| blob | 4f2ec324de14d1364e634bbca477fb6c4e9a8616 |
1 /***************************************************************************
2 * __________ __ ___.
3 * Open \______ \ ____ ____ | | _\_ |__ _______ ___
4 * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
5 * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
6 * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
7 * \/ \/ \/ \/ \/
8 * $Id$
9 *
10 * Copyright (C) 2007 Nicolas Pennequin
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; either version 2
15 * of the License, or (at your option) any later version.
16 *
17 * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
18 * KIND, either express or implied.
19 *
20 ****************************************************************************/
23 #include <stdio.h>
24 #include <string.h>
25 #include <stdlib.h>
26 #include <ctype.h>
54 #ifdef HAVE_ALBUMART
57 #endif
59 #define GUARD_BUFSIZE (32*1024)
61 /* Define LOGF_ENABLE to enable logf output in this file */
62 /*#define LOGF_ENABLE*/
65 /* macros to enable logf for queues
66 logging on SYS_TIMEOUT can be disabled */
67 #ifdef SIMULATOR
68 /* Define this for logf output of all queuing except SYS_TIMEOUT */
69 #define BUFFERING_LOGQUEUES
70 /* Define this to logf SYS_TIMEOUT messages */
71 /* #define BUFFERING_LOGQUEUES_SYS_TIMEOUT */
72 #endif
74 #ifdef BUFFERING_LOGQUEUES
75 #define LOGFQUEUE logf
76 #else
77 #define LOGFQUEUE(...)
78 #endif
80 #ifdef BUFFERING_LOGQUEUES_SYS_TIMEOUT
81 #define LOGFQUEUE_SYS_TIMEOUT logf
82 #else
83 #define LOGFQUEUE_SYS_TIMEOUT(...)
84 #endif
86 /* default point to start buffer refill */
87 #define BUFFERING_DEFAULT_WATERMARK (1024*128)
88 /* amount of data to read in one read() call */
89 #define BUFFERING_DEFAULT_FILECHUNK (1024*32)
91 #define BUF_HANDLE_MASK 0x7FFFFFFF
94 /* Ring buffer helper macros */
95 /* Buffer pointer (p) plus value (v), wrapped if necessary */
96 #define RINGBUF_ADD(p,v) (((p)+(v))<buffer_len ? (p)+(v) : (p)+(v)-buffer_len)
97 /* Buffer pointer (p) minus value (v), wrapped if necessary */
98 #define RINGBUF_SUB(p,v) ((p>=v) ? (p)-(v) : (p)+buffer_len-(v))
99 /* How far value (v) plus buffer pointer (p1) will cross buffer pointer (p2) */
100 #define RINGBUF_ADD_CROSS(p1,v,p2) \
101 ((p1<p2) ? (int)((p1)+(v))-(int)(p2) : (int)((p1)+(v)-(p2))-(int)buffer_len)
102 /* Bytes available in the buffer */
103 #define BUF_USED RINGBUF_SUB(buf_widx, buf_ridx)
105 /* assert(sizeof(struct memory_handle)%4==0) */
119 };
120 /* invariant: filesize == offset + available + filerem */
129 /* buf_*idx are values relative to the buffer, not real pointers. */
131 /* Configuration */
133 #if MEM > 8
135 #endif
137 /* current memory handle in the linked list. NULL when the list is empty. */
139 /* first memory handle in the linked list. NULL when the list is empty. */
149 /* Handle cache (makes find_handle faster).
150 This is global so that move_handle and rm_handle can invalidate it. */
161 /* Messages available to communicate with the buffering thread */
164 used in a low buffer situation. */
166 offset (the offset has to be set beforehand) */
170 /* Configuration: */
172 fill at its earliest convenience */
174 (which means the disk is spinning) */
175 };
177 /* Buffering thread */
187 /*
188 LINKED LIST MANAGEMENT
189 ======================
191 add_handle : Add a handle to the list
192 rm_handle : Remove a handle from the list
193 find_handle : Get a handle pointer from an ID
194 move_handle : Move a handle in the buffer (with or without its data)
196 These functions only handle the linked list structure. They don't touch the
197 contents of the struct memory_handle headers. They also change the buf_*idx
198 pointers when necessary and manage the handle IDs.
200 The first and current (== last) handle are kept track of.
201 A new handle is added at buf_widx and becomes the current one.
202 buf_widx always points to the current writing position for the current handle
203 buf_ridx always points to the location of the first handle.
204 buf_ridx == buf_widx means the buffer is empty.
205 */
208 /* Add a new handle to the linked list and return it. It will have become the
209 new current handle.
