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pigweed / third_party / github / project-chip / connectedhomeip / ae9d1b239b18ccf879d69485970bfb085a542a25 / . / src / platform / Infineon / CYW30739 / BLEManagerImpl.cpp
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/*
*
* Copyright (c) 2020-2022 Project CHIP Authors
* Copyright (c) 2020 Nest Labs, Inc.
* All rights reserved.
*
* 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.
*/
/**
* @file
* Provides an implementation of the BLEManager singleton object
* for the CYW30739 platform.
*/
/* this file behaves like a config.h, comes first */
#include <platform/internal/CHIPDeviceLayerInternal.h>
#if CHIP_DEVICE_CONFIG_ENABLE_CHIPOBLE
#include <ble/CHIPBleServiceData.h>
#include <lib/support/CodeUtils.h>
#include <lib/support/logging/CHIPLogging.h>
#include <platform/internal/BLEManager.h>
#include "cycfg_gatt_db.h"
#include "wiced_bt_stack.h"
#include <wiced_bt_ble.h>
#include <wiced_bt_gatt.h>
#ifdef BLE_OTA_FW_UPGRADE
#include <wiced_bt_ota_firmware_upgrade.h>
#endif
#include "wiced_platform_bt_cfg.h"
using namespace ::chip;
using namespace ::chip::Ble;
namespace chip {
namespace DeviceLayer {
namespace Internal {
namespace {
const ChipBleUUID chipUUID_CHIPoBLEChar_RX = { { 0x18, 0xEE, 0x2E, 0xF5, 0x26, 0x3D, 0x45, 0x59, 0x95, 0x9F, 0x4F, 0x9C, 0x42, 0x9F,
0x9D, 0x11 } };
const ChipBleUUID ChipUUID_CHIPoBLEChar_TX = { { 0x18, 0xEE, 0x2E, 0xF5, 0x26, 0x3D, 0x45, 0x59, 0x95, 0x9F, 0x4F, 0x9C, 0x42, 0x9F,
0x9D, 0x12 } };
} // unnamed namespace
BLEManagerImpl BLEManagerImpl::sInstance;
wiced_bt_gatt_status_t app_gatts_callback(wiced_bt_gatt_evt_t event, wiced_bt_gatt_event_data_t * p_data);
CHIP_ERROR BLEManagerImpl::_Init()
{
CHIP_ERROR err;
// Initialize the CHIP BleLayer.
err = BleLayer::Init(this, this, &DeviceLayer::SystemLayer());
SuccessOrExit(err);
mServiceMode = ConnectivityManager::kCHIPoBLEServiceMode_Enabled;
if (CHIP_DEVICE_CONFIG_CHIPOBLE_ENABLE_ADVERTISING_AUTOSTART)
{
mFlags.Set(Flags::kFlag_AdvertisingEnabled, true);
}
else
{
mFlags.Set(Flags::kFlag_AdvertisingEnabled, false);
}
mNumCons = 0;
memset(mCons, 0, sizeof(mCons));
memset(mDeviceName, 0, sizeof(mDeviceName));
// Register with stack to receive GATT callback
wiced_bt_gatt_register(app_gatts_callback);
// Inform the stack to use this app GATT database
wiced_bt_gatt_db_init(gatt_database, gatt_database_len);
ChipLogProgress(DeviceLayer, "BLEManagerImpl::Init() complete");
PlatformMgr().ScheduleWork(DriveBLEState, 0);
exit:
return err;
}
bool BLEManagerImpl::_IsAdvertisingEnabled(void)
{
return mFlags.Has(Flags::kFlag_AdvertisingEnabled);
}
CHIP_ERROR BLEManagerImpl::_SetAdvertisingEnabled(bool val)
{
CHIP_ERROR err = CHIP_NO_ERROR;
VerifyOrExit(mServiceMode != ConnectivityManager::kCHIPoBLEServiceMode_NotSupported, err = CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE);
if (mFlags.Has(Flags::kFlag_AdvertisingEnabled) != val)
{
mFlags.Set(Flags::kFlag_AdvertisingEnabled, val);
PlatformMgr().ScheduleWork(DriveBLEState, 0);
}
exit:
