libaitrpc/src/cli.c - diff

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Diff for /libaitrpc/src/cli.c between versions 1.1.1.1.2.7 and 1.4.2.1

version 1.1.1.1.2.7, 2011/03/15 15:13:22	version 1.4.2.1, 2011/08/29 23:26:56
Line 5	Line 5
* $Author$	* $Author$
* $Id$	* $Id$
*	*
*************************************************************************/	**************************************************************************
	The ELWIX and AITNET software is distributed under the following
	terms:

	All of the documentation and software included in the ELWIX and AITNET
	Releases is copyrighted by ELWIX - Sofia/Bulgaria <info@elwix.org>

	Copyright 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
	by Michael Pounov <misho@elwix.org>. All rights reserved.

	Redistribution and use in source and binary forms, with or without
	modification, are permitted provided that the following conditions
	are met:
	1. Redistributions of source code must retain the above copyright
	notice, this list of conditions and the following disclaimer.
	2. Redistributions in binary form must reproduce the above copyright
	notice, this list of conditions and the following disclaimer in the
	documentation and/or other materials provided with the distribution.
	3. All advertising materials mentioning features or use of this software
	must display the following acknowledgement:
	This product includes software developed by Michael Pounov <misho@elwix.org>
	ELWIX - Embedded LightWeight unIX and its contributors.
	4. Neither the name of AITNET nor the names of its contributors
	may be used to endorse or promote products derived from this software
	without specific prior written permission.

	THIS SOFTWARE IS PROVIDED BY AITNET AND CONTRIBUTORS ``AS IS'' AND
	ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
	FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
	OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
	HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
	OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
	SUCH DAMAGE.
	*/
#include "global.h"	#include "global.h"


Line 19 rpc_cli_t *	Line 56 rpc_cli_t *
rpc_cli_openBLOBClient(rpc_cli_t * __restrict rpccli, u_short Port)	rpc_cli_openBLOBClient(rpc_cli_t * __restrict rpccli, u_short Port)
{	{
rpc_cli_t *cli = NULL;	rpc_cli_t *cli = NULL;
struct sockaddr_in sin;	struct sockaddr sa;
struct sockaddr_in6 sin6;	struct sockaddr_in sin = (struct sockaddr_in) &sa;
	struct sockaddr_in6 sin6 = (struct sockaddr_in6) &sa;
	struct sockaddr_un sun = (struct sockaddr_un) &sa;

if (!rpccli \|\| (rpccli->cli_sa.sa_family != AF_INET && rpccli->cli_sa.sa_family != AF_INET6)) {	if (!rpccli \|\|
	(rpccli->cli_sa.sa_family != AF_INET && rpccli->cli_sa.sa_family != AF_INET6 &&
	rpccli->cli_sa.sa_family != AF_LOCAL)) {
rpc_SetErr(EINVAL, "Error:: Invalid parameters can`t connect to BLOB server ...\n");	rpc_SetErr(EINVAL, "Error:: Invalid parameters can`t connect to BLOB server ...\n");
return NULL;	return NULL;
}	}
Line 36 rpc_cli_openBLOBClient(rpc_cli_t * __restrict rpccli,	Line 77 rpc_cli_openBLOBClient(rpc_cli_t * __restrict rpccli,
} else	} else
memcpy(cli, rpccli, sizeof(rpc_cli_t));	memcpy(cli, rpccli, sizeof(rpc_cli_t));

if (rpccli->cli_sa.sa_family == AF_INET) {	memcpy(&sa, &rpccli->cli_sa, sizeof sa);
memcpy(&sin, &rpccli->cli_sa, sizeof sin);	switch (rpccli->cli_sa.sa_family) {
sin.sin_port = htons(Port);	case AF_INET:
memcpy(&cli->cli_sa, &sin, sizeof(struct sockaddr));	sin->sin_port = htons(Port);
} else {	memcpy(&cli->cli_sa, sin, sizeof(struct sockaddr));
memcpy(&sin6, &rpccli->cli_sa, sizeof sin6);	break;
sin6.sin6_port = htons(Port);	case AF_INET6:
memcpy(&cli->cli_sa, &sin6, sizeof(struct sockaddr));	sin6->sin6_port = htons(Port);
	memcpy(&cli->cli_sa, sin6, sizeof(struct sockaddr));
	break;
	case AF_LOCAL:
	strlcat(sun->sun_path, ".blob", sizeof sun->sun_path);
	memcpy(&cli->cli_sa, sun, sizeof(struct sockaddr));
	break;
}	}

