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Remove the simple UDP client/server tasks from the MQTT demo as the demo's network connection can be tested more easily just by pinging it.

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Tidy up the iot_config.h header files a little.
This commit is contained in:
Richard Barry 2019-07-23 19:23:12 +00:00
parent 95f60318d5
commit 53842d4cac
7 changed files with 68 additions and 622 deletions
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2
FreeRTOS-Plus/Demo/Common/Demo_IP_Protocols/Common/FreeRTOS_TCP_server.c
View file

@ -89,7 +89,7 @@ SocketSet_t xSocketSet;
xSocket = FreeRTOS_socket( FREERTOS_AF_INET, FREERTOS_SOCK_STREAM, FREERTOS_IPPROTO_TCP );
FreeRTOS_printf( ( "TCP socket on port %d\n", ( int )xPortNumber ) );
if( xSocket != FREERTOS_NO_SOCKET )
if( xSocket != FREERTOS_INVALID_SOCKET )
{
xAddress.sin_addr = FreeRTOS_GetIPAddress(); // Single NIC, currently not used
xAddress.sin_port = FreeRTOS_htons( xPortNumber );

369
FreeRTOS-Plus/Demo/FreeRTOS_IoT_Libraries/mqtt/DemoTasks/SimpleUDPClientAndServer.c
View file

@ -1,369 +0,0 @@
/*
* FreeRTOS Kernel V10.2.1
* Copyright (C) 2017 Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* http://www.FreeRTOS.org
* http://aws.amazon.com/freertos
*
* 1 tab == 4 spaces!
*/
/*
* Creates two transmitting tasks and two receiving tasks. The transmitting
* tasks send values that are received by the receiving tasks. One set of tasks
* uses the standard API. The other set of tasks uses the zero copy API.
*
* See the following web page for essential demo usage and configuration
* details:
* http://www.FreeRTOS.org/FreeRTOS-Plus/FreeRTOS_Plus_TCP/examples_FreeRTOS_simulator.html
*/
/* Standard includes. */
#include <stdint.h>
#include <stdio.h>
/* FreeRTOS includes. */
#include "FreeRTOS.h"
#include "task.h"
/* FreeRTOS+TCP includes. */
#include "FreeRTOS_IP.h"
#include "FreeRTOS_Sockets.h"
#if( configASSERT_DEFINED == 0 )
#error This demo uses configASSERT() to trap errors. configASSERT() must be defined in FreeRTOSConfig.h https://www.freertos.org/a00110.html#configASSERT
#endif
#define simpTINY_DELAY ( ( TickType_t ) 2 )
/*
* Uses a socket to send data without using the zero copy option.
* prvSimpleServerTask() will receive the data.
*/
static void prvSimpleClientTask( void *pvParameters );
/*
* Uses a socket to receive the data sent by the prvSimpleClientTask() task.
* Does not use the zero copy option.
*/
static void prvSimpleServerTask( void *pvParameters );
/*
* Uses a socket to send data using the zero copy option.
* prvSimpleZeroCopyServerTask() will receive the data.
*/
static void prvSimpleZeroCopyUDPClientTask( void *pvParameters );
/*
* Uses a socket to receive the data sent by the prvSimpleZeroCopyUDPClientTask()
* task. Uses the zero copy option.