return err;
}
/*
* TODO
*/
CHIP_ERROR BLEManagerImpl::_SetAdvertisingMode(BLEAdvertisingMode mode)
{
(void) (mode);
return CHIP_ERROR_NOT_IMPLEMENTED;
}
#if 0
CHIP_ERROR BLEManagerImpl::_SetFastAdvertisingEnabled(bool val)
{
CHIP_ERROR err = CHIP_NO_ERROR;
VerifyOrExit(mServiceMode == ConnectivityManager::kCHIPoBLEServiceMode_NotSupported, err = CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE);
if (GetFlag(mFlags, kFlag_FastAdvertisingEnabled) != val)
{
SetFlag(mFlags, kFlag_FastAdvertisingEnabled, val);
PlatformMgr().ScheduleWork(DriveBLEState, 0);
}
exit:
return err;
}
#endif
CHIP_ERROR BLEManagerImpl::_GetDeviceName(char * buf, size_t bufSize)
{
if (mServiceMode == ConnectivityManager::kCHIPoBLEServiceMode_NotSupported)
{
return CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE;
}
if (strlen(mDeviceName) >= bufSize)
{
return CHIP_ERROR_BUFFER_TOO_SMALL;
}
strcpy(buf, mDeviceName);
ChipLogProgress(DeviceLayer, "Getting device name to : \"%s\"", mDeviceName);
return CHIP_NO_ERROR;
}
CHIP_ERROR BLEManagerImpl::_SetDeviceName(const char * deviceName)
{
if (mServiceMode == ConnectivityManager::kCHIPoBLEServiceMode_NotSupported)
{
return CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE;
}
if (deviceName != NULL && deviceName[0] != 0)
{
if (strlen(deviceName) >= kMaxDeviceNameLength)
{
return CHIP_ERROR_INVALID_ARGUMENT;
}
Platform::CopyString(mDeviceName, deviceName);
mFlags.Set(Flags::kFlag_DeviceNameSet, true);
ChipLogProgress(DeviceLayer, "Setting device name to : \"%s\"", deviceName);
}
else
{
wiced_platform_bt_cfg_settings.device_name[0] = 0;
mDeviceName[0] = 0;
mFlags.Set(Flags::kFlag_DeviceNameSet, false);
}
return CHIP_NO_ERROR;
}
uint16_t BLEManagerImpl::_NumConnections(void)
{
return mNumCons;
}
void BLEManagerImpl::_OnPlatformEvent(const ChipDeviceEvent * event)
{
switch (event->Type)
{
case DeviceEventType::kCHIPoBLESubscribe:
HandleSubscribeReceived(event->CHIPoBLESubscribe.ConId, &CHIP_BLE_SVC_ID, &ChipUUID_CHIPoBLEChar_TX);
{
ChipDeviceEvent _event;
_event.Type = DeviceEventType::kCHIPoBLEConnectionEstablished;
PlatformMgr().PostEventOrDie(&_event);
}
break;
case DeviceEventType::kCHIPoBLEUnsubscribe:
HandleUnsubscribeReceived(event->CHIPoBLEUnsubscribe.ConId, &CHIP_BLE_SVC_ID, &ChipUUID_CHIPoBLEChar_TX);
break;
case DeviceEventType::kCHIPoBLEWriteReceived:
ChipLogProgress(DeviceLayer, "_OnPlatformEvent kCHIPoBLEWriteReceived");
HandleWriteReceived(event->CHIPoBLEWriteReceived.ConId, &CHIP_BLE_SVC_ID, &chipUUID_CHIPoBLEChar_RX,
PacketBufferHandle::Adopt(event->CHIPoBLEWriteReceived.Data));
break;
case DeviceEventType::kCHIPoBLEIndicateConfirm:
HandleIndicationConfirmation(event->CHIPoBLEIndicateConfirm.ConId, &CHIP_BLE_SVC_ID, &ChipUUID_CHIPoBLEChar_TX);
break;
case DeviceEventType::kCHIPoBLEConnectionError:
HandleConnectionError(event->CHIPoBLEConnectionError.ConId, event->CHIPoBLEConnectionError.Reason);
break;
case DeviceEventType::kServiceProvisioningChange:
// Force the advertising state to be refreshed to reflect new provisioning state.
