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phy API implementation for cordio 

phy set types added, nordic implementation updated
pull/7899/head
paul-szczepanek-arm 2018-07-16 14:03:12 +01:00 committed by Vincent Coubard
parent d5c675e300
commit 8090e7acd8
9 changed files with 776 additions and 312 deletions
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99
features/FEATURE_BLE/ble/BLETypes.h
View File

@ -628,23 +628,98 @@ struct phy_t : SafeEnum<phy_t, uint8_t> {
};
/**
* Type that describe a set of PHY(sical) transports.
* Type that describe a set of PHY(sical) transports. This is used to
* indicate preference for the PHY transports set within it.
*/
struct phys_t {
/**
* If equal to 1 then the set includes phy_t::LE_1M.
*/
uint8_t le_1m:1;
class phy_set_t {
public:
enum PhysFlags_t {
PHY_SET_1M = 0x01,
PHY_SET_2M = 0x02,
PHY_SET_CODED = 0x04
};
phy_set_t() : _value(0) { }
phy_set_t(uint8_t value) : _value(value) { }
phy_set_t(
bool phy_1m,
bool phy_2m,
bool phy_coded
) {
set_1m(phy_1m);
set_2m(phy_2m);
set_coded(phy_coded);
}
/**
* If equal to 1 then the set includes phy_t::LE_2M.
* Create an ALL_PHYS parameter used in LE Set PHY Command
* and LE Set Default PHY Command.
* @see BLUETOOTH SPECIFICATION Version 5.0 | Vol 2, Part E - 7.8.49
*/
uint8_t le_2m:1;
static uint8_t all_phys_value(
const phy_set_t& tx_phys,
const phy_set_t& rx_phys
) {
/* if phy set is empty set corresponding all_phys bit to 1 */
uint8_t all_phys = 0;
if (tx_phys.value() == 0) {
all_phys |= 0x01;
}
if (rx_phys.value() == 0) {
all_phys |= 0x02;
}
return all_phys;
}
/**
* If equal to 1 then the set includes phy_t::LE_CODED.
*/
uint8_t le_coded:1;
/** Prefer 1M PHY. */
void set_1m(bool enabled = true) {
if (enabled) {
_value |= PHY_SET_1M;
} else {
_value &= ~PHY_SET_1M;
}
}
/** Prefer 2M PHY. */
void set_2m(bool enabled = true) {
if (enabled) {
_value |= PHY_SET_2M;
} else {
_value &= ~PHY_SET_2M;
}
}
/** Prefer coded PHY. */
void set_coded(bool enabled = true) {
if (enabled) {
_value |= PHY_SET_CODED;
} else {
_value &= ~PHY_SET_CODED;
}
}
bool get_1m() {
return (_value & PHY_SET_1M);
}
bool get_2m() {
return (_value & PHY_SET_2M);
}
bool get_coded() {
return (_value & PHY_SET_CODED);
}
operator uint8_t() {
return _value;
}
uint8_t value() const {
return _value;
}
private:
uint8_t _value;
};
/**

10
features/FEATURE_BLE/ble/Gap.h
View File

@ -555,7 +555,7 @@ public:
/**
* Set of BLE PHYs
*/
typedef ble::phys_t Phys_t;
typedef ble::phy_set_t PhySet_t;
/**
* Enumeration of type of symbols that can be used with LE coded PHY.
@ -1451,8 +1451,8 @@ public:
* error code.
*/
virtual ble_error_t setPreferedPhys(
const Phys_t* txPhys,
const Phys_t* rxPhys
const PhySet_t* txPhys,
const PhySet_t* rxPhys
) {
return BLE_ERROR_NOT_IMPLEMENTED;
}
@ -1481,8 +1481,8 @@ public:
*/
virtual ble_error_t setPhy(
Handle_t connection,
const Phys_t* txPhys,
const Phys_t* rxPhys,
const PhySet_t* txPhys,
const PhySet_t* rxPhys,
CodedSymbolPerBit_t codedSymbol
) {
return BLE_ERROR_NOT_IMPLEMENTED;

