gecko-dev/dom/bluetooth/bluedroid/BluetoothDaemonInterface.cpp

2426 строки
68 KiB
C++

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "BluetoothDaemonInterface.h"
#include <cutils/properties.h>
#include <fcntl.h>
#include <stdlib.h>
#include "BluetoothDaemonA2dpInterface.h"
#include "BluetoothDaemonAvrcpInterface.h"
#include "BluetoothDaemonGattInterface.h"
#include "BluetoothDaemonHandsfreeInterface.h"
#include "BluetoothDaemonHelpers.h"
#include "BluetoothDaemonSetupInterface.h"
#include "BluetoothDaemonSocketInterface.h"
#include "mozilla/ipc/DaemonRunnables.h"
#include "mozilla/ipc/DaemonSocket.h"
#include "mozilla/ipc/DaemonSocketConnector.h"
#include "mozilla/ipc/ListenSocket.h"
#include "mozilla/unused.h"
BEGIN_BLUETOOTH_NAMESPACE
using namespace mozilla::ipc;
static const int sRetryInterval = 100; // ms
//
// Protocol initialization and setup
//
class BluetoothDaemonSetupModule
{
public:
virtual nsresult Send(DaemonSocketPDU* aPDU, void* aUserData) = 0;
// Commands
//
nsresult RegisterModuleCmd(uint8_t aId, uint8_t aMode,
uint32_t aMaxNumClients,
BluetoothSetupResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x00, 0x01, 0));
#if ANDROID_VERSION >= 21
nsresult rv = PackPDU(aId, aMode, aMaxNumClients, *pdu);
#else
nsresult rv = PackPDU(aId, aMode, *pdu);
#endif
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult UnregisterModuleCmd(uint8_t aId,
BluetoothSetupResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x00, 0x02, 0));
nsresult rv = PackPDU(aId, *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult ConfigurationCmd(const BluetoothConfigurationParameter* aParam,
uint8_t aLen, BluetoothSetupResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x00, 0x03, 0));
nsresult rv = PackPDU(
aLen, PackArray<BluetoothConfigurationParameter>(aParam, aLen), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
protected:
// Called to handle PDUs with Service field equal to 0x00, which
// contains internal operations for setup and configuration.
void HandleSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData)
{
static void (BluetoothDaemonSetupModule::* const HandleRsp[])(
const DaemonSocketPDUHeader&,
DaemonSocketPDU&,
BluetoothSetupResultHandler*) = {
INIT_ARRAY_AT(0x00, &BluetoothDaemonSetupModule::ErrorRsp),
INIT_ARRAY_AT(0x01, &BluetoothDaemonSetupModule::RegisterModuleRsp),
INIT_ARRAY_AT(0x02, &BluetoothDaemonSetupModule::UnregisterModuleRsp),
INIT_ARRAY_AT(0x03, &BluetoothDaemonSetupModule::ConfigurationRsp)
};
if (NS_WARN_IF(aHeader.mOpcode >= MOZ_ARRAY_LENGTH(HandleRsp)) ||
NS_WARN_IF(!HandleRsp[aHeader.mOpcode])) {
return;
}
nsRefPtr<BluetoothSetupResultHandler> res =
already_AddRefed<BluetoothSetupResultHandler>(
static_cast<BluetoothSetupResultHandler*>(aUserData));
if (!res) {
return; // Return early if no result handler has been set
}
(this->*(HandleRsp[aHeader.mOpcode]))(aHeader, aPDU, res);
}
nsresult Send(DaemonSocketPDU* aPDU, BluetoothSetupResultHandler* aRes)
{
aRes->AddRef(); // Keep reference for response
return Send(aPDU, static_cast<void*>(aRes));
}
private:
// Responses
//
typedef mozilla::ipc::DaemonResultRunnable0<
BluetoothSetupResultHandler, void>
ResultRunnable;
typedef mozilla::ipc::DaemonResultRunnable1<
BluetoothSetupResultHandler, void, BluetoothStatus, BluetoothStatus>
ErrorRunnable;
void
ErrorRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothSetupResultHandler* aRes)
{
ErrorRunnable::Dispatch(
aRes, &BluetoothSetupResultHandler::OnError, UnpackPDUInitOp(aPDU));
}
void
RegisterModuleRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothSetupResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothSetupResultHandler::RegisterModule,
UnpackPDUInitOp(aPDU));
}
void
UnregisterModuleRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothSetupResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothSetupResultHandler::UnregisterModule,
UnpackPDUInitOp(aPDU));
}
void
ConfigurationRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothSetupResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothSetupResultHandler::Configuration,
UnpackPDUInitOp(aPDU));
}
};
//
// Core module
//
static BluetoothNotificationHandler* sNotificationHandler;
class BluetoothDaemonCoreModule
{
public:
static const int MAX_NUM_CLIENTS;
virtual nsresult Send(DaemonSocketPDU* aPDU, void* aUserData) = 0;
nsresult EnableCmd(BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x01, 0));
nsresult rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult DisableCmd(BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x02, 0));
nsresult rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult GetAdapterPropertiesCmd(BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x03, 0));
nsresult rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult GetAdapterPropertyCmd(const nsAString& aName,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x04, 0));
nsresult rv = PackPDU(
PackConversion<const nsAString, BluetoothPropertyType>(aName), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult SetAdapterPropertyCmd(const BluetoothNamedValue& aProperty,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x05, 0));
nsresult rv = PackPDU(aProperty, *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult GetRemoteDevicePropertiesCmd(const nsAString& aRemoteAddr,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x06, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aRemoteAddr), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult GetRemoteDevicePropertyCmd(const nsAString& aRemoteAddr,
const nsAString& aName,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x07, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aRemoteAddr),
PackConversion<nsAString, BluetoothPropertyType>(aName), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult SetRemoteDevicePropertyCmd(const nsAString& aRemoteAddr,
const BluetoothNamedValue& aProperty,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x08, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aRemoteAddr),
aProperty, *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult GetRemoteServiceRecordCmd(const nsAString& aRemoteAddr,
const uint8_t aUuid[16],
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x09, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aRemoteAddr),
PackArray<uint8_t>(aUuid, 16), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult GetRemoteServicesCmd(const nsAString& aRemoteAddr,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x0a, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aRemoteAddr), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult StartDiscoveryCmd(BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x0b, 0));
