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William Lallemand82fe75c2012-10-23 10:25:10 +02001/*
2 * HTTP compression.
3 *
4 * Copyright 2012 Exceliance, David Du Colombier <dducolombier@exceliance.fr>
5 * William Lallemand <wlallemand@exceliance.fr>
6 *
7 * This program is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License
9 * as published by the Free Software Foundation; either version
10 * 2 of the License, or (at your option) any later version.
11 *
12 */
13
14#include <stdio.h>
Willy Tarreau34763642012-10-26 15:05:35 +020015
William Lallemand08289f12012-10-31 11:19:18 +010016#ifdef USE_ZLIB
Willy Tarreau34763642012-10-26 15:05:35 +020017/* Note: the crappy zlib and openssl libs both define the "free_func" type.
18 * That's a very clever idea to use such a generic name in general purpose
19 * libraries, really... The zlib one is easier to redefine than openssl's,
20 * so let's only fix this one.
21 */
22#define free_func zlib_free_func
William Lallemand82fe75c2012-10-23 10:25:10 +020023#include <zlib.h>
Willy Tarreau34763642012-10-26 15:05:35 +020024#undef free_func
William Lallemand08289f12012-10-31 11:19:18 +010025#endif /* USE_ZLIB */
William Lallemand82fe75c2012-10-23 10:25:10 +020026
27#include <common/compat.h>
William Lallemand2b502472012-10-30 14:30:39 +010028#include <common/memory.h>
William Lallemand82fe75c2012-10-23 10:25:10 +020029
30#include <types/global.h>
31#include <types/compression.h>
32
33#include <proto/compression.h>
William Lallemandd85f9172012-11-09 17:05:39 +010034#include <proto/freq_ctr.h>
William Lallemand82fe75c2012-10-23 10:25:10 +020035#include <proto/proto_http.h>
36
William Lallemand2b502472012-10-30 14:30:39 +010037
38#ifdef USE_ZLIB
39
William Lallemand8b52bb32012-11-16 18:06:41 +010040static void *alloc_zlib(void *opaque, unsigned int items, unsigned int size);
41static void free_zlib(void *opaque, void *ptr);
42
William Lallemand2b502472012-10-30 14:30:39 +010043/* zlib allocation */
44static struct pool_head *zlib_pool_deflate_state = NULL;
45static struct pool_head *zlib_pool_window = NULL;
46static struct pool_head *zlib_pool_prev = NULL;
47static struct pool_head *zlib_pool_head = NULL;
48static struct pool_head *zlib_pool_pending_buf = NULL;
49
William Lallemande3a7d992012-11-20 11:25:20 +010050long zlib_used_memory = 0;
William Lallemand9d5f5482012-11-07 16:12:57 +010051
William Lallemand2b502472012-10-30 14:30:39 +010052#endif
53
William Lallemand072a2bf2012-11-20 17:01:01 +010054unsigned int compress_min_idle = 0;
William Lallemand8b52bb32012-11-16 18:06:41 +010055static struct pool_head *pool_comp_ctx = NULL;
56
William Lallemand2b502472012-10-30 14:30:39 +010057
Cyril Bonté6162c432012-11-10 19:27:47 +010058const struct comp_algo comp_algos[] =
William Lallemand82fe75c2012-10-23 10:25:10 +020059{
60 { "identity", 8, identity_init, identity_add_data, identity_flush, identity_reset, identity_end },
61#ifdef USE_ZLIB
62 { "deflate", 7, deflate_init, deflate_add_data, deflate_flush, deflate_reset, deflate_end },
63 { "gzip", 4, gzip_init, deflate_add_data, deflate_flush, deflate_reset, deflate_end },
