VirtualBox

source: vbox/trunk/src/VBox/Devices/Audio/testcase/tstAudioMixBuffer.cpp@ 108630

Last change on this file since 108630 was 108630, checked in by vboxsync, 7 weeks ago

Devices/Audio/testcase/tstAudioMixBuffer.cpp: Make it work for hosts where we don't know the host page size when building, bugref:10391
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1/* $Id: tstAudioMixBuffer.cpp 108630 2025-03-20 11:15:51Z vboxsync $ */
2/** @file
3 * Audio testcase - Mixing buffer.
4 */
5
6/*
7 * Copyright (C) 2014-2024 Oracle and/or its affiliates.
8 *
9 * This file is part of VirtualBox base platform packages, as
10 * available from https://www.virtualbox.org.
11 *
12 * This program is free software; you can redistribute it and/or
13 * modify it under the terms of the GNU General Public License
14 * as published by the Free Software Foundation, in version 3 of the
15 * License.
16 *
17 * This program is distributed in the hope that it will be useful, but
18 * WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
20 * General Public License for more details.
21 *
22 * You should have received a copy of the GNU General Public License
23 * along with this program; if not, see <https://www.gnu.org/licenses>.
24 *
25 * SPDX-License-Identifier: GPL-3.0-only
26 */
27
28
29/*********************************************************************************************************************************
30* Header Files *
31*********************************************************************************************************************************/
32#include <iprt/errcore.h>
33#include <iprt/initterm.h>
34#include <iprt/mem.h>
35#include <iprt/rand.h>
36#include <iprt/stream.h>
37#include <iprt/string.h>
38#include <iprt/test.h>
39#include <iprt/system.h>
40
41#include <VBox/vmm/pdm.h>
42#include <VBox/vmm/pdmaudioinline.h>
43
44#include "../AudioMixBuffer.h"
45#include "../AudioHlp.h"
46
47#define _USE_MATH_DEFINES
48#include <math.h> /* sin, M_PI */
49
50
51/*********************************************************************************************************************************
52* Global Variables *
53*********************************************************************************************************************************/
54#ifdef RT_LITTLE_ENDIAN
55bool const g_fLittleEndian = true;
56#else
57bool const g_fLittleEndian = false;
58#endif
59
60
61static void tstBasics(RTTEST hTest)
62{
63 RTTestSub(hTest, "Basics");
64
65 const PDMAUDIOPCMPROPS Cfg441StereoS16 = PDMAUDIOPCMPROPS_INITIALIZER(
66 /* a_cb: */ 2,
67 /* a_fSigned: */ true,
68 /* a_cChannels: */ 2,
69 /* a_uHz: */ 44100,
70 /* a_fSwapEndian: */ false
71 );
72 const PDMAUDIOPCMPROPS Cfg441StereoU16 = PDMAUDIOPCMPROPS_INITIALIZER(
73 /* a_cb: */ 2,
74 /* a_fSigned: */ false,
75 /* a_cChannels: */ 2,
76 /* a_uHz: */ 44100,
77 /* a_fSwapEndian: */ false
78 );
79 const PDMAUDIOPCMPROPS Cfg441StereoU32 = PDMAUDIOPCMPROPS_INITIALIZER(
80 /* a_cb: */ 4,
81 /* a_fSigned: */ false,
82 /* a_cChannels: */ 2,
83 /* a_uHz: */ 44100,
84 /* a_fSwapEndian: */ false
85 );
86
87 RTTESTI_CHECK(PDMAudioPropsGetBitrate(&Cfg441StereoS16) == 44100*4*8);
88 RTTESTI_CHECK(PDMAudioPropsGetBitrate(&Cfg441StereoU16) == 44100*4*8);
89 RTTESTI_CHECK(PDMAudioPropsGetBitrate(&Cfg441StereoU32) == 44100*8*8);
90
91 RTTESTI_CHECK(AudioHlpPcmPropsAreValidAndSupported(&Cfg441StereoS16));
92 RTTESTI_CHECK(AudioHlpPcmPropsAreValidAndSupported(&Cfg441StereoU16));
93 RTTESTI_CHECK(AudioHlpPcmPropsAreValidAndSupported(&Cfg441StereoU32));
94
95
96 RTTESTI_CHECK_MSG(PDMAUDIOPCMPROPS_F2B(&Cfg441StereoS16, 1) == 4,
97 ("got %x, expected 4\n", PDMAUDIOPCMPROPS_F2B(&Cfg441StereoS16, 1)));
98 RTTESTI_CHECK_MSG(PDMAUDIOPCMPROPS_F2B(&Cfg441StereoU16, 1) == 4,
99 ("got %x, expected 4\n", PDMAUDIOPCMPROPS_F2B(&Cfg441StereoU16, 1)));
100 RTTESTI_CHECK_MSG(PDMAUDIOPCMPROPS_F2B(&Cfg441StereoU32, 1) == 8,
101 ("got %x, expected 4\n", PDMAUDIOPCMPROPS_F2B(&Cfg441StereoU32, 1)));
102
103 RTTESTI_CHECK_MSG(PDMAudioPropsBytesPerFrame(&Cfg441StereoS16) == 4,
104 ("got %x, expected 4\n", PDMAudioPropsBytesPerFrame(&Cfg441StereoS16)));
105 RTTESTI_CHECK_MSG(PDMAudioPropsBytesPerFrame(&Cfg441StereoU16) == 4,
106 ("got %x, expected 4\n", PDMAudioPropsBytesPerFrame(&Cfg441StereoU16)));
107 RTTESTI_CHECK_MSG(PDMAudioPropsBytesPerFrame(&Cfg441StereoU32) == 8,
108 ("got %x, expected 4\n", PDMAudioPropsBytesPerFrame(&Cfg441StereoU32)));
109
110 uint32_t u32;
111 for (uint32_t i = 0; i < 256; i += 8)
112 {
113 RTTESTI_CHECK(PDMAudioPropsIsSizeAligned(&Cfg441StereoU32, i) == true);
114 for (uint32_t j = 1; j < 8; j++)
115 RTTESTI_CHECK(PDMAudioPropsIsSizeAligned(&Cfg441StereoU32, i + j) == false);
116 for (uint32_t j = 0; j < 8; j++)
117 RTTESTI_CHECK(PDMAudioPropsFloorBytesToFrame(&Cfg441StereoU32, i + j) == i);
118 }
119 for (uint32_t i = 0; i < 4096; i += 4)
120 {
121 RTTESTI_CHECK(PDMAudioPropsIsSizeAligned(&Cfg441StereoS16, i) == true);
122 for (uint32_t j = 1; j < 4; j++)
123 RTTESTI_CHECK(PDMAudioPropsIsSizeAligned(&Cfg441StereoS16, i + j) == false);
124 for (uint32_t j = 0; j < 4; j++)
125 RTTESTI_CHECK(PDMAudioPropsFloorBytesToFrame(&Cfg441StereoS16, i + j) == i);
126 }
127
128 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsFramesToBytes(&Cfg441StereoS16, 44100)) == 44100 * 2 * 2,
129 ("cb=%RU32\n", u32));
130 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsFramesToBytes(&Cfg441StereoS16, 2)) == 2 * 2 * 2,
131 ("cb=%RU32\n", u32));
132 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsFramesToBytes(&Cfg441StereoS16, 1)) == 4,
