fork
Dependencies: BLE_API mbed-dev-bin nRF51822
Fork of microbit-dal by
Diff: source/core/MicroBitHeapAllocator.cpp
- Revision:
- 1:8aa5cdb4ab67
diff -r fb15f7887843 -r 8aa5cdb4ab67 source/core/MicroBitHeapAllocator.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/source/core/MicroBitHeapAllocator.cpp Thu Apr 07 01:33:22 2016 +0100 @@ -0,0 +1,405 @@ +/* +The MIT License (MIT) + +Copyright (c) 2016 British Broadcasting Corporation. +This software is provided by Lancaster University by arrangement with the BBC. + +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. +*/ + +/** + * A simple 32 bit block based memory allocator. This allows one or more memory segments to + * be designated as heap storage, and is designed to run in a static memory area or inside the standard C + * heap for use by the micro:bit runtime. This is required for several reasons: + * + * 1) It reduces memory fragmentation due to the high churn sometime placed on the heap + * by ManagedTypes, fibers and user code. Underlying heap implentations are often have very simplistic + * allocation pilicies and suffer from fragmentation in prolonged use - which can cause programs to + * stop working after a period of time. The algorithm implemented here is simple, but highly tolerant to + * large amounts of churn. + * + * 2) It allows us to reuse the 8K of SRAM set aside for SoftDevice as additional heap storage + * when BLE is not in use. + * + * 3) It gives a simple example of how memory allocation works! :-) + * + * P.S. This is a very simple allocator, therefore not without its weaknesses. Why don't you consider + * what these are, and consider the tradeoffs against simplicity... + * + * @note The need for this should be reviewed in the future, if a different memory allocator is + * made availiable in the mbed platform. + * + * TODO: Consider caching recently freed blocks to improve allocation time. + */ + +#include "MicroBitConfig.h" +#include "MicroBitHeapAllocator.h" +#include "MicroBitDevice.h" +#include "ErrorNo.h" + +struct HeapDefinition +{ + uint32_t *heap_start; // Physical address of the start of this heap. + uint32_t *heap_end; // Physical address of the end of this heap. +}; + +// A list of all active heap regions, and their dimensions in memory. +HeapDefinition heap[MICROBIT_MAXIMUM_HEAPS] = { }; +uint8_t heap_count = 0; + +#if CONFIG_ENABLED(MICROBIT_DBG) && CONFIG_ENABLED(MICROBIT_HEAP_DBG) +// Diplays a usage summary about a given heap... +void microbit_heap_print(HeapDefinition &heap) +{ + uint32_t blockSize; + uint32_t *block; + int totalFreeBlock = 0; + int totalUsedBlock = 0; + int cols = 0; + + if (heap.heap_start == NULL) + { + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("--- HEAP NOT INITIALISED ---\n"); + return; + } + + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("heap_start : %p\n", heap.heap_start); + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("heap_end : %p\n", heap.heap_end); + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("heap_size : %d\n", (int)heap.heap_end - (int)heap.heap_start); + + // Disable IRQ temporarily to ensure no race conditions! + __disable_irq(); + + block = heap.heap_start; + while (block < heap.heap_end) + { + blockSize = *block & ~MICROBIT_HEAP_BLOCK_FREE; + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("[%c:%d] ", *block & MICROBIT_HEAP_BLOCK_FREE ? 'F' : 'U', blockSize*4); + if (cols++ == 20) + { + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("\n"); + cols = 0; + } + + if (*block & MICROBIT_HEAP_BLOCK_FREE) + totalFreeBlock += blockSize; + else + totalUsedBlock += blockSize; + + block += blockSize; + } + + // Enable Interrupts + __enable_irq(); + + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("\n"); + + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("mb_total_free : %d\n", totalFreeBlock*4); + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("mb_total_used : %d\n", totalUsedBlock*4); +} + + +// Diagnostics function. Displays a usage summary about all initialised heaps. +void microbit_heap_print() +{ + for (int i=0; i < heap_count; i++) + { + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("\nHEAP %d: \n", i); + microbit_heap_print(heap[i]); + } +} +#endif + +void microbit_initialise_heap(HeapDefinition &heap) +{ + // Simply mark the entire heap as free. + *heap.heap_start = ((uint32_t) heap.heap_end - (uint32_t) heap.heap_start) / MICROBIT_HEAP_BLOCK_SIZE; + *heap.heap_start |= MICROBIT_HEAP_BLOCK_FREE; +} + +/** + * Create and initialise a given memory region as for heap storage. + * After this is called, any future calls to malloc, new, free or delete may use the new heap. + * The heap allocator will attempt to allocate memory from heaps in the order that they are created. + * i.e. memory will be allocated from first heap created until it is full, then the second heap, and so on. + * + * @param start The start address of memory to use as a heap region. + * + * @param end The end address of memory to use as a heap region. + * + * @return MICROBIT_OK on success, or MICROBIT_NO_RESOURCES if the heap could not be allocated. + * + * @note Only code that #includes MicroBitHeapAllocator.h will use this heap. This includes all micro:bit runtime + * code, and user code targetting the runtime. External code can choose to include this file, or + * simply use the standard heap. + */ +int microbit_create_heap(uint32_t start, uint32_t end) +{ + // Ensure we don't exceed the maximum number of heap segments. + if (heap_count == MICROBIT_MAXIMUM_HEAPS) + return MICROBIT_NO_RESOURCES; + + // Sanity check. Ensure range is valid, large enough and word aligned. + if (end <= start || end - start < MICROBIT_HEAP_BLOCK_SIZE*2 || end % 4 != 0 || start % 4 != 0) + return MICROBIT_INVALID_PARAMETER; + + // Disable IRQ temporarily to ensure no race conditions! + __disable_irq