	/* connect to BLOB server */
cli->cli_sock = socket(cli->cli_sa.sa_family, SOCK_STREAM, 0);	cli->cli_sock = socket(cli->cli_sa.sa_family, SOCK_STREAM, 0);
if (cli->cli_sock == -1) {	if (cli->cli_sock == -1) {
LOGERR;	LOGERR;
Line 97 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short	Line 145 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short
{	{
rpc_cli_t *cli = NULL;	rpc_cli_t *cli = NULL;
struct hostent *host = NULL;	struct hostent *host = NULL;
struct sockaddr_in sin;	struct sockaddr sa;
struct sockaddr_in6 sin6;	struct sockaddr_in sin = (struct sockaddr_in) &sa;
	struct sockaddr_in6 sin6 = (struct sockaddr_in6) &sa;
	struct sockaddr_un sun = (struct sockaddr_un) &sa;

if (!csHost \|\| (family != AF_INET && family != AF_INET6)) {	if (!csHost \|\| (family != AF_INET && family != AF_INET6 && family != AF_LOCAL)) {
rpc_SetErr(EINVAL, "Error:: Invalid parameters can`t connect to RPC server ...\n");	rpc_SetErr(EINVAL, "Error:: Invalid parameters can`t connect to RPC server ...\n");
return NULL;	return NULL;
}	}
if (!Port)	if (!Port)
Port = RPC_DEFPORT;	Port = RPC_DEFPORT;
if (csHost) {	if (csHost && family != AF_LOCAL) {
host = gethostbyname2(csHost, family);	host = gethostbyname2(csHost, family);
if (!host) {	if (!host) {
rpc_SetErr(h_errno, "Error:: %s\n", hstrerror(h_errno));	rpc_SetErr(h_errno, "Error:: %s\n", hstrerror(h_errno));
return NULL;	return NULL;
}	}
}	}
	memset(&sa, 0, sizeof sa);
	sa.sa_family = family;
switch (family) {	switch (family) {
case AF_INET:	case AF_INET:
memset(&sin, 0, sizeof sin);	sin->sin_len = sizeof(struct sockaddr_in);
sin.sin_len = sizeof sin;	sin->sin_port = htons(Port);
sin.sin_family = family;
sin.sin_port = htons(Port);
if (csHost)	if (csHost)
memcpy(&sin.sin_addr, host->h_addr, host->h_length);	memcpy(&sin->sin_addr, host->h_addr, host->h_length);
break;	break;
case AF_INET6:	case AF_INET6:
memset(&sin6, 0, sizeof sin6);	sin6->sin6_len = sizeof(struct sockaddr_in6);
sin6.sin6_len = sizeof sin6;	sin6->sin6_port = htons(Port);
sin6.sin6_family = family;
sin6.sin6_port = htons(Port);
if (csHost)	if (csHost)
memcpy(&sin6.sin6_addr, host->h_addr, host->h_length);	memcpy(&sin6->sin6_addr, host->h_addr, host->h_length);
break;	break;
	case AF_LOCAL:
	sun->sun_len = sizeof(struct sockaddr_un);
	if (csHost)
	strlcpy(sun->sun_path, csHost, sizeof sun->sun_path);
	break;
default:	default:
rpc_SetErr(EINVAL, "Error:: Invalid parameters can`t connect to RPC server ...\n");	rpc_SetErr(EINVAL, "Error:: Invalid parameters can`t connect to RPC server ...\n");
return NULL;	return NULL;
Line 152 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short	Line 205 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short
((rpc_sess_t*) cli->cli_parent)->sess_process = ProcID;	((rpc_sess_t*) cli->cli_parent)->sess_process = ProcID;
}	}

if (family == AF_INET)	switch (family) {
memcpy(&cli->cli_sa, &sin, sizeof cli->cli_sa);	case AF_INET:
else	memcpy(&cli->cli_sa, sin, sizeof cli->cli_sa);
memcpy(&cli->cli_sa, &sin6, sizeof cli->cli_sa);	break;
	case AF_INET6:
	memcpy(&cli->cli_sa, sin6, sizeof cli->cli_sa);
	break;
	case AF_LOCAL:
	memcpy(&cli->cli_sa, sun, sizeof cli->cli_sa);
	break;
	}

