HDAStreamPeriod.cpp@ 77807

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1	/* $Id: HDAStreamPeriod.cpp 76553 2019-01-01 01:45:53Z vboxsync $ */
2	/** @file
3	* HDAStreamPeriod.cpp - Stream period functions for HD Audio.
4	*
5	* Utility functions for handling HDA audio stream periods. Stream period
6	* handling is needed in order to keep track of a stream's timing
7	* and processed audio data.
8	*
9	* As the HDA device only has one bit clock (WALCLK) but audio streams can be
10	* processed at certain points in time, these functions can be used to estimate
11	* and schedule the wall clock (WALCLK) for all streams accordingly.
12	*/
13
14	/*
15	* Copyright (C) 2017-2019 Oracle Corporation
16	*
17	* This file is part of VirtualBox Open Source Edition (OSE), as
18	* available from http://www.virtualbox.org. This file is free software;
19	* you can redistribute it and/or modify it under the terms of the GNU
20	* General Public License (GPL) as published by the Free Software
21	* Foundation, in version 2 as it comes in the "COPYING" file of the
22	* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
23	* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
24	*/
25
26
27	/*********************************************************************************************************************************
28	* Header Files *
29	*********************************************************************************************************************************/
30	#define LOG_GROUP LOG_GROUP_DEV_HDA
31	#include <VBox/log.h>
32
33	#include <iprt/asm-math.h> /* For ASMMultU64ByU32DivByU32(). */
34
35	#include <VBox/vmm/pdmdev.h>
36	#include <VBox/vmm/pdmaudioifs.h>
37
38	#include "DrvAudio.h"
39	#include "HDAStreamPeriod.h"
40
41
42	#ifdef IN_RING3 /* entire file currently */
43
44	/**
45	* Creates a stream period.
46	*
47	* @return IPRT status code.
48	* @param pPeriod Stream period to initialize.
49	*/
50	int hdaR3StreamPeriodCreate(PHDASTREAMPERIOD pPeriod)
51	{
52	Assert(!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_VALID));
53
54	int rc = RTCritSectInit(&pPeriod->CritSect);
55	AssertRCReturnStmt(rc, pPeriod->fStatus = 0, rc);
56	pPeriod->fStatus = HDASTREAMPERIOD_FLAG_VALID;
57
58	return VINF_SUCCESS;
59	}
60
61	/**
62	* Destroys a formerly created stream period.
63	*
64	* @param pPeriod Stream period to destroy.
65	*/
66	void hdaR3StreamPeriodDestroy(PHDASTREAMPERIOD pPeriod)
67	{
68	if (pPeriod->fStatus & HDASTREAMPERIOD_FLAG_VALID)
69	{
70	RTCritSectDelete(&pPeriod->CritSect);
71
72	pPeriod->fStatus = HDASTREAMPERIOD_FLAG_NONE;
73	}
74	}
75
76	/**
77	* Initializes a given stream period with needed parameters.
78	*
79	* @return VBox status code.
80	* @param pPeriod Stream period to (re-)initialize. Must be created with hdaR3StreamPeriodCreate() first.
81	* @param u8SD Stream descriptor (serial data #) number to assign this stream period to.
82	* @param u16LVI The HDA stream's LVI value to use for the period calculation.
83	* @param u32CBL The HDA stream's CBL value to use for the period calculation.
84	* @param pStreamCfg Audio stream configuration to use for this period.
85	*/
86	int hdaR3StreamPeriodInit(PHDASTREAMPERIOD pPeriod,
87	uint8_t u8SD, uint16_t u16LVI, uint32_t u32CBL, PPDMAUDIOSTREAMCFG pStreamCfg)
88	{
89	if ( !u16LVI
90	\|\| !u32CBL
91	\|\| !DrvAudioHlpPCMPropsAreValid(&pStreamCfg->Props))
92	{
93	return VERR_INVALID_PARAMETER;
94	}
95
96	/*
97	* Linux guests (at least Ubuntu):
98	* 17632 bytes (CBL) / 4 (frame size) = 4408 frames / 4 (LVI) = 1102 frames per period
99	*
100	* Windows guests (Win10 AU):
101	* 3584 bytes (CBL) / 4 (frame size) = 896 frames / 2 (LVI) = 448 frames per period
102	*/
103	unsigned cTotalPeriods = u16LVI + 1;
104
105	if (cTotalPeriods <= 1)
106	cTotalPeriods = 2; /* At least two periods must be present (LVI >= 1). */
107
108	uint32_t framesToTransfer = (u32CBL / 4 /** @todo Define frame size? */) / cTotalPeriods;
109
110	pPeriod->u8SD = u8SD;
111	pPeriod->u64StartWalClk = 0;
112	pPeriod->u32Hz = pStreamCfg->Props.uHz;
113	pPeriod->u64DurationWalClk = hdaR3StreamPeriodFramesToWalClk(pPeriod, framesToTransfer);
114	pPeriod->u64ElapsedWalClk = 0;
115	pPeriod->i64DelayWalClk = 0;
116	pPeriod->framesToTransfer = framesToTransfer;
117	pPeriod->framesTransferred = 0;
118	pPeriod->cIntPending = 0;
119
120	Log3Func(("[SD%RU8] %RU64 long, Hz=%RU32, CBL=%RU32, LVI=%RU16 -> %u periods, %RU32 frames each\n",
121	pPeriod->u8SD, pPeriod->u64DurationWalClk, pPeriod->u32Hz, u32CBL, u16LVI,
122	cTotalPeriods, pPeriod->framesToTransfer));
123
124	return VINF_SUCCESS;
125	}
126
127	/**
128	* Resets a stream period to its initial state.
