/* -*- 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 "mozilla/CDMCaps.h" #include "mozilla/EMEUtils.h" #include "nsThreadUtils.h" #include "SamplesWaitingForKey.h" namespace mozilla { CDMCaps::CDMCaps() : mMonitor("CDMCaps") , mCaps(0) { } CDMCaps::~CDMCaps() { } void CDMCaps::Lock() { mMonitor.Lock(); } void CDMCaps::Unlock() { mMonitor.Unlock(); } bool CDMCaps::HasCap(uint64_t aCap) { mMonitor.AssertCurrentThreadOwns(); return (mCaps & aCap) == aCap; } CDMCaps::AutoLock::AutoLock(CDMCaps& aInstance) : mData(aInstance) { mData.Lock(); } CDMCaps::AutoLock::~AutoLock() { mData.Unlock(); } static void TestCap(uint64_t aFlag, uint64_t aCaps, const nsACString& aCapName, nsACString& aCapStr) { if (!(aFlag & aCaps)) { return; } if (!aCapStr.IsEmpty()) { aCapStr.AppendLiteral(","); } aCapStr.Append(aCapName); } nsCString CapsToString(uint64_t aCaps) { nsCString capsStr; TestCap(GMP_EME_CAP_DECRYPT_AUDIO, aCaps, NS_LITERAL_CSTRING("DecryptAudio"), capsStr); TestCap(GMP_EME_CAP_DECRYPT_VIDEO, aCaps, NS_LITERAL_CSTRING("DecryptVideo"), capsStr); TestCap(GMP_EME_CAP_DECRYPT_AND_DECODE_AUDIO, aCaps, NS_LITERAL_CSTRING("DecryptAndDecodeAudio"), capsStr); TestCap(GMP_EME_CAP_DECRYPT_AND_DECODE_VIDEO, aCaps, NS_LITERAL_CSTRING("DecryptAndDecodeVideo"), capsStr); return capsStr; } void CDMCaps::AutoLock::SetCaps(uint64_t aCaps) { EME_LOG("SetCaps() %s", CapsToString(aCaps).get()); mData.mMonitor.AssertCurrentThreadOwns(); mData.mCaps = aCaps; for (size_t i = 0; i < mData.mWaitForCaps.Length(); i++) { NS_DispatchToMainThread(mData.mWaitForCaps[i], NS_DISPATCH_NORMAL); } mData.mWaitForCaps.Clear(); } void CDMCaps::AutoLock::CallOnMainThreadWhenCapsAvailable(nsIRunnable* aContinuation) { mData.mMonitor.AssertCurrentThreadOwns(); if (mData.mCaps) { NS_DispatchToMainThread(aContinuation, NS_DISPATCH_NORMAL); MOZ_ASSERT(mData.mWaitForCaps.IsEmpty()); } else { mData.mWaitForCaps.AppendElement(aContinuation); } } bool CDMCaps::AutoLock::IsKeyUsable(const CencKeyId& aKeyId) { mData.mMonitor.AssertCurrentThreadOwns(); const auto& keys = mData.mKeyStatuses; for (size_t i = 0; i < keys.Length(); i++) { if (keys[i].mId != aKeyId) { continue; } if (keys[i].mStatus == kGMPUsable || keys[i].mStatus == kGMPOutputDownscaled) { return true; } } return false; } bool CDMCaps::AutoLock::SetKeyStatus(const CencKeyId& aKeyId, const nsString& aSessionId, GMPMediaKeyStatus aStatus) { mData.mMonitor.AssertCurrentThreadOwns(); KeyStatus key(aKeyId, aSessionId, aStatus); auto index = mData.mKeyStatuses.IndexOf(key); if (aStatus == kGMPUnknown) { // Return true if the element is found to notify key changes. return mData.mKeyStatuses.RemoveElement(key); } if (index != mData.mKeyStatuses.NoIndex) { if (mData.mKeyStatuses[index].mStatus == aStatus) { return false; } auto oldStatus = mData.mKeyStatuses[index].mStatus; mData.mKeyStatuses[index].mStatus = aStatus; if (oldStatus == kGMPUsable || oldStatus == kGMPOutputDownscaled) { return true; } } else { mData.mKeyStatuses.AppendElement(key); } // Both kGMPUsable and kGMPOutputDownscaled are treated able to decrypt. // We don't need to notify when transition happens between kGMPUsable and // kGMPOutputDownscaled. Only call NotifyUsable() when we are going from // ![kGMPUsable|kGMPOutputDownscaled] to [kGMPUsable|kGMPOutputDownscaled] if (aStatus != kGMPUsable && aStatus != kGMPOutputDownscaled) { return true; } auto& waiters = mData.mWaitForKeys; size_t i = 0; while (i < waiters.Length()) { auto& w = waiters[i]; if (w.mKeyId == aKeyId) { w.mListener->NotifyUsable(aKeyId); waiters.RemoveElementAt(i); } else { i++; } } return true; } void CDMCaps::AutoLock::NotifyWhenKeyIdUsable(const CencKeyId& aKey, SamplesWaitingForKey* aListener) { mData.mMonitor.AssertCurrentThreadOwns(); MOZ_ASSERT(!IsKeyUsable(aKey)); MOZ_ASSERT(aListener); mData.mWaitForKeys.AppendElement(WaitForKeys(aKey, aListener)); } bool CDMCaps::AutoLock::AreCapsKnown() { mData.mMonitor.AssertCurrentThreadOwns(); return mData.mCaps != 0; } bool CDMCaps::AutoLock::CanRenderAudio() { return mData.HasCap(GMP_EME_CAP_RENDER_AUDIO); } bool CDMCaps::AutoLock::CanRenderVideo() { return mData.HasCap(GMP_EME_CAP_RENDER_VIDEO); } bool CDMCaps::AutoLock::CanDecryptAndDecodeAudio() { return mData.HasCap(GMP_EME_CAP_DECRYPT_AND_DECODE_AUDIO); } bool CDMCaps::AutoLock::CanDecryptAndDecodeVideo() { return mData.HasCap(GMP_EME_CAP_DECRYPT_AND_DECODE_VIDEO); } bool CDMCaps::AutoLock::CanDecryptAudio() { return mData.HasCap(GMP_EME_CAP_DECRYPT_AUDIO); } bool CDMCaps::AutoLock::CanDecryptVideo() { return mData.HasCap(GMP_EME_CAP_DECRYPT_VIDEO); } void CDMCaps::AutoLock::GetKeyStatusesForSession(const nsAString& aSessionId, nsTArray& aOutKeyStatuses) { for (size_t i = 0; i < mData.mKeyStatuses.Length(); i++) { const auto& key = mData.mKeyStatuses[i]; if (key.mSessionId.Equals(aSessionId)) { aOutKeyStatuses.AppendElement(key); } } } void CDMCaps::AutoLock::GetSessionIdsForKeyId(const CencKeyId& aKeyId, nsTArray& aOutSessionIds) { for (const auto& keyStatus : mData.mKeyStatuses) { if (keyStatus.mId == aKeyId) { aOutSessionIds.AppendElement(NS_ConvertUTF16toUTF8(keyStatus.mSessionId)); } } } } // namespace mozilla