nsresult rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult CancelDiscoveryCmd(BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x0c, 0));
nsresult rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult CreateBondCmd(const nsAString& aBdAddr,
BluetoothTransport aTransport,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x0d, 0));
#if ANDROID_VERSION >= 21
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aBdAddr), aTransport, *pdu);
#else
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aBdAddr), *pdu);
#endif
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult RemoveBondCmd(const nsAString& aBdAddr,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x0e, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aBdAddr), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult CancelBondCmd(const nsAString& aBdAddr,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x0f, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aBdAddr), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult PinReplyCmd(const nsAString& aBdAddr, bool aAccept,
const nsAString& aPinCode,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x10, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aBdAddr),
aAccept,
PackConversion<nsAString, BluetoothPinCode>(aPinCode), *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult SspReplyCmd(const nsAString& aBdAddr, BluetoothSspVariant aVariant,
bool aAccept, uint32_t aPasskey,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x11, 0));
nsresult rv = PackPDU(
PackConversion<nsAString, BluetoothAddress>(aBdAddr),
aVariant, aAccept, aPasskey, *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult DutModeConfigureCmd(bool aEnable, BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x12, 0));
nsresult rv = PackPDU(aEnable, *pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult DutModeSendCmd(uint16_t aOpcode, uint8_t* aBuf, uint8_t aLen,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x13, 0));
nsresult rv = PackPDU(aOpcode, aLen, PackArray<uint8_t>(aBuf, aLen),
*pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
nsresult LeTestModeCmd(uint16_t aOpcode, uint8_t* aBuf, uint8_t aLen,
BluetoothResultHandler* aRes)
{
MOZ_ASSERT(NS_IsMainThread());
nsAutoPtr<DaemonSocketPDU> pdu(new DaemonSocketPDU(0x01, 0x14, 0));
nsresult rv = PackPDU(aOpcode, aLen, PackArray<uint8_t>(aBuf, aLen),
*pdu);
if (NS_FAILED(rv)) {
return rv;
}
rv = Send(pdu, aRes);
if (NS_FAILED(rv)) {
return rv;
}
unused << pdu.forget();
return rv;
}
protected:
void HandleSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData)
{
static void (BluetoothDaemonCoreModule::* const HandleOp[])(
const DaemonSocketPDUHeader&, DaemonSocketPDU&, void*) = {
INIT_ARRAY_AT(0, &BluetoothDaemonCoreModule::HandleRsp),
INIT_ARRAY_AT(1, &BluetoothDaemonCoreModule::HandleNtf),
};
MOZ_ASSERT(!NS_IsMainThread());
(this->*(HandleOp[!!(aHeader.mOpcode & 0x80)]))(aHeader, aPDU, aUserData);
}
nsresult Send(DaemonSocketPDU* aPDU, BluetoothResultHandler* aRes)
{
aRes->AddRef(); // Keep reference for response
return Send(aPDU, static_cast<void*>(aRes));
}
private:
// Responses
//
typedef mozilla::ipc::DaemonResultRunnable0<
BluetoothResultHandler, void>
ResultRunnable;
typedef mozilla::ipc::DaemonResultRunnable1<
BluetoothResultHandler, void, BluetoothStatus, BluetoothStatus>
ErrorRunnable;
void ErrorRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ErrorRunnable::Dispatch(
aRes, &BluetoothResultHandler::OnError, UnpackPDUInitOp(aPDU));
}
void EnableRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::Enable, UnpackPDUInitOp(aPDU));
}
void DisableRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::Disable, UnpackPDUInitOp(aPDU));
}
void GetAdapterPropertiesRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::GetAdapterProperties,
UnpackPDUInitOp(aPDU));
}
void GetAdapterPropertyRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::GetAdapterProperty,
UnpackPDUInitOp(aPDU));
}
void SetAdapterPropertyRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::SetAdapterProperty,
UnpackPDUInitOp(aPDU));
}
void GetRemoteDevicePropertiesRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::GetRemoteDeviceProperties,
UnpackPDUInitOp(aPDU));
}
void
GetRemoteDevicePropertyRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::GetRemoteDeviceProperty,
UnpackPDUInitOp(aPDU));
}
void SetRemoteDevicePropertyRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::SetRemoteDeviceProperty,
UnpackPDUInitOp(aPDU));
}
void GetRemoteServiceRecordRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::GetRemoteServiceRecord,
UnpackPDUInitOp(aPDU));
}
void GetRemoteServicesRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::GetRemoteServices,
UnpackPDUInitOp(aPDU));
}
void StartDiscoveryRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::StartDiscovery,
UnpackPDUInitOp(aPDU));
}
void CancelDiscoveryRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::CancelDiscovery,
UnpackPDUInitOp(aPDU));
}
void CreateBondRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::CreateBond,
UnpackPDUInitOp(aPDU));
}
void RemoveBondRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::RemoveBond,
UnpackPDUInitOp(aPDU));
}
void CancelBondRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::CancelBond,
UnpackPDUInitOp(aPDU));
}
void PinReplyRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::PinReply,
UnpackPDUInitOp(aPDU));
}
void SspReplyRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::SspReply,
UnpackPDUInitOp(aPDU));
}
void DutModeConfigureRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::DutModeConfigure,
UnpackPDUInitOp(aPDU));
}
void DutModeSendRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::DutModeSend,
UnpackPDUInitOp(aPDU));
}
void LeTestModeRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU,
BluetoothResultHandler* aRes)
{
ResultRunnable::Dispatch(
aRes, &BluetoothResultHandler::LeTestMode,
UnpackPDUInitOp(aPDU));
}
void HandleRsp(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData)
{
static void (BluetoothDaemonCoreModule::* const HandleRsp[])(
const DaemonSocketPDUHeader&,
DaemonSocketPDU&,
BluetoothResultHandler*) = {
INIT_ARRAY_AT(0x00, &BluetoothDaemonCoreModule::ErrorRsp),
INIT_ARRAY_AT(0x01, &BluetoothDaemonCoreModule::EnableRsp),
INIT_ARRAY_AT(0x02, &BluetoothDaemonCoreModule::DisableRsp),
INIT_ARRAY_AT(0x03, &BluetoothDaemonCoreModule::GetAdapterPropertiesRsp),