43
features/FEATURE_BLE/ble/generic/GenericGap.h
View File

@ -43,7 +43,8 @@ namespace generic {
* @attention: Not part of the public interface of BLE API.
*/
class GenericGap : public ::Gap,
public pal::ConnectionEventMonitor {
public pal::ConnectionEventMonitor,
public pal::Gap::EventHandler {
public:
/**
@ -133,6 +134,29 @@ public:
const GapScanningParams *scanParams
);
/**
* @see Gap::readPhy
*/
virtual ble_error_t readPhy(Handle_t connection);
/**
* @see Gap::setPreferedPhys
*/
virtual ble_error_t setPreferedPhys(
const phy_set_t* txPhys,
const phy_set_t* rxPhys
);
/**
* @see Gap::setPhy
*/
virtual ble_error_t setPhy(
Handle_t connection,
const phy_set_t* txPhys,
const phy_set_t* rxPhys,
CodedSymbolPerBit_t codedSymbol
);
/**
* @see Gap::disconnect
*/
@ -371,6 +395,23 @@ private:
void on_address_rotation_timeout();
/* implements pal::Gap::EventHandler */
private:
virtual void on_read_phy(
pal::hci_error_code_t hci_status,
Handle_t connection_handle,
ble::phy_t tx_phy,
ble::phy_t rx_phy
);
virtual void on_phy_update_complete(
pal::hci_error_code_t hci_status,
Handle_t connection_handle,
ble::phy_t tx_phy,
ble::phy_t rx_phy
);
private:
pal::EventQueue& _event_queue;
pal::Gap &_pal_gap;
pal::GenericAccessService &_gap_service;

70
features/FEATURE_BLE/ble/pal/PalGap.h
View File

@ -18,8 +18,9 @@
#define BLE_PAL_GAP_H_
#include "platform/Callback.h"
#include "GapTypes.h"
#include "ble/pal/GapTypes.h"
#include "GapEvents.h"
#include "blecommon.h"
namespace ble {
namespace pal {
@ -59,6 +60,28 @@ struct Gap {
ControllerSupportedFeatures_t(type value) : SafeEnum<ControllerSupportedFeatures_t, uint8_t>(value) { }
};
struct EventHandler {
/**
* @copydoc Gap::EventHandler::onReadPhy
*/
virtual void on_read_phy(
pal::hci_error_code_t status,
connection_handle_t connectionHandle,
ble::phy_t tx_phy,
ble::phy_t rx_phy
) = 0;
/**
* @copydoc Gap::EventHandler::onPhyUpdateComplete
*/
virtual void on_phy_update_complete(
pal::hci_error_code_t status,
connection_handle_t connection_handle,
ble::phy_t tx_phy,
ble::phy_t rx_phy
) = 0;
};
/**
* Initialisation of the instance. An implementation can use this function
* to initialise the subsystems needed to realize the operations of this
@ -707,6 +730,29 @@ struct Gap {
ControllerSupportedFeatures_t feature
) = 0;
/**
* @see Gap::readPhy
*/
virtual ble_error_t read_phy(connection_handle_t connection) = 0;
/**
* @see Gap::setPreferedPhys
*/
virtual ble_error_t set_prefered_phys(
const phy_set_t& tx_phys,
const phy_set_t& rx_phys
) = 0;
/**
* @see Gap::setPhy
*/
virtual ble_error_t set_phy(
connection_handle_t connection,
const phy_set_t& tx_phys,
const phy_set_t& rx_phys,
coded_symbol_per_bit_t coded_symbol
) = 0;
/**
* Register a callback which will handle Gap events.
*
@ -719,8 +765,27 @@ struct Gap {
_gap_event_cb = cb;
}
public:
/**
* Sets the event handler that us called by the PAL porters to notify the stack of events
* which will in turn be passed onto the user application when appropriate.
*
* @param[in] event_handler the new event handler interface implementation. Memory
* owned by caller who is responsible for updating this pointer if interface changes.
*/
void set_event_handler(EventHandler *event_handler) {
_pal_event_handler = event_handler;
}
EventHandler* get_event_handler() {
return _pal_event_handler;
}
protected:
Gap() { }
EventHandler *_pal_event_handler;
protected:
Gap() : _pal_event_handler(NULL) { }
virtual ~Gap() { }
@ -743,6 +808,7 @@ private:
*/
mbed::Callback<void(const GapEvent&)> _gap_event_cb;
private:
// Disallow copy construction and copy assignment.
Gap(const Gap&);
Gap& operator=(const Gap&);

