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System Analyzer doesnt collect data

I've loaded up the example code for the CC1310DK to act as a "RF Wireless Sensor Network" Node and Concentrator.  The code works fine, as I can see packets coming in on the Concentrators LCD screen.

The problem looks like its with the RTOS setup, as I cannot get the System Analyzer to output any data.  I've gone through the setup process from the documentation and I must be doing something wrong.  My driversConfig.LibType_instrumented is setup, and I have enabled LoggingSetup in STOPMODE

But for some reason it is not working.  I found this and tried adding the code from the accepted answer, and it still didn't work, it just gave me a warning that says that the module is not longer required.

After finding this I went to  Help -> Update and updated everything, and also went to Help -> CCS App Center and update my TI-RTOS CC13XX/26XX

Still it doesn't log any data...

Does anyone have any idea why it is not logging any data?

  • Hi James,

    Can you share your application's cfg file ?

    Best,
    Ashish
  • Okay here it is

    /*
     * Copyright (c) 2015-2016, Texas Instruments Incorporated
     * All rights reserved.
     *
     * 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.
     */
    
    
    
    /* ================ Boot configuration ================ */
    var Boot = xdc.useModule('ti.sysbios.family.arm.cc26xx.Boot');
    /*
     * This module contains family specific Boot APIs and configuration settings.
     * See the SYS/BIOS API guide for more information.
     */
    
    
    
    /* ================ Clock configuration ================ */
    var Clock = xdc.useModule('ti.sysbios.knl.Clock');
    var LoggingSetup = xdc.useModule('ti.uia.sysbios.LoggingSetup');
    /*
     * When using Power and calibrateRCOSC is set to true, this should be set to 10.
     * The timer used by the Clock module supports TickMode_DYNAMIC. This enables us
     * to set the tick period to 10 us without generating the overhead of additional
     * interrupts.
     *
     * Note: The calibrateRCOSC parameter is set within the Power configuration
     *     structure in the "Board.c" file.
     */
    Clock.tickPeriod = 10;
    
    
    
    /* ================ Defaults (module) configuration ================ */
    var Defaults = xdc.useModule('xdc.runtime.Defaults');
    /*
     * A flag to allow module names to be loaded on the target. Module name
     * strings are placed in the .const section for debugging purposes.
     *
     * Pick one:
     *  - true (default)
     *      Setting this parameter to true will include name strings in the .const
     *      section so that Errors and Asserts are easier to debug.
     *  - false
     *      Setting this parameter to false will reduce footprint in the .const
     *      section. As a result, Error and Assert messages will contain an
     *      "unknown module" prefix instead of the actual module name.
     *
     *  When using BIOS in ROM:
     *      This option must be set to false.
     */
    //Defaults.common$.namedModule = true;
    Defaults.common$.namedModule = false;
    
    
    
    /* ================ Error configuration ================ */
    var Error = xdc.useModule('xdc.runtime.Error');
    /*
     * This function is called to handle all raised errors, but unlike
     * Error.raiseHook, this function is responsible for completely handling the
     * error with an appropriately initialized Error_Block.
     *
     * Pick one:
     *  - Error.policyDefault (default)
     *      Calls Error.raiseHook with an initialized Error_Block structure and logs
     *      the error using the module's logger.
     *  - Error.policySpin
     *      Simple alternative that traps on a while(1) loop for minimized target
     *      footprint.
     *      Using Error.policySpin, the Error.raiseHook will NOT called.
     */
    //Error.policyFxn = Error.policyDefault;
    Error.policyFxn = Error.policySpin;
    
    /*
     * If Error.policyFxn is set to Error.policyDefault, this function is called
     * whenever an error is raised by the Error module.
     *
     * Pick one:
     *  - Error.print (default)
     *      Errors are formatted and output via System_printf() for easier
     *      debugging.
     *  - null
     *      Errors are not formatted or logged. This option reduces code footprint.
     *  - non-null function
     *      Errors invoke custom user function. See the Error module documentation
     *      for more details.
     */
    //Error.raiseHook = Error.print;
    Error.raiseHook = null;
    //Error.raiseHook = "&myErrorFxn";
    
    /*
     * If Error.policyFxn is set to Error.policyDefault, this option applies to the
     * maximum number of times the Error.raiseHook function can be recursively
     * invoked. This option limits the possibility of an infinite recursion that
     * could lead to a stack overflow.
     * The default value is 16.
     */
    Error.maxDepth = 2;
    
