gstreamer/libs/gst/check/libcheck/check_pack.c

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/*
* Check: a unit test framework for C
* Copyright (C) 2001, 2002 Arien Malec
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
* MA 02110-1301, USA.
*/
#include "libcompat/libcompat.h"
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "internal-check.h"
#include "check_error.h"
#include "check_list.h"
#include "check_impl.h"
#include "check_pack.h"
#ifndef HAVE_PTHREAD
#define pthread_mutex_lock(arg)
#define pthread_mutex_unlock(arg)
#define pthread_cleanup_push(f,a) {
#define pthread_cleanup_pop(e) }
#endif
/* Maximum size for one message in the message stream. */
#define CK_MAX_MSG_SIZE 8192
/* This is used to implement a sliding window on the receiving
* side. When sending messages, we assure that no single message
* is bigger than this (actually we check against CK_MAX_MSG_SIZE/2).
* The usual size for a message is less than 80 bytes.
* All this is done instead of the previous approach to allocate (actually
* continuously reallocate) one big chunk for the whole message stream.
* Problems were seen in the wild with up to 4 GB reallocations.
*/
/* typedef an unsigned int that has at least 4 bytes */
typedef uint32_t ck_uint32;
static void pack_int (char **buf, int val);
static int upack_int (char **buf);
static void pack_str (char **buf, const char *str);
static char *upack_str (char **buf);
static int pack_ctx (char **buf, CtxMsg * cmsg);
static int pack_loc (char **buf, LocMsg * lmsg);
static int pack_fail (char **buf, FailMsg * fmsg);
static int pack_duration (char **buf, DurationMsg * fmsg);
static void upack_ctx (char **buf, CtxMsg * cmsg);
static void upack_loc (char **buf, LocMsg * lmsg);
static void upack_fail (char **buf, FailMsg * fmsg);
static void upack_duration (char **buf, DurationMsg * fmsg);
static void check_type (int type, const char *file, int line);
static enum ck_msg_type upack_type (char **buf);
static void pack_type (char **buf, enum ck_msg_type type);
static int read_buf (FILE * fdes, int size, char *buf);
static int get_result (char *buf, RcvMsg * rmsg);
static void rcvmsg_update_ctx (RcvMsg * rmsg, enum ck_result_ctx ctx);
static void rcvmsg_update_loc (RcvMsg * rmsg, const char *file, int line);
static RcvMsg *rcvmsg_create (void);
void rcvmsg_free (RcvMsg * rmsg);
typedef int (*pfun) (char **, CheckMsg *);
typedef void (*upfun) (char **, CheckMsg *);
static pfun pftab[] = {
(pfun) pack_ctx,
(pfun) pack_fail,
(pfun) pack_loc,
(pfun) pack_duration
};
static upfun upftab[] = {
(upfun) upack_ctx,
(upfun) upack_fail,
(upfun) upack_loc,
(upfun) upack_duration
};
int
pack (enum ck_msg_type type, char **buf, CheckMsg * msg)
{
if (buf == NULL)
return -1;
if (msg == NULL)
return 0;
check_type (type, __FILE__, __LINE__);
return pftab[type] (buf, msg);
}
int
upack (char *buf, CheckMsg * msg, enum ck_msg_type *type)
{
char *obuf;
if (buf == NULL)
return -1;
obuf = buf;
*type = upack_type (&buf);
check_type (*type, __FILE__, __LINE__);
upftab[*type] (&buf, msg);
return buf - obuf;
}
static void
pack_int (char **buf, int val)
{
unsigned char *ubuf = (unsigned char *) *buf;
