#include <stdlib.h>
#include <assert.h>
-/* FIXME */
-#include <windows.h>
-#include <stdio.h>
-#include "putty.h"
-
#include "ssh.h"
+#ifndef FALSE
+#define FALSE 0
+#define TRUE (!FALSE)
+#endif
+
/* ----------------------------------------------------------------------
* Basic LZ77 code. This bit is designed modularly, so it could be
* ripped out and used in a different LZ77 compressor. Go to it,
st->npending -= i;
defermatch.len = 0;
+ deferchr = '\0';
while (len > 0) {
/* Don't even look for a match, if we're not compressing. */
* having to transmit the trees.
*/
-static struct LZ77Context ectx;
-
struct Outbuf {
unsigned char *outbuf;
int outlen, outsize;
*/
i = -1;
j = sizeof(lencodes) / sizeof(*lencodes);
- while (j - i >= 2) {
+ while (1) {
+ assert(j - i >= 2);
k = (j + i) / 2;
if (thislen < lencodes[k].min)
j = k;
*/
i = -1;
j = sizeof(distcodes) / sizeof(*distcodes);
- while (j - i >= 2) {
+ while (1) {
+ assert(j - i >= 2);
k = (j + i) / 2;
if (distance < distcodes[k].min)
j = k;
}
}
-void zlib_compress_init(void)
+void *zlib_compress_init(void)
{
struct Outbuf *out;
+ struct LZ77Context *ectx = smalloc(sizeof(struct LZ77Context));
- lz77_init(&ectx);
- ectx.literal = zlib_literal;
- ectx.match = zlib_match;
+ lz77_init(ectx);
+ ectx->literal = zlib_literal;
+ ectx->match = zlib_match;
out = smalloc(sizeof(struct Outbuf));
out->outbits = out->noutbits = 0;
out->firstblock = 1;
out->comp_disabled = FALSE;
- ectx.userdata = out;
+ ectx->userdata = out;
+
+ return ectx;
+}
- logevent("Initialised zlib (RFC1950) compression");
+void zlib_compress_cleanup(void *handle)
+{
+ struct LZ77Context *ectx = (struct LZ77Context *)handle;
+ sfree(ectx->userdata);
}
/*
* length adjustment (which is only valid for packets < 65536
* bytes, but that seems reasonable enough).
*/
-int zlib_disable_compression(void)
+static int zlib_disable_compression(void *handle)
{
- struct Outbuf *out = (struct Outbuf *) ectx.userdata;
+ struct LZ77Context *ectx = (struct LZ77Context *)handle;
+ struct Outbuf *out = (struct Outbuf *) ectx->userdata;
int n;
out->comp_disabled = TRUE;
return n;
}
-int zlib_compress_block(unsigned char *block, int len,
+int zlib_compress_block(void *handle, unsigned char *block, int len,
unsigned char **outblock, int *outlen)
{
- struct Outbuf *out = (struct Outbuf *) ectx.userdata;
+ struct LZ77Context *ectx = (struct LZ77Context *)handle;
+ struct Outbuf *out = (struct Outbuf *) ectx->userdata;
int in_block;
out->outbuf = NULL;
out->firstblock = 0;
in_block = FALSE;
- }
+ } else
+ in_block = TRUE;
if (out->comp_disabled) {
if (in_block)
* zlib_literal which will spot out->comp_disabled and
* emit in the uncompressed format.
*/
- lz77_compress(&ectx, block, blen, FALSE);
+ lz77_compress(ectx, block, blen, FALSE);
len -= blen;
block += blen;
/*
* Do the compression.