    
    
    /* ================ Hwi configuration ================ */
    var halHwi = xdc.useModule('ti.sysbios.hal.Hwi');
    var m3Hwi = xdc.useModule('ti.sysbios.family.arm.m3.Hwi');
    /*
     * Checks for Hwi (system) stack overruns while in the Idle loop.
     *
     * Pick one:
     *  - true (default)
     *      Checks the top word for system stack overflows during the idle loop and
     *      raises an Error if one is detected.
     *  - false
     *      Disabling the runtime check improves runtime performance and yields a
     *      reduced flash footprint.
     */
    //halHwi.checkStackFlag = true;
    halHwi.checkStackFlag = false;
    
    /*
     * The following options alter the system's behavior when a hardware exception
     * is detected.
     *
     * Pick one:
     *  - Hwi.enableException = true
     *      This option causes the default m3Hwi.excHandlerFunc function to fully
     *      decode an exception and dump the registers to the system console.
     *      This option raises errors in the Error module and displays the
     *      exception in ROV.
     *  - Hwi.enableException = false
     *      This option reduces code footprint by not decoding or printing the
     *      exception to the system console.
     *      It however still raises errors in the Error module and displays the
     *      exception in ROV.
     *  - Hwi.excHandlerFunc = null
     *      This is the most aggressive option for code footprint savings; but it
     *      can difficult to debug exceptions. It reduces flash footprint by
     *      plugging in a default while(1) trap when exception occur. This option
     *      does not raise an error with the Error module.
     */
    //m3Hwi.enableException = true;
    //m3Hwi.enableException = false;
    m3Hwi.excHandlerFunc = null;
    
    /*
     * Enable hardware exception generation when dividing by zero.
     *
     * Pick one:
     *  - 0 (default)
     *      Disables hardware exceptions when dividing by zero
     *  - 1
     *      Enables hardware exceptions when dividing by zero
     */
    m3Hwi.nvicCCR.DIV_0_TRP = 0;
    //m3Hwi.nvicCCR.DIV_0_TRP = 1;
    
    /*
     * Enable hardware exception generation for invalid data alignment.
     *
     * Pick one:
     *  - 0 (default)
     *      Disables hardware exceptions for data alignment
     *  - 1
     *      Enables hardware exceptions for data alignment
     */
    m3Hwi.nvicCCR.UNALIGN_TRP = 0;
    //m3Hwi.nvicCCR.UNALIGN_TRP = 1;
    
    /*
     * Assign an address for the reset vector.
     *
     * Default is 0x0, which is the start of Flash. Ordinarily this setting should
     * not be changed.
     */
    m3Hwi.resetVectorAddress = 0x0;
    
    /*
     * Assign an address for the vector table in RAM.
     *
     * The default is the start of RAM. This table is placed in RAM so interrupts
     * can be added at runtime.
     *
     * Note: To change, verify address in the device specific datasheets'
     *     memory map.
     */
    m3Hwi.vectorTableAddress = 0x20000000;
    
    
    
    /* ================ Idle configuration ================ */
    var Idle = xdc.useModule('ti.sysbios.knl.Idle');
    /*
     * The Idle module is used to specify a list of functions to be called when no
     * other tasks are running in the system.
     *
     * Functions added here will be run continuously within the idle task.
     *
     * Function signature:
     *     Void func(Void);
     */
    //Idle.addFunc("&myIdleFunc");
    
    
    
    /* ================ Kernel (SYS/BIOS) configuration ================ */
    var BIOS = xdc.useModule('ti.sysbios.BIOS');
    /*
     * Enable asserts in the BIOS library.
     *
     * Pick one:
     *  - true (default)
     *      Enables asserts for debugging purposes.
     *  - false
     *      Disables asserts for a reduced code footprint and better performance.
     *
     *  When using BIOS in ROM:
     *      This option must be set to false.
     */
    //BIOS.assertsEnabled = true;
    BIOS.assertsEnabled = false;
    
    /*
     * Specify default heap size for BIOS.
     */
    BIOS.heapSize = 1024;
    
    /*
     * Specify default CPU Frequency.
     */
    BIOS.cpuFreq.lo = 48000000;
    
