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|
/*
* @licence app begin@
* SPDX license identifier: MPL-2.0
*
* Copyright (C) 2011-2015, BMW AG
*
* This file is part of GENIVI Project DLT - Diagnostic Log and Trace.
*
* This Source Code Form is subject to the terms of the
* Mozilla Public License (MPL), v. 2.0.
* If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/.
*
* For further information see http://www.genivi.org/.
* @licence end@
*/
/*!
* \author Alexander Wenzel <alexander.aw.wenzel@bmw.de>
*
* \copyright Copyright © 2011-2015 BMW AG. \n
* License MPL-2.0: Mozilla Public License version 2.0 http://mozilla.org/MPL/2.0/.
*
* \file dlt_client.c
*/
/*******************************************************************************
** **
** SRC-MODULE: dlt_client.c **
** **
** TARGET : linux **
** **
** PROJECT : DLT **
** **
** AUTHOR : Alexander Wenzel Alexander.AW.Wenzel@bmw.de **
** Markus Klein **
** **
** PURPOSE : **
** **
** REMARKS : **
** **
** PLATFORM DEPENDANT [yes/no]: yes **
** **
** TO BE CHANGED BY USER [yes/no]: no **
** **
*******************************************************************************/
/*******************************************************************************
** Author Identity **
********************************************************************************
** **
** Initials Name Company **
** -------- ------------------------- ---------------------------------- **
** aw Alexander Wenzel BMW **
** mk Markus Klein Fraunhofer ESK **
*******************************************************************************/
/*******************************************************************************
** Revision Control History **
*******************************************************************************/
/*
* $LastChangedRevision$
* $LastChangedDate$
* $LastChangedBy$
Initials Date Comment
aw 12.07.2010 initial
*/
#include <stdio.h>
#if defined (__WIN32__) || defined (_MSC_VER)
#pragma warning(disable : 4996) /* Switch off C4996 warnings */
#include <winsock2.h> /* for socket(), connect(), send(), and recv() */
#else
#include <sys/socket.h> /* for socket(), connect(), send(), and recv() */
#include <arpa/inet.h> /* for sockaddr_in and inet_addr() */
#include <netdb.h>
#include <sys/stat.h>
#include <sys/un.h>
#endif
#if defined(_MSC_VER)
#include <io.h>
#else
#include <unistd.h>
#include <syslog.h>
#endif
#include <fcntl.h>
#include <stdlib.h> /* for malloc(), free() */
#include <string.h> /* for strlen(), memcmp(), memmove() */
#include <errno.h>
#include <limits.h>
#include "dlt_types.h"
#include "dlt_client.h"
#include "dlt_client_cfg.h"
static int (*message_callback_function) (DltMessage *message, void *data) = NULL;
static char str[DLT_CLIENT_TEXTBUFSIZE];
void dlt_client_register_message_callback(int (*registerd_callback) (DltMessage *message, void *data)){
message_callback_function = registerd_callback;
}
DltReturnValue dlt_client_init_port(DltClient *client, int port, int verbose)
{
if (verbose && port != DLT_DAEMON_TCP_PORT)
{
dlt_vlog(LOG_INFO, "Init dlt client struct with port %d\n", port);
}
if (client == NULL)
{
return DLT_RETURN_ERROR;
}
client->sock=-1;
client->servIP=0;
client->serialDevice=0;
client->baudrate=DLT_CLIENT_INITIAL_BAUDRATE;