210 data_size must contain the size of what will be in the handle.
211 can_wrap tells us whether this type of data may wrap on buffer
212 alloc_all tells us if we must immediately be able to allocate data_size
213 returns a valid memory handle if all conditions for allocation are met.
214 NULL if there memory_handle itself cannot be allocated or if the
215 data_size cannot be allocated and alloc_all is set. This function's
216 only potential side effect is to allocate space for the cur_handle
217 if it returns NULL.
218 */
221 {
222 /* gives each handle a unique id */
236 /* the current handle hasn't finished buffering. We can only add
237 a new one if there is already enough free space to finish
238 the buffering. */
241 /* Not enough space */
246 /* Allocate the remainder of the space for the current handle */
248 }
249 }
251 /* align to 4 bytes up */
256 /* First, will the handle wrap? */
257 /* If the handle would wrap, move to the beginning of the buffer,
258 * or if the data must not but would wrap, move it to the beginning */
262 }
264 /* How far we shifted buf_widx to align things, must be < buffer_len */
267 /* How much space are we short in the actual ring buffer? */
270 /* Not enough space for required allocations */
274 }
276 /* There is enough space for the required data, advance the buf_widx and
277 * initialize the struct */
283 /* only advance the buffer write index of the size of the struct */
287 /* Wrap signed int is safe and 0 doesn't happen */
290 num_handles++;
293 /* the new handle is the first one */
304 }
306 /* Delete a given memory handle from the linked list
307 and return true for success. Nothing is actually erased from memory. */
309 {
319 /* h was the first and last handle: the buffer is now empty */
323 /* update buf_ridx to point to the new first handle */
325 }
328 /* Find the previous handle */
331 }
337 }
342 }
343 }
345 /* Invalidate the cache to prevent it from keeping the old location of h */
349 num_handles--;
354 }
356 /* Return a pointer to the memory handle of given ID.
357 NULL if the handle wasn't found */
359 {
365 /* simple caching because most of the time the requested handle
366 will either be the same as the last, or the one after the last */
368 {
377 }
378 }
383 }
384 /* This condition can only be reached with !m or m->id == handle_id */
390 }
392 /* Move a memory handle and data_size of its data delta bytes along the buffer.
393 delta maximum bytes available to move the handle. If the move is performed
394 it is set to the actual distance moved.
395 data_size is the amount of data to move along with the struct.
396 returns a valid memory_handle if the move is successful
397 NULL if the handle is NULL, the move would be less than the size of
398 a memory_handle after correcting for wraps or if the handle is not
399 found in the linked list for adjustment. This function has no side
400 effects if NULL is returned. */
403 {
416 /* Align to four bytes, down */
419 /* It's not legal to move less than the size of the struct */
421 }
430 /* Some part of the struct + data would wrap, maybe ok */
432 /* If the overlap lands inside the memory_handle */
434 /* Correct the position and real delta to prevent the struct from
435 * wrapping, this guarantees an aligned delta, I think */
438 /* Otherwise the overlap falls in the data area and must all be
439 * backed out. This may become conditional if ever we move
440 * data that is allowed to wrap (ie audio) */
442 /* Align correction to four bytes, up */
444 }
447 /* Delta cannot end up less than the size of the struct */
451 }
456 }
457 }
468 }
475 }
476 }
479 /* Update the cache to prevent it from keeping the old location of h */
483 /* the cur_handle pointer might need updating */
493 }
495 /* Update the caller with the new location of h and the distance moved */
501 }
504 /*
505 BUFFER SPACE MANAGEMENT
506 =======================
508 update_data_counters: Updates the values in data_counters
509 buffer_is_low : Returns true if the amount of useful data in the buffer is low
510 buffer_handle : Buffer data for a handle
511 reset_handle : Reset write position and data buffer of a handle to its offset
512 rebuffer_handle : Seek to a nonbuffered part of a handle by rebuffering the data
513 shrink_handle : Free buffer space by moving a handle
514 fill_buffer : Call buffer_handle for all handles that have data to buffer
516 These functions are used by the buffering thread to manage buffer space.
517 */
520 {
544 }
552 }
555 {
558 }
560 /* Buffer data for the given handle.