    /*
     * A flag to determine if xdc.runtime sources are to be included in a custom
     * built BIOS library.
     *
     * Pick one:
     *  - false (default)
     *      The pre-built xdc.runtime library is provided by the respective target
     *      used to build the application.
     *  - true
     *      xdc.runtime library sources are to be included in the custom BIOS
     *      library. This option yields the most efficient library in both code
     *      footprint and runtime performance.
     */
    //BIOS.includeXdcRuntime = false;
    BIOS.includeXdcRuntime = true;
    
    /*
     * The SYS/BIOS runtime is provided in the form of a library that is linked
     * with the application. Several forms of this library are provided with the
     * SYS/BIOS product.
     *
     * Pick one:
     *   - BIOS.LibType_Custom
     *      Custom built library that is highly optimized for code footprint and
     *      runtime performance.
     *   - BIOS.LibType_Debug
     *      Custom built library that is non-optimized that can be used to
     *      single-step through APIs with a debugger.
     *
     */
    BIOS.libType = BIOS.LibType_Custom;
    //BIOS.libType = BIOS.LibType_Debug;
    
    /*
     * Runtime instance creation enable flag.
     *
     * Pick one:
     *   - true (default)
     *      Allows Mod_create() and Mod_delete() to be called at runtime which
     *      requires a default heap for dynamic memory allocation.
     *   - false
     *      Reduces code footprint by disallowing Mod_create() and Mod_delete() to
     *      be called at runtime. Object instances are constructed via
     *      Mod_construct() and destructed via Mod_destruct().
     *
     *  When using BIOS in ROM:
     *      This option must be set to true.
     */
    BIOS.runtimeCreatesEnabled = true;
    //BIOS.runtimeCreatesEnabled = false;
    
    /*
     * Enable logs in the BIOS library.
     *
     * Pick one:
     *  - true (default)
     *      Enables logs for debugging purposes.
     *  - false
     *      Disables logging for reduced code footprint and improved runtime
     *      performance.
     *
     *  When using BIOS in ROM:
     *      This option must be set to false.
     */
    //BIOS.logsEnabled = true;
    BIOS.logsEnabled = false;
    
    
    
    /* ================ Memory configuration ================ */
    var Memory = xdc.useModule('xdc.runtime.Memory');
    /*
     * The Memory module itself simply provides a common interface for any
     * variety of system and application specific memory management policies
     * implemented by the IHeap modules(Ex. HeapMem, HeapBuf).
     */
    
    
    
    /* ================ Program configuration ================ */
    /*
     *  Program.stack is ignored with IAR. Use the project options in
     *  IAR Embedded Workbench to alter the system stack size.
     */
    if (!Program.build.target.$name.match(/iar/)) {
        /*
         *  Reducing the system stack size (used by ISRs and Swis) to reduce
         *  RAM usage.
         */
        Program.stack = 512;
    }
    
    
    
    /*
     * Enable Semihosting for GNU targets to print to CCS console
     */
    if (Program.build.target.$name.match(/gnu/)) {
        var SemiHost = xdc.useModule('ti.sysbios.rts.gnu.SemiHostSupport');
    }
    
    
    
    /* ================ ROM configuration ================ */
    /*
     * To use BIOS in flash, comment out the code block below.
     */
    var ROM = xdc.useModule('ti.sysbios.rom.ROM');
    if (Program.cpu.deviceName.match(/CC26/)) {
        ROM.romName = ROM.CC2650;
    }
    else if (Program.cpu.deviceName.match(/CC13/)) {
        ROM.romName = ROM.CC1350;
    }
    
    
    
    /* ================ Semaphore configuration ================ */
    var Semaphore = xdc.useModule('ti.sysbios.knl.Semaphore');
    /*
     * Enables global support for Task priority pend queuing.
     *
     * Pick one:
     *  - true (default)
     *      This allows pending tasks to be serviced based on their task priority.
     *  - false
     *      Pending tasks are services based on first in, first out basis.
     *
     *  When using BIOS in ROM:
     *      This option must be set to false.
     */
    //Semaphore.supportsPriority = true;
    Semaphore.supportsPriority = false;
    
    /*
     * Allows for the implicit posting of events through the semaphore,
     * disable for additional code saving.
     *
     * Pick one:
     *  - true
     *      This allows the Semaphore module to post semaphores and events
     *      simultaneously.
     *  - false (default)
     *      Events must be explicitly posted to unblock tasks.
     *
     *  When using BIOS in ROM:
     *      This option must be set to false.
     */
    //Semaphore.supportsEvents = true;
    Semaphore.supportsEvents = false;
    
