Tool/software: Code Composer Studio
I have already hard coded demo code but i am not able to do the same with using traffic demo. I have done all the process which i did when i hard coded demo code but i am not getting output on uart after doing below process. How would i know that my board is hard coded without seeing output? I have tried using ti-cgt-c6000_8.1.3 & ti-cgt-c6000_7.4.16 compile version.
Here is my file
0116.cli.c
.
/*
* @file cli.c
*
* @brief
* CLI Utility implementation
*
* \par
* NOTE:
* (C) Copyright 2016 Texas Instruments, Inc.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* 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.
*
* Neither the name of Texas Instruments Incorporated 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 THE COPYRIGHT HOLDERS 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 COPYRIGHT
* OWNER 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 Files ********************************
**************************************************************************/
/* Standard Include Files. */
#include <stdint.h>
#include <stdlib.h>
#include <stddef.h>
#include <string.h>
#include <stdio.h>
/* BIOS/XDC Include Files. */
#include <xdc/std.h>
#include <ti/sysbios/knl/Task.h>
/* mmWave SDK Include Files: */
#include <ti/common/sys_common.h>
#include <ti/drivers/uart/UART.h>
#include <ti/utils/cli/cli.h>
#include <ti/utils/cli/include/cli_internal.h>
/**************************************************************************
*************************** Hard-coded Configuation **********************
**************************************************************************/
#define USE_HARD_CODED_CONFIG
#ifdef USE_HARD_CODED_CONFIG
int32_t hardCodedConfigIndex;
char * hardCodedConfigCommands[] =
{
"% ***************************************************************"
"% Created for SDK ver:02.00",
"% Platform:xWR16xx",
"%Max Range (m):184.9638"
"%Max Velocity (m/s):18.0674"
"%Range resolution(m):0.8028"
"%Velocity resolution(m/s):0.3062"
"%Start Frequency (Ghz):76"
"%Slope (MHz/us):4.0070"
"%Samples per chirp:256"
"%Chirps per frame:118"
"%Frame duration(ms):50"
"%Sampling rate(Msps):5.4900"
"%Bandwidth:(GHz):0.1868"
"%Number of Rx (MIMO):4"
"%Number of Tx (MIMO):1"
"%Nfft_doppler:118"
"%Nfft_range:256"
"%Static clutter removal:disabled",
"% ***************************************************************",
"sensorStop"
"sensorStop"
"flushCfg"
"dfeDataOutputMode 1"
"channelCfg 15 1 0"
"adcCfg 2 1"
"adcbufCfg 0 1 1 1 "
"profileCfg 0 76 2 5 52.62 0 0 4.007 1 256 5490 0 0 48"
"chirpCfg 0 0 0 0 0 0 0 1"
"frameCfg 0 0 118 0 50 1 0"
"lowPower 0 1"
"guiMonitor 1 0 0 0"
"cfarCfg 4 12 2 16 8 4 0 63 63 0 1"
"doaCfg 3 0 1047 3 600 10 100"
"trackingCfg 1 1 250 20 189 330 50 90"
"%for 18xx board SN4855900006 "
"compRangeBiasAndRxChanPhase -0.0438848 0.12320 -0.62793 0.08932 -0.50342 -0.03458 -0.58853 0.06812 -0.69101 -0.79391 -0.60803 -0.63580 -0.45255 -0.70901 -0.26627 -0.73044 -0.46078"
"sensorStart"
"!!!END_OF_HARD_CODED_COMMANDS"
};
#endif
/**************************************************************************
*************************** Global Variables *****************************
**************************************************************************/
/**
* @brief Global variable which tracks the CLI MCB
*/
CLI_MCB gCLI;
/**************************************************************************
**************************** CLI Functions *******************************
**************************************************************************/
/**
* @b Description
* @n
* The function is the HELP generated by the CLI Module
*
* \ingroup CLI_UTIL_INTERNAL_FUNCTION
*
* @retval
* Not Applicable.
*/
static int32_t CLI_help (int32_t argc, char* argv[])
{
uint32_t index;
/* Display the banner: */
CLI_write ("Help: This will display the usage of the CLI commands\n");
CLI_write ("Command: Help Description\n");
/* Cycle through all the registered CLI commands: */
for (index = 0; index < gCLI.numCLICommands; index++)
{
/* Display the help string*/
CLI_write ("%s: %s\n",
gCLI.cfg.tableEntry[index].cmd,
(gCLI.cfg.tableEntry[index].helpString == NULL) ?