64#endif /* USE_ZLIB */
65 { NULL, 0, NULL , NULL, NULL, NULL, NULL }
66};
67
68/*
69 * Add a content-type in the configuration
70 */
71int comp_append_type(struct comp *comp, const char *type)
72{
73 struct comp_type *comp_type;
74
75 comp_type = calloc(1, sizeof(struct comp_type));
76 comp_type->name_len = strlen(type);
77 comp_type->name = strdup(type);
78 comp_type->next = comp->types;
79 comp->types = comp_type;
80 return 0;
81}
82
83/*
84 * Add an algorithm in the configuration
85 */
86int comp_append_algo(struct comp *comp, const char *algo)
87{
88 struct comp_algo *comp_algo;
89 int i;
90
91 for (i = 0; comp_algos[i].name; i++) {
92 if (!strcmp(algo, comp_algos[i].name)) {
93 comp_algo = calloc(1, sizeof(struct comp_algo));
94 memmove(comp_algo, &comp_algos[i], sizeof(struct comp_algo));
95 comp_algo->next = comp->algos;
96 comp->algos = comp_algo;
97 return 0;
98 }
99 }
100 return -1;
101}
102
103/* emit the chunksize followed by a CRLF on the output and return the number of
104 * bytes written. Appends <add_crlf> additional CRLF after the first one. Chunk
105 * sizes are truncated to 6 hex digits (16 MB) and padded left. The caller is
106 * responsible for ensuring there is enough room left in the output buffer for
107 * the string (8 bytes * add_crlf*2).
108 */
109int http_emit_chunk_size(char *out, unsigned int chksz, int add_crlf)
110{
111 int shift;
112 int pos = 0;
113
114 for (shift = 20; shift >= 0; shift -= 4)
115 out[pos++] = hextab[(chksz >> shift) & 0xF];
116
117 do {
118 out[pos++] = '\r';
119 out[pos++] = '\n';
120 } while (--add_crlf >= 0);
121
122 return pos;
123}
124
125/*
126 * Init HTTP compression
127 */
128int http_compression_buffer_init(struct session *s, struct buffer *in, struct buffer *out)
129{
130 struct http_msg *msg = &s->txn.rsp;
131 int left;
132
133 /* not enough space */
134 if (in->size - buffer_len(in) < 40)
135 return -1;
136
137 /*
138 * Skip data, we don't need them in the new buffer. They are results
139 * of CHUNK_CRLF and CHUNK_SIZE parsing.
140 */
141 b_adv(in, msg->next);
142 msg->next = 0;
143 msg->sov = 0;
144 msg->sol = 0;
145
146 out->size = global.tune.bufsize;
147 out->i = 0;
148 out->o = 0;
149 out->p = out->data;
150 /* copy output data */
151 if (in->o > 0) {
152 left = in->o - bo_contig_data(in);
153 memcpy(out->data, bo_ptr(in), bo_contig_data(in));
154 out->p += bo_contig_data(in);
155 if (left > 0) { /* second part of the buffer */
156 memcpy(out->p, in->data, left);
157 out->p += left;
158 }
159 out->o = in->o;
160 }
161 out->i += http_emit_chunk_size(out->p, 0, 0);
162
163 return 0;
164}
165
166/*
167 * Add data to compress
168 */
169int http_compression_buffer_add_data(struct session *s, struct buffer *in, struct buffer *out)
170{
171 struct http_msg *msg = &s->txn.rsp;
William Lallemandbf3ae612012-11-19 12:35:37 +0100172 int consumed_data = 0;
William Lallemand82fe75c2012-10-23 10:25:10 +0200173 int data_process_len;
174 int left;
175 int ret;
176
177 /*
178 * Skip data, we don't need them in the new buffer. They are results
179 * of CHUNK_CRLF and CHUNK_SIZE parsing.