129	*
130	* @param pPeriod Stream period to reset.
131	*/
132	void hdaR3StreamPeriodReset(PHDASTREAMPERIOD pPeriod)
133	{
134	Log3Func(("[SD%RU8]\n", pPeriod->u8SD));
135
136	if (pPeriod->cIntPending)
137	LogRelMax(50, ("HDA: Warning: %RU8 interrupts for stream #%RU8 still pending -- so a period reset might trigger audio hangs\n",
138	pPeriod->cIntPending, pPeriod->u8SD));
139
140	pPeriod->fStatus &= ~HDASTREAMPERIOD_FLAG_ACTIVE;
141	pPeriod->u64StartWalClk = 0;
142	pPeriod->u64ElapsedWalClk = 0;
143	pPeriod->framesTransferred = 0;
144	pPeriod->cIntPending = 0;
145	# ifdef LOG_ENABLED
146	pPeriod->Dbg.tsStartNs = 0;
147	# endif
148	}
149
150	/**
151	* Begins a new period life span of a given period.
152	*
153	* @return IPRT status code.
154	* @param pPeriod Stream period to begin new life span for.
155	* @param u64WalClk Wall clock (WALCLK) value to set for the period's starting point.
156	*/
157	int hdaR3StreamPeriodBegin(PHDASTREAMPERIOD pPeriod, uint64_t u64WalClk)
158	{
159	Assert(!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE)); /* No nested calls. */
160
161	pPeriod->fStatus \|= HDASTREAMPERIOD_FLAG_ACTIVE;
162	pPeriod->u64StartWalClk = u64WalClk;
163	pPeriod->u64ElapsedWalClk = 0;
164	pPeriod->framesTransferred = 0;
165	pPeriod->cIntPending = 0;
166	# ifdef LOG_ENABLED
167	pPeriod->Dbg.tsStartNs = RTTimeNanoTS();
168	# endif
169
170	Log3Func(("[SD%RU8] Starting @ %RU64 (%RU64 long)\n", pPeriod->u8SD, pPeriod->u64StartWalClk, pPeriod->u64DurationWalClk));
171	return VINF_SUCCESS;
172	}
173
174	/**
175	* Ends a formerly begun period life span.
176	*
177	* @param pPeriod Stream period to end life span for.
178	*/
179	void hdaR3StreamPeriodEnd(PHDASTREAMPERIOD pPeriod)
180	{
181	Log3Func(("[SD%RU8] Took %zuus\n", pPeriod->u8SD, (RTTimeNanoTS() - pPeriod->Dbg.tsStartNs) / 1000));
182
183	if (!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE))
184	return;
185
186	/* Sanity. */
187	AssertMsg(pPeriod->cIntPending == 0,
188	("%RU8 interrupts for stream #%RU8 still pending -- so ending a period might trigger audio hangs\n",
189	pPeriod->cIntPending, pPeriod->u8SD));
190	Assert(hdaR3StreamPeriodIsComplete(pPeriod));
191
192	pPeriod->fStatus &= ~HDASTREAMPERIOD_FLAG_ACTIVE;
193	}
194
195	/**
196	* Pauses a period. All values remain intact.
197	*
198	* @param pPeriod Stream period to pause.
199	*/
200	void hdaR3StreamPeriodPause(PHDASTREAMPERIOD pPeriod)
201	{
202	AssertMsg((pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE), ("Period %p already in inactive state\n", pPeriod));
203
204	pPeriod->fStatus &= ~HDASTREAMPERIOD_FLAG_ACTIVE;
205
206	Log3Func(("[SD%RU8]\n", pPeriod->u8SD));
207	}
208
209	/**
210	* Resumes a formerly paused period.
211	*
212	* @param pPeriod Stream period to resume.
