/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* 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 MediaMIMETypes_h_ #define MediaMIMETypes_h_ #include "VideoUtils.h" #include "mozilla/Maybe.h" #include "nsString.h" namespace mozilla { namespace dom { struct AudioConfiguration; struct VideoConfiguration; } // namespace dom // Class containing pointing at a media MIME "type/subtype" string literal. // See IsMediaMIMEType for restrictions. // Mainly used to help construct a MediaMIMEType through the statically-checked // MEDIAMIMETYPE macro, or to compare a MediaMIMEType to a literal. class DependentMediaMIMEType { public: // Construction from a literal. Checked in debug builds. // Use MEDIAMIMETYPE macro instead, for static checking. template explicit DependentMediaMIMEType(const char (&aType)[N]) : mMIMEType(aType, N - 1) { MOZ_ASSERT(IsMediaMIMEType(aType, N - 1), "Invalid media MIME type"); } // MIME "type/subtype". const nsDependentCString& AsDependentString() const { return mMIMEType; } private: nsDependentCString mMIMEType; }; // Instantiate a DependentMediaMIMEType from a literal. Statically checked. #define MEDIAMIMETYPE(LIT) \ static_cast([]() { \ static_assert(IsMediaMIMEType(LIT), "Invalid media MIME type"); \ return DependentMediaMIMEType(LIT); \ }()) // Class containing only pre-parsed lowercase media MIME type/subtype. class MediaMIMEType { public: // Construction from a DependentMediaMIMEType, with its inherent checks. // Implicit so MEDIAMIMETYPE can be used wherever a MediaMIMEType is expected. MOZ_IMPLICIT MediaMIMEType(const DependentMediaMIMEType& aType) : mMIMEType(aType.AsDependentString()) {} // MIME "type/subtype", always lowercase. const nsCString& AsString() const { return mMIMEType; } // Comparison with DependentMediaMIMEType. // Useful to compare to MEDIAMIMETYPE literals. bool operator==(const DependentMediaMIMEType& aOther) const { return mMIMEType.Equals(aOther.AsDependentString()); } bool operator!=(const DependentMediaMIMEType& aOther) const { return !mMIMEType.Equals(aOther.AsDependentString()); } bool operator==(const MediaMIMEType& aOther) const { return mMIMEType.Equals(aOther.mMIMEType); } bool operator!=(const MediaMIMEType& aOther) const { return !mMIMEType.Equals(aOther.mMIMEType); } // True if type starts with "application/". bool HasApplicationMajorType() const; // True if type starts with "audio/". // Note that some audio content could be stored in a "video/..." container! bool HasAudioMajorType() const; // True if type starts with "video/". // Note that this does not guarantee 100% that the content is actually video! // (e.g., "video/webm" could contain a vorbis audio track.) bool HasVideoMajorType() const; size_t SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) const; private: friend Maybe MakeMediaMIMEType(const nsAString& aType); friend class MediaExtendedMIMEType; explicit MediaMIMEType(const nsACString& aType); nsCString mMIMEType; // UTF8 MIME "type/subtype". }; Maybe MakeMediaMIMEType(const nsAString& aType); Maybe MakeMediaMIMEType(const nsACString& aType); Maybe MakeMediaMIMEType(const char* aType); // A list of case-sensitive codecs attached to a MediaExtendedMIMEType. class MediaCodecs { public: MediaCodecs() = default; // Construction from a comma-separated list of codecs. Unchecked. explicit MediaCodecs(const nsAString& aCodecs) : mCodecs(aCodecs) {} // Construction from a literal comma-separated list of codecs. Unchecked. template explicit MediaCodecs(const char (&aCodecs)[N]) : mCodecs(NS_ConvertUTF8toUTF16(aCodecs, N - 1)) {} bool IsEmpty() const { return mCodecs.IsEmpty(); } const nsString& AsString() const { return mCodecs; } using RangeType = const StringListRange; // Produces a range object with begin()&end(), can be used in range-for loops. // This will iterate