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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2003-2016. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* %CopyrightEnd%
*/
/*
* ZLib interface for erlang
*
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <stdio.h>
#include <zlib.h>
#include <errno.h>
#include <string.h>
#include "erl_driver.h"
#define DEFLATE_INIT 1
#define DEFLATE_INIT2 2
#define DEFLATE_SETDICT 3
#define DEFLATE_RESET 4
#define DEFLATE_END 5
#define DEFLATE_PARAMS 6
#define DEFLATE 7
#define INFLATE_INIT 8
#define INFLATE_INIT2 9
#define INFLATE_SETDICT 10
#define INFLATE_SYNC 11
#define INFLATE_RESET 12
#define INFLATE_END 13
#define INFLATE 14
#define CRC32_0 15
#define CRC32_1 16
#define CRC32_2 17
#define SET_BUFSZ 18
#define GET_BUFSZ 19
#define GET_QSIZE 20
#define ADLER32_1 21
#define ADLER32_2 22
#define CRC32_COMBINE 23
#define ADLER32_COMBINE 24
#define INFLATE_CHUNK 25
#define DEFAULT_BUFSZ 4000
/* This flag is used in the same places, where zlib return codes
* (Z_OK, Z_STREAM_END, Z_NEED_DICT) are. So, we need to set it to
* relatively large value to avoid possible value clashes in future.
* */
#define INFLATE_HAS_MORE 100
static int zlib_init(void);
static ErlDrvData zlib_start(ErlDrvPort port, char* buf);
static void zlib_stop(ErlDrvData e);
static void zlib_flush(ErlDrvData e);
static ErlDrvSSizeT zlib_ctl(ErlDrvData drv_data, unsigned int command, char *buf,
ErlDrvSizeT len, char **rbuf, ErlDrvSizeT rlen);
static void zlib_outputv(ErlDrvData drv_data, ErlIOVec *ev);
ErlDrvEntry zlib_driver_entry = {
zlib_init,
zlib_start,
zlib_stop,
NULL, /* output */
NULL, /* ready_input */
NULL, /* ready_output */
"zlib_drv",
NULL, /* finish */
NULL, /* handle */
zlib_ctl,
NULL, /* timeout */
zlib_outputv,
NULL, /* read_async */
zlib_flush,
NULL, /* call */
NULL, /* event */
ERL_DRV_EXTENDED_MARKER,
ERL_DRV_EXTENDED_MAJOR_VERSION,
ERL_DRV_EXTENDED_MINOR_VERSION,
ERL_DRV_FLAG_USE_PORT_LOCKING,
NULL, /* handle2 */
NULL, /* process_exit */
};
typedef enum {
ST_NONE = 0,
ST_DEFLATE = 1,
ST_INFLATE = 2
} ZLibState;
typedef struct {
z_stream s;
ZLibState state;
ErlDrvBinary* bin;
int binsz;
int binsz_need;
uLong crc;
int inflate_eos_seen;
int want_crc; /* 1 if crc is calculated on clear text */
ErlDrvPort port; /* the associcated port */
} ZLibData;
static int zlib_inflate(ZLibData* d, int flush);
static int zlib_deflate(ZLibData* d, int flush);
#if defined(__WIN32__)
static int i32(char* buf)
#else
static __inline__ int i32(char* buf)
#endif
{
return (int) (
(((int)((unsigned char*)buf)[0]) << 24) |
(((int)((unsigned char*)buf)[1]) << 16) |
(((int)((unsigned char*)buf)[2]) << 8) |
(((int)((unsigned char*)buf)[3]) << 0));
}
static char* zlib_reason(int code, int* err)
{
switch(code) {
case Z_OK:
*err = 0;
return "ok";
case Z_STREAM_END:
*err = 0;
return "stream_end";
case Z_ERRNO:
*err = 1;
return erl_errno_id(errno);
case Z_STREAM_ERROR:
*err = 1;
return "stream_error";
case Z_DATA_ERROR:
*err = 1;