"No help available" :
gCLI.cfg.tableEntry[index].helpString);
}
/* Is the mmWave Extension enabled? */
if (gCLI.cfg.enableMMWaveExtension == 1U)
{
/* YES: Pass the control to the extension help handler. */
CLI_MMWaveExtensionHelp ();
}
return 0;
}
/**
* @b Description
* @n
* This is the CLI Execution Task
*
* \ingroup CLI_UTIL_INTERNAL_FUNCTION
*
* @retval
* Not Applicable.
*/
static void CLI_task(UArg arg0, UArg arg1)
{
uint8_t cmdString[256];
char* tokenizedArgs[CLI_MAX_ARGS];
char* ptrCLICommand;
char delimitter[] = " \r\n";
uint32_t argIndex;
CLI_CmdTableEntry* ptrCLICommandEntry;
int32_t cliStatus;
uint32_t index;
/* Do we have a banner to be displayed? */
if (gCLI.cfg.cliBanner != NULL)
{
/* YES: Display the banner */
CLI_write (gCLI.cfg.cliBanner);
}
#ifdef USE_HARD_CODED_CONFIG
hardCodedConfigIndex = 0;
CLI_write ("Wait some time for system to initialize...\n");
Task_sleep(100);
CLI_write ("Performing hard-coded config\n");
#endif
/* Loop around forever: */
while (1)
{
/* Demo Prompt: */
CLI_write (gCLI.cfg.cliPrompt);
/* Reset the command string: */
memset ((void *)&cmdString[0], 0, sizeof(cmdString));
#ifdef USE_HARD_CODED_CONFIG
/* Run hard-coded commands, one at a time until '!!!END_OF_HARD_CODED_COMMANDS' is reached: */
if (hardCodedConfigCommands[hardCodedConfigIndex][0] != '!')
{
//CLI_write (hardCodedConfigCommands[hardCodedConfigIndex]);
CLI_write ("Command\n");
memcpy((void *)&cmdString[0], (void *)hardCodedConfigCommands[hardCodedConfigIndex], strlen(hardCodedConfigCommands[hardCodedConfigIndex]));
hardCodedConfigIndex++;
}
/* Accept commands from UART after all hard-coded commands done: */
else
{
/* Read the command message from the UART: */
UART_read (gCLI.cfg.cliUartHandle, &cmdString[0], (sizeof(cmdString) - 1));
}
#else
/* Read the command message from the UART: */
UART_read (gCLI.cfg.cliUartHandle, &cmdString[0], (sizeof(cmdString) - 1));
#endif
/* Reset all the tokenized arguments: */
memset ((void *)&tokenizedArgs, 0, sizeof(tokenizedArgs));
argIndex = 0;
ptrCLICommand = (char*)&cmdString[0];
/* comment lines found - ignore the whole line*/
if (cmdString[0]=='%') {
CLI_write ("Skipped\n");
continue;
}
/* Set the CLI status: */
cliStatus = -1;
/* The command has been entered we now tokenize the command message */
while (1)
{
/* Tokenize the arguments: */
tokenizedArgs[argIndex] = strtok(ptrCLICommand, delimitter);
if (tokenizedArgs[argIndex] == NULL)
break;
/* Increment the argument index: */
argIndex++;
if (argIndex >= CLI_MAX_ARGS)
break;
/* Reset the command string */
ptrCLICommand = NULL;
}
/* Were we able to tokenize the CLI command? */
if (argIndex == 0)
continue;
/* Cycle through all the registered CLI commands: */
for (index = 0; index < gCLI.numCLICommands; index++)
{
ptrCLICommandEntry = &gCLI.cfg.tableEntry[index];
/* Do we have a match? */
if (strcmp(ptrCLICommandEntry->cmd, tokenizedArgs[0]) == 0)
{
/* YES: Pass this to the CLI registered function */
cliStatus = ptrCLICommandEntry->cmdHandlerFxn (argIndex, tokenizedArgs);
if (cliStatus == 0)
{
CLI_write ("Done\n");
}
else
{
CLI_write ("Error %d\n", cliStatus);
}
break;
}
}
/* Did we get a matching CLI command? */
if (index == gCLI.numCLICommands)
{
/* NO matching command found. Is the mmWave extension enabled? */
if (gCLI.cfg.enableMMWaveExtension == 1U)
{
/* Yes: Pass this to the mmWave extension handler */
cliStatus = CLI_MMWaveExtensionHandler (argIndex, tokenizedArgs);
}
/* Was the CLI command found? */
if (cliStatus == -1)
{
/* No: The command was still not found */
CLI_write ("'%s' is not recognized as a CLI command\n", tokenizedArgs[0]);
}
}
}
}
/**
* @b Description
* @n
* Logging function which can log the messages to the CLI console
*
* @param[in] format
* Format string
*
* \ingroup CLI_UTIL_EXTERNAL_FUNCTION
*
* @retval
* Not Applicable.
