var Idle = xdc.useModule('ti.sysbios.knl.Idle'); /* ================ Defaults (module) configuration ================ */ var Defaults = xdc.useModule('xdc.runtime.Defaults'); var Text = xdc.useModule('xdc.runtime.Text'); var Clock = xdc.useModule('ti.sysbios.knl.Clock'); var Timer = xdc.useModule('ti.sysbios.hal.Timer'); /* * 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. */ 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; /* * 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. */ BIOS.assertsEnabled = true; //BIOS.assertsEnabled = false; /* * Specify default heap size for BIOS. */ BIOS.heapSize = 20480; /* * 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(). */ 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. */ BIOS.logsEnabled = true; /* * 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.$name.match(/iar/)) { /* * Reducing the system stack size (used by ISRs and Swis) to reduce * RAM usage. */ Program.stack = 40960; } /* * Enable Semihosting for GNU targets to print to CCS console */ if (Program.build.target.$name.match(/gnu/)) { var SemiHost = xdc.useModule('ti.sysbios.rts.gnu.SemiHostSupport'); } /* ================ 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. * */ //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. */ /* ================ System configuration ================ */ var System = xdc.useModule('xdc.runtime.System'); /* * 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 = 2; /* * 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. */ 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 = 4096; /* * 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 = 4096; /* * Reduce the number of task priorities. * The default is 16. * Decreasing the number of task priorities yield memory savings. */ Task.numPriorities = 16; //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 ================ */ /* ================ NDK configuration ================ */ var Ndk = xdc.loadPackage('ti.ndk.config'); var Global = xdc.useModule('ti.ndk.config.Global'); var Ip = xdc.useModule('ti.ndk.config.Ip'); var Udp = xdc.useModule('ti.ndk.config.Udp'); var Tcp = xdc.useModule('ti.ndk.config.Tcp'); Global.IPv6 = false; Global.stackLibType = Global.MIN; Global.networkOpenHook = "&netOpenHook"; /* automatically call fdOpen/CloseSession for our sockets Task */ Global.autoOpenCloseFD = true; Global.pktNumFrameBufs = 10; Global.memRawPageCount = 6; Global.ndkThreadStackSize = 20480; Global.lowTaskStackSize = 4096; Global.normTaskStackSize = 4096; Global.highTaskStackSize = 4096; Tcp.transmitBufSize = 1024; Tcp.receiveBufSize = 1024; Ip.autoIp = false; Ip.address = "192.168.1.1"; Ip.domainName = ""; Ip.mask = "255.255.252.0"; Ip.gatewayIpAddr = ""; /* ================ Main configuration ================ */ var Main = xdc.useModule('xdc.runtime.Main'); Idle.idleFxns[0] = "&run_forever"; BIOS.rtsGateType = BIOS.NoLocking; var task0Params = new Task.Params(); task0Params.instance.name = "boot"; task0Params.priority = 2; task0Params.stackSize = 4096; Program.global.boot = Task.create("&echoFxn", task0Params); var task1Params = new Task.Params(); task1Params.instance.name = "epihandle"; task1Params.priority = 3; task1Params.stackSize = 4096; Program.global.epihandle = Task.create("&epiFxn", task1Params); var task2Params = new Task.Params(); task2Params.instance.name = "encoder"; task2Params.priority = 3; task2Params.stackSize = 4096; Program.global.encoder = Task.create("&qeiFxn", task2Params); var task3Params = new Task.Params(); task3Params.instance.name = "EEPROM"; task3Params.priority = 3; task3Params.stackSize = 4096; Program.global.EEPROM = Task.create("&i2cFxn", task3Params); var task4Params = new Task.Params(); task4Params.instance.name = "my_ping"; task4Params.stackSize = 4096; task4Params.priority = 2; Program.global.my_ping = Task.create("&pingFxn", task4Params); var task5Params = new Task.Params(); task5Params.instance.name = "spi"; task5Params.priority = 3; task5Params.stackSize = 4096; Program.global.spi = Task.create("&spiFxn", task5Params); var task7Params = new Task.Params(); task7Params.instance.name = "dac"; task7Params.stackSize = 4096; task7Params.priority = 2; Program.global.dac = Task.create("&dacFxn", task7Params); var task8Params = new Task.Params(); task8Params.instance.name = "abschannel0"; task8Params.stackSize = 4096; task8Params.priority = 2; Program.global.abschannel0 = Task.create("&absaFxn", task8Params); var task9Params = new Task.Params(); task9Params.instance.name = "abschannel1"; task9Params.stackSize = 4096; task9Params.priority = 2; Program.global.abschannel1 = Task.create("&absbFxn", task9Params); var task10Params = new Task.Params(); task10Params.instance.name = "my_user"; task10Params.priority = 2; task10Params.stackSize = 8192; Program.global.my_user = Task.create("&user_function", task10Params); var task11Params = new Task.Params(); task11Params.instance.name = "proface"; task11Params.priority = 4; Program.global.proface = Task.create("&my_touch_scan", task11Params); var task12Params = new Task.Params(); task12Params.instance.name = "can_master"; task12Params.priority = 2; Program.global.can_master = Task.create("&canFxn", task12Params); var task13Params = new Task.Params(); task13Params.instance.name = "pwm_led"; task13Params.priority = 2; Program.global.pwm_led = Task.create("&pwmFxn", task13Params); var task13Params0 = new Task.Params(); task13Params0.instance.name = "myadc"; task13Params0.priority = 6; Program.global.myadc = Task.create("&ADS833x_ReadData", task13Params0); var task14Params = new Task.Params(); task14Params.instance.name = "rs485"; task14Params.priority = 3; Program.global.rs485 = Task.create("&rs485Fxn", task14Params); var timer0Params = new Timer.Params(); timer0Params.instance.name = "sysok"; timer0Params.period = 1000000; Program.global.sysok = Timer.create(-1, "&systemok_led", timer0Params); var timer1Params = new Timer.Params(); timer1Params.instance.name = "Mrtimer"; timer1Params.period = 1000; timer1Params.startMode = xdc.module("ti.sysbios.interfaces.ITimer").StartMode_AUTO; Program.global.Mrtimer = Timer.create(-1, "&my_timer", timer1Params); Clock.tickPeriod = 1000; Clock.swiPriority = 15;