Annotation of src/usr.bin/aucat/aproc.h, Revision 1.41
1.41 ! ratchov 1: /* $OpenBSD: aproc.h,v 1.40 2011/11/15 20:41:54 ratchov Exp $ */
1.1 ratchov 2: /*
3: * Copyright (c) 2008 Alexandre Ratchov <alex@caoua.org>
4: *
5: * Permission to use, copy, modify, and distribute this software for any
6: * purpose with or without fee is hereby granted, provided that the above
7: * copyright notice and this permission notice appear in all copies.
8: *
9: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
10: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
11: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
12: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
13: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
14: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
15: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
16: */
17: #ifndef APROC_H
18: #define APROC_H
19:
20: #include <sys/queue.h>
21:
22: #include "aparams.h"
1.17 ratchov 23: #include "file.h"
1.1 ratchov 24:
25: struct abuf;
26: struct aproc;
27: struct file;
28:
29: struct aproc_ops {
30: /*
31: * Name of the ops structure, ie type of the unit.
32: */
33: char *name;
34:
35: /*
36: * The state of the given input abuf changed (eg. an input block
37: * is ready for processing). This function must get the block
38: * from the input, process it and remove it from the buffer.
39: *
40: * Processing the block will result in a change of the state of
41: * OTHER buffers that are attached to the aproc (eg. the output
42: * buffer was filled), thus this routine MUST notify ALL aproc
43: * structures that are waiting on it; most of the time this
44: * means just calling abuf_flush() on the output buffer.
45: */
46: int (*in)(struct aproc *, struct abuf *);
47:
48: /*
49: * The state of the given output abuf changed (eg. space for a
50: * new output block was made available) so processing can
51: * continue. This function must process more input in order to
52: * fill the output block.
53: *
54: * Producing a block will result in the change of the state of
55: * OTHER buffers that are attached to the aproc, thus this
56: * routine MUST notify ALL aproc structures that are waiting on
57: * it; most of the time this means calling abuf_fill() on the
58: * source buffers.
59: *
60: * Before filling input buffers (using abuf_fill()), this
61: * routine must ALWAYS check for eof condition, and if needed,
62: * handle it appropriately and call abuf_hup() to free the input
63: * buffer.
64: */
65: int (*out)(struct aproc *, struct abuf *);
66:
67: /*
68: * The input buffer is empty and we can no more receive data
69: * from it. The buffer will be destroyed as soon as this call
70: * returns so the abuf pointer will stop being valid after this
71: * call returns. There's no need to drain the buffer because the
72: * in() call-back was just called before.
73: *
74: * If this call reads and/or writes data on other buffers,
75: * abuf_flush() and abuf_fill() must be called appropriately.
76: */
77: void (*eof)(struct aproc *, struct abuf *);
78:
79: /*
80: * The output buffer can no more accept data (it should be
81: * considered as full). After this function returns, it will be
82: * destroyed and the "abuf" pointer will be no more valid.
83: */
84: void (*hup)(struct aproc *, struct abuf *);
85:
86: /*
87: * A new input was connected.
88: */
89: void (*newin)(struct aproc *, struct abuf *);
90:
91: /*
92: * A new output was connected
93: */
94: void (*newout)(struct aproc *, struct abuf *);
1.3 ratchov 95:
96: /*
1.6 ratchov 97: * Real-time record position changed (for input buffer),
1.18 ratchov 98: * by the given amount of _frames_.
1.6 ratchov 99: */
100: void (*ipos)(struct aproc *, struct abuf *, int);
101:
102: /*
103: * Real-time play position changed (for output buffer),
1.18 ratchov 104: * by the given amount of _frames_.
1.6 ratchov 105: */
106: void (*opos)(struct aproc *, struct abuf *, int);
107:
108: /*
1.18 ratchov 109: * Destroy the aproc, called just before to free the
110: * aproc structure.
1.3 ratchov 111: */
112: void (*done)(struct aproc *);
1.1 ratchov 113: };
114:
115: /*
116: * The aproc structure represents a simple audio processing unit; they are
117: * interconnected by abuf structures and form a kind of "circuit". The circuit
118: * cannot have loops.