133 ("cb=%RU32\n", u32));
134 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsFramesToBytes(&Cfg441StereoU16, 1)) == 4,
135 ("cb=%RU32\n", u32));
136 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsFramesToBytes(&Cfg441StereoU32, 1)) == 8,
137 ("cb=%RU32\n", u32));
138
139 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsBytesToFrames(&Cfg441StereoS16, 4)) == 1, ("cb=%RU32\n", u32));
140 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsBytesToFrames(&Cfg441StereoU16, 4)) == 1, ("cb=%RU32\n", u32));
141 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsBytesToFrames(&Cfg441StereoU32, 8)) == 1, ("cb=%RU32\n", u32));
142
143 uint64_t u64;
144 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsBytesToNano(&Cfg441StereoS16, 44100 * 2 * 2)) == RT_NS_1SEC,
145 ("ns=%RU64\n", u64));
146 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsBytesToMicro(&Cfg441StereoS16, 44100 * 2 * 2)) == RT_US_1SEC,
147 ("us=%RU64\n", u64));
148 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsBytesToMilli(&Cfg441StereoS16, 44100 * 2 * 2)) == RT_MS_1SEC,
149 ("ms=%RU64\n", u64));
150
151 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsFramesToNano(&Cfg441StereoS16, 44100)) == RT_NS_1SEC, ("ns=%RU64\n", u64));
152 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsFramesToNano(&Cfg441StereoS16, 1)) == 22675, ("ns=%RU64\n", u64));
153 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsFramesToNano(&Cfg441StereoS16, 31)) == 702947, ("ns=%RU64\n", u64));
154 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsFramesToNano(&Cfg441StereoS16, 255)) == 5782312, ("ns=%RU64\n", u64));
155 //RTTESTI_CHECK_MSG((u64 = DrvAudioHlpFramesToMicro(&Cfg441StereoS16, 44100)) == RT_US_1SEC,
156 // ("us=%RU64\n", u64));
157 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsFramesToMilli(&Cfg441StereoS16, 44100)) == RT_MS_1SEC, ("ms=%RU64\n", u64));
158 RTTESTI_CHECK_MSG((u64 = PDMAudioPropsFramesToMilli(&Cfg441StereoS16, 255)) == 5, ("ms=%RU64\n", u64));
159
160 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsNanoToFrames(&Cfg441StereoS16, RT_NS_1SEC)) == 44100, ("cb=%RU32\n", u32));
161 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsNanoToFrames(&Cfg441StereoS16, 215876)) == 10, ("cb=%RU32\n", u32));
162 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsMilliToFrames(&Cfg441StereoS16, RT_MS_1SEC)) == 44100, ("cb=%RU32\n", u32));
163 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsMilliToFrames(&Cfg441StereoU32, 6)) == 265, ("cb=%RU32\n", u32));
164
165 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsNanoToBytes(&Cfg441StereoS16, RT_NS_1SEC)) == 44100*2*2, ("cb=%RU32\n", u32));
166 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsNanoToBytes(&Cfg441StereoS16, 702947)) == 31*2*2, ("cb=%RU32\n", u32));
167 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsMilliToBytes(&Cfg441StereoS16, RT_MS_1SEC)) == 44100*2*2, ("cb=%RU32\n", u32));
168 RTTESTI_CHECK_MSG((u32 = PDMAudioPropsMilliToBytes(&Cfg441StereoS16, 5)) == 884, ("cb=%RU32\n", u32));
169
170 /* DrvAudioHlpClearBuf: */
171 size_t const cbPageSize = RTSystemGetPageSize();
172 uint8_t *pbPage;
173 int rc = RTTestGuardedAlloc(hTest, cbPageSize, 0, false /*fHead*/, (void **)&pbPage);
174 RTTESTI_CHECK_RC_OK_RETV(rc);
175
176 memset(pbPage, 0x42, cbPageSize);
177 PDMAudioPropsClearBuffer(&Cfg441StereoS16, pbPage, cbPageSize, cbPageSize / 4);
178 RTTESTI_CHECK(ASMMemIsZero(pbPage, cbPageSize));
179
180 memset(pbPage, 0x42, cbPageSize);
181 PDMAudioPropsClearBuffer(&Cfg441StereoU16, pbPage, cbPageSize, cbPageSize / 4);
182 for (uint32_t off = 0; off < cbPageSize; off += 2)
183 RTTESTI_CHECK_MSG(pbPage[off] == 0 && pbPage[off + 1] == 0x80, ("off=%#x: %#x %x\n", off, pbPage[off], pbPage[off + 1]));
184
185 memset(pbPage, 0x42, cbPageSize);
186 PDMAudioPropsClearBuffer(&Cfg441StereoU32, pbPage, cbPageSize, cbPageSize / 8);
187 for (uint32_t off = 0; off < cbPageSize; off += 4)
188 RTTESTI_CHECK(pbPage[off] == 0 && pbPage[off + 1] == 0 && pbPage[off + 2] == 0 && pbPage[off + 3] == 0x80);
189
190
191 RTTestDisableAssertions(hTest);
192 memset(pbPage, 0x42, cbPageSize);
193 PDMAudioPropsClearBuffer(&Cfg441StereoS16, pbPage, cbPageSize, cbPageSize); /* should adjust down the frame count. */
194 RTTESTI_CHECK(ASMMemIsZero(pbPage, cbPageSize));
195
196 memset(pbPage, 0x42, cbPageSize);
197 PDMAudioPropsClearBuffer(&Cfg441StereoU16, pbPage, cbPageSize, cbPageSize); /* should adjust down the frame count. */
198 for (uint32_t off = 0; off < cbPageSize; off += 2)
199 RTTESTI_CHECK_MSG(pbPage[off] == 0 && pbPage[off + 1] == 0x80, ("off=%#x: %#x %x\n", off, pbPage[off], pbPage[off + 1]));
200
201 memset(pbPage, 0x42, cbPageSize);
202 PDMAudioPropsClearBuffer(&Cfg441StereoU32, pbPage, cbPageSize, cbPageSize); /* should adjust down the frame count. */
203 for (uint32_t off = 0; off < cbPageSize; off += 4)
204 RTTESTI_CHECK(pbPage[off] == 0 && pbPage[off + 1] == 0 && pbPage[off + 2] == 0 && pbPage[off + 3] == 0x80);
205 RTTestRestoreAssertions(hTest);
206
207 RTTestGuardedFree(hTest, pbPage);
208}
209
210
211static void tstSimple(RTTEST hTest)
212{
213 RTTestSub(hTest, "Simple");
214
215 /* 44100Hz, 2 Channels, S16 */
216 PDMAUDIOPCMPROPS config = PDMAUDIOPCMPROPS_INITIALIZER(
217 2, /* Bytes */
218 true, /* Signed */
219 2, /* Channels */
220 44100, /* Hz */
221 false /* Swap Endian */
222 );
223
224 RTTESTI_CHECK(AudioHlpPcmPropsAreValidAndSupported(&config));
225
226 uint32_t cBufSize = _1K;
227
228 /*
229 * General stuff.