59
features/FEATURE_BLE/source/generic/GenericGap.cpp
View File

@ -425,6 +425,8 @@ GenericGap::GenericGap(
// Recover static random identity
_random_static_identity_address = _pal_gap.get_random_address();
_pal_gap.set_event_handler(this);
}
GenericGap::~GenericGap()
@ -587,6 +589,63 @@ ble_error_t GenericGap::connect(
);
}
ble_error_t GenericGap::readPhy(Handle_t connection) {
return _pal_gap.read_phy(connection);
}
ble_error_t GenericGap::setPreferedPhys(
const phy_set_t* txPhys,
const phy_set_t* rxPhys
) {
phy_set_t tx_phys(txPhys? txPhys->value() : 0);
phy_set_t rx_phys(rxPhys? rxPhys->value() : 0);
return _pal_gap.set_prefered_phys(tx_phys, rx_phys);
}
ble_error_t GenericGap::setPhy(
Handle_t connection,
const phy_set_t* txPhys,
const phy_set_t* rxPhys,
CodedSymbolPerBit_t codedSymbol
) {
phy_set_t tx_phys(txPhys? txPhys->value() : 0);
phy_set_t rx_phys(rxPhys? rxPhys->value() : 0);
return _pal_gap.set_phy(connection, tx_phys, rx_phys, codedSymbol);
}
void GenericGap::on_read_phy(
pal::hci_error_code_t hci_status,
Handle_t connection_handle,
ble::phy_t tx_phy,
ble::phy_t rx_phy
) {
ble_error_t status = BLE_ERROR_NONE;
if (pal::hci_error_code_t::SUCCESS != hci_status) {
status = BLE_ERROR_UNSPECIFIED;
}
if (_eventHandler) {
_eventHandler->onPhyUpdateComplete(status, connection_handle, tx_phy, rx_phy);
}
}
void GenericGap::on_phy_update_complete(
pal::hci_error_code_t hci_status,
Handle_t connection_handle,
ble::phy_t tx_phy,
ble::phy_t rx_phy
) {
ble_error_t status = BLE_ERROR_NONE;
if (pal::hci_error_code_t::SUCCESS != hci_status) {
status = BLE_ERROR_UNSPECIFIED;
}
if (_eventHandler) {
_eventHandler->onPhyUpdateComplete(status, connection_handle, tx_phy, rx_phy);
}
}
ble_error_t GenericGap::disconnect(Handle_t connectionHandle, DisconnectionReason_t reason)
{
if (is_disconnection_reason_valid(reason) == false) {