INIT_ARRAY_AT(0x04, &BluetoothDaemonCoreModule::GetAdapterPropertyRsp),
INIT_ARRAY_AT(0x05, &BluetoothDaemonCoreModule::SetAdapterPropertyRsp),
INIT_ARRAY_AT(0x06,
&BluetoothDaemonCoreModule::GetRemoteDevicePropertiesRsp),
INIT_ARRAY_AT(0x07,
&BluetoothDaemonCoreModule::GetRemoteDevicePropertyRsp),
INIT_ARRAY_AT(0x08,
&BluetoothDaemonCoreModule::SetRemoteDevicePropertyRsp),
INIT_ARRAY_AT(0x09,
&BluetoothDaemonCoreModule::GetRemoteServiceRecordRsp),
INIT_ARRAY_AT(0x0a, &BluetoothDaemonCoreModule::GetRemoteServicesRsp),
INIT_ARRAY_AT(0x0b, &BluetoothDaemonCoreModule::StartDiscoveryRsp),
INIT_ARRAY_AT(0x0c, &BluetoothDaemonCoreModule::CancelDiscoveryRsp),
INIT_ARRAY_AT(0x0d, &BluetoothDaemonCoreModule::CreateBondRsp),
INIT_ARRAY_AT(0x0e, &BluetoothDaemonCoreModule::RemoveBondRsp),
INIT_ARRAY_AT(0x0f, &BluetoothDaemonCoreModule::CancelBondRsp),
INIT_ARRAY_AT(0x10, &BluetoothDaemonCoreModule::PinReplyRsp),
INIT_ARRAY_AT(0x11, &BluetoothDaemonCoreModule::SspReplyRsp),
INIT_ARRAY_AT(0x12, &BluetoothDaemonCoreModule::DutModeConfigureRsp),
INIT_ARRAY_AT(0x13, &BluetoothDaemonCoreModule::DutModeSendRsp),
INIT_ARRAY_AT(0x14, &BluetoothDaemonCoreModule::LeTestModeRsp),
};
MOZ_ASSERT(!NS_IsMainThread());
if (NS_WARN_IF(!(aHeader.mOpcode < MOZ_ARRAY_LENGTH(HandleRsp))) ||
NS_WARN_IF(!HandleRsp[aHeader.mOpcode])) {
return;
}
nsRefPtr<BluetoothResultHandler> res =
already_AddRefed<BluetoothResultHandler>(
static_cast<BluetoothResultHandler*>(aUserData));
if (!res) {
return; // Return early if no result handler has been set for response
}
(this->*(HandleRsp[aHeader.mOpcode]))(aHeader, aPDU, res);
}
// Notifications
//
class NotificationHandlerWrapper
{
public:
typedef BluetoothNotificationHandler ObjectType;
static ObjectType* GetInstance()
{
MOZ_ASSERT(NS_IsMainThread());
return sNotificationHandler;
}
};
typedef mozilla::ipc::DaemonNotificationRunnable1<
NotificationHandlerWrapper, void, bool>
AdapterStateChangedNotification;
typedef mozilla::ipc::DaemonNotificationRunnable3<
NotificationHandlerWrapper, void, BluetoothStatus, int,
nsAutoArrayPtr<BluetoothProperty>, BluetoothStatus, int,
const BluetoothProperty*>
AdapterPropertiesNotification;
typedef mozilla::ipc::DaemonNotificationRunnable4<
NotificationHandlerWrapper, void, BluetoothStatus, nsString, int,
nsAutoArrayPtr<BluetoothProperty>, BluetoothStatus, const nsAString&,
int, const BluetoothProperty*>
RemoteDevicePropertiesNotification;
typedef mozilla::ipc::DaemonNotificationRunnable2<
NotificationHandlerWrapper, void, int, nsAutoArrayPtr<BluetoothProperty>,
int, const BluetoothProperty*>
DeviceFoundNotification;
typedef mozilla::ipc::DaemonNotificationRunnable1<
NotificationHandlerWrapper, void, bool>
DiscoveryStateChangedNotification;
typedef mozilla::ipc::DaemonNotificationRunnable3<
NotificationHandlerWrapper, void, nsString, nsString, uint32_t,
const nsAString&, const nsAString&>
PinRequestNotification;
typedef mozilla::ipc::DaemonNotificationRunnable5<
NotificationHandlerWrapper, void, nsString, nsString, uint32_t,
BluetoothSspVariant, uint32_t, const nsAString&, const nsAString&>
SspRequestNotification;
typedef mozilla::ipc::DaemonNotificationRunnable3<
NotificationHandlerWrapper, void, BluetoothStatus, nsString,
BluetoothBondState, BluetoothStatus, const nsAString&>
BondStateChangedNotification;
typedef mozilla::ipc::DaemonNotificationRunnable3<
NotificationHandlerWrapper, void, BluetoothStatus, nsString, bool,
BluetoothStatus, const nsAString&>
AclStateChangedNotification;
typedef mozilla::ipc::DaemonNotificationRunnable3<
NotificationHandlerWrapper, void, uint16_t, nsAutoArrayPtr<uint8_t>,
uint8_t, uint16_t, const uint8_t*>
DutModeRecvNotification;
typedef mozilla::ipc::DaemonNotificationRunnable2<
NotificationHandlerWrapper, void, BluetoothStatus, uint16_t>
LeTestModeNotification;
void AdapterStateChangedNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
AdapterStateChangedNotification::Dispatch(
&BluetoothNotificationHandler::AdapterStateChangedNotification,
UnpackPDUInitOp(aPDU));
}
// Init operator class for AdapterPropertiesNotification
class AdapterPropertiesInitOp final : private PDUInitOp
{
public:
AdapterPropertiesInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (BluetoothStatus& aArg1, int& aArg2,
nsAutoArrayPtr<BluetoothProperty>& aArg3) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read status */
nsresult rv = UnpackPDU(pdu, aArg1);
if (NS_FAILED(rv)) {
return rv;
}
/* Read number of properties */
uint8_t numProperties;
rv = UnpackPDU(pdu, numProperties);
if (NS_FAILED(rv)) {
return rv;
}
aArg2 = numProperties;
/* Read properties array */
UnpackArray<BluetoothProperty> properties(aArg3, aArg2);
rv = UnpackPDU(pdu, properties);
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void AdapterPropertiesNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
AdapterPropertiesNotification::Dispatch(
&BluetoothNotificationHandler::AdapterPropertiesNotification,
AdapterPropertiesInitOp(aPDU));
}
// Init operator class for RemoteDevicePropertiesNotification
class RemoteDevicePropertiesInitOp final : private PDUInitOp
{
public:
RemoteDevicePropertiesInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (BluetoothStatus& aArg1, nsString& aArg2, int& aArg3,
nsAutoArrayPtr<BluetoothProperty>& aArg4) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read status */
nsresult rv = UnpackPDU(pdu, aArg1);
if (NS_FAILED(rv)) {
return rv;
}
/* Read address */
rv = UnpackPDU(
pdu, UnpackConversion<BluetoothAddress, nsAString>(aArg2));
if (NS_FAILED(rv)) {
return rv;
}
/* Read number of properties */
uint8_t numProperties;
rv = UnpackPDU(pdu, numProperties);
if (NS_FAILED(rv)) {
return rv;
}
aArg3 = numProperties;
/* Read properties array */
UnpackArray<BluetoothProperty> properties(aArg4, aArg3);
rv = UnpackPDU(pdu, properties);
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void RemoteDevicePropertiesNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
RemoteDevicePropertiesNotification::Dispatch(
&BluetoothNotificationHandler::RemoteDevicePropertiesNotification,
RemoteDevicePropertiesInitOp(aPDU));
}
// Init operator class for DeviceFoundNotification
class DeviceFoundInitOp final : private PDUInitOp
{
public:
DeviceFoundInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (int& aArg1, nsAutoArrayPtr<BluetoothProperty>& aArg2) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read number of properties */
uint8_t numProperties;
nsresult rv = UnpackPDU(pdu, numProperties);
if (NS_FAILED(rv)) {
return rv;
}
aArg1 = numProperties;
/* Read properties array */
UnpackArray<BluetoothProperty> properties(aArg2, aArg1);