230 */
231 AUDIOMIXBUF mb;
232 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufInit(&mb, "Single", &config, cBufSize));
233 RTTESTI_CHECK(AudioMixBufSize(&mb) == cBufSize);
234 RTTESTI_CHECK(AUDIOMIXBUF_B2F(&mb, AudioMixBufSizeBytes(&mb)) == cBufSize);
235 RTTESTI_CHECK(AUDIOMIXBUF_F2B(&mb, AudioMixBufSize(&mb)) == AudioMixBufSizeBytes(&mb));
236 RTTESTI_CHECK(AudioMixBufFree(&mb) == cBufSize);
237 RTTESTI_CHECK(AUDIOMIXBUF_F2B(&mb, AudioMixBufFree(&mb)) == AudioMixBufFreeBytes(&mb));
238
239 AUDIOMIXBUFWRITESTATE WriteState;
240 RTTESTI_CHECK_RC(AudioMixBufInitWriteState(&mb, &WriteState, &config), VINF_SUCCESS);
241
242 AUDIOMIXBUFPEEKSTATE PeekState;
243 RTTESTI_CHECK_RC(AudioMixBufInitPeekState(&mb, &PeekState, &config), VINF_SUCCESS);
244
245 /*
246 * A few writes (used to be the weird absolute writes).
247 */
248 uint32_t cFramesRead = 0, cFramesWritten = 0, cFramesWrittenAbs = 0;
249 int16_t aFrames16[2] = { 0xAA, 0xBB };
250 int32_t aFrames32[2] = { 0xCC, 0xDD };
251
252 RTTESTI_CHECK(AudioMixBufUsed(&mb) == 0);
253
254 AudioMixBufWrite(&mb, &WriteState, &aFrames16, sizeof(aFrames16), 0 /*offDstFrame*/, cBufSize / 4, &cFramesWritten);
255 RTTESTI_CHECK(cFramesWritten == 1 /* Frames */);
256 RTTESTI_CHECK(AudioMixBufUsed(&mb) == 0);
257 AudioMixBufCommit(&mb, cFramesWritten);
258 RTTESTI_CHECK(AudioMixBufUsed(&mb) == 1);
259 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == 0);
260 RTTESTI_CHECK(AudioMixBufWritePos(&mb) == 1);
261
262 AudioMixBufWrite(&mb, &WriteState, &aFrames32, sizeof(aFrames32), 0 /*offDstFrame*/, cBufSize / 4, &cFramesWritten);
263 RTTESTI_CHECK(cFramesWritten == 2 /* Frames */);
264 AudioMixBufCommit(&mb, cFramesWritten);
265 RTTESTI_CHECK(AudioMixBufUsed(&mb) == 3);
266 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == 0);
267 RTTESTI_CHECK(AudioMixBufWritePos(&mb) == 3);
268
269 /* Pretend we read the frames.*/
270 AudioMixBufAdvance(&mb, 3);
271 RTTESTI_CHECK(AudioMixBufUsed(&mb) == 0);
272 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == 3);
273 RTTESTI_CHECK(AudioMixBufWritePos(&mb) == 3);
274
275 /* Fill up the buffer completely and check wraps. */
276
277 uint32_t cbSamples = PDMAudioPropsFramesToBytes(&config, cBufSize);
278 uint16_t *paSamples = (uint16_t *)RTMemAlloc(cbSamples);
279 RTTESTI_CHECK_RETV(paSamples);
280 AudioMixBufWrite(&mb, &WriteState, paSamples, cbSamples, 0 /*offDstFrame*/, cBufSize, &cFramesWritten);
281 RTTESTI_CHECK(cFramesWritten == cBufSize);
282 AudioMixBufCommit(&mb, cFramesWritten);
283 RTTESTI_CHECK(AudioMixBufUsed(&mb) == cBufSize);
284 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == 3);
285 RTTESTI_CHECK(AudioMixBufWritePos(&mb) == 3);
286 RTMemFree(paSamples);
287 cbSamples = 0;
288
289 /*
290 * Writes and reads (used to be circular).
291 */
292 AudioMixBufDrop(&mb);
293
294 cFramesWrittenAbs = AudioMixBufUsed(&mb);
295
296 uint32_t cToWrite = AudioMixBufSize(&mb) - cFramesWrittenAbs - 1; /* -1 as padding plus -2 frames for above. */
297 for (uint32_t i = 0; i < cToWrite; i++)
298 {
299 AudioMixBufWrite(&mb, &WriteState, &aFrames16[0], sizeof(aFrames16), 0 /*offDstFrame*/, 1, &cFramesWritten);
300 RTTESTI_CHECK(cFramesWritten == 1);
301 AudioMixBufCommit(&mb, cFramesWritten);
302 }
303 RTTESTI_CHECK(!AudioMixBufIsEmpty(&mb));
304 RTTESTI_CHECK(AudioMixBufFree(&mb) == 1);
305 RTTESTI_CHECK(AudioMixBufFreeBytes(&mb) == AUDIOMIXBUF_F2B(&mb, 1U));
306 RTTESTI_CHECK(AudioMixBufUsed(&mb) == cToWrite + cFramesWrittenAbs /* + last absolute write */);
307
308 AudioMixBufWrite(&mb, &WriteState, &aFrames16[0], sizeof(aFrames16), 0 /*offDstFrame*/, 1, &cFramesWritten);
309 RTTESTI_CHECK(cFramesWritten == 1);
310 AudioMixBufCommit(&mb, cFramesWritten);
311 RTTESTI_CHECK(AudioMixBufFree(&mb) == 0);
312 RTTESTI_CHECK(AudioMixBufFreeBytes(&mb) == AUDIOMIXBUF_F2B(&mb, 0U));
313 RTTESTI_CHECK(AudioMixBufUsed(&mb) == cBufSize);
314
315 /* Reads. */
316 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == 0);
317 uint32_t cbRead;
318 uint16_t aFrames16Buf[RT_ELEMENTS(aFrames16)];
319 uint32_t cToRead = AudioMixBufSize(&mb) - cFramesWrittenAbs - 1;
320 for (uint32_t i = 0; i < cToRead; i++)
321 {
322 AudioMixBufPeek(&mb, 0 /*offSrcFrame*/, 1, &cFramesRead, &PeekState, aFrames16Buf, sizeof(aFrames16Buf), &cbRead);
323 RTTESTI_CHECK(cFramesRead == 1);
324 RTTESTI_CHECK(cbRead == sizeof(aFrames16Buf));
325 AudioMixBufAdvance(&mb, cFramesRead);
326 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == i + 1);
327 }
328 RTTESTI_CHECK(!AudioMixBufIsEmpty(&mb));
329 RTTESTI_CHECK(AudioMixBufFree(&mb) == AudioMixBufSize(&mb) - cFramesWrittenAbs - 1);
330 RTTESTI_CHECK(AudioMixBufFreeBytes(&mb) == AUDIOMIXBUF_F2B(&mb, cBufSize - cFramesWrittenAbs - 1));
331 RTTESTI_CHECK(AudioMixBufUsed(&mb) == cBufSize - cToRead);
332
333 AudioMixBufPeek(&mb, 0 /*offSrcFrame*/, 1, &cFramesRead, &PeekState, aFrames16Buf, sizeof(aFrames16Buf), &cbRead);
334 RTTESTI_CHECK(cFramesRead == 1);
335 RTTESTI_CHECK(cbRead == sizeof(aFrames16Buf));
336 AudioMixBufAdvance(&mb, cFramesRead);
337 RTTESTI_CHECK(AudioMixBufFree(&mb) == cBufSize - cFramesWrittenAbs);
338 RTTESTI_CHECK(AudioMixBufFreeBytes(&mb) == AUDIOMIXBUF_F2B(&mb, cBufSize - cFramesWrittenAbs));
339 RTTESTI_CHECK(AudioMixBufUsed(&mb) == cFramesWrittenAbs);
340 RTTESTI_CHECK(AudioMixBufReadPos(&mb) == 0);
341
342 AudioMixBufTerm(&mb);
343}
344
345/** @name Eight test samples represented in all basic formats.
