/* FreeRTOS+Trace includes. */\r
#include "trcUser.h"\r
\r
+/*\r
+ * Writes trace data to a disk file when the trace recording is stopped.\r
+ * This function will simply overwrite any trace files that already exist.\r
+ */\r
+static void prvSaveTraceFile( void );\r
+\r
/*\r
* Defines a command that returns a table showing the state of each task at the\r
* time the command is called.\r
/* Start or restart the trace. */\r
vTraceStop();\r
vTraceClear();\r
- vTraceStart();\r
+ uiTraceStart();\r
\r
sprintf( ( char * ) pcWriteBuffer, "Trace recording (re)started.\r\n" );\r
}\r
{\r
/* End the trace, if one is running. */\r
vTraceStop();\r
- sprintf( ( char * ) pcWriteBuffer, "Stopping trace recording.\r\n" );\r
+ sprintf( ( char * ) pcWriteBuffer, "Stopping trace recording and dumping log to disk.\r\n" );\r
+ prvSaveTraceFile();\r
}\r
else\r
{\r
}\r
/*-----------------------------------------------------------*/\r
\r
+static void prvSaveTraceFile( void )\r
+{\r
+FILE* pxOutputFile;\r
+\r
+ fopen_s( &pxOutputFile, "Trace.dump", "wb");\r
+\r
+ if( pxOutputFile != NULL )\r
+ {\r
+ fwrite( RecorderDataPtr, sizeof( RecorderDataType ), 1, pxOutputFile );\r
+ fclose( pxOutputFile );\r
+ printf( "\r\nTrace output saved to Trace.dump\r\n" );\r
+ }\r
+ else\r
+ {\r
+ printf( "\r\nFailed to create trace dump file\r\n" );\r
+ }\r
+}\r
\r
#ifndef FREERTOS_CONFIG_H\r
#define FREERTOS_CONFIG_H\r
\r
+#include <stdint.h>\r
+\r
/*-----------------------------------------------------------\r
* Application specific definitions.\r
*\r
\r
#define configUSE_PREEMPTION 1\r
#define configUSE_IDLE_HOOK 1\r
-#define configUSE_TICK_HOOK 0\r
+#define configUSE_TICK_HOOK 1\r
#define configTICK_RATE_HZ ( 1000 ) /* In this non-real time simulated environment the tick frequency has to be at least a multiple of the Win32 tick frequency, and therefore very slow. */\r
#define configMINIMAL_STACK_SIZE ( ( unsigned short ) 60 ) /* In this simulated case, the stack only has to hold one small structure as the real stack is part of the Win32 thread. */\r
#define configTOTAL_HEAP_SIZE ( ( size_t ) 0 ) /* This parameter has no effect when heap_3.c is included in the project. */\r
\r
\r
/* Include the FreeRTOS+Trace FreeRTOS trace macro definitions. */\r
-#include "trcHooks.h"\r
-\r
+#include "trcKernelPort.h"\r
\r
#endif /* FREERTOS_CONFIG_H */\r
/*******************************************************************************\r
- * FreeRTOS+Trace v2.2.2 Recorder Library\r
- * Percepio AB, www.percepio.se\r
+ * Tracealyzer v2.4.1 Recorder Library\r
+ * Percepio AB, www.percepio.com\r
*\r
* trcConfig.h\r
*\r
* appropriate for your system, and if necessary adjust these. Most likely, you \r
* will need to adjust the NTask, NISR, NQueue, NMutex and NSemaphore values to \r
* reflect the number of such objects in your system. These may be \r
- * overapproximated, although larger values values implies more RAM usage.\r
+ * over-approximated, although larger values values implies more RAM usage.\r
*\r
* Terms of Use\r
* This software is copyright Percepio AB. The recorder library is free for\r
* use together with Percepio products. You may distribute the recorder library\r
- * in its original form, including modifications in trcPort.c and trcPort.h\r
+ * in its original form, including modifications in trcHardwarePort.c/.h\r
* given that these modification are clearly marked as your own modifications\r
* and documented in the initial comment section of these source files. \r
* This software is the intellectual property of Percepio AB and may not be \r
* damages, or the exclusion of implied warranties or limitations on how long an \r
* implied warranty may last, so the above limitations may not apply to you.\r
*\r
- * FreeRTOS+Trace is available as Free Edition and in two premium editions.\r
- * You may use the premium features during 30 days for evaluation.\r
- * Download FreeRTOS+Trace at http://www.percepio.se/index.php?page=downloads\r
- *\r
- * Copyright Percepio AB, 2012.\r
- * www.percepio.se\r
+ * Copyright Percepio AB, 2013.\r
+ * www.percepio.com\r
******************************************************************************/\r
\r
#ifndef TRCCONFIG_H\r
#define TRCCONFIG_H\r
\r
+#include <stdint.h>\r
+\r
/*******************************************************************************\r
* CONFIGURATION RELATED TO CAPACITY AND ALLOCATION \r
******************************************************************************/\r
* vTracePrintF may use multiple records depending on the number of data args.\r
******************************************************************************/\r
\r
-#if WIN32\r
- #define EVENT_BUFFER_SIZE 3000\r
-#else\r
- #define EVENT_BUFFER_SIZE 1000 /* Adjust wrt. to available RAM */\r
-#endif\r
+#define EVENT_BUFFER_SIZE 4000 /* Adjust wrt. to available RAM */\r
+\r
+\r
+/*******************************************************************************\r
+ * USE_LINKER_PRAGMA\r
+ *\r
+ * Macro which should be defined as an integer value, default is 0.\r
+ *\r
+ * If this is 1, the header file "recorderdata_linker_pragma.h" is included just\r
+ * before the declaration of RecorderData (in trcBase.c), i.e., the trace data \r
+ * structure. This allows the user to specify a pragma with linker options. \r
+ *\r
+ * Example (for IAR Embedded Workbench and NXP LPC17xx):\r
+ * #pragma location="AHB_RAM_MEMORY"\r
+ * \r
+ * This example instructs the IAR linker to place RecorderData in another RAM \r
+ * bank, the AHB RAM. This can also be used for other compilers with a similar\r
+ * pragmas for linker options.\r
+ * \r
+ * Note that this only applies if using static allocation, see below.\r
+ ******************************************************************************/\r
+\r
+#define USE_LINKER_PRAGMA 0\r
+\r
\r
/*******************************************************************************\r
* SYMBOL_TABLE_SIZE\r
******************************************************************************/\r
#define SYMBOL_TABLE_SIZE 1000\r
\r
+/*******************************************************************************\r
+ * USE_SEPARATE_USER_EVENT_BUFFER\r
+ *\r
+ * Macro which should be defined as an integer value.\r
+ * Default is zero (0).\r
+ *\r
+ * This enables and disables the use of the separate user event buffer.\r
+ *\r
+ * Note: When using the separate user event buffer, you may get an artificial\r
+ * task instance named "Unknown actor". This is added as a placeholder when the \r
+ * user event history is longer than the task scheduling history.\r
+ ******************************************************************************/\r
+#define USE_SEPARATE_USER_EVENT_BUFFER 0\r
+\r
+/*******************************************************************************\r
+ * USER_EVENT_BUFFER_SIZE\r
+ *\r
+ * Macro which should be defined as an integer value.\r
+ *\r
+ * This defines the capacity of the user event buffer, in number of slots.\r
+ * A single user event can use between 1 and X slots, depending on the data.\r
+ *\r
+ * Only in use if USE_SEPARATE_USER_EVENT_BUFFER is set to 1.\r
+ ******************************************************************************/\r
+#define USER_EVENT_BUFFER_SIZE 500\r
+\r
+/*******************************************************************************\r
+ * USER_EVENT_CHANNELS\r
+ *\r
+ * Macro which should be defined as an integer value.\r
+ *\r
+ * This defines the number of allowed user event channels.\r
+ *\r
+ * Only in use if USE_SEPARATE_USER_EVENT_BUFFER is set to 1.\r
+ ******************************************************************************/\r
+#define CHANNEL_FORMAT_PAIRS 32\r
+\r
/*******************************************************************************\r
* NTask, NISR, NQueue, NSemaphore, NMutex\r
*\r
*\r
* Using too small values will give an error message through the vTraceError\r
* routine, which makes the error message appear when opening the trace data\r
- * in FreeRTOS+Trace. If you are using the recorder status monitor task,\r
+ * in Tracealyzer. If you are using the recorder status monitor task,\r
* any error messages are displayed in console prints, assuming that the\r
- * print macro has been defined properly (vConsolePrintMessage).\r
+ * print macro has been defined properly (vConsolePrintMessage). \r
+ *\r