client->port = port;
client->socketPath = 0;
client->mode=DLT_CLIENT_MODE_TCP;
client->receiver.buffer=0;
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_init(DltClient *client, int verbose)
{
char *env_daemon_port;
int tmp_port;
/* the port may be specified by an environment variable, defaults to DLT_DAEMON_TCP_PORT */
unsigned short servPort = DLT_DAEMON_TCP_PORT;
/* the port may be specified by an environment variable */
env_daemon_port = getenv(DLT_CLIENT_ENV_DAEMON_TCP_PORT);
if (env_daemon_port != NULL)
{
tmp_port = atoi(env_daemon_port);
if ((tmp_port < IPPORT_RESERVED) || (tmp_port > USHRT_MAX))
{
dlt_vlog(LOG_ERR,
"Specified port is out of possible range: %d.\n",
tmp_port);
return DLT_RETURN_ERROR;
}
else
{
servPort = tmp_port;
}
}
if (verbose)
{
dlt_vlog(LOG_INFO,
"Init dlt client struct with default port: %hu.\n",
servPort);
}
return dlt_client_init_port(client, servPort, verbose);
}
DltReturnValue dlt_client_connect(DltClient *client, int verbose)
{
char portnumbuffer[33];
struct addrinfo hints, *servinfo, *p;
struct sockaddr_un addr;
int rv;
memset(&hints, 0, sizeof(hints));
hints.ai_socktype = SOCK_STREAM;
if (client==0)
{
return DLT_RETURN_ERROR;
}
switch (client->mode)
{
case DLT_CLIENT_MODE_TCP:
snprintf(portnumbuffer, 32, "%d", client->port);
if ((rv = getaddrinfo(client->servIP, portnumbuffer, &hints, &servinfo)) != 0) {
fprintf(stderr, "getaddrinfo: %s\n", gai_strerror(rv));
return DLT_RETURN_ERROR;
}
for(p = servinfo; p != NULL; p = p->ai_next) {
if ((client->sock = socket(p->ai_family, p->ai_socktype, p->ai_protocol)) < 0) {
snprintf(str, DLT_CLIENT_TEXTBUFSIZE,
"socket() failed! %s\n",
strerror(errno));
dlt_log(LOG_WARNING, str);
continue;
}
if (connect(client->sock, p->ai_addr, p->ai_addrlen) < 0) {
snprintf(str, DLT_CLIENT_TEXTBUFSIZE,
"connect() failed! %s\n",
strerror(errno));
close(client->sock);
dlt_log(LOG_WARNING, str);
continue;
}
break;
}
freeaddrinfo(servinfo);
if (p == NULL) {
dlt_log(LOG_ERR, "ERROR: failed to connect.\n");
return DLT_RETURN_ERROR;
}
if (verbose)
{
printf("Connected to DLT daemon (%s)\n",client->servIP);
}
break;
case DLT_CLIENT_MODE_SERIAL:
/* open serial connection */
client->sock=open(client->serialDevice,O_RDWR);
if (client->sock<0)
{
fprintf(stderr,"ERROR: Failed to open device %s\n", client->serialDevice);
return DLT_RETURN_ERROR;
}
if (isatty(client->sock))
{
#if !defined (__WIN32__)
if (dlt_setup_serial(client->sock,client->baudrate) < DLT_RETURN_OK)
{
fprintf(stderr,"ERROR: Failed to configure serial device %s (%s) \n", client->serialDevice, strerror(errno));
return DLT_RETURN_ERROR;
}
#else
return DLT_RETURN_ERROR;
#endif
}
else
{
if (verbose)
{
fprintf(stderr,"ERROR: Device is not a serial device, device = %s (%s) \n", client->serialDevice, strerror(errno));
}
return DLT_RETURN_ERROR;
}
if (verbose)
{
printf("Connected to %s\n", client->serialDevice);
}
break;
case DLT_CLIENT_MODE_UNIX:
if ((client->sock = socket(AF_UNIX, SOCK_STREAM, 0)) == -1)
{
fprintf(stderr, "ERROR: (unix) socket error: %s\n", strerror(errno));
return DLT_RETURN_ERROR;
}
memset(&addr, 0, sizeof(addr));
addr.sun_family = AF_UNIX;
memcpy(addr.sun_path, client->socketPath, sizeof(addr.sun_path)-1);
if (connect(client->sock,
(struct sockaddr_un *)&addr,