346 * @{ */
347static uint8_t const g_au8TestSamples[8] = { 0x1, 0x11, 0x32, 0x7f, 0x80, 0x81, 0xbe, 0xff };
348static int8_t const g_ai8TestSamples[8] = { -127, -111, -78, -1, 0, 1, 62, 127 };
349static uint16_t const g_au16TestSamples[8] = { 0x100, 0x1100, 0x3200, 0x7f00, 0x8000, 0x8100, 0xbe00, 0xff00 };
350static int16_t const g_ai16TestSamples[8] = { -32512, -28416, -19968, -256, 0, 256, 15872, 32512 };
351static uint32_t const g_au32TestSamples[8] = { 0x1000000, 0x11000000, 0x32000000, 0x7f000000, 0x80000000, 0x81000000, 0xbe000000, 0xff000000 };
352static int32_t const g_ai32TestSamples[8] = { -2130706432, -1862270976, -1308622848, -16777216, 0, 16777216, 1040187392, 2130706432 };
353static int64_t const g_ai64TestSamples[8] = { -2130706432, -1862270976, -1308622848, -16777216, 0, 16777216, 1040187392, 2130706432 };
354static struct { void const *apv[2]; uint32_t cb; } g_aTestSamples[] =
355{
356 /* 0/0: */ { { NULL, NULL }, 0 },
357 /* 1/8: */ { { g_au8TestSamples, g_ai8TestSamples }, sizeof( g_au8TestSamples) },
358 /* 2/16: */ { { g_au16TestSamples, g_ai16TestSamples }, sizeof(g_au16TestSamples) },
359 /* 3/24: */ { { NULL, NULL }, 0 },
360 /* 4/32: */ { { g_au32TestSamples, g_ai32TestSamples }, sizeof(g_au32TestSamples) },
361 /* 5: */ { { NULL, NULL }, 0 },
362 /* 6: */ { { NULL, NULL }, 0 },
363 /* 7: */ { { NULL, NULL }, 0 },
364 /* 8:64 */ { { NULL, g_ai64TestSamples }, sizeof(g_ai64TestSamples) }, /* raw */
365};
366/** @} */
367
368/** Fills a buffer with samples from an g_aTestSamples entry. */
369static uint32_t tstFillBuf(PCPDMAUDIOPCMPROPS pCfg, void const *pvTestSamples, uint32_t iTestSample,
370 uint8_t *pbBuf, uint32_t cFrames)
371{
372 uint8_t const cTestSamples = RT_ELEMENTS(g_au8TestSamples);
373
374 cFrames *= PDMAudioPropsChannels(pCfg);
375 switch (PDMAudioPropsSampleSize(pCfg))
376 {
377 case 1:
378 {
379 uint8_t const * const pau8TestSamples = (uint8_t const *)pvTestSamples;
380 uint8_t *pu8Dst = (uint8_t *)pbBuf;
381 while (cFrames-- > 0)
382 {
383 *pu8Dst++ = pau8TestSamples[iTestSample];
384 iTestSample = (iTestSample + 1) % cTestSamples;
385 }
386 break;
387 }
388
389 case 2:
390 {
391 uint16_t const * const pau16TestSamples = (uint16_t const *)pvTestSamples;
392 uint16_t *pu16Dst = (uint16_t *)pbBuf;
393 while (cFrames-- > 0)
394 {
395 *pu16Dst++ = pau16TestSamples[iTestSample];
396 iTestSample = (iTestSample + 1) % cTestSamples;
397 }
398 break;
399 }
400
401 case 4:
402 {
403 uint32_t const * const pau32TestSamples = (uint32_t const *)pvTestSamples;
404 uint32_t *pu32Dst = (uint32_t *)pbBuf;
405 while (cFrames-- > 0)
406 {
407 *pu32Dst++ = pau32TestSamples[iTestSample];
408 iTestSample = (iTestSample + 1) % cTestSamples;
409 }
410 break;
411 }
412
413 case 8:
414 {
415 uint64_t const * const pau64TestSamples = (uint64_t const *)pvTestSamples;
416 uint64_t *pu64Dst = (uint64_t *)pbBuf;
417 while (cFrames-- > 0)
418 {
419 *pu64Dst++ = pau64TestSamples[iTestSample];
420 iTestSample = (iTestSample + 1) % cTestSamples;
421 }
422 break;
423 }
424
425 default:
426 AssertFailedBreak();
427 }
428 return iTestSample;
429}
430
431
432static void tstConversion(RTTEST hTest, uint8_t cSrcBits, bool fSrcSigned, uint8_t cSrcChs,
433 uint8_t cDstBits, bool fDstSigned, uint8_t cDstChs)
434{
435 RTTestSubF(hTest, "Conv %uch %c%u to %uch %c%u", cSrcChs, fSrcSigned ? 'S' : 'U', cSrcBits,
436 cDstChs, fDstSigned ? 'S' : 'U', cDstBits);
437
438 PDMAUDIOPCMPROPS CfgSrc, CfgDst;
439 PDMAudioPropsInitEx(&CfgSrc, cSrcBits / 8, fSrcSigned, cSrcChs, 44100, g_fLittleEndian, cSrcBits == 64 /*fRaw*/);
440 PDMAudioPropsInitEx(&CfgDst, cDstBits / 8, fDstSigned, cDstChs, 44100, g_fLittleEndian, cDstBits == 64 /*fRaw*/);
441
442 void const * const pvSrcTestSamples = g_aTestSamples[cSrcBits / 8].apv[fSrcSigned];
443 void const * const pvDstTestSamples = g_aTestSamples[cDstBits / 8].apv[fDstSigned];
444 uint32_t const cMixBufFrames = RTRandU32Ex(128, 16384);
445 uint32_t const cIterations = RTRandU32Ex(256, 1536);
446 uint32_t const cbSrcBuf = PDMAudioPropsFramesToBytes(&CfgSrc, cMixBufFrames + 64);
447 uint8_t * const pbSrcBuf = (uint8_t *)RTMemAllocZ(cbSrcBuf);
448 uint32_t const cbDstBuf = PDMAudioPropsFramesToBytes(&CfgDst, cMixBufFrames + 64);
449 uint8_t * const pbDstBuf = (uint8_t *)RTMemAllocZ(cbDstBuf);
450 uint8_t * const pbDstExpect = (uint8_t *)RTMemAllocZ(cbDstBuf);
451 RTTESTI_CHECK_RETV(pbSrcBuf);
452 RTTESTI_CHECK_RETV(pbDstBuf);
453 RTTESTI_CHECK_RETV(pbDstExpect);
454
455 AUDIOMIXBUF MixBuf;
456 RTTESTI_CHECK_RC_RETV(AudioMixBufInit(&MixBuf, "FormatOutputConversion", &CfgSrc, cMixBufFrames), VINF_SUCCESS);
457 AUDIOMIXBUFWRITESTATE WriteState;
458 RTTESTI_CHECK_RC_RETV(AudioMixBufInitWriteState(&MixBuf, &WriteState, &CfgSrc), VINF_SUCCESS);
459 AUDIOMIXBUFWRITESTATE WriteStateIgnZero = WriteState; RT_NOREF(WriteStateIgnZero);
460 AUDIOMIXBUFPEEKSTATE PeekState;
461 RTTESTI_CHECK_RC_RETV(AudioMixBufInitPeekState(&MixBuf, &PeekState, &CfgDst), VINF_SUCCESS);
462
463 uint32_t iSrcTestSample = 0;
464 uint32_t iDstTestSample = 0;
465 //RTTestPrintf(hTest, RTTESTLVL_ALWAYS, "cIterations=%u\n", cIterations);
466 for (uint32_t iIteration = 0; iIteration < cIterations; iIteration++)
467 {
