libaitrpc/src/cli.c - diff

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Diff for /libaitrpc/src/cli.c between versions 1.3 and 1.5.2.3

version 1.3, 2011/08/18 15:08:03	version 1.5.2.3, 2011/09/07 09:22:15
Line 56 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;
	int n;

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 73 rpc_cli_openBLOBClient(rpc_cli_t * __restrict rpccli,	Line 78 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;
free(cli);	free(cli);
return NULL;	return NULL;
}	}
	n = cli->cli_netbuf;
	if (setsockopt(cli->cli_sock, SOL_SOCKET, SO_SNDBUF, &n, sizeof n) == -1) {
	LOGERR;
	close(cli->cli_sock);
	free(cli);
	return NULL;
	}
	if (setsockopt(cli->cli_sock, SOL_SOCKET, SO_RCVBUF, &n, sizeof n) == -1) {
	LOGERR;
	close(cli->cli_sock);
	free(cli);
	return NULL;
	}
if (connect(cli->cli_sock, &cli->cli_sa, sizeof cli->cli_sa) == -1) {	if (connect(cli->cli_sock, &cli->cli_sa, sizeof cli->cli_sa) == -1) {
LOGERR;	LOGERR;
	close(cli->cli_sock);
free(cli);	free(cli);
return NULL;	return NULL;
}	}
Line 124 rpc_cli_closeBLOBClient(rpc_cli_t * __restrict cli)	Line 150 rpc_cli_closeBLOBClient(rpc_cli_t * __restrict cli)
* rpc_cli_openClient() Connect to RPC Server	* rpc_cli_openClient() Connect to RPC Server
* @ProgID = ProgramID for RPC session request	* @ProgID = ProgramID for RPC session request
* @ProcID = ProcessID for RPC session request	* @ProcID = ProcessID for RPC session request
	* @netBuf = Network buffer length, if =0 == BUFSIZ (also meaning max RPC packet)
* @family = Family socket type, AF_INET or AF_INET6	* @family = Family socket type, AF_INET or AF_INET6
* @csHost = Host name or IP address for bind server	* @csHost = Host name or IP address for bind server
* @Port = Port for bind server, if Port == 0 default port is selected	* @Port = Port for bind server, if Port == 0 default port is selected
* return: NULL == error or !=NULL connection to RPC server established	* return: NULL == error or !=NULL connection to RPC server established
*/	*/
rpc_cli_t *	rpc_cli_t *
rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short family, const char *csHost, u_short Port)	rpc_cli_openClient(u_int ProgID, u_int ProcID, int netBuf, u_short family, const char *csHost, u_short Port)
{	{
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;
	int n;

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 (!netBuf)
	netBuf = BUFSIZ;
	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 178 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short	Line 213 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short
return NULL;	return NULL;
} else	} else
memset(cli, 0, sizeof(rpc_cli_t));	memset(cli, 0, sizeof(rpc_cli_t));