*/
static void prvSimpleZeroCopyServerTask( void *pvParameters );
/*-----------------------------------------------------------*/
void vStartSimpleUDPClientServerTasks( uint16_t usStackSize, uint32_t ulPort, UBaseType_t uxPriority )
{
/* Create the client and server tasks that do not use the zero copy
interface. */
xTaskCreate( prvSimpleClientTask, "SimpCpyClnt", usStackSize, ( void * ) ulPort, uxPriority, NULL );
xTaskCreate( prvSimpleServerTask, "SimpCpySrv", usStackSize, ( void * ) ulPort, uxPriority + 1, NULL );
/* Create the client and server tasks that do use the zero copy interface. */
xTaskCreate( prvSimpleZeroCopyUDPClientTask, "SimpZCpyClnt", usStackSize, ( void * ) ( ulPort + 1 ), uxPriority, NULL );
xTaskCreate( prvSimpleZeroCopyServerTask, "SimpZCpySrv", usStackSize, ( void * ) ( ulPort + 1 ), uxPriority + 1, NULL );
}
/*-----------------------------------------------------------*/
static void prvSimpleClientTask( void *pvParameters )
{
Socket_t xClientSocket;
struct freertos_sockaddr xDestinationAddress;
uint8_t cString[ 65 ];
BaseType_t lReturned;
uint32_t ulCount = 0UL, ulIPAddress;
const uint32_t ulLoopsPerSocket = 10UL;
const TickType_t x150ms = 150UL / portTICK_PERIOD_MS;
/* Remove compiler warning about unused parameters. */
( void ) pvParameters;
FreeRTOS_printf( ( "Starting prvSimpleClientTask\r\n" ) );
/* It is assumed that this task is not created until the network is up,
so the IP address can be obtained immediately. store the IP address being
used in ulIPAddress. This is done so the socket can send to a different
port on the same IP address. */
FreeRTOS_GetAddressConfiguration( &ulIPAddress, NULL, NULL, NULL );
/* This test sends to itself, so data sent from here is received by a server
socket on the same IP address. Setup the freertos_sockaddr structure with
this nodes IP address, and the port number being sent to. The strange
casting is to try and remove compiler warnings on 32 bit machines. */
xDestinationAddress.sin_addr = ulIPAddress;
xDestinationAddress.sin_port = ( uint16_t ) ( ( uint32_t ) pvParameters ) & 0xffffUL;
xDestinationAddress.sin_port = FreeRTOS_htons( xDestinationAddress.sin_port );
for( ;; )
{
/* Create the socket. */
xClientSocket = FreeRTOS_socket( FREERTOS_AF_INET, FREERTOS_SOCK_DGRAM, FREERTOS_IPPROTO_UDP );
configASSERT( xClientSocket != FREERTOS_INVALID_SOCKET );
/* The count is used to differentiate between different messages sent to
the server, and to break out of the do while loop below. */
ulCount = 0UL;
do
{
/* Create the string that is sent to the server. */
sprintf( ( char * ) cString, "Server received (not zero copy): Message number %lu\r\n", ulCount );
/* Send the string to the socket. ulFlags is set to 0, so the zero
copy option is not selected. That means the data from cString[] is
copied into a network buffer inside FreeRTOS_sendto(), and cString[]
can be reused as soon as FreeRTOS_sendto() has returned. */
lReturned = FreeRTOS_sendto( xClientSocket, ( void * ) cString, strlen( ( const char * ) cString ), 0, &xDestinationAddress, sizeof( xDestinationAddress ) );
ulCount++;
} while( ( lReturned != FREERTOS_SOCKET_ERROR ) && ( ulCount < ulLoopsPerSocket ) );
FreeRTOS_closesocket( xClientSocket );
/* A short delay to prevent the messages printed by the server task
scrolling off the screen too quickly, and to prevent reduce the network
loading. */
vTaskDelay( x150ms );
}
}
/*-----------------------------------------------------------*/
static void prvSimpleServerTask( void *pvParameters )
{
int32_t lBytes;
uint8_t cReceivedString[ 60 ];
struct freertos_sockaddr xClient, xBindAddress;
uint32_t xClientLength = sizeof( xClient );
Socket_t xListeningSocket;
/* Just to prevent compiler warnings. */
( void ) pvParameters;
FreeRTOS_printf( ( "Starting prvSimpleServerTask\r\n" ) );
/* Attempt to open the socket. */
xListeningSocket = FreeRTOS_socket( FREERTOS_AF_INET, FREERTOS_SOCK_DGRAM, FREERTOS_IPPROTO_UDP );
configASSERT( xListeningSocket != FREERTOS_INVALID_SOCKET );
/* This test receives data sent from a different port on the same IP
address. Configure the freertos_sockaddr structure with the address being
bound to. The strange casting is to try and remove compiler warnings on 32
bit machines. Note that this task is only created after the network is up,
so the IP address is valid here. */
xBindAddress.sin_port = ( uint16_t ) ( ( uint32_t ) pvParameters ) & 0xffffUL;
xBindAddress.sin_port = FreeRTOS_htons( xBindAddress.sin_port );
/* Bind the socket to the port that the client task will send to. */
FreeRTOS_bind( xListeningSocket, &xBindAddress, sizeof( xBindAddress ) );
for( ;; )
{
/* Zero out the receive array so there is NULL at the end of the string
when it is printed out. */
memset( cReceivedString, 0x00, sizeof( cReceivedString ) );
/* Receive data on the socket. ulFlags is zero, so the zero copy option
is not set and the received data is copied into the buffer pointed to by
cReceivedString. By default the block time is portMAX_DELAY.
