/* $Id: HDAStreamPeriod.cpp 76553 2019-01-01 01:45:53Z vboxsync $ */ /** @file * HDAStreamPeriod.cpp - Stream period functions for HD Audio. * * Utility functions for handling HDA audio stream periods. Stream period * handling is needed in order to keep track of a stream's timing * and processed audio data. * * As the HDA device only has one bit clock (WALCLK) but audio streams can be * processed at certain points in time, these functions can be used to estimate * and schedule the wall clock (WALCLK) for all streams accordingly. */ /* * Copyright (C) 2017-2019 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #define LOG_GROUP LOG_GROUP_DEV_HDA #include #include /* For ASMMultU64ByU32DivByU32(). */ #include #include #include "DrvAudio.h" #include "HDAStreamPeriod.h" #ifdef IN_RING3 /* entire file currently */ /** * Creates a stream period. * * @return IPRT status code. * @param pPeriod Stream period to initialize. */ int hdaR3StreamPeriodCreate(PHDASTREAMPERIOD pPeriod) { Assert(!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_VALID)); int rc = RTCritSectInit(&pPeriod->CritSect); AssertRCReturnStmt(rc, pPeriod->fStatus = 0, rc); pPeriod->fStatus = HDASTREAMPERIOD_FLAG_VALID; return VINF_SUCCESS; } /** * Destroys a formerly created stream period. * * @param pPeriod Stream period to destroy. */ void hdaR3StreamPeriodDestroy(PHDASTREAMPERIOD pPeriod) { if (pPeriod->fStatus & HDASTREAMPERIOD_FLAG_VALID) { RTCritSectDelete(&pPeriod->CritSect); pPeriod->fStatus = HDASTREAMPERIOD_FLAG_NONE; } } /** * Initializes a given stream period with needed parameters. * * @return VBox status code. * @param pPeriod Stream period to (re-)initialize. Must be created with hdaR3StreamPeriodCreate() first. * @param u8SD Stream descriptor (serial data #) number to assign this stream period to. * @param u16LVI The HDA stream's LVI value to use for the period calculation. * @param u32CBL The HDA stream's CBL value to use for the period calculation. * @param pStreamCfg Audio stream configuration to use for this period. */ int hdaR3StreamPeriodInit(PHDASTREAMPERIOD pPeriod, uint8_t u8SD, uint16_t u16LVI, uint32_t u32CBL, PPDMAUDIOSTREAMCFG pStreamCfg) { if ( !u16LVI || !u32CBL || !DrvAudioHlpPCMPropsAreValid(&pStreamCfg->Props)) { return VERR_INVALID_PARAMETER; } /* * Linux guests (at least Ubuntu): * 17632 bytes (CBL) / 4 (frame size) = 4408 frames / 4 (LVI) = 1102 frames per period * * Windows guests (Win10 AU): * 3584 bytes (CBL) / 4 (frame size) = 896 frames / 2 (LVI) = 448 frames per period */ unsigned cTotalPeriods = u16LVI + 1; if (cTotalPeriods <= 1) cTotalPeriods = 2; /* At least two periods *must* be present (LVI >= 1). */ uint32_t framesToTransfer = (u32CBL / 4 /** @todo Define frame size? */) / cTotalPeriods; pPeriod->u8SD = u8SD; pPeriod->u64StartWalClk = 0; pPeriod->u32Hz = pStreamCfg->Props.uHz; pPeriod->u64DurationWalClk = hdaR3StreamPeriodFramesToWalClk(pPeriod, framesToTransfer); pPeriod->u64ElapsedWalClk = 0; pPeriod->i64DelayWalClk = 0; pPeriod->framesToTransfer = framesToTransfer; pPeriod->framesTransferred = 0; pPeriod->cIntPending = 0; Log3Func(("[SD%RU8] %RU64 long, Hz=%RU32, CBL=%RU32, LVI=%RU16 -> %u periods, %RU32 frames each\n", pPeriod->u8SD, pPeriod->u64DurationWalClk, pPeriod->u32Hz, u32CBL, u16LVI, cTotalPeriods, pPeriod->framesToTransfer)); return VINF_SUCCESS; } /** * Resets a stream period to its initial state. * * @param pPeriod Stream period to reset. */ void hdaR3StreamPeriodReset(PHDASTREAMPERIOD pPeriod) { Log3Func(("[SD%RU8]\n", pPeriod->u8SD)); if (pPeriod->cIntPending) LogRelMax(50, ("HDA: Warning: %RU8 interrupts for stream #%RU8 still pending -- so a period reset might trigger audio hangs\n", pPeriod->cIntPending, pPeriod->u8SD)); pPeriod->fStatus &= ~HDASTREAMPERIOD_FLAG_ACTIVE; pPeriod->u64StartWalClk = 0; pPeriod->u64ElapsedWalClk = 0; pPeriod->framesTransferred = 0; pPeriod->cIntPending = 0; # ifdef LOG_ENABLED pPeriod->Dbg.tsStartNs = 0; # endif } /** * Begins a new period life span of a given period. * * @return IPRT status code. * @param pPeriod Stream period to begin new life span for. * @param u64WalClk Wall clock (WALCLK) value to set for the period's starting point. */ int hdaR3StreamPeriodBegin(PHDASTREAMPERIOD pPeriod, uint64_t u64WalClk) { Assert(!