    
    
    /* ================ Swi configuration ================ */
    var Swi = xdc.useModule('ti.sysbios.knl.Swi');
    /*
     * A software interrupt is an object that encapsulates a function to be
     * executed and a priority. Software interrupts are prioritized, preempt tasks
     * and are preempted by hardware interrupt service routines.
     *
     * This module is included to allow Swi's in a users' application.
     */
    
    /*
     * Reduce the number of swi priorities from the default of 16.
     * Decreasing the number of swi priorities yields memory savings.
     */
    Swi.numPriorities = 6;
    
    
    
    /* ================ System configuration ================ */
    var System = xdc.useModule('xdc.runtime.System');
    System.extendedFormats += "%f";
    /*
     * The Abort handler is called when the system exits abnormally.
     *
     * Pick one:
     *  - System.abortStd (default)
     *      Call the ANSI C Standard 'abort()' to terminate the application.
     *  - System.abortSpin
     *      A lightweight abort function that loops indefinitely in a while(1) trap
     *      function.
     *  - A custom abort handler
     *      A user-defined function. See the System module documentation for
     *      details.
     */
    //System.abortFxn = System.abortStd;
    System.abortFxn = System.abortSpin;
    //System.abortFxn = "&myAbortSystem";
    
    /*
     * The Exit handler is called when the system exits normally.
     *
     * Pick one:
     *  - System.exitStd (default)
     *      Call the ANSI C Standard 'exit()' to terminate the application.
     *  - System.exitSpin
     *      A lightweight exit function that loops indefinitely in a while(1) trap
     *      function.
     *  - A custom exit function
     *      A user-defined function. See the System module documentation for
     *      details.
     */
    //System.exitFxn = System.exitStd;
    System.exitFxn = System.exitSpin;
    //System.exitFxn = "&myExitSystem";
    
    /*
     * Minimize exit handler array in the System module. The System module includes
     * an array of functions that are registered with System_atexit() which is
     * called by System_exit(). The default value is 8.
     */
    System.maxAtexitHandlers = 0;
    
    /*
     * The System.SupportProxy defines a low-level implementation of System
     * functions such as System_printf(), System_flush(), etc.
     *
     * Pick one pair:
     *  - SysMin
     *      This module maintains an internal configurable circular buffer that
     *      stores the output until System_flush() is called.
     *      The size of the circular buffer is set via SysMin.bufSize.
     *  - SysCallback
     *      SysCallback allows for user-defined implementations for System APIs.
     *      The SysCallback support proxy has a smaller code footprint and can be
     *      used to supply custom System_printf services.
     *      The default SysCallback functions point to stub functions. See the
     *      SysCallback module's documentation.
     */
    //var SysMin = xdc.useModule('xdc.runtime.SysMin');
    //SysMin.bufSize = 128;
    //System.SupportProxy = SysMin;
    var SysCallback = xdc.useModule('xdc.runtime.SysCallback');
    System.SupportProxy = SysCallback;
    //SysCallback.abortFxn = "&myUserAbort";
    //SysCallback.exitFxn  = "&myUserExit";
    //SysCallback.flushFxn = "&myUserFlush";
    //SysCallback.putchFxn = "&myUserPutch";
    //SysCallback.readyFxn = "&myUserReady";
    
    
    
    /* ================ Task configuration ================ */
    var Task = xdc.useModule('ti.sysbios.knl.Task');
    /*
     * Check task stacks for overflow conditions.
     *
     * Pick one:
     *  - true (default)
     *      Enables runtime checks for task stack overflow conditions during
     *      context switching ("from" and "to")
     *  - false
     *      Disables runtime checks for task stack overflow conditions.
     *
     *  When using BIOS in ROM:
     *      This option must be set to false.
     */
    //Task.checkStackFlag = true;
    Task.checkStackFlag = false;
    
    /*
     * Set the default task stack size when creating tasks.
     *
     * The default is dependent on the device being used. Reducing the default stack
     * size yields greater memory savings.
     */
    Task.defaultStackSize = 512;
    