xClientLength is not actually used by FreeRTOS_recvfrom(), but is set
appropriately in case future versions do use it. */
lBytes = FreeRTOS_recvfrom( xListeningSocket, cReceivedString, sizeof( cReceivedString ), 0, &xClient, &xClientLength );
/* Error check. */
configASSERT( lBytes == ( BaseType_t ) strlen( ( const char * ) cReceivedString ) );
FreeRTOS_printf( ( "prvSimpleServerTask() recieved %s\r\n", ( const char * ) cReceivedString ) );
}
}
/*-----------------------------------------------------------*/
static void prvSimpleZeroCopyUDPClientTask( void *pvParameters )
{
Socket_t xClientSocket;
uint8_t *pucUDPPayloadBuffer;
struct freertos_sockaddr xDestinationAddress;
BaseType_t lReturned;
uint32_t ulCount = 0UL, ulIPAddress;
const uint32_t ulLoopsPerSocket = 10UL;
const char *pcStringToSend = "Server received (using zero copy): Message number ";
const TickType_t x150ms = 150UL / portTICK_PERIOD_MS;
/* 15 is added to ensure the number, \r\n and terminating zero fit. */
const size_t xStringLength = strlen( pcStringToSend ) + 15;
/* Remove compiler warning about unused parameters. */
( void ) pvParameters;
FreeRTOS_printf( ( "Starting prvSimpleZeroCopyUDPClientTask\r\n" ) );
/* It is assumed that this task is not created until the network is up,
so the IP address can be obtained immediately. store the IP address being
used in ulIPAddress. This is done so the socket can send to a different
port on the same IP address. */
FreeRTOS_GetAddressConfiguration( &ulIPAddress, NULL, NULL, NULL );
/* This test sends to itself, so data sent from here is received by a server
socket on the same IP address. Setup the freertos_sockaddr structure with
this nodes IP address, and the port number being sent to. The strange
casting is to try and remove compiler warnings on 32 bit machines. */
xDestinationAddress.sin_addr = ulIPAddress;
xDestinationAddress.sin_port = ( uint16_t ) ( ( uint32_t ) pvParameters ) & 0xffffUL;
xDestinationAddress.sin_port = FreeRTOS_htons( xDestinationAddress.sin_port );
for( ;; )
{
/* Create the socket. */
xClientSocket = FreeRTOS_socket( FREERTOS_AF_INET, FREERTOS_SOCK_DGRAM, FREERTOS_IPPROTO_UDP );
configASSERT( xClientSocket != FREERTOS_INVALID_SOCKET );
/* The count is used to differentiate between different messages sent to
the server, and to break out of the do while loop below. */
ulCount = 0UL;
do
{
/* This task is going to send using the zero copy interface. The
data being sent is therefore written directly into a buffer that is
passed into, rather than copied into, the FreeRTOS_sendto()
function.
