/******************************************************************************
*
* Copyright 2009-2014 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.
*
******************************************************************************/
/*******************************************************************************
*
* Filename: btif_gatt_client.c
*
* Description: GATT client implementation
*
******************************************************************************/
#define LOG_TAG "bt_btif_gattc"
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "bta/include/bta_api.h"
#include "bta/include/bta_gatt_api.h"
#include "bta/include/bta_sec_api.h"
#include "btif/include/btif_common.h"
#include "btif/include/btif_config.h"
#include "btif/include/btif_dm.h"
#include "btif/include/btif_gatt.h"
#include "btif/include/btif_gatt_util.h"
#include "hci/controller_interface.h"
#include "internal_include/bte_appl.h"
#include "main/shim/entry.h"
#include "osi/include/allocator.h"
#include "stack/include/acl_api.h"
#include "stack/include/acl_api_types.h"
#include "stack/include/btm_ble_sec_api.h"
#include "stack/include/btm_client_interface.h"
#include "stack/include/gatt_api.h"
#include "stack/include/main_thread.h"
#include "storage/config_keys.h"
#include "types/ble_address_with_type.h"
#include "types/bluetooth/uuid.h"
#include "types/bt_transport.h"
#include "types/raw_address.h"
using base::Bind;
using base::Owned;
using bluetooth::Uuid;
using namespace bluetooth;
using std::vector;
static bt_status_t btif_gattc_test_command_impl(int command, const btgatt_test_params_t* params);
extern const btgatt_callbacks_t* bt_gatt_callbacks;
typedef struct {
tGATT_IF gatt_if;
tCONN_ID conn_id;
} btif_test_cb_t;
static const char* disc_name[GATT_DISC_MAX] = {
"Unknown", "GATT_DISC_SRVC_ALL", "GATT_DISC_SRVC_BY_UUID", "GATT_DISC_INC_SRVC",
"GATT_DISC_CHAR", "GATT_DISC_CHAR_DSCPT"};
static btif_test_cb_t test_cb;
/*******************************************************************************
* Constants & Macros
******************************************************************************/
#define CLI_CBACK_WRAP_IN_JNI(P_CBACK, P_CBACK_WRAP) \
do { \
auto callbacks = bt_gatt_callbacks; \
if (callbacks && callbacks->client->P_CBACK) { \
log::verbose("HAL bt_gatt_callbacks->client->{}", #P_CBACK); \
do_in_jni_thread(P_CBACK_WRAP); \
} else { \
ASSERTC(0, "Callback is NULL", 0); \
} \
} while (0)
#define CLI_CBACK_IN_JNI(P_CBACK, ...) \
do { \
auto callbacks = bt_gatt_callbacks; \
if (callbacks && callbacks->client->P_CBACK) { \
log::verbose("HAL bt_gatt_callbacks->client->{}", #P_CBACK); \
do_in_jni_thread(Bind(callbacks->client->P_CBACK, __VA_ARGS__)); \
} else { \
ASSERTC(0, "Callback is NULL", 0); \
} \
} while (0)
#define CHECK_BTGATT_INIT() \
do { \
if (bt_gatt_callbacks == NULL) { \
log::warn("BTGATT not initialized"); \
return BT_STATUS_NOT_READY; \
} else { \
log::debug(""); \
} \
} while (0)
namespace {
tBT_TRANSPORT to_bt_transport(int val) {
switch (val) {
case 0:
return BT_TRANSPORT_AUTO;
case 1:
return BT_TRANSPORT_BR_EDR;
case 2:
return BT_TRANSPORT_LE;
default:
break;
}
log::warn("Passed unexpected transport value:{}", val);
return BT_TRANSPORT_AUTO;
}
uint8_t rssi_request_client_if;
static void btif_gattc_upstreams_evt(uint16_t event, char* p_param) {
log::debug("Event {} [{}]", gatt_client_event_text(static_cast(event)), event);