468 /* Write some frames to the buffer. */
469 uint32_t const cSrcFramesToWrite = iIteration < 16 ? iIteration + 1
470 : AudioMixBufFree(&MixBuf) ? RTRandU32Ex(1, AudioMixBufFree(&MixBuf)) : 0;
471 if (cSrcFramesToWrite > 0)
472 {
473 uint32_t const cbSrcToWrite = PDMAudioPropsFramesToBytes(&CfgSrc, cSrcFramesToWrite);
474 uint32_t cFrames = RTRandU32();
475 switch (RTRandU32Ex(0, 3))
476 {
477 default:
478 iSrcTestSample = tstFillBuf(&CfgSrc, pvSrcTestSamples, iSrcTestSample, pbSrcBuf, cSrcFramesToWrite);
479 AudioMixBufWrite(&MixBuf, &WriteState, pbSrcBuf, cbSrcToWrite, 0 /*offDstFrame*/, cSrcFramesToWrite, &cFrames);
480 RTTESTI_CHECK(cFrames == cSrcFramesToWrite);
481 break;
482
483 case 1: /* zero & blend */
484 AudioMixBufSilence(&MixBuf, &WriteStateIgnZero, 0 /*offFrame*/, cSrcFramesToWrite);
485 iSrcTestSample = tstFillBuf(&CfgSrc, pvSrcTestSamples, iSrcTestSample, pbSrcBuf, cSrcFramesToWrite);
486 AudioMixBufBlend(&MixBuf, &WriteState, pbSrcBuf, cbSrcToWrite, 0 /*offDstFrame*/, cSrcFramesToWrite, &cFrames);
487 RTTESTI_CHECK(cFrames == cSrcFramesToWrite);
488 break;
489
490 case 2: /* blend same equal data twice */
491 {
492 AUDIOMIXBUFWRITESTATE WriteStateSame = WriteState;
493 iSrcTestSample = tstFillBuf(&CfgSrc, pvSrcTestSamples, iSrcTestSample, pbSrcBuf, cSrcFramesToWrite);
494 AudioMixBufWrite(&MixBuf, &WriteState, pbSrcBuf, cbSrcToWrite, 0 /*offDstFrame*/, cSrcFramesToWrite, &cFrames);
495 RTTESTI_CHECK(cFrames == cSrcFramesToWrite);
496 AudioMixBufBlend(&MixBuf, &WriteStateSame, pbSrcBuf, cbSrcToWrite, 0 /*offDstFrame*/, cSrcFramesToWrite, &cFrames);
497 RTTESTI_CHECK(cFrames == cSrcFramesToWrite);
498 break;
499 }
500 case 3: /* write & blend with zero */
501 {
502 AUDIOMIXBUFWRITESTATE WriteStateSame = WriteState;
503 iSrcTestSample = tstFillBuf(&CfgSrc, pvSrcTestSamples, iSrcTestSample, pbSrcBuf, cSrcFramesToWrite);
504 AudioMixBufWrite(&MixBuf, &WriteState, pbSrcBuf, cbSrcToWrite, 0 /*offDstFrame*/, cSrcFramesToWrite, &cFrames);
505 RTTESTI_CHECK(cFrames == cSrcFramesToWrite);
506 PDMAudioPropsClearBuffer(&CfgSrc, pbSrcBuf, cbSrcToWrite, cSrcFramesToWrite);
507 AudioMixBufBlend(&MixBuf, &WriteStateSame, pbSrcBuf, cbSrcToWrite, 0 /*offDstFrame*/, cSrcFramesToWrite, &cFrames);
508 RTTESTI_CHECK(cFrames == cSrcFramesToWrite);
509 break;
510 }
511 }
512 AudioMixBufCommit(&MixBuf, cSrcFramesToWrite);
513 }
514
515 /* Read some frames back. */
516 uint32_t const cUsed = AudioMixBufUsed(&MixBuf);
517 uint32_t const cDstFramesToRead = iIteration < 16 ? iIteration + 1 : iIteration + 5 >= cIterations ? cUsed
518 : cUsed ? RTRandU32Ex(1, cUsed) : 0;
519 if (cDstFramesToRead > 0)
520 {
521 uint32_t const cbDstToRead = PDMAudioPropsFramesToBytes(&CfgDst, cDstFramesToRead);
522 uint32_t cbRead = RTRandU32();
523 uint32_t cFrames = RTRandU32();
524 RTRandBytes(pbDstBuf, cbDstToRead);
525 AudioMixBufPeek(&MixBuf, 0 /*offSrcFrame*/, (iIteration & 3) != 2 ? cDstFramesToRead : cUsed, &cFrames,
526 &PeekState, pbDstBuf, (iIteration & 3) != 3 ? cbDstToRead : cbDstBuf, &cbRead);
527 RTTESTI_CHECK(cFrames == cDstFramesToRead);
528 RTTESTI_CHECK(cbRead == cbDstToRead);
529 AudioMixBufAdvance(&MixBuf, cFrames);
530
531 /* Verify if we can. */
532 if (PDMAudioPropsChannels(&CfgSrc) == PDMAudioPropsChannels(&CfgDst))
533 {
534 iDstTestSample = tstFillBuf(&CfgDst, pvDstTestSamples, iDstTestSample, pbDstExpect, cFrames);
535 if (memcmp(pbDstExpect, pbDstBuf, cbRead) == 0)
536 { /* likely */ }
537 else
538 {
539 RTTestFailed(hTest,
540 "mismatch: %.*Rhxs\n"
541 "expected: %.*Rhxs\n"
542 "iIteration=%u cDstFramesToRead=%u cbRead=%#x\n",
543 RT_MIN(cbRead, 48), pbDstBuf,
544 RT_MIN(cbRead, 48), pbDstExpect,
545 iIteration, cDstFramesToRead, cbRead);
546 break;
547 }
548 }
549 }
550 }
551
552 AudioMixBufTerm(&MixBuf);
553 RTMemFree(pbSrcBuf);
554 RTMemFree(pbDstBuf);
555 RTMemFree(pbDstExpect);
556}
557
558
559#if 0 /** @todo rewrite to non-parent/child setup */
560static void tstDownsampling(RTTEST hTest, uint32_t uFromHz, uint32_t uToHz)
561{
562 RTTestSubF(hTest, "Downsampling %u to %u Hz (S16)", uFromHz, uToHz);
563
564 struct { int16_t l, r; }
565 aSrcFrames[4096],
566 aDstFrames[4096];
567
568 /* Parent (destination) buffer is xxxHz 2ch S16 */
569 uint32_t const cFramesParent = RTRandU32Ex(16, RT_ELEMENTS(aDstFrames));
570 PDMAUDIOPCMPROPS const CfgDst = PDMAUDIOPCMPROPS_INITIALIZER(2 /*cbSample*/, true /*fSigned*/, 2 /*ch*/, uToHz, false /*fSwap*/);
571 RTTESTI_CHECK(AudioHlpPcmPropsAreValid(&CfgDst));
572 AUDIOMIXBUF Parent;
573 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufInit(&Parent, "ParentDownsampling", &CfgDst, cFramesParent));
574
575 /* Child (source) buffer is yyykHz 2ch S16 */
576 PDMAUDIOPCMPROPS const CfgSrc = PDMAUDIOPCMPROPS_INITIALIZER(2 /*cbSample*/, true /*fSigned*/, 2 /*ch*/, uFromHz, false /*fSwap*/);
577 RTTESTI_CHECK(AudioHlpPcmPropsAreValid(&CfgSrc));
578 uint32_t const cFramesChild = RTRandU32Ex(32, RT_ELEMENTS(aSrcFrames));
579 AUDIOMIXBUF Child;
580 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufInit(&Child, "ChildDownsampling", &CfgSrc, cFramesChild));
581 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufLinkTo(&Child, &Parent));
582
583 /*
584 * Test parameters.