+ * It can be wise to start with very large values for these constants, \r
+ * unless you are very confident on these numbers. Then do a recording and\r
+ * check the actual usage in Tracealyzer. This is shown by selecting\r
+ * View -> Trace Details -> Resource Usage -> Object Table\r
* \r
- * NOTE 2: If you include the monitor task (USE_TRACE_PROGRESS_MONITOR_TASK)\r
- * make sure to dimension NTask with this task accounted for.\r
- *\r
- * Also remember to account for all tasks created by FreeRTOS, such as the \r
- * IDLE task, the FreeRTOS timer task, and any tasks created by other 3rd party \r
- * software components, such as communication stacks.\r
- * Moreover, one task slot is used to indicate "(startup)", i.e., a "task" that \r
- * represent the time before the first task starts. NTask should thus be at \r
- * least 2-3 slots larger than your application task count.\r
- *\r
- * NOTE 3: The FreeRTOS timer task creates a Queue, that should be accounted \r
- * for in NQueue.\r
+ * NOTE 2: Remember to account for all tasks created by the kernel, such as the \r
+ * IDLE task, timer task, and any tasks created by other 3rd party \r
+ * software components, such as communication stacks. The recorder also has an \r
+ * optional monitor task to account for, if this is used.\r
+ * Moreover, one task slot is used to indicate "(startup)", i.e., a fictive \r
+ * task that represent the time before the scheduler starts. \r
+ * NTask should thus be at least 2-3 slots larger than your application task count.\r
+ *\r
******************************************************************************/\r
#define NTask 15\r
-#define NISR 4\r
-#define NQueue 3\r
-#define NSemaphore 4\r
-#define NMutex 2\r
+#define NISR 15\r
+#define NQueue 15\r
+#define NSemaphore 15\r
+#define NMutex 15\r
\r
/* Maximum object name length for each class (includes zero termination) */\r
-#define NameLenTask configMAX_TASK_NAME_LEN\r
-#define NameLenISR 10\r
+#define NameLenTask 15\r
+#define NameLenISR 15\r
#define NameLenQueue 15\r
#define NameLenSemaphore 15\r
#define NameLenMutex 15\r
*\r
* Macro which should be defined as a string.\r
*\r
- * This string is stored in the trace and displayed in FreeRTOS+Trace. Can be\r
+ * This string is stored in the trace and displayed in Tracealyzer. Can be\r
* used to store, e.g., system version or build date. This is also used to store\r
* internal error messages from the recorder, which if occurs overwrites the\r
* value defined here. This may be maximum 256 chars.\r
*****************************************************************************/\r
-#define TRACE_DESCRIPTION "FreeRTOS+Trace Demo"\r
+#define TRACE_DESCRIPTION "Tracealyzer Recorder Test Program"\r
\r
/******************************************************************************\r
* TRACE_DESCRIPTION_MAX_LENGTH\r
* CONFIGURATION REGARDING WHAT CODE/FEATURES TO INCLUDE\r
*****************************************************************************/\r
\r
+/******************************************************************************\r
+ * USE_TRACE_ASSERT\r
+ *\r
+ * Macro which should be defined as either zero (0) or one (1). \r
+ * Default is 0.\r
+ *\r
+ * If this is one (1), the TRACE_ASSERT macro will verify that a condition is \r
+ * true. If the condition is false, vTraceError() will be called.\r
+ *****************************************************************************/\r
+#define USE_TRACE_ASSERT 1\r
+\r
+/******************************************************************************\r
+ * INCLUDE_FLOAT_SUPPORT\r
+ *\r
+ * Macro which should be defined as either zero (0) or one (1). \r
+ * Default is 1.\r
+ *\r
+ * If this is zero (0), all references to floating point values are removed,\r
+ * in case floating point values are not supported by the platform used.\r
+ * Floating point values are only used in vTracePrintF and its subroutines, to \r
+ * store float (%f) or double (%lf) argments. \r
+ *\r
+ * Note: vTracePrintF can still be used with integer and string arguments in\r
+ * either case.\r
+ *****************************************************************************/\r
+#define INCLUDE_FLOAT_SUPPORT 0\r
+\r
/******************************************************************************\r
* INCLUDE_USER_EVENTS\r
*\r
* much faster than a printf and can therefore be used in timing critical code.\r
* See vTraceUserEvent() and vTracePrintF() in trcUser.h\r
* \r
- * Note that FreeRTOS+Trace Standard Edition or Professional Edition is required\r
- * for User Events, they are not displayed in FreeRTOS+Trace Free Edition.\r
+ * Note that Tracealyzer Standard Edition or Professional Edition is required\r
+ * for User Events, they are not displayed in Tracealyzer Free Edition.\r
*****************************************************************************/\r
#define INCLUDE_USER_EVENTS 1\r
\r
+/*****************************************************************************\r
+ * INCLUDE_READY_EVENTS\r
+ *\r
+ * Macro which should be defined as either zero (0) or one (1). \r
+ * Default is 1.\r
+ *\r
+ * If this is zero (0), the code for recording Ready events is \r
+ * excluded. Note, this will make it impossible to calculate the correct\r
+ * response times.\r
+ *****************************************************************************/\r
+#define INCLUDE_READY_EVENTS 1\r
+\r
+/*****************************************************************************\r
+ * INCLUDE_NEW_TIME_EVENTS\r
+ *\r
+ * Macro which should be defined as either zero (0) or one (1). \r
+ * Default is 0.\r
+ *\r
+ * If this is zero (1), events will be generated whenever the os clock is\r
+ * increased.\r
+ *****************************************************************************/\r
+#define INCLUDE_NEW_TIME_EVENTS 0\r
+\r
/*****************************************************************************\r
* INCLUDE_ISR_TRACING\r
*\r
* Default is 1.\r
*\r
* If this is zero (0), the code for recording Interrupt Service Routines is \r
- * excluded to reduce code size. Note, recording ISRs require that you insert\r
- * calls to vTraceStoreISRBegin and vTraceStoreISREnd in your interrupt handlers.\r
- * There is no automatic recording of ISRs like for task scheduling, since \r
- * FreeRTOS does not have a central interrupt dispatcher.\r
+ * excluded to reduce code size.\r
+ * \r
+ * Note, if the kernel has no central interrupt dispatcher, recording ISRs \r
+ * require that you insert calls to vTraceStoreISRBegin and vTraceStoreISREnd \r
+ * in your interrupt handlers.\r
*****************************************************************************/\r
#define INCLUDE_ISR_TRACING 1\r
\r
* Default is 1.\r
*\r
* This must be enabled (1) if tasks, queues or other \r
- * traced kernel objects are deleted at runtime, e.g., using vTaskDelete or \r
- * vQueueDelete. If no deletes are made, this can be set to 0 in order to\r
- * exclude the delete-handling code. \r
+ * traced kernel objects are deleted at runtime. If no deletes are made, this \r
+ * can be set to 0 in order to exclude the delete-handling code.\r
*****************************************************************************/\r
-#define INCLUDE_OBJECT_DELETE 1\r
+#define INCLUDE_OBJECT_DELETE 0\r
\r
/******************************************************************************\r
* CONFIGURATION RELATED TO BEHAVIOR\r
*****************************************************************************/\r
\r
/******************************************************************************\r
- * RECORDER_STORE_MODE\r
+ * TRACE_RECORDER_STORE_MODE\r
*\r
* Macro which should be defined as one of:\r
- * - STORE_MODE_RING_BUFFER\r
- * - STORE_MODE_STOP_WHEN_FULL\r
- * Default is STORE_MODE_RING_BUFFER.\r
- *\r
- * With RECORDER_STORE_MODE set to STORE_MODE_RING_BUFFER, the events are stored\r
- * in a ring buffer, i.e., where the oldest events are overwritten when the\r
- * buffer becomes full. This allows you to get the last events leading up to an\r
- * interesting state, e.g., an error, without having a large trace buffer for\r
- * string the whole run since startup. In this mode, the recorder can run\r
+ * - TRACE_STORE_MODE_RING_BUFFER\r
+ * - TRACE_STORE_MODE_STOP_WHEN_FULL\r
+ * Default is TRACE_STORE_MODE_RING_BUFFER.\r
+ *\r
+ * With TRACE_RECORDER_STORE_MODE set to TRACE_STORE_MODE_RING_BUFFER, the events are \r