*/
void CLI_write (const char* format, ...)
{
va_list arg;
char logMessage[256];
int32_t sizeMessage;
/* Format the message: */
va_start (arg, format);
sizeMessage = vsnprintf (&logMessage[0], sizeof(logMessage), format, arg);
va_end (arg);
/* Log the message on the UART CLI console: */
if (gCLI.cfg.usePolledMode == true)
{
/* Polled mode: */
UART_writePolling (gCLI.cfg.cliUartHandle, (uint8_t*)&logMessage[0], sizeMessage);
}
else
{
/* Blocking Mode: */
UART_write (gCLI.cfg.cliUartHandle, (uint8_t*)&logMessage[0], sizeMessage);
}
}
/**
* @b Description
* @n
* This is the function which is used to initialize and setup the CLI
*
* @param[in] ptrCLICfg
* Pointer to the CLI configuration
*
* \ingroup CLI_UTIL_EXTERNAL_FUNCTION
*
* @retval
* Success - 0
* @retval
* Error - <0
*/
int32_t CLI_open (CLI_Cfg* ptrCLICfg)
{
Task_Params taskParams;
uint32_t index;
/* Sanity Check: Validate the arguments */
if (ptrCLICfg == NULL)
return -1;
/* Initialize the CLI MCB: */
memset ((void*)&gCLI, 0, sizeof(CLI_MCB));
/* Copy over the configuration: */
memcpy ((void *)&gCLI.cfg, (void *)ptrCLICfg, sizeof(CLI_Cfg));
/* Cycle through and determine the number of supported CLI commands: */
for (index = 0; index < CLI_MAX_CMD; index++)
{
/* Do we have a valid entry? */
if (gCLI.cfg.tableEntry[index].cmd == NULL)
{
/* NO: This is the last entry */
break;
}
else
{
/* YES: Increment the number of CLI commands */
gCLI.numCLICommands = gCLI.numCLICommands + 1;
}
}
/* Is the mmWave Extension enabled? */
if (gCLI.cfg.enableMMWaveExtension == 1U)
{
/* YES: Initialize the CLI Extension: */
if (CLI_MMWaveExtensionInit (ptrCLICfg) < 0)
return -1;
}
/* Do we have a CLI Prompt specified? */
if (gCLI.cfg.cliPrompt == NULL)
gCLI.cfg.cliPrompt = "CLI:/>";
/* The CLI provides a help command by default:
* - Since we are adding this at the end of the table; a user of this module can also
* override this to provide its own implementation. */
gCLI.cfg.tableEntry[gCLI.numCLICommands].cmd = "help";
gCLI.cfg.tableEntry[gCLI.numCLICommands].helpString = NULL;
gCLI.cfg.tableEntry[gCLI.numCLICommands].cmdHandlerFxn = CLI_help;
/* Increment the number of CLI commands: */
gCLI.numCLICommands++;
/* Initialize the task parameters and launch the CLI Task: */
Task_Params_init(&taskParams);
taskParams.priority = gCLI.cfg.taskPriority;
taskParams.stackSize = 4*1024;
gCLI.cliTaskHandle = Task_create(CLI_task, &taskParams, NULL);
return 0;
}
/**
* @b Description
* @n
* This is the function which is used to close the CLI module
*
* \ingroup CLI_UTIL_EXTERNAL_FUNCTION
*
* @retval
* Success - 0
* @retval
* Error - <0
*/
int32_t CLI_close (void)
{
/* Shutdown the CLI Task */
Task_delete(&gCLI.cliTaskHandle);
/* Cleanup the memory */
memset ((void*)&gCLI, 0, sizeof(CLI_MCB));
return 0;
}
I did below process after replacing cli.c file with mmw_tm_demo_longRange parameter. I did same with using mmw_tm_demo_ph2.cfg parameter also.
1. Rename/backup existing cli.c source file in mmwave_sdk_02_00_00_04\\packages\ti\utils\cli\src directory
2. Place new cli.c file in directory
3. Re-build cli library using gmake as described in mmWave SDK user guide
a. Make sure to update setenv.bat with correct device (i.e. iwr16xx) before executing it
b. Make sure to run 'gmake clean' and then 'gmake all' in the mmwave_sdk_02_00_00_04\packages\ti\utils\cli directory
C:\ti\mmwave_sdk_02_00_00_04\packages\ti\utils\cli>gmake clean
C:\ti\mmwave_sdk_02_00_00_04\packages\ti\utils\cli>gmake all
4. Re-build 16xx mmw project by right-clicking on project in CCS and
performing "Re-build" as described in the user guide on the TI Resource