return "data_error";
case Z_MEM_ERROR:
*err = 1;
return "mem_error";
case Z_BUF_ERROR:
*err = 1;
return "buf_error";
case Z_VERSION_ERROR:
*err = 1;
return "version_error";
default:
*err = 1;
return "unknown_error";
}
}
static ErlDrvSSizeT zlib_return(int code, char** rbuf, ErlDrvSizeT rlen)
{
int msg_code = 0; /* 0=ok, 1=error */
char* dst = *rbuf;
char* src;
ErlDrvSizeT len = 0;
src = zlib_reason(code, &msg_code);
*dst++ = msg_code;
rlen--;
len = 1;
while((rlen > 0) && *src) {
*dst++ = *src++;
rlen--;
len++;
}
return len;
}
static ErlDrvSSizeT zlib_value2(int msg_code, int value,
char** rbuf, ErlDrvSizeT rlen)
{
char* dst = *rbuf;
if (rlen < 5) {
return -1;
}
*dst++ = msg_code;
*dst++ = (value >> 24) & 0xff;
*dst++ = (value >> 16) & 0xff;
*dst++ = (value >> 8) & 0xff;
*dst++ = value & 0xff;
return 5;
}
static ErlDrvSSizeT zlib_value(int value, char** rbuf, ErlDrvSizeT rlen)
{
return zlib_value2(2, value, rbuf, rlen);
}
static int zlib_output_init(ZLibData* d)
{
if (d->bin != NULL)
driver_free_binary(d->bin);
if ((d->bin = driver_alloc_binary(d->binsz_need)) == NULL)
return -1;
d->binsz = d->binsz_need;
d->s.next_out = (unsigned char*)d->bin->orig_bytes;
d->s.avail_out = d->binsz;
return 0;
}
/*
* Send compressed or uncompressed data
* and restart output procesing
*/
static int zlib_output(ZLibData* d)
{
if (d->bin != NULL) {
int len = d->binsz - d->s.avail_out;
if (len > 0) {
if (driver_output_binary(d->port, NULL, 0, d->bin, 0, len) < 0)
return -1;
}
driver_free_binary(d->bin);
d->bin = NULL;
d->binsz = 0;
}
return zlib_output_init(d);
}
static int zlib_inflate(ZLibData* d, int flush)
{
int res = Z_OK;
if ((d->bin == NULL) && (zlib_output_init(d) < 0)) {
errno = ENOMEM;
return Z_ERRNO;
}
while ((driver_sizeq(d->port) > 0) && (res != Z_STREAM_END)) {
int vlen;
SysIOVec* iov = driver_peekq(d->port, &vlen);
int len;
int possibly_more_output = 0;
d->s.next_in = iov[0].iov_base;
d->s.avail_in = iov[0].iov_len;
while((possibly_more_output || (d->s.avail_in > 0)) && (res != Z_STREAM_END)) {
res = inflate(&d->s, Z_NO_FLUSH);
if (res == Z_NEED_DICT) {
/* Essential to eat the header bytes that zlib has looked at */
len = iov[0].iov_len - d->s.avail_in;
driver_deq(d->port, len);
return res;
}
if (res == Z_BUF_ERROR) {
/* Was possible more output, but actually not */
res = Z_OK;
}
else if (res < 0) {
return res;
}
if (d->s.avail_out != 0) {
possibly_more_output = 0;
} else {
if (d->want_crc)
d->crc = crc32(d->crc, (unsigned char*)d->bin->orig_bytes,
d->binsz - d->s.avail_out);
zlib_output(d);
possibly_more_output = 1;
}
}
len = iov[0].iov_len - d->s.avail_in;
driver_deq(d->port, len);
}
if (d->want_crc) {
d->crc = crc32(d->crc, (unsigned char*) d->bin->orig_bytes,
d->binsz - d->s.avail_out);
}
zlib_output(d);
if (res == Z_STREAM_END) {
d->inflate_eos_seen = 1;
}
return res;
}
static int zlib_inflate_chunk(ZLibData* d)
{
int res = Z_OK;
if ((d->bin == NULL) && (zlib_output_init(d) < 0)) {
errno = ENOMEM;
return Z_ERRNO;
}
while ((driver_sizeq(d->port) > 0) && (d->s.avail_out > 0) &&
