xref: /illumos-gate/usr/src/cmd/audio/utilities/AudioUnixfile.cc (revision 4de2612967d06c4fdbf524a62556a1e8118a006f)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
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18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 1993-2003 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include <string.h>
30 #include <stdio.h>
31 #include <errno.h>
32 #include <fcntl.h>
33 #include <stdio.h>
34 #include <stdlib.h>
35 #include <memory.h>
36 #include <unistd.h>
37 
38 #include <sys/types.h>
39 #include <sys/stat.h>
40 #include <sys/file.h>
41 #include <sys/t_lock.h>
42 
43 #include <AudioDebug.h>
44 #include <AudioUnixfile.h>
45 #include <libaudio.h>
46 #include <audio_hdr.h>
47 #include <audio/au.h>
48 
49 // class AudioUnixfile methods
50 
51 // Constructor with pathname and mode arg
52 AudioUnixfile::
53 AudioUnixfile(
54 	const char		*path,		// pathname
55 	const FileAccess	acc):		// access mode
56 	AudioStream(path), fd(-1), block(TRUE), mode(acc),
57 	infostring(new char[1]), infolength(1)
58 {
59 	infostring[0] = '\0';
60 }
61 
62 // Destructor
63 AudioUnixfile::
64 ~AudioUnixfile()
65 {
66 	// If the file is open, close it
67 	if (opened())
68 		(void) Close();
69 
70 	// Deallocate the dynamic storage
71 	delete infostring;
72 }
73 
74 // Generic open with search path routine just calls default Open()
75 AudioError AudioUnixfile::
76 OpenPath(
77 	const char *)
78 {
79 	return (Open());
80 }
81 
82 // Decode an audio file header
83 // This routine reads the audio file header and decodes it.
84 //
85 // This method should be specialized by subclasses that are not files,
86 // like devices for instance.
87 //
88 // XXX - this routine should be rewritten for C++
89 AudioError AudioUnixfile::
90 decode_filehdr()
91 {
92 	Boolean		saveblock;	// saved state of the blocking i/o flag
93 	AudioHdr	hdr_local;	// local copy of header
94 	Audio_hdr	ohdr;		// XXX - old libaudio hdr
95 	au_filehdr_t	fhdr;
96 	char		*ibuf;
97 	int		file_type;
98 	int		infosize;
99 	int		cnt;
100 	struct stat	st;
101 	AudioError	err;
102 
103 	// If fd is not open, or file header already decoded, skip it
104 	if (!isfdset() || opened())
105 		return (RaiseError(AUDIO_ERR_NOEFFECT, Warning));
106 
107 	// Stat the file, to see if it is a regular file
108 	if (fstat(getfd(), &st) < 0)
109 		return (RaiseError(AUDIO_UNIXERROR));
110 
111 	// Make sure the file is not set for blocking i/o
112 	saveblock = GetBlocking();
113 	if (!saveblock)
114 		SetBlocking(TRUE);
115 
116 	// Read the file header, but not the info field
117 	// XXX - Should use C++ input method
118 	cnt = read(getfd(), (char *)&fhdr, sizeof (fhdr));
119 	if (cnt != sizeof (fhdr)) {
120 		return (RaiseError(AUDIO_UNIXERROR));
121 	}
122 
123 	// Check the validity of the header and get the size of the info field
124 	err = (AudioError) audio_decode_filehdr(getfd(), (unsigned char *)&fhdr,
125 	    &file_type, &ohdr, &infosize);
126 	if (err != AUDIO_SUCCESS)
127 		return (RaiseError(err));
128 
129 	// Allocate and read in the info field
130 	ibuf = new char[infosize];
131 	cnt = read(getfd(), ibuf, infosize);
132 	if (cnt != infosize) {
133 		delete ibuf;
134 		return (RaiseError(AUDIO_UNIXERROR));
135 	}
136 	SetBlocking(saveblock);		// Restore the saved blocking i/o state
137 
138 	// XXX - convert from libaudio header
139 	hdr_local = GetHeader();
140 	hdr_local.sample_rate = ohdr.sample_rate;
141 	hdr_local.samples_per_unit = ohdr.samples_per_unit;
142 	hdr_local.bytes_per_unit = ohdr.bytes_per_unit;
143 	hdr_local.channels = ohdr.channels;
144 	hdr_local.encoding = (AudioEncoding) ohdr.encoding;
145 	hdr_local.endian = BIG_ENDIAN; // Files are always written in
146 					// big endian.