	/* connect to RPC server */
cli->cli_sock = socket(family, SOCK_STREAM, 0);	cli->cli_sock = socket(family, SOCK_STREAM, 0);
if (cli->cli_sock == -1) {	if (cli->cli_sock == -1) {
LOGERR;	LOGERR;
Line 202 rpc_cli_closeClient(rpc_cli_t * __restrict cli)	Line 264 rpc_cli_closeClient(rpc_cli_t * __restrict cli)
* @csModule = Module name, if NULL self binary	* @csModule = Module name, if NULL self binary
* @csFunc = Function name for execute	* @csFunc = Function name for execute
* @in_argc = IN count of arguments	* @in_argc = IN count of arguments
* @in_vals = IN RPC call array of rpc values	* @in_vars = IN RPC call array of rpc values
* @out_argc = OUT returned count of arguments	* @out_argc = OUT returned count of arguments
* @out_vals = OUT returned array of rpc values, must be free after use (see rpc_cli_freeVals())	* @out_vars = OUT returned array of rpc values, must be free after use (see rpc_cli_freeVals())
* return: -1 error or != -1 ok result	* return: -1 error or != -1 ok result
*/	*/
int	int
rpc_cli_execCall(rpc_cli_t cli, const char csModule, const char *csFunc, int in_argc,	rpc_cli_execCall(rpc_cli_t cli, const char csModule, const char *csFunc, int in_argc,
rpc_val_t * __restrict in_vals, int out_argc, rpc_val_t * __restrict out_vals)	ait_val_t * __restrict in_vars, int out_argc, ait_val_t * __restrict out_vars)
{	{
fd_set fds;	fd_set fds;
u_char buf[BUFSIZ], str[MAXPATHLEN + UCHAR_MAX + 1], *data;	u_char buf[BUFSIZ], str[MAXPATHLEN + UCHAR_MAX + 1], *data;
struct tagRPCCall rpc = (struct tagRPCCall) buf;	struct tagRPCCall rpc = (struct tagRPCCall) buf;
struct tagRPCRet *rrpc;	struct tagRPCRet *rrpc = NULL;
int ret = 0, Limit = 0;	int ret = 0, Limit = 0;
register int i;	register int i;
rpc_val_t *v;	ait_val_t *v;
struct timeval tv = { DEF_RPC_TIMEOUT, 0 };	struct timeval tv = { DEF_RPC_TIMEOUT, 0 };

FD_ZERO(&fds);	FD_ZERO(&fds);
memset(buf, 0, BUFSIZ);	memset(buf, 0, sizeof buf);
memset(str, 0, MAXPATHLEN + UCHAR_MAX + 1);	memset(str, 0, sizeof str);
if (!cli \|\| !csFunc \|\| (in_argc && !in_vals)) {	if (!cli \|\| !csFunc \|\| (in_argc && !in_vars)) {
rpc_SetErr(EINVAL, "Error:: Can`t execute call because parameter is null or invalid!\n");	rpc_SetErr(EINVAL, "Error:: Can`t execute call because parameter is null or invalid!\n");
return -1;	return -1;
}	}
	/* build RPC call string for hash */
if (csModule)	if (csModule)
strlcpy((char*) str, csModule, MAXPATHLEN + UCHAR_MAX + 1);	strlcpy((char*) str, csModule, sizeof str);
strlcat((char*) str, "__", MAXPATHLEN + UCHAR_MAX + 1);	strlcat((char*) str, "__", sizeof str);
strlcat((char*) str, csFunc, MAXPATHLEN + UCHAR_MAX + 1);	strlcat((char*) str, csFunc, sizeof str);