First obtain a buffer of adequate length from the IP stack into which
the string will be written. Although a max delay is used, the actual
delay will be capped to ipconfigMAX_SEND_BLOCK_TIME_TICKS, hence
the do while loop is used to ensure a buffer is obtained. */
do
{
} while( ( pucUDPPayloadBuffer = ( uint8_t * ) FreeRTOS_GetUDPPayloadBuffer( xStringLength, portMAX_DELAY ) ) == NULL );
/* A buffer was successfully obtained. Create the string that is
sent to the server. First the string is filled with zeros as this will
effectively be the null terminator when the string is received at the other
end. Note that the string is being written directly into the buffer
obtained from the IP stack above. */
memset( ( void * ) pucUDPPayloadBuffer, 0x00, xStringLength );
sprintf( ( char * ) pucUDPPayloadBuffer, "%s%lu\r\n", pcStringToSend, ulCount );
/* Pass the buffer into the send function. ulFlags has the
FREERTOS_ZERO_COPY bit set so the IP stack will take control of the
buffer rather than copy data out of the buffer. */
lReturned = FreeRTOS_sendto( xClientSocket, /* The socket being sent to. */
( void * ) pucUDPPayloadBuffer, /* A pointer to the the data being sent. */
strlen( ( const char * ) pucUDPPayloadBuffer ) + 1, /* The length of the data being sent - including the string's null terminator. */
FREERTOS_ZERO_COPY, /* ulFlags with the FREERTOS_ZERO_COPY bit set. */
&xDestinationAddress, /* Where the data is being sent. */
sizeof( xDestinationAddress ) );
if( lReturned == 0 )
{
/* The send operation failed, so this task is still responsible
for the buffer obtained from the IP stack. To ensure the buffer
is not lost it must either be used again, or, as in this case,
returned to the IP stack using FreeRTOS_ReleaseUDPPayloadBuffer().
pucUDPPayloadBuffer can be safely re-used after this call. */
FreeRTOS_ReleaseUDPPayloadBuffer( ( void * ) pucUDPPayloadBuffer );
}
else
{
/* The send was successful so the IP stack is now managing the
buffer pointed to by pucUDPPayloadBuffer, and the IP stack will
return the buffer once it has been sent. pucUDPPayloadBuffer can
be safely re-used. */
}
ulCount++;
} while( ( lReturned != FREERTOS_SOCKET_ERROR ) && ( ulCount < ulLoopsPerSocket ) );
FreeRTOS_closesocket( xClientSocket );
/* A short delay to prevent the messages scrolling off the screen too
quickly. */
vTaskDelay( x150ms );
}
}
/*-----------------------------------------------------------*/
static void prvSimpleZeroCopyServerTask( void *pvParameters )
{
int32_t lBytes;
uint8_t *pucUDPPayloadBuffer;
struct freertos_sockaddr xClient, xBindAddress;
uint32_t xClientLength = sizeof( xClient ), ulIPAddress;
Socket_t xListeningSocket;
/* Just to prevent compiler warnings. */
( void ) pvParameters;
FreeRTOS_printf( ( "Starting prvSimpleZeroCopyServerTask\r\n" ) );
/* Attempt to open the socket. */
xListeningSocket = FreeRTOS_socket( FREERTOS_AF_INET, FREERTOS_SOCK_DGRAM, FREERTOS_IPPROTO_UDP );
configASSERT( xListeningSocket != FREERTOS_INVALID_SOCKET );
/* This test receives data sent from a different port on the same IP address.