(res != Z_STREAM_END)) {
int vlen;
SysIOVec* iov = driver_peekq(d->port, &vlen);
int len;
d->s.next_in = iov[0].iov_base;
d->s.avail_in = iov[0].iov_len;
while((d->s.avail_in > 0) && (d->s.avail_out > 0) && (res != Z_STREAM_END)) {
res = inflate(&d->s, Z_NO_FLUSH);
if (res == Z_NEED_DICT) {
/* Essential to eat the header bytes that zlib has looked at */
len = iov[0].iov_len - d->s.avail_in;
driver_deq(d->port, len);
return res;
}
if (res == Z_BUF_ERROR) {
/* Was possible more output, but actually not */
res = Z_OK;
}
else if (res < 0) {
return res;
}
}
len = iov[0].iov_len - d->s.avail_in;
driver_deq(d->port, len);
}
/* We are here because all input was consumed or EOS reached or output
* buffer is full */
if (d->want_crc) {
d->crc = crc32(d->crc, (unsigned char*) d->bin->orig_bytes,
d->binsz - d->s.avail_out);
}
zlib_output(d);
if ((res == Z_OK) && (d->s.avail_in > 0))
res = INFLATE_HAS_MORE;
else if (res == Z_STREAM_END) {
d->inflate_eos_seen = 1;
}
return res;
}
static int zlib_deflate(ZLibData* d, int flush)
{
int res = Z_OK;
if ((d->bin == NULL) && (zlib_output_init(d) < 0)) {
errno = ENOMEM;
return Z_ERRNO;
}
while ((driver_sizeq(d->port) > 0) && (res != Z_STREAM_END)) {
int vlen;
SysIOVec* iov = driver_peekq(d->port, &vlen);
int len;
d->s.next_in = iov[0].iov_base;
d->s.avail_in = iov[0].iov_len;
while((d->s.avail_in > 0) && (res != Z_STREAM_END)) {
if ((res = deflate(&d->s, Z_NO_FLUSH)) < 0) {
return res;
}
if (d->s.avail_out == 0) {
zlib_output(d);
}
}
len = iov[0].iov_len - d->s.avail_in;
if (d->want_crc) {
d->crc = crc32(d->crc, iov[0].iov_base, len);
}
driver_deq(d->port, len);
}
if (flush != Z_NO_FLUSH) {
if ((res = deflate(&d->s, flush)) < 0) {
return res;
}
if (flush == Z_FINISH) {
while (d->s.avail_out < d->binsz) {
zlib_output(d);
if (res == Z_STREAM_END) {
break;
}
if ((res = deflate(&d->s, flush)) < 0) {
return res;
}
}
} else {
while (d->s.avail_out == 0) {
zlib_output(d);
if ((res = deflate(&d->s, flush)) < 0) {
return res;
}
}
if (d->s.avail_out < d->binsz) {
zlib_output(d);
}
}
}
return res;
}
static void* zlib_alloc(void* data, unsigned int items, unsigned int size)
{
return (void*) driver_alloc(items*size);
}
static void zlib_free(void* data, void* addr)
{
driver_free(addr);
}
static int zlib_init()
{
return 0;
}
static ErlDrvData zlib_start(ErlDrvPort port, char* buf)
{
ZLibData* d;
if ((d = (ZLibData*) driver_alloc(sizeof(ZLibData))) == NULL)
return ERL_DRV_ERROR_GENERAL;
memset(&d->s, 0, sizeof(z_stream));
d->s.zalloc = zlib_alloc;
d->s.zfree = zlib_free;
d->s.opaque = d;
d->s.data_type = Z_BINARY;
d->port = port;
d->state = ST_NONE;
d->bin = NULL;
d->binsz = 0;
d->binsz_need = DEFAULT_BUFSZ;
d->crc = crc32(0L, Z_NULL, 0);
d->inflate_eos_seen = 0;
d->want_crc = 0;
return (ErlDrvData)d;
}
static void zlib_stop(ErlDrvData e)
{
ZLibData* d = (ZLibData*)e;
if (d->state == ST_DEFLATE)
deflateEnd(&d->s);
else if (d->state == ST_INFLATE)
inflateEnd(&d->s);
if (d->bin != NULL)
driver_free_binary(d->bin);