rv = UnpackPDU(pdu, properties);
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void DeviceFoundNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
DeviceFoundNotification::Dispatch(
&BluetoothNotificationHandler::DeviceFoundNotification,
DeviceFoundInitOp(aPDU));
}
void DiscoveryStateChangedNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
DiscoveryStateChangedNotification::Dispatch(
&BluetoothNotificationHandler::DiscoveryStateChangedNotification,
UnpackPDUInitOp(aPDU));
}
// Init operator class for PinRequestNotification
class PinRequestInitOp final : private PDUInitOp
{
public:
PinRequestInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (nsString& aArg1, nsString& aArg2, uint32_t& aArg3) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read remote address */
nsresult rv = UnpackPDU(
pdu, UnpackConversion<BluetoothAddress, nsAString>(aArg1));
if (NS_FAILED(rv)) {
return rv;
}
/* Read remote name */
rv = UnpackPDU(
pdu, UnpackConversion<BluetoothRemoteName, nsAString>(aArg2));
if (NS_FAILED(rv)) {
return rv;
}
/* Read CoD */
rv = UnpackPDU(pdu, aArg3);
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void PinRequestNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
PinRequestNotification::Dispatch(
&BluetoothNotificationHandler::PinRequestNotification,
PinRequestInitOp(aPDU));
}
// Init operator class for SspRequestNotification
class SspRequestInitOp final : private PDUInitOp
{
public:
SspRequestInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (nsString& aArg1, nsString& aArg2, uint32_t& aArg3,
BluetoothSspVariant& aArg4, uint32_t& aArg5) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read remote address */
nsresult rv = UnpackPDU(
pdu, UnpackConversion<BluetoothAddress, nsAString>(aArg1));
if (NS_FAILED(rv)) {
return rv;
}
/* Read remote name */
rv = UnpackPDU(
pdu, UnpackConversion<BluetoothRemoteName, nsAString>(aArg2));
if (NS_FAILED(rv)) {
return rv;
}
/* Read CoD */
rv = UnpackPDU(pdu, aArg3);
if (NS_FAILED(rv)) {
return rv;
}
/* Read pairing variant */
rv = UnpackPDU(pdu, aArg4);
if (NS_FAILED(rv)) {
return rv;
}
/* Read passkey */
rv = UnpackPDU(pdu, aArg5);
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void SspRequestNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
SspRequestNotification::Dispatch(
&BluetoothNotificationHandler::SspRequestNotification,
SspRequestInitOp(aPDU));
}
// Init operator class for BondStateChangedNotification
class BondStateChangedInitOp final : private PDUInitOp
{
public:
BondStateChangedInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (BluetoothStatus& aArg1, nsString& aArg2,
BluetoothBondState& aArg3) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read status */
nsresult rv = UnpackPDU(pdu, aArg1);
if (NS_FAILED(rv)) {
return rv;
}
/* Read remote address */
rv = UnpackPDU(
pdu, UnpackConversion<BluetoothAddress, nsAString>(aArg2));
if (NS_FAILED(rv)) {
return rv;
}
/* Read bond state */
rv = UnpackPDU(pdu, aArg3);
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void BondStateChangedNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
BondStateChangedNotification::Dispatch(
&BluetoothNotificationHandler::BondStateChangedNotification,
BondStateChangedInitOp(aPDU));
}
// Init operator class for AclStateChangedNotification
class AclStateChangedInitOp final : private PDUInitOp
{
public:
AclStateChangedInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (BluetoothStatus& aArg1, nsString& aArg2, bool& aArg3) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read status */
nsresult rv = UnpackPDU(pdu, aArg1);
if (NS_FAILED(rv)) {
return rv;
}
/* Read remote address */
rv = UnpackPDU(
pdu, UnpackConversion<BluetoothAddress, nsAString>(aArg2));
if (NS_FAILED(rv)) {
return rv;
}
/* Read ACL state */
rv = UnpackPDU(
pdu, UnpackConversion<BluetoothAclState, bool>(aArg3));
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void AclStateChangedNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
AclStateChangedNotification::Dispatch(
&BluetoothNotificationHandler::AclStateChangedNotification,
AclStateChangedInitOp(aPDU));
}
// Init operator class for DutModeRecvNotification
class DutModeRecvInitOp final : private PDUInitOp
{
public:
DutModeRecvInitOp(DaemonSocketPDU& aPDU)
: PDUInitOp(aPDU)
{ }
nsresult
operator () (uint16_t& aArg1, nsAutoArrayPtr<uint8_t>& aArg2,
uint8_t& aArg3) const
{
DaemonSocketPDU& pdu = GetPDU();
/* Read opcode */
nsresult rv = UnpackPDU(pdu, aArg1);
if (NS_FAILED(rv)) {
return rv;
}
/* Read length */
rv = UnpackPDU(pdu, aArg3);
if (NS_FAILED(rv)) {
return rv;
}
/* Read data */
rv = UnpackPDU(pdu, UnpackArray<uint8_t>(aArg2, aArg3));
if (NS_FAILED(rv)) {
return rv;
}
WarnAboutTrailingData();
return NS_OK;
}
};
void DutModeRecvNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
DutModeRecvNotification::Dispatch(
&BluetoothNotificationHandler::DutModeRecvNotification,
DutModeRecvInitOp(aPDU));
}
void LeTestModeNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU)
{
LeTestModeNotification::Dispatch(
&BluetoothNotificationHandler::LeTestModeNotification,
UnpackPDUInitOp(aPDU));
}
void HandleNtf(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData)
{
static void (BluetoothDaemonCoreModule::* const HandleNtf[])(
const DaemonSocketPDUHeader&, DaemonSocketPDU&) = {
INIT_ARRAY_AT(0, &BluetoothDaemonCoreModule::AdapterStateChangedNtf),
INIT_ARRAY_AT(1, &BluetoothDaemonCoreModule::AdapterPropertiesNtf),
INIT_ARRAY_AT(2, &BluetoothDaemonCoreModule::RemoteDevicePropertiesNtf),
INIT_ARRAY_AT(3, &BluetoothDaemonCoreModule::DeviceFoundNtf),
INIT_ARRAY_AT(4, &BluetoothDaemonCoreModule::DiscoveryStateChangedNtf),
INIT_ARRAY_AT(5, &BluetoothDaemonCoreModule::PinRequestNtf),
INIT_ARRAY_AT(6, &BluetoothDaemonCoreModule::SspRequestNtf),
INIT_ARRAY_AT(7, &BluetoothDaemonCoreModule::BondStateChangedNtf),
INIT_ARRAY_AT(8, &BluetoothDaemonCoreModule::AclStateChangedNtf),
INIT_ARRAY_AT(9, &BluetoothDaemonCoreModule::DutModeRecvNtf),
INIT_ARRAY_AT(10, &BluetoothDaemonCoreModule::LeTestModeNtf)
};
MOZ_ASSERT(!NS_IsMainThread());
uint8_t index = aHeader.mOpcode - 0x81;
if (NS_WARN_IF(!(index < MOZ_ARRAY_LENGTH(HandleNtf))) ||
NS_WARN_IF(!HandleNtf[index])) {
return;
}
(this->*(HandleNtf[index]))(aHeader, aPDU);
}
};
const int BluetoothDaemonCoreModule::MAX_NUM_CLIENTS = 1;
//
// Protocol handling
//
// |BluetoothDaemonProtocol| is the central class for communicating
// with the Bluetooth daemon. It maintains both socket connections
// to the external daemon and implements the complete HAL protocol
// by inheriting from base-class modules.
