gecko-dev/dom/fmradio/FMRadioService.h

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/* -*- 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/. */
#ifndef mozilla_dom_fmradioservice_h__
#define mozilla_dom_fmradioservice_h__
#include "mozilla/dom/Nullable.h"
#include "mozilla/dom/PFMRadioRequest.h"
#include "FMRadioCommon.h"
#include "mozilla/Hal.h"
#include "mozilla/Mutex.h"
#include "mozilla/StaticPtr.h"
#include "mozilla/Services.h"
#include "nsThreadUtils.h"
#include "nsIObserver.h"
#include "nsXULAppAPI.h"
BEGIN_FMRADIO_NAMESPACE
class FMRadioReplyRunnable : public nsRunnable
{
public:
FMRadioReplyRunnable() : mResponseType(SuccessResponse()) {}
virtual ~FMRadioReplyRunnable() {}
void
SetReply(const FMRadioResponseType& aResponseType)
{
mResponseType = aResponseType;
}
protected:
FMRadioResponseType mResponseType;
};
/**
* The FMRadio Service Interface for FMRadio.
*
* There are two concrete classes which implement this interface:
* - FMRadioService
* It's used in the main process, implements all the logics about FM Radio.
*
* - FMRadioChild
* It's used in subprocess. It's a kind of proxy which just sends all
* the requests to main process through IPC channel.
*
* All the requests coming from the content page will be redirected to the
* concrete class object.
*
* Consider navigator.mozFMRadio.enable(). Here is the call sequence:
* - OOP
* Child:
* (1) Call navigator.mozFMRadio.enable().
* (2) Return a DOMRequest object, and call FMRadioChild.Enable() with a
* FMRadioReplyRunnable object.
* (3) Send IPC message to main process.
* Parent:
* (4) Call FMRadioService::Enable() with a FMRadioReplyRunnable object.
* (5) Call hal::EnableFMRadio().
* (6) Notify FMRadioService object when FM radio HW is enabled.
* (7) Dispatch the FMRadioReplyRunnable object created in (4).
* (8) Send IPC message back to child process.
* Child:
* (9) Dispatch the FMRadioReplyRunnable object created in (2).
* (10) Fire success callback of the DOMRequest Object created in (2).
* _ _ _ _ _ _ _ _ _ _ _ _ _ _
* | OOP |
* | |
* Page FMRadio | FMRadioChild IPC | FMRadioService Hal
* | (1) | | | | | | |
* |----->| (2) | | | | | |
* | |--------|--------->| (3) | | | |
* | | | |-----------> | | (4) | |
* | | | | |--|---------->| (5) |
* | | | | | | |--------->|
* | | | | | | | (6) |
* | | | | | | (7) |<---------|
* | | | | (8) |<-|-----------| |
* | | (9) | |<----------- | | | |
* | (10) |<-------|----------| | | | |
* |<-----| | | | | | |
* | |
* |_ _ _ _ _ _ _ _ _ _ _ _ _ _|
* - non-OOP
* In non-OOP model, we don't need to send messages between processes, so
* the call sequences are much more simpler, it almost just follows the
* sequences presented in OOP model: (1) (2) (5) (6) (9) and (10).
*
*/
class IFMRadioService
{
protected:
virtual ~IFMRadioService() { }
public:
virtual bool IsEnabled() const = 0;
virtual bool IsRDSEnabled() const = 0;
virtual double GetFrequency() const = 0;
virtual double GetFrequencyUpperBound() const = 0;
virtual double GetFrequencyLowerBound() const = 0;
virtual double GetChannelWidth() const = 0;
virtual Nullable<unsigned short> GetPi() const = 0;
virtual Nullable<uint8_t> GetPty() const = 0;
virtual bool GetPs(nsString& aPsname) = 0;
virtual bool GetRt(nsString& aRadiotext) = 0;
virtual bool GetRdsgroup(uint64_t& aRDSGroup) = 0;
virtual void Enable(double aFrequency, FMRadioReplyRunnable* aReplyRunnable) = 0;
virtual void Disable(FMRadioReplyRunnable* aReplyRunnable) = 0;
virtual void SetFrequency(double aFrequency, FMRadioReplyRunnable* aReplyRunnable) = 0;
virtual void Seek(mozilla::hal::FMRadioSeekDirection aDirection,
FMRadioReplyRunnable* aReplyRunnable) = 0;
virtual void CancelSeek(FMRadioReplyRunnable* aReplyRunnable) = 0;
virtual void SetRDSGroupMask(uint32_t aRDSGroupMask) = 0;
virtual void EnableRDS(FMRadioReplyRunnable* aReplyRunnable) = 0;
virtual void DisableRDS(FMRadioReplyRunnable* aReplyRunnable) = 0;
/**
* Register handler to receive the FM Radio events, including:
* - StateChangedEvent
* - FrequencyChangedEvent
*
* Called by FMRadio and FMRadioParent.