auto callbacks = bt_gatt_callbacks;
tBTA_GATTC* p_data = (tBTA_GATTC*)p_param;
switch (event) {
case BTA_GATTC_EXEC_EVT: {
HAL_CBACK(callbacks, client->execute_write_cb, static_cast(p_data->exec_cmpl.conn_id),
p_data->exec_cmpl.status);
break;
}
case BTA_GATTC_SEARCH_CMPL_EVT: {
HAL_CBACK(callbacks, client->search_complete_cb,
static_cast(p_data->search_cmpl.conn_id), p_data->search_cmpl.status);
break;
}
case BTA_GATTC_NOTIF_EVT: {
btgatt_notify_params_t data;
data.bda = p_data->notify.bda;
memcpy(data.value, p_data->notify.value, p_data->notify.len);
data.handle = p_data->notify.handle;
data.is_notify = p_data->notify.is_notify;
data.len = p_data->notify.len;
HAL_CBACK(callbacks, client->notify_cb, static_cast(p_data->notify.conn_id), data);
if (!p_data->notify.is_notify) {
BTA_GATTC_SendIndConfirm(p_data->notify.conn_id, p_data->notify.cid);
}
break;
}
case BTA_GATTC_OPEN_EVT: {
log::debug("BTA_GATTC_OPEN_EVT {}", p_data->open.remote_bda);
HAL_CBACK(callbacks, client->open_cb, static_cast(p_data->open.conn_id),
p_data->open.status, p_data->open.client_if, p_data->open.remote_bda);
if (GATT_DEF_BLE_MTU_SIZE != p_data->open.mtu && p_data->open.mtu) {
HAL_CBACK(callbacks, client->configure_mtu_cb, static_cast(p_data->open.conn_id),
p_data->open.status, p_data->open.mtu);
}
if (p_data->open.status == GATT_SUCCESS) {
btif_gatt_check_encrypted_link(p_data->open.remote_bda, p_data->open.transport);
}
break;
}
case BTA_GATTC_CLOSE_EVT: {
log::debug("BTA_GATTC_CLOSE_EVT {}", p_data->close.remote_bda);
HAL_CBACK(callbacks, client->close_cb, static_cast(p_data->close.conn_id),
p_data->close.status, p_data->close.client_if, p_data->close.remote_bda);
break;
}
case BTA_GATTC_DEREG_EVT:
case BTA_GATTC_SEARCH_RES_EVT:
case BTA_GATTC_CANCEL_OPEN_EVT:
case BTA_GATTC_SRVC_DISC_DONE_EVT:
log::debug("Ignoring event ({})", event);
break;
case BTA_GATTC_CFG_MTU_EVT: {
HAL_CBACK(callbacks, client->configure_mtu_cb, static_cast(p_data->cfg_mtu.conn_id),
p_data->cfg_mtu.status, p_data->cfg_mtu.mtu);
break;
}
case BTA_GATTC_CONGEST_EVT:
HAL_CBACK(callbacks, client->congestion_cb, static_cast(p_data->congest.conn_id),
p_data->congest.congested);
break;
case BTA_GATTC_PHY_UPDATE_EVT:
HAL_CBACK(callbacks, client->phy_updated_cb, static_cast(p_data->phy_update.conn_id),
p_data->phy_update.tx_phy, p_data->phy_update.rx_phy, p_data->phy_update.status);
break;
case BTA_GATTC_CONN_UPDATE_EVT:
HAL_CBACK(callbacks, client->conn_updated_cb, static_cast(p_data->conn_update.conn_id),
p_data->conn_update.interval, p_data->conn_update.latency,
p_data->conn_update.timeout, p_data->conn_update.status);
break;
case BTA_GATTC_SRVC_CHG_EVT:
HAL_CBACK(callbacks, client->service_changed_cb,
static_cast(p_data->service_changed.conn_id));
break;
case BTA_GATTC_SUBRATE_CHG_EVT:
HAL_CBACK(callbacks, client->subrate_chg_cb, static_cast(p_data->subrate_chg.conn_id),
p_data->subrate_chg.subrate_factor, p_data->subrate_chg.latency,
p_data->subrate_chg.cont_num, p_data->subrate_chg.timeout,
p_data->subrate_chg.status);
break;
default:
log::error("Unhandled event ({})!", event);
break;
}
}
static void bta_gattc_cback(tBTA_GATTC_EVT event, tBTA_GATTC* p_data) {
log::debug("gatt client callback event:{} [{}]", gatt_client_event_text(event), event);
bt_status_t status = btif_transfer_context(btif_gattc_upstreams_evt, (uint16_t)event,