mFlags.Set(Flags::kFlag_AdvertisingRefreshNeeded, true);
DriveBLEState();
break;
default:
break;
}
}
bool BLEManagerImpl::SubscribeCharacteristic(BLE_CONNECTION_OBJECT conId, const ChipBleUUID * svcId, const ChipBleUUID * charId)
{
ChipLogProgress(DeviceLayer, "BLEManagerImpl::SubscribeCharacteristic() not supported");
return false;
}
bool BLEManagerImpl::UnsubscribeCharacteristic(BLE_CONNECTION_OBJECT conId, const ChipBleUUID * svcId, const ChipBleUUID * charId)
{
ChipLogProgress(DeviceLayer, "BLEManagerImpl::UnsubscribeCharacteristic() not supported");
return false;
}
bool BLEManagerImpl::CloseConnection(BLE_CONNECTION_OBJECT conId)
{
ChipLogProgress(DeviceLayer, "Closing BLE GATT connection (con %u)", conId);
// Initiate a GAP disconnect.
wiced_bt_gatt_status_t gatt_err = wiced_bt_gatt_disconnect((uint16_t) conId);
if (gatt_err != WICED_BT_GATT_SUCCESS)
{
ChipLogError(DeviceLayer, "wiced_bt_gatt_disconnect() failed: %d", gatt_err);
}
return (gatt_err == WICED_BT_GATT_SUCCESS);
}
uint16_t BLEManagerImpl::GetMTU(BLE_CONNECTION_OBJECT conId) const
{
CHIPoBLEConState * p_conn;
/* Check if target connection state exists. */
p_conn = BLEManagerImpl::sInstance.GetConnectionState(conId);
if (!p_conn)
{
return wiced_platform_bt_cfg_settings.gatt_cfg.max_mtu_size;
}
else
{
return p_conn->Mtu;
}
}
bool BLEManagerImpl::SendIndication(BLE_CONNECTION_OBJECT conId, const ChipBleUUID * svcId, const ChipBleUUID * charId,
PacketBufferHandle data)
{
CHIP_ERROR err = CHIP_NO_ERROR;
uint16_t dataLen = data->DataLength();
wiced_bt_gatt_status_t gatt_err = WICED_BT_GATT_SUCCESS;
CHIPoBLEConState * conState = GetConnectionState(conId);
VerifyOrExit(conState != NULL, err = CHIP_ERROR_INVALID_ARGUMENT);
ChipLogDetail(DeviceLayer, "Sending indication for CHIPoBLE TX characteristic (con %u, len %u)", conId, dataLen);
// Send a indication for the CHIPoBLE TX characteristic to the client containing the supplied data.
gatt_err = wiced_bt_gatt_send_indication((uint16_t) conId, HDLC_CHIP_SERVICE_CHAR_C2_VALUE, dataLen, data->Start());
exit:
if (gatt_err != WICED_BT_GATT_SUCCESS)
{
ChipLogError(DeviceLayer, "BLEManagerImpl::SendIndication() failed: %d", gatt_err);
return false;
}
return err == CHIP_NO_ERROR;
}
bool BLEManagerImpl::SendWriteRequest(BLE_CONNECTION_OBJECT conId, const ChipBleUUID * svcId, const ChipBleUUID * charId,
PacketBufferHandle data)
{
ChipLogError(DeviceLayer, "BLEManagerImpl::SendWriteRequest() not supported");
return false;
}
bool BLEManagerImpl::SendReadRequest(BLE_CONNECTION_OBJECT conId, const ChipBleUUID * svcId, const ChipBleUUID * charId,
PacketBufferHandle data)
{
ChipLogError(DeviceLayer, "BLEManagerImpl::SendReadRequest() not supported");
return false;
}
bool BLEManagerImpl::SendReadResponse(BLE_CONNECTION_OBJECT conId, BLE_READ_REQUEST_CONTEXT requestContext,
const ChipBleUUID * svcId, const ChipBleUUID * charId)
{
ChipLogError(DeviceLayer, "BLEManagerImpl::SendReadResponse() not supported");
return false;
}
void BLEManagerImpl::NotifyChipConnectionClosed(BLE_CONNECTION_OBJECT conId) {}
void BLEManagerImpl::DriveBLEState(void)
{
CHIP_ERROR err = CHIP_NO_ERROR;
// Perform any initialization actions that must occur after the CHIP task is running.