585 */
586 uint32_t const cMaxSrcFrames = RT_MIN(cFramesParent * uFromHz / uToHz - 1, cFramesChild);
587 uint32_t const cIterations = RTRandU32Ex(4, 128);
588 RTTestErrContext(hTest, "cFramesParent=%RU32 cFramesChild=%RU32 cMaxSrcFrames=%RU32 cIterations=%RU32",
589 cFramesParent, cFramesChild, cMaxSrcFrames, cIterations);
590 RTTestPrintf(hTest, RTTESTLVL_DEBUG, "cFramesParent=%RU32 cFramesChild=%RU32 cMaxSrcFrames=%RU32 cIterations=%RU32\n",
591 cFramesParent, cFramesChild, cMaxSrcFrames, cIterations);
592
593 /*
594 * We generate a simple "A" sine wave as input.
595 */
596 uint32_t iSrcFrame = 0;
597 uint32_t iDstFrame = 0;
598 double rdFixed = 2.0 * M_PI * 440.0 /* A */ / PDMAudioPropsHz(&CfgSrc); /* Fixed sin() input. */
599 for (uint32_t i = 0; i < cIterations; i++)
600 {
601 RTTestPrintf(hTest, RTTESTLVL_DEBUG, "i=%RU32\n", i);
602
603 /*
604 * Generate source frames and write them.
605 */
606 uint32_t const cSrcFrames = i < cIterations / 2
607 ? RTRandU32Ex(2, cMaxSrcFrames) & ~(uint32_t)1
608 : RTRandU32Ex(1, cMaxSrcFrames - 1) | 1;
609 for (uint32_t j = 0; j < cSrcFrames; j++, iSrcFrame++)
610 aSrcFrames[j].r = aSrcFrames[j].l = 32760 /*Amplitude*/ * sin(rdFixed * iSrcFrame);
611
612 uint32_t cSrcFramesWritten = UINT32_MAX / 2;
613 RTTESTI_CHECK_RC_OK_BREAK(AudioMixBufWriteAt(&Child, 0, &aSrcFrames, cSrcFrames * sizeof(aSrcFrames[0]),
614 &cSrcFramesWritten));
615 RTTESTI_CHECK_MSG_BREAK(cSrcFrames == cSrcFramesWritten,
616 ("cSrcFrames=%RU32 vs cSrcFramesWritten=%RU32\n", cSrcFrames, cSrcFramesWritten));
617
618 /*
619 * Mix them.
620 */
621 uint32_t cSrcFramesMixed = UINT32_MAX / 2;
622 RTTESTI_CHECK_RC_OK_BREAK(AudioMixBufMixToParent(&Child, cSrcFramesWritten, &cSrcFramesMixed));
623 RTTESTI_CHECK_MSG(AudioMixBufUsed(&Child) == 0, ("%RU32\n", AudioMixBufUsed(&Child)));
624 RTTESTI_CHECK_MSG_BREAK(cSrcFramesWritten == cSrcFramesMixed,
625 ("cSrcFramesWritten=%RU32 cSrcFramesMixed=%RU32\n", cSrcFramesWritten, cSrcFramesMixed));
626 RTTESTI_CHECK_MSG_BREAK(AudioMixBufUsed(&Child) == 0, ("%RU32\n", AudioMixBufUsed(&Child)));
627
628 /*
629 * Read out the parent buffer.
630 */
631 uint32_t cDstFrames = AudioMixBufUsed(&Parent);
632 while (cDstFrames > 0)
633 {
634 uint32_t cFramesRead = UINT32_MAX / 2;
635 RTTESTI_CHECK_RC_OK_BREAK(AudioMixBufAcquireReadBlock(&Parent, aDstFrames, sizeof(aDstFrames), &cFramesRead));
636 RTTESTI_CHECK_MSG(cFramesRead > 0 && cFramesRead <= cDstFrames,
637 ("cFramesRead=%RU32 cDstFrames=%RU32\n", cFramesRead, cDstFrames));
638
639 AudioMixBufReleaseReadBlock(&Parent, cFramesRead);
640 AudioMixBufFinish(&Parent, cFramesRead);
641
642 iDstFrame += cFramesRead;
643 cDstFrames -= cFramesRead;
644 RTTESTI_CHECK(AudioMixBufUsed(&Parent) == cDstFrames);
645 }
646 }
647
648 RTTESTI_CHECK(AudioMixBufUsed(&Parent) == 0);
649 RTTESTI_CHECK(AudioMixBufLive(&Child) == 0);
650 uint32_t const cDstMinExpect = (uint64_t)iSrcFrame * uToHz / uFromHz;
651 uint32_t const cDstMaxExpect = ((uint64_t)iSrcFrame * uToHz + uFromHz - 1) / uFromHz;
652 RTTESTI_CHECK_MSG(iDstFrame == cDstMinExpect || iDstFrame == cDstMaxExpect,
653 ("iSrcFrame=%#x -> %#x,%#x; iDstFrame=%#x\n", iSrcFrame, cDstMinExpect, cDstMaxExpect, iDstFrame));
654
655 AudioMixBufDestroy(&Parent);
656 AudioMixBufDestroy(&Child);
657}
658#endif
659
660
661static void tstNewPeek(RTTEST hTest, uint32_t uFromHz, uint32_t uToHz)
662{
663 RTTestSubF(hTest, "New peek %u to %u Hz (S16)", uFromHz, uToHz);
664
665 struct { int16_t l, r; }
666 aSrcFrames[4096],
667 aDstFrames[4096];
668
669 /* Mix buffer is uFromHz 2ch S16 */
670 uint32_t const cFrames = RTRandU32Ex(16, RT_ELEMENTS(aSrcFrames));
671 PDMAUDIOPCMPROPS const CfgSrc = PDMAUDIOPCMPROPS_INITIALIZER(2 /*cbSample*/, true /*fSigned*/, 2 /*ch*/, uFromHz, false /*fSwap*/);
672 RTTESTI_CHECK(AudioHlpPcmPropsAreValidAndSupported(&CfgSrc));
673 AUDIOMIXBUF MixBuf;
674 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufInit(&MixBuf, "NewPeekMixBuf", &CfgSrc, cFrames));
675
676 /* Write state (source). */
677 AUDIOMIXBUFWRITESTATE WriteState;
678 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufInitWriteState(&MixBuf, &WriteState, &CfgSrc));
679
680 /* Peek state (destination) is uToHz 2ch S16 */
681 PDMAUDIOPCMPROPS const CfgDst = PDMAUDIOPCMPROPS_INITIALIZER(2 /*cbSample*/, true /*fSigned*/, 2 /*ch*/, uToHz, false /*fSwap*/);
682 RTTESTI_CHECK(AudioHlpPcmPropsAreValidAndSupported(&CfgDst));
683 AUDIOMIXBUFPEEKSTATE PeekState;
684 RTTESTI_CHECK_RC_OK_RETV(AudioMixBufInitPeekState(&MixBuf, &PeekState, &CfgDst));
685
686 /*
687 * Test parameters.