	/* prepare RPC call */
memcpy(&rpc->call_session, cli->cli_parent, sizeof rpc->call_session);	memcpy(&rpc->call_session, cli->cli_parent, sizeof rpc->call_session);
rpc->call_argc = in_argc;	rpc->call_argc = in_argc;
rpc->call_tag = crcFletcher16((u_short*) str, (MAXPATHLEN + UCHAR_MAX + 1) / 2);	rpc->call_tag = crcFletcher16((u_short*) str, sizeof str / 2);
rpc->call_hash = hash_fnv((char*) str, MAXPATHLEN + UCHAR_MAX + 1);	rpc->call_hash = hash_fnv((char*) str, sizeof str);
Limit = sizeof(struct tagRPCCall);	Limit = sizeof(struct tagRPCCall);
if (in_argc) {	if (in_argc) {
v = (rpc_val_t*) (buf + sizeof(struct tagRPCCall));	v = (ait_val_t*) (buf + sizeof(struct tagRPCCall));
memcpy(v, in_vals, in_argc * sizeof(rpc_val_t));	if (in_argc * sizeof(ait_val_t) > sizeof buf - Limit) {
Limit += in_argc * sizeof(rpc_val_t);	rpc_SetErr(EMSGSIZE, "Error:: in prepare RPC packet values (-7) ...\n");
data = (u_char) v + in_argc sizeof(rpc_val_t);	return -7;
for (i = 0; i < in_argc; i++) {	} else
switch (in_vals[i].val_type) {	Limit += in_argc * sizeof(ait_val_t);
	memcpy(v, in_vars, in_argc * sizeof(ait_val_t));
	data = (u_char) v + in_argc sizeof(ait_val_t);
	for (i = 0; i < in_argc && !ret; i++) {
	switch (in_vars[i].val_type) {
case buffer:	case buffer:
if (Limit + in_vals[i].val_len > BUFSIZ) {	if (Limit + in_vars[i].val_len > sizeof buf) {
ret = -7;	ret = -7;
break;	break;
}	}

memcpy(data, in_vals[i].val.buffer, in_vals[i].val_len);	memcpy(data, in_vars[i].val.buffer, in_vars[i].val_len);
v[i].val.buffer = (uint8_t) ((void) data - (void*) v);	v[i].val.buffer = (uint8_t) ((void) data - (void*) v);
data += in_vals[i].val_len;	data += in_vars[i].val_len;
Limit += in_vals[i].val_len;	Limit += in_vars[i].val_len;
break;	break;
case string:	case string:
if (Limit + in_vals[i].val_len + 1 > BUFSIZ) {	if (Limit + in_vars[i].val_len > sizeof buf) {
ret = -7;	ret = -7;
break;	break;
}	}

memcpy(data, in_vals[i].val.string, in_vals[i].val_len);	memcpy(data, in_vars[i].val.string, in_vars[i].val_len);
v[i].val.string = (int8_t) ((void) data - (void*) v);	v[i].val.string = (int8_t) ((void) data - (void*) v);
data += in_vals[i].val_len + 1;	data += in_vars[i].val_len;
Limit += in_vals[i].val_len + 1;	Limit += in_vars[i].val_len;
break;	break;
default:	default:
break;	break;
Line 275 rpc_cli_execCall(rpc_cli_t cli, const char csModule,	Line 343 rpc_cli_execCall(rpc_cli_t cli, const char csModule,
return ret;	return ret;
}	}
}	}

if ((ret = send(cli->cli_sock, buf, Limit, 0)) == -1) {	if ((ret = send(cli->cli_sock, buf, Limit, 0)) == -1) {
LOGERR;	LOGERR;
return -1;	return -1;
Line 287 rpc_cli_execCall(rpc_cli_t cli, const char csModule,	Line 356 rpc_cli_execCall(rpc_cli_t cli, const char csModule,