ck_uint32 uval = val;
ubuf[0] = (unsigned char) ((uval >> 24) & 0xFF);
ubuf[1] = (unsigned char) ((uval >> 16) & 0xFF);
ubuf[2] = (unsigned char) ((uval >> 8) & 0xFF);
ubuf[3] = (unsigned char) (uval & 0xFF);
*buf += 4;
}
static int
upack_int (char **buf)
{
unsigned char *ubuf = (unsigned char *) *buf;
ck_uint32 uval;
uval =
(ck_uint32) ((ubuf[0] << 24) | (ubuf[1] << 16) | (ubuf[2] << 8) |
ubuf[3]);
*buf += 4;
return (int) uval;
}
static void
pack_str (char **buf, const char *val)
{
int strsz;
if (val == NULL)
strsz = 0;
else
strsz = strlen (val);
pack_int (buf, strsz);
if (strsz > 0) {
memcpy (*buf, val, strsz);
*buf += strsz;
}
}
static char *
upack_str (char **buf)
{
char *val;
int strsz;
strsz = upack_int (buf);
if (strsz > 0) {
val = (char *) emalloc (strsz + 1);
memcpy (val, *buf, strsz);
val[strsz] = 0;
*buf += strsz;
} else {
val = (char *) emalloc (1);
*val = 0;
}
return val;
}
static void
pack_type (char **buf, enum ck_msg_type type)
{
pack_int (buf, (int) type);
}
static enum ck_msg_type
upack_type (char **buf)
{
return (enum ck_msg_type) upack_int (buf);
}
static int
pack_ctx (char **buf, CtxMsg * cmsg)
{
char *ptr;
int len;
len = 4 + 4;
*buf = ptr = (char *) emalloc (len);
pack_type (&ptr, CK_MSG_CTX);
pack_int (&ptr, (int) cmsg->ctx);
return len;
}
static void
upack_ctx (char **buf, CtxMsg * cmsg)
{
cmsg->ctx = (enum ck_result_ctx) upack_int (buf);
}
static int
pack_duration (char **buf, DurationMsg * cmsg)
{
char *ptr;
int len;
len = 4 + 4;
*buf = ptr = (char *) emalloc (len);
pack_type (&ptr, CK_MSG_DURATION);
pack_int (&ptr, cmsg->duration);
return len;
}
static void
upack_duration (char **buf, DurationMsg * cmsg)
{
cmsg->duration = upack_int (buf);
}
static int
pack_loc (char **buf, LocMsg * lmsg)
{
char *ptr;
int len;
len = 4 + 4 + (lmsg->file ? strlen (lmsg->file) : 0) + 4;
*buf = ptr = (char *) emalloc (len);
pack_type (&ptr, CK_MSG_LOC);
pack_str (&ptr, lmsg->file);
pack_int (&ptr, lmsg->line);
return len;
}
static void
upack_loc (char **buf, LocMsg * lmsg)
{
lmsg->file = upack_str (buf);
lmsg->line = upack_int (buf);
}
static int
pack_fail (char **buf, FailMsg * fmsg)
{
char *ptr;
int len;
len = 4 + 4 + (fmsg->msg ? strlen (fmsg->msg) : 0);
*buf = ptr = (char *) emalloc (len);
pack_type (&ptr, CK_MSG_FAIL);
pack_str (&ptr, fmsg->msg);
return len;
}
static void
upack_fail (char **buf, FailMsg * fmsg)
{
fmsg->msg = upack_str (buf);
}
static void
check_type (int type, const char *file, int line)
{
if (type < 0 || type >= CK_MSG_LAST)
eprintf ("Bad message type arg %d", file, line, type);
}
#ifdef HAVE_PTHREAD
static pthread_mutex_t ck_mutex_lock = PTHREAD_MUTEX_INITIALIZER;
static void
ppack_cleanup (void *mutex)
{
pthread_mutex_unlock ((pthread_mutex_t *) mutex);
}
#endif
void
ppack (FILE * fdes, enum ck_msg_type type, CheckMsg * msg)
{
char *buf = NULL;
int n;
ssize_t r;
n = pack (type, &buf, msg);
/* Keep it on the safe side to not send too much data. */
if (n > (CK_MAX_MSG_SIZE / 2))
eprintf ("Message string too long", __FILE__, __LINE__ - 2);
pthread_cleanup_push (ppack_cleanup, &ck_mutex_lock);
pthread_mutex_lock (&ck_mutex_lock);
r = fwrite (buf, 1, n, fdes);
fflush (fdes);