if (!mFlags.Has(Flags::kFlag_AsyncInitCompleted))
{
mFlags.Set(Flags::kFlag_AsyncInitCompleted, true);
}
// If the application has enabled CHIPoBLE and BLE advertising...
if (mServiceMode == ConnectivityManager::kCHIPoBLEServiceMode_Enabled &&
mFlags.Has(Flags::kFlag_AdvertisingEnabled)
#if CHIP_DEVICE_CONFIG_CHIPOBLE_SINGLE_CONNECTION
// and no connections are active...
&& (mNumCons == 0)
#endif
)
{
// Start/re-start SoftDevice advertising if not already advertising, or if the
// advertising state of the SoftDevice needs to be refreshed.
if (!mFlags.Has(Flags::kFlag_Advertising) || mFlags.Has(Flags::kFlag_AdvertisingRefreshNeeded))
{
ChipLogProgress(DeviceLayer, "CHIPoBLE advertising started");
mFlags.Set(Flags::kFlag_Advertising, true);
mFlags.Set(Flags::kFlag_AdvertisingRefreshNeeded, false);
SetAdvertisingData();
wiced_bt_start_advertisements(BTM_BLE_ADVERT_UNDIRECTED_HIGH, BLE_ADDR_PUBLIC, NULL);
// Post a CHIPoBLEAdvertisingChange(Started) event.
{
ChipDeviceEvent advChange;
advChange.Type = DeviceEventType::kCHIPoBLEAdvertisingChange;
advChange.CHIPoBLEAdvertisingChange.Result = kActivity_Started;
PlatformMgr().PostEventOrDie(&advChange);
}
}
}
// Otherwise, stop advertising if currently active.
else
{
if (mFlags.Has(Flags::kFlag_Advertising))
{
mFlags.Set(Flags::kFlag_Advertising, false);
ChipLogProgress(DeviceLayer, "CHIPoBLE stop advertising");
wiced_bt_start_advertisements(BTM_BLE_ADVERT_OFF, BLE_ADDR_PUBLIC, NULL);
}
}
// exit:
if (err != CHIP_NO_ERROR)
{
ChipLogError(DeviceLayer, "Disabling CHIPoBLE service due to error: %s", ErrorStr(err));
mServiceMode = ConnectivityManager::kCHIPoBLEServiceMode_Disabled;
}
}
/*
* This function searches through the GATT DB to point to the attribute
* corresponding to the given handle
*/
gatt_db_lookup_table_t * BLEManagerImpl::GetGattAttr(uint16_t handle)
{
/* Search for the given handle in the GATT DB and return the pointer to the
correct attribute */
uint8_t array_index = 0;
for (array_index = 0; array_index < app_gatt_db_ext_attr_tbl_size; array_index++)
{
if (app_gatt_db_ext_attr_tbl[array_index].handle == handle)
{
return (&app_gatt_db_ext_attr_tbl[array_index]);
}
}
return NULL;
}
/*
* Currently there is no reason to pass Read Req to CHIP. Only process request for
* attributes in the GATT DB attribute table
*/
wiced_bt_gatt_status_t BLEManagerImpl::HandleGattServiceRead(uint16_t conn_id, wiced_bt_gatt_read_t * p_read_data)
{
gatt_db_lookup_table_t * puAttribute;
int attr_len_to_copy;
#ifdef BLE_OTA_FW_UPGRADE
if (wiced_ota_fw_upgrade_is_gatt_handle(p_read_data->handle))
{
return wiced_ota_fw_upgrade_read_handler(conn_id, p_read_data);
}
#endif
/* Get the right address for the handle in Gatt DB */
if (NULL == (puAttribute = GetGattAttr(p_read_data->handle)))
{
ChipLogError(DeviceLayer, "Read handle attribute not found. Handle:0x%X\n", p_read_data->handle);