561 Return whether or not the buffering should continue explicitly. */
563 {
570 /* nothing left to buffer */
572 }
575 {
580 {
581 /* could not open the file, truncate it where it is */
585 }
589 }
594 {
596 {
597 /* metadata parsing failed: clear the buffer. */
599 }
607 }
610 {
611 /* max amount to copy */
615 /* stop copying if it would overwrite the reading position */
619 /* This would read into the next handle, this is broken */
622 /* Try to recover by truncating this file */
630 else
632 }
634 /* rc is the actual amount read */
638 {
639 /* Some kind of filesystem error, maybe recoverable if not codec */
643 }
649 }
651 /* Advance buffer */
658 /* If this is a large file, see if we need to break or give the codec
659 * more time */
662 {
664 }
665 else
666 {
668 }
672 }
675 /* finished buffering the file */
679 }
682 }
684 /* Reset writing position and data buffer of a handle to its current offset.
685 Use this after having set the new offset to use. */
687 {
702 }
703 }
705 /* Seek to a nonbuffered part of a handle by rebuffering the data. */
707 {
712 /* When seeking foward off of the buffer, if it is a short seek don't
713 rebuffer the whole track, just read enough to satisfy */
715 {
720 }
724 /* Reset the handle to its new offset */
730 {
731 /* There isn't enough space to rebuffer all of the track from its new
732 offset, so we ask the user to free some */
735 }
737 /* Now we ask for a rebuffer */
740 }
743 {
746 /* If the handle is not found, it is closed */
753 }
755 /* rm_handle returns true unless the handle somehow persists after exit */
757 }
759 /* Free buffer space by moving the handle struct right before the useful
760 part of its data buffer or by moving all the data. */
762 {
772 {
773 /* metadata handle: we can move all of it */
778 /* The value of delta might change for alignment reasons */
788 /* when moving an mp3entry we need to readjust its pointers. */
793 /* adjust the bitmap's pointer */
796 }
797 }
798 else
799 {
800 /* only move the handle struct */
808 }
809 }
811 /* Fill the buffer by buffering as much data as possible for handles that still
812 have data left to buffer
813 Return whether or not to continue filling after this */
815 {
825 }
826 }
828 }
832 }
833 else
834 {
835 /* only spin the disk down if the filling wasn't interrupted by an
836 event arriving in the queue. */
839 }
840 }
842 #ifdef HAVE_ALBUMART
843 /* Given a file descriptor to a bitmap file, write the bitmap data to the
844 buffer, with a struct bitmap and the actual data immediately following.
845 Return value is the total size (struct + data). */
847 {
850 /* FIXME: alignment may be needed for the data buffer. */
853 #if (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1)
855 #endif
862 #ifdef HAVE_JPEG
867 else
868 #endif
872 }
873 #endif
876 /*
877 MAIN BUFFERING API CALLS
878 ========================
880 bufopen : Request the opening of a new handle for a file
881 bufalloc : Open a new handle for data other than a file.
882 bufclose : Close an open handle
883 bufseek : Set the read pointer in a handle
884 bufadvance : Move the read pointer in a handle
885 bufread : Copy data from a handle into a given buffer
886 bufgetdata : Give a pointer to the handle's data
888 These functions are exported, to allow interaction with the buffer.
889 They take care of the content of the structs, and rely on the linked list
890 management functions for all the actual handle management work.
891 */
894 /* Reserve space in the buffer for a file.
895 filename: name of the file to open
896 offset: offset at which to start buffering the file, useful when the first
897 (offset-1) bytes of the file aren't needed.
898 return value: <0 if the file cannot be opened, or one file already
899 queued to be opened, otherwise the handle for the file in the buffer
900 */
902 {
904 {
905 /* ID3 case: allocate space, init the handle and return. */
923 can't wrap */
925 /* Inform the buffering thread that we added a handle */
930 }
932 /* Other cases: there is a little more work. */
947 {
951 }
962 #ifdef HAVE_ALBUMART
964 {
965 /* Bitmap file: we load the data instead of the file */
971 {
975 }
981 }
982 else
983 #endif
984 {
989 }
993 /* Immediately start buffering those */
997 /* Other types will get buffered in the course of normal operations */
1001 /* Inform the buffering thread that we added a handle */
1004 }
1008 }
1010 /* Open a new handle from data that needs to be copied from memory.
1011 src is the source buffer from which to copy data. It can be NULL to simply
1012 reserve buffer space.
1013 size is the requested size. The call will only be successful if the
1014 requested amount of data can entirely fit in the buffer without wrapping.
1015 Return value is the handle id for success or <0 for failure.
1016 */
1018 {
1026 /* specially take care of struct mp3entry */
1031 }
1032 }
1049 }
1051 /* Close the handle. Return true for success and false for failure */
1053 {
1058 }
1060 /* Set reading index in handle (relatively to the start of the file).