180 */
181 b_adv(in, msg->next);
182 msg->next = 0;
183 msg->sov = 0;
184 msg->sol = 0;
185
186 /*
187 * select the smallest size between the announced chunk size, the input
188 * data, and the available output buffer size
189 */
190 data_process_len = MIN(in->i, msg->chunk_len);
191 data_process_len = MIN(out->size - buffer_len(out), data_process_len);
192
193 left = data_process_len - bi_contig_data(in);
194 if (left <= 0) {
William Lallemand8b52bb32012-11-16 18:06:41 +0100195 consumed_data += ret = s->comp_algo->add_data(s->comp_ctx, bi_ptr(in), data_process_len, out);
William Lallemand82fe75c2012-10-23 10:25:10 +0200196 if (ret < 0)
197 return -1;
William Lallemand82fe75c2012-10-23 10:25:10 +0200198
199 } else {
William Lallemand8b52bb32012-11-16 18:06:41 +0100200 consumed_data += ret = s->comp_algo->add_data(s->comp_ctx, bi_ptr(in), bi_contig_data(in), out);
William Lallemand82fe75c2012-10-23 10:25:10 +0200201 if (ret < 0)
202 return -1;
William Lallemand8b52bb32012-11-16 18:06:41 +0100203 consumed_data += ret = s->comp_algo->add_data(s->comp_ctx, in->data, left, out);
William Lallemand82fe75c2012-10-23 10:25:10 +0200204 if (ret < 0)
205 return -1;
William Lallemand82fe75c2012-10-23 10:25:10 +0200206 }
207
208 b_adv(in, data_process_len);
209 msg->chunk_len -= data_process_len;
210
William Lallemandbf3ae612012-11-19 12:35:37 +0100211 return consumed_data;
William Lallemand82fe75c2012-10-23 10:25:10 +0200212}
213
214/*
215 * Flush data in process, and write the header and footer of the chunk. Upon
216 * success, in and out buffers are swapped to avoid a copy.
217 */
218int http_compression_buffer_end(struct session *s, struct buffer **in, struct buffer **out, int end)
219{
Willy Tarreau55058a72012-11-21 08:27:21 +0100220 int to_forward, forwarded;
William Lallemand82fe75c2012-10-23 10:25:10 +0200221 int left;
222 struct http_msg *msg = &s->txn.rsp;
223 struct buffer *ib = *in, *ob = *out;
William Lallemand08289f12012-10-31 11:19:18 +0100224
225#ifdef USE_ZLIB
William Lallemand82fe75c2012-10-23 10:25:10 +0200226 int ret;
227
228 /* flush data here */
229
230 if (end)
William Lallemand8b52bb32012-11-16 18:06:41 +0100231 ret = s->comp_algo->flush(s->comp_ctx, ob, Z_FINISH); /* end of data */
William Lallemand82fe75c2012-10-23 10:25:10 +0200232 else
William Lallemand8b52bb32012-11-16 18:06:41 +0100233 ret = s->comp_algo->flush(s->comp_ctx, ob, Z_SYNC_FLUSH); /* end of buffer */
William Lallemand82fe75c2012-10-23 10:25:10 +0200234
235 if (ret < 0)
236 return -1; /* flush failed */
237
William Lallemand08289f12012-10-31 11:19:18 +0100238#endif /* USE_ZLIB */
239
William Lallemand82fe75c2012-10-23 10:25:10 +0200240 if (ob->i > 8) {
241 /* more than a chunk size => some data were emitted */
242 char *tail = ob->p + ob->i;
243
244 /* write real size at the begining of the chunk, no need of wrapping */
245 http_emit_chunk_size(ob->p, ob->i - 8, 0);
246
247 /* chunked encoding requires CRLF after data */
248 *tail++ = '\r';
249 *tail++ = '\n';
250
251 if (!(msg->flags & HTTP_MSGF_TE_CHNK) && msg->chunk_len == 0) {
252 /* End of data, 0<CRLF><CRLF> is needed but we're not
253 * in chunked mode on input so we must add it ourselves.