Obtain the nodes IP address. Configure the freertos_sockaddr structure with
the address being bound to. The strange casting is to try and remove
compiler warnings on 32 bit machines. Note that this task is only created
after the network is up, so the IP address is valid here. */
FreeRTOS_GetAddressConfiguration( &ulIPAddress, NULL, NULL, NULL );
xBindAddress.sin_addr = ulIPAddress;
xBindAddress.sin_port = ( uint16_t ) ( ( uint32_t ) pvParameters ) & 0xffffUL;
xBindAddress.sin_port = FreeRTOS_htons( xBindAddress.sin_port );
/* Bind the socket to the port that the client task will send to. */
FreeRTOS_bind( xListeningSocket, &xBindAddress, sizeof( xBindAddress ) );
for( ;; )
{
/* Receive data on the socket. ulFlags has the zero copy bit set
(FREERTOS_ZERO_COPY) indicating to the stack that a reference to the
received data should be passed out to this task using the second
parameter to the FreeRTOS_recvfrom() call. When this is done the
IP stack is no longer responsible for releasing the buffer, and
the task *must* return the buffer to the stack when it is no longer
needed. By default the block time is portMAX_DELAY. */
lBytes = FreeRTOS_recvfrom( xListeningSocket, ( void * ) &pucUDPPayloadBuffer, 0, FREERTOS_ZERO_COPY, &xClient, &xClientLength );
/* Print the received characters. */
if( lBytes > 0 )
{
/* It is expected to receive one more byte than the string length as
the NULL terminator is also transmitted. */
configASSERT( lBytes == ( ( BaseType_t ) strlen( ( const char * ) pucUDPPayloadBuffer ) + 1 ) );
FreeRTOS_printf( ( "prvSimpleZeroCopyServerTask() recieved %s\r\n", ( const char * ) pucUDPPayloadBuffer ) );
}
if( lBytes >= 0 )
{
/* The buffer *must* be freed once it is no longer needed. */
FreeRTOS_ReleaseUDPPayloadBuffer( pucUDPPayloadBuffer );
}
}
}

22
FreeRTOS-Plus/Demo/FreeRTOS_IoT_Libraries/mqtt/iot_config.h
View file

@ -61,7 +61,18 @@
*/
#define IOT_TASKPOOL_ENABLE_ASSERTS 1
/**
/*
* The full IoT Task Pool Library has many use cases, including Linux
* development.  Typical FreeRTOS use cases do not require the full
* functionality so an optimised implementation is provided specifically for use
* with FreeRTOS. The optimised version has a fixed number of tasks in the
* pool, each of which uses statically allocated memory to ensure creation of
* the pool is guaranteed (it does not run out of heap space).
* IOT_TASKPOOL_NUMBER_OF_WORKERS sets the number of tasks in the pool.
*/
#define IOT_TASKPOOL_NUMBER_OF_WORKERS 3
/*
* @brief Set the log level of the task pool library.
*
* Log messages from the task pool library at or below this setting will be
@ -73,13 +84,6 @@
*/
#define IOT_LOG_LEVEL_TASKPOOL IOT_LOG_INFO
/**
* @brief The number of worker tasks in the task pool.
*
* The minimal version of the of task pool library only supports one task pool
* and the number of the worker tasks is fixed at the compile time.
*/
#define IOT_TASKPOOL_NUMBER_OF_WORKERS 3
/**
* @brief The stack size (in bytes) for each worker task in the task pool.
@ -98,7 +102,7 @@
/**
* @brief Enable/Disable anonymous metrics collection when using AWS IoT.
*
* This demo does not support TLS and so does not work with AWS IoT. Therefore,
* This demo does not use TLS and so does not work with AWS IoT. Therefore,
* the metric collection must be disabled.
*/
#define AWS_IOT_MQTT_ENABLE_METRICS 0

47
FreeRTOS-Plus/Demo/FreeRTOS_IoT_Libraries/mqtt/main.c
View file

@ -26,10 +26,7 @@
*/
/*
* This project is a cut down version of the project described on the following
* link. Only the simple UDP client and server and the TCP echo clients are
* included in the build:
* http://www.freertos.org/FreeRTOS-Plus/FreeRTOS_Plus_TCP/examples_FreeRTOS_simulator.html
* TBD
*/
/* Standard includes. */
@ -51,32 +48,13 @@ should an assert get hit. */
/* Demo app includes. */
#include "demo_logging.h"
/* Set the following constants to 1 or 0 to define which tasks to include and
exclude:
mainCREATE_SIMPLE_UDP_CLIENT_SERVER_TASKS: When set to 1 two UDP client tasks
and two UDP server tasks are created. The clients talk to the servers. One set
of tasks use the standard sockets interface, and the other the zero copy sockets
interface. These tasks are self checking and will trigger a configASSERT() if
they detect a difference in the data that is received from that which was sent.