*/
virtual void AddObserver(FMRadioEventObserver* aObserver) = 0;
virtual void RemoveObserver(FMRadioEventObserver* aObserver) = 0;
// Enable/Disable FMRadio
virtual void EnableAudio(bool aAudioEnabled) = 0;
/**
* Static method to return the singleton instance. If it's in the child
* process, we will get an object of FMRadioChild.
*/
static IFMRadioService* Singleton();
};
enum FMRadioState
{
Disabled,
Disabling,
Enabling,
Enabled,
Seeking
};
class FMRadioService final : public IFMRadioService
, public hal::FMRadioObserver
, public hal::FMRadioRDSObserver
, public nsIObserver
{
friend class ReadAirplaneModeSettingTask;
friend class EnableRunnable;
friend class DisableRunnable;
friend class NotifyRunnable;
public:
static FMRadioService* Singleton();
NS_DECL_ISUPPORTS
virtual bool IsEnabled() const override;
virtual bool IsRDSEnabled() const override;
virtual double GetFrequency() const override;
virtual double GetFrequencyUpperBound() const override;
virtual double GetFrequencyLowerBound() const override;
virtual double GetChannelWidth() const override;
virtual Nullable<unsigned short> GetPi() const override;
virtual Nullable<uint8_t> GetPty() const override;
virtual bool GetPs(nsString& aPsname) override;
virtual bool GetRt(nsString& aRadiotext) override;
virtual bool GetRdsgroup(uint64_t& aRDSGroup) override;
virtual void Enable(double aFrequency,
FMRadioReplyRunnable* aReplyRunnable) override;
virtual void Disable(FMRadioReplyRunnable* aReplyRunnable) override;
virtual void SetFrequency(double aFrequency,
FMRadioReplyRunnable* aReplyRunnable) override;
virtual void Seek(mozilla::hal::FMRadioSeekDirection aDirection,
FMRadioReplyRunnable* aReplyRunnable) override;
virtual void CancelSeek(FMRadioReplyRunnable* aReplyRunnable) override;
virtual void SetRDSGroupMask(uint32_t aRDSGroupMask) override;
virtual void EnableRDS(FMRadioReplyRunnable* aReplyRunnable) override;
virtual void DisableRDS(FMRadioReplyRunnable* aReplyRunnable) override;
virtual void AddObserver(FMRadioEventObserver* aObserver) override;
virtual void RemoveObserver(FMRadioEventObserver* aObserver) override;
virtual void EnableAudio(bool aAudioEnabled) override;
/* FMRadioObserver */
void Notify(const hal::FMRadioOperationInformation& aInfo) override;
/* FMRadioRDSObserver */
void Notify(const hal::FMRadioRDSGroup& aRDSGroup) override;
void EnableFMRadio();
void DisableFMRadio();
void DispatchFMRadioEventToMainThread(enum FMRadioEventType aType);
NS_DECL_NSIOBSERVER
protected:
FMRadioService();
virtual ~FMRadioService();
private:
int32_t RoundFrequency(double aFrequencyInMHz);
void NotifyFMRadioEvent(FMRadioEventType aType);
void DoDisable();
void TransitionState(const FMRadioResponseType& aResponse, FMRadioState aState);
void SetState(FMRadioState aState);
void UpdatePowerState();
void UpdateFrequency();
private:
bool mEnabled;
int32_t mPendingFrequencyInKHz;
FMRadioState mState;
bool mHasReadAirplaneModeSetting;
bool mAirplaneModeEnabled;
bool mRDSEnabled;
uint32_t mUpperBoundInKHz;
uint32_t mLowerBoundInKHz;
uint32_t mChannelWidthInKHz;
uint32_t mPreemphasis;
nsCOMPtr<nsIThread> mTuneThread;
RefPtr<FMRadioReplyRunnable> mPendingRequest;
FMRadioEventObserverList mObserverList;
static StaticRefPtr<FMRadioService> sFMRadioService;
uint32_t mRDSGroupMask;
uint16_t mLastPI;
uint16_t mLastPTY;
Atomic<uint32_t> mPI;
Atomic<uint32_t> mPTY;
Atomic<bool> mPISet;
Atomic<bool> mPTYSet;
/* Protects mPSName, mRadiotext, and mRDSGroup */
Mutex mRDSLock;
char16_t mPSName[9];
char16_t mRadiotext[65];
uint64_t mRDSGroup;
uint8_t mPSNameState;
uint16_t mRadiotextState;
uint16_t mTempPSName[8];
uint16_t mTempRadiotext[64];
bool mRadiotextAB;
bool mRDSGroupSet;
bool mPSNameSet;
bool mRadiotextSet;
};
END_FMRADIO_NAMESPACE
#endif // mozilla_dom_fmradioservice_h__