//
// Each |BluetoothDaemon*Module| class implements an individual
// module of the HAL protocol. Each class contains the abstract
// methods
//
// - |Send|,
// - |RegisterModule|, and
// - |UnregisterModule|.
//
// Module classes use |Send| to send out command PDUs. The socket
// in |BluetoothDaemonProtocol| is required for sending. The abstract
// method hides all these internal details from the modules.
//
// |RegisterModule| is required during module initialization, when
// modules must register themselves at the daemon. The register command
// is not part of the module itself, but contained in the Setup module
// (id of 0x00). The abstract method |RegisterModule| allows modules to
// call into the Setup module for generating the register command.
//
// |UnregisterModule| works like |RegisterModule|, but for cleanups.
//
// |BluetoothDaemonProtocol| also handles PDU receiving. It implements
// the method |Handle| from |DaemonSocketIOConsumer|. The socket
// connections of type |DaemonSocket| invoke this method
// to forward received PDUs for processing by higher layers. The
// implementation of |Handle| checks the service id of the PDU and
// forwards it to the correct module class using the module's method
// |HandleSvc|. Further PDU processing is module-dependent.
//
// To summarize the interface between |BluetoothDaemonProtocol| and
// modules; the former implements the abstract methods
//
// - |Send|,
// - |RegisterModule|, and
// - |UnregisterModule|,
//
// which allow modules to send out data. Each module implements the
// method
//
// - |HandleSvc|,
//
// which is called by |BluetoothDaemonProtcol| to hand over received
// PDUs into a module.
//
class BluetoothDaemonProtocol final
: public DaemonSocketIOConsumer
, public BluetoothDaemonSetupModule
, public BluetoothDaemonCoreModule
, public BluetoothDaemonSocketModule
, public BluetoothDaemonHandsfreeModule
, public BluetoothDaemonA2dpModule
, public BluetoothDaemonAvrcpModule
, public BluetoothDaemonGattModule
{
public:
BluetoothDaemonProtocol();
void SetConnection(DaemonSocket* aConnection);
nsresult RegisterModule(uint8_t aId, uint8_t aMode, uint32_t aMaxNumClients,
BluetoothSetupResultHandler* aRes) override;
nsresult UnregisterModule(uint8_t aId,
BluetoothSetupResultHandler* aRes) override;
// Outgoing PDUs
//
nsresult Send(DaemonSocketPDU* aPDU, void* aUserData) override;
void StoreUserData(const DaemonSocketPDU& aPDU) override;
// Incoming PUDs
//
void Handle(DaemonSocketPDU& aPDU) override;
void* FetchUserData(const DaemonSocketPDUHeader& aHeader);
private:
void HandleSetupSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
void HandleCoreSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
void HandleSocketSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
void HandleHandsfreeSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
void HandleA2dpSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
void HandleAvrcpSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
void HandleGattSvc(const DaemonSocketPDUHeader& aHeader,
DaemonSocketPDU& aPDU, void* aUserData);
DaemonSocket* mConnection;
nsTArray<void*> mUserDataQ;
};
BluetoothDaemonProtocol::BluetoothDaemonProtocol()
{ }
void
BluetoothDaemonProtocol::SetConnection(DaemonSocket* aConnection)
{
mConnection = aConnection;
}
nsresult
BluetoothDaemonProtocol::RegisterModule(uint8_t aId, uint8_t aMode,
uint32_t aMaxNumClients,
BluetoothSetupResultHandler* aRes)
{
return BluetoothDaemonSetupModule::RegisterModuleCmd(aId, aMode,
aMaxNumClients, aRes);
}
nsresult
BluetoothDaemonProtocol::UnregisterModule(uint8_t aId,
BluetoothSetupResultHandler* aRes)
{
return BluetoothDaemonSetupModule::UnregisterModuleCmd(aId, aRes);
}
nsresult
BluetoothDaemonProtocol::Send(DaemonSocketPDU* aPDU, void* aUserData)
{
MOZ_ASSERT(mConnection);
MOZ_ASSERT(aPDU);
aPDU->SetConsumer(this);
aPDU->SetUserData(aUserData);
aPDU->UpdateHeader();
if (mConnection->GetConnectionStatus() == SOCKET_DISCONNECTED) {
BT_LOGR("Connection to Bluetooth daemon is closed.");
return NS_ERROR_FAILURE;
}
mConnection->SendSocketData(aPDU); // Forward PDU to command channel
return NS_OK;
}
void
BluetoothDaemonProtocol::HandleSetupSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonSetupModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::HandleCoreSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonCoreModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::HandleSocketSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonSocketModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::HandleHandsfreeSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonHandsfreeModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::HandleA2dpSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonA2dpModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::HandleAvrcpSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonAvrcpModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::HandleGattSvc(
const DaemonSocketPDUHeader& aHeader, DaemonSocketPDU& aPDU,
void* aUserData)
{
BluetoothDaemonGattModule::HandleSvc(aHeader, aPDU, aUserData);
}
void
BluetoothDaemonProtocol::Handle(DaemonSocketPDU& aPDU)
{
static void (BluetoothDaemonProtocol::* const HandleSvc[])(
const DaemonSocketPDUHeader&, DaemonSocketPDU&, void*) = {
INIT_ARRAY_AT(0x00, &BluetoothDaemonProtocol::HandleSetupSvc),
INIT_ARRAY_AT(0x01, &BluetoothDaemonProtocol::HandleCoreSvc),
INIT_ARRAY_AT(0x02, &BluetoothDaemonProtocol::HandleSocketSvc),
INIT_ARRAY_AT(0x03, nullptr), // HID host
INIT_ARRAY_AT(0x04, nullptr), // PAN
INIT_ARRAY_AT(BluetoothDaemonHandsfreeModule::SERVICE_ID,
&BluetoothDaemonProtocol::HandleHandsfreeSvc),
INIT_ARRAY_AT(BluetoothDaemonA2dpModule::SERVICE_ID,
&BluetoothDaemonProtocol::HandleA2dpSvc),
INIT_ARRAY_AT(0x07, nullptr), // Health
INIT_ARRAY_AT(BluetoothDaemonAvrcpModule::SERVICE_ID,
&BluetoothDaemonProtocol::HandleAvrcpSvc),
INIT_ARRAY_AT(BluetoothDaemonGattModule::SERVICE_ID,
&BluetoothDaemonProtocol::HandleGattSvc)
};