driver_free(d);
}
static void zlib_flush(ErlDrvData drv_data)
{
ZLibData* d = (ZLibData*) drv_data;
driver_deq(d->port, driver_sizeq(d->port));
}
static ErlDrvSSizeT zlib_ctl(ErlDrvData drv_data, unsigned int command, char *buf,
ErlDrvSizeT len, char **rbuf, ErlDrvSizeT rlen)
{
ZLibData* d = (ZLibData*)drv_data;
int res;
switch(command) {
case DEFLATE_INIT:
if (len != 4) goto badarg;
if (d->state != ST_NONE) goto badarg;
res = deflateInit(&d->s, i32(buf));
if (res == Z_OK) {
d->state = ST_DEFLATE;
d->want_crc = 0;
d->crc = crc32(0L, Z_NULL, 0);
}
return zlib_return(res, rbuf, rlen);
case DEFLATE_INIT2: {
int wbits;
if (len != 20) goto badarg;
if (d->state != ST_NONE) goto badarg;
wbits = i32(buf+8);
res = deflateInit2(&d->s, i32(buf), i32(buf+4), wbits,
i32(buf+12), i32(buf+16));
if (res == Z_OK) {
d->state = ST_DEFLATE;
d->want_crc = (wbits < 0);
d->crc = crc32(0L, Z_NULL, 0);
}
return zlib_return(res, rbuf, rlen);
}
case DEFLATE_SETDICT:
if (d->state != ST_DEFLATE) goto badarg;
res = deflateSetDictionary(&d->s, (unsigned char*)buf, len);
if (res == Z_OK) {
return zlib_value(d->s.adler, rbuf, rlen);
} else {
return zlib_return(res, rbuf, rlen);
}
case DEFLATE_RESET:
if (len != 0) goto badarg;
if (d->state != ST_DEFLATE) goto badarg;
driver_deq(d->port, driver_sizeq(d->port));
res = deflateReset(&d->s);
return zlib_return(res, rbuf, rlen);
case DEFLATE_END:
if (len != 0) goto badarg;
if (d->state != ST_DEFLATE) goto badarg;
driver_deq(d->port, driver_sizeq(d->port));
res = deflateEnd(&d->s);
d->state = ST_NONE;
return zlib_return(res, rbuf, rlen);
case DEFLATE_PARAMS:
if (len != 8) goto badarg;
if (d->state != ST_DEFLATE) goto badarg;
res = deflateParams(&d->s, i32(buf), i32(buf+4));
return zlib_return(res, rbuf, rlen);
case DEFLATE:
if (d->state != ST_DEFLATE) goto badarg;
if (len != 4) goto badarg;
res = zlib_deflate(d, i32(buf));
return zlib_return(res, rbuf, rlen);
case INFLATE_INIT:
if (len != 0) goto badarg;
if (d->state != ST_NONE) goto badarg;
res = inflateInit(&d->s);
if (res == Z_OK) {
d->state = ST_INFLATE;
d->inflate_eos_seen = 0;
d->want_crc = 0;
d->crc = crc32(0L, Z_NULL, 0);
}
return zlib_return(res, rbuf, rlen);
case INFLATE_INIT2: {
int wbits;
if (len != 4) goto badarg;
if (d->state != ST_NONE) goto badarg;
wbits = i32(buf);
res = inflateInit2(&d->s, wbits);
if (res == Z_OK) {
d->state = ST_INFLATE;
d->inflate_eos_seen = 0;
d->want_crc = (wbits < 0);
d->crc = crc32(0L, Z_NULL, 0);
}
return zlib_return(res, rbuf, rlen);
}
case INFLATE_SETDICT:
if (d->state != ST_INFLATE) goto badarg;
res = inflateSetDictionary(&d->s, (unsigned char*)buf, len);
return zlib_return(res, rbuf, rlen);
case INFLATE_SYNC:
if (d->state != ST_INFLATE) goto badarg;
if (len != 0) goto badarg;
if (driver_sizeq(d->port) == 0) {
res = Z_BUF_ERROR;
} else {
int vlen;
SysIOVec* iov = driver_peekq(d->port, &vlen);
d->s.next_in = iov[0].iov_base;
d->s.avail_in = iov[0].iov_len;
res = inflateSync(&d->s);
}
return zlib_return(res, rbuf, rlen);
case INFLATE_RESET:
if (d->state != ST_INFLATE) goto badarg;
if (len != 0) goto badarg;
driver_deq(d->port, driver_sizeq(d->port));
res = inflateReset(&d->s);
d->inflate_eos_seen = 0;
return zlib_return(res, rbuf, rlen);
case INFLATE_END:
if (d->state != ST_INFLATE) goto badarg;
if (len != 0) goto badarg;
driver_deq(d->port, driver_sizeq(d->port));
res = inflateEnd(&d->s);
if (res == Z_OK && d->inflate_eos_seen == 0) {
res = Z_DATA_ERROR;
}
d->state = ST_NONE;
return zlib_return(res, rbuf, rlen);
case INFLATE:
if (d->state != ST_INFLATE) goto badarg;
if (len != 4) goto badarg;
res = zlib_inflate(d, i32(buf));
if (res == Z_NEED_DICT) {
return zlib_value2(3, d->s.adler, rbuf, rlen);
} else {
return zlib_return(res, rbuf, rlen);
}
case INFLATE_CHUNK:
if (d->state != ST_INFLATE) goto badarg;
if (len != 0) goto badarg;
res = zlib_inflate_chunk(d);
if (res == INFLATE_HAS_MORE) {
return zlib_value2(4, 0, rbuf, rlen);
} else if (res == Z_NEED_DICT) {
return zlib_value2(3, d->s.adler, rbuf, rlen);
} else {
return zlib_return(res, rbuf, rlen);
}
case GET_QSIZE:
return zlib_value(driver_sizeq(d->port), rbuf, rlen);
case GET_BUFSZ:
return zlib_value(d->binsz_need, rbuf, rlen);
case SET_BUFSZ: {
int need;
if (len != 4) goto badarg;
need = i32(buf);
if ((need < 16) || (need > 0x00ffffff))
goto badarg;
if (d->binsz_need != need) {
d->binsz_need = need;
if (d->bin != NULL) {
if (d->s.avail_out == d->binsz) {
driver_free_binary(d->bin);
d->bin = NULL;
d->binsz = 0;
}
else
zlib_output(d);
}
}
return zlib_return(Z_OK, rbuf, rlen);
}
case CRC32_0:
return zlib_value(d->crc, rbuf, rlen);
case CRC32_1: {
uLong crc = crc32(0L, Z_NULL, 0);
crc = crc32(crc, (unsigned char*) buf, len);
return zlib_value(crc, rbuf, rlen);
}
case CRC32_2: {
uLong crc;
if (len < 4) goto badarg;
crc = (unsigned int) i32(buf);
crc = crc32(crc, (unsigned char*) buf+4, len-4);
return zlib_value(crc, rbuf, rlen);
}
case ADLER32_1: {
uLong adler = adler32(0L, Z_NULL, 0);
adler = adler32(adler, (unsigned char*) buf, len);
return zlib_value(adler, rbuf, rlen);
}
case ADLER32_2: {
uLong adler;
if (len < 4) goto badarg;
adler = (unsigned int) i32(buf);
adler = adler32(adler, (unsigned char*) buf+4, len-4);
return zlib_value(adler, rbuf, rlen);
}
case CRC32_COMBINE: {
uLong crc, crc1, crc2, len2;
if (len != 12) goto badarg;
crc1 = (unsigned int) i32(buf);
crc2 = (unsigned int) i32(buf+4);
len2 = (unsigned int) i32(buf+8);
crc = crc32_combine(crc1, crc2, len2);
return zlib_value(crc, rbuf, rlen);
}
case ADLER32_COMBINE: {
uLong adler, adler1, adler2, len2;
if (len != 12) goto badarg;
adler1 = (unsigned int) i32(buf);
adler2 = (unsigned int) i32(buf+4);
len2 = (unsigned int) i32(buf+8);
adler = adler32_combine(adler1, adler2, len2);
return zlib_value(adler, rbuf, rlen);
}
}
badarg:
errno = EINVAL;
return zlib_return(Z_ERRNO, rbuf, rlen);
}
static void zlib_outputv(ErlDrvData drv_data, ErlIOVec *ev)
{
ZLibData* d = (ZLibData*) drv_data;
driver_enqv(d->port, ev, 0);
}
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