	cli->cli_netbuf = netBuf;
cli->cli_parent = malloc(sizeof(rpc_sess_t));	cli->cli_parent = malloc(sizeof(rpc_sess_t));
if (!cli->cli_parent) {	if (!cli->cli_parent) {
LOGERR;	LOGERR;
Line 189 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short	Line 226 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 200 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short	Line 246 rpc_cli_openClient(u_int ProgID, u_int ProcID, u_short
free(cli);	free(cli);
return NULL;	return NULL;
}	}
	n = cli->cli_netbuf;
	if (setsockopt(cli->cli_sock, SOL_SOCKET, SO_SNDBUF, &n, sizeof n) == -1) {
	LOGERR;
	close(cli->cli_sock);
	free(cli->cli_parent);
	free(cli);
	return NULL;
	}
	if (setsockopt(cli->cli_sock, SOL_SOCKET, SO_RCVBUF, &n, sizeof n) == -1) {
	LOGERR;
	close(cli->cli_sock);
	free(cli->cli_parent);
	free(cli);
	return NULL;
	}
if (connect(cli->cli_sock, &cli->cli_sa, sizeof cli->cli_sa) == -1) {	if (connect(cli->cli_sock, &cli->cli_sa, sizeof cli->cli_sa) == -1) {
LOGERR;	LOGERR;
	close(cli->cli_sock);
free(cli->cli_parent);	free(cli->cli_parent);
free(cli);	free(cli);
return NULL;	return NULL;
Line 238 rpc_cli_closeClient(rpc_cli_t * __restrict cli)	Line 300 rpc_cli_closeClient(rpc_cli_t * __restrict cli)
* @cli = RPC Client session	* @cli = RPC Client session
* @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_vars = IN RPC call array of rpc values
* @in_vals = IN RPC call array of rpc values	* @out_vars = OUT returned array of rpc values, must be free after use with rpc_cli_freeVals()
* @out_argc = OUT returned count of arguments
* @out_vals = 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,
rpc_val_t * __restrict in_vals, int out_argc, rpc_val_t * __restrict out_vals)	array_t * __restrict in_vars, array_t ** __restrict out_vars)
{	{
fd_set fds;	fd_set fds;
u_char buf[BUFSIZ], str[MAXPATHLEN + UCHAR_MAX + 1], *data;	u_char *buf, str[MAXPATHLEN + UCHAR_MAX + 1];
struct tagRPCCall rpc = (struct tagRPCCall) buf;	struct tagRPCCall *rpc;
struct tagRPCRet *rrpc = NULL;	struct tagRPCRet *rrpc = NULL;
int ret = 0, Limit = 0;	int ret = 0, Limit = 0;
register int i;
rpc_val_t *v;
struct timeval tv = { DEF_RPC_TIMEOUT, 0 };	struct timeval tv = { DEF_RPC_TIMEOUT, 0 };
	uint16_t tag;
	uint32_t hash;

FD_ZERO(&fds);	if (!cli \|\| !csFunc) {
memset(buf, 0, BUFSIZ);
memset(str, 0, MAXPATHLEN + UCHAR_MAX + 1);
if (!cli \|\| !csFunc \|\| (in_argc && !in_vals)) {
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;
}	}
	if (out_vars)
	*out_vars = NULL;

	buf = malloc(cli->cli_netbuf);
	if (!buf) {
	LOGERR;
	return -1;
	} else
	memset(buf, 0, cli->cli_netbuf);

	/* build RPC call string for hash */
	memset(str, 0, sizeof str);
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);

memcpy(&rpc->call_session, cli->cli_parent, sizeof rpc->call_session);	/* prepare RPC call */
rpc->call_argc = in_argc;	rpc = (struct tagRPCCall*) buf;
rpc->call_tag = crcFletcher16((u_short*) str, (MAXPATHLEN + UCHAR_MAX + 1) / 2);	rpc_addPktSession(&rpc->call_session, cli->cli_parent);
rpc->call_hash = hash_fnv((char*) str, MAXPATHLEN + UCHAR_MAX + 1);	rpc->call_argc = htons(in_vars ? io_arraySize(in_vars) : 0);
	rpc->call_tag = tag = htons(crcFletcher16((u_short*) str, sizeof str / 2));
	rpc->call_hash = hash = htonl(hash_fnv((char*) str, sizeof str));
Limit = sizeof(struct tagRPCCall);	Limit = sizeof(struct tagRPCCall);
if (in_argc) {
v = (rpc_val_t*) (buf + sizeof(struct tagRPCCall));	if (in_vars && io_arraySize(in_vars)) {
if (in_argc * sizeof(rpc_val_t) > BUFSIZ - Limit) {	/* marshaling variables */
rpc_SetErr(EMSGSIZE, "Error:: in prepare RPC packet values (-7) ...\n");	ret = io_vals2buffer(buf + Limit, cli->cli_netbuf - Limit, in_vars);
	if (ret == -1) {
	rpc_SetErr(EBADRPC, "Error:: in prepare RPC packet values (-7) ...\n");
	free(buf);
return -7;	return -7;
} else	} else
Limit += in_argc * sizeof(rpc_val_t);	Limit += ret;
memcpy(v, in_vals, in_argc * sizeof(rpc_val_t));
data = (u_char) v + in_argc sizeof(rpc_val_t);
for (i = 0; i < in_argc; i++) {
switch (in_vals[i].val_type) {
case buffer:
if (Limit + in_vals[i].val_len > BUFSIZ) {
ret = -7;
break;
}