*/
- lz77_compress(&ectx, block, len, TRUE);
+ lz77_compress(ectx, block, len, TRUE);
/*
* End the block (by transmitting code 256, which is
return (0);
}
-static struct zlib_decompress_ctx {
+struct zlib_decompress_ctx {
struct zlib_table *staticlentable, *staticdisttable;
struct zlib_table *currlentable, *currdisttable, *lenlentable;
enum {
int winpos;
unsigned char *outblk;
int outlen, outsize;
-} dctx;
+};
-void zlib_decompress_init(void)
+void *zlib_decompress_init(void)
{
+ struct zlib_decompress_ctx *dctx =
+ smalloc(sizeof(struct zlib_decompress_ctx));
unsigned char lengths[288];
+
memset(lengths, 8, 144);
memset(lengths + 144, 9, 256 - 144);
memset(lengths + 256, 7, 280 - 256);
memset(lengths + 280, 8, 288 - 280);
- dctx.staticlentable = zlib_mktable(lengths, 288);
+ dctx->staticlentable = zlib_mktable(lengths, 288);
memset(lengths, 5, 32);
- dctx.staticdisttable = zlib_mktable(lengths, 32);
- dctx.state = START; /* even before header */
- dctx.currlentable = dctx.currdisttable = dctx.lenlentable = NULL;
- dctx.bits = 0;
- dctx.nbits = 0;
- logevent("Initialised zlib (RFC1950) decompression");
+ dctx->staticdisttable = zlib_mktable(lengths, 32);
+ dctx->state = START; /* even before header */
+ dctx->currlentable = dctx->currdisttable = dctx->lenlentable = NULL;
+ dctx->bits = 0;
+ dctx->nbits = 0;
+ dctx->winpos = 0;
+
+ return dctx;
+}
+
+void zlib_decompress_cleanup(void *handle)
+{
+ struct zlib_decompress_ctx *dctx = (struct zlib_decompress_ctx *)handle;
+
+ if (dctx->currlentable && dctx->currlentable != dctx->staticlentable)
+ zlib_freetable(&dctx->currlentable);
+ if (dctx->currdisttable && dctx->currdisttable != dctx->staticdisttable)
+ zlib_freetable(&dctx->currdisttable);
+ if (dctx->lenlentable)
+ zlib_freetable(&dctx->lenlentable);
+ sfree(dctx);
}
-int zlib_huflookup(unsigned long *bitsp, int *nbitsp,
+static int zlib_huflookup(unsigned long *bitsp, int *nbitsp,
struct zlib_table *tab)
{
unsigned long bits = *bitsp;
}
}
-static void zlib_emit_char(int c)
+static void zlib_emit_char(struct zlib_decompress_ctx *dctx, int c)
{
- dctx.window[dctx.winpos] = c;
- dctx.winpos = (dctx.winpos + 1) & (WINSIZE - 1);
- if (dctx.outlen >= dctx.outsize) {
- dctx.outsize = dctx.outlen + 512;
- dctx.outblk = srealloc(dctx.outblk, dctx.outsize);
+ dctx->window[dctx->winpos] = c;
+ dctx->winpos = (dctx->winpos + 1) & (WINSIZE - 1);
+ if (dctx->outlen >= dctx->outsize) {
+ dctx->outsize = dctx->outlen + 512;
+ dctx->outblk = srealloc(dctx->outblk, dctx->outsize);
}
- dctx.outblk[dctx.outlen++] = c;
+ dctx->outblk[dctx->outlen++] = c;
}
-#define EATBITS(n) ( dctx.nbits -= (n), dctx.bits >>= (n) )
+#define EATBITS(n) ( dctx->nbits -= (n), dctx->bits >>= (n) )
-int zlib_decompress_block(unsigned char *block, int len,
+int zlib_decompress_block(void *handle, unsigned char *block, int len,