213	*/
214	void hdaR3StreamPeriodResume(PHDASTREAMPERIOD pPeriod)
215	{
216	AssertMsg(!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE), ("Period %p already in active state\n", pPeriod));
217
218	pPeriod->fStatus \|= HDASTREAMPERIOD_FLAG_ACTIVE;
219
220	Log3Func(("[SD%RU8]\n", pPeriod->u8SD));
221	}
222
223	/**
224	* Locks a stream period for serializing access.
225	*
226	* @return true if locking was successful, false if not.
227	* @param pPeriod Stream period to lock.
228	*/
229	bool hdaR3StreamPeriodLock(PHDASTREAMPERIOD pPeriod)
230	{
231	return RT_SUCCESS(RTCritSectEnter(&pPeriod->CritSect));
232	}
233
234	/**
235	* Unlocks a formerly locked stream period.
236	*
237	* @param pPeriod Stream period to unlock.
238	*/
239	void hdaR3StreamPeriodUnlock(PHDASTREAMPERIOD pPeriod)
240	{
241	int rc2 = RTCritSectLeave(&pPeriod->CritSect);
242	AssertRC(rc2);
243	}
244
245	/**
246	* Returns the wall clock (WALCLK) value for a given amount of stream period audio frames.
247	*
248	* @return Calculated wall clock value.
249	* @param pPeriod Stream period to calculate wall clock value for.
250	* @param uFrames Number of audio frames to calculate wall clock value for.
251	*
252	* @remark Calculation depends on the given stream period and assumes a 24 MHz wall clock counter (WALCLK).
253	*/
254	uint64_t hdaR3StreamPeriodFramesToWalClk(PHDASTREAMPERIOD pPeriod, uint32_t uFrames)
255	{
256	/* Prevent division by zero. */
257	const uint32_t uHz = pPeriod->u32Hz ? pPeriod->u32Hz : 1;
258
259	/* 24 MHz wall clock (WALCLK): 42ns resolution. */
260	return ASMMultU64ByU32DivByU32(uFrames, 24000000, uHz);
261	}
262
263	/**
264	* Returns the absolute wall clock (WALCLK) value for the already elapsed time of
265	* a given stream period.
266	*
267	* @return Absolute elapsed time as wall clock (WALCLK) value.
268	* @param pPeriod Stream period to use.
269	*/
270	uint64_t hdaR3StreamPeriodGetAbsElapsedWalClk(PHDASTREAMPERIOD pPeriod)
271	{
272	return pPeriod->u64StartWalClk
273	+ pPeriod->u64ElapsedWalClk
274	+ pPeriod->i64DelayWalClk;
275	}
276
277	/**
278	* Returns the absolute wall clock (WALCLK) value for the calculated end time of
279	* a given stream period.
280	*
281	* @return Absolute end time as wall clock (WALCLK) value.
282	* @param pPeriod Stream period to use.
283	*/
284	uint64_t hdaR3StreamPeriodGetAbsEndWalClk(PHDASTREAMPERIOD pPeriod)
285	{
286	return pPeriod->u64StartWalClk + pPeriod->u64DurationWalClk;
287	}
288
289	/**
290	* Returns the remaining audio frames to process for a given stream period.
291	*
292	* @return Number of remaining audio frames to process. 0 if all were processed.
293	* @param pPeriod Stream period to return value for.
294	*/
295	uint32_t hdaR3StreamPeriodGetRemainingFrames(PHDASTREAMPERIOD pPeriod)
296	{
297	Assert(pPeriod->framesToTransfer >= pPeriod->framesTransferred);
298	return pPeriod->framesToTransfer - pPeriod->framesTransferred;
299	}
300
301	/**
302	* Tells whether a given stream period has elapsed (time-wise) or not.
303	*
304	* @return true if the stream period has elapsed, false if not.
305	* @param pPeriod Stream period to get status for.
306	*/
307	bool hdaR3StreamPeriodHasElapsed(PHDASTREAMPERIOD pPeriod)
308	{
309	return (pPeriod->u64ElapsedWalClk >= pPeriod->u64DurationWalClk);
310	}
311
312	/**
313	* Tells whether a given stream period has passed the given absolute wall clock (WALCLK)
314	* time or not
315	*
316	* @return true if the stream period has passed the given time, false if not.
317	* @param pPeriod Stream period to get status for.
318	* @param u64WalClk Absolute wall clock (WALCLK) time to check for.
319	*/
320	bool hdaR3StreamPeriodHasPassedAbsWalClk(PHDASTREAMPERIOD pPeriod, uint64_t u64WalClk)
321	{
322	/* Period not in use? */
323	if (!(pPeriod->fStatus & HDASTREAMPERIOD_FLAG_ACTIVE))
324	return true; /* ... implies that it has passed. */
325
326	if (hdaR3StreamPeriodHasElapsed(pPeriod))
327	return true; /* Period already has elapsed. */
328
329	return (pPeriod->u64StartWalClk + pPeriod->u64ElapsedWalClk) >= u64WalClk;
330	}
331
332	/**
333	* Tells whether a given stream period has some required interrupts pending or not.