+ * stored in a ring buffer, i.e., where the oldest events are overwritten when \r
+ * the buffer becomes full. This allows you to get the last events leading up \r
+ * to an interesting state, e.g., an error, without having a large trace buffer\r
+ * for string the whole run since startup. In this mode, the recorder can run\r
* "forever" as the buffer never gets full, i.e., in the sense that it always\r
* has room for more events.\r
*\r
- * To fetch the trace in mode STORE_MODE_RING_BUFFER, you need to first halt the\r
+ * To fetch the trace in mode TRACE_STORE_MODE_RING_BUFFER, you need to first halt the\r
* system using your debugger and then do a RAM dump, or to explicitly stop the\r
* recorder using vTraceStop() and then store/upload the trace data using a\r
- * FreeRTOS task that you need to provide yourself. The trace data is found in\r
- * the struct RecorderData, initialized in trcBase.c.\r
+ * task that you need to provide yourself. The trace data is found in the struct\r
+ * RecorderData, initialized in trcBase.c.\r
*\r
* Note that, if you upload the trace using a RAM dump, i.e., when the system is \r
* halted on a breakpoint or by a debugger command, there is no need to stop the \r
* recorder first.\r
*\r
- * When RECORDER_STORE_MODE is STORE_MODE_STOP_WHEN_FULL, the recording is\r
+ * When TRACE_RECORDER_STORE_MODE is TRACE_STORE_MODE_STOP_WHEN_FULL, the recording is\r
* stopped when the buffer becomes full. When the recorder stops itself this way\r
* vTracePortEnd() is called which allows for custom actions, such as triggering\r
* a task that stores the trace buffer, i.e., in case taking a RAM dump\r
* saves the trace to file directly, but this is not recommended in a real-time\r
* system since the scheduler is blocked during the processing of vTracePortEnd.\r
*****************************************************************************/\r
-#ifndef WIN32\r
-#define RECORDER_STORE_MODE STORE_MODE_RING_BUFFER\r
-#else\r
-/* Default in the Win32 demo */\r
-#define RECORDER_STORE_MODE STORE_MODE_STOP_WHEN_FULL\r
-#endif\r
+\r
+#define TRACE_RECORDER_STORE_MODE TRACE_STORE_MODE_RING_BUFFER\r
\r
/******************************************************************************\r
* STOP_AFTER_N_EVENTS\r
*\r
* For tasks with "infinite" main loops (non-terminating tasks), the concept\r
* of a task instance has no clear definition, it is an application-specific\r
- * thing. FreeRTOS+Trace allows you to define Instance Finish Events (IFEs),\r
+ * thing. Tracealyzer allows you to define Instance Finish Events (IFEs),\r
* which marks the point in a cyclic task when the "task instance" ends.\r
* The IFE is a blocking kernel call, typically in the main loop of a task\r
* which typically reads a message queue, waits for a semaphore or performs\r
* an explicit delay.\r
*\r
- * If USE_IMPLICIT_IFE_RULES is one (1), the following FreeRTOS kernel calls\r
- * are considered by default to be IFEs (Implicit IFEs):\r
- * - vTaskDelay\r
- * - vTaskDelayUntil\r
- * - vTaskSuspend\r
- * - xQueueReceive (blocking cases only)\r
- * - xSemaphoreTake (blocking cases only)\r
+ * If USE_IMPLICIT_IFE_RULES is one (1), the kernel macros (trcKernelPort.h)\r
+ * will define what kernel calls are considered by default to be IFEs.\r
*\r
- * However, Implicit IFEs only applies to blocking kernel calls. If an\r
- * xQueueReceive reads a message without blocking, it does not create a new\r
+ * However, Implicit IFEs only applies to blocking kernel calls. If a\r
+ * service reads a message without blocking, it does not create a new\r
* instance since no blocking occurred.\r
*\r
- * Moreover, the actual IFE might sometimes be another blocking call such as\r
- * xQueueSend or xSemaphoreGive. We therefore allow for user-defined\r
- * Explicit IFEs by calling\r
+ * Moreover, the actual IFE might sometimes be another blocking call. We \r
+ * therefore allow for user-defined Explicit IFEs by calling\r
*\r
* vTraceTaskInstanceIsFinished()\r
*\r
* additional event but instead stores the service code and object handle\r
* of the IFE call as properties of the task.\r
*\r
- * If using Explicit IFEs and the task also calls an Implicit IFE like\r
- * vTaskDelay, this may result in additional incorrect task instances.\r
+ * If using Explicit IFEs and the task also calls an Implicit IFE, this may \r
+ * result in additional incorrect task instances.\r
* This is solved by disabling the Implicit IFEs for the task, by adding\r
* a call to\r
* \r
* be mapped to your console "printf" routine. The task is named TraceMon but \r
* is intentionally excluded from the demo trace.\r
*\r
- * Default is 1000 FreeRTOS ticks (typically 1 second). On the Windows port, a \r
- * lower value is suggested since the Windows port runs very slowly, often 20-40\r
- * times slower than the simulated FreeRTOS time.\r
+ * Default is 1000 ticks (typically 1 second). On the Windows port, a lower \r
+ * value is suggested since the Windows port runs very slowly, often 20-40\r
+ * times slower than the simulated time.\r
*\r
* See vTraceMonitorTask in trcUser.c\r
*****************************************************************************/\r
-#if WIN32\r
+#ifdef WIN32\r
#define TRACE_PROGRESS_MONITOR_TASK_PERIOD 100\r
#else\r
#define TRACE_PROGRESS_MONITOR_TASK_PERIOD 1000\r
--- /dev/null
+/******************************************************************************* \r
+ * Tracealyzer v2.4.1 Recorder Library\r
+ * Percepio AB, www.percepio.com\r
+ *\r
+ * trcHardwarePort.h\r
+ *\r
+ * Contains together with trcHardwarePort.c all hardware portability issues of \r
+ * the trace recorder library.\r
+ *\r
+ * Terms of Use\r
+ * This software is copyright Percepio AB. The recorder library is free for\r
+ * use together with Percepio products. You may distribute the recorder library\r
+ * in its original form, including modifications in trcPort.c and trcPort.h\r
+ * given that these modification are clearly marked as your own modifications\r
+ * and documented in the initial comment section of these source files. \r
+ * This software is the intellectual property of Percepio AB and may not be \r
+ * sold or in other ways commercially redistributed without explicit written \r
+ * permission by Percepio AB.\r
+ *\r
+ * Disclaimer \r
+ * The trace tool and recorder library is being delivered to you AS IS and \r
+ * Percepio AB makes no warranty as to its use or performance. Percepio AB does \r
+ * not and cannot warrant the performance or results you may obtain by using the \r
+ * software or documentation. Percepio AB make no warranties, express or \r
+ * implied, as to noninfringement of third party rights, merchantability, or \r
+ * fitness for any particular purpose. In no event will Percepio AB, its \r
+ * technology partners, or distributors be liable to you for any consequential, \r
+ * incidental or special damages, including any lost profits or lost savings, \r
+ * even if a representative of Percepio AB has been advised of the possibility \r
+ * of such damages, or for any claim by any third party. Some jurisdictions do \r
+ * not allow the exclusion or limitation of incidental, consequential or special \r
+ * damages, or the exclusion of implied warranties or limitations on how long an \r
+ * implied warranty may last, so the above limitations may not apply to you.\r
+ *\r
+ * Copyright Percepio AB, 2013.\r
+ * www.percepio.com\r
+ ******************************************************************************/\r
+\r
+#ifndef TRCPORT_H\r
+#define TRCPORT_H\r
+\r
+#include "trcKernelPort.h"\r
+\r
+/* If Win32 port */\r
+#ifdef WIN32\r
+\r
+ #undef _WIN32_WINNT\r
+ #define _WIN32_WINNT 0x0600\r
+\r
+ /* Standard includes. */\r
+ #include <stdio.h>\r
+ #include <windows.h>\r
+ #include <direct.h>\r
+\r
+/*******************************************************************************\r
+ * The Win32 port by default saves the trace to file and then kills the\r
+ * program when the recorder is stopped, to facilitate quick, simple tests\r
+ * of the recorder.\r
+ ******************************************************************************/\r
+ #define WIN32_PORT_SAVE_WHEN_STOPPED 1\r
+ #define WIN32_PORT_EXIT_WHEN_STOPPED 1\r
+\r
+#endif\r
+\r
+#define DIRECTION_INCREMENTING 1\r
+#define DIRECTION_DECREMENTING 2\r
+\r
+/******************************************************************************\r