DaemonSocketPDUHeader header;
if (NS_FAILED(UnpackPDU(aPDU, header)) ||
NS_WARN_IF(!(header.mService < MOZ_ARRAY_LENGTH(HandleSvc))) ||
NS_WARN_IF(!(HandleSvc[header.mService]))) {
return;
}
(this->*(HandleSvc[header.mService]))(header, aPDU, FetchUserData(header));
}
void
BluetoothDaemonProtocol::StoreUserData(const DaemonSocketPDU& aPDU)
{
MOZ_ASSERT(!NS_IsMainThread());
mUserDataQ.AppendElement(aPDU.GetUserData());
}
void*
BluetoothDaemonProtocol::FetchUserData(const DaemonSocketPDUHeader& aHeader)
{
MOZ_ASSERT(!NS_IsMainThread());
if (aHeader.mOpcode & 0x80) {
return nullptr; // Ignore notifications
}
void* userData = mUserDataQ.ElementAt(0);
mUserDataQ.RemoveElementAt(0);
return userData;
}
//
// Interface
//
/* returns the container structure of a variable; _t is the container's
* type, _v the name of the variable, and _m is _v's field within _t
*/
#define container(_t, _v, _m) \
( (_t*)( ((const unsigned char*)(_v)) - offsetof(_t, _m) ) )
static bool
IsDaemonRunning()
{
char value[PROPERTY_VALUE_MAX];
NS_WARN_IF(property_get("init.svc.bluetoothd", value, "") < 0);
if (strcmp(value, "running")) {
BT_LOGR("[RESTART] Bluetooth daemon state <%s>", value);
return false;
}
return true;
}
BluetoothDaemonInterface*
BluetoothDaemonInterface::GetInstance()
{
static BluetoothDaemonInterface* sBluetoothInterface;
if (sBluetoothInterface) {
return sBluetoothInterface;
}
sBluetoothInterface = new BluetoothDaemonInterface();
return sBluetoothInterface;
}
BluetoothDaemonInterface::BluetoothDaemonInterface()
{ }
BluetoothDaemonInterface::~BluetoothDaemonInterface()
{ }
class BluetoothDaemonInterface::StartDaemonTask final : public Task
{
public:
StartDaemonTask(BluetoothDaemonInterface* aInterface,
const nsACString& aCommand)
: mInterface(aInterface)
, mCommand(aCommand)
{
MOZ_ASSERT(mInterface);
}
void Run() override
{
MOZ_ASSERT(NS_IsMainThread());
BT_LOGR("Start Daemon Task");
// Start Bluetooth daemon again
if (NS_WARN_IF(property_set("ctl.start", mCommand.get()) < 0)) {
mInterface->OnConnectError(CMD_CHANNEL);
}
// We're done if Bluetooth daemon is already running
if (IsDaemonRunning()) {
return;
}
// Otherwise try again later
MessageLoop::current()->PostDelayedTask(FROM_HERE,
new StartDaemonTask(mInterface, mCommand), sRetryInterval);
}
private:
BluetoothDaemonInterface* mInterface;
nsCString mCommand;
};
class BluetoothDaemonInterface::InitResultHandler final
: public BluetoothSetupResultHandler
{
public:
InitResultHandler(BluetoothDaemonInterface* aInterface,
BluetoothResultHandler* aRes)
: mInterface(aInterface)
, mRes(aRes)
, mRegisteredSocketModule(false)
{
MOZ_ASSERT(mInterface);
}
// We need to call methods from the |BluetoothResultHandler|. Since
// we're already on the main thread and returned from Init, we don't
// need to dispatch a new runnable.
void OnError(BluetoothStatus aStatus) override
{
MOZ_ASSERT(NS_IsMainThread());
if (mRes) {
mRes->OnError(aStatus);
}
}
void RegisterModule() override
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mInterface->mProtocol);
if (!mRegisteredSocketModule) {
mRegisteredSocketModule = true;
// Init, step 5: Register Socket module
mInterface->mProtocol->RegisterModuleCmd(0x02, 0x00,
BluetoothDaemonSocketModule::MAX_NUM_CLIENTS, this);
} else if (mRes) {
// Init, step 6: Signal success to caller
mRes->Init();
}
}
private:
BluetoothDaemonInterface* mInterface;
nsRefPtr<BluetoothResultHandler> mRes;
bool mRegisteredSocketModule;
};
/*
* The init procedure consists of several steps.
*
* (1) Start listening for the command channel's socket connection: We
* do this before anything else, so that we don't miss connection
* requests from the Bluetooth daemon. This step will create a
* listen socket.
*
* (2) Start the Bluetooth daemon: When the daemon starts up it will
* open two socket connections to Gecko and thus create the command
* and notification channels. Gecko already opened the listen socket
* in step (1). Step (2) ends with the creation of the command channel.
*
* (3) Start listening for the notification channel's socket connection:
* At the end of step (2), the command channel was opened by the
* daemon. In step (3), the daemon immediately tries to open the
* next socket for the notification channel. Gecko will accept the
* incoming connection request for the notification channel. The
* listen socket remained open after step (2), so there's no race
* condition between Gecko and the Bluetooth daemon.
*
* (4)(5) Register Core and Socket modules: The Core and Socket modules
* are always available and have to be registered after opening the
* socket connections during the initialization.
*
* (6) Signal success to the caller.
*
* If any step fails, we roll-back the procedure and signal an error to the
* caller.
*/
void
BluetoothDaemonInterface::Init(
BluetoothNotificationHandler* aNotificationHandler,
BluetoothResultHandler* aRes)
{
#define BASE_SOCKET_NAME "bluetoothd"
static unsigned long POSTFIX_LENGTH = 16;
// If we could not cleanup properly before and an old
// instance of the daemon is still running, we kill it
// here.
unused << NS_WARN_IF(property_set("ctl.stop", "bluetoothd"));
sNotificationHandler = aNotificationHandler;
mResultHandlerQ.AppendElement(aRes);
if (!mProtocol) {
mProtocol = new BluetoothDaemonProtocol();
}
if (!mListenSocket) {
mListenSocket = new ListenSocket(this, LISTEN_SOCKET);
}
// Init, step 1: Listen for command channel... */
if (!mCmdChannel) {
mCmdChannel = new DaemonSocket(mProtocol, this, CMD_CHANNEL);
} else if (
NS_WARN_IF(mCmdChannel->GetConnectionStatus() == SOCKET_CONNECTED)) {
// Command channel should not be open; let's close it.
mCmdChannel->Close();
}
// The listen socket's name is generated with a random postfix. This
// avoids naming collisions if we still have a listen socket from a
// previously failed cleanup. It also makes it hard for malicious
// external programs to capture the socket name or connect before
// the daemon can do so. If no random postfix can be generated, we
// simply use the base name as-is.