(char*)p_data, sizeof(tBTA_GATTC), NULL);
ASSERTC(status == BT_STATUS_SUCCESS, "Context transfer failed!", status);
}
void btm_read_rssi_cb(void* p_void) {
tBTM_RSSI_RESULT* p_result = (tBTM_RSSI_RESULT*)p_void;
if (!p_result) {
return;
}
CLI_CBACK_IN_JNI(read_remote_rssi_cb, rssi_request_client_if, p_result->rem_bda, p_result->rssi,
static_cast(p_result->status));
}
/*******************************************************************************
* Client API Functions
******************************************************************************/
static bt_status_t btif_gattc_register_app(const Uuid& uuid, bool eatt_support) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(
[](const Uuid& uuid, bool eatt_support) {
BTA_GATTC_AppRegister(
bta_gattc_cback,
base::Bind(
[](const Uuid& uuid, uint8_t client_id, uint8_t status) {
do_in_jni_thread(Bind(
[](const Uuid& uuid, uint8_t client_id, uint8_t status) {
auto callbacks = bt_gatt_callbacks;
HAL_CBACK(callbacks, client->register_client_cb, status,
client_id, uuid);
},
uuid, client_id, status));
},
uuid),
eatt_support);
},
uuid, eatt_support));
}
static void btif_gattc_unregister_app_impl(int client_if) { BTA_GATTC_AppDeregister(client_if); }
static bt_status_t btif_gattc_unregister_app(int client_if) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&btif_gattc_unregister_app_impl, client_if));
}
void btif_gattc_open_impl(int client_if, RawAddress address, tBLE_ADDR_TYPE addr_type,
bool is_direct, tBT_TRANSPORT transport, bool opportunistic,
int initiating_phys, int preferred_mtu) {
int device_type = BT_DEVICE_TYPE_UNKNOWN;
if (addr_type == BLE_ADDR_RANDOM) {
device_type = BT_DEVICE_TYPE_BLE;
BTA_DmAddBleDevice(address, addr_type, device_type);
} else {
// Ensure device is in inquiry database
addr_type = BLE_ADDR_PUBLIC;
if (btif_get_address_type(address, &addr_type) && btif_get_device_type(address, &device_type) &&
device_type != BT_DEVICE_TYPE_BREDR) {
BTA_DmAddBleDevice(address, addr_type, device_type);
}
}
// Check for background connections
if (!is_direct) {
// Check for privacy 1.0 and 1.1 controller and do not start background
// connection if RPA offloading is not supported, since it will not
// connect after change of random address
if (!bluetooth::shim::GetController()->SupportsBlePrivacy() && (addr_type == BLE_ADDR_RANDOM) &&
BTM_BLE_IS_RESOLVE_BDA(address)) {
tBTM_BLE_VSC_CB vnd_capabilities;
BTM_BleGetVendorCapabilities(&vnd_capabilities);
if (!vnd_capabilities.rpa_offloading) {
auto callbacks = bt_gatt_callbacks;
HAL_CBACK(callbacks, client->open_cb, 0, BT_STATUS_UNSUPPORTED, client_if, address);
return;
}
}
}
// Determine transport
if (transport == BT_TRANSPORT_AUTO) {
if (com::android::bluetooth::flags::default_gatt_transport()) {
// Prefer LE transport when LE is supported
transport = (device_type == BT_DEVICE_TYPE_BREDR) ? BT_TRANSPORT_BR_EDR : BT_TRANSPORT_LE;
} else {
switch (device_type) {
case BT_DEVICE_TYPE_BREDR:
transport = BT_TRANSPORT_BR_EDR;
break;
case BT_DEVICE_TYPE_BLE:
transport = BT_TRANSPORT_LE;
break;
case BT_DEVICE_TYPE_DUMO:
transport = (addr_type == BLE_ADDR_RANDOM) ? BT_TRANSPORT_LE : BT_TRANSPORT_BR_EDR;
break;
default:
log::error("Unknown device type {}", DeviceTypeText(device_type));
// transport must not be AUTO for finding control blocks. Use LE for backward
// compatibility.
transport = BT_TRANSPORT_LE;
break;
}
}
}
// Connect!