+ * Supported ports\r
+ * \r
+ * PORT_HWIndependent\r
+ * A hardware independent fallback option for event timestamping. Provides low \r
+ * resolution timestamps based on the OS tick.\r
+ * This may be used on the Win32 port, but may also be used on embedded hardware \r
+ * platforms. All time durations will be truncated to the OS tick frequency, \r
+ * typically 1 KHz. This means that a task or ISR that executes in less than \r
+ * 1 ms get an execution time of zero.\r
+ *\r
+ * PORT_Win32\r
+ * "Accurate" timestamping based on the Windows performance counter. Note that\r
+ * this gives the host machine time.\r
+ *\r
+ * Officially supported hardware timer ports:\r
+ * - PORT_Atmel_AT91SAM7\r
+ * - PORT_Atmel_UC3A0\r
+ * - PORT_ARM_CortexM \r
+ * - PORT_Renesas_RX600\r
+ * - PORT_Microchip_dsPIC_AND_PIC24\r
+ *\r
+ * We also provide several "unofficial" hardware-specific ports. There have \r
+ * been developed by external contributors, and have not yet been verified \r
+ * by Percepio AB. Let us know if you have problems getting these to work.\r
+ * \r
+ * Unofficial hardware specific ports provided are:\r
+ * - PORT_TEXAS_INSTRUMENTS_TMS570\r
+ * - PORT_TEXAS_INSTRUMENTS_MSP430\r
+ * - PORT_MICROCHIP_PIC32\r
+ * - PORT_XILINX_PPC405\r
+ * - PORT_XILINX_PPC440\r
+ * - PORT_XILINX_MICROBLAZE\r
+ * - PORT_NXP_LPC210X\r
+ *\r
+ *****************************************************************************/\r
+\r
+#define PORT_NOT_SET -1\r
+\r
+/*** Officially supported hardware timer ports *******************************/\r
+#define PORT_HWIndependent 0\r
+#define PORT_Win32 1\r
+#define PORT_Atmel_AT91SAM7 2\r
+#define PORT_Atmel_UC3A0 3\r
+#define PORT_ARM_CortexM 4\r
+#define PORT_Renesas_RX600 5\r
+#define PORT_Microchip_dsPIC_AND_PIC24 6\r
+\r
+/*** Unofficial ports, provided by external developers, not yet verified *****/\r
+#define PORT_TEXAS_INSTRUMENTS_TMS570 7\r
+#define PORT_TEXAS_INSTRUMENTS_MSP430 8\r
+#define PORT_MICROCHIP_PIC32 9\r
+#define PORT_XILINX_PPC405 10\r
+#define PORT_XILINX_PPC440 11\r
+#define PORT_XILINX_MICROBLAZE 12\r
+#define PORT_NXP_LPC210X 13\r
+\r
+/*** Select your port here! **************************************************/\r
+#define SELECTED_PORT PORT_Win32\r
+/*****************************************************************************/\r
+\r
+#if (SELECTED_PORT == PORT_NOT_SET) \r
+#error "You need to define SELECTED_PORT here!"\r
+#endif\r
+\r
+/*******************************************************************************\r
+ * IRQ_PRIORITY_ORDER\r
+ *\r
+ * Macro which should be defined as an integer of 0 or 1.\r
+ *\r
+ * This should be 0 if lower IRQ priority values implies higher priority \r
+ * levels, such as on ARM Cortex M. If the opposite scheme is used, i.e., \r
+ * if higher IRQ priority values means higher priority, this should be 1.\r
+ *\r
+ * This setting is not critical. It is used only to sort and colorize the \r
+ * interrupts in priority order, in case you record interrupts using\r
+ * the vTraceStoreISRBegin and vTraceStoreISREnd routines.\r
+ *\r
+ * We provide this setting for some hardware architectures below:\r
+ * - ARM Cortex M: 0 (lower IRQ priority values are more significant)\r
+ * - Atmel AT91SAM7x: 1 (higher IRQ priority values are more significant)\r
+ * - Atmel AVR32: 1 (higher IRQ priority values are more significant)\r
+ * - Renesas RX600: 1 (higher IRQ priority values are more significant)\r
+ * - Microchip PIC24: 0 (lower IRQ priority values are more significant)\r
+ * - Microchip dsPIC: 0 (lower IRQ priority values are more significant)\r
+ * - TI TMS570: 0 (lower IRQ priority values are more significant)\r
+ * - Freescale HCS08: 0 (lower IRQ priority values are more significant)\r
+ * - Freescale HCS12: 0 (lower IRQ priority values are more significant)\r
+ * - PowerPC 405: 0 (lower IRQ priority values are more significant)\r
+ * - PowerPC 440: 0 (lower IRQ priority values are more significant)\r
+ * - Freescale ColdFire: 1 (higher IRQ priority values are more significant)\r
+ * - NXP LPC210x: 0 (lower IRQ priority values are more significant)\r
+ * - MicroBlaze: 0 (lower IRQ priority values are more significant)\r
+ *\r
+ * If your chip is not on the above list, and you perhaps know this detail by \r
+ * heart, please inform us by e-mail to support@percepio.com.\r
+ *\r
+ ******************************************************************************\r
+ *\r
+ * HWTC Macros \r
+ *\r
+ * These four HWTC macros provides a hardware isolation layer representing a \r
+ * generic hardware timer/counter used for driving the operating system tick, \r
+ * such as the SysTick feature of ARM Cortex M3/M4, or the PIT of the Atmel \r
+ * AT91SAM7X.\r
+ *\r
+ * HWTC_COUNT: The current value of the counter. This is expected to be reset \r
+ * a each tick interrupt. Thus, when the tick handler starts, the counter has \r
+ * already wrapped.\r
+ *\r
+ * HWTC_COUNT_DIRECTION: Should be one of:\r
+ * - DIRECTION_INCREMENTING - for hardware timer/counters of incrementing type\r
+ * such as the PIT on Atmel AT91SAM7X.\r
+ * When the counter value reach HWTC_PERIOD, it is reset to zero and the\r
+ * interrupt is signaled.\r
+ * - DIRECTION_DECREMENTING - for hardware timer/counters of decrementing type\r
+ * such as the SysTick on ARM Cortex M3/M4 chips.\r
+ * When the counter value reach 0, it is reset to HWTC_PERIOD and the\r
+ * interrupt is signaled.\r
+ *\r
+ * HWTC_PERIOD: The number of increments or decrements of HWTC_COUNT between\r
+ * two tick interrupts. This should preferably be mapped to the reload\r
+ * register of the hardware timer, to make it more portable between chips in the \r
+ * same family. The macro should in most cases be (reload register + 1).\r
+ *\r
+ * HWTC_DIVISOR: If the timer frequency is very high, like on the Cortex M chips\r
+ * (where the SysTick runs at the core clock frequency), the "differential \r
+ * timestamping" used in the recorder will more frequently insert extra XTS \r
+ * events to store the timestamps, which increases the event buffer usage. \r
+ * In such cases, to reduce the number of XTS events and thereby get longer \r
+ * traces, you use HWTC_DIVISOR to scale down the timestamps and frequency.\r
+ * Assuming a OS tick rate of 1 KHz, it is suggested to keep the effective timer\r
+ * frequency below 65 MHz to avoid an excessive amount of XTS events. Thus, a\r
+ * Cortex M chip running at 72 MHZ should use a HWTC_DIVISOR of 2, while a \r
+ * faster chip require a higher HWTC_DIVISOR value. \r
+ *\r
+ * The HWTC macros and vTracePortGetTimeStamp is the main porting issue\r
+ * or the trace recorder library. Typically you should not need to change\r
+ * the code of vTracePortGetTimeStamp if using the HWTC macros.\r
+ *\r
+ ******************************************************************************/\r
+\r
+#if (SELECTED_PORT == PORT_Win32)\r
+ \r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (ulGetRunTimeCounterValue())\r
+ #define HWTC_PERIOD 0\r
+ #define HWTC_DIVISOR 1\r
+ \r
+ #define IRQ_PRIORITY_ORDER 1 // Please update according to your hardware...\r
+\r
+#elif (SELECTED_PORT == PORT_HWIndependent)\r
+ \r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT 0\r
+ #define HWTC_PERIOD 1\r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 1 // Please update according to your hardware...\r
+\r
+#elif (SELECTED_PORT == PORT_Atmel_AT91SAM7)\r
+\r
+ /* HWTC_PERIOD is hardcoded for AT91SAM7X256-EK Board (48 MHz)\r
+ A more generic solution is to get the period from pxPIT->PITC_PIMR */\r
+ \r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (AT91C_BASE_PITC->PITC_PIIR & 0xFFFFF)\r
+ #define HWTC_PERIOD 2995 \r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 1 // higher IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_Atmel_UC3A0) \r
+ \r
+ /* For Atmel AVR32 (AT32UC3A) */\r
+ \r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT sysreg_read(AVR32_COUNT)\r
+ #define HWTC_PERIOD ( TRACE_CPU_CLOCK_HZ / TRACE_TICK_RATE_HZ )\r
+ #define HWTC_DIVISOR 1 \r
+\r
+ #define IRQ_PRIORITY_ORDER 1 // higher IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_ARM_CortexM)\r
+\r
+ /* For all chips using ARM Cortex M cores */\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
+ #define HWTC_COUNT (*((uint32_t*)0xE000E018))\r
