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I am developing the software system for an embedded system of a student satellite. Our code is a mix of C/C++, running on an an AT32UC3A3256S 32-bit AVR microcontroller. We are running the FreeRTOS operating system on the hardware which is working fine. We also have a need for a somewhat specialized memory management scheme due to the physical memory layout, and concept of operations for the mission.

I have been attempting to use a dynamic memory implementation called dlmalloc, largely due to the availability of mspaces, which allows dynamic memory allocation into contained and tracked sections. I have some code that wraps around dlmalloc, in order to create mspaces in certain places in memory, and cause allocations to be tied to these mspaces depending on the FreeRTOS task making the request. The end product is a memory management system that amount of memory a given task has allocated, and if it has gone over it's imposed limit, will reset the task and free it's memory.

I have created a test task that essentially is a big memory leak, continuously allocating memory without freeing it. The memory management system in place should periodically reset this task as it overflows its limit, freeing all memory that would otherwise be leaked. This works perfectly for a single task running, however fails in very odd ways if two similar copies of this task run simultaneously, leading me to believe that the memory allocation is not thread safe.

I have surrounded every call to memory allocation routines with FreeRTOS routines that ensure that only the task allocating memory will run for the duration of the memory request. To me this seems like it should provide the thread-safeness needed, but obviously something else is wrong.

Does anybody have any ideas on what I might be missing to make this system thread-safe, on how to port dlmalloc to the hardware I am using, on any other concurrent memory allocators I could possibly use, or any advice at all? I can provide much more information if necessary but not did want to bloat the original post more than I already have.

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'have surrounded every call to memory allocation routines with FreeRTOS routines that ensure that only the task allocating memory will run for the duration of the memory request.' I assume this means one mutex and acquire/release round every malloc, free and realloc? –  Martin James Jan 19 '12 at 16:46
    
The calls are actually "vTaskSuspendAll" and "xTaskResumeAll", which don't involve mutexes, but instead set a variable in the OS that disable the kernel activity and prevent a context switch. This seems to be the normal way of doing it as far as I can tell. –  Tim Myers Jan 19 '12 at 17:23
    
Any chance you're allocating memory in an interrupt? I'd doubt it, but I had to ask. I believe that interrupts will still run in the context of a vTaskSuspendAll(), it merely suspends the scheduler. Can you try (for now) replacing the APIs you're using with interrupt enable/disable & see if that changes anything? –  Dan Jan 19 '12 at 19:27
    
Hmm.. suspicious.. 'API functions that have the potential to cause a context switch (for example, vTaskDelayUntil(), xQueueSend(), etc.) must not be called while the scheduler is suspended'. Interrupts are still enabled during a 'SuspendAll' - what kind of system calls do your drivers make? My embedded drivers send semaphore signals to make handler threads ready, ie. 'cause a context switch'. Just a thought.. –  Martin James Jan 19 '12 at 19:41
    
By the way, "disables kernel activity" is not exactly what the API does as I recall, it merely inhibits running the scheduler. Could other kernel code be using the memory allocation routine(s)? –  Dan Jan 19 '12 at 19:43

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