log::info("Transport={}, device type={}, address={}, address type={}, phy={}",
bt_transport_text(transport), DeviceTypeText(device_type),
address, addr_type, initiating_phys);
tBTM_BLE_CONN_TYPE type = is_direct ? BTM_BLE_DIRECT_CONNECTION : BTM_BLE_BKG_CONNECT_ALLOW_LIST;
BTA_GATTC_Open(client_if, address, addr_type, type, transport, opportunistic, initiating_phys,
preferred_mtu);
}
static bt_status_t btif_gattc_open(int client_if, const RawAddress& bd_addr, uint8_t addr_type,
bool is_direct, int transport, bool opportunistic,
int initiating_phys, int preferred_mtu) {
CHECK_BTGATT_INIT();
// Closure will own this value and free it.
return do_in_jni_thread(Bind(&btif_gattc_open_impl, client_if, bd_addr, addr_type, is_direct,
to_bt_transport(transport), opportunistic, initiating_phys,
preferred_mtu));
}
void btif_gattc_close_impl(int client_if, RawAddress address, int conn_id) {
log::info("client_if={}, conn_id={}, address={}", client_if, conn_id, address);
// Disconnect established connections
if (conn_id != 0) {
BTA_GATTC_Close(static_cast(conn_id));
} else {
BTA_GATTC_CancelOpen(client_if, address, true);
}
// Cancel pending background connections (remove from acceptlist)
BTA_GATTC_CancelOpen(client_if, address, false);
}
static bt_status_t btif_gattc_close(int client_if, const RawAddress& bd_addr, int conn_id) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&btif_gattc_close_impl, client_if, bd_addr, conn_id));
}
static bt_status_t btif_gattc_refresh(int /* client_if */, const RawAddress& bd_addr) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&BTA_GATTC_Refresh, bd_addr));
}
static bt_status_t btif_gattc_search_service(int conn_id, const Uuid* filter_uuid) {
CHECK_BTGATT_INIT();
if (filter_uuid) {
return do_in_jni_thread(
Bind(&BTA_GATTC_ServiceSearchRequest, static_cast(conn_id), *filter_uuid));
} else {
return do_in_jni_thread(
Bind(&BTA_GATTC_ServiceSearchAllRequest, static_cast(conn_id)));
}
}
static void btif_gattc_discover_service_by_uuid(int conn_id, const Uuid& uuid) {
do_in_jni_thread(Bind(&BTA_GATTC_DiscoverServiceByUuid, static_cast(conn_id), uuid));
}
void btif_gattc_get_gatt_db_impl(int conn_id) {
btgatt_db_element_t* db = NULL;
int count = 0;
BTA_GATTC_GetGattDb(static_cast(conn_id), 0x0000, 0xFFFF, &db, &count);
auto callbacks = bt_gatt_callbacks;
HAL_CBACK(callbacks, client->get_gatt_db_cb, conn_id, db, count);
osi_free(db);
}
static bt_status_t btif_gattc_get_gatt_db(int conn_id) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&btif_gattc_get_gatt_db_impl, conn_id));
}
void read_char_cb(uint16_t conn_id, tGATT_STATUS status, uint16_t handle, uint16_t len,
uint8_t* value, void* /* data */) {
btgatt_read_params_t params = {
.handle = handle,
.value.len = len,
.value_type = 0x00, /* GATTC_READ_VALUE_TYPE_VALUE */
.status = status,
};
log::assert_that(len <= GATT_MAX_ATTR_LEN, "assert failed: len <= GATT_MAX_ATTR_LEN");
if (len > 0) {
memcpy(params.value.value, value, len);
}
CLI_CBACK_IN_JNI(read_characteristic_cb, conn_id, status, params);
}
static bt_status_t btif_gattc_read_char(int conn_id, uint16_t handle, int auth_req) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&BTA_GATTC_ReadCharacteristic, static_cast(conn_id),
handle, auth_req, read_char_cb, nullptr));
}
void read_using_char_uuid_cb(tCONN_ID conn_id, tGATT_STATUS status, uint16_t handle, uint16_t len,