FD_SET(cli->cli_sock, &fds);	FD_SET(cli->cli_sock, &fds);
if ((ret = select(cli->cli_sock + 1, &fds, NULL, NULL, &tv)) < 1) {	if ((ret = select(cli->cli_sock + 1, &fds, NULL, NULL, &tv)) < 1) {
if (ret) {	if (ret)
LOGERR;	LOGERR;
} else	else
rpc_SetErr(ETIMEDOUT, "Error:: timeout, no return from RPC server?\n");	rpc_SetErr(ETIMEDOUT, "Error:: timeout, no return from RPC server?\n");

return -1;	return -1;
}	}
memset(buf, 0, BUFSIZ);	memset(buf, 0, sizeof buf);
if ((ret = recv(cli->cli_sock, buf, BUFSIZ, 0)) == -1) {	if ((ret = recv(cli->cli_sock, buf, sizeof buf, 0)) == -1) {
LOGERR;	LOGERR;
return -3;	return -3;
}	}
if (!ret) // receive EOF	if (!ret) /* receive EOF! */
return 0;	return 0;
if (ret < sizeof(struct tagRPCRet)) {	if (ret < sizeof(struct tagRPCRet)) {
rpc_SetErr(EMSGSIZE, "Error:: too short RPC packet ...\n");	rpc_SetErr(EMSGSIZE, "Error:: too short RPC packet ...\n");
return -4;	return -4;
} else	} else
rrpc = (struct tagRPCRet*) buf;	rrpc = (struct tagRPCRet*) buf;
// check RPC packet session info	/* check RPC packet session info */
if (memcmp(&rrpc->ret_session, cli->cli_parent, sizeof rrpc->ret_session)) {	if (memcmp(&rrpc->ret_session, cli->cli_parent, sizeof rrpc->ret_session)) {
rpc_SetErr(EINVAL, "Error:: get invalid RPC session ...\n");	rpc_SetErr(EINVAL, "Error:: get invalid RPC session ...\n");
return -5;	return -5;
Line 316 rpc_cli_execCall(rpc_cli_t cli, const char csModule,	Line 386 rpc_cli_execCall(rpc_cli_t cli, const char csModule,
rrpc->ret_retcode, strerror(rrpc->ret_errno));	rrpc->ret_retcode, strerror(rrpc->ret_errno));
return -6;	return -6;
}	}
if (rrpc->ret_argc * sizeof(rpc_val_t) > BUFSIZ - Limit) {	if (rrpc->ret_argc * sizeof(ait_val_t) > sizeof buf - Limit) {
rpc_SetErr(EMSGSIZE, "Error:: reply RPC packet is too big ...\n");	rpc_SetErr(EMSGSIZE, "Error:: reply RPC packet is too long ...\n");
return -7;	return -7;
} else	} else
Limit += rrpc->ret_argc * sizeof(rpc_val_t);	Limit += rrpc->ret_argc * sizeof(ait_val_t);
// RPC is OK! Go decapsulate variables ...	/* RPC is OK! Go decapsulate variables ... */
if (rrpc->ret_argc) {	if (rrpc->ret_argc) {
*out_argc = rrpc->ret_argc;	*out_argc = rrpc->ret_argc;
*out_vals = calloc(rrpc->ret_argc, sizeof(rpc_val_t));	*out_vars = calloc(rrpc->ret_argc, sizeof(ait_val_t));
if (!*out_vals) {	if (!*out_vars) {
LOGERR;	LOGERR;
*out_argc = 0;	*out_argc = 0;
return -1;	return -1;
} else	} else
memcpy(*out_vals, buf + sizeof(struct tagRPCRet), Limit - sizeof(struct tagRPCRet));	memcpy(*out_vars, buf + sizeof(struct tagRPCRet), Limit - sizeof(struct tagRPCRet));
// RPC received variables types OK!	/* RPC received variables types OK! */
data = (u_char*) buf + Limit;	data = (u_char*) buf + Limit;
for (i = 0; i < rrpc->ret_argc; i++)	for (i = 0; i < rrpc->ret_argc; i++)
switch ((*out_vals)[i].val_type) {	switch ((*out_vars)[i].val_type) {
case buffer:	case buffer:
if ((*out_vals)[i].val_len > BUFSIZ - Limit) {	if ((*out_vars)[i].val_len > sizeof buf - Limit) {
rpc_SetErr(EMSGSIZE, "Error:: Too big RPC packet ...\n");	rpc_SetErr(EMSGSIZE, "Error:: Too long RPC packet ...\n");
free(*out_vals);	free(*out_vars);
*out_vals = NULL;	*out_vars = NULL;
*out_argc = 0;	*out_argc = 0;
return -7;	return -7;
} else	} else
Limit += (*out_vals)[i].val_len;	Limit += (*out_vars)[i].val_len;