688 */
689 uint32_t const cMaxSrcFrames = RT_MIN(cFrames * uFromHz / uToHz - 1, cFrames);
690 uint32_t const cIterations = RTRandU32Ex(64, 1024);
691 RTTestErrContext(hTest, "cFrames=%RU32 cMaxSrcFrames=%RU32 cIterations=%RU32", cFrames, cMaxSrcFrames, cIterations);
692 RTTestPrintf(hTest, RTTESTLVL_DEBUG, "cFrames=%RU32 cMaxSrcFrames=%RU32 cIterations=%RU32\n",
693 cFrames, cMaxSrcFrames, cIterations);
694
695 /*
696 * We generate a simple "A" sine wave as input.
697 */
698 uint32_t iSrcFrame = 0;
699 uint32_t iDstFrame = 0;
700 double rdFixed = 2.0 * M_PI * 440.0 /* A */ / PDMAudioPropsHz(&CfgSrc); /* Fixed sin() input. */
701 for (uint32_t i = 0; i < cIterations; i++)
702 {
703 RTTestPrintf(hTest, RTTESTLVL_DEBUG, "i=%RU32\n", i);
704
705 /*
706 * Generate source frames and write them.
707 */
708 uint32_t const cSrcFrames = i < cIterations / 2
709 ? RTRandU32Ex(2, cMaxSrcFrames) & ~(uint32_t)1
710 : RTRandU32Ex(1, cMaxSrcFrames - 1) | 1;
711 for (uint32_t j = 0; j < cSrcFrames; j++, iSrcFrame++)
712 aSrcFrames[j].r = aSrcFrames[j].l = 32760 /*Amplitude*/ * sin(rdFixed * iSrcFrame);
713
714 uint32_t cSrcFramesWritten = UINT32_MAX / 2;
715 AudioMixBufWrite(&MixBuf, &WriteState, &aSrcFrames[0], cSrcFrames * sizeof(aSrcFrames[0]),
716 0 /*offDstFrame*/, cSrcFrames, &cSrcFramesWritten);
717 RTTESTI_CHECK_MSG_BREAK(cSrcFrames == cSrcFramesWritten,
718 ("cSrcFrames=%RU32 vs cSrcFramesWritten=%RU32 cLiveFrames=%RU32\n",
719 cSrcFrames, cSrcFramesWritten, AudioMixBufUsed(&MixBuf)));
720 AudioMixBufCommit(&MixBuf, cSrcFrames);
721
722 /*
723 * Read out all the frames using the peek function.
724 */
725 uint32_t offSrcFrame = 0;
726 while (offSrcFrame < cSrcFramesWritten)
727 {
728 uint32_t cSrcFramesToRead = cSrcFramesWritten - offSrcFrame;
729 uint32_t cTmp = (uint64_t)cSrcFramesToRead * uToHz / uFromHz;
730 if (cTmp + 32 >= RT_ELEMENTS(aDstFrames))
731 cSrcFramesToRead = ((uint64_t)RT_ELEMENTS(aDstFrames) - 32) * uFromHz / uToHz; /* kludge */
732
733 uint32_t cSrcFramesPeeked = UINT32_MAX / 4;
734 uint32_t cbDstPeeked = UINT32_MAX / 2;
735 RTRandBytes(aDstFrames, sizeof(aDstFrames));
736 AudioMixBufPeek(&MixBuf, offSrcFrame, cSrcFramesToRead, &cSrcFramesPeeked,
737 &PeekState, aDstFrames, sizeof(aDstFrames), &cbDstPeeked);
738 uint32_t cDstFramesPeeked = PDMAudioPropsBytesToFrames(&CfgDst, cbDstPeeked);
739 RTTESTI_CHECK(cbDstPeeked > 0 || cSrcFramesPeeked > 0);
740
741 if (uFromHz == uToHz)
742 {
743 for (uint32_t iDst = 0; iDst < cDstFramesPeeked; iDst++)
744 if (memcmp(&aDstFrames[iDst], &aSrcFrames[offSrcFrame + iDst], sizeof(aSrcFrames[0])) != 0)
745 RTTestFailed(hTest, "Frame #%u differs: %#x / %#x, expected %#x / %#x\n", iDstFrame + iDst,
746 aDstFrames[iDst].l, aDstFrames[iDst].r,
747 aSrcFrames[iDst + offSrcFrame].l, aSrcFrames[iDst + offSrcFrame].r);
748 }
749
750 offSrcFrame += cSrcFramesPeeked;
751 iDstFrame += cDstFramesPeeked;
752 }
753
754 /*
755 * Then advance.
756 */
757 AudioMixBufAdvance(&MixBuf, cSrcFrames);
758 RTTESTI_CHECK(AudioMixBufUsed(&MixBuf) == 0);
759 }
760
761 /** @todo this is a bit lax... */
762 uint32_t const cDstMinExpect = ((uint64_t)iSrcFrame * uToHz - uFromHz - 1) / uFromHz;
763 uint32_t const cDstMaxExpect = ((uint64_t)iSrcFrame * uToHz + uFromHz - 1) / uFromHz;
764 RTTESTI_CHECK_MSG(iDstFrame >= cDstMinExpect && iDstFrame <= cDstMaxExpect,
765 ("iSrcFrame=%#x -> %#x..%#x; iDstFrame=%#x (delta %d)\n",
766 iSrcFrame, cDstMinExpect, cDstMaxExpect, iDstFrame, (cDstMinExpect + cDstMaxExpect) / 2 - iDstFrame));
767
768 AudioMixBufTerm(&MixBuf);
769}
770
771/* Test volume control. */
772static void tstVolume(RTTEST hTest)
773{
774 RTTestSub(hTest, "Volume control (44.1kHz S16 2ch)");
775 uint32_t const cBufSize = 256;
776
777 /*
778 * Configure a mixbuf where we read and write 44.1kHz S16 2ch.
779 */
780 PDMAUDIOPCMPROPS const Cfg = PDMAUDIOPCMPROPS_INITIALIZER(
781 2, /* Bytes */
782 true, /* Signed */
783 2, /* Channels */
784 44100, /* Hz */
785 false /* Swap Endian */
786 );
787 AUDIOMIXBUF MixBuf;
788 RTTESTI_CHECK_RC_RETV(AudioMixBufInit(&MixBuf, "Volume", &Cfg, cBufSize), VINF_SUCCESS);
789
790 AUDIOMIXBUFWRITESTATE WriteState;
791 RTTESTI_CHECK_RC_RETV(AudioMixBufInitWriteState(&MixBuf, &WriteState, &Cfg), VINF_SUCCESS);
792
793 AUDIOMIXBUFPEEKSTATE PeekState;
794 RTTESTI_CHECK_RC_RETV(AudioMixBufInitPeekState(&MixBuf, &PeekState, &Cfg), VINF_SUCCESS);
795
796 /*
797 * A few 16-bit signed test samples.