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE)); /* No nested calls. */ pPeriod->fStatus |= HDASTREAMPERIOD_FLAG_ACTIVE; pPeriod->u64StartWalClk = u64WalClk; pPeriod->u64ElapsedWalClk = 0; pPeriod->framesTransferred = 0; pPeriod->cIntPending = 0; # ifdef LOG_ENABLED pPeriod->Dbg.tsStartNs = RTTimeNanoTS(); # endif Log3Func(("[SD%RU8] Starting @ %RU64 (%RU64 long)\n", pPeriod->u8SD, pPeriod->u64StartWalClk, pPeriod->u64DurationWalClk)); return VINF_SUCCESS; } /** * Ends a formerly begun period life span. * * @param pPeriod Stream period to end life span for. */ void hdaR3StreamPeriodEnd(PHDASTREAMPERIOD pPeriod) { Log3Func(("[SD%RU8] Took %zuus\n", pPeriod->u8SD, (RTTimeNanoTS() - pPeriod->Dbg.tsStartNs) / 1000)); if (!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE)) return; /* Sanity. */ AssertMsg(pPeriod->cIntPending == 0, ("%RU8 interrupts for stream #%RU8 still pending -- so ending a period might trigger audio hangs\n", pPeriod->cIntPending, pPeriod->u8SD)); Assert(hdaR3StreamPeriodIsComplete(pPeriod)); pPeriod->fStatus &= ~HDASTREAMPERIOD_FLAG_ACTIVE; } /** * Pauses a period. All values remain intact. * * @param pPeriod Stream period to pause. */ void hdaR3StreamPeriodPause(PHDASTREAMPERIOD pPeriod) { AssertMsg((pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE), ("Period %p already in inactive state\n", pPeriod)); pPeriod->fStatus &= ~HDASTREAMPERIOD_FLAG_ACTIVE; Log3Func(("[SD%RU8]\n", pPeriod->u8SD)); } /** * Resumes a formerly paused period. * * @param pPeriod Stream period to resume. */ void hdaR3StreamPeriodResume(PHDASTREAMPERIOD pPeriod) { AssertMsg(!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE), ("Period %p already in active state\n", pPeriod)); pPeriod->fStatus |= HDASTREAMPERIOD_FLAG_ACTIVE; Log3Func(("[SD%RU8]\n", pPeriod->u8SD)); } /** * Locks a stream period for serializing access. * * @return true if locking was successful, false if not. * @param pPeriod Stream period to lock. */ bool hdaR3StreamPeriodLock(PHDASTREAMPERIOD pPeriod) { return RT_SUCCESS(RTCritSectEnter(&pPeriod->CritSect)); } /** * Unlocks a formerly locked stream period. * * @param pPeriod Stream period to unlock. */ void hdaR3StreamPeriodUnlock(PHDASTREAMPERIOD pPeriod) { int rc2 = RTCritSectLeave(&pPeriod->CritSect); AssertRC(rc2); } /** * Returns the wall clock (WALCLK) value for a given amount of stream period audio frames. * * @return Calculated wall clock value. * @param pPeriod Stream period to calculate wall clock value for. * @param uFrames Number of audio frames to calculate wall clock value for. * * @remark Calculation depends on the given stream period and assumes a 24 MHz wall clock counter (WALCLK). */ uint64_t hdaR3StreamPeriodFramesToWalClk(PHDASTREAMPERIOD pPeriod, uint32_t uFrames) { /* Prevent division by zero. */ const uint32_t uHz = pPeriod->u32Hz ? pPeriod->u32Hz : 1; /* 24 MHz wall clock (WALCLK): 42ns resolution. */ return ASMMultU64ByU32DivByU32(uFrames, 24000000, uHz); } /** * Returns the absolute wall clock (WALCLK) value for the already elapsed time of * a given stream period. * * @return Absolute elapsed time as wall clock (WALCLK) value. * @param pPeriod Stream period to use. */ uint64_t hdaR3StreamPeriodGetAbsElapsedWalClk(PHDASTREAMPERIOD pPeriod) { return pPeriod->u64StartWalClk + pPeriod->u64ElapsedWalClk + pPeriod->i64DelayWalClk; } /** * Returns the absolute wall clock (WALCLK) value for the calculated end time of * a given stream period. * * @return Absolute end time as wall clock (WALCLK) value. * @param pPeriod Stream period to use. */ uint64_t hdaR3StreamPeriodGetAbsEndWalClk(PHDASTREAMPERIOD pPeriod) { return pPeriod->u64StartWalClk + pPeriod->u64DurationWalClk; } /** * Returns the remaining audio frames to process for a given stream period. * * @return Number of remaining audio frames to process. 