254 */
255 memcpy(tail, "0\r\n\r\n", 5);
256 tail += 5;
257 }
258 ob->i = tail - ob->p;
259 } else {
260 /* no data were sent, cancel the chunk size */
261 ob->i = 0;
262 }
263
264 to_forward = ob->i;
Willy Tarreau55058a72012-11-21 08:27:21 +0100265
William Lallemandd85f9172012-11-09 17:05:39 +0100266 /* update input rate */
Willy Tarreau55058a72012-11-21 08:27:21 +0100267 forwarded = ib->o - ob->o;
268 if (s->comp_ctx && s->comp_ctx->cur_lvl > 0) {
269 update_freq_ctr(&global.comp_bps_in, forwarded);
270 s->fe->fe_counters.comp_in += forwarded;
271 s->be->be_counters.comp_in += forwarded;
272 } else {
273 s->fe->fe_counters.comp_byp += forwarded;
274 s->be->be_counters.comp_byp += forwarded;
275 }
William Lallemandd85f9172012-11-09 17:05:39 +0100276
William Lallemand82fe75c2012-10-23 10:25:10 +0200277 /* copy the remaining data in the tmp buffer. */
278 if (ib->i > 0) {
279 left = ib->i - bi_contig_data(ib);
280 memcpy(bi_end(ob), bi_ptr(ib), bi_contig_data(ib));
281 ob->i += bi_contig_data(ib);
282 if (left > 0) {
283 memcpy(bi_end(ob), ib->data, left);
284 ob->i += left;
285 }
286 }
287
288 /* swap the buffers */
289 *in = ob;
290 *out = ib;
291
Willy Tarreau55058a72012-11-21 08:27:21 +0100292 if (s->comp_ctx && s->comp_ctx->cur_lvl > 0) {
William Lallemandd85f9172012-11-09 17:05:39 +0100293 update_freq_ctr(&global.comp_bps_out, to_forward);
Willy Tarreau55058a72012-11-21 08:27:21 +0100294 s->fe->fe_counters.comp_out += to_forward;
295 s->be->be_counters.comp_out += to_forward;
296 }
William Lallemandd85f9172012-11-09 17:05:39 +0100297
William Lallemand82fe75c2012-10-23 10:25:10 +0200298 /* forward the new chunk without remaining data */
299 b_adv(ob, to_forward);
300
William Lallemand82fe75c2012-10-23 10:25:10 +0200301 return to_forward;
302}
303
William Lallemand8b52bb32012-11-16 18:06:41 +0100304/*
305 * Alloc the comp_ctx
306 */
307static inline int init_comp_ctx(struct comp_ctx **comp_ctx)
308{
309#ifdef USE_ZLIB
310 z_stream *strm;
311
William Lallemande3a7d992012-11-20 11:25:20 +0100312 if (global.maxzlibmem > 0 && (global.maxzlibmem - zlib_used_memory) < sizeof(struct comp_ctx))
William Lallemand8b52bb32012-11-16 18:06:41 +0100313 return -1;
314#endif
315
316 if (unlikely(pool_comp_ctx == NULL))
317 pool_comp_ctx = create_pool("comp_ctx", sizeof(struct comp_ctx), MEM_F_SHARED);
318
319 *comp_ctx = pool_alloc2(pool_comp_ctx);
320 if (*comp_ctx == NULL)
321 return -1;
322#ifdef USE_ZLIB
William Lallemande3a7d992012-11-20 11:25:20 +0100323 zlib_used_memory += sizeof(struct comp_ctx);
William Lallemand8b52bb32012-11-16 18:06:41 +0100324