pthread_mutex_unlock (&ck_mutex_lock);
pthread_cleanup_pop (0);
if (r != n)
eprintf ("Error in call to fwrite:", __FILE__, __LINE__ - 2);
free (buf);
}
static int
read_buf (FILE * fdes, int size, char *buf)
{
int n;
n = fread (buf, 1, size, fdes);
if (ferror (fdes)) {
eprintf ("Error in call to fread:", __FILE__, __LINE__ - 4);
}
return n;
}
static int
get_result (char *buf, RcvMsg * rmsg)
{
enum ck_msg_type type;
CheckMsg msg;
int n;
n = upack (buf, &msg, &type);
if (n == -1)
eprintf ("Error in call to upack", __FILE__, __LINE__ - 2);
if (type == CK_MSG_CTX) {
CtxMsg *cmsg = (CtxMsg *) & msg;
rcvmsg_update_ctx (rmsg, cmsg->ctx);
} else if (type == CK_MSG_LOC) {
LocMsg *lmsg = (LocMsg *) & msg;
if (rmsg->failctx == CK_CTX_INVALID) {
rcvmsg_update_loc (rmsg, lmsg->file, lmsg->line);
}
free (lmsg->file);
} else if (type == CK_MSG_FAIL) {
FailMsg *fmsg = (FailMsg *) & msg;
if (rmsg->msg == NULL) {
rmsg->msg = strdup (fmsg->msg);
rmsg->failctx = rmsg->lastctx;
} else {
/* Skip subsequent failure messages, only happens for CK_NOFORK */
}
free (fmsg->msg);
} else if (type == CK_MSG_DURATION) {
DurationMsg *cmsg = (DurationMsg *) & msg;
rmsg->duration = cmsg->duration;
} else
check_type (type, __FILE__, __LINE__);
return n;
}
static void
reset_rcv_test (RcvMsg * rmsg)
{
rmsg->test_line = -1;
rmsg->test_file = NULL;
}
static void
reset_rcv_fixture (RcvMsg * rmsg)
{
rmsg->fixture_line = -1;
rmsg->fixture_file = NULL;
}
static RcvMsg *
rcvmsg_create (void)
{
RcvMsg *rmsg;
rmsg = (RcvMsg *) emalloc (sizeof (RcvMsg));
rmsg->lastctx = CK_CTX_INVALID;
rmsg->failctx = CK_CTX_INVALID;
rmsg->msg = NULL;
rmsg->duration = -1;
reset_rcv_test (rmsg);
reset_rcv_fixture (rmsg);
return rmsg;
}
void
rcvmsg_free (RcvMsg * rmsg)
{
free (rmsg->fixture_file);
free (rmsg->test_file);
free (rmsg->msg);
free (rmsg);
}
static void
rcvmsg_update_ctx (RcvMsg * rmsg, enum ck_result_ctx ctx)
{
if (rmsg->lastctx != CK_CTX_INVALID) {
free (rmsg->fixture_file);
reset_rcv_fixture (rmsg);
}
rmsg->lastctx = ctx;
}
static void
rcvmsg_update_loc (RcvMsg * rmsg, const char *file, int line)
{
if (rmsg->lastctx == CK_CTX_TEST) {
free (rmsg->test_file);
rmsg->test_line = line;
rmsg->test_file = strdup (file);
} else {
free (rmsg->fixture_file);
rmsg->fixture_line = line;
rmsg->fixture_file = strdup (file);
}
}
RcvMsg *
punpack (FILE * fdes)
{
int nread, nparse, n;
char *buf;
RcvMsg *rmsg;
rmsg = rcvmsg_create ();
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/* Allocate a buffer */
buf = (char *) emalloc (CK_MAX_MSG_SIZE);
/* Fill the buffer from the file */
nread = read_buf (fdes, CK_MAX_MSG_SIZE, buf);
nparse = nread;
/* While not all parsed */
while (nparse > 0) {
/* Parse one message */
n = get_result (buf, rmsg);
nparse -= n;
if (nparse < 0)
eprintf ("Error in call to get_result", __FILE__, __LINE__ - 3);
/* Move remaining data in buffer to the beginning */
memmove (buf, buf + n, nparse);
/* If EOF has not been seen */
if (nread > 0) {
/* Read more data into empty space at end of the buffer */
nread = read_buf (fdes, n, buf + nparse);
nparse += nread;
}
}
free (buf);
if (rmsg->lastctx == CK_CTX_INVALID) {
free (rmsg);
rmsg = NULL;
}
return rmsg;
}