+ #define HWTC_PERIOD ((*(uint32_t*)0xE000E014) + 1)\r
+ #define HWTC_DIVISOR 2\r
+ \r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_Renesas_RX600) \r
+\r
+ #include "iodefine.h"\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (CMT0.CMCNT)\r
+ #define HWTC_PERIOD ((((TRACE_PERIPHERAL_CLOCK_HZ/TRACE_TICK_RATE_HZ)-1)/8))\r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 1 // higher IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_Microchip_dsPIC_AND_PIC24) \r
+\r
+ /* For Microchip PIC24 and dsPIC (16 bit) */\r
+\r
+ /* Note: The trace library was originally designed for 32-bit MCUs, and is slower\r
+ than intended on 16-bit MCUs. Storing an event on a PIC24 takes about 70 µs. \r
+ In comparison, 32-bit MCUs are often 10-20 times faster. If recording overhead \r
+ becomes a problem on PIC24, use the filters to exclude less interesting tasks \r
+ or system calls. */\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (TMR1)\r
+ #define HWTC_PERIOD (PR1+1)\r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_NXP_LPC210X)\r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+ \r
+ /* Tested with LPC2106, but should work with most LPC21XX chips. */\r
+ \r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT *((uint32_t *)0xE0004008 )\r
+ #define HWTC_PERIOD ( TRACE_CPU_CLOCK_HZ / TRACE_TICK_RATE_HZ ) \r
+ #define HWTC_DIVISOR 1 \r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_TEXAS_INSTRUMENTS_TMS570)\r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+\r
+ #define RTIFRC0 *((uint32_t *)0xFFFFFC10)\r
+ #define RTICOMP0 *((uint32_t *)0xFFFFFC50)\r
+ #define RTIUDCP0 *((uint32_t *)0xFFFFFC54)\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (RTIFRC0 - (RTICOMP0 - RTIUDCP0))\r
+ #define HWTC_PERIOD (RTIUDCP0)\r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_TEXAS_INSTRUMENTS_MSP430)\r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (TA0R)\r
+ #define HWTC_PERIOD TRACE_CPU_CLOCKS_PER_TICK \r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 1 // higher IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_MICROCHIP_PIC32)\r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
+ #define HWTC_COUNT (ReadTimer1()) /* Should be available in BSP */\r
+ #define HWTC_PERIOD (ReadPeriod1()+1) /* Should be available in BSP */\r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_XILINX_PPC405) \r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
+ #define HWTC_COUNT mfspr( 0x3db)\r
+ #define HWTC_PERIOD ( TRACE_CPU_CLOCK_HZ / TRACE_TICK_RATE_HZ )\r
+ #define HWTC_DIVISOR 1\r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT == PORT_XILINX_PPC440) \r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+\r
+ /* This should work with most PowerPC chips */\r
+ \r
+ #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
+ #define HWTC_COUNT mfspr( 0x016 )\r
+ #define HWTC_PERIOD ( TRACE_CPU_CLOCK_HZ / TRACE_TICK_RATE_HZ )\r
+ #define HWTC_DIVISOR 1 \r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+ \r
+#elif (SELECTED_PORT == PORT_XILINX_MICROBLAZE)\r
+ /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
+\r
+ /* This should work with most Microblaze configurations.\r
+ * It uses the AXI Timer 0 - the tick interrupt source.\r
+ * If an AXI Timer 0 peripheral is available on your hardware platform, no modifications are required.\r
+ */\r
+ #include "xtmrctr_l.h"\r
+\r
+ #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
+ #define HWTC_COUNT XTmrCtr_GetTimerCounterReg( XPAR_TMRCTR_0_BASEADDR, 0 )\r
+ #define HWTC_PERIOD ( TRACE_CPU_CLOCK_HZ / TRACE_TICK_RATE_HZ )\r
+ #define HWTC_DIVISOR 16\r
+\r
+ #define IRQ_PRIORITY_ORDER 0 // lower IRQ priority values are more significant\r
+\r
+#elif (SELECTED_PORT != PORT_NOT_SET)\r
+\r
+ #error "SELECTED_PORT had unsupported value!"\r
+ #define SELECTED_PORT PORT_NOT_SET\r
+\r
+#endif\r
+\r
+#if (SELECTED_PORT != PORT_NOT_SET)\r
+ \r
+ #ifndef HWTC_COUNT_DIRECTION\r
+ #error "HWTC_COUNT_DIRECTION is not set!"\r
+ #endif \r
+ \r
+ #ifndef HWTC_COUNT\r
+ #error "HWTC_COUNT is not set!" \r
+ #endif \r
+ \r
+ #ifndef HWTC_PERIOD\r
+ #error "HWTC_PERIOD is not set!"\r
+ #endif \r
+ \r
+ #ifndef HWTC_DIVISOR\r
+ #error "HWTC_DIVISOR is not set!" \r
+ #endif \r
+ \r
+ #ifndef IRQ_PRIORITY_ORDER\r
+ #error "IRQ_PRIORITY_ORDER is not set!"\r
+ #elif (IRQ_PRIORITY_ORDER != 0) && (IRQ_PRIORITY_ORDER != 1)\r
+ #error "IRQ_PRIORITY_ORDER has bad value!"\r
+ #endif \r
+ \r
+ #if (HWTC_DIVISOR < 1)\r
+ #error "HWTC_DIVISOR must be a non-zero positive value!"\r
+ #endif \r
+\r
+#endif\r
+/*******************************************************************************\r
+ * vTraceConsoleMessage\r
+ *\r
+ * A wrapper for your system-specific console "printf" console output function.\r
+ * This needs to be correctly defined to see status reports from the trace \r
+ * status monitor task (this is defined in trcUser.c).\r
+ ******************************************************************************/ \r
+#if (SELECTED_PORT == PORT_Atmel_AT91SAM7)\r
+/* Port specific includes */\r
+#include "console.h"\r
+#endif\r
+\r
+#define vTraceConsoleMessage(x)\r
+\r
+/*******************************************************************************\r
+ * vTracePortGetTimeStamp\r
+ *\r
+ * Returns the current time based on the HWTC macros which provide a hardware\r
+ * isolation layer towards the hardware timer/counter.\r
+ *\r
+ * The HWTC macros and vTracePortGetTimeStamp is the main porting issue\r
+ * or the trace recorder library. Typically you should not need to change\r
+ * the code of vTracePortGetTimeStamp if using the HWTC macros.\r
+ *\r
+ ******************************************************************************/\r
+void vTracePortGetTimeStamp(uint32_t *puiTimestamp);\r
+\r
+/*******************************************************************************\r
+ * vTracePortEnd\r
+ * \r
+ * This function is called when the recorder is stopped due to full buffer.\r
+ * Mainly intended to show a message in the console.\r
+ * This is used by the Win32 port to store the trace to a file. The file path is\r
+ * set using vTracePortSetFileName.\r
+ ******************************************************************************/\r
+void vTracePortEnd(void);\r
+\r
+#if (INCLUDE_SAVE_TO_FILE == 1)\r
+\r
+/*******************************************************************************\r
+ * vTracePortSetOutFile\r
+ *\r
+ * Sets the filename/path used in vTracePortSave.\r
+ * This is set in a separate function, since the Win32 port calls vTracePortSave\r
+ * in vTracePortEnd if WIN32_PORT_SAVE_WHEN_STOPPED is set.\r
+ ******************************************************************************/\r
+void vTracePortSetOutFile(char* path);\r
+\r
+/******************************************************************************\r
+ * vTracePortSave\r
+ *\r
+ * Saves the trace to a file on a target-side file system. The path is set in a \r
+ * separate function, vTracePortSetOutFile, since the Win32 port may call\r
+ * vTracePortSave in vTracePortEnd, if using WIN32_PORT_SAVE_WHEN_STOPPED.\r
+ ******************************************************************************/\r
+void vTracePortSave(void);\r
+\r
+#else\r
+\r
+#define vTraceConsoleMessage(x)\r
+#define vTracePortSetOutFile(path)\r
+#define vTracePortSave(void)\r
+\r
+#endif\r
+\r
+#endif\r
+++ /dev/null
-/******************************************************************************* \r
- * FreeRTOS+Trace v2.3.0 Recorder Library\r
- * Percepio AB, www.percepio.com\r
- *\r
- * trcPort.h\r
- *\r
- * Contains together with trcPort.c all portability issues of the trace recorder \r
- * library.\r
- *\r
- * Terms of Use\r
- * This software is copyright Percepio AB. The recorder library is free for\r
- * use together with Percepio products. You may distribute the recorder library\r
- * in its original form, including modifications in trcPort.c and trcPort.h\r
- * given that these modification are clearly marked as your own modifications\r
- * and documented in the initial comment section of these source files. \r
- * This software is the intellectual property of Percepio AB and may not be \r
- * sold or in other ways commercially redistributed without explicit written \r
- * permission by Percepio AB.\r
- *\r
- * Disclaimer \r
- * The trace tool and recorder library is being delivered to you AS IS and \r