276
features/FEATURE_BLE/targets/TARGET_CORDIO/CordioPalGap.h
View File

@ -16,31 +16,17 @@ class Gap : public ::ble::pal::Gap {
public:
virtual bool is_feature_supported(
Gap::ControllerSupportedFeatures_t feature
) {
return (HciGetLeSupFeat() & (1 << feature.value()));
}
);
virtual ble_error_t initialize() {
return BLE_ERROR_NONE;
}
virtual ble_error_t initialize();
virtual ble_error_t terminate() {
return BLE_ERROR_NONE;
}
virtual ble_error_t terminate();
virtual address_t get_device_address() {
return address_t(HciGetBdAddr());
}
virtual address_t get_device_address();
virtual address_t get_random_address() {
return device_random_address;
}
virtual address_t get_random_address();
virtual ble_error_t set_random_address(const address_t& address) {
device_random_address = address;
DmDevSetRandAddr(const_cast<uint8_t*>(address.data()));
return BLE_ERROR_NONE;
}
virtual ble_error_t set_random_address(const address_t& address);
virtual ble_error_t set_advertising_parameters(
uint16_t advertising_interval_min,
@ -51,75 +37,19 @@ public:
const address_t& peer_address,
advertising_channel_map_t advertising_channel_map,
advertising_filter_policy_t advertising_filter_policy
) {
DmAdvSetInterval(
DM_ADV_HANDLE_DEFAULT,
advertising_interval_min,
advertising_interval_max
);
DmAdvSetAddrType(own_address_type.value());
DmAdvSetChannelMap(
DM_ADV_HANDLE_DEFAULT,
advertising_channel_map.value()
);
DmDevSetFilterPolicy(
DM_FILT_POLICY_MODE_ADV,
advertising_filter_policy.value()
);
DmAdvConfig(
DM_ADV_HANDLE_DEFAULT,
advertising_type.value(),
peer_address_type.value(),
const_cast<uint8_t*>(peer_address.data())
);
return BLE_ERROR_NONE;
}
virtual ble_error_t set_advertising_data(
uint8_t advertising_data_length,
const advertising_data_t& advertising_data
) {
DmAdvSetData(
DM_ADV_HANDLE_DEFAULT,
HCI_ADV_DATA_OP_COMP_FRAG,
DM_DATA_LOC_ADV,
advertising_data_length,
const_cast<uint8_t*>(advertising_data.data())
);
return BLE_ERROR_NONE;
}
virtual ble_error_t set_scan_response_data(
uint8_t scan_response_data_length,
const advertising_data_t& scan_response_data
) {
DmAdvSetData(
DM_ADV_HANDLE_DEFAULT,
HCI_ADV_DATA_OP_COMP_FRAG,
DM_DATA_LOC_SCAN,
scan_response_data_length,
const_cast<uint8_t*>(scan_response_data.data())
);
return BLE_ERROR_NONE;
}
virtual ble_error_t advertising_enable(bool enable) {
if (enable) {
uint8_t adv_handles[] = { DM_ADV_HANDLE_DEFAULT };
uint16_t adv_durations[] = { /* infinite */ 0 };
uint8_t max_ea_events[] = { 0 };
DmAdvStart(1, adv_handles, adv_durations, max_ea_events);
} else {
uint8_t adv_handles[] = { DM_ADV_HANDLE_DEFAULT };
DmAdvStop(1, adv_handles);
}
return BLE_ERROR_NONE;
}
virtual ble_error_t advertising_enable(bool enable);
virtual ble_error_t set_scan_parameters(
bool active_scanning,
@ -127,36 +57,12 @@ public:
uint16_t scan_window,
own_address_type_t own_address_type,
scanning_filter_policy_t filter_policy
) {
use_active_scanning = active_scanning;
DmScanSetInterval(HCI_INIT_PHY_LE_1M_BIT, &scan_interval, &scan_window);
DmScanSetAddrType(own_address_type.value());
DmDevSetFilterPolicy(
DM_FILT_POLICY_MODE_SCAN,
filter_policy.value()
);
return BLE_ERROR_NONE;
}
virtual ble_error_t scan_enable(
bool enable,
bool filter_duplicates
) {
if (enable) {
uint8_t scanType = use_active_scanning ? DM_SCAN_TYPE_ACTIVE : DM_SCAN_TYPE_PASSIVE;
DmScanStart(
HCI_SCAN_PHY_LE_1M_BIT,
DM_DISC_MODE_NONE,
&scanType,
filter_duplicates,
0,
0
);
} else {
DmScanStop();
}
return BLE_ERROR_NONE;
}
virtual ble_error_t create_connection(
uint16_t scan_interval,
@ -171,74 +77,23 @@ public:
uint16_t supervision_timeout,
uint16_t minimum_connection_event_length,
uint16_t maximum_connection_event_length
) {
DmConnSetScanInterval(scan_interval, scan_window);
DmDevSetFilterPolicy(DM_FILT_POLICY_MODE_INIT, initiator_policy.value());
DmConnSetAddrType(own_address_type.value());
hciConnSpec_t conn_spec = {
connection_interval_min,
connection_interval_max,
connection_latency,
supervision_timeout,
minimum_connection_event_length,
maximum_connection_event_length
};
DmConnSetConnSpec(&conn_spec);
dmConnId_t connection_id = DmConnOpen(
DM_CLIENT_ID_APP,
HCI_INIT_PHY_LE_1M_BIT,
peer_address_type.value(),
const_cast<uint8_t*>(peer_address.data())
);
if (connection_id == DM_CONN_ID_NONE) {
return BLE_ERROR_INTERNAL_STACK_FAILURE;
}
virtual ble_error_t cancel_connection_creation();
return BLE_ERROR_NONE;
}
virtual uint8_t read_white_list_capacity();