return WICED_BT_GATT_INVALID_HANDLE;
}
attr_len_to_copy = puAttribute->cur_len;
ChipLogProgress(DeviceLayer, "GATT Read handler: conn_id:%04x handle:%04x len:%d", conn_id, p_read_data->handle,
attr_len_to_copy);
/* If the incoming offset is greater than the current length in the GATT DB
then the data cannot be read back*/
if (p_read_data->offset >= puAttribute->cur_len)
{
attr_len_to_copy = 0;
}
/* Calculate the number of bytes and the position of the data and copy it to
the given pointer */
if (attr_len_to_copy != 0)
{
uint8_t * from;
int size_to_copy = attr_len_to_copy - p_read_data->offset;
if (size_to_copy > *p_read_data->p_val_len)
{
size_to_copy = *p_read_data->p_val_len;
}
from = ((uint8_t *) puAttribute->p_data) + p_read_data->offset;
*p_read_data->p_val_len = size_to_copy;
memcpy(p_read_data->p_val, from, size_to_copy);
}
return WICED_BT_GATT_SUCCESS;
}
/*
* If Attribute is for CHIP, pass it through. Otherwise process request for
* attributes in the GATT DB attribute table.
*/
wiced_bt_gatt_status_t BLEManagerImpl::HandleGattServiceWrite(uint16_t conn_id, wiced_bt_gatt_write_t * p_data)
{
wiced_bt_gatt_status_t result = WICED_BT_GATT_SUCCESS;
gatt_db_lookup_table_t * puAttribute;
const uint16_t valLen = p_data->val_len;
#ifdef BLE_OTA_FW_UPGRADE
if (wiced_ota_fw_upgrade_is_gatt_handle(p_data->handle))
{
return wiced_ota_fw_upgrade_write_handler(conn_id, p_data);
}
#endif
// special handling for CHIP RX path
if (p_data->handle == HDLC_CHIP_SERVICE_CHAR_C1_VALUE)
{
System::PacketBufferHandle buf;
buf = System::PacketBufferHandle::NewWithData(p_data->p_val, valLen, 0, 0);
if (!buf.IsNull())
{
ChipLogDetail(DeviceLayer, "Write received for CHIPoBLE RX characteristic con %04x len %d", conn_id, valLen);
// Post an event to the CHIP queue to deliver the data into the CHIP stack.
{
ChipDeviceEvent event;
event.Type = DeviceEventType::kCHIPoBLEWriteReceived;
event.CHIPoBLEWriteReceived.ConId = conn_id;
event.CHIPoBLEWriteReceived.Data = std::move(buf).UnsafeRelease();
PlatformMgr().PostEventOrDie(&event);
}
}
else
{
ChipLogError(DeviceLayer, "BLEManagerImpl: Out of buffers during CHIPoBLE RX");
}
}
else
{
ChipLogDetail(DeviceLayer, "Write received for CHIPoBLE RX characteristic con:%04x handle:%04x len:%d", conn_id,
p_data->handle, valLen);
/* Get the right address for the handle in Gatt DB */
if (NULL == (puAttribute = GetGattAttr(p_data->handle)))
{
ChipLogError(DeviceLayer, "BLEManagerImpl: Write wrong handle:%04x", p_data->handle);
return WICED_BT_GATT_INVALID_HANDLE;
}
puAttribute->cur_len = valLen > puAttribute->max_len ? puAttribute->max_len : valLen;
memcpy(puAttribute->p_data, p_data->p_val, puAttribute->cur_len);
// Post an event to the Chip queue to process either a CHIPoBLE Subscribe or Unsubscribe based on
// whether the client is enabling or disabling indications.
