSE, bd_addr, TRUE); return status; } /******************************************************************************* ** ** Function gatt_get_num_apps_for_bg_dev ** ** Description Gte the number of applciations for the specified background device ** ** Returns UINT8 total number fo applications ** *******************************************************************************/ UINT8 gatt_get_num_apps_for_bg_dev(BD_ADDR bd_addr) { tGATT_BG_CONN_DEV *p_dev = NULL; UINT8 i; UINT8 cnt = 0; if ((p_dev = gatt_find_bg_dev(bd_addr)) != NULL) { for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_dev->gatt_if[i]) { cnt++; } } } return cnt; } /******************************************************************************* ** ** Function gatt_find_app_for_bg_dev ** ** Description find the application interface for the specified background device ** ** Returns Boolean ** *******************************************************************************/ BOOLEAN gatt_find_app_for_bg_dev(BD_ADDR bd_addr, tGATT_IF *p_gatt_if) { tGATT_BG_CONN_DEV *p_dev = NULL; UINT8 i; BOOLEAN ret = FALSE; if ((p_dev = gatt_find_bg_dev(bd_addr)) == NULL) { return ret; } for (i = 0; i < GATT_MAX_APPS; i ++) { if (p_dev->gatt_if[i] != 0 ) { *p_gatt_if = p_dev->gatt_if[i]; ret = TRUE; break; } } return ret; } /******************************************************************************* ** ** Function gatt_remove_bg_dev_from_list ** ** Description add/remove device from the background connection device list or ** listening to advertising list. ** ** Returns pointer to the device record ** *******************************************************************************/ BOOLEAN gatt_remove_bg_dev_from_list(tGATT_REG *p_reg, BD_ADDR bd_addr, BOOLEAN is_initiator) { tGATT_IF gatt_if = p_reg->gatt_if; tGATT_BG_CONN_DEV *p_dev = NULL; UINT8 i, j; BOOLEAN ret = FALSE; if ((p_dev = gatt_find_bg_dev(bd_addr)) == NULL) { return ret; } for (i = 0; i < GATT_MAX_APPS && (p_dev->gatt_if[i] > 0 || p_dev->listen_gif[i]); i ++) { if (is_initiator) { if (p_dev->gatt_if[i] == gatt_if) { p_dev->gatt_if[i] = 0; /* move all element behind one forward */ for (j = i + 1; j < GATT_MAX_APPS; j ++) { p_dev->gatt_if[j - 1] = p_dev->gatt_if[j]; } if (p_dev->gatt_if[0] == 0) { ret = BTM_BleUpdateBgConnDev(FALSE, p_dev->remote_bda); } else { ret = TRUE; } break; } } else { if (p_dev->listen_gif[i] == gatt_if) { p_dev->listen_gif[i] = 0; p_reg->listening --; /* move all element behind one forward */ for (j = i + 1; j < GATT_MAX_APPS; j ++) { p_dev->listen_gif[j - 1] = p_dev->listen_gif[j]; } if (p_dev->listen_gif[0] == 0) { // To check, we do not support background connection, code will not be called here ret = BTM_BleUpdateAdvWhitelist(FALSE, p_dev->remote_bda, 0, NULL); } else { ret = TRUE; } break; } } } if (i != GATT_MAX_APPS && p_dev->gatt_if[0] == 0 && p_dev->listen_gif[0] == 0) { memset(p_dev, 0, sizeof(tGATT_BG_CONN_DEV)); } return ret; } /******************************************************************************* ** ** Function gatt_deregister_bgdev_list ** ** Description deregister all related background connection device. ** ** Returns pointer to the device record ** *******************************************************************************/ void gatt_deregister_bgdev_list(tGATT_IF gatt_if) { tGATT_BG_CONN_DEV *p_dev_list = &gatt_cb.bgconn_dev[0]; UINT8 i , j, k; tGATT_REG *p_reg = gatt_get_regcb(gatt_if); /* update the BG conn device list */ for (i = 0 ; i < GATT_MAX_BG_CONN_DEV; i ++, p_dev_list ++ ) { if (p_dev_list->in_use) { for (j = 0; j < GATT_MAX_APPS; j ++) { if (p_dev_list->gatt_if[j] == 0 && p_dev_list->listen_gif[j] == 0) { break; } if (p_dev_list->gatt_if[j] == gatt_if) { for (k = j + 1; k < GATT_MAX_APPS; k ++) { p_dev_list->gatt_if[k - 1] = p_dev_list->gatt_if[k]; } if (p_dev_list->gatt_if[0] == 0) { BTM_BleUpdateBgConnDev(FALSE, p_dev_list->remote_bda); } } if (p_dev_list->listen_gif[j] == gatt_if) { p_dev_list->listen_gif[j] = 0; if (p_reg != NULL && p_reg->listening > 0) { p_reg->listening --; } /* move all element behind one forward */ for (k = j + 1; k < GATT_MAX_APPS; k ++) { p_dev_list->listen_gif[k - 1] = p_dev_list->listen_gif[k]; } if (p_dev_list->listen_gif[0] == 0) { // To check, we do not support background connection, code will not be called here BTM_BleUpdateAdvWhitelist(FALSE, p_dev_list->remote_bda, 0, NULL); } } } } } } /******************************************************************************* ** ** Function gatt_reset_bgdev_list ** ** Description reset bg device list ** ** Returns pointer to the device record ** *******************************************************************************/ void gatt_reset_bgdev_list(void) { memset(&gatt_cb.bgconn_dev, 0 , sizeof(tGATT_BG_CONN_DEV)*GATT_MAX_BG_CONN_DEV); } /******************************************************************************* ** ** Function gatt_update_auto_connect_dev ** ** Description This function add or remove a device for background connection ** procedure. ** ** Parameters gatt_if: Application ID. ** add: add peer device ** bd_addr: peer device address. ** ** Returns TRUE if connection started; FALSE if connection start failure. ** *******************************************************************************/ BOOLEAN gatt_update_auto_connect_dev (tGATT_IF gatt_if, BOOLEAN add, BD_ADDR bd_addr, BOOLEAN is_initator) { BOOLEAN ret = FALSE; tGATT_REG *p_reg; tGATT_TCB *p_tcb = gatt_find_tcb_by_addr(bd_addr, BT_TRANSPORT_LE); GATT_TRACE_API ("gatt_update_auto_connect_dev "); /* Make sure app is registered */ if ((p_reg = gatt_get_regcb(gatt_if)) == NULL) { GATT_TRACE_ERROR("gatt_update_auto_connect_dev - gatt_if %d is not registered", gatt_if); return (FALSE); } if (add) { ret = gatt_add_bg_dev_list(p_reg, bd_addr, is_initator); if (ret && p_tcb != NULL) { /* if a connected device, update the link holding number */ gatt_update_app_use_link_flag(gatt_if, p_tcb, TRUE, TRUE); } } else { ret = gatt_remove_bg_dev_from_list(p_reg, bd_addr, is_initator); } return ret; } /******************************************************************************* ** ** Function gatt_add_pending_new_srv_start ** ** Description Add a pending new srv start to the new service start queue ** ** Returns Pointer to the new service start buffer, NULL no buffer available ** *******************************************************************************/ tGATT_PENDING_ENC_CLCB *gatt_add_pending_enc_channel_clcb(tGATT_TCB *p_tcb, tGATT_CLCB *p_clcb ) { tGATT_PENDING_ENC_CLCB *p_buf; GATT_TRACE_DEBUG ("gatt_add_pending_new_srv_start"); if ((p_buf = (tGATT_PENDING_ENC_CLCB *)osi_malloc((UINT16)sizeof(tGATT_PENDING_ENC_CLCB))) != NULL) { GATT_TRACE_DEBUG ("enqueue a new pending encryption channel clcb"); p_buf->p_clcb = p_clcb; fixed_queue_enqueue(p_tcb->pending_enc_clcb, p_buf, FIXED_QUEUE_MAX_TIMEOUT); } return p_buf; } /******************************************************************************* ** ** Function gatt_update_listen_mode ** ** Description update peripheral role listening mode ** ** Returns Pointer to the new service start buffer, NULL no buffer available ** *******************************************************************************/ BOOLEAN gatt_update_listen_mode(void) { UINT8 ii = 0; tGATT_REG *p_reg = &gatt_cb.cl_rcb[0]; UINT8 listening = 0; UINT16 connectability, window, interval; BOOLEAN rt = TRUE; for (; ii < GATT_MAX_APPS; ii ++, p_reg ++) { if ( p_reg->in_use && p_reg->listening > listening) { listening = p_reg->listening; } } if (listening == GATT_LISTEN_TO_ALL || listening == GATT_LISTEN_TO_NONE) { BTM_BleUpdateAdvFilterPolicy (AP_SCAN_CONN_ALL); } else { BTM_BleUpdateAdvFilterPolicy (AP_SCAN_CONN_WL); } if (rt) { connectability = BTM_ReadConnectability (&window, &interval); if (listening != GATT_LISTEN_TO_NONE) { connectability |= BTM_BLE_CONNECTABLE; } else { if ((connectability & BTM_BLE_CONNECTABLE) == 0) { connectability &= ~BTM_BLE_CONNECTABLE; } } /* turning on the adv now */ btm_ble_set_connectability(connectability); } return rt; } #endif