unsigned char **outblock, int *outlen)
{
+ struct zlib_decompress_ctx *dctx = (struct zlib_decompress_ctx *)handle;
const coderecord *rec;
int code, blktype, rep, dist, nlen;
static const unsigned char lenlenmap[] = {
16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15
};
- dctx.outblk = NULL;
- dctx.outsize = dctx.outlen = 0;
+ dctx->outblk = NULL;
+ dctx->outsize = dctx->outlen = 0;
- while (len > 0 || dctx.nbits > 0) {
- while (dctx.nbits < 24 && len > 0) {
- dctx.bits |= (*block++) << dctx.nbits;
- dctx.nbits += 8;
+ while (len > 0 || dctx->nbits > 0) {
+ while (dctx->nbits < 24 && len > 0) {
+ dctx->bits |= (*block++) << dctx->nbits;
+ dctx->nbits += 8;
len--;
}
- switch (dctx.state) {
+ switch (dctx->state) {
case START:
/* Expect 16-bit zlib header, which we'll dishonourably ignore. */
- if (dctx.nbits < 16)
+ if (dctx->nbits < 16)
goto finished; /* done all we can */
EATBITS(16);
- dctx.state = OUTSIDEBLK;
+ dctx->state = OUTSIDEBLK;
break;
case OUTSIDEBLK:
/* Expect 3-bit block header. */
- if (dctx.nbits < 3)
+ if (dctx->nbits < 3)
goto finished; /* done all we can */
EATBITS(1);
- blktype = dctx.bits & 3;
+ blktype = dctx->bits & 3;
EATBITS(2);
if (blktype == 0) {
- int to_eat = dctx.nbits & 7;
- dctx.state = UNCOMP_LEN;
+ int to_eat = dctx->nbits & 7;
+ dctx->state = UNCOMP_LEN;
EATBITS(to_eat); /* align to byte boundary */
} else if (blktype == 1) {
- dctx.currlentable = dctx.staticlentable;
- dctx.currdisttable = dctx.staticdisttable;
- dctx.state = INBLK;
+ dctx->currlentable = dctx->staticlentable;
+ dctx->currdisttable = dctx->staticdisttable;
+ dctx->state = INBLK;
} else if (blktype == 2) {
- dctx.state = TREES_HDR;
+ dctx->state = TREES_HDR;
}
break;
case TREES_HDR:
* Dynamic block header. Five bits of HLIT, five of
* HDIST, four of HCLEN.
*/
- if (dctx.nbits < 5 + 5 + 4)
+ if (dctx->nbits < 5 + 5 + 4)
goto finished; /* done all we can */
- dctx.hlit = 257 + (dctx.bits & 31);
+ dctx->hlit = 257 + (dctx->bits & 31);
EATBITS(5);
- dctx.hdist = 1 + (dctx.bits & 31);
+ dctx->hdist = 1 + (dctx->bits & 31);
EATBITS(5);
- dctx.hclen = 4 + (dctx.bits & 15);
+ dctx->hclen = 4 + (dctx->bits & 15);
EATBITS(4);
- dctx.lenptr = 0;
- dctx.state = TREES_LENLEN;
- memset(dctx.lenlen, 0, sizeof(dctx.lenlen));
+ dctx->lenptr = 0;
+ dctx->state = TREES_LENLEN;
+ memset(dctx->lenlen, 0, sizeof(dctx->lenlen));
break;
case TREES_LENLEN:
- if (dctx.nbits < 3)
+ if (dctx->nbits < 3)
goto finished;
- while (dctx.lenptr < dctx.hclen && dctx.nbits >= 3) {
- dctx.lenlen[lenlenmap[dctx.lenptr++]] =
- (unsigned char) (dctx.bits & 7);
+ while (dctx->lenptr < dctx->hclen && dctx->nbits >= 3) {
+ dctx->lenlen[lenlenmap[dctx->lenptr++]] =
+ (unsigned char) (dctx->bits & 7);
EATBITS(3);
}
- if (dctx.lenptr == dctx.hclen) {
- dctx.lenlentable = zlib_mktable(dctx.lenlen, 19);
