2 Copyright (C) Andrew Tridgell 1996
3 Copyright (C) Paul Mackerras 1996
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
21 #include "zlib/zlib.h"
23 extern int do_compression
;
24 static int compression_level
= Z_DEFAULT_COMPRESSION
;
26 /* determine the compression level based on a wildcard filename list */
27 void set_compression(char *fname
)
33 if (!do_compression
) return;
35 compression_level
= Z_DEFAULT_COMPRESSION
;
36 dont
= lp_dont_compress(module_id
);
38 if (!dont
|| !*dont
) return;
40 if ((dont
[0] == '*') && (!dont
[1])) {
41 /* an optimization to skip the rest of this routine */
42 compression_level
= 0;
47 fname
= strdup(fname
);
48 if (!dont
|| !fname
) return;
53 for (tok
=strtok(dont
," ");tok
;tok
=strtok(NULL
," ")) {
54 if (wildmatch(tok
, fname
)) {
55 compression_level
= 0;
63 /* non-compressing recv token */
64 static int simple_recv_token(int f
,char **data
)
71 buf
= (char *)malloc(CHUNK_SIZE
);
72 if (!buf
) out_of_memory("simple_recv_token");
82 n
= MIN(CHUNK_SIZE
,residue
);
89 /* non-compressing send token */
90 static void simple_send_token(int f
,int token
,
91 struct map_struct
*buf
,OFF_T offset
,int n
)
93 extern int write_batch
; /* dw */
94 int hold_int
; /* dw */
99 int n1
= MIN(CHUNK_SIZE
,n
-l
);
101 write_buf(f
,map_ptr(buf
,offset
+l
,n1
),n1
);
103 write_batch_delta_file( (char *) &n1
, sizeof(int) );
104 write_batch_delta_file(map_ptr(buf
,offset
+l
,n1
),n1
);
109 /* a -2 token means to send data only and no token */
111 write_int(f
,-(token
+1));
113 hold_int
= -(token
+1);
114 write_batch_delta_file( (char *) &hold_int
, sizeof(int) );
120 /* Flag bytes in compressed stream are encoded as follows: */
121 #define END_FLAG 0 /* that's all folks */
122 #define TOKEN_LONG 0x20 /* followed by 32-bit token number */
123 #define TOKENRUN_LONG 0x21 /* ditto with 16-bit run count */
124 #define DEFLATED_DATA 0x40 /* + 6-bit high len, then low len byte */
125 #define TOKEN_REL 0x80 /* + 6-bit relative token number */
126 #define TOKENRUN_REL 0xc0 /* ditto with 16-bit run count */
128 #define MAX_DATA_COUNT 16383 /* fit 14 bit count into 2 bytes with flags */
130 /* zlib.h says that if we want to be able to compress something in a single
131 * call, avail_out must be at least 0.1% larger than avail_in plus 12 bytes.