- * Percepio AB makes no warranty as to its use or performance. Percepio AB does \r
- * not and cannot warrant the performance or results you may obtain by using the \r
- * software or documentation. Percepio AB make no warranties, express or \r
- * implied, as to noninfringement of third party rights, merchantability, or \r
- * fitness for any particular purpose. In no event will Percepio AB, its \r
- * technology partners, or distributors be liable to you for any consequential, \r
- * incidental or special damages, including any lost profits or lost savings, \r
- * even if a representative of Percepio AB has been advised of the possibility \r
- * of such damages, or for any claim by any third party. Some jurisdictions do \r
- * not allow the exclusion or limitation of incidental, consequential or special \r
- * damages, or the exclusion of implied warranties or limitations on how long an \r
- * implied warranty may last, so the above limitations may not apply to you.\r
- *\r
- * FreeRTOS+Trace is available as Free Edition and in two premium editions.\r
- * You may use the premium features during 30 days for evaluation.\r
- * Download FreeRTOS+Trace at http://www.percepio.com/products/downloads/\r
- *\r
- * Copyright Percepio AB, 2012.\r
- * www.percepio.com\r
- ******************************************************************************/\r
-\r
-#ifndef TRCPORT_H\r
-#define TRCPORT_H\r
-\r
-/* If FreeRTOS Win32 port */\r
-#ifdef WIN32\r
-\r
- #undef _WIN32_WINNT\r
- #define _WIN32_WINNT 0x0600\r
-\r
- /* Standard includes. */\r
- #include <stdio.h>\r
- #include <windows.h>\r
- #include <direct.h>\r
-\r
-/*******************************************************************************\r
- * The Win32 port by default saves the trace to file and then kills the\r
- * program when the recorder is stopped, to facilitate quick, simple tests\r
- * of the recorder.\r
- ******************************************************************************/\r
- #define WIN32_PORT_SAVE_WHEN_STOPPED 1\r
- #define WIN32_PORT_EXIT_WHEN_STOPPED 1\r
-#else\r
- #define WIN32_PORT_SAVE_WHEN_STOPPED 0\r
- #define WIN32_PORT_EXIT_WHEN_STOPPED 0\r
-#endif\r
-\r
-#define DIRECTION_INCREMENTING 1\r
-#define DIRECTION_DECREMENTING 2\r
-\r
-/******************************************************************************\r
- * Supported ports\r
- * \r
- * PORT_HWIndependent\r
- * A hardware independent fallback option for event timestamping. Provides low \r
- * resolution timestamps based on the OS tick.\r
- * This may be used on the Win32 port, but may also be used on embedded hardware \r
- * platforms. Note that this gives suboptimal display in FreeRTOS+Trace. All \r
- * time durations will be truncated to the OS tick frequency, typically 1 KHz. \r
- * This means that a task or ISR that executes in less than 1 ms get an exection \r
- * time of zero. They are however still visible in FreeRTOS+Trace. \r
- *\r
- * PORT_Win32\r
- * "Accurate" timestamping based on the Windows permance counter. Note that\r
- * this gives the host machine time, not the simulated FreeRTOS time (tick \r
- * count). The timing of the Win32 FreeRTOS build is not real-time, since it \r
- * depends on the scheduling and tick rate of Windows, which is very slow.\r
- *\r
- * Officially supported hardware timer ports:\r
- * - PORT_Atmel_AT91SAM7\r
- * - PORT_Atmel_UC3A0\r
- * - PORT_ARM_CortexM \r
- * - PORT_Renesas_RX600\r
- * - PORT_Microchip_dsPIC_AND_PIC24\r
- *\r
- * We also provide several "unofficial" hardware-specific ports. There have \r
- * been developed by external contributors, and have not yet been verified \r
- * by Percepio AB. Let us know if you have problems getting these to work.\r
- * \r
- * Unoffical hardware specific ports provided are:\r
- * - PORT_TEXAS_INSTRUMENTS_TMS570\r
- * - PORT_TEXAS_INSTRUMENTS_MSP430\r
- * - PORT_MICROCHIP_PIC32\r
- * - PORT_XILINX_PPC405\r
- * - PORT_XILINX_PPC440\r
- * - PORT_XILINX_MICROBLAZE\r
- * - PORT_NXP_LPC210X\r
- *\r
- *****************************************************************************/\r
-\r
-#define PORT_NOT_SET -1\r
-\r
-/*** Officially supported hardware timer ports *******************************/\r
-#define PORT_HWIndependent 0\r
-#define PORT_Win32 1\r
-#define PORT_Atmel_AT91SAM7 2\r
-#define PORT_Atmel_UC3A0 3\r
-#define PORT_ARM_CortexM 4\r
-#define PORT_Renesas_RX600 5\r
-#define PORT_Microchip_dsPIC_AND_PIC24 6\r
-\r
-/*** Unofficial ports, provided by external developers, not yet verified *****/\r
-#define PORT_TEXAS_INSTRUMENTS_TMS570 7\r
-#define PORT_TEXAS_INSTRUMENTS_MSP430 8\r
-#define PORT_MICROCHIP_PIC32 9\r
-#define PORT_XILINX_PPC405 10\r
-#define PORT_XILINX_PPC440 11\r
-#define PORT_XILINX_MICROBLAZE 12\r
-#define PORT_NXP_LPC210X 13\r
-\r
-/*** Select your port here! **************************************************/\r
-#define SELECTED_PORT PORT_Win32\r
-/*****************************************************************************/\r
-\r
-#if (SELECTED_PORT == PORT_NOT_SET) \r
-#error "You need to define SELECTED_PORT here!"\r
-#endif\r
-\r
-/*******************************************************************************\r
- * IRQ_PRIORITY_ORDER\r
- *\r
- * Macro which should be defined as an integer of 0 or 1.\r
- *\r
- * This should be 0 if lower irq priority values implies higher priority \r
- * levels, such as on ARM Cortex M. If the opposite scheme is used, i.e., \r
- * if higher irq priority values means higher priority, this should be 1.\r
- *\r
- * This setting is not critical. It is used only to sort and colorize the \r
- * interrupts in priority order, in case you record interrupts using\r
- * the vTraceStoreISRBegin and vTraceStoreISREnd routines.\r
- *\r
- * We provide this setting for some hardware architectures below:\r
- * - ARM Cortex M: 0 (lower irq priority values are more significant)\r
- * - Atmel AT91SAM7x: 1 (higher irq priority values are more significant)\r
- * - Atmel AVR32: 1 (higher irq priority values are more significant)\r
- * - Renesas RX600: 1 (higher irq priority values are more significant)\r
- * - Microchip PIC24: 0 (lower irq priority values are more significant)\r
- * - Microchip dsPIC: 0 (lower irq priority values are more significant)\r
- * - TI TMS570: 0 (lower irq priority values are more significant)\r
- * - Freescale HCS08: 0 (lower irq priority values are more significant)\r
- * - Freescale HCS12: 0 (lower irq priority values are more significant)\r
- * - PowerPC 405: 0 (lower irq priority values are more significant)\r
- * - PowerPC 440: 0 (lower irq priority values are more significant)\r
- * - Freescale ColdFire: 1 (higher irq priority values are more significant)\r
- * - NXP LPC210x: 0 (lower irq priority values are more significant)\r
- * - MicroBlaze: 0 (lower irq priority values are more significant)\r
- *\r
- * If your chip is not on the above list, and you perhaps know this detail by \r
- * heart, please inform us by e-mail to support@percepio.com.\r
- *\r
- ******************************************************************************\r
- *\r
- * HWTC Macros \r
- *\r
- * These four HWTC macros provides a hardware isolation layer representing a \r
- * generic hardware timer/counter used for driving the operating system tick, \r
- * such as the SysTick feature of ARM Cortex M3/M4, or the PIT of the Atmel \r
- * AT91SAM7X.\r
- *\r
- * HWTC_COUNT: The current value of the counter. This is expected to be reset \r
- * a each tick interrupt. Thus, when the tick handler starts, the counter has \r
- * already wrapped.\r
- *\r
- * HWTC_COUNT_DIRECTION: Should be one of:\r
- * - DIRECTION_INCREMENTING - for hardware timer/counters of incrementing type\r
- * such as the PIT on Atmel AT91SAM7X.\r
- * When the counter value reach HWTC_PERIOD, it is reset to zero and the\r
- * interrupt is signaled.\r
- * - DIRECTION_DECREMENTING - for hardware timer/counters of decrementing type\r
- * such as the SysTick on ARM Cortex M3/M4 chips.\r
- * When the counter value reach 0, it is reset to HWTC_PERIOD and the\r
- * interrupt is signaled.\r
- *\r
- * HWTC_PERIOD: The number of increments or decrements of HWTC_COUNT between\r
- * two tick interrupts. This should preferably be mapped to the reload\r
- * register of the hardware timer, to make it more portable between chips in the \r