119: */
120: struct aproc {
121: char *name; /* for debug purposes */
122: struct aproc_ops *ops; /* call-backs */
1.35 ratchov 123: LIST_HEAD(, abuf) ins; /* list of inputs */
124: LIST_HEAD(, abuf) outs; /* list of outputs */
1.15 ratchov 125: unsigned refs; /* extern references */
1.27 ratchov 126: #define APROC_ZOMB 1 /* destroyed but not freed */
127: #define APROC_QUIT 2 /* try to terminate if unused */
128: #define APROC_DROP 4 /* xrun if capable */
129: unsigned flags;
1.1 ratchov 130: union { /* follow type-specific data */
131: struct { /* file/device io */
132: struct file *file; /* file to read/write */
1.32 ratchov 133: unsigned partial; /* bytes of partial frame */
1.1 ratchov 134: } io;
135: struct {
1.12 ratchov 136: unsigned idle; /* frames since idleing */
1.32 ratchov 137: unsigned round; /* block size, for xruns */
1.6 ratchov 138: int lat; /* current latency */
1.27 ratchov 139: int maxlat; /* max latency allowed */
1.32 ratchov 140: unsigned abspos; /* frames produced */
141: struct aproc *mon; /* snoop output */
1.39 ratchov 142: unsigned autovol; /* adjust volume dynamically */
1.2 ratchov 143: } mix;
144: struct {
1.12 ratchov 145: unsigned idle; /* frames since idleing */
1.32 ratchov 146: unsigned round; /* block size, for xruns */
1.6 ratchov 147: int lat; /* current latency */
1.27 ratchov 148: int maxlat; /* max latency allowed */
1.32 ratchov 149: unsigned abspos; /* frames consumed */
1.2 ratchov 150: } sub;
1.7 ratchov 151: struct {
1.32 ratchov 152: int delta; /* time position */
153: unsigned bufsz; /* buffer size (latency) */
154: unsigned pending; /* uncommited samples */
155: } mon;
156: struct {
1.14 ratchov 157: #define RESAMP_NCTX 2
158: unsigned ctx_start;
1.38 ratchov 159: adata_t ctx[NCHAN_MAX * RESAMP_NCTX];
1.13 ratchov 160: unsigned iblksz, oblksz;
1.14 ratchov 161: int diff;
1.32 ratchov 162: int idelta, odelta; /* remainder of resamp_xpos */
1.7 ratchov 163: } resamp;
1.9 ratchov 164: struct {
1.11 ratchov 165: int bfirst; /* bytes to skip at startup */
166: unsigned bps; /* bytes per sample */
167: unsigned shift; /* shift to get 32bit MSB */
168: int sigbit; /* sign bits to XOR */
169: int bnext; /* to reach the next byte */
170: int snext; /* to reach the next sample */
171: } conv;
1.17 ratchov 172: struct {
173: struct timo timo; /* timout for throtteling */
174: } thru;
1.19 ratchov 175: struct {
1.37 ratchov 176: struct dev *dev; /* controlled device */
1.27 ratchov 177: unsigned fps; /* MTC frames per second */
178: #define MTC_FPS_24 0
179: #define MTC_FPS_25 1
180: #define MTC_FPS_30 3
181: unsigned fps_id; /* one of above */
182: unsigned hr; /* MTC hours */
183: unsigned min; /* MTC minutes */
184: unsigned sec; /* MTC seconds */
185: unsigned fr; /* MTC frames */
186: unsigned qfr; /* MTC quarter frames */
187: int delta; /* rel. to the last MTC tick */
1.19 ratchov 188: } ctl;
1.1 ratchov 189: } u;
190: };
191:
1.32 ratchov 192: /*
193: * Check if the given pointer is a valid aproc structure.
194: *
195: * aproc structures are not free()'d immediately, because
196: * there may be pointers to them, instead the APROC_ZOMB flag
197: * is set which means that they should not be used. When
198: * aprocs reference counter reaches zero, they are actually
199: * freed
200: */
201: #define APROC_OK(p) ((p) && !((p)->flags & APROC_ZOMB))
202:
203:
1.3 ratchov 204: struct aproc *aproc_new(struct aproc_ops *, char *);
1.1 ratchov 205: void aproc_del(struct aproc *);
1.23 ratchov 206: void aproc_dbg(struct aproc *);
1.1 ratchov 207: void aproc_setin(struct aproc *, struct abuf *);
208: void aproc_setout(struct aproc *, struct abuf *);
1.17 ratchov 209: int aproc_depend(struct aproc *, struct aproc *);
1.1 ratchov 210:
1.32 ratchov 211: void aproc_ipos(struct aproc *, struct abuf *, int);
212: void aproc_opos(struct aproc *, struct abuf *, int);
213:
1.28 ratchov 214: struct aproc *rfile_new(struct file *);
215: struct aproc *wfile_new(struct file *);
1.39 ratchov 216: struct aproc *mix_new(char *, int, unsigned, unsigned);
1.36 ratchov 217: struct aproc *sub_new(char *, int, unsigned);
1.13 ratchov 218: struct aproc *resamp_new(char *, unsigned, unsigned);
1.11 ratchov 219: struct aproc *enc_new(char *, struct aparams *);
220: struct aproc *dec_new(char *, struct aparams *);
1.34 ratchov 221: struct aproc *join_new(char *);
1.32 ratchov 222: struct aproc *mon_new(char *, unsigned);
223:
224: int rfile_in(struct aproc *, struct abuf *);
225: int rfile_out(struct aproc *, struct abuf *);
226: void rfile_eof(struct aproc *, struct abuf *);
227: void rfile_hup(struct aproc *, struct abuf *);
228: void rfile_done(struct aproc *);
229: int rfile_do(struct aproc *, unsigned, unsigned *);
230:
231: int wfile_in(struct aproc *, struct abuf *);
232: int wfile_out(struct aproc *, struct abuf *);
233: void wfile_eof(struct aproc *, struct abuf *);
234: void wfile_hup(struct aproc *, struct abuf *);
235: void wfile_done(struct aproc *);
236: int wfile_do(struct aproc *, unsigned, unsigned *);
1.5 ratchov 237:
238: void mix_setmaster(struct aproc *);
1.12 ratchov 239: void mix_clear(struct aproc *);
1.29 ratchov 240: void mix_prime(struct aproc *);
1.36 ratchov 241: void mix_quit(struct aproc *);
1.32 ratchov 242: void mix_drop(struct abuf *, int);
243: void sub_silence(struct abuf *, int);
1.12 ratchov 244: void sub_clear(struct aproc *);
1.32 ratchov 245: void mon_snoop(struct aproc *, struct abuf *, unsigned, unsigned);
246: void mon_clear(struct aproc *);
1.1 ratchov 247:
1.11 ratchov 248: #endif /* !defined(APROC_H) */