- dctx.state = TREES_LEN;
- dctx.lenptr = 0;
+ if (dctx->lenptr == dctx->hclen) {
+ dctx->lenlentable = zlib_mktable(dctx->lenlen, 19);
+ dctx->state = TREES_LEN;
+ dctx->lenptr = 0;
}
break;
case TREES_LEN:
- if (dctx.lenptr >= dctx.hlit + dctx.hdist) {
- dctx.currlentable = zlib_mktable(dctx.lengths, dctx.hlit);
- dctx.currdisttable = zlib_mktable(dctx.lengths + dctx.hlit,
- dctx.hdist);
- zlib_freetable(&dctx.lenlentable);
- dctx.state = INBLK;
+ if (dctx->lenptr >= dctx->hlit + dctx->hdist) {
+ dctx->currlentable = zlib_mktable(dctx->lengths, dctx->hlit);
+ dctx->currdisttable = zlib_mktable(dctx->lengths + dctx->hlit,
+ dctx->hdist);
+ zlib_freetable(&dctx->lenlentable);
+ dctx->lenlentable = NULL;
+ dctx->state = INBLK;
break;
}
code =
- zlib_huflookup(&dctx.bits, &dctx.nbits, dctx.lenlentable);
+ zlib_huflookup(&dctx->bits, &dctx->nbits, dctx->lenlentable);
if (code == -1)
goto finished;
if (code < 16)
- dctx.lengths[dctx.lenptr++] = code;
+ dctx->lengths[dctx->lenptr++] = code;
else {
- dctx.lenextrabits = (code == 16 ? 2 : code == 17 ? 3 : 7);
- dctx.lenaddon = (code == 18 ? 11 : 3);
- dctx.lenrep = (code == 16 && dctx.lenptr > 0 ?
- dctx.lengths[dctx.lenptr - 1] : 0);
- dctx.state = TREES_LENREP;
+ dctx->lenextrabits = (code == 16 ? 2 : code == 17 ? 3 : 7);
+ dctx->lenaddon = (code == 18 ? 11 : 3);
+ dctx->lenrep = (code == 16 && dctx->lenptr > 0 ?
+ dctx->lengths[dctx->lenptr - 1] : 0);
+ dctx->state = TREES_LENREP;
}
break;
case TREES_LENREP:
- if (dctx.nbits < dctx.lenextrabits)
+ if (dctx->nbits < dctx->lenextrabits)
goto finished;
rep =
- dctx.lenaddon +
- (dctx.bits & ((1 << dctx.lenextrabits) - 1));
- EATBITS(dctx.lenextrabits);
- while (rep > 0 && dctx.lenptr < dctx.hlit + dctx.hdist) {
- dctx.lengths[dctx.lenptr] = dctx.lenrep;
- dctx.lenptr++;
+ dctx->lenaddon +
+ (dctx->bits & ((1 << dctx->lenextrabits) - 1));
+ EATBITS(dctx->lenextrabits);
+ while (rep > 0 && dctx->lenptr < dctx->hlit + dctx->hdist) {
+ dctx->lengths[dctx->lenptr] = dctx->lenrep;
+ dctx->lenptr++;
rep--;
}
- dctx.state = TREES_LEN;
+ dctx->state = TREES_LEN;
break;
case INBLK:
code =
- zlib_huflookup(&dctx.bits, &dctx.nbits, dctx.currlentable);
+ zlib_huflookup(&dctx->bits, &dctx->nbits, dctx->currlentable);
if (code == -1)
goto finished;
if (code < 256)
- zlib_emit_char(code);
+ zlib_emit_char(dctx, code);
else if (code == 256) {
- dctx.state = OUTSIDEBLK;
- if (dctx.currlentable != dctx.staticlentable)
- zlib_freetable(&dctx.currlentable);
- if (dctx.currdisttable != dctx.staticdisttable)
- zlib_freetable(&dctx.currdisttable);
+ dctx->state = OUTSIDEBLK;
+ if (dctx->currlentable != dctx->staticlentable) {
+ zlib_freetable(&dctx->currlentable);
+ dctx->currlentable = NULL;
+ }
+ if (dctx->currdisttable != dctx->staticdisttable) {
+ zlib_freetable(&dctx->currdisttable);
+ dctx->currdisttable = NULL;