132 * We'll add in 0.1%+16, just to be safe (and we'll avoid floating point,
133 * to ensure that this is a compile-time value). */
134 #define AVAIL_OUT_SIZE(avail_in_size) ((avail_in_size)*1001/1000+16)
136 /* For coding runs of tokens */
137 static int last_token
= -1;
138 static int run_start
;
139 static int last_run_end
;
141 /* Deflation state */
142 static z_stream tx_strm
;
147 /* We want obuf to be able to hold both MAX_DATA_COUNT+2 bytes as well as
148 * AVAIL_OUT_SIZE(CHUNK_SIZE) bytes, so make sure that it's large enough. */
149 #if MAX_DATA_COUNT+2 > AVAIL_OUT_SIZE(CHUNK_SIZE)
150 #define OBUF_SIZE (MAX_DATA_COUNT+2)
152 #define OBUF_SIZE AVAIL_OUT_SIZE(CHUNK_SIZE)
155 /* Send a deflated token */
157 send_deflated_token(int f
, int token
,
158 struct map_struct
*buf
, OFF_T offset
, int nb
, int toklen
)
161 static int init_done
, flush_pending
;
162 extern int write_batch
; /* dw */
163 char temp_byte
; /* dw */
165 if (last_token
== -1) {
168 tx_strm
.next_in
= NULL
;
169 tx_strm
.zalloc
= NULL
;
170 tx_strm
.zfree
= NULL
;
171 if (deflateInit2(&tx_strm
, compression_level
,
173 Z_DEFAULT_STRATEGY
) != Z_OK
) {
174 rprintf(FERROR
, "compression init failed\n");
175 exit_cleanup(RERR_STREAMIO
);
177 if ((obuf
= malloc(OBUF_SIZE
)) == NULL
)
178 out_of_memory("send_deflated_token");
181 deflateReset(&tx_strm
);
186 } else if (last_token
== -2) {
189 } else if (nb
!= 0 || token
!= last_token
+ 1
190 || token
>= run_start
+ 65536) {
191 /* output previous run */
192 r
= run_start
- last_run_end
;
193 n
= last_token
- run_start
;
194 if (r
>= 0 && r
<= 63) {
195 write_byte(f
, (n
==0? TOKEN_REL
: TOKENRUN_REL
) + r
);
196 if (write_batch
) { /* dw */
197 temp_byte
= (char)( (n
==0? TOKEN_REL
: TOKENRUN_REL
) + r
);
198 write_batch_delta_file(&temp_byte
,sizeof(char));
201 write_byte(f
, (n
==0? TOKEN_LONG
: TOKENRUN_LONG
));
202 write_int(f
, run_start
);
203 if (write_batch
) { /* dw */
204 temp_byte
= (char)(n
==0? TOKEN_LONG
: TOKENRUN_LONG
);
205 write_batch_delta_file(&temp_byte
,sizeof(temp_byte
));
206 write_batch_delta_file((char *)&run_start
,sizeof(run_start
));
211 write_byte(f
, n
>> 8);
212 if (write_batch
) { /* dw */
213 write_batch_delta_file((char *)&n
,sizeof(char));
214 temp_byte
= (char) n
>> 8;
215 write_batch_delta_file(&temp_byte
,sizeof(temp_byte
));
218 last_run_end
= last_token
;
224 if (nb
!= 0 || flush_pending
) {
225 /* deflate the data starting at offset */
226 int flush
= Z_NO_FLUSH
;
227 tx_strm
.avail_in
= 0;
228 tx_strm
.avail_out
= 0;
230 if (tx_strm
.avail_in
== 0 && nb
!= 0) {
231 /* give it some more input */
232 n
= MIN(nb
, CHUNK_SIZE
);
233 tx_strm
.next_in
= (Bytef
*)
234 map_ptr(buf
, offset
, n
);
235 tx_strm
.avail_in
= n
;
239 if (tx_strm
.avail_out
== 0) {
240 tx_strm
.next_out
= (Bytef
*)(obuf
+ 2);
241 tx_strm
.avail_out
= MAX_DATA_COUNT
;
242 if (flush
!= Z_NO_FLUSH
) {
244 * We left the last 4 bytes in the
245 * buffer, in case they are the
246 * last 4. Move them to the front.
248 memcpy(tx_strm
.next_out
,
249 obuf
+MAX_DATA_COUNT
-2, 4);
250 tx_strm
.next_out
+= 4;
251 tx_strm
.avail_out
-= 4;
254 if (nb
== 0 && token
!= -2)
255 flush
= Z_SYNC_FLUSH
;
256 r
= deflate(&tx_strm
, flush
);
258 rprintf(FERROR
, "deflate returned %d\n", r
);
259 exit_cleanup(RERR_STREAMIO
);
261 if (nb
== 0 || tx_strm
.avail_out
== 0) {
262 n
= MAX_DATA_COUNT
- tx_strm
.avail_out
;
263 if (flush
!= Z_NO_FLUSH
) {
265 * We have to trim off the last 4
266 * bytes of output when flushing
267 * (they are just 0, 0, ff, ff).