325 strm = &(*comp_ctx)->strm;
326 strm->zalloc = alloc_zlib;
327 strm->zfree = free_zlib;
328 strm->opaque = *comp_ctx;
329#endif
330 return 0;
331}
332
333/*
334 * Dealloc the comp_ctx
335 */
336static inline int deinit_comp_ctx(struct comp_ctx **comp_ctx)
337{
338 if (!*comp_ctx)
339 return 0;
340
341 pool_free2(pool_comp_ctx, *comp_ctx);
342 *comp_ctx = NULL;
343
344#ifdef USE_ZLIB
William Lallemande3a7d992012-11-20 11:25:20 +0100345 zlib_used_memory -= sizeof(struct comp_ctx);
William Lallemand8b52bb32012-11-16 18:06:41 +0100346#endif
William Lallemand8b52bb32012-11-16 18:06:41 +0100347 return 0;
348}
349
William Lallemand82fe75c2012-10-23 10:25:10 +0200350
351/****************************
352 **** Identity algorithm ****
353 ****************************/
354
355/*
356 * Init the identity algorithm
357 */
William Lallemand8b52bb32012-11-16 18:06:41 +0100358int identity_init(struct comp_ctx **comp_ctx, int level)
William Lallemand82fe75c2012-10-23 10:25:10 +0200359{
360 return 0;
361}
362
363/*
364 * Process data
William Lallemandbf3ae612012-11-19 12:35:37 +0100365 * Return size of consumed data or -1 on error
William Lallemand82fe75c2012-10-23 10:25:10 +0200366 */
William Lallemandbf3ae612012-11-19 12:35:37 +0100367int identity_add_data(struct comp_ctx *comp_ctx, const char *in_data, int in_len, struct buffer *out)
William Lallemand82fe75c2012-10-23 10:25:10 +0200368{
William Lallemandbf3ae612012-11-19 12:35:37 +0100369 char *out_data = bi_end(out);
370 int out_len = out->size - buffer_len(out);
371
William Lallemand82fe75c2012-10-23 10:25:10 +0200372 if (out_len < in_len)
373 return -1;
374
375 memcpy(out_data, in_data, in_len);
376
William Lallemandbf3ae612012-11-19 12:35:37 +0100377 out->i += in_len;
378
William Lallemand82fe75c2012-10-23 10:25:10 +0200379 return in_len;
380}
381
William Lallemand1c2d6222012-10-30 15:52:53 +0100382int identity_flush(struct comp_ctx *comp_ctx, struct buffer *out, int flag)
William Lallemand82fe75c2012-10-23 10:25:10 +0200383{
384 return 0;
385}
386
William Lallemand1c2d6222012-10-30 15:52:53 +0100387int identity_reset(struct comp_ctx *comp_ctx)
William Lallemand82fe75c2012-10-23 10:25:10 +0200388{
389 return 0;
390}
391
392/*
393 * Deinit the algorithm
394 */
William Lallemand8b52bb32012-11-16 18:06:41 +0100395int identity_end(struct comp_ctx **comp_ctx)
William Lallemand82fe75c2012-10-23 10:25:10 +0200396{
397 return 0;
398}
399
400
401#ifdef USE_ZLIB
William Lallemand2b502472012-10-30 14:30:39 +0100402/*
403 * This is a tricky allocation function using the zlib.
404 * This is based on the allocation order in deflateInit2.