147 
148 	err = SetHeader(hdr_local);
149 	if (err != AUDIO_SUCCESS) {
150 		delete ibuf;
151 		return (RaiseError(err));
152 	}
153 	SetInfostring(ibuf, infosize);
154 	delete ibuf;
155 
156 	// Only trust the file size for regular files
157 	if (S_ISREG(st.st_mode)) {
158 		setlength(GetHeader().Bytes_to_Time(
159 		    st.st_size - infosize - sizeof (au_filehdr_t)));
160 
161 		// Sanity check
162 		if ((ohdr.data_size != AUDIO_UNKNOWN_SIZE) &&
163 		    (GetLength() != GetHeader().Bytes_to_Time(ohdr.data_size)))
164 			PrintMsg(_MGET_(
165 			    "AudioUnixfile: header/file size mismatch"));
166 
167 		// always consider it to be unknown if not reading a real file
168 		// since there's no real way to verify if the header is
169 		// correct.
170 	} else {
171 		setlength(AUDIO_UNKNOWN_TIME);
172 	}
173 
174 	// set flag for opened() test
175 	filehdrset = TRUE;
176 
177 	return (AUDIO_SUCCESS);
178 }
179 
180 // Write an audio file header
181 // This routine encodes the audio file header and writes it out.
182 // XXX - It assumes that the file pointer is set to the start of the file.
183 //
184 // This method should be specialized by subclasses that are not files,
185 // like devices for instance.
186 //
187 // XXX - this routine should be rewritten for C++
188 AudioError AudioUnixfile::
189 encode_filehdr()
190 {
191 	Boolean		saveblock;	// saved state of the blocking i/o flag
192 	AudioHdr	hdr_local;	// local copy of header
193 	Audio_hdr	ohdr;		// XXX - old libaudio hdr
194 	AudioError	err;
195 
196 	// If fd is not open, or file header already written, skip it
197 	if (!isfdset() || opened())
198 		return (RaiseError(AUDIO_ERR_NOEFFECT, Warning));
199 
200 	// XXX - Set up the libaudio hdr
201 	hdr_local = GetHeader();
202 	hdr_local.endian = BIG_ENDIAN; // Files are always written big endian.
203 	err = SetHeader(hdr_local);
204 	if (err != AUDIO_SUCCESS) {
205 		return (RaiseError(err));
206 	}
207 
208 	ohdr.sample_rate = hdr_local.sample_rate;
209 	ohdr.samples_per_unit = hdr_local.samples_per_unit;
210 	ohdr.bytes_per_unit = hdr_local.bytes_per_unit;
211 	ohdr.channels = hdr_local.channels;
212 	ohdr.encoding = hdr_local.encoding;
213 	if (Undefined(GetLength()))
214 		ohdr.data_size = AUDIO_UNKNOWN_SIZE;
215 	else
216 		ohdr.data_size = (uint_t)GetHeader().Time_to_Bytes(GetLength());
217 
218 	/* Make sure the file is not set for blocking i/o */
219 	saveblock = GetBlocking();
220 	if (!saveblock)
221 		SetBlocking(TRUE);
222 
223 	// XXX - Should use C++ output method
224 	err = (AudioError) audio_write_filehdr(getfd(), &ohdr, FILE_AU,
225 	    infostring, infolength);
226 
227 	// set flag for opened() test
228 	if (err == AUDIO_SUCCESS)
229 		filehdrset = TRUE;
230 
231 	SetBlocking(saveblock);		// Restore the saved blocking i/o state
232 	return (RaiseError(err));
233 }
234 
235 // Set a file blocking/non-blocking
236 // This method should be subclassed by objects that always block (eg, files)
237 void AudioUnixfile::
238 SetBlocking(
239 	Boolean		b)			// FALSE to set non-blocking
240 {
241 	int		flag;
242 
243 	// If the file is open, set blocking/non-blocking now
244 	if (isfdset()) {
245 		flag = fcntl(getfd(), F_GETFL, 0);
246 		if ((flag < 0) && (errno == EOVERFLOW || errno == EINVAL)) {
247 			RaiseError(AUDIO_UNIXERROR, Fatal,
248 			    (char *)"Large File");
249 		} else if (b) {
250 			flag &= ~(O_NDELAY | O_NONBLOCK);	// set blocking
251 		} else {
252 			flag |= O_NONBLOCK;		// set non-blocking
253 		}
254 		if (fcntl(getfd(), F_SETFL, flag) < 0) {
255 			RaiseError(AUDIO_UNIXERROR, Warning);
256 		}
257 	}
258 	// Set the blocking flag (this may affect the Open() behavior)
259 	block = b;
260 }
261 