nsresult rv = DaemonSocketConnector::CreateRandomAddressString(
NS_LITERAL_CSTRING(BASE_SOCKET_NAME), POSTFIX_LENGTH, mListenSocketName);
if (NS_FAILED(rv)) {
mListenSocketName.AssignLiteral(BASE_SOCKET_NAME);
}
rv = mListenSocket->Listen(new DaemonSocketConnector(mListenSocketName),
mCmdChannel);
if (NS_FAILED(rv)) {
OnConnectError(CMD_CHANNEL);
return;
}
// The protocol implementation needs a command channel for
// sending commands to the daemon. We set it here, because
// this is the earliest time when it's available.
mProtocol->SetConnection(mCmdChannel);
}
class BluetoothDaemonInterface::CleanupResultHandler final
: public BluetoothSetupResultHandler
{
public:
CleanupResultHandler(BluetoothDaemonInterface* aInterface)
: mInterface(aInterface)
, mUnregisteredCoreModule(false)
{
MOZ_ASSERT(mInterface);
}
void OnError(BluetoothStatus aStatus) override
{
Proceed();
}
void UnregisterModule() override
{
Proceed();
}
private:
void Proceed()
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(mInterface->mProtocol);
if (!mUnregisteredCoreModule) {
mUnregisteredCoreModule = true;
// Cleanup, step 2: Unregister Core module
mInterface->mProtocol->UnregisterModuleCmd(0x01, this);
} else {
// Cleanup, step 3: Close command channel
mInterface->mCmdChannel->Close();
}
}
BluetoothDaemonInterface* mInterface;
bool mUnregisteredCoreModule;
};
/*
* Cleaning up is inverse to initialization, except for the shutdown
* of the socket connections in step (3)
*
* (1)(2) Unregister Socket and Core modules: These modules have been
* registered during initialization and need to be unregistered
* here. We assume that all other modules are already unregistered.
*
* (3) Close command socket: We only close the command socket. The
* daemon will then send any final notifications and close the
* notification socket on its side. Once we see the notification
* socket's disconnect, we continue with the cleanup.
*
* (4) Close listen socket: The listen socket is not active any longer
* and we simply close it.
*
* (5) Signal success to the caller.
*
* We don't have to stop the daemon explicitly. It will cleanup and quit
* after it closed the notification socket.
*
* Rolling-back half-completed cleanups is not possible. In the case of
* an error, we simply push forward and try to recover during the next
* initialization.
*/
void
BluetoothDaemonInterface::Cleanup(BluetoothResultHandler* aRes)
{
sNotificationHandler = nullptr;
// Cleanup, step 1: Unregister Socket module
nsresult rv = mProtocol->UnregisterModuleCmd(
0x02, new CleanupResultHandler(this));
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
return;
}
mResultHandlerQ.AppendElement(aRes);
}
void
BluetoothDaemonInterface::Enable(BluetoothResultHandler* aRes)
{
nsresult rv =
static_cast<BluetoothDaemonCoreModule*>(mProtocol)->EnableCmd(aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::Disable(BluetoothResultHandler* aRes)
{
nsresult rv =
static_cast<BluetoothDaemonCoreModule*>(mProtocol)->DisableCmd(aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Adapter Properties */
void
BluetoothDaemonInterface::GetAdapterProperties(BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->GetAdapterPropertiesCmd(aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::GetAdapterProperty(const nsAString& aName,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->GetAdapterPropertyCmd(aName, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::SetAdapterProperty(
const BluetoothNamedValue& aProperty, BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->SetAdapterPropertyCmd(aProperty, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Remote Device Properties */
void
BluetoothDaemonInterface::GetRemoteDeviceProperties(
const nsAString& aRemoteAddr, BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->GetRemoteDevicePropertiesCmd(aRemoteAddr, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::GetRemoteDeviceProperty(
const nsAString& aRemoteAddr, const nsAString& aName,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->GetRemoteDevicePropertyCmd(aRemoteAddr, aName, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::SetRemoteDeviceProperty(
const nsAString& aRemoteAddr, const BluetoothNamedValue& aProperty,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->SetRemoteDevicePropertyCmd(aRemoteAddr, aProperty, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Remote Services */
void
BluetoothDaemonInterface::GetRemoteServiceRecord(const nsAString& aRemoteAddr,
const uint8_t aUuid[16],
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->GetRemoteServiceRecordCmd(aRemoteAddr, aUuid, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::GetRemoteServices(const nsAString& aRemoteAddr,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->GetRemoteServicesCmd(aRemoteAddr, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Discovery */
void
BluetoothDaemonInterface::StartDiscovery(BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->StartDiscoveryCmd(aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::CancelDiscovery(BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->CancelDiscoveryCmd(aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Bonds */
void
BluetoothDaemonInterface::CreateBond(const nsAString& aBdAddr,
BluetoothTransport aTransport,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->CreateBondCmd(aBdAddr, aTransport, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::RemoveBond(const nsAString& aBdAddr,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->RemoveBondCmd(aBdAddr, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::CancelBond(const nsAString& aBdAddr,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->CancelBondCmd(aBdAddr, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Connection */
void
BluetoothDaemonInterface::GetConnectionState(const nsAString& aBdAddr,
BluetoothResultHandler* aRes)
{
// NO-OP: no corresponding interface of current BlueZ
}
/* Authentication */
void
BluetoothDaemonInterface::PinReply(const nsAString& aBdAddr, bool aAccept,
const nsAString& aPinCode,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->PinReplyCmd(aBdAddr, aAccept, aPinCode, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::SspReply(const nsAString& aBdAddr,
BluetoothSspVariant aVariant,
bool aAccept, uint32_t aPasskey,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->SspReplyCmd(aBdAddr, aVariant, aAccept, aPasskey, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* DUT Mode */
void