uint8_t* value, void* /* data */) {
btgatt_read_params_t params = {
.handle = handle,
.value.len = len,
.value_type = 0x00, /* GATTC_READ_VALUE_TYPE_VALUE */
.status = status,
};
log::assert_that(len <= GATT_MAX_ATTR_LEN, "assert failed: len <= GATT_MAX_ATTR_LEN");
if (len > 0) {
memcpy(params.value.value, value, len);
}
CLI_CBACK_IN_JNI(read_characteristic_cb, static_cast(conn_id), status, params);
}
static bt_status_t btif_gattc_read_using_char_uuid(int conn_id, const Uuid& uuid, uint16_t s_handle,
uint16_t e_handle, int auth_req) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&BTA_GATTC_ReadUsingCharUuid, static_cast(conn_id), uuid,
s_handle, e_handle, auth_req, read_using_char_uuid_cb, nullptr));
}
void read_desc_cb(tCONN_ID conn_id, tGATT_STATUS status, uint16_t handle, uint16_t len,
uint8_t* value, void* /* data */) {
btgatt_read_params_t params;
params.value_type = 0x00 /* GATTC_READ_VALUE_TYPE_VALUE */;
params.status = status;
params.handle = handle;
params.value.len = len;
log::assert_that(len <= GATT_MAX_ATTR_LEN, "assert failed: len <= GATT_MAX_ATTR_LEN");
if (len > 0) {
memcpy(params.value.value, value, len);
}
CLI_CBACK_IN_JNI(read_descriptor_cb, static_cast(conn_id), status, params);
}
static bt_status_t btif_gattc_read_char_descr(int conn_id, uint16_t handle, int auth_req) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(&BTA_GATTC_ReadCharDescr, static_cast(conn_id), handle,
auth_req, read_desc_cb, nullptr));
}
void write_char_cb(tCONN_ID conn_id, tGATT_STATUS status, uint16_t handle, uint16_t len,
const uint8_t* value, void* /* data */) {
std::vector val(value, value + len);
CLI_CBACK_WRAP_IN_JNI(
write_characteristic_cb,
base::BindOnce(
[](write_characteristic_callback cb, tCONN_ID conn_id, tGATT_STATUS status,
uint16_t handle, std::vector moved_value) {
cb(static_cast(conn_id), status, handle, moved_value.size(),
moved_value.data());
},
bt_gatt_callbacks->client->write_characteristic_cb, conn_id, status, handle,
std::move(val)));
}
static bt_status_t btif_gattc_write_char(int conn_id, uint16_t handle, int write_type, int auth_req,
const uint8_t* val, size_t len) {
CHECK_BTGATT_INIT();
std::vector value(val, val + len);
if (value.size() > GATT_MAX_ATTR_LEN) {
value.resize(GATT_MAX_ATTR_LEN);
}
return do_in_jni_thread(Bind(&BTA_GATTC_WriteCharValue, static_cast(conn_id), handle,
write_type, std::move(value), auth_req, write_char_cb, nullptr));
}
void write_descr_cb(uint16_t conn_id, tGATT_STATUS status, uint16_t handle, uint16_t len,
const uint8_t* value, void* /* data */) {
std::vector val(value, value + len);
CLI_CBACK_WRAP_IN_JNI(
write_descriptor_cb,
base::BindOnce(
[](write_descriptor_callback cb, uint16_t conn_id, tGATT_STATUS status,
uint16_t handle, std::vector moved_value) {
cb(conn_id, status, handle, moved_value.size(), moved_value.data());
},
bt_gatt_callbacks->client->write_descriptor_cb, conn_id, status, handle,
std::move(val)));
}
static bt_status_t btif_gattc_write_char_descr(int conn_id, uint16_t handle, int auth_req,
const uint8_t* val, size_t len) {
CHECK_BTGATT_INIT();
std::vector value(val, val + len);
if (value.size() > GATT_MAX_ATTR_LEN) {
value.resize(GATT_MAX_ATTR_LEN);
}
return do_in_jni_thread(Bind(&BTA_GATTC_WriteCharDescr, static_cast(conn_id), handle,
std::move(value), auth_req, write_descr_cb, nullptr));
}