sizeof(addr)) == -1)
{
fprintf(stderr, "ERROR: (unix) connect error: %s\n", strerror(errno));
return DLT_RETURN_ERROR;
}
if (client->sock < 0)
{
fprintf(stderr,"ERROR: Failed to open device %s\n",
client->socketPath);
return DLT_RETURN_ERROR;
}
break;
default:
if (verbose)
{
fprintf(stderr, "ERROR: Mode not supported: %d\n", client->mode);
}
return DLT_RETURN_ERROR;
}
if (dlt_receiver_init(&(client->receiver),client->sock,DLT_CLIENT_RCVBUFSIZE) != DLT_RETURN_OK)
{
fprintf(stderr, "ERROR initializing receiver\n");
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_cleanup(DltClient *client, int verbose)
{
if (verbose)
{
printf("Cleanup dlt client\n");
}
if (client==0)
{
return DLT_RETURN_ERROR;
}
if (client->sock!=-1)
{
close(client->sock);
}
if (dlt_receiver_free(&(client->receiver)) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_main_loop(DltClient *client, void *data, int verbose)
{
DltMessage msg;
int ret;
if (client==0)
{
return DLT_RETURN_ERROR;
}
if (dlt_message_init(&msg,verbose) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
while (1)
{
if (client->mode==0)
{
/* wait for data from socket */
ret = dlt_receiver_receive_socket(&(client->receiver));
}
else
{
/* wait for data from serial connection */
ret = dlt_receiver_receive_fd(&(client->receiver));
}
if (ret<=0)
{
/* No more data to be received */
if (dlt_message_free(&msg,verbose) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
return DLT_RETURN_TRUE;
}
while (dlt_message_read(&msg,(unsigned char*)(client->receiver.buf),client->receiver.bytesRcvd,0,verbose) == DLT_MESSAGE_ERROR_OK)
{
/* Call callback function */
if (message_callback_function)
{
(*message_callback_function)(&msg,data);
}
if (msg.found_serialheader)
{
if (dlt_receiver_remove(&(client->receiver),msg.headersize+msg.datasize-sizeof(DltStorageHeader)+sizeof(dltSerialHeader)) == DLT_RETURN_ERROR)
{
/* Return value ignored */
dlt_message_free(&msg,verbose);
return DLT_RETURN_ERROR;
}
}
else
{
if (dlt_receiver_remove(&(client->receiver),msg.headersize+msg.datasize-sizeof(DltStorageHeader)) == DLT_RETURN_ERROR)
{
/* Return value ignored */
dlt_message_free(&msg,verbose);
return DLT_RETURN_ERROR;
}
}
}
if (dlt_receiver_move_to_begin(&(client->receiver)) == DLT_RETURN_ERROR)
{
/* Return value ignored */
dlt_message_free(&msg,verbose);
return DLT_RETURN_ERROR;
}
}
if (dlt_message_free(&msg,verbose) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_ctrl_msg(DltClient *client, char *apid, char *ctid, uint8_t *payload, uint32_t size)
{
DltMessage msg;
int ret;
int32_t len;
if ((client==0) || (client->sock<0) || (apid==0) || (ctid==0))
{
return DLT_RETURN_ERROR;
}
/* initialise new message */
if (dlt_message_init(&msg,0) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
/* prepare payload of data */
msg.datasize = size;
if (msg.databuffer && (msg.databuffersize < msg.datasize))
{
free(msg.databuffer);
msg.databuffer=0;
}
if (msg.databuffer == 0){
msg.databuffer = (uint8_t *) malloc(msg.datasize);
msg.databuffersize = msg.datasize;
}
if(msg.databuffer == 0)
{
dlt_message_free(&msg,0);
return DLT_RETURN_ERROR;
}
/* copy data */
memcpy(msg.databuffer,payload,size);
/* prepare storage header */
msg.storageheader = (DltStorageHeader*)msg.headerbuffer;