As these tasks use UDP, and can therefore loose packets, they will cause
configASSERT() to be called when they are run in a less than perfect networking
environment.
mainCREATE_SIMPLE_MQTT_EXAMPLE_TASKS: TBD
*/
#define mainCREATE_SIMPLE_UDP_CLIENT_SERVER_TASKS 0
#define mainCREATE_SIMPLE_MQTT_EXAMPLE_TASKS 1
/* Simple UDP client and server task parameters. */
#define mainSIMPLE_UDP_CLIENT_SERVER_TASK_PRIORITY ( tskIDLE_PRIORITY )
#define mainSIMPLE_UDP_CLIENT_SERVER_PORT ( 5005UL )
/*
* Prototypes for the demos that can be started from this project.
* Prototypes for the demos that can be started from this project. Note the
* MQTT demo is not actually started until the network is already, which is
* indicated by vApplicationIPNetworkEventHook() executing - hence
* prvStartSimpleMQTTDemo() is called from inside vApplicationIPNetworkEventHook().
*/
extern void vStartSimpleMQTTDemo( void );
extern void vStartSimpleUDPClientServerTasks( uint16_t usStackSize, uint32_t ulsPort, UBaseType_t uxPriority );
/*
* Just seeds the simple pseudo random number generator.
@ -197,18 +175,9 @@ static BaseType_t xTasksAlreadyCreated = pdFALSE;
created. */
if( xTasksAlreadyCreated == pdFALSE )
{
#if( mainCREATE_SIMPLE_UDP_CLIENT_SERVER_TASKS == 1 )
{
vStartSimpleUDPClientServerTasks( configMINIMAL_STACK_SIZE, mainSIMPLE_UDP_CLIENT_SERVER_PORT, mainSIMPLE_UDP_CLIENT_SERVER_TASK_PRIORITY );
}
#endif
#if( mainCREATE_SIMPLE_MQTT_EXAMPLE_TASKS == 1 )
{
vStartSimpleMQTTDemo();
}
#endif
/* Demos that use the nextwork are created after the nextwork is
up. */
vStartSimpleMQTTDemo();
xTasksAlreadyCreated = pdTRUE;
}

22
FreeRTOS-Plus/Demo/FreeRTOS_IoT_Libraries/task_pool/iot_config.h
View file

@ -59,6 +59,17 @@
*/
#define IOT_TASKPOOL_ENABLE_ASSERTS 1
/*
* The full IoT Task Pool Library has many use cases, including Linux
* development.  Typical FreeRTOS use cases do not require the full
* functionality so an optimised implementation is provided specifically for use
* with FreeRTOS. The optimised version has a fixed number of tasks in the
* pool, each of which uses statically allocated memory to ensure creation of
* the pool is guaranteed (it does not run out of heap space).
* IOT_TASKPOOL_NUMBER_OF_WORKERS sets the number of tasks in the pool.
*/
#define IOT_TASKPOOL_NUMBER_OF_WORKERS 3
/*
* Set the log level of the task pool library.
*
@ -71,15 +82,14 @@
*/
#define IOT_LOG_LEVEL_TASKPOOL IOT_LOG_INFO
/*
*
*/
#define IOT_TASKPOOL_NUMBER_OF_WORKERS 3
/*
/**
* @brief The stack size (in bytes) for each worker task in the task pool.
*
* The minimal version of the of task pool library only supports one task pool
* and the configuration of each worker task fixed at the compile time.
*/
#define IOT_TASKPOOL_WORKER_STACK_SIZE_BYTES 2048
#define IOT_TASKPOOL_WORKER_STACK_SIZE_BYTES 2048
/* Include the common configuration file for FreeRTOS. */
#include "iot_config_common.h"

51
FreeRTOS-Plus/Source/FreeRTOS-IoT-Libraries/c_sdk/standard/common/taskpool/iot_taskpool.c
View file

@ -27,6 +27,35 @@
* @brief Implements the task pool functions in iot_taskpool.h
*/
/*
* The full IoT Task Pool Library has many use cases, including Linux
* development.  Typical FreeRTOS use cases do not require the full
* functionality so an optimised implementation is provided specifically for use
* with FreeRTOS. The optimised version has a fixed number of tasks in the
* pool, each of which uses statically allocated memory to ensure creation of
* the pool is guaranteed (it does not run out of heap space). The constant
* IOT_TASKPOOL_NUMBER_OF_WORKERS sets the number of tasks in the pool.