334	*
335	* @return true if period has interrupts pending, false if not.
336	* @param pPeriod Stream period to get status for.
337	*/
338	bool hdaR3StreamPeriodNeedsInterrupt(PHDASTREAMPERIOD pPeriod)
339	{
340	return pPeriod->cIntPending > 0;
341	}
342
343	/**
344	* Acquires (references) an (pending) interrupt for a given stream period.
345	*
346	* @param pPeriod Stream period to acquire interrupt for.
347	*
348	* @remark This routine does not do any actual interrupt processing; it only
349	* keeps track of the required (pending) interrupts for a stream period.
350	*/
351	void hdaR3StreamPeriodAcquireInterrupt(PHDASTREAMPERIOD pPeriod)
352	{
353	uint32_t cIntPending = pPeriod->cIntPending;
354	if (cIntPending)
355	{
356	Log3Func(("[SD%RU8] Already pending\n", pPeriod->u8SD));
357	return;
358	}
359
360	pPeriod->cIntPending++;
361
362	Log3Func(("[SD%RU8] %RU32\n", pPeriod->u8SD, pPeriod->cIntPending));
363	}
364
365	/**
366	* Releases (dereferences) a pending interrupt.
367	*
368	* @param pPeriod Stream period to release pending interrupt for.
369	*/
370	void hdaR3StreamPeriodReleaseInterrupt(PHDASTREAMPERIOD pPeriod)
371	{
372	Assert(pPeriod->cIntPending);
373	pPeriod->cIntPending--;
374
375	Log3Func(("[SD%RU8] %RU32\n", pPeriod->u8SD, pPeriod->cIntPending));
376	}
377
378	/**
379	* Adds an amount of (processed) audio frames to a given stream period.
380	*
381	* @return IPRT status code.
382	* @param pPeriod Stream period to add audio frames to.
383	* @param framesInc Audio frames to add.
384	*/
385	void hdaR3StreamPeriodInc(PHDASTREAMPERIOD pPeriod, uint32_t framesInc)
386	{
387	pPeriod->framesTransferred += framesInc;
388	Assert(pPeriod->framesTransferred <= pPeriod->framesToTransfer);
389
390	pPeriod->u64ElapsedWalClk = hdaR3StreamPeriodFramesToWalClk(pPeriod, pPeriod->framesTransferred);
391	Assert(pPeriod->u64ElapsedWalClk <= pPeriod->u64DurationWalClk);
392
393	Log3Func(("[SD%RU8] cbTransferred=%RU32, u64ElapsedWalClk=%RU64\n",
394	pPeriod->u8SD, pPeriod->framesTransferred, pPeriod->u64ElapsedWalClk));
395	}
396
397	/**
398	* Tells whether a given stream period is considered as complete or not.
399	*
400	* @return true if stream period is complete, false if not.
401	* @param pPeriod Stream period to report status for.
402	*
403	* @remark A stream period is considered complete if it has 1) passed (elapsed) its calculated period time
404	* and 2) processed all required audio frames.
405	*/
406	bool hdaR3StreamPeriodIsComplete(PHDASTREAMPERIOD pPeriod)
407	{
408	const bool fIsComplete = /* Has the period elapsed time-wise? */
409	hdaR3StreamPeriodHasElapsed(pPeriod)
410	/* All frames transferred? */
411	&& pPeriod->framesTransferred >= pPeriod->framesToTransfer;
412	# ifdef VBOX_STRICT
413	if (fIsComplete)
414	{
415	Assert(pPeriod->framesTransferred == pPeriod->framesToTransfer);
416	Assert(pPeriod->u64ElapsedWalClk == pPeriod->u64DurationWalClk);
417	}
418	# endif
419
420	Log3Func(("[SD%RU8] Period %s - runtime %RU64 / %RU64 (abs @ %RU64, starts @ %RU64, ends @ %RU64), %RU8 IRQs pending\n",
421	pPeriod->u8SD,
422	fIsComplete ? "COMPLETE" : "NOT COMPLETE YET",
423	pPeriod->u64ElapsedWalClk, pPeriod->u64DurationWalClk,
424	hdaR3StreamPeriodGetAbsElapsedWalClk(pPeriod), pPeriod->u64StartWalClk,
425	hdaR3StreamPeriodGetAbsEndWalClk(pPeriod), pPeriod->cIntPending));
426
427	return fIsComplete;
428	}
429
430	#endif /* IN_RING3 */
431

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source: vbox/trunk/src/VBox/Devices/Audio/HDAStreamPeriod.cpp@ 77807

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