    /*
     * Enables the idle task.
     *
     * Pick one:
     *  - true (default)
     *      Creates a task with priority of 0 which calls idle hook functions. This
     *      option must be set to true to gain power savings provided by the Power
     *      module.
     *  - false
     *      No idle task is created. This option consumes less memory as no
     *      additional default task stack is needed.
     *      To gain power savings by the Power module without having the idle task,
     *      add Idle.run as the Task.allBlockedFunc.
     */
    Task.enableIdleTask = true;
    //Task.enableIdleTask = false;
    //Task.allBlockedFunc = Idle.run;
    
    /*
     * If Task.enableIdleTask is set to true, this option sets the idle task's
     * stack size.
     *
     * Reducing the idle stack size yields greater memory savings.
     */
    Task.idleTaskStackSize = 512;
    
    /*
     * Reduce the number of task priorities.
     * The default is 16.
     * Decreasing the number of task priorities yield memory savings.
     */
    Task.numPriorities = 4;
    
    
    
    /* ================ Text configuration ================ */
    var Text = xdc.useModule('xdc.runtime.Text');
    /*
     * These strings are placed in the .const section. Setting this parameter to
     * false will save space in the .const section. Error, Assert and Log messages
     * will print raw ids and args instead of a formatted message.
     *
     * Pick one:
     *  - true (default)
     *      This option loads test string into the .const for easier debugging.
     *  - false
     *      This option reduces the .const footprint.
     */
    //Text.isLoaded = true;
    Text.isLoaded = false;
    
    
    
    /* ================ Types configuration ================ */
    var Types = xdc.useModule('xdc.runtime.Types');
    /*
     * This module defines basic constants and types used throughout the
     * xdc.runtime package.
     */
    
    
    
    /* ================ TI-RTOS middleware configuration ================ */
    var mwConfig = xdc.useModule('ti.mw.Config');
    /*
     * Include TI-RTOS middleware libraries
     */
    
    
    
    /* ================ TI-RTOS drivers' configuration ================ */
    var driversConfig = xdc.useModule('ti.drivers.Config');
    /*
     * Include TI-RTOS drivers
     *
     * Pick one:
     *  - driversConfig.LibType_NonInstrumented (default)
     *      Use TI-RTOS drivers library optimized for footprint and performance
     *      without asserts or logs.
     *  - driversConfig.LibType_Instrumented
     *      Use TI-RTOS drivers library for debugging with asserts and logs enabled.
     */
    //driversConfig.libType = driversConfig.LibType_NonInstrumented;
    driversConfig.libType = driversConfig.LibType_Instrumented;
    
    /* ================ Application Specific Instances ================ */
    LoggingSetup.enableTaskProfiler = true;
    LoggingSetup.benchmarkLogging = true;
    LoggingSetup.countingAndGraphingLogging = true;
    LoggingSetup.loggerType = LoggingSetup.LoggerType_STOPMODE;
    LoggingSetup.sysbiosSwiLogging = true;
    LoggingSetup.sysbiosHwiLogging = true;
    LoggingSetup.sysbiosSemaphoreLogging = true;
    var task0Params = new Task.Params();
    task0Params.instance.name = "statusTaskHandle";
    Program.global.statusTaskHandle = Task.create("&statusTaskFunction", task0Params);

  • Hi James,

    It looks like the problem is that kernel logging is disabled. Since your application is being built against a ROM based kernel, logging has been disabled in the cfg script. In case you are not familiar with this, key modules of the TI-RTOS kernel have been burnt into ROM and in order to ensure good performance, they do not contain any logging code.

    A possible solution to get logging working is to put the kernel in FLASH. This can be done by commenting out the following code in your application's cfg file:

    /* ================ ROM configuration ================ */
    /*
     * To use BIOS in flash, comment out the code block below.
     */
    /*
    var ROM = xdc.useModule('ti.sysbios.rom.ROM');
    if (Program.cpu.deviceName.match(/CC26/)) {
        ROM.romName = ROM.CC2650;
    }
    else if (Program.cpu.deviceName.match(/CC13/)) {
        ROM.romName = ROM.CC1350;
    }
    */

    Please note that placing the kernel in FLASH will increase memory usage.

    Once the kernel is in FLASH, you can search for "BIOS.logsEnabled" and set it to true:

    BIOS.logsEnabled = true;

    Best,

    Ashish

  • Thankyou sir, that did the trick.