if (p_data->handle == HDLD_CHIP_SERVICE_RX_CLIENT_CHAR_CONFIG)
{
ChipDeviceEvent event;
event.Type = (app_chip_service_char_tx_client_char_config[0] != 0) ? DeviceEventType::kCHIPoBLESubscribe
: DeviceEventType::kCHIPoBLEUnsubscribe;
event.CHIPoBLESubscribe.ConId = conn_id;
PlatformMgr().PostEventOrDie(&event);
}
ChipLogProgress(DeviceLayer, "CHIPoBLE %s received",
app_chip_service_char_tx_client_char_config[0] != 0 ? "subscribe" : "unsubscribe");
}
return result;
}
/*
* Process MTU request received from the GATT client
*/
wiced_bt_gatt_status_t BLEManagerImpl::HandleGattServiceMtuReq(wiced_bt_gatt_attribute_request_t * p_data,
CHIPoBLEConState * p_conn)
{
p_data->data.mtu = p_conn->Mtu;
return WICED_BT_GATT_SUCCESS;
}
/*
* Process GATT Indication Confirm from the client
*/
wiced_bt_gatt_status_t BLEManagerImpl::HandleGattServiceIndCfm(uint16_t conn_id, uint16_t handle)
{
ChipLogDetail(DeviceLayer, "GATT Ind Cfm received con:%04x handle:%d", conn_id, handle);
if (handle == HDLC_CHIP_SERVICE_CHAR_C2_VALUE)
{
ChipDeviceEvent event;
event.Type = DeviceEventType::kCHIPoBLEIndicateConfirm;
event.CHIPoBLEIndicateConfirm.ConId = conn_id;
PlatformMgr().PostEventOrDie(&event);
}
#ifdef BLE_OTA_FW_UPGRADE
else if (wiced_ota_fw_upgrade_is_gatt_handle(handle))
{
return wiced_ota_fw_upgrade_indication_cfm_handler(conn_id, handle);
}
#endif
return WICED_BT_GATT_SUCCESS;
}
/*
* Process GATT attribute requests
*/
wiced_bt_gatt_status_t BLEManagerImpl::HandleGattServiceRequestEvent(wiced_bt_gatt_attribute_request_t * p_request,
CHIPoBLEConState * p_conn)
{
wiced_bt_gatt_status_t result = WICED_BT_GATT_INVALID_PDU;
switch (p_request->request_type)
{
case GATTS_REQ_TYPE_READ:
result = HandleGattServiceRead(p_request->conn_id, &(p_request->data.read_req));
break;
case GATTS_REQ_TYPE_WRITE:
result = HandleGattServiceWrite(p_request->conn_id, &(p_request->data.write_req));
break;
case GATTS_REQ_TYPE_MTU:
result = HandleGattServiceMtuReq(p_request, p_conn);
break;
case GATTS_REQ_TYPE_CONF:
result = HandleGattServiceIndCfm(p_request->conn_id, p_request->data.handle);
break;
default:
break;
}
return result;
}
/*
* Handle GATT connection events from the stack
*/
wiced_bt_gatt_status_t BLEManagerImpl::HandleGattConnectEvent(wiced_bt_gatt_connection_status_t * p_conn_status,
CHIPoBLEConState * p_conn)
{
#ifdef BLE_OTA_FW_UPGRADE
wiced_ota_fw_upgrade_connection_status_event(p_conn_status);
#endif
if (p_conn_status->connected)
{
/* Device got connected */
p_conn->connected = true;
ChipLogProgress(DeviceLayer, "BLE GATT connection up (con %u)", p_conn_status->conn_id);
}
else /* Device got disconnected */
{
ChipDeviceEvent event;
event.Type = DeviceEventType::kCHIPoBLEConnectionError;
event.CHIPoBLEConnectionError.ConId = p_conn_status->conn_id;
switch (p_conn_status->reason)
{
case GATT_CONN_TERMINATE_PEER_USER:
event.CHIPoBLEConnectionError.Reason = BLE_ERROR_REMOTE_DEVICE_DISCONNECTED;
break;
case GATT_CONN_TERMINATE_LOCAL_HOST:
event.CHIPoBLEConnectionError.Reason = BLE_ERROR_APP_CLOSED_CONNECTION;
break;
default:
event.CHIPoBLEConnectionError.Reason = BLE_ERROR_CHIPOBLE_PROTOCOL_ABORT;
break;
}
ChipLogProgress(DeviceLayer, "BLE GATT connection closed (con %u, reason %u)", p_conn_status->conn_id,
p_conn_status->reason);
PlatformMgr().PostEventOrDie(&event);
// Arrange to re-enable connectable advertising in case it was disabled due to the
// maximum connection limit being reached.