262 // Return a pointer to the info string
263 // XXX - returns a pointer to the string stored in the object
264 // XXX - assumes ASCII data
265 char *const AudioUnixfile::
266 GetInfostring(
267 	int&		len) const		// returned length of string
268 {
269 	len = infolength;
270 	return (infostring);
271 }
272 
273 // Set the info string
274 void AudioUnixfile::
275 SetInfostring(
276 	const char	*str,			// new info string
277 	int		len)			// length of string
278 {
279 	// If length defaulted, assume an ASCII string
280 	if (len == -1)
281 		len = strlen(str) + 1;
282 	delete infostring;
283 	infostring = new char[len];
284 	infolength = len;
285 	(void) memcpy(infostring, str, len);
286 }
287 
288 // Close file
289 AudioError AudioUnixfile::
290 Close()
291 {
292 	// If the file is open, close it
293 	if (isfdset()) {
294 		if (close(getfd()) < 0)
295 			return (RaiseError(AUDIO_UNIXERROR));
296 	} else {
297 		return (RaiseError(AUDIO_ERR_NOEFFECT, Warning));
298 	}
299 
300 	// Init important values, in case the file is reopened
301 	setfd(-1);
302 	filehdrset = FALSE;
303 	(void) SetReadPosition((Double)0., Absolute);
304 	(void) SetWritePosition((Double)0., Absolute);
305 	return (AUDIO_SUCCESS);
306 }
307 
308 // Read data from underlying file into specified buffer.
309 // No data format translation takes place.
310 // The object's read position is not updated (subclasses can change this)
311 AudioError AudioUnixfile::
312 ReadData(
313 	void*		buf,		// destination buffer address
314 	size_t&		len,		// buffer length (updated)
315 	Double&		pos)		// start position (updated)
316 {
317 	off_t		offset;
318 	off_t		cnt;
319 	AudioError	err;
320 
321 	// Save buffer size and zero transfer count
322 	cnt = (off_t)len;
323 	len = 0;
324 
325 	// Cannot read if file is not open
326 	if (!opened() || !mode.Readable())
327 		return (RaiseError(AUDIO_ERR_NOEFFECT));
328 
329 	// Position must be valid
330 	if (Undefined(pos) || (pos < 0.) || (cnt < 0))
331 		return (RaiseError(AUDIO_ERR_BADARG));
332 
333 	// Position the file pointer to the right place
334 	err = seekread(pos, offset);
335 	if (err != AUDIO_SUCCESS)
336 		return (err);
337 
338 	// Check for EOF
339 	if (pos >= GetLength()) {
340 		err = AUDIO_EOF;
341 		err.sys = AUDIO_COPY_INPUT_EOF;
342 		return (err);
343 	}
344 
345 	// Zero-length reads are finished
346 	if (GetHeader().Bytes_to_Bytes(cnt) == 0) {
347 		err = AUDIO_SUCCESS;
348 		err.sys = AUDIO_COPY_ZERO_LIMIT;
349 		return (err);
350 	}
351 
352 	// Read as much data as possible
353 	cnt = read(fd, (char *)buf, (int)cnt);
354 	if (cnt < 0) {
355 		if (errno == EOVERFLOW) {
356 			perror("read");
357 			exit(1);
358 		} else if ((errno == EINTR) ||
359 		    (((errno == EWOULDBLOCK) || (errno == EAGAIN)) &&
360 		    !GetBlocking())) {
361 		// Is this an interrupted or failed non-blocking request?
362 			err = AUDIO_SUCCESS;
363 			err.sys = AUDIO_COPY_SHORT_INPUT;
364 			return (err);
365 		}
366 		return (RaiseError(AUDIO_UNIXERROR));
367 	}
368 
369 	// End-of-file?
370 	if ((cnt == 0) && GetBlocking()) {
371 		if (isDevice() || isPipe()) {
372 			AUDIO_DEBUG((1,
373 			    "Zero-length blocking device/pipe read?!\n"));
374 		}
375 		err = AUDIO_EOF;
376 		err.sys = AUDIO_COPY_INPUT_EOF;
377 		return (err);
378 	}
379 	err = AUDIO_SUCCESS;
380 	if (cnt == 0) {
381 		err.sys = AUDIO_COPY_SHORT_INPUT;
382 	}
383 
384 	// Return the updated byte count and position
385 	len = (size_t)cnt;
386 	if (GetHeader().Bytes_to_Bytes(cnt) != len) {
387 		AUDIO_DEBUG((1,
388 		    "Read returned a partial sample frame?!\n"));
389 	}
390 	pos = GetHeader().Bytes_to_Time(offset + len);
391 
392 	// Check to see if the endian is right.