(out_vals)[i].val.buffer = malloc((out_vals)[i].val_len);	(out_vars)[i].val.buffer = malloc((out_vars)[i].val_len);
if (!(*out_vals)[i].val.buffer) {	if (!(*out_vars)[i].val.buffer) {
rpc_SetErr(errno, "Error:: in prepare RPC reply ...\n");	rpc_SetErr(errno, "Error:: in prepare RPC reply ...\n");
free(*out_vals);	free(*out_vars);
*out_vals = NULL;	*out_vars = NULL;
*out_argc = 0;	*out_argc = 0;
return -1;	return -1;
} else	} else
memcpy((out_vals)[i].val.buffer, data, (out_vals)[i].val_len);	memcpy((out_vars)[i].val.buffer, data, (out_vars)[i].val_len);
data += (*out_vals)[i].val_len;	data += (*out_vars)[i].val_len;
break;	break;
case string:	case string:
if ((*out_vals)[i].val_len + 1 > BUFSIZ - Limit) {	if ((*out_vars)[i].val_len > sizeof buf - Limit) {
rpc_SetErr(EMSGSIZE, "Error:: Too big RPC packet ...\n");	rpc_SetErr(EMSGSIZE, "Error:: Too long RPC packet ...\n");
free(*out_vals);	free(*out_vars);
*out_vals = NULL;	*out_vars = NULL;
*out_argc = 0;	*out_argc = 0;
return -7;	return -7;
} else	} else
Limit += (*out_vals)[i].val_len + 1;	Limit += (*out_vars)[i].val_len;

(out_vals)[i].val.string = (int8_t) strdup((char*) data);	(out_vars)[i].val.string = malloc((out_vars)[i].val_len);
if (!(*out_vals)[i].val.string) {	if (!(*out_vars)[i].val.string) {
rpc_SetErr(errno, "Error:: in prepare RPC reply ...\n");	rpc_SetErr(errno, "Error:: in prepare RPC reply ...\n");
free(*out_vals);	free(*out_vars);
*out_vals = NULL;	*out_vars = NULL;
*out_argc = 0;	*out_argc = 0;
return -1;	return -1;
}	} else
data += (*out_vals)[i].val_len + 1;	memcpy((out_vars)[i].val.string, data, (out_vars)[i].val_len);
	data += (*out_vars)[i].val_len;
break;	break;
default:	default:
break;	break;
Line 382 rpc_cli_execCall(rpc_cli_t cli, const char csModule,	Line 453 rpc_cli_execCall(rpc_cli_t cli, const char csModule,
} else {	} else {
if (out_argc)	if (out_argc)
*out_argc = 0;	*out_argc = 0;
if (out_vals)	if (out_vars)
*out_vals = NULL;	*out_vars = NULL;
}	}

return rrpc->ret_retcode;	return rrpc->ret_retcode;
}	}

/*	/*
* rpc_cli_freeVals() Free rpc_val_t array returned from RPC call	* rpc_cli_freeVals() Free ait_val_t array returned from RPC call
* @args = Number of arguments in array	* @args = Number of arguments in array
* @vals = Value elements	* @vars = Value elements
* return: none	* return: none
*/	*/
inline void	inline void
rpc_cli_freeVals(int args, rpc_val_t *vals)	rpc_cli_freeVals(int args, ait_val_t * __restrict vars)
{	{
register int i;	register int i;

if (!vals)	if (!vars)
return;	return;

for (i = 0; i < args; i++)	for (i = 0; i < args; i++)
RPC_FREE_VAL(&vals[i]);	AIT_FREE_VAL(&vars[i]);

free(vals);	free(vars);
vals = NULL;	vars = NULL;
}	}

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Removed from v.1.1.1.1.2.7
changed lines
	Added in v.1.4.2.1