mFlags.Set(Flags::kFlag_Advertising, false);
PlatformMgr().ScheduleWork(DriveBLEState, 0);
ReleaseConnectionState(p_conn->ConId);
}
return WICED_BT_GATT_SUCCESS;
}
/*
* Process GATT requests. Callback is received in the BT stack thread context.
*
*/
wiced_bt_gatt_status_t app_gatts_callback(wiced_bt_gatt_evt_t event, wiced_bt_gatt_event_data_t * p_data)
{
uint16_t conn_id;
BLEManagerImpl::CHIPoBLEConState * p_conn;
/* Check parameter. */
if (!p_data)
{
return WICED_BT_GATT_ILLEGAL_PARAMETER;
}
/* Check if target connection state exists. */
switch (event)
{
case GATT_CONNECTION_STATUS_EVT:
conn_id = p_data->connection_status.conn_id;
break;
case GATT_OPERATION_CPLT_EVT:
conn_id = p_data->operation_complete.conn_id;
break;
case GATT_DISCOVERY_RESULT_EVT:
conn_id = p_data->discovery_result.conn_id;
break;
case GATT_DISCOVERY_CPLT_EVT:
conn_id = p_data->discovery_complete.conn_id;
break;
case GATT_ATTRIBUTE_REQUEST_EVT:
conn_id = p_data->attribute_request.conn_id;
break;
case GATT_CONGESTION_EVT:
conn_id = p_data->congestion.conn_id;
break;
default:
return WICED_BT_GATT_ILLEGAL_PARAMETER;
}
p_conn = BLEManagerImpl::sInstance.GetConnectionState(conn_id);
/* Allocate connection state if no exist. */
if (!p_conn)
{
p_conn = BLEManagerImpl::sInstance.AllocConnectionState(conn_id);
if (!p_conn)
{
return WICED_BT_GATT_INSUF_RESOURCE;
}
}
switch (event)
{
case GATT_CONNECTION_STATUS_EVT:
return BLEManagerImpl::sInstance.HandleGattConnectEvent(&p_data->connection_status, p_conn);
case GATT_ATTRIBUTE_REQUEST_EVT:
return BLEManagerImpl::sInstance.HandleGattServiceRequestEvent(&p_data->attribute_request, p_conn);
default:
break;
}
return WICED_BT_GATT_ILLEGAL_PARAMETER;
}
void BLEManagerImpl::SetAdvertisingData(void)
{
CHIP_ERROR err;
wiced_bt_ble_advert_elem_t adv_elem[4];
uint8_t num_elem = 0;
uint8_t flag = BTM_BLE_GENERAL_DISCOVERABLE_FLAG | BTM_BLE_BREDR_NOT_SUPPORTED;
uint16_t deviceDiscriminator = 0;
uint8_t localDeviceNameLen;
uint8_t * rpa = wiced_btm_get_private_bda();
struct
{
uint16_t uuid;
ChipBLEDeviceIdentificationInfo info;
} service_data = {
.uuid = __UUID16_CHIPoBLEService,
};
// Initialize the CHIP BLE Device Identification Information block that will be sent as payload
// within the BLE service advertisement data.