405 */
406static void *alloc_zlib(void *opaque, unsigned int items, unsigned int size)
407{
408 struct comp_ctx *ctx = opaque;
409 static char round = 0; /* order in deflateInit2 */
410 void *buf = NULL;
411
William Lallemande3a7d992012-11-20 11:25:20 +0100412 if (global.maxzlibmem > 0 && (global.maxzlibmem - zlib_used_memory) < (long)(items * size))
William Lallemand9d5f5482012-11-07 16:12:57 +0100413 goto end;
William Lallemand9d5f5482012-11-07 16:12:57 +0100414
William Lallemand2b502472012-10-30 14:30:39 +0100415 switch (round) {
416 case 0:
417 if (zlib_pool_deflate_state == NULL)
418 zlib_pool_deflate_state = create_pool("zlib_state", size * items, MEM_F_SHARED);
419 ctx->zlib_deflate_state = buf = pool_alloc2(zlib_pool_deflate_state);
420 break;
421
422 case 1:
423 if (zlib_pool_window == NULL)
424 zlib_pool_window = create_pool("zlib_window", size * items, MEM_F_SHARED);
425 ctx->zlib_window = buf = pool_alloc2(zlib_pool_window);
426 break;
427
428 case 2:
429 if (zlib_pool_prev == NULL)
430 zlib_pool_prev = create_pool("zlib_prev", size * items, MEM_F_SHARED);
431 ctx->zlib_prev = buf = pool_alloc2(zlib_pool_prev);
432 break;
433
434 case 3:
435 if (zlib_pool_head == NULL)
436 zlib_pool_head = create_pool("zlib_head", size * items, MEM_F_SHARED);
437 ctx->zlib_head = buf = pool_alloc2(zlib_pool_head);
438 break;
439
440 case 4:
441 if (zlib_pool_pending_buf == NULL)
442 zlib_pool_pending_buf = create_pool("zlib_pending_buf", size * items, MEM_F_SHARED);
443 ctx->zlib_pending_buf = buf = pool_alloc2(zlib_pool_pending_buf);
444 break;
445 }
William Lallemande3a7d992012-11-20 11:25:20 +0100446 if (buf != NULL)
447 zlib_used_memory += items * size;
William Lallemand9d5f5482012-11-07 16:12:57 +0100448
449end:
William Lallemand2b502472012-10-30 14:30:39 +0100450
Willy Tarreau46909852012-11-15 14:57:56 +0100451 /* deflateInit2() first allocates and checks the deflate_state, then if
452 * it succeeds, it allocates all other 4 areas at ones and checks them
453 * at the end. So we want to correctly count the rounds depending on when
454 * zlib is supposed to abort.
455 */
456 if (buf || round)
457 round = (round + 1) % 5;
William Lallemand2b502472012-10-30 14:30:39 +0100458 return buf;
459}
460
461static void free_zlib(void *opaque, void *ptr)
462{
463 struct comp_ctx *ctx = opaque;
Willy Tarreaub1fbd052012-11-10 17:49:37 +0100464 struct pool_head *pool = NULL;
William Lallemand2b502472012-10-30 14:30:39 +0100465
466 if (ptr == ctx->zlib_window)
William Lallemand9d5f5482012-11-07 16:12:57 +0100467 pool = zlib_pool_window;
William Lallemand2b502472012-10-30 14:30:39 +0100468 else if (ptr == ctx->zlib_deflate_state)
William Lallemand9d5f5482012-11-07 16:12:57 +0100469 pool = zlib_pool_deflate_state;
William Lallemand2b502472012-10-30 14:30:39 +0100470 else if (ptr == ctx->zlib_prev)
William Lallemand9d5f5482012-11-07 16:12:57 +0100471 pool = zlib_pool_prev;
William Lallemand2b502472012-10-30 14:30:39 +0100472 else if (ptr == ctx->zlib_head)
William Lallemand9d5f5482012-11-07 16:12:57 +0100473 pool = zlib_pool_head;
William Lallemand2b502472012-10-30 14:30:39 +0100474 else if (ptr == ctx->zlib_pending_buf)