- * same family. The macro should in most cases be (reload register + 1).\r
- *\r
- * HWTC_DIVISOR: If the timer frequency is very high, like on the Cortex M chips\r
- * (where the SysTick runs at the core clock frequency), the "differential \r
- * timestamping" used in the recorder will more frequently insert extra XTS \r
- * events to store the timestamps, which increases the event buffer usage. \r
- * In such cases, to reduce the number of XTS events and thereby get longer \r
- * traces, you use HWTC_DIVISOR to scale down the timestamps and frequency.\r
- * Assuming a OS tick rate of 1 KHz, it is suggested to keep the effective timer\r
- * frequency below 65 MHz to avoid an excessive amount of XTS events. Thus, a\r
- * Cortex M chip running at 72 MHZ should use a HWTC_DIVISOR of 2, while a \r
- * faster chip require a higher HWTC_DIVISOR value. \r
- *\r
- * The HWTC macros and uiTracePortGetTimeStamp is the main porting issue\r
- * or the trace recorder library. Typically you should not need to change\r
- * the code of uiTracePortGetTimeStamp if using the HWTC macros.\r
- *\r
- * FREE LICENSE OFFER FROM PERCEPIO\r
- *\r
- * For silicon companies and non-corporate FreeRTOS users (researchers, students,\r
- * hobbyists or early-phase startups) we have the following offer: \r
- * Provide a hardware port for our FreeRTOS recorder and get a FREE single-user\r
- * license for FreeRTOS+Trace Professional Edition. Read more about this offer\r
- * at www.percepio.com or contact us directly at support@percepio.com.\r
- *\r
- ******************************************************************************/\r
-\r
-#if (SELECTED_PORT == PORT_Win32)\r
- \r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (ulGetRunTimeCounterValue())\r
- #define HWTC_PERIOD 0\r
- #define HWTC_DIVISOR 1\r
- \r
- #define IRQ_PRIORITY_ORDER 1 // Please update according to your hardware...\r
-\r
-#elif (SELECTED_PORT == PORT_HWIndependent)\r
- \r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT 0\r
- #define HWTC_PERIOD 1\r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 1 // Please update according to your hardware...\r
-\r
-#elif (SELECTED_PORT == PORT_Atmel_AT91SAM7)\r
-\r
- /* HWTC_PERIOD is hardcoded for AT91SAM7X256-EK Board (48 MHz)\r
- A more generic solution is to get the period from pxPIT->PITC_PIMR */\r
- \r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (AT91C_BASE_PITC->PITC_PIIR & 0xFFFFF)\r
- #define HWTC_PERIOD 2995 \r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 1 // higher irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_Atmel_UC3A0) \r
- \r
- /* For Atmel AVR32 (AT32UC3A) */\r
- \r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT sysreg_read(AVR32_COUNT)\r
- #define HWTC_PERIOD ( configCPU_CLOCK_HZ / configTICK_RATE_HZ )\r
- #define HWTC_DIVISOR 1 \r
-\r
- #define IRQ_PRIORITY_ORDER 1 // higher irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_ARM_CortexM)\r
-\r
- /* For all chips using ARM Cortex M cores */\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
- #define HWTC_COUNT (*((uint32_t*)0xE000E018))\r
- #define HWTC_PERIOD ((*(uint32_t*)0xE000E014) + 1)\r
- #define HWTC_DIVISOR 2\r
- \r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_Renesas_RX600) \r
-\r
- #include "iodefine.h"\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (CMT0.CMCNT)\r
- #define HWTC_PERIOD ((((configPERIPHERAL_CLOCK_HZ/configTICK_RATE_HZ)-1)/8))\r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 1 // higher irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_Microchip_dsPIC_AND_PIC24) \r
-\r
- /* For Microchip PIC24 and dsPIC (16 bit) */\r
-\r
- /* Note: The trace library was originally designed for 32-bit MCUs, and is slower\r
- than intended on 16-bit MCUs. Storing an event on a PIC24 takes about 70 µs. \r
- In comparison, 32-bit MCUs are often 10-20 times faster. If recording overhead \r
- becomes a problem on PIC24, use the filters to exclude less interresting tasks \r
- or system calls. */\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (TMR1)\r
- #define HWTC_PERIOD (PR1+1)\r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_NXP_LPC210X)\r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
- \r
- /* Tested with LPC2106, but should work with most LPC21XX chips.\r
- Assumption: prescaler is 1:1 (this setting is hardcoded in \r
- FreeRTOS port for LPC21XX) */\r
- \r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT *((uint32_t *)0xE0004008 )\r
- #define HWTC_PERIOD ( configCPU_CLOCK_HZ / configTICK_RATE_HZ ) \r
- #define HWTC_DIVISOR 1 \r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_TEXAS_INSTRUMENTS_TMS570)\r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
-\r
- #define RTIFRC0 *((uint32_t *)0xFFFFFC10)\r
- #define RTICOMP0 *((uint32_t *)0xFFFFFC50)\r
- #define RTIUDCP0 *((uint32_t *)0xFFFFFC54)\r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (RTIFRC0 - (RTICOMP0 - RTIUDCP0))\r
- #define HWTC_PERIOD (RTIUDCP0)\r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_TEXAS_INSTRUMENTS_MSP430)\r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (TA0R)\r
- #define HWTC_PERIOD configCPU_CLOCKS_PER_TICK \r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 1 // higher irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_MICROCHIP_PIC32)\r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_INCREMENTING\r
- #define HWTC_COUNT (ReadTimer1()) /* Should be available in BSP */\r
- #define HWTC_PERIOD (ReadPeriod1()+1) /* Should be available in BSP */\r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_XILINX_PPC405) \r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
- #define HWTC_COUNT mfspr( 0x3db)\r
- #define HWTC_PERIOD ( configCPU_CLOCK_HZ / configTICK_RATE_HZ )\r
- #define HWTC_DIVISOR 1\r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT == PORT_XILINX_PPC440) \r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
-\r
- /* This should work with most PowerPC chips */\r
- \r
- #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
- #define HWTC_COUNT mfspr( 0x016 )\r
- #define HWTC_PERIOD ( configCPU_CLOCK_HZ / configTICK_RATE_HZ )\r
- #define HWTC_DIVISOR 1 \r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
- \r
-#elif (SELECTED_PORT == PORT_XILINX_MICROBLAZE)\r
- /* UNOFFICIAL PORT - NOT YET VERIFIED BY PERCEPIO */\r
-\r
- /* This should work with most Microblaze configurations\r
- * This port is based on the official FreeRTOS Microlaze port and example application.\r
- * It uses the AXI Timer 0 - the tick interrupt source.\r
- * If an AXI Timer 0 peripheral is available on your hardware platform, no modifications are required.\r
- */\r
- #include "xtmrctr_l.h"\r
-\r
- #define HWTC_COUNT_DIRECTION DIRECTION_DECREMENTING\r
- #define HWTC_COUNT XTmrCtr_GetTimerCounterReg( XPAR_TMRCTR_0_BASEADDR, 0 )\r
- #define HWTC_PERIOD ( configCPU_CLOCK_HZ / configTICK_RATE_HZ )\r
- #define HWTC_DIVISOR 16\r
-\r
- #define IRQ_PRIORITY_ORDER 0 // lower irq priority values are more significant\r
-\r
-#elif (SELECTED_PORT != PORT_NOT_SET)\r
-\r
- #error "SELECTED_PORT had unsupported value!"\r
- #define SELECTED_PORT PORT_NOT_SET\r
-\r
-#endif\r
-\r
-#if (SELECTED_PORT != PORT_NOT_SET)\r
- \r
- #ifndef HWTC_COUNT_DIRECTION\r
- #error "HWTC_COUNT_DIRECTION is not set!"\r
- #endif \r
- \r
- #ifndef HWTC_COUNT\r
- #error "HWTC_COUNT is not set!" \r
- #endif \r
- \r
- #ifndef HWTC_PERIOD\r
- #error "HWTC_PERIOD is not set!"\r
- #endif \r
- \r
- #ifndef HWTC_DIVISOR\r
- #error "HWTC_DIVISOR is not set!" \r
- #endif \r
- \r
- #ifndef IRQ_PRIORITY_ORDER\r
- #error "IRQ_PRIORITY_ORDER is not set!"\r
- #elif (IRQ_PRIORITY_ORDER != 0) && (IRQ_PRIORITY_ORDER != 1)\r
- #error "IRQ_PRIORITY_ORDER has bad value!"\r
- #endif \r
- \r
- #if (HWTC_DIVISOR < 1)\r
- #error "HWTC_DIVISOR must be a non-zero positive value!"\r
- #endif \r
-\r
-#endif\r
-/*******************************************************************************\r
- * vTraceConsoleMessage\r
- *\r
- * A wrapper for your system-specific console "printf" console output function.\r
- * This needs to be correctly defined to see status reports from the trace \r
- * status monitor task (this is defined in trcUser.c).\r
- ******************************************************************************/ \r
-#if (SELECTED_PORT == PORT_Atmel_AT91SAM7)\r
-/* Port specific includes */\r