393 	coerceEndian((unsigned char *)buf, len, localByteOrder());
394 
395 	return (err);
396 }
397 
398 // Write data to underlying file from specified buffer.
399 // No data format translation takes place.
400 // The object's write position is not updated (subclasses can change this)
401 AudioError AudioUnixfile::
402 WriteData(
403 	void*		buf,		// source buffer address
404 	size_t&		len,		// buffer length (updated)
405 	Double&		pos)		// start position (updated)
406 {
407 	off_t		offset;
408 	off_t		cnt;
409 	AudioError	err;
410 
411 	// Save buffer size and zero transfer count
412 	cnt = (off_t)len;
413 	len = 0;
414 
415 	// Cannot write if file is not open
416 	if (!opened() || !mode.Writeable())
417 		return (RaiseError(AUDIO_ERR_NOEFFECT));
418 
419 	// Position must be valid
420 	if (Undefined(pos) || (pos < 0.) || (cnt < 0))
421 		return (RaiseError(AUDIO_ERR_BADARG));
422 
423 	// Zero-length writes are easy
424 	if (GetHeader().Bytes_to_Bytes(cnt) == 0) {
425 		err = AUDIO_SUCCESS;
426 		err.sys = AUDIO_COPY_ZERO_LIMIT;
427 		return (err);
428 	}
429 
430 	// Position the file pointer to the right place
431 	err = seekwrite(pos, offset);
432 	if (err != AUDIO_SUCCESS)
433 		return (err);
434 
435 	// Make sure data is in target's endian format before writing.
436 	// This conversion is done inplace so we need to change back.
437 	// We assume that the data in buf is in localByteOrder.
438 	// Only files should have order issues.
439 	if (localByteOrder() != GetHeader().endian)
440 		coerceEndian((unsigned char *)buf, (size_t)cnt, SWITCH_ENDIAN);
441 
442 	// Write as much data as possible
443 	err = AUDIO_SUCCESS;
444 	cnt = write(fd, (char *)buf, (int)cnt);
445 	if (cnt < 0) {
446 		if (errno == EFBIG) {
447 			perror("write");
448 			exit(1);
449 		} else if ((errno == EWOULDBLOCK) || (errno == EAGAIN)) {
450 			// Is this a failed non-blocking request?
451 			err.sys = AUDIO_COPY_SHORT_OUTPUT;
452 			return (err);
453 		}
454 		return (RaiseError(AUDIO_UNIXERROR));
455 	}
456 	if (cnt == 0)
457 		err.sys = AUDIO_COPY_SHORT_OUTPUT;
458 
459 	// Switch the endian back if local order doesn't match target order.
460 	if (localByteOrder() != GetHeader().endian)
461 		coerceEndian((unsigned char *)buf, (size_t)cnt, SWITCH_ENDIAN);
462 
463 	// Return the updated byte count and position
464 	len = (size_t)cnt;
465 	pos = GetHeader().Bytes_to_Time(offset + len);
466 
467 	// If the current position is beyond old EOF, update the size
468 	if (!Undefined(GetLength()) && (pos > GetLength())) {
469 		setlength(pos);
470 	}
471 
472 	return (AUDIO_SUCCESS);
473 }
474 
475 // Seek in input stream
476 // Ordinary streams (ie, pipes and devices) cannot be rewound.
477 // A forward seek in them consumes data by reading it.
478 //
479 // This method should be specialized by subclasses that can actually seek,
480 // like regular files for instance.
481 //
482 AudioError AudioUnixfile::
483 seekread(
484 	Double		pos,		// position to seek to
485 	off_t&		offset)		// returned byte offset
486 {
487 	char		*bufp;		// temporary input buffer
488 	size_t		bufl;		// input buffer size
489 	size_t		cnt;		// input byte count
490 	long		icnt;		// read size
491 	Boolean		saveblock;	// saved state of the blocking i/o flag
492 	Double		buflen;
493 	AudioError	err;
494 
495 	offset = GetHeader().Time_to_Bytes(pos);
496 	pos -= ReadPosition();
497 
498 	// If the seek is backwards, do nothing
499 	if (pos < 0.)