William Lallemand9d5f5482012-11-07 16:12:57 +0100475 pool = zlib_pool_pending_buf;
William Lallemand2b502472012-10-30 14:30:39 +0100476
William Lallemand9d5f5482012-11-07 16:12:57 +0100477 pool_free2(pool, ptr);
William Lallemande3a7d992012-11-20 11:25:20 +0100478 zlib_used_memory -= pool->size;
William Lallemand2b502472012-10-30 14:30:39 +0100479}
480
William Lallemand82fe75c2012-10-23 10:25:10 +0200481/**************************
482**** gzip algorithm ****
483***************************/
William Lallemand8b52bb32012-11-16 18:06:41 +0100484int gzip_init(struct comp_ctx **comp_ctx, int level)
William Lallemand82fe75c2012-10-23 10:25:10 +0200485{
William Lallemand8b52bb32012-11-16 18:06:41 +0100486 z_stream *strm;
William Lallemand82fe75c2012-10-23 10:25:10 +0200487
William Lallemand8b52bb32012-11-16 18:06:41 +0100488 if (init_comp_ctx(comp_ctx) < 0)
489 return -1;
William Lallemand9d5f5482012-11-07 16:12:57 +0100490
William Lallemand8b52bb32012-11-16 18:06:41 +0100491 strm = &(*comp_ctx)->strm;
William Lallemand82fe75c2012-10-23 10:25:10 +0200492
William Lallemand8b52bb32012-11-16 18:06:41 +0100493 if (deflateInit2(strm, level, Z_DEFLATED, global.tune.zlibwindowsize + 16, global.tune.zlibmemlevel, Z_DEFAULT_STRATEGY) != Z_OK) {
494 deinit_comp_ctx(comp_ctx);
William Lallemand82fe75c2012-10-23 10:25:10 +0200495 return -1;
William Lallemand8b52bb32012-11-16 18:06:41 +0100496 }
497
498 (*comp_ctx)->cur_lvl = level;
William Lallemand82fe75c2012-10-23 10:25:10 +0200499
500 return 0;
501}
502/**************************
503**** Deflate algorithm ****
504***************************/
505
William Lallemand8b52bb32012-11-16 18:06:41 +0100506int deflate_init(struct comp_ctx **comp_ctx, int level)
William Lallemand82fe75c2012-10-23 10:25:10 +0200507{
William Lallemand8b52bb32012-11-16 18:06:41 +0100508 z_stream *strm;
William Lallemand82fe75c2012-10-23 10:25:10 +0200509
William Lallemand8b52bb32012-11-16 18:06:41 +0100510 if (init_comp_ctx(comp_ctx) < 0)
511 return -1;
512
513 strm = &(*comp_ctx)->strm;
William Lallemand82fe75c2012-10-23 10:25:10 +0200514
William Lallemand8b52bb32012-11-16 18:06:41 +0100515 if (deflateInit(strm, level) != Z_OK) {
516 deinit_comp_ctx(comp_ctx);
William Lallemand82fe75c2012-10-23 10:25:10 +0200517 return -1;
William Lallemand8b52bb32012-11-16 18:06:41 +0100518 }
519
520 (*comp_ctx)->cur_lvl = level;
William Lallemand82fe75c2012-10-23 10:25:10 +0200521
522 return 0;
523}
524
William Lallemandbf3ae612012-11-19 12:35:37 +0100525/* Return the size of consumed data or -1 */
526int deflate_add_data(struct comp_ctx *comp_ctx, const char *in_data, int in_len, struct buffer *out)
William Lallemand82fe75c2012-10-23 10:25:10 +0200527{
William Lallemand82fe75c2012-10-23 10:25:10 +0200528 int ret;
William Lallemandbf3ae612012-11-19 12:35:37 +0100529 z_stream *strm = &comp_ctx->strm;
530 char *out_data = bi_end(out);
531 int out_len = out->size - buffer_len(out);
William Lallemand82fe75c2012-10-23 10:25:10 +0200532
533 if (in_len <= 0)
534 return 0;
535
536
537 if (out_len <= 0)
538 return -1;
539
William Lallemand82fe75c2012-10-23 10:25:10 +0200540 strm->next_in = (unsigned char *)in_data;