through all codecs, even empty ones (except if the // original list was an empty string). Iterators dereference to // 'const nsDependentString', valid for as long as this MediaCodecs object. RangeType Range() const { return RangeType(mCodecs); }; // Does this list of codecs contain the given aCodec? bool Contains(const nsAString& aCodec) const; // Does this list of codecs contain *all* the codecs in the given list? bool ContainsAll(const MediaCodecs& aCodecs) const; // Does this list of codecs contain a codec starting with the given prefix? bool ContainsPrefix(const nsAString& aCodecPrefix) const; template bool operator==(const char (&aType)[N]) const { return mCodecs.EqualsASCII(aType, N - 1); } size_t SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) const; private: // UTF16 comma-separated list of codecs. // See http://www.rfc-editor.org/rfc/rfc4281.txt for the description // of the 'codecs' parameter. nsString mCodecs; }; // Class containing pre-parsed media MIME type parameters, e.g.: // MIME type/subtype, optional codecs, etc. class MediaExtendedMIMEType { public: explicit MediaExtendedMIMEType(const MediaMIMEType& aType); explicit MediaExtendedMIMEType(MediaMIMEType&& aType); // MIME "type/subtype". const MediaMIMEType& Type() const { return mMIMEType; } // Was there an explicit 'codecs' parameter provided? bool HaveCodecs() const { return mHaveCodecs; } // Codecs. May be empty if not provided or explicitly provided as empty. const MediaCodecs& Codecs() const { return mCodecs; } // Sizes and rates. Maybe GetWidth() const { return GetMaybeNumber(mWidth); } Maybe GetHeight() const { return GetMaybeNumber(mHeight); } Maybe GetFramerate() const { return GetMaybeNumber(mFramerate); } Maybe GetBitrate() const { return GetMaybeNumber(mBitrate); } Maybe GetChannels() const { return GetMaybeNumber(mChannels); } Maybe GetSamplerate() const { return GetMaybeNumber(mSamplerate); } // Original string. Note that "type/subtype" may not be lowercase, // use Type().AsString() instead to get the normalized "type/subtype". const nsCString& OriginalString() const { return mOriginalString; } size_t SizeOfExcludingThis(mozilla::MallocSizeOf aMallocSizeOf) const; private: friend Maybe MakeMediaExtendedMIMEType( const nsAString& aType); friend Maybe MakeMediaExtendedMIMEType( const dom::VideoConfiguration& aConfig); friend Maybe MakeMediaExtendedMIMEType( const dom::AudioConfiguration& aConfig); MediaExtendedMIMEType(const nsACString& aOriginalString, const nsACString& aMIMEType, bool aHaveCodecs, const nsAString& aCodecs, int32_t aWidth, int32_t aHeight, double aFramerate, int32_t aBitrate); MediaExtendedMIMEType(const nsACString& aOriginalString, const nsACString& aMIMEType, bool aHaveCodecs, const nsAString& aCodecs, int32_t aChannels, int32_t aSamplerate, int32_t aBitrate); template Maybe GetMaybeNumber(T aNumber) const { return (aNumber < 0) ? Maybe(Nothing()) : Some(T(aNumber)); } nsCString mOriginalString; // Original full string. MediaMIMEType mMIMEType; // MIME type/subtype. bool mHaveCodecs = false; // If false, mCodecs must be empty. MediaCodecs mCodecs; // For video int32_t mWidth = -1; // -1 if not provided. int32_t mHeight = -1; // -1 if not provided. double mFramerate = -1; // -1 if not provided. // For audio int32_t mChannels = -1; // -1 if not provided. int32_t mSamplerate = -1; // -1 if not provided. // For both audio and video. int32_t mBitrate = -1; // -1 if not provided. }; Maybe MakeMediaExtendedMIMEType(const nsAString& aType); Maybe MakeMediaExtendedMIMEType(const nsACString& aType); Maybe MakeMediaExtendedMIMEType(const char* aType); Maybe MakeMediaExtendedMIMEType( const dom::VideoConfiguration& aConfig); Maybe MakeMediaExtendedMIMEType( const dom::AudioConfiguration& aConfig); } // namespace mozilla #endif // MediaMIMETypes_h_