BluetoothDaemonInterface::DutModeConfigure(bool aEnable,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->DutModeConfigureCmd(aEnable, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
void
BluetoothDaemonInterface::DutModeSend(uint16_t aOpcode, uint8_t* aBuf,
uint8_t aLen,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->DutModeSendCmd(aOpcode, aBuf, aLen, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* LE Mode */
void
BluetoothDaemonInterface::LeTestMode(uint16_t aOpcode, uint8_t* aBuf,
uint8_t aLen,
BluetoothResultHandler* aRes)
{
nsresult rv = static_cast<BluetoothDaemonCoreModule*>
(mProtocol)->LeTestModeCmd(aOpcode, aBuf, aLen, aRes);
if (NS_FAILED(rv)) {
DispatchError(aRes, rv);
}
}
/* Energy Information */
void
BluetoothDaemonInterface::ReadEnergyInfo(BluetoothResultHandler* aRes)
{
// NO-OP: no corresponding interface of current BlueZ
}
void
BluetoothDaemonInterface::DispatchError(BluetoothResultHandler* aRes,
BluetoothStatus aStatus)
{
DaemonResultRunnable1<
BluetoothResultHandler, void, BluetoothStatus, BluetoothStatus>::Dispatch(
aRes, &BluetoothResultHandler::OnError,
ConstantInitOp1<BluetoothStatus>(aStatus));
}
void
BluetoothDaemonInterface::DispatchError(BluetoothResultHandler* aRes,
nsresult aRv)
{
BluetoothStatus status;
if (NS_WARN_IF(NS_FAILED(Convert(aRv, status)))) {
status = STATUS_FAIL;
}
DispatchError(aRes, status);
}
// Profile Interfaces
//
BluetoothSocketInterface*
BluetoothDaemonInterface::GetBluetoothSocketInterface()
{
if (mSocketInterface) {
return mSocketInterface;
}
mSocketInterface = new BluetoothDaemonSocketInterface(mProtocol);
return mSocketInterface;
}
BluetoothHandsfreeInterface*
BluetoothDaemonInterface::GetBluetoothHandsfreeInterface()
{
if (mHandsfreeInterface) {
return mHandsfreeInterface;
}
mHandsfreeInterface = new BluetoothDaemonHandsfreeInterface(mProtocol);
return mHandsfreeInterface;
}
BluetoothA2dpInterface*
BluetoothDaemonInterface::GetBluetoothA2dpInterface()
{
if (mA2dpInterface) {
return mA2dpInterface;
}
mA2dpInterface = new BluetoothDaemonA2dpInterface(mProtocol);
return mA2dpInterface;
}
BluetoothAvrcpInterface*
BluetoothDaemonInterface::GetBluetoothAvrcpInterface()
{
if (mAvrcpInterface) {
return mAvrcpInterface;
}
mAvrcpInterface = new BluetoothDaemonAvrcpInterface(mProtocol);
return mAvrcpInterface;
}
BluetoothGattInterface*
BluetoothDaemonInterface::GetBluetoothGattInterface()
{
if (mGattInterface) {
return mGattInterface;
}
mGattInterface = new BluetoothDaemonGattInterface(mProtocol);
return mGattInterface;
}
// |DaemonSocketConsumer|, |ListenSocketConsumer|
void
BluetoothDaemonInterface::OnConnectSuccess(int aIndex)
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(!mResultHandlerQ.IsEmpty());
switch (aIndex) {
case LISTEN_SOCKET: {
// Init, step 2: Start Bluetooth daemon */
nsCString value("bluetoothd:-a ");
value.Append(mListenSocketName);
if (NS_WARN_IF(property_set("ctl.start", value.get()) < 0)) {
OnConnectError(CMD_CHANNEL);
}
/*
* If Bluetooth daemon is not running, retry to start it later.
*
* This condition happens when when we restart Bluetooth daemon
* immediately after it crashed, as the daemon state remains 'stopping'
* instead of 'stopped'. Due to the limitation of property service,
* hereby add delay. See Bug 1143925 Comment 41.
*/
if (!IsDaemonRunning()) {
MessageLoop::current()->PostDelayedTask(FROM_HERE,
new StartDaemonTask(this, value), sRetryInterval);
}
}
break;
case CMD_CHANNEL:
// Init, step 3: Listen for notification channel...
if (!mNtfChannel) {
mNtfChannel = new DaemonSocket(mProtocol, this, NTF_CHANNEL);
} else if (
NS_WARN_IF(mNtfChannel->GetConnectionStatus() == SOCKET_CONNECTED)) {
/* Notification channel should not be open; let's close it. */
mNtfChannel->Close();
}
if (NS_FAILED(mListenSocket->Listen(mNtfChannel))) {
OnConnectError(NTF_CHANNEL);
}
break;
case NTF_CHANNEL: {
nsRefPtr<BluetoothResultHandler> res = mResultHandlerQ.ElementAt(0);
mResultHandlerQ.RemoveElementAt(0);
// Init, step 4: Register Core module
nsresult rv = mProtocol->RegisterModuleCmd(
0x01, 0x00, BluetoothDaemonCoreModule::MAX_NUM_CLIENTS,
new InitResultHandler(this, res));
if (NS_FAILED(rv) && res) {
DispatchError(res, STATUS_FAIL);
}
}
break;
}
}
void
BluetoothDaemonInterface::OnConnectError(int aIndex)
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(!mResultHandlerQ.IsEmpty());
switch (aIndex) {
case NTF_CHANNEL:
// Close command channel
mCmdChannel->Close();
case CMD_CHANNEL:
// Stop daemon and close listen socket
unused << NS_WARN_IF(property_set("ctl.stop", "bluetoothd"));
mListenSocket->Close();
case LISTEN_SOCKET:
if (!mResultHandlerQ.IsEmpty()) {
// Signal error to caller
nsRefPtr<BluetoothResultHandler> res = mResultHandlerQ.ElementAt(0);
mResultHandlerQ.RemoveElementAt(0);
if (res) {
DispatchError(res, STATUS_FAIL);
}
}
break;
}
}
/*
* Three cases for restarting:
* a) during startup
* b) during regular service
* c) during shutdown
* For (a)/(c) cases, mResultHandlerQ contains an element, but case (b)
* mResultHandlerQ shall be empty. The following procedure to recover from crashed
* consists of several steps for case (b).
* 1) Close listen socket.
* 2) Wait for all sockets disconnected and inform BluetoothServiceBluedroid to
* perform the regular stop bluetooth procedure.
* 3) When stop bluetooth procedures complete, fire
* AdapterStateChangedNotification to cleanup all necessary data members and
* deinit ProfileManagers.
* 4) After all resources cleanup, call |StartBluetooth|
*/
void
BluetoothDaemonInterface::OnDisconnect(int aIndex)
{
MOZ_ASSERT(NS_IsMainThread());
switch (aIndex) {
case CMD_CHANNEL:
// We don't have to do anything here. Step 4 is triggered
// by the daemon.
break;
case NTF_CHANNEL:
// Cleanup, step 4 (Recovery, step 1): Close listen socket
mListenSocket->Close();
break;
case LISTEN_SOCKET:
if (!mResultHandlerQ.IsEmpty()) {
nsRefPtr<BluetoothResultHandler> res = mResultHandlerQ.ElementAt(0);
mResultHandlerQ.RemoveElementAt(0);
// Cleanup, step 5: Signal success to caller
if (res) {
res->Cleanup();
}
}
break;
}
/* For recovery make sure all sockets disconnected, in order to avoid
* the remaining disconnects interfere with the restart procedure.
*/
if (sNotificationHandler && mResultHandlerQ.IsEmpty()) {
if (mListenSocket->GetConnectionStatus() == SOCKET_DISCONNECTED &&
mCmdChannel->GetConnectionStatus() == SOCKET_DISCONNECTED &&
mNtfChannel->GetConnectionStatus() == SOCKET_DISCONNECTED) {
// Assume daemon crashed during regular service; notify
// BluetoothServiceBluedroid to prepare restart-daemon procedure
sNotificationHandler->BackendErrorNotification(true);
sNotificationHandler = nullptr;
}
}
}
END_BLUETOOTH_NAMESPACE