static bt_status_t btif_gattc_execute_write(int conn_id, int execute) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(
Bind(&BTA_GATTC_ExecuteWrite, static_cast(conn_id), (uint8_t)execute));
}
static void btif_gattc_reg_for_notification_impl(tGATT_IF client_if, const RawAddress& bda,
uint16_t handle) {
tGATT_STATUS status = BTA_GATTC_RegisterForNotifications(client_if, bda, handle);
// TODO(jpawlowski): conn_id is currently unused
auto callbacks = bt_gatt_callbacks;
HAL_CBACK(callbacks, client->register_for_notification_cb,
/* conn_id */ 0, 1, status, handle);
}
bt_status_t btif_gattc_reg_for_notification(int client_if, const RawAddress& bd_addr,
uint16_t handle) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(base::IgnoreResult(&btif_gattc_reg_for_notification_impl), client_if,
bd_addr, handle));
}
static void btif_gattc_dereg_for_notification_impl(tGATT_IF client_if, const RawAddress& bda,
uint16_t handle) {
tGATT_STATUS status = BTA_GATTC_DeregisterForNotifications(client_if, bda, handle);
// TODO(jpawlowski): conn_id is currently unused
auto callbacks = bt_gatt_callbacks;
HAL_CBACK(callbacks, client->register_for_notification_cb,
/* conn_id */ 0, 0, status, handle);
}
bt_status_t btif_gattc_dereg_for_notification(int client_if, const RawAddress& bd_addr,
uint16_t handle) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(base::IgnoreResult(&btif_gattc_dereg_for_notification_impl),
client_if, bd_addr, handle));
}
static bt_status_t btif_gattc_read_remote_rssi(int client_if, const RawAddress& bd_addr) {
CHECK_BTGATT_INIT();
rssi_request_client_if = client_if;
return do_in_jni_thread(base::Bind(
[](int client_if, const RawAddress& bd_addr) {
if (get_btm_client_interface().link_controller.BTM_ReadRSSI(
bd_addr, btm_read_rssi_cb) != tBTM_STATUS::BTM_CMD_STARTED) {
log::warn("Unable to read RSSI peer:{} client_if:{}", bd_addr, client_if);
}
},
client_if, bd_addr));
}
static bt_status_t btif_gattc_configure_mtu(int conn_id, int mtu) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(
base::IgnoreResult(static_cast(&BTA_GATTC_ConfigureMTU)),
static_cast(conn_id), mtu));
}
static void btif_gattc_conn_parameter_update_impl(RawAddress addr, int min_interval,
int max_interval, int latency, int timeout,
uint16_t min_ce_len, uint16_t max_ce_len) {
if (BTA_DmGetConnectionState(addr)) {
BTA_DmBleUpdateConnectionParams(addr, min_interval, max_interval, latency, timeout, min_ce_len,
max_ce_len);
} else {
BTA_DmSetBlePrefConnParams(addr, min_interval, max_interval, latency, timeout);
}
}
bt_status_t btif_gattc_conn_parameter_update(const RawAddress& bd_addr, int min_interval,
int max_interval, int latency, int timeout,
uint16_t min_ce_len, uint16_t max_ce_len) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(base::IgnoreResult(&btif_gattc_conn_parameter_update_impl), bd_addr,
min_interval, max_interval, latency, timeout, min_ce_len,
max_ce_len));
}
static bt_status_t btif_gattc_set_preferred_phy(const RawAddress& bd_addr, uint8_t tx_phy,
uint8_t rx_phy, uint16_t phy_options) {
CHECK_BTGATT_INIT();
do_in_main_thread(Bind(
[](const RawAddress& bd_addr, uint8_t tx_phy, uint8_t rx_phy, uint16_t phy_options) {
get_btm_client_interface().ble.BTM_BleSetPhy(bd_addr, tx_phy, rx_phy, phy_options);
},
bd_addr, tx_phy, rx_phy, phy_options));
return BT_STATUS_SUCCESS;
}
static bt_status_t btif_gattc_read_phy(
const RawAddress& bd_addr,