if (dlt_set_storageheader(msg.storageheader,"") == DLT_RETURN_ERROR)
{
dlt_message_free(&msg,0);
return DLT_RETURN_ERROR;
}
/* prepare standard header */
msg.standardheader = (DltStandardHeader*)(msg.headerbuffer + sizeof(DltStorageHeader));
msg.standardheader->htyp = DLT_HTYP_WEID | DLT_HTYP_WTMS | DLT_HTYP_UEH | DLT_HTYP_PROTOCOL_VERSION1 ;
#if (BYTE_ORDER==BIG_ENDIAN)
msg.standardheader->htyp = (msg.standardheader->htyp | DLT_HTYP_MSBF);
#endif
msg.standardheader->mcnt = 0;
/* Set header extra parameters */
dlt_set_id(msg.headerextra.ecu,client->ecuid);
//msg.headerextra.seid = 0;
msg.headerextra.tmsp = dlt_uptime();
/* Copy header extra parameters to headerbuffer */
if (dlt_message_set_extraparameters(&msg,0) == DLT_RETURN_ERROR)
{
dlt_message_free(&msg,0);
return DLT_RETURN_ERROR;
}
/* prepare extended header */
msg.extendedheader = (DltExtendedHeader*)(msg.headerbuffer +
sizeof(DltStorageHeader) +
sizeof(DltStandardHeader) +
DLT_STANDARD_HEADER_EXTRA_SIZE(msg.standardheader->htyp) );
msg.extendedheader->msin = DLT_MSIN_CONTROL_REQUEST;
msg.extendedheader->noar = 1; /* number of arguments */
dlt_set_id(msg.extendedheader->apid,(apid[0]=='\0')?DLT_CLIENT_DUMMY_APP_ID:apid);
dlt_set_id(msg.extendedheader->ctid,(ctid[0]=='\0')?DLT_CLIENT_DUMMY_CON_ID:ctid);
/* prepare length information */
msg.headersize = sizeof(DltStorageHeader) +
sizeof(DltStandardHeader) +
sizeof(DltExtendedHeader) +
DLT_STANDARD_HEADER_EXTRA_SIZE(msg.standardheader->htyp);
len=msg.headersize - sizeof(DltStorageHeader) + msg.datasize;
if (len>UINT16_MAX)
{
fprintf(stderr,"Critical: Huge injection message discarded!\n");
dlt_message_free(&msg,0);
return DLT_RETURN_ERROR;
}
msg.standardheader->len = DLT_HTOBE_16(len);
/* Send data (without storage header) */
if ((client->mode == DLT_CLIENT_MODE_TCP) || (client->mode == DLT_CLIENT_MODE_SERIAL))
{
/* via FileDescriptor */
ret=write(client->sock, msg.headerbuffer+sizeof(DltStorageHeader),msg.headersize-sizeof(DltStorageHeader));
if (0 > ret){
dlt_message_free(&msg,0);
return DLT_RETURN_ERROR;
}
ret=write(client->sock, msg.databuffer,msg.datasize);
if (0 > ret){
dlt_message_free(&msg,0);
return DLT_RETURN_ERROR;
}
}
else
{
/* via Socket */
send(client->sock, (const char *)(msg.headerbuffer+sizeof(DltStorageHeader)),msg.headersize-sizeof(DltStorageHeader),0);
send(client->sock, (const char *)msg.databuffer,msg.datasize,0);
}
/* free message */
if (dlt_message_free(&msg,0) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_inject_msg(DltClient *client, char *apid, char *ctid, uint32_t serviceID, uint8_t *buffer, uint32_t size)
{
uint8_t *payload;
int offset;
payload = (uint8_t *) malloc(sizeof(uint32_t) + sizeof(uint32_t) + size);
if(payload==0)
{
return DLT_RETURN_ERROR;
}
offset = 0;
memcpy(payload , &serviceID,sizeof(serviceID));
offset+=sizeof(uint32_t);
memcpy(payload+offset, &size, sizeof(size));
offset+=sizeof(uint32_t);
memcpy(payload+offset, buffer, size);
/* free message */
if (dlt_client_send_ctrl_msg(client,apid,ctid,payload,sizeof(uint32_t) + sizeof(uint32_t) + size) == DLT_RETURN_ERROR)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_log_level(DltClient *client, char *apid, char *ctid, uint8_t logLevel)
{
DltServiceSetLogLevel *req;
uint8_t *payload;