272 obuf
[0] = DEFLATED_DATA
+ (n
>> 8);
274 write_buf(f
, obuf
, n
+2);
275 if (write_batch
) /* dw */
276 write_batch_delta_file(obuf
,n
+2);
279 } while (nb
!= 0 || tx_strm
.avail_out
== 0);
280 flush_pending
= token
== -2;
284 /* end of file - clean up */
285 write_byte(f
, END_FLAG
);
286 if (write_batch
) { /* dw */
287 temp_byte
= END_FLAG
;
288 write_batch_delta_file((char *)&temp_byte
,sizeof(temp_byte
));
291 } else if (token
!= -2) {
292 /* add the data in the current block to the compressor's
293 history and hash table */
294 tx_strm
.next_in
= (Bytef
*) map_ptr(buf
, offset
, toklen
);
295 tx_strm
.avail_in
= toklen
;
296 tx_strm
.next_out
= (Bytef
*) obuf
;
297 tx_strm
.avail_out
= AVAIL_OUT_SIZE(CHUNK_SIZE
);
298 r
= deflate(&tx_strm
, Z_INSERT_ONLY
);
299 if (r
!= Z_OK
|| tx_strm
.avail_in
!= 0) {
300 rprintf(FERROR
, "deflate on token returned %d (%d bytes left)\n",
301 r
, tx_strm
.avail_in
);
302 exit_cleanup(RERR_STREAMIO
);
308 /* tells us what the receiver is in the middle of doing */
309 static enum { r_init
, r_idle
, r_running
, r_inflating
, r_inflated
} recv_state
;
311 /* for inflating stuff */
312 static z_stream rx_strm
;
316 /* for decoding runs of tokens */
320 /* Receive a deflated token and inflate it */
322 recv_deflated_token(int f
, char **data
)
325 static int init_done
;
326 static int saved_flag
;
329 switch (recv_state
) {
332 rx_strm
.next_out
= NULL
;
333 rx_strm
.zalloc
= NULL
;
334 rx_strm
.zfree
= NULL
;
335 if (inflateInit2(&rx_strm
, -15) != Z_OK
) {
336 rprintf(FERROR
, "inflate init failed\n");
337 exit_cleanup(RERR_STREAMIO
);
339 if ((cbuf
= malloc(MAX_DATA_COUNT
)) == NULL
340 || (dbuf
= malloc(CHUNK_SIZE
)) == NULL
)
341 out_of_memory("recv_deflated_token");
344 inflateReset(&rx_strm
);
353 flag
= saved_flag
& 0xff;
357 if ((flag
& 0xC0) == DEFLATED_DATA
) {
358 n
= ((flag
& 0x3f) << 8) + read_byte(f
);
359 read_buf(f
, cbuf
, n
);
360 rx_strm
.next_in
= (Bytef
*)cbuf
;
361 rx_strm
.avail_in
= n
;
362 recv_state
= r_inflating
;
365 if (recv_state
== r_inflated
) {
366 /* check previous inflated stuff ended correctly */
367 rx_strm
.avail_in
= 0;
368 rx_strm
.next_out
= (Bytef
*)dbuf
;
369 rx_strm
.avail_out
= CHUNK_SIZE
;
370 r
= inflate(&rx_strm
, Z_SYNC_FLUSH
);
371 n
= CHUNK_SIZE
- rx_strm
.avail_out
;
373 * Z_BUF_ERROR just means no progress was
374 * made, i.e. the decompressor didn't have
375 * any pending output for us.