err = ConfigurationMgr().GetBLEDeviceIdentificationInfo(service_data.info);
SuccessOrExit(err);
// Verify device name was not already set
if (!sInstance.mFlags.Has(Flags::kFlag_DeviceNameSet))
{
/* Default device name is CHIP-<DISCRIMINATOR> */
deviceDiscriminator = service_data.info.GetDeviceDiscriminator();
memset(sInstance.mDeviceName, 0, kMaxDeviceNameLength);
snprintf(sInstance.mDeviceName, kMaxDeviceNameLength, "%s%04u", CHIP_DEVICE_CONFIG_BLE_DEVICE_NAME_PREFIX,
deviceDiscriminator);
localDeviceNameLen = strlen(sInstance.mDeviceName);
Platform::CopyString((char *) app_gap_device_name, sizeof(app_gap_device_name), sInstance.mDeviceName);
app_gatt_db_ext_attr_tbl[0].cur_len = app_gatt_db_ext_attr_tbl[0].max_len < strlen(sInstance.mDeviceName)
? app_gatt_db_ext_attr_tbl[0].max_len
: strlen(sInstance.mDeviceName);
ChipLogProgress(DeviceLayer, "SetAdvertisingData: device name set: %s", sInstance.mDeviceName);
}
else
{
localDeviceNameLen = strlen(sInstance.mDeviceName);
}
ChipLogProgress(DeviceLayer, "SetAdvertisingData: RPA: %02X%02X%02X%02X%02X%02X", rpa[0], rpa[1], rpa[2], rpa[3], rpa[4],
rpa[5]);
/* First element is the advertisement flags */
adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_FLAG;
adv_elem[num_elem].len = sizeof(uint8_t);
adv_elem[num_elem].p_data = &flag;
num_elem++;
/* Second element is the service data for CHIP service */
adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_SERVICE_DATA;
adv_elem[num_elem].len = sizeof(service_data);
adv_elem[num_elem].p_data = (uint8_t *) &service_data;
num_elem++;
adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_NAME_COMPLETE;
adv_elem[num_elem].len = localDeviceNameLen;
adv_elem[num_elem].p_data = (uint8_t *) sInstance.mDeviceName;
num_elem++;
wiced_bt_ble_set_raw_advertisement_data(num_elem, adv_elem);
/* Configure Scan Response data */
num_elem = 0;
adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_NAME_COMPLETE;
adv_elem[num_elem].len = localDeviceNameLen;
adv_elem[num_elem].p_data = (uint8_t *) sInstance.mDeviceName;
num_elem++;
wiced_bt_ble_set_raw_scan_response_data(num_elem, adv_elem);
exit:
ChipLogProgress(DeviceLayer, "BLEManagerImpl::SetAdvertisingData err:%ld", err.AsInteger());
}
BLEManagerImpl::CHIPoBLEConState * BLEManagerImpl::AllocConnectionState(uint16_t conId)
{
for (uint16_t i = 0; i < kMaxConnections; i++)
{
if (mCons[i].connected == false)
{
mCons[i].ConId = conId;
mCons[i].Mtu = wiced_platform_bt_cfg_settings.gatt_cfg.max_mtu_size;
mCons[i].connected = false;
mNumCons++;
return &mCons[i];
}
}
ChipLogError(DeviceLayer, "Failed to allocate CHIPoBLEConState");
return NULL;
}
BLEManagerImpl::CHIPoBLEConState * BLEManagerImpl::GetConnectionState(uint16_t conId)
{
for (uint16_t i = 0; i < kMaxConnections; i++)
{
if (mCons[i].ConId == conId)
{
return &mCons[i];
}
}
ChipLogError(DeviceLayer, "Failed to find CHIPoBLEConState");
return NULL;
}
bool BLEManagerImpl::ReleaseConnectionState(uint16_t conId)
{
for (uint16_t i = 0; i < kMaxConnections; i++)
{
if (mCons[i].ConId == conId)
{
memset(&mCons[i], 0, sizeof(CHIPoBLEConState));
mNumCons--;
return true;
}
}
ChipLogError(DeviceLayer, "Failed to delete CHIPoBLEConState");
return false;
}
void BLEManagerImpl::DriveBLEState(intptr_t arg)
{
sInstance.DriveBLEState();
}
} // namespace Internal
} // namespace DeviceLayer
} // namespace chip
#endif