virtual ble_error_t cancel_connection_creation() {
DmConnClose(
DM_CLIENT_ID_APP,
/* connection handle - invalid */ DM_CONN_ID_NONE,
/* reason - invalid (use success) */ 0x00
);
return BLE_ERROR_NONE;
}
virtual uint8_t read_white_list_capacity() {
return HciGetWhiteListSize();
}
virtual ble_error_t clear_whitelist() {
DmDevWhiteListClear();
return BLE_ERROR_NONE;
}
virtual ble_error_t clear_whitelist();
virtual ble_error_t add_device_to_whitelist(
whitelist_address_type_t address_type,
address_t address
) {
DmDevWhiteListAdd(
address_type.value(),
const_cast<uint8_t*>(address.data())
);
return BLE_ERROR_NONE;
}
virtual ble_error_t remove_device_from_whitelist(
whitelist_address_type_t address_type,
address_t address
) {
DmDevWhiteListRemove(
address_type.value(),
const_cast<uint8_t*>(address.data())
);
return BLE_ERROR_NONE;
}
virtual ble_error_t connection_parameters_update(
connection_handle_t connection,
@ -248,27 +103,8 @@ public:
uint16_t supervision_timeout,
uint16_t minimum_connection_event_length,
uint16_t maximum_connection_event_length
) {
if (DmConnCheckIdle(connection) != 0) {
return BLE_ERROR_INVALID_STATE;
}
hciConnSpec_t connection_spec = {
connection_interval_min,
connection_interval_max,
connection_latency,
supervision_timeout,
minimum_connection_event_length,
maximum_connection_event_length
};
DmConnUpdate(
connection,
&connection_spec
);
return BLE_ERROR_NONE;
}
virtual ble_error_t accept_connection_parameter_request(
connection_handle_t connection_handle,
uint16_t interval_min,
@ -277,104 +113,52 @@ public:
uint16_t supervision_timeout,
uint16_t minimum_connection_event_length,
uint16_t maximum_connection_event_length
) {
hciConnSpec_t connection_spec = {
interval_min,
interval_max,
latency,
supervision_timeout,
minimum_connection_event_length,
maximum_connection_event_length
};
DmRemoteConnParamReqReply(connection_handle, &connection_spec);
return BLE_ERROR_NONE;
}
);
virtual ble_error_t reject_connection_parameter_request(
connection_handle_t connection_handle,
hci_error_code_t rejection_reason
) {
DmRemoteConnParamReqNegReply(
connection_handle,
rejection_reason.value()
);
return BLE_ERROR_NONE;
}
virtual ble_error_t disconnect(
connection_handle_t connection,
disconnection_reason_t disconnection_reason
) {
DmConnClose(
DM_CLIENT_ID_APP,
connection,
disconnection_reason.value()
);
return BLE_ERROR_NONE;
}
virtual bool is_privacy_supported() {
// We only support controller-based privacy, so return whether the controller supports it
return HciLlPrivacySupported();
}
virtual bool is_privacy_supported();
virtual ble_error_t set_address_resolution(
bool enable
) {
DmPrivSetAddrResEnable(enable);
return BLE_ERROR_NONE;
}
);
virtual ble_error_t read_phy(connection_handle_t connection);
virtual ble_error_t set_prefered_phys(
const phy_set_t& tx_phys,
const phy_set_t& rx_phys
);
virtual ble_error_t set_phy(
connection_handle_t connection,
const phy_set_t& tx_phys,
const phy_set_t& rx_phys,
coded_symbol_per_bit_t coded_symbol
);
// singleton of the ARM Cordio client
static Gap& get_gap() {
static Gap _gap;
return _gap;
}
static Gap& get_gap();
private:
typedef bool (*event_handler_t)(const wsfMsgHdr_t* msg);
public:
/**
* Callback which handle wsfMsgHdr_t and forward them to emit_gap_event.
*/
static void gap_handler(const wsfMsgHdr_t* msg) {
if (msg == NULL) {
return;
}
// all handlers are stored in a static array
static const event_handler_t handlers[] = {
&event_handler<ConnectionCompleteMessageConverter>,
&event_handler<GapAdvertisingReportMessageConverter>,
&event_handler<DisconnectionMessageConverter>,
&event_handler<ConnectionUpdateMessageConverter>,
&event_handler<RemoteConnectionParameterRequestMessageConverter>
};
// event->hdr.param: connection handle
// traverse all handlers and execute them with the event in input.
// exit if an handler has handled the event.
for(size_t i = 0; i < (sizeof(handlers)/sizeof(handlers[0])); ++i) {
if (handlers[i](msg)) {
return;
}
}
}
static void gap_handler(const wsfMsgHdr_t* msg);
private:
/**
* T shall define a can_convert and convert function and a type
*/
template<typename T>
static bool event_handler(const wsfMsgHdr_t* msg) {
if (T::can_convert(msg)) {
get_gap().emit_gap_event(T::convert((const typename T::type*)msg));
return true;
}
return false;
}
static bool event_handler(const wsfMsgHdr_t* msg);
/**
* Traits defining can_convert for events.