payload = (uint8_t *) malloc(sizeof(DltServiceSetLogLevel));
if(payload==0)
{
return DLT_RETURN_ERROR;
}
req = (DltServiceSetLogLevel *) payload;
req->service_id = DLT_SERVICE_ID_SET_LOG_LEVEL;
dlt_set_id(req->apid,apid);
dlt_set_id(req->ctid,ctid);
req->log_level=logLevel;
dlt_set_id(req->com,"remo");
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",payload,sizeof(DltServiceSetLogLevel)) == DLT_RETURN_ERROR)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
int dlt_client_get_log_info(DltClient *client)
{
DltServiceGetLogInfoRequest *req;
uint8_t *payload;
int ret_main_loop = 0;
int ret = -1;
if (client == NULL)
{
return ret;
}
payload = (uint8_t *) malloc(sizeof(DltServiceGetLogInfoRequest));
if (payload == 0)
{
return ret;
}
req = (DltServiceGetLogInfoRequest *) payload;
req->service_id = DLT_SERVICE_ID_GET_LOG_INFO;
req->options = 7;
dlt_set_id(req->apid, "");
dlt_set_id(req->ctid, "");
dlt_set_id(req->com, "remo");
/* send control message to daemon*/
ret = dlt_client_send_ctrl_msg(client, "", "", payload, sizeof(DltServiceGetLogInfoRequest));
free(payload);
if (ret == -1)
{
return -1;
}
ret_main_loop = dlt_client_main_loop(client, NULL, 0);
if (ret_main_loop == 1)
{
printf("DLT-daemon's response is invalid.\n");
}
return 0;
}
DltReturnValue dlt_client_send_trace_status(DltClient *client, char *apid, char *ctid, uint8_t traceStatus)
{
DltServiceSetLogLevel *req;
uint8_t *payload;
payload = (uint8_t *) malloc(sizeof(DltServiceSetLogLevel));
if(payload==0)
{
return DLT_RETURN_ERROR;
}
req = (DltServiceSetLogLevel *) payload;
req->service_id = DLT_SERVICE_ID_SET_TRACE_STATUS;
dlt_set_id(req->apid,apid);
dlt_set_id(req->ctid,ctid);
req->log_level=traceStatus;
dlt_set_id(req->com,"remo");
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",payload,sizeof(DltServiceSetLogLevel)) == DLT_RETURN_ERROR)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_default_log_level(DltClient *client, uint8_t defaultLogLevel)
{
DltServiceSetDefaultLogLevel *req;
uint8_t *payload;
payload = (uint8_t *) malloc(sizeof(DltServiceSetDefaultLogLevel));
if(payload==0)
{
return DLT_RETURN_ERROR;
}
req = (DltServiceSetDefaultLogLevel *) payload;
req->service_id = DLT_SERVICE_ID_SET_DEFAULT_LOG_LEVEL;
req->log_level=defaultLogLevel;
dlt_set_id(req->com,"remo");
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",payload,sizeof(DltServiceSetDefaultLogLevel)) == DLT_RETURN_ERROR)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_all_log_level(DltClient *client, uint8_t LogLevel)
{
DltServiceSetDefaultLogLevel *req;
uint8_t *payload;
payload = (uint8_t *) malloc(sizeof(DltServiceSetDefaultLogLevel));
if (payload == 0)
{
return DLT_RETURN_ERROR;
}
req = (DltServiceSetDefaultLogLevel *) payload;
req->service_id = DLT_SERVICE_ID_SET_ALL_LOG_LEVEL;
req->log_level = LogLevel;
dlt_set_id(req->com, "remo");
/* free message */
if (dlt_client_send_ctrl_msg(client, "APP", "CON", payload, sizeof(DltServiceSetDefaultLogLevel)) == -1)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_default_trace_status(DltClient *client, uint8_t defaultTraceStatus)
{
DltServiceSetDefaultLogLevel *req;
uint8_t *payload;
payload = (uint8_t *) malloc(sizeof(DltServiceSetDefaultLogLevel));
if(payload==0)
{
return DLT_RETURN_ERROR;
}