798 */
799 static int16_t const s_aFrames16S[16] =
800 {
801 INT16_MIN, INT16_MIN + 1, -128, -64, -4, -1, 0, 1,
802 2, 255, 256, INT16_MAX / 2, INT16_MAX - 2, INT16_MAX - 1, INT16_MAX, 0,
803 };
804
805 /*
806 * 1) Full volume/0dB attenuation (255).
807 */
808 PDMAUDIOVOLUME Vol = PDMAUDIOVOLUME_INITIALIZER_MAX;
809 AudioMixBufSetVolume(&MixBuf, &Vol);
810
811 /* Write all the test frames to the mixer buffer: */
812 uint32_t cFramesWritten;
813 AudioMixBufWrite(&MixBuf, &WriteState, &s_aFrames16S[0], sizeof(s_aFrames16S), 0 /*offDstFrame*/, cBufSize, &cFramesWritten);
814 RTTESTI_CHECK(cFramesWritten == RT_ELEMENTS(s_aFrames16S) / 2);
815 AudioMixBufCommit(&MixBuf, cFramesWritten);
816
817 /* Read them back. We should get them back just like we wrote them. */
818 uint16_t au16Buf[cBufSize * 2];
819 uint32_t cFramesPeeked;
820 uint32_t cbPeeked;
821 AudioMixBufPeek(&MixBuf, 0 /*offSrcFrame*/, cFramesWritten, &cFramesPeeked, &PeekState, au16Buf, sizeof(au16Buf), &cbPeeked);
822 RTTESTI_CHECK(cFramesPeeked == cFramesWritten);
823 RTTESTI_CHECK(cbPeeked == PDMAudioPropsFramesToBytes(&Cfg, cFramesPeeked));
824 AudioMixBufAdvance(&MixBuf, cFramesPeeked);
825
826 /* Check that at 0dB the frames came out unharmed. */
827 if (memcmp(au16Buf, s_aFrames16S, sizeof(s_aFrames16S)) != 0)
828 RTTestFailed(hTest,
829 "0dB test failed\n"
830 "mismatch: %.*Rhxs\n"
831 "expected: %.*Rhxs\n",
832 sizeof(s_aFrames16S), au16Buf, sizeof(s_aFrames16S), s_aFrames16S);
833
834 /*
835 * 2) Half volume/-6dB attenuation (16 steps down).
836 */
837 PDMAudioVolumeInitFromStereo(&Vol, false, 255 - 16, 255 - 16);
838 AudioMixBufSetVolume(&MixBuf, &Vol);
839
840 /* Write all the test frames to the mixer buffer: */
841 AudioMixBufWrite(&MixBuf, &WriteState, &s_aFrames16S[0], sizeof(s_aFrames16S), 0 /*offDstFrame*/, cBufSize, &cFramesWritten);
842 RTTESTI_CHECK(cFramesWritten == RT_ELEMENTS(s_aFrames16S) / 2);
843 AudioMixBufCommit(&MixBuf, cFramesWritten);
844
845 /* Read them back. We should get them back just like we wrote them. */
846 AudioMixBufPeek(&MixBuf, 0 /*offSrcFrame*/, cFramesWritten, &cFramesPeeked, &PeekState, au16Buf, sizeof(au16Buf), &cbPeeked);
847 RTTESTI_CHECK(cFramesPeeked == cFramesWritten);
848 RTTESTI_CHECK(cbPeeked == PDMAudioPropsFramesToBytes(&Cfg, cFramesPeeked));
849 AudioMixBufAdvance(&MixBuf, cFramesPeeked);
850
851 /* Check that at -6dB the sample values are halved. */
852 int16_t ai16Expect[sizeof(s_aFrames16S) / 2];
853 memcpy(ai16Expect, s_aFrames16S, sizeof(ai16Expect));
854 for (uintptr_t i = 0; i < RT_ELEMENTS(ai16Expect); i++)
855 ai16Expect[i] >>= 1; /* /= 2 - not the same for signed numbers; */
856 if (memcmp(au16Buf, ai16Expect, sizeof(ai16Expect)) != 0)
857 RTTestFailed(hTest,
858 "-6dB test failed\n"
859 "mismatch: %.*Rhxs\n"
860 "expected: %.*Rhxs\n"
861 "wrote: %.*Rhxs\n",
862 sizeof(ai16Expect), au16Buf, sizeof(ai16Expect), ai16Expect, sizeof(s_aFrames16S), s_aFrames16S);
863
864 AudioMixBufTerm(&MixBuf);
865}
866
867
868int main(int argc, char **argv)
869{
870 RTR3InitExe(argc, &argv, 0);
871
872 /*
873 * Initialize IPRT and create the test.
874 */
875 RTTEST hTest;
876 int rc = RTTestInitAndCreate("tstAudioMixBuffer", &hTest);
877 if (rc)
878 return rc;
879 RTTestBanner(hTest);
880
881 tstBasics(hTest);
882 tstSimple(hTest);
883
884 /* Run tstConversion for all combinations we have test data. */
885 for (unsigned iSrc = 0; iSrc < RT_ELEMENTS(g_aTestSamples); iSrc++)
886 {
887 for (unsigned iSrcSigned = 0; iSrcSigned < RT_ELEMENTS(g_aTestSamples[0].apv); iSrcSigned++)
888 if (g_aTestSamples[iSrc].apv[iSrcSigned])
889 for (unsigned cSrcChs = 1; cSrcChs <= 2; cSrcChs++)
890 for (unsigned iDst = 0; iDst < RT_ELEMENTS(g_aTestSamples); iDst++)
891 for (unsigned iDstSigned = 0; iDstSigned < RT_ELEMENTS(g_aTestSamples[0].apv); iDstSigned++)
892 if (g_aTestSamples[iDst].apv[iDstSigned])
893 for (unsigned cDstChs = 1; cDstChs <= 2; cDstChs++)
894 tstConversion(hTest, iSrc * 8, iSrcSigned == 1, cSrcChs,
895 /*->*/ iDst * 8, iDstSigned == 1, cDstChs);
896 }
897
898#if 0 /** @todo rewrite to non-parent/child setup */
899 tstDownsampling(hTest, 44100, 22050);
900 tstDownsampling(hTest, 48000, 44100);
901 tstDownsampling(hTest, 48000, 22050);
902 tstDownsampling(hTest, 48000, 11000);
903#endif
904 tstNewPeek(hTest, 48000, 48000);
905 tstNewPeek(hTest, 48000, 11000);
906 tstNewPeek(hTest, 48000, 44100);
907 tstNewPeek(hTest, 44100, 22050);
908 tstNewPeek(hTest, 44100, 11000);
909 //tstNewPeek(hTest, 11000, 48000);
910 //tstNewPeek(hTest, 22050, 44100);
911
912 tstVolume(hTest);
913
914 /*
915 * Summary
916 */
917 return RTTestSummaryAndDestroy(hTest);
918}
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