461
features/FEATURE_BLE/targets/TARGET_CORDIO/source/CordioPalGap.cpp Normal file
View File

@ -0,0 +1,461 @@
/* mbed Microcontroller Library
* Copyright (c) 2017-2018 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "CordioPalGap.h"
#include "hci_api.h"
namespace ble {
namespace pal {
namespace vendor {
namespace cordio {
bool Gap::is_feature_supported(
Gap::ControllerSupportedFeatures_t feature
) {
return (HciGetLeSupFeat() & (1 << feature.value()));
}
ble_error_t Gap::initialize() {
return BLE_ERROR_NONE;
}
ble_error_t Gap::terminate() {
return BLE_ERROR_NONE;
}
address_t Gap::get_device_address() {
return address_t(HciGetBdAddr());
}
address_t Gap::get_random_address() {
return device_random_address;
}
ble_error_t Gap::set_random_address(const address_t& address) {
device_random_address = address;
DmDevSetRandAddr(const_cast<uint8_t*>(address.data()));
return BLE_ERROR_NONE;
}
ble_error_t Gap::set_advertising_parameters(
uint16_t advertising_interval_min,
uint16_t advertising_interval_max,
advertising_type_t advertising_type,
own_address_type_t own_address_type,
advertising_peer_address_type_t peer_address_type,
const address_t& peer_address,
advertising_channel_map_t advertising_channel_map,
advertising_filter_policy_t advertising_filter_policy
) {
DmAdvSetInterval(
DM_ADV_HANDLE_DEFAULT,
advertising_interval_min,
advertising_interval_max
);
DmAdvSetAddrType(own_address_type.value());
DmAdvSetChannelMap(
DM_ADV_HANDLE_DEFAULT,
advertising_channel_map.value()
);
DmDevSetFilterPolicy(
DM_FILT_POLICY_MODE_ADV,
advertising_filter_policy.value()
);
DmAdvConfig(
DM_ADV_HANDLE_DEFAULT,
advertising_type.value(),
peer_address_type.value(),
const_cast<uint8_t*>(peer_address.data())
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::set_advertising_data(
uint8_t advertising_data_length,
const advertising_data_t& advertising_data
) {
DmAdvSetData(
DM_ADV_HANDLE_DEFAULT,
HCI_ADV_DATA_OP_COMP_FRAG,
DM_DATA_LOC_ADV,
advertising_data_length,
const_cast<uint8_t*>(advertising_data.data())
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::set_scan_response_data(
uint8_t scan_response_data_length,
const advertising_data_t& scan_response_data
) {
DmAdvSetData(
DM_ADV_HANDLE_DEFAULT,
HCI_ADV_DATA_OP_COMP_FRAG,
DM_DATA_LOC_SCAN,
scan_response_data_length,
const_cast<uint8_t*>(scan_response_data.data())
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::advertising_enable(bool enable) {
if (enable) {
uint8_t adv_handles[] = { DM_ADV_HANDLE_DEFAULT };
uint16_t adv_durations[] = { /* infinite */ 0 };
uint8_t max_ea_events[] = { 0 };
DmAdvStart(1, adv_handles, adv_durations, max_ea_events);
} else {
uint8_t adv_handles[] = { DM_ADV_HANDLE_DEFAULT };
DmAdvStop(1, adv_handles);
}
return BLE_ERROR_NONE;
}
ble_error_t Gap::set_scan_parameters(
bool active_scanning,
uint16_t scan_interval,
uint16_t scan_window,
own_address_type_t own_address_type,
scanning_filter_policy_t filter_policy
) {
use_active_scanning = active_scanning;
DmScanSetInterval(HCI_INIT_PHY_LE_1M_BIT, &scan_interval, &scan_window);
DmScanSetAddrType(own_address_type.value());
DmDevSetFilterPolicy(
DM_FILT_POLICY_MODE_SCAN,
filter_policy.value()
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::scan_enable(
bool enable,
bool filter_duplicates
) {
if (enable) {
uint8_t scanType = use_active_scanning ? DM_SCAN_TYPE_ACTIVE : DM_SCAN_TYPE_PASSIVE;
DmScanStart(
HCI_SCAN_PHY_LE_1M_BIT,
DM_DISC_MODE_NONE,
&scanType,
filter_duplicates,
0,
0
);
} else {
DmScanStop();
}
return BLE_ERROR_NONE;
}
ble_error_t Gap::create_connection(
uint16_t scan_interval,
uint16_t scan_window,
initiator_policy_t initiator_policy,
connection_peer_address_type_t peer_address_type,
const address_t& peer_address,
own_address_type_t own_address_type,
uint16_t connection_interval_min,
uint16_t connection_interval_max,
uint16_t connection_latency,
uint16_t supervision_timeout,
uint16_t minimum_connection_event_length,
uint16_t maximum_connection_event_length
) {
DmConnSetScanInterval(scan_interval, scan_window);
DmDevSetFilterPolicy(DM_FILT_POLICY_MODE_INIT, initiator_policy.value());
DmConnSetAddrType(own_address_type.value());
hciConnSpec_t conn_spec = {
connection_interval_min,
connection_interval_max,
connection_latency,
supervision_timeout,
minimum_connection_event_length,
maximum_connection_event_length
};
DmConnSetConnSpec(&conn_spec);
dmConnId_t connection_id = DmConnOpen(
DM_CLIENT_ID_APP,
HCI_INIT_PHY_LE_1M_BIT,
peer_address_type.value(),
const_cast<uint8_t*>(peer_address.data())
);
if (connection_id == DM_CONN_ID_NONE) {
return BLE_ERROR_INTERNAL_STACK_FAILURE;
}
return BLE_ERROR_NONE;
}
ble_error_t Gap::cancel_connection_creation() {
DmConnClose(
DM_CLIENT_ID_APP,
/* connection handle - invalid */ DM_CONN_ID_NONE,
/* reason - invalid (use success) */ 0x00
);
return BLE_ERROR_NONE;
}
uint8_t Gap::read_white_list_capacity() {
return HciGetWhiteListSize();
}
ble_error_t Gap::clear_whitelist() {
DmDevWhiteListClear();
return BLE_ERROR_NONE;
}
ble_error_t Gap::add_device_to_whitelist(