+ }
} else if (code < 286) { /* static tree can give >285; ignore */
- dctx.state = GOTLENSYM;
- dctx.sym = code;
+ dctx->state = GOTLENSYM;
+ dctx->sym = code;
}
break;
case GOTLENSYM:
- rec = &lencodes[dctx.sym - 257];
- if (dctx.nbits < rec->extrabits)
+ rec = &lencodes[dctx->sym - 257];
+ if (dctx->nbits < rec->extrabits)
goto finished;
- dctx.len =
- rec->min + (dctx.bits & ((1 << rec->extrabits) - 1));
+ dctx->len =
+ rec->min + (dctx->bits & ((1 << rec->extrabits) - 1));
EATBITS(rec->extrabits);
- dctx.state = GOTLEN;
+ dctx->state = GOTLEN;
break;
case GOTLEN:
code =
- zlib_huflookup(&dctx.bits, &dctx.nbits,
- dctx.currdisttable);
+ zlib_huflookup(&dctx->bits, &dctx->nbits,
+ dctx->currdisttable);
if (code == -1)
goto finished;
- dctx.state = GOTDISTSYM;
- dctx.sym = code;
+ dctx->state = GOTDISTSYM;
+ dctx->sym = code;
break;
case GOTDISTSYM:
- rec = &distcodes[dctx.sym];
- if (dctx.nbits < rec->extrabits)
+ rec = &distcodes[dctx->sym];
+ if (dctx->nbits < rec->extrabits)
goto finished;
- dist = rec->min + (dctx.bits & ((1 << rec->extrabits) - 1));
+ dist = rec->min + (dctx->bits & ((1 << rec->extrabits) - 1));
EATBITS(rec->extrabits);
- dctx.state = INBLK;
- while (dctx.len--)
- zlib_emit_char(dctx.window[(dctx.winpos - dist) &
- (WINSIZE - 1)]);
+ dctx->state = INBLK;
+ while (dctx->len--)
+ zlib_emit_char(dctx, dctx->window[(dctx->winpos - dist) &
+ (WINSIZE - 1)]);
break;
case UNCOMP_LEN:
/*
* Uncompressed block. We expect to see a 16-bit LEN.
*/
- if (dctx.nbits < 16)
+ if (dctx->nbits < 16)
goto finished;
- dctx.uncomplen = dctx.bits & 0xFFFF;
+ dctx->uncomplen = dctx->bits & 0xFFFF;
EATBITS(16);
- dctx.state = UNCOMP_NLEN;
+ dctx->state = UNCOMP_NLEN;
break;
case UNCOMP_NLEN:
/*
* which should be the one's complement of the previous
* LEN.
*/
- if (dctx.nbits < 16)
+ if (dctx->nbits < 16)
goto finished;
- nlen = dctx.bits & 0xFFFF;
+ nlen = dctx->bits & 0xFFFF;
EATBITS(16);
- dctx.state = UNCOMP_DATA;
+ if (dctx->uncomplen == 0)
+ dctx->state = OUTSIDEBLK; /* block is empty */
+ else
+ dctx->state = UNCOMP_DATA;
break;
case UNCOMP_DATA:
- if (dctx.nbits < 8)
+ if (dctx->nbits < 8)
goto finished;
- zlib_emit_char(dctx.bits & 0xFF);
+ zlib_emit_char(dctx, dctx->bits & 0xFF);
EATBITS(8);
- if (--dctx.uncomplen == 0)
- dctx.state = OUTSIDEBLK; /* end of uncompressed block */
+ if (--dctx->uncomplen == 0)
+ dctx->state = OUTSIDEBLK; /* end of uncompressed block */
break;
}
}
finished:
- *outblock = dctx.outblk;
- *outlen = dctx.outlen;
+ *outblock = dctx->outblk;
+ *outlen = dctx->outlen;
return 1;
}
const struct ssh_compress ssh_zlib = {
"zlib",
zlib_compress_init,
+ zlib_compress_cleanup,
zlib_compress_block,
zlib_decompress_init,
+ zlib_decompress_cleanup,
zlib_decompress_block,
- zlib_disable_compression
+ zlib_disable_compression,
+ "zlib (RFC1950)"
};