base::Callback cb) {
CHECK_BTGATT_INIT();
do_in_main_thread(Bind(&BTM_BleReadPhy, bd_addr, jni_thread_wrapper(cb)));
return BT_STATUS_SUCCESS;
}
static int btif_gattc_get_device_type(const RawAddress& bd_addr) {
int device_type = 0;
if (btif_config_get_int(bd_addr.ToString().c_str(), BTIF_STORAGE_KEY_DEV_TYPE, &device_type)) {
return device_type;
}
return 0;
}
static bt_status_t btif_gattc_test_command(int command, const btgatt_test_params_t& params) {
return btif_gattc_test_command_impl(command, ¶ms);
}
static void btif_gattc_subrate_request_impl(RawAddress addr, int subrate_min, int subrate_max,
int max_latency, int cont_num, int sup_timeout) {
if (BTA_DmGetConnectionState(addr)) {
BTA_DmBleSubrateRequest(addr, subrate_min, subrate_max, max_latency, cont_num, sup_timeout);
}
}
static bt_status_t btif_gattc_subrate_request(const RawAddress& bd_addr, int subrate_min,
int subrate_max, int max_latency, int cont_num,
int sup_timeout) {
CHECK_BTGATT_INIT();
return do_in_jni_thread(Bind(base::IgnoreResult(&btif_gattc_subrate_request_impl), bd_addr,
subrate_min, subrate_max, max_latency, cont_num, sup_timeout));
}
static void btif_test_connect_cback(tGATT_IF, const RawAddress&, tCONN_ID conn_id, bool connected,
tGATT_DISCONN_REASON, tBT_TRANSPORT) {
log::info("conn_id={}, connected={}", conn_id, connected);
test_cb.conn_id = connected ? conn_id : 0;
}
static void btif_test_command_complete_cback(tCONN_ID conn_id, tGATTC_OPTYPE op,
tGATT_STATUS status, tGATT_CL_COMPLETE* p_data) {
log::info("op_code=0x{:02x}, conn_id=0x{:x}. status=0x{:x}", op, conn_id, status);
switch (op) {
case GATTC_OPTYPE_READ:
case GATTC_OPTYPE_WRITE:
case GATTC_OPTYPE_CONFIG:
case GATTC_OPTYPE_EXE_WRITE:
case GATTC_OPTYPE_NOTIFICATION:
break;
case GATTC_OPTYPE_INDICATION:
if (GATTC_SendHandleValueConfirm(conn_id, p_data->cid) != GATT_SUCCESS) {
log::error(
"Unable to send handle value confirmation conn_id:0x{:x} "
"cid:0x{:04x}",
conn_id, p_data->cid);
}
break;
default:
log::info("Unknown op_code (0x{:02x})", op);
break;
}
}
static void btif_test_discovery_result_cback(tCONN_ID /* conn_id */, tGATT_DISC_TYPE disc_type,
tGATT_DISC_RES* p_data) {
log::info("------ GATT Discovery result {:<22s} -------", disc_name[disc_type]);
log::info("Attribute handle: 0x{:04x} ({})", p_data->handle, p_data->handle);
if (disc_type != GATT_DISC_CHAR_DSCPT) {
log::info("Attribute type: {}", p_data->type.ToString());
}
switch (disc_type) {
case GATT_DISC_SRVC_ALL:
log::info("Handle range: 0x{:04x} ~ 0x{:04x} ({} ~ {})", p_data->handle,
p_data->value.group_value.e_handle, p_data->handle,
p_data->value.group_value.e_handle);
log::info("Service UUID: {}", p_data->value.group_value.service_type.ToString());
break;
case GATT_DISC_SRVC_BY_UUID:
log::info("Handle range: 0x{:04x} ~ 0x{:04x} ({} ~ {})", p_data->handle, p_data->value.handle,
p_data->handle, p_data->value.handle);
break;
case GATT_DISC_INC_SRVC:
log::info("Handle range: 0x{:04x} ~ 0x{:04x} ({} ~ {})", p_data->value.incl_service.s_handle,
p_data->value.incl_service.e_handle, p_data->value.incl_service.s_handle,
p_data->value.incl_service.e_handle);
log::info("Service UUID: {}", p_data->value.incl_service.service_type.ToString());
break;
case GATT_DISC_CHAR:
log::info("Properties: 0x{:02x}", p_data->value.dclr_value.char_prop);
log::info("Characteristic UUID: {}", p_data->value.dclr_value.char_uuid.ToString());