*
* Unlike the full version, this optimised version:
* + Only supports a single task pool (system task pool) at a time.
* + Does not auto-scale by dynamically adding more tasks if the number of
* + tasks in the pool becomes exhausted.  The number of tasks in the pool
* are fixed at compile time.  See the task pool configuration options for
* more information.
* + Cannot be shut down - it exists for the lifetime of the application.
*
* As such this file does not implement the following API functions:
* + IotTaskPool_GetSystemTaskPool()
* + IotTaskPool_Create()
* + IotTaskPool_Destroy()
* + IotTaskPool_SetMaxThreads()
*
* Users who are interested in the functionality of the full IoT Task Pool
* library can us it in place of this optimised version.
*/
/* Kernel includes. */
#include "FreeRTOS.h"
#include "semphr.h"
@ -224,28 +253,6 @@ static IotTaskPoolError_t _tryCancelInternal( _taskPool_t * const pTaskPool,
/* ---------------------------------------------------------------------------------------------- */
/*
* The full IoT Task Pool Library has many use cases, including Linux
* development.  Typical FreeRTOS use cases do not require the full
* functionality so optimised version is provided specifically for use with
* FreeRTOS. Unlike the full version, this optimised version:
* + Only supports a single task pool (system task pool) at a time.
* + Does not auto-scale by dynamically adding more tasks if the number of
* + tasks in the pool becomes exhausted.  The number of tasks in the pool
* are fixed at compile time.  See the task pool configuration options for
* more information.
* + Cannot be shut down - it exists for the lifetime of the application.
*
* As such this file does not implement the following API functions:
* + IotTaskPool_GetSystemTaskPool()
* + IotTaskPool_Create()
* + IotTaskPool_Destroy()
* + IotTaskPool_SetMaxThreads()
*
* Users who are interested in the functionality of the full IoT Task Pool
* library can us it in place of this optimised version.
*/
IotTaskPoolError_t IotTaskPool_CreateSystemTaskPool( const IotTaskPoolInfo_t * const pInfo )
{
TASKPOOL_FUNCTION_ENTRY( IOT_TASKPOOL_SUCCESS );

175
FreeRTOS-Plus/Source/FreeRTOS-IoT-Libraries/c_sdk/standard/common/taskpool/iot_taskpool_static_memory.c
View file

@ -1,175 +0,0 @@
/*
* Amazon FreeRTOS Common V1.0.0
* Copyright (C) 2018 Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
* the Software, and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
* http://aws.amazon.com/freertos
* http://www.FreeRTOS.org
*/
/**
* @file iot_taskpool_static_memory.c
* @brief Implementation of task pool static memory functions.
*/
/* The config header is always included first. */
#include "iot_config.h"
/* This file should only be compiled if dynamic memory allocation is forbidden. */
#if IOT_STATIC_MEMORY_ONLY == 1
/* Standard includes. */
#include <stdbool.h>
#include <stddef.h>
#include <string.h>
/* Static memory include. */
#include "private/iot_static_memory.h"
/* Task pool internal include. */
#include "private/iot_taskpool_internal.h"
/*-----------------------------------------------------------*/
/* Validate static memory configuration settings. */
#if IOT_TASKPOOL_JOBS_RECYCLE_LIMIT <= 0
#error "IOT_TASKPOOL_JOBS_RECYCLE_LIMIT cannot be 0 or negative."
#endif
/*-----------------------------------------------------------*/
/*
* Static memory buffers and flags, allocated and zeroed at compile-time.