541 strm->avail_in = in_len;
542 strm->next_out = (unsigned char *)out_data;
543 strm->avail_out = out_len;
544
545 ret = deflate(strm, Z_NO_FLUSH);
546 if (ret != Z_OK)
547 return -1;
548
549 /* deflate update the available data out */
William Lallemandbf3ae612012-11-19 12:35:37 +0100550 out->i += out_len - strm->avail_out;
William Lallemand82fe75c2012-10-23 10:25:10 +0200551
William Lallemandbf3ae612012-11-19 12:35:37 +0100552 return in_len - strm->avail_in;
William Lallemand82fe75c2012-10-23 10:25:10 +0200553}
554
William Lallemand1c2d6222012-10-30 15:52:53 +0100555int deflate_flush(struct comp_ctx *comp_ctx, struct buffer *out, int flag)
William Lallemand82fe75c2012-10-23 10:25:10 +0200556{
557 int ret;
William Lallemand82fe75c2012-10-23 10:25:10 +0200558 int out_len = 0;
William Lallemand1c2d6222012-10-30 15:52:53 +0100559 z_stream *strm = &comp_ctx->strm;
William Lallemand82fe75c2012-10-23 10:25:10 +0200560
William Lallemand82fe75c2012-10-23 10:25:10 +0200561 strm->next_out = (unsigned char *)bi_end(out);
562 strm->avail_out = out->size - buffer_len(out);
563
564 ret = deflate(strm, flag);
565 if (ret != Z_OK && ret != Z_STREAM_END)
566 return -1;
567
568 out_len = (out->size - buffer_len(out)) - strm->avail_out;
569 out->i += out_len;
570
William Lallemand072a2bf2012-11-20 17:01:01 +0100571 /* compression limit */
572 if ((global.comp_rate_lim > 0 && (read_freq_ctr(&global.comp_bps_out) > global.comp_rate_lim)) || /* rate */
573 (idle_pct < compress_min_idle)) { /* idle */
574 /* decrease level */
575 if (comp_ctx->cur_lvl > 0) {
576 comp_ctx->cur_lvl--;
William Lallemandd85f9172012-11-09 17:05:39 +0100577 deflateParams(&comp_ctx->strm, comp_ctx->cur_lvl, Z_DEFAULT_STRATEGY);
578 }
William Lallemand072a2bf2012-11-20 17:01:01 +0100579
580 } else if (comp_ctx->cur_lvl < global.tune.comp_maxlevel) {
581 /* increase level */
582 comp_ctx->cur_lvl++ ;
583 deflateParams(&comp_ctx->strm, comp_ctx->cur_lvl, Z_DEFAULT_STRATEGY);
William Lallemandd85f9172012-11-09 17:05:39 +0100584 }
585
William Lallemand82fe75c2012-10-23 10:25:10 +0200586 return out_len;
587}
588
William Lallemand1c2d6222012-10-30 15:52:53 +0100589int deflate_reset(struct comp_ctx *comp_ctx)
William Lallemand82fe75c2012-10-23 10:25:10 +0200590{
William Lallemand1c2d6222012-10-30 15:52:53 +0100591 z_stream *strm = &comp_ctx->strm;
William Lallemand82fe75c2012-10-23 10:25:10 +0200592
William Lallemand82fe75c2012-10-23 10:25:10 +0200593 if (deflateReset(strm) == Z_OK)
594 return 0;
595 return -1;
596}
597
William Lallemand8b52bb32012-11-16 18:06:41 +0100598int deflate_end(struct comp_ctx **comp_ctx)
William Lallemand82fe75c2012-10-23 10:25:10 +0200599{
William Lallemand8b52bb32012-11-16 18:06:41 +0100600 z_stream *strm = &(*comp_ctx)->strm;
601 int ret;
William Lallemand82fe75c2012-10-23 10:25:10 +0200602
William Lallemand8b52bb32012-11-16 18:06:41 +0100603 ret = deflateEnd(strm);
William Lallemand82fe75c2012-10-23 10:25:10 +0200604
William Lallemand8b52bb32012-11-16 18:06:41 +0100605 deinit_comp_ctx(comp_ctx);
606
607 return ret;
William Lallemand82fe75c2012-10-23 10:25:10 +0200608}
609
610#endif /* USE_ZLIB */
611