1061 Access before the available data will trigger a rebuffer.
1062 Return 0 for success and < 0 for failure:
1063 -1 if the handle wasn't found
1064 -2 if the new requested position was beyond the end of the file
1065 */
1067 {
1073 /* access beyond the end of the file */
1075 }
1077 /* access before or after buffered data. A rebuffer is needed. */
1079 }
1082 }
1084 }
1086 /* Advance the reading index in a handle (relatively to its current position).
1087 Return 0 for success and < 0 for failure */
1089 {
1096 }
1098 /* Used by bufread and bufgetdata to prepare the buffer and retrieve the
1099 * actual amount of data available for reading. This function explicitly
1100 * does not check the validity of the input handle. It does do range checks
1101 * on size and returns a valid (and explicit) amount of data for reading */
1104 {
1112 {
1113 /* File is finished reading */
1116 }
1122 {
1124 /* If more than the size of the guardbuf is requested and this is a
1125 * bufgetdata, limit to guard_bufsize over the end of the buffer */
1127 /* this ensures *size <= buffer_len - h->ridx + GUARD_BUFSIZE */
1128 }
1131 {
1132 /* Data isn't ready. Request buffering */
1134 /* Wait for the data to be ready */
1135 do
1136 {
1138 /* it is not safe for a non-buffering thread to sleep while
1139 * holding a handle */
1144 }
1146 }
1150 }
1152 /* Copy data from the given handle to the dest buffer.
1153 Return the number of bytes copied or < 0 for failure (handle not found).
1154 The caller is blocked until the requested amount of data is available.
1155 */
1157 {
1166 {
1167 /* the data wraps around the end of the buffer */
1171 }
1172 else
1173 {
1175 }
1178 }
1180 /* Update the "data" pointer to make the handle's data available to the caller.
1181 Return the length of the available linear data or < 0 for failure (handle
1182 not found).
1183 The caller is blocked until the requested amount of data is available.
1184 size is the amount of linear data requested. it can be 0 to get as
1185 much as possible.
1186 The guard buffer may be used to provide the requested size. This means it's
1187 unsafe to request more than the size of the guard buffer.
1188 */
1190 {
1199 {
1200 /* the data wraps around the end of the buffer :
1201 use the guard buffer to provide the requested amount of data. */
1203 /* prep_bufdata ensures adjusted_size <= buffer_len - h->ridx + GUARD_BUFSIZE,
1204 so copy_n <= GUARD_BUFSIZE */
1206 }
1212 }
1215 {
1228 /* We don't support tail requests of > guardbuf_size, for simplicity */
1235 {
1238 }
1242 }
1245 {
1267 }
1270 /*
1271 SECONDARY EXPORTED FUNCTIONS
1272 ============================
1274 buf_get_offset
1275 buf_handle_offset
1276 buf_request_buffer_handle
1277 buf_set_base_handle
1278 buf_used
1279 register_buffering_callback
1280 unregister_buffering_callback
1282 These functions are exported, to allow interaction with the buffer.
1283 They take care of the content of the structs, and rely on the linked list
1284 management functions for all the actual handle management work.
1285 */
1287 /* Get a handle offset from a pointer */
1289 {
1295 }
1298 {
1303 }
1306 {
1309 }
1312 {
1315 }
1317 /* Return the amount of buffer space used */
1319 {
1321 }
1324 {
1326 }
1329 {
1336 }
1339 {
1342 }
1345 {
1350 {
1353 }
1358 {
1361 /* Call buffer callbacks here because this is one of two ways
1362 * to begin a full buffer fill */
1388 /* A handle was added: the disk is spinning, so we can fill */
1397 #ifndef SIMULATOR
1403 #endif
1408 }
1412 /* If the buffer is low, call the callbacks to get new data */
1416 #if 0
1417 /* TODO: This needs to be fixed to use the idle callback, disable it
1418 * for simplicity until its done right */
1419 #if MEM > 8
1420 /* If the disk is spinning, take advantage by filling the buffer */
1422 {
1427 {
1428 /* This is a new fill, shrink the buffer up first */
1433 }
1434 }
1435 #endif
1436 #endif
1444 }
1446 {
1451 }
1452 }
1453 }
1454 }
1455 }
1458 {
1461 #ifdef HAVE_PRIORITY_SCHEDULING
1462 /* This behavior not safe atm */
1465 #endif
1476 buffering_thread_id);
1477 }
1479 /* Initialise the buffering subsystem */
1481 {
1498 /* Set the high watermark as 75% full...or 25% empty :) */
1499 #if MEM > 8
1501 #endif
1506 }
1509 {
1517 }