377 if (r
!= Z_OK
&& r
!= Z_BUF_ERROR
) {
378 rprintf(FERROR
, "inflate flush returned %d (%d bytes)\n",
380 exit_cleanup(RERR_STREAMIO
);
382 if (n
!= 0 && r
!= Z_BUF_ERROR
) {
383 /* have to return some more data and
384 save the flag for later. */
385 saved_flag
= flag
+ 0x10000;
390 * At this point the decompressor should
391 * be expecting to see the 0, 0, ff, ff bytes.
393 if (!inflateSyncPoint(&rx_strm
)) {
394 rprintf(FERROR
, "decompressor lost sync!\n");
395 exit_cleanup(RERR_STREAMIO
);
397 rx_strm
.avail_in
= 4;
398 rx_strm
.next_in
= (Bytef
*)cbuf
;
399 cbuf
[0] = cbuf
[1] = 0;
400 cbuf
[2] = cbuf
[3] = 0xff;
401 inflate(&rx_strm
, Z_SYNC_FLUSH
);
404 if (flag
== END_FLAG
) {
405 /* that's all folks */
410 /* here we have a token of some kind */
411 if (flag
& TOKEN_REL
) {
412 rx_token
+= flag
& 0x3f;
415 rx_token
= read_int(f
);
417 rx_run
= read_byte(f
);
418 rx_run
+= read_byte(f
) << 8;
419 recv_state
= r_running
;
421 return -1 - rx_token
;
424 rx_strm
.next_out
= (Bytef
*)dbuf
;
425 rx_strm
.avail_out
= CHUNK_SIZE
;
426 r
= inflate(&rx_strm
, Z_NO_FLUSH
);
427 n
= CHUNK_SIZE
- rx_strm
.avail_out
;
429 rprintf(FERROR
, "inflate returned %d (%d bytes)\n", r
, n
);
430 exit_cleanup(RERR_STREAMIO
);
432 if (rx_strm
.avail_in
== 0)
433 recv_state
= r_inflated
;
444 return -1 - rx_token
;
450 * put the data corresponding to a token that we've just returned
451 * from recv_deflated_token into the decompressor's history buffer.
453 static void see_deflate_token(char *buf
, int len
)
456 unsigned char hdr
[5];
458 rx_strm
.avail_in
= 0;
462 if (rx_strm
.avail_in
== 0 && len
!= 0) {
464 /* Give it a fake stored-block header. */
465 rx_strm
.next_in
= (Bytef
*)hdr
;
466 rx_strm
.avail_in
= 5;
471 hdr
[2] = blklen
>> 8;
475 rx_strm
.next_in
= (Bytef
*)buf
;
476 rx_strm
.avail_in
= blklen
;
481 rx_strm
.next_out
= (Bytef
*)dbuf
;
482 rx_strm
.avail_out
= CHUNK_SIZE
;
483 r
= inflate(&rx_strm
, Z_SYNC_FLUSH
);
485 rprintf(FERROR
, "inflate (token) returned %d\n", r
);
486 exit_cleanup(RERR_STREAMIO
);
488 } while (len
|| rx_strm
.avail_out
== 0);
492 * Transmit a verbatim buffer of length @p n followed by a token.
493 * If token == -1 then we have reached EOF
494 * If n == 0 then don't send a buffer
496 void send_token(int f
,int token
,struct map_struct
*buf
,OFF_T offset
,
499 if (!do_compression
) {
500 simple_send_token(f
,token
,buf
,offset
,n
);
502 send_deflated_token(f
, token
, buf
, offset
, n
, toklen
);
508 * receive a token or buffer from the other end. If the reurn value is >0 then
509 * it is a data buffer of that length, and *data will point at the data.
510 * if the return value is -i then it represents token i-1
511 * if the return value is 0 then the end has been reached
513 int recv_token(int f
,char **data
)
517 if (!do_compression
) {
518 tok
= simple_recv_token(f
,data
);
520 tok
= recv_deflated_token(f
, data
);
526 * look at the data corresponding to a token, if necessary
528 void see_token(char *data
, int toklen
)
531 see_deflate_token(data
, toklen
);