0 if all were processed. * @param pPeriod Stream period to return value for. */ uint32_t hdaR3StreamPeriodGetRemainingFrames(PHDASTREAMPERIOD pPeriod) { Assert(pPeriod->framesToTransfer >= pPeriod->framesTransferred); return pPeriod->framesToTransfer - pPeriod->framesTransferred; } /** * Tells whether a given stream period has elapsed (time-wise) or not. * * @return true if the stream period has elapsed, false if not. * @param pPeriod Stream period to get status for. */ bool hdaR3StreamPeriodHasElapsed(PHDASTREAMPERIOD pPeriod) { return (pPeriod->u64ElapsedWalClk >= pPeriod->u64DurationWalClk); } /** * Tells whether a given stream period has passed the given absolute wall clock (WALCLK) * time or not * * @return true if the stream period has passed the given time, false if not. * @param pPeriod Stream period to get status for. * @param u64WalClk Absolute wall clock (WALCLK) time to check for. */ bool hdaR3StreamPeriodHasPassedAbsWalClk(PHDASTREAMPERIOD pPeriod, uint64_t u64WalClk) { /* Period not in use? */ if (!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE)) return true; /* ... implies that it has passed. */ if (hdaR3StreamPeriodHasElapsed(pPeriod)) return true; /* Period already has elapsed. */ return (pPeriod->u64StartWalClk + pPeriod->u64ElapsedWalClk) >= u64WalClk; } /** * Tells whether a given stream period has some required interrupts pending or not. * * @return true if period has interrupts pending, false if not. * @param pPeriod Stream period to get status for. */ bool hdaR3StreamPeriodNeedsInterrupt(PHDASTREAMPERIOD pPeriod) { return pPeriod->cIntPending > 0; } /** * Acquires (references) an (pending) interrupt for a given stream period. * * @param pPeriod Stream period to acquire interrupt for. * * @remark This routine does not do any actual interrupt processing; it only * keeps track of the required (pending) interrupts for a stream period. */ void hdaR3StreamPeriodAcquireInterrupt(PHDASTREAMPERIOD pPeriod) { uint32_t cIntPending = pPeriod->cIntPending; if (cIntPending) { Log3Func(("[SD%RU8] Already pending\n", pPeriod->u8SD)); return; } pPeriod->cIntPending++; Log3Func(("[SD%RU8] %RU32\n", pPeriod->u8SD, pPeriod->cIntPending)); } /** * Releases (dereferences) a pending interrupt. * * @param pPeriod Stream period to release pending interrupt for. */ void hdaR3StreamPeriodReleaseInterrupt(PHDASTREAMPERIOD pPeriod) { Assert(pPeriod->cIntPending); pPeriod->cIntPending--; Log3Func(("[SD%RU8] %RU32\n", pPeriod->u8SD, pPeriod->cIntPending)); } /** * Adds an amount of (processed) audio frames to a given stream period. * * @return IPRT status code. * @param pPeriod Stream period to add audio frames to. * @param framesInc Audio frames to add. */ void hdaR3StreamPeriodInc(PHDASTREAMPERIOD pPeriod, uint32_t framesInc) { pPeriod->framesTransferred += framesInc; Assert(pPeriod->framesTransferred <= pPeriod->framesToTransfer); pPeriod->u64ElapsedWalClk = hdaR3StreamPeriodFramesToWalClk(pPeriod, pPeriod->framesTransferred); Assert(pPeriod->u64ElapsedWalClk <= pPeriod->u64DurationWalClk); Log3Func(("[SD%RU8] cbTransferred=%RU32, u64ElapsedWalClk=%RU64\n", pPeriod->u8SD, pPeriod->framesTransferred, pPeriod->u64ElapsedWalClk)); } /** * Tells whether a given stream period is considered as complete or not. * * @return true if stream period is complete, false if not. * @param pPeriod Stream period to report status for. * * @remark A stream period is considered complete if it has 1) passed (elapsed) its calculated period time * and 2) processed all required audio frames. */ bool hdaR3StreamPeriodIsComplete(PHDASTREAMPERIOD pPeriod) { const bool fIsComplete = /* Has the period elapsed time-wise? */ hdaR3StreamPeriodHasElapsed(pPeriod) /* All frames transferred? */ && pPeriod->framesTransferred >= pPeriod->framesToTransfer; # ifdef VBOX_STRICT if (fIsComplete) { Assert(pPeriod->framesTransferred == pPeriod->framesToTransfer); Assert(pPeriod->u64ElapsedWalClk == pPeriod->u64DurationWalClk); } # endif Log3Func(("[SD%RU8] Period %s - runtime %RU64 / %RU64 (abs @ %RU64, starts @ %RU64, ends @ %RU64), %RU8 IRQs pending\n", pPeriod->u8SD, fIsComplete ? "COMPLETE" : "NOT COMPLETE YET", pPeriod->u64ElapsedWalClk, pPeriod->u64DurationWalClk, hdaR3StreamPeriodGetAbsElapsedWalClk(pPeriod), pPeriod->u64StartWalClk, hdaR3StreamPeriodGetAbsEndWalClk(pPeriod), pPeriod->cIntPending)); return fIsComplete; } #endif /* IN_RING3 */