whitelist_address_type_t address_type,
address_t address
) {
DmDevWhiteListAdd(
address_type.value(),
const_cast<uint8_t*>(address.data())
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::remove_device_from_whitelist(
whitelist_address_type_t address_type,
address_t address
) {
DmDevWhiteListRemove(
address_type.value(),
const_cast<uint8_t*>(address.data())
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::connection_parameters_update(
connection_handle_t connection,
uint16_t connection_interval_min,
uint16_t connection_interval_max,
uint16_t connection_latency,
uint16_t supervision_timeout,
uint16_t minimum_connection_event_length,
uint16_t maximum_connection_event_length
) {
if (DmConnCheckIdle(connection) != 0) {
return BLE_ERROR_INVALID_STATE;
}
hciConnSpec_t connection_spec = {
connection_interval_min,
connection_interval_max,
connection_latency,
supervision_timeout,
minimum_connection_event_length,
maximum_connection_event_length
};
DmConnUpdate(
connection,
&connection_spec
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::accept_connection_parameter_request(
connection_handle_t connection_handle,
uint16_t interval_min,
uint16_t interval_max,
uint16_t latency,
uint16_t supervision_timeout,
uint16_t minimum_connection_event_length,
uint16_t maximum_connection_event_length
) {
hciConnSpec_t connection_spec = {
interval_min,
interval_max,
latency,
supervision_timeout,
minimum_connection_event_length,
maximum_connection_event_length
};
DmRemoteConnParamReqReply(connection_handle, &connection_spec);
return BLE_ERROR_NONE;
}
ble_error_t Gap::reject_connection_parameter_request(
connection_handle_t connection_handle,
hci_error_code_t rejection_reason
) {
DmRemoteConnParamReqNegReply(
connection_handle,
rejection_reason.value()
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::disconnect(
connection_handle_t connection,
disconnection_reason_t disconnection_reason
) {
DmConnClose(
DM_CLIENT_ID_APP,
connection,
disconnection_reason.value()
);
return BLE_ERROR_NONE;
}
bool Gap::is_privacy_supported() {
// We only support controller-based privacy, so return whether the controller supports it
return HciLlPrivacySupported();
}
ble_error_t Gap::set_address_resolution(
bool enable
) {
DmPrivSetAddrResEnable(enable);
return BLE_ERROR_NONE;
}
ble_error_t Gap::read_phy(connection_handle_t connection) {
HciLeReadPhyCmd(connection);
return BLE_ERROR_NONE;
}
ble_error_t Gap::set_prefered_phys(
const phy_set_t& tx_phys,
const phy_set_t& rx_phys
) {
HciLeSetDefaultPhyCmd(
phy_set_t::all_phys_value(tx_phys, rx_phys),
tx_phys.value(),
rx_phys.value()
);
return BLE_ERROR_NONE;
}
ble_error_t Gap::set_phy(
connection_handle_t connection,
const phy_set_t& tx_phys,
const phy_set_t& rx_phys,
coded_symbol_per_bit_t coded_symbol
) {
/* if phy set is empty set corresponding all_phys bit to 1 */
uint8_t all_phys = 0;
if (tx_phys.value() == 0) {
all_phys |= 0x01;
}
if (rx_phys.value() == 0) {
all_phys |= 0x02;
}
HciLeSetPhyCmd(
connection,
phy_set_t::all_phys_value(tx_phys, rx_phys),
tx_phys.value(),
rx_phys.value(),
coded_symbol.value()
);
return BLE_ERROR_NONE;
}
// singleton of the ARM Cordio client
Gap& Gap::get_gap() {
static Gap _gap;
return _gap;
}
/**
* Callback which handle wsfMsgHdr_t and forward them to emit_gap_event.
*/
void Gap::gap_handler(const wsfMsgHdr_t* msg) {
typedef bool (*event_handler_t)(const wsfMsgHdr_t* msg);
if (msg == NULL) {
return;
}
connection_handle_t handle = (connection_handle_t)msg->param;
switch(msg->event) {
case DM_PHY_READ_IND:
if (get_gap()._pal_event_handler) {
const hciLeReadPhyCmdCmplEvt_t* evt = (const hciLeReadPhyCmdCmplEvt_t*)msg;
get_gap()._pal_event_handler->on_read_phy(
(hci_error_code_t::type)msg->status,
handle,
(ble::phy_t::type)evt->txPhy,
(ble::phy_t::type)evt->rxPhy
);
}
break;
case DM_PHY_UPDATE_IND:
if (get_gap()._pal_event_handler) {
const hciLePhyUpdateEvt_t* evt = (const hciLePhyUpdateEvt_t*)msg;
get_gap()._pal_event_handler->on_phy_update_complete(
(hci_error_code_t::type)msg->status,
handle,
(ble::phy_t::type)evt->txPhy,
(ble::phy_t::type)evt->rxPhy
);
}
break;
}
// all handlers are stored in a static array
static const event_handler_t handlers[] = {
&event_handler<ConnectionCompleteMessageConverter>,
&event_handler<GapAdvertisingReportMessageConverter>,
&event_handler<DisconnectionMessageConverter>,
&event_handler<ConnectionUpdateMessageConverter>,
&event_handler<RemoteConnectionParameterRequestMessageConverter>
};
// event->hdr.param: connection handle
// traverse all handlers and execute them with the event in input.
// exit if an handler has handled the event.
for(size_t i = 0; i < (sizeof(handlers)/sizeof(handlers[0])); ++i) {
if (handlers[i](msg)) {
return;
}
}
}
/**
* T shall define a can_convert and convert function and a type
*/
template<typename T>
bool Gap::event_handler(const wsfMsgHdr_t* msg) {
if (T::can_convert(msg)) {
get_gap().emit_gap_event(T::convert((const typename T::type*)msg));
return true;
}
return false;
}
} // cordio
} // vendor
} // pal
} // ble