req = (DltServiceSetDefaultLogLevel *) payload;
req->service_id = DLT_SERVICE_ID_SET_DEFAULT_TRACE_STATUS;
req->log_level=defaultTraceStatus;
dlt_set_id(req->com,"remo");
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",payload,sizeof(DltServiceSetDefaultLogLevel)) == DLT_RETURN_ERROR)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_all_trace_status(DltClient *client, uint8_t traceStatus)
{
DltServiceSetDefaultLogLevel *req;
uint8_t *payload;
if (client == NULL)
{
dlt_vlog(LOG_ERR, "%s: Invalid parameters\n", __func__);
return DLT_RETURN_ERROR;
}
payload = (uint8_t *) malloc(sizeof(DltServiceSetDefaultLogLevel));
if (payload == 0)
{
dlt_vlog(LOG_ERR, "%s: Could not allocate memory %d\n", __func__, sizeof(DltServiceSetDefaultLogLevel));
return DLT_RETURN_ERROR;
}
req = (DltServiceSetDefaultLogLevel *) payload;
req->service_id = DLT_SERVICE_ID_SET_ALL_TRACE_STATUS;
req->log_level = traceStatus;
dlt_set_id(req->com, "remo");
/* free message */
if (dlt_client_send_ctrl_msg(client, "APP", "CON", payload, sizeof(DltServiceSetDefaultLogLevel)) == -1)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_timing_pakets(DltClient *client, uint8_t timingPakets)
{
DltServiceSetVerboseMode *req;
uint8_t *payload;
payload = (uint8_t *) malloc(sizeof(DltServiceSetVerboseMode));
if(payload==0)
{
return DLT_RETURN_ERROR;
}
req = (DltServiceSetVerboseMode *) payload;
req->service_id = DLT_SERVICE_ID_SET_TIMING_PACKETS;
req->new_status=timingPakets;
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",payload,sizeof(DltServiceSetVerboseMode)) == DLT_RETURN_ERROR)
{
free(payload);
return DLT_RETURN_ERROR;
}
free(payload);
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_store_config(DltClient *client)
{
uint32_t service_id;
service_id = DLT_SERVICE_ID_STORE_CONFIG;
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",(uint8_t*)&service_id,sizeof(uint32_t)) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_send_reset_to_factory_default(DltClient *client)
{
uint32_t service_id;
service_id = DLT_SERVICE_ID_RESET_TO_FACTORY_DEFAULT;
/* free message */
if (dlt_client_send_ctrl_msg(client,"APP","CON",(uint8_t*)&service_id,sizeof(uint32_t)) == DLT_RETURN_ERROR)
{
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
DltReturnValue dlt_client_setbaudrate(DltClient *client, int baudrate)
{
if (client==0)
{
return DLT_RETURN_ERROR;
}
client->baudrate = dlt_convert_serial_speed(baudrate);
return DLT_RETURN_OK;
}
int dlt_client_set_server_ip(DltClient *client, char *ipaddr)
{
client->servIP = strdup(ipaddr);
if (client->servIP == NULL)
{
dlt_log(LOG_ERR, "ERROR: failed to duplicate server IP\n");
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
int dlt_client_set_serial_device(DltClient *client, char *serial_device)
{
client->serialDevice = strdup(serial_device);
if (client->serialDevice == NULL)
{
dlt_log(LOG_ERR, "ERROR: failed to duplicate serial device\n");
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
int dlt_client_set_socket_path(DltClient *client, char *socket_path)
{
client->socketPath = strdup(socket_path);
if (client->socketPath == NULL)
{
dlt_log(LOG_ERR, "ERROR: failed to duplicate socket path\n");
return DLT_RETURN_ERROR;
}
return DLT_RETURN_OK;
}
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