*/
static bool _pInUseTaskPools[ IOT_TASKPOOLS ] = { 0 }; /**< @brief Task pools in-use flags. */
static _taskPool_t _pTaskPools[ IOT_TASKPOOLS ] = { { .dispatchQueue = IOT_DEQUEUE_INITIALIZER } }; /**< @brief Task pools. */
static bool _pInUseTaskPoolJobs[ IOT_TASKPOOL_JOBS_RECYCLE_LIMIT ] = { 0 }; /**< @brief Task pool jobs in-use flags. */
static _taskPoolJob_t _pTaskPoolJobs[ IOT_TASKPOOL_JOBS_RECYCLE_LIMIT ] = { { .link = IOT_LINK_INITIALIZER } }; /**< @brief Task pool jobs. */
static bool _pInUseTaskPoolTimerEvents[ IOT_TASKPOOL_JOBS_RECYCLE_LIMIT ] = { 0 }; /**< @brief Task pool timer event in-use flags. */
static _taskPoolTimerEvent_t _pTaskPoolTimerEvents[ IOT_TASKPOOL_JOBS_RECYCLE_LIMIT ] = { { .link = { 0 } } }; /**< @brief Task pool timer events. */
/*-----------------------------------------------------------*/
void * IotTaskPool_MallocTaskPool( size_t size )
{
int freeIndex = -1;
void * pNewTaskPool = NULL;
/* Check size argument. */
if( size == sizeof( _taskPool_t ) )
{
/* Find a free task pool job. */
freeIndex = IotStaticMemory_FindFree( _pInUseTaskPools, IOT_TASKPOOLS );
if( freeIndex != -1 )
{
pNewTaskPool = &( _pTaskPools[ freeIndex ] );
}
}
return pNewTaskPool;
}
/*-----------------------------------------------------------*/
void IotTaskPool_FreeTaskPool( void * ptr )
{
/* Return the in-use task pool job. */
IotStaticMemory_ReturnInUse( ptr,
_pTaskPools,
_pInUseTaskPools,
IOT_TASKPOOLS,
sizeof( _taskPool_t ) );
}
/*-----------------------------------------------------------*/
void * IotTaskPool_MallocJob( size_t size )
{
int32_t freeIndex = -1;
void * pNewJob = NULL;
/* Check size argument. */
if( size == sizeof( _taskPoolJob_t ) )
{
/* Find a free task pool job. */
freeIndex = IotStaticMemory_FindFree( _pInUseTaskPoolJobs,
IOT_TASKPOOL_JOBS_RECYCLE_LIMIT );
if( freeIndex != -1 )
{
pNewJob = &( _pTaskPoolJobs[ freeIndex ] );
}
}
return pNewJob;
}
/*-----------------------------------------------------------*/
void IotTaskPool_FreeJob( void * ptr )
{
/* Return the in-use task pool job. */
IotStaticMemory_ReturnInUse( ptr,
_pTaskPoolJobs,
_pInUseTaskPoolJobs,
IOT_TASKPOOL_JOBS_RECYCLE_LIMIT,
sizeof( _taskPoolJob_t ) );
}
/*-----------------------------------------------------------*/
void * IotTaskPool_MallocTimerEvent( size_t size )
{
int32_t freeIndex = -1;
void * pNewTimerEvent = NULL;
/* Check size argument. */
if( size == sizeof( _taskPoolTimerEvent_t ) )
{
/* Find a free task pool timer event. */
freeIndex = IotStaticMemory_FindFree( _pInUseTaskPoolTimerEvents,
IOT_TASKPOOL_JOBS_RECYCLE_LIMIT );
if( freeIndex != -1 )
{
pNewTimerEvent = &( _pTaskPoolTimerEvents[ freeIndex ] );
}
}
return pNewTimerEvent;
}
/*-----------------------------------------------------------*/
void IotTaskPool_FreeTimerEvent( void * ptr )
{
/* Return the in-use task pool timer event. */
IotStaticMemory_ReturnInUse( ptr,
_pTaskPoolTimerEvents,
_pInUseTaskPoolTimerEvents,
IOT_TASKPOOL_JOBS_RECYCLE_LIMIT,
sizeof( _taskPoolTimerEvent_t ) );
}
/*-----------------------------------------------------------*/
#endif