38
features/FEATURE_BLE/targets/TARGET_NORDIC/TARGET_NRF52/source/nRF5xGap.cpp
View File

@ -120,28 +120,6 @@ peer_address_type_t convert_identity_address(advertising_peer_address_type_t add
#define BLE_GAP_PHY_AUTO 0
#endif
uint8_t to_nordic_phy_set(const ble::phys_t* phys) {
if (!phys) {
return BLE_GAP_PHY_AUTO;
}
uint8_t nordic_phys = 0;
if (phys->le_1m) {
nordic_phys |= BLE_GAP_PHY_1MBPS;
}
if (phys->le_2m) {
nordic_phys |= BLE_GAP_PHY_2MBPS;
}
if (phys->le_coded) {
nordic_phys |= BLE_GAP_PHY_CODED;
}
return nordic_phys;
}
} // namespace
void radioNotificationStaticCallback(bool param) {
@ -694,11 +672,11 @@ ble_error_t nRF5xGap::readPhy(Handle_t connection) {
}
ble_error_t nRF5xGap::setPreferedPhys(
const Phys_t* txPhys,
const Phys_t* rxPhys
const ble::phy_set_t* txPhys,
const ble::phy_set_t* rxPhys
) {
uint8_t prefered_tx_phys = to_nordic_phy_set(txPhys);
uint8_t prefered_rx_phys = to_nordic_phy_set(rxPhys);
uint8_t prefered_tx_phys = txPhys? txPhys->value() : 0;
uint8_t prefered_rx_phys = rxPhys? rxPhys->value() : 0;
#ifdef S140
ble_opt_t opt = { 0 };
@ -732,8 +710,8 @@ ble_error_t nRF5xGap::setPreferedPhys(
ble_error_t nRF5xGap::setPhy(
Handle_t connection,
const Phys_t* txPhys,
const Phys_t* rxPhys,
const ble::phy_set_t* txPhys,
const ble::phy_set_t* rxPhys,
CodedSymbolPerBit_t codedSymbol
) {
#ifdef S140
@ -741,8 +719,8 @@ ble_error_t nRF5xGap::setPhy(
#else
// TODO handle coded symbol once supported by the softdevice.
ble_gap_phys_t gap_phys = {
to_nordic_phy_set(txPhys),
to_nordic_phy_set(rxPhys)
txPhys? txPhys->value() : 0,
rxPhys? rxPhys->value() : 0
};
uint32_t err = sd_ble_gap_phy_update(connection, &gap_phys);

8
features/FEATURE_BLE/targets/TARGET_NORDIC/TARGET_NRF52/source/nRF5xGap.h
View File

@ -92,13 +92,13 @@ public:
virtual ble_error_t readPhy(Handle_t connection);
virtual ble_error_t setPreferedPhys(
const Phys_t* txPhys,
const Phys_t* rxPhys
const ble::phy_set_t* txPhys,
const ble::phy_set_t* rxPhys
);
virtual ble_error_t setPhy(
Handle_t connection,
const Phys_t* txPhys,
const Phys_t* rxPhys,
const ble::phy_set_t* txPhys,
const ble::phy_set_t* rxPhys,
CodedSymbolPerBit_t codedSymbol
);