-#include "console.h"\r
-#endif\r
-\r
-#define vTraceConsoleMessage(x)\r
-\r
-/*******************************************************************************\r
- * uiTracePortGetTimeStamp\r
- *\r
- * Returns the current time based on the HWTC macros which provide a hardware\r
- * isolation layer towards the hardware timer/counter.\r
- *\r
- * The HWTC macros and uiTracePortGetTimeStamp is the main porting issue\r
- * or the trace recorder library. Typically you should not need to change\r
- * the code of uiTracePortGetTimeStamp if using the HWTC macros.\r
- *\r
- * OFFER FROM PERCEPIO:\r
- * For silicon companies and non-corporate FreeRTOS users (researchers, \r
- * students, hobbyists or early-phase startups) we have an attractive offer: \r
- * Provide a hardware timer port and get a FREE single-user licence for\r
- * FreeRTOS+Trace Professional Edition. Read more about this offer at \r
- * www.percepio.com or contact us directly at support@percepio.com.\r
- ******************************************************************************/\r
-void uiTracePortGetTimeStamp(uint32_t *puiTimestamp);\r
-\r
-/*******************************************************************************\r
- * vTracePortEnd\r
- * \r
- * This function is called when the recorder is stopped due to full buffer.\r
- * Mainly intended to show a message in the console.\r
- * This is used by the Win32 port to store the trace to a file. The file path is\r
- * set using vTracePortSetFileName.\r
- ******************************************************************************/\r
-void vTracePortEnd(void);\r
-\r
-#if (INCLUDE_SAVE_TO_FILE == 1)\r
-\r
-/*******************************************************************************\r
- * vTracePortSetOutFile\r
- *\r
- * Sets the filename/path used in vTracePortSave.\r
- * This is set in a separate function, since the Win32 port calls vTracePortSave\r
- * in vTracePortEnd if WIN32_PORT_SAVE_WHEN_STOPPED is set.\r
- ******************************************************************************/\r
-void vTracePortSetOutFile(char* path);\r
-\r
-/******************************************************************************\r
- * vTracePortSave\r
- *\r
- * Saves the trace to a file on a target-side file system. The path is set in a \r
- * separate function, vTracePortSetOutFile, since the Win32 port may call\r
- * vTracePortSave in vTracePortEnd, if using WIN32_PORT_SAVE_WHEN_STOPPED.\r
- ******************************************************************************/\r
-void vTracePortSave(void);\r
-\r
-#endif\r
-\r
-#endif\r
\r
/* Win32 includes. */\r
#include <WinSock2.h>\r
+#include <stdio.h>\r
\r
/* FreeRTOS includes. */\r
#include "FreeRTOS.h"\r
<ClCompile Include="..\..\..\FreeRTOS\Source\timers.c" />\r
<ClCompile Include="..\..\Source\FreeRTOS-Plus-CLI\FreeRTOS_CLI.c" />\r
<ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcBase.c" />\r
+ <ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcHardwarePort.c" />\r
<ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcKernel.c" />\r
- <ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcPort.c" />\r
+ <ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcKernelPort.c" />\r
<ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcUser.c" />\r
<ClCompile Include="CLI-commands.c" />\r
<ClCompile Include="main.c">\r
<ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcBase.h" />\r
<ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcHooks.h" />\r
<ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcKernel.h" />\r
+ <ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcKernelPort.h" />\r
<ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcTypes.h" />\r
<ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcUser.h" />\r
<ClInclude Include="FreeRTOSConfig.h" />\r
<ClInclude Include="Trace_Recorder_Configuration\trcConfig.h" />\r
- <ClInclude Include="Trace_Recorder_Configuration\trcPort.h" />\r
+ <ClInclude Include="Trace_Recorder_Configuration\trcHardwarePort.h" />\r
</ItemGroup>\r
<Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />\r
<ImportGroup Label="ExtensionTargets">\r
<ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcKernel.c">\r
<Filter>FreeRTOS+\FreeRTOS+Trace</Filter>\r
</ClCompile>\r
- <ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcPort.c">\r
+ <ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcHardwarePort.c">\r
+ <Filter>FreeRTOS+\FreeRTOS+Trace</Filter>\r
+ </ClCompile>\r
+ <ClCompile Include="..\..\Source\FreeRTOS-Plus-Trace\trcKernelPort.c">\r
<Filter>FreeRTOS+\FreeRTOS+Trace</Filter>\r
</ClCompile>\r
</ItemGroup>\r
<ClInclude Include="FreeRTOSConfig.h">\r
<Filter>FreeRTOS\Configuration Files</Filter>\r
</ClInclude>\r
- <ClInclude Include="Trace_Recorder_Configuration\trcPort.h">\r
- <Filter>Demo App Source\Trace Recorder Configuration</Filter>\r
- </ClInclude>\r
<ClInclude Include="Trace_Recorder_Configuration\trcConfig.h">\r
<Filter>Demo App Source\Trace Recorder Configuration</Filter>\r
</ClInclude>\r
<ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcTypes.h">\r
<Filter>FreeRTOS+\FreeRTOS+Trace\Include</Filter>\r
</ClInclude>\r
+ <ClInclude Include="..\..\Source\FreeRTOS-Plus-Trace\Include\trcKernelPort.h">\r
+ <Filter>FreeRTOS+\FreeRTOS+Trace\Include</Filter>\r
+ </ClInclude>\r
+ <ClInclude Include="Trace_Recorder_Configuration\trcHardwarePort.h">\r
+ <Filter>Demo App Source\Trace Recorder Configuration</Filter>\r
+ </ClInclude>\r
</ItemGroup>\r
</Project>
\ No newline at end of file
* meaningful units. See the documentation page for the Windows simulator for\r
* an explanation of the slow timing:\r
* http://www.freertos.org/FreeRTOS-Windows-Simulator-Emulator-for-Visual-Studio-and-Eclipse-MingW.html\r
+ *\r
+ * Documentation for this demo can be found on:\r
+ * http://www.freertos.org/FreeRTOS-Plus/FreeRTOS_Plus_Trace/Free_RTOS_Plus_Trace_CLI_Example.shtml\r
******************************************************************************\r
*\r
* This is a simple FreeRTOS Windows simulator project that makes it easy to\r
* the screen before returning to block on the queue once again. This\r
* sequencing is clearly visible in the recorded FreeRTOS+Trace data.\r
*\r
- * Finally, a trace monitoring task is also created that prints out a message\r
- * when it determines that the status of the trace has changed since it last\r
- * executed. It prints out a message when the trace has started, when the\r
- * trace has stopped, and periodically when the trace is executing.\r
- *\r
*/\r
\r
/* Standard includes. */\r
/* The queue used by both tasks. */\r
static xQueueHandle xQueue = NULL;\r
\r
+/* The user trace event posted to the trace recording on each tick interrupt.\r
+Note tick events will not appear in the trace recording with regular period\r
+because this project runs in a Windows simulator, and does not therefore\r
+exhibit deterministic behaviour. */\r
+traceLabel xTickTraceUserEvent;\r
+\r
/*-----------------------------------------------------------*/\r
\r
int main( void )\r
{\r
const uint32_t ulLongTime_ms = 250UL;\r
\r
+ /* Initialise the trace recorder and create the label used to post user\r
+ events to the trace recording on each tick interrupt. */\r
+ vTraceInitTraceData();\r
+ xTickTraceUserEvent = xTraceOpenLabel( "tick" );\r
+\r
/* Create the queue used to pass messages from the queue send task to the\r
queue receive task. */\r
xQueue = xQueueCreate( mainQUEUE_LENGTH, sizeof( unsigned long ) );\r
is set using the configUDP_CLI_PORT_NUMBER setting in FreeRTOSConfig.h. */\r
xTaskCreate( vUDPCommandInterpreterTask, ( signed char * ) "CLI", configMINIMAL_STACK_SIZE, NULL, mainUDP_CLI_TASK_PRIORITY, NULL );\r
\r
- /* Create the task that monitors the trace recording status, printing\r
- periodic information to the display. */\r
- vTraceStartStatusMonitor();\r
-\r
/* Register commands with the FreeRTOS+CLI command interpreter. */\r
vRegisterCLICommands();\r
\r
}\r
/*-----------------------------------------------------------*/\r
\r
+void vApplicationTickHook( void )\r
+{\r
+ /* Write a user event to the trace log. \r
+ Note tick events will not appear in the trace recording with regular period\r
+ because this project runs in a Windows simulator, and does not therefore\r
+ exhibit deterministic behaviour. */\r
+ vTraceUserEvent( xTickTraceUserEvent ); \r
+}\r
+\r