break;
case GATT_DISC_CHAR_DSCPT:
log::info("Descriptor UUID: {}", p_data->type.ToString());
break;
case GATT_DISC_MAX:
log::error("Unknown discovery item");
break;
}
log::info("-----------------------------------------------------------");
}
static void btif_test_discovery_complete_cback(tCONN_ID /* conn_id */,
tGATT_DISC_TYPE /* disc_type */,
tGATT_STATUS status) {
log::info("status={}", status);
}
static tGATT_CBACK btif_test_callbacks = {
btif_test_connect_cback,
btif_test_command_complete_cback,
btif_test_discovery_result_cback,
btif_test_discovery_complete_cback,
NULL,
NULL,
NULL,
NULL,
NULL,
NULL,
};
} // namespace
static bt_status_t btif_gattc_test_command_impl(int command, const btgatt_test_params_t* params) {
switch (command) {
case 0x01: /* Enable */
{
log::info("ENABLE - enable={}", params->u1);
if (params->u1) {
std::array tmp;
tmp.fill(0xAE);
test_cb.gatt_if = GATT_Register(bluetooth::Uuid::From128BitBE(tmp), std::string("GattTest"),
&btif_test_callbacks, false);
GATT_StartIf(test_cb.gatt_if);
} else {
GATT_Deregister(test_cb.gatt_if);
test_cb.gatt_if = 0;
}
break;
}
case 0x02: /* Connect */
{
log::info("CONNECT - device={} (dev_type={}, addr_type={})", *params->bda1, params->u1,
params->u2);
if (params->u1 == BT_DEVICE_TYPE_BLE) {
BTM_SecAddBleDevice(*params->bda1, BT_DEVICE_TYPE_BLE,
static_cast(params->u2));
}
if (!GATT_Connect(test_cb.gatt_if, *params->bda1, BTM_BLE_DIRECT_CONNECTION, BT_TRANSPORT_LE,
false)) {
log::error("GATT_Connect failed!");
}
break;
}
case 0x03: /* Disconnect */
{
log::info("DISCONNECT - conn_id={}", test_cb.conn_id);
if (GATT_Disconnect(test_cb.conn_id) != GATT_SUCCESS) {
log::error("Unable to disconnect");
}
break;
}
case 0x04: /* Discover */
{
if (params->u1 >= GATT_DISC_MAX) {
log::error("DISCOVER - Invalid type ({})!", params->u1);
return (bt_status_t)0;
}
log::info("DISCOVER ({}), conn_id={}, uuid={}, handles=0x{:04x}-0x{:04x}",
disc_name[params->u1], test_cb.conn_id, params->uuid1->ToString(), params->u2,
params->u3);
if (GATTC_Discover(test_cb.conn_id, static_cast(params->u1), params->u2,
params->u3, *params->uuid1) != GATT_SUCCESS) {
log::error("Unable to discover");
}
break;
}
case 0xF0: /* Pairing configuration */
log::info("Setting pairing config auth={}, iocaps={}, keys={}/{}/{}", params->u1, params->u2,
params->u3, params->u4, params->u5);
bte_appl_cfg.ble_auth_req = params->u1;
bte_appl_cfg.ble_io_cap = params->u2;
bte_appl_cfg.ble_init_key = params->u3;
bte_appl_cfg.ble_resp_key = params->u4;
bte_appl_cfg.ble_max_key_size = params->u5;
break;
default:
log::error("UNKNOWN TEST COMMAND 0x{:02x}", command);
break;
}
return (bt_status_t)0;
}
const btgatt_client_interface_t btgattClientInterface = {
btif_gattc_register_app,
btif_gattc_unregister_app,
btif_gattc_open,
btif_gattc_close,
btif_gattc_refresh,
btif_gattc_search_service,
btif_gattc_discover_service_by_uuid,
btif_gattc_read_char,
btif_gattc_read_using_char_uuid,
btif_gattc_write_char,
btif_gattc_read_char_descr,
btif_gattc_write_char_descr,
btif_gattc_execute_write,
btif_gattc_reg_for_notification,
btif_gattc_dereg_for_notification,
btif_gattc_read_remote_rssi,
btif_gattc_get_device_type,
btif_gattc_configure_mtu,
btif_gattc_conn_parameter_update,
btif_gattc_set_preferred_phy,
btif_gattc_read_phy,
btif_gattc_test_command,
btif_gattc_get_gatt_db,
btif_gattc_subrate_request,
};