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

memcpy(data, in_vals[i].val.string, in_vals[i].val_len);
v[i].val.string = (int8_t) ((void) data - (void*) v);
data += in_vals[i].val_len;
Limit += in_vals[i].val_len;
break;
default:
break;
}
}
if (ret < 0) {
rpc_SetErr(EMSGSIZE, "Error:: in prepare RPC packet (-7) ...\n");
return ret;
}
}	}

if ((ret = send(cli->cli_sock, buf, Limit, 0)) == -1) {	if ((ret = send(cli->cli_sock, buf, Limit, 0)) == -1) {
LOGERR;	LOGERR;
	free(buf);
return -1;	return -1;
}	}
if (ret != Limit) {	if (ret != Limit) {
rpc_SetErr(ECANCELED, "Error:: in send RPC request, should be send %d bytes, really is %d\n",	rpc_SetErr(EPROCUNAVAIL, "Error:: in send RPC request, should be send %d bytes, really is %d\n",
Limit, ret);	Limit, ret);
	free(buf);
return -9;	return -9;
}	}

	/* reply from RPC server */
	FD_ZERO(&fds);
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");

	free(buf);
return -1;	return -1;
}	}
memset(buf, 0, BUFSIZ);	memset(buf, 0, cli->cli_netbuf);
if ((ret = recv(cli->cli_sock, buf, BUFSIZ, 0)) == -1) {	if ((ret = recv(cli->cli_sock, buf, cli->cli_netbuf, 0)) == -1) {
LOGERR;	LOGERR;
	free(buf);
return -3;	return -3;
}	}
if (!ret) /* receive EOF! */	if (!ret) { /* receive EOF! */
	free(buf);
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(ERPCMISMATCH, "Error:: too short RPC packet ...\n");
	free(buf);
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 (rpc_chkPktSession(&rrpc->ret_session, cli->cli_parent)) {
rpc_SetErr(EINVAL, "Error:: get invalid RPC session ...\n");	rpc_SetErr(ERPCMISMATCH, "Error:: get invalid RPC session ...\n");
	free(buf);
return -5;	return -5;
} else	} else
Limit = sizeof(struct tagRPCRet);	Limit = sizeof(struct tagRPCRet);
if (rrpc->ret_retcode < 0 && rrpc->ret_errno) {	if (rrpc->ret_tag != tag \|\| rrpc->ret_hash != hash) {
rpc_SetErr(rrpc->ret_errno, "Error::Server side: %d %s\n",	printf("tag=%x/%x hash=%x/%x\n", rrpc->ret_tag, tag, rrpc->ret_hash, hash);
rrpc->ret_retcode, strerror(rrpc->ret_errno));	rpc_SetErr(ERPCMISMATCH, "Error:: get wrong RPC reply ...\n");
	free(buf);
	return -5;
	}
	if (ntohl(rrpc->ret_retcode) < 0 && ntohl(rrpc->ret_errno)) {
	rpc_SetErr(ntohl(rrpc->ret_errno), "Error::Server side: retcode=%d #%d %s\n",
	ntohl(rrpc->ret_retcode), ntohl(rrpc->ret_errno),
	strerror(ntohl(rrpc->ret_errno)));
	free(buf);
return -6;	return -6;
}	}
if (rrpc->ret_argc * sizeof(rpc_val_t) > BUFSIZ - Limit) {	if (ntohs(rrpc->ret_argc) * sizeof(ait_val_t) > cli->cli_netbuf - Limit) {
rpc_SetErr(EMSGSIZE, "Error:: reply RPC packet is too big ...\n");	rpc_SetErr(EMSGSIZE, "Error:: reply RPC packet is too long ...\n");
	free(buf);
return -7;	return -7;
} else	}
Limit += rrpc->ret_argc * sizeof(rpc_val_t);
/* RPC is OK! Go decapsulate variables ... */
if (rrpc->ret_argc) {
*out_argc = rrpc->ret_argc;
*out_vals = calloc(rrpc->ret_argc, sizeof(rpc_val_t));
if (!*out_vals) {
LOGERR;
*out_argc = 0;
return -1;
} else
memcpy(*out_vals, buf + sizeof(struct tagRPCRet), Limit - sizeof(struct tagRPCRet));
/* RPC received variables types OK! */
data = (u_char*) buf + Limit;
for (i = 0; i < rrpc->ret_argc; i++)
switch ((*out_vals)[i].val_type) {
case buffer:
if ((*out_vals)[i].val_len > BUFSIZ - Limit) {
rpc_SetErr(EMSGSIZE, "Error:: Too big RPC packet ...\n");
free(*out_vals);
*out_vals = NULL;
*out_argc = 0;
return -7;
} else
Limit += (*out_vals)[i].val_len;