500 		return (RaiseError(AUDIO_ERR_NOEFFECT, Warning));
501 
502 	// If the seek is to the current position, then do nothing.
503 	icnt = GetHeader().Time_to_Bytes(pos);
504 	if (icnt == 0)
505 		return (AUDIO_SUCCESS);
506 
507 	// The seek is determinate and forward.
508 	// We'll have to consume data to get there.
509 	// First allocate a buffer to stuff the data into.
510 	// Then set the stream for blocking i/o (saving the old state).
511 	buflen = max(pos, 1.);
512 	bufl = (size_t)GetHeader().Time_to_Bytes(buflen);
513 	bufp = new char[bufl];
514 	if (bufp == 0) {		// allocation error, try a smaller buf
515 		bufl = (size_t)sysconf(_SC_PAGESIZE);
516 		bufp = new char[bufl];
517 		if (bufp == 0)
518 			return (RaiseError(AUDIO_UNIXERROR));
519 	}
520 	// XXX - May have to realign to partial frame count!
521 
522 	saveblock = GetBlocking();
523 	if (!saveblock)
524 		SetBlocking(TRUE);
525 
526 	// Loop until the seek is satisfied (or an error occurs).
527 	do {
528 		// Limit the read to keep from going too far
529 		cnt = (icnt >= (long)bufl) ? bufl : (size_t)icnt;
530 		err = Read(bufp, cnt);
531 		if (err != AUDIO_SUCCESS)
532 			break;
533 		icnt -= (long)cnt;
534 	} while (icnt > 0);
535 
536 	SetBlocking(saveblock);		// Restore the saved blocking i/o state
537 	delete bufp;			// Free the temporary buffer
538 	return (RaiseError(err));
539 }
540 
541 // Seek in output stream
542 // Ordinary streams (ie, pipes and devices) cannot be rewound.
543 // A forward seek in them writes NULL data.
544 //
545 // This method should be specialized by subclasses that can actually seek,
546 // like regular files for instance.
547 //
548 AudioError AudioUnixfile::
549 seekwrite(
550 	Double		pos,		// position to seek to
551 	off_t&		offset)		// returned byte offset
552 {
553 	char		*bufp;		// temporary output buffer
554 	size_t		bufl;		// output buffer size
555 	size_t		cnt;		// output byte count
556 	long		ocnt;		// write size
557 	Boolean		saveblock;	// saved state of the blocking i/o flag
558 	Double		buflen;
559 	AudioError	err;
560 
561 	offset = GetHeader().Time_to_Bytes(pos);
562 	pos -= WritePosition();
563 
564 	// If the seek is backwards, do nothing
565 	if (pos < 0.)
566 		return (RaiseError(AUDIO_ERR_NOEFFECT, Warning));
567 
568 	// If the seek is to the current position, then do nothing.
569 	ocnt = GetHeader().Time_to_Bytes(pos);
570 	if (ocnt == 0)
571 		return (AUDIO_SUCCESS);
572 
573 	// The seek is determinate and forward.
574 	// We'll have to produce NULL data to get there.
575 	// XXX - not implemented correctly yet
576 	buflen = max(pos, 1.);
577 	bufl = (size_t)GetHeader().Time_to_Bytes(buflen);
578 	bufp = new char[bufl];
579 	if (bufp == 0) {		// allocation error, try a smaller buf
580 		bufl = (size_t)sysconf(_SC_PAGESIZE);
581 		bufp = new char[bufl];
582 		if (bufp == 0)
583 			return (RaiseError(AUDIO_UNIXERROR));
584 	}
585 
586 	// XXX - May have to realign to partial frame count!
587 	saveblock = GetBlocking();
588 	if (!saveblock)
589 		SetBlocking(TRUE);
590 
591 	// Loop until the seek is satisfied (or an error occurs).
592 	do {
593 		// Limit the write to keep from going too far
594 		cnt = (ocnt >= (long)bufl) ? bufl : (size_t)ocnt;
595 		err = Write(bufp, cnt);
596 		if (err != AUDIO_SUCCESS)
597 			break;
598 		ocnt -= (long)cnt;
599 	} while (ocnt > 0);
600 
601 	SetBlocking(saveblock);		// Restore the saved blocking i/o state
602 	delete bufp;			// Free the temporary buffer
603 	return (RaiseError(err));
604 }
605