(out_vals)[i].val.buffer = malloc((out_vals)[i].val_len);	/* RPC is OK! Go de-marshaling variables ... */
if (!(*out_vals)[i].val.buffer) {	if (ntohs(rrpc->ret_argc)) {
rpc_SetErr(errno, "Error:: in prepare RPC reply ...\n");	*out_vars = io_buffer2vals(buf + Limit, cli->cli_netbuf - Limit,
free(*out_vals);	ntohs(rrpc->ret_argc), 0);
*out_vals = NULL;	if (!*out_vars) {
*out_argc = 0;	free(buf);
return -1;	return -1;
} else	}
memcpy((out_vals)[i].val.buffer, data, (out_vals)[i].val_len);
data += (*out_vals)[i].val_len;
break;
case string:
if ((*out_vals)[i].val_len > BUFSIZ - Limit) {
rpc_SetErr(EMSGSIZE, "Error:: Too big RPC packet ...\n");
free(*out_vals);
*out_vals = NULL;
*out_argc = 0;
return -7;
} else
Limit += (*out_vals)[i].val_len;

(out_vals)[i].val.string = malloc((out_vals)[i].val_len);
if (!(*out_vals)[i].val.string) {
rpc_SetErr(errno, "Error:: in prepare RPC reply ...\n");
free(*out_vals);
*out_vals = NULL;
*out_argc = 0;
return -1;
} else
memcpy((out_vals)[i].val.string, data, (out_vals)[i].val_len);
data += (*out_vals)[i].val_len;
break;
default:
break;
}
} else {
if (out_argc)
*out_argc = 0;
if (out_vals)
*out_vals = NULL;
}	}

return rrpc->ret_retcode;	ret = ntohl(rrpc->ret_retcode);
	free(buf);
	return ret;
}	}

/*	/*
* 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	* @vars = Variable array
* @vals = Value elements
* return: none	* return: none
*/	*/
inline void	inline void
rpc_cli_freeVals(int args, rpc_val_t *vals)	rpc_cli_freeVals(array_t ** __restrict vars)
{	{
register int i;	register int i;

if (!vals)	if (!vars \|\| !*vars)
return;	return;

for (i = 0; i < args; i++)	for (i = 0; i < io_arraySize(*vars); i++)
RPC_FREE_VAL(&vals[i]);	if (io_arrayGet(*vars, i))
	AIT_FREE_VAL(io_array(vars, i, ait_val_t));

free(vals);	io_arrayFree(*vars);
vals = NULL;	io_arrayDestroy(vars);
	}

	/*
	* rpc_cli_allocVals() Allocate ait_val_t array for RPC call
	* @args = Number of arguments
	* return: =NULL error or !=NULL allocated array
	*/
	inline array_t *
	rpc_cli_allocVals(u_short args)
	{
	array_t *arr;
	register int i;
	ait_val_t *v;

	if (!args)
	return NULL;

	if (!(arr = io_arrayInit(args)))
	return NULL;

	for (i = 0; i < io_arraySize(arr); i++) {
	v = malloc(sizeof(ait_val_t));
	if (!v) {
	LOGERR;
	rpc_cli_freeVals(&arr);
	return NULL;
	} else {
	memset(v, 0, sizeof(ait_val_t));
	io_arraySet(arr, i, v);
	}
	}

	return arr;
}	}

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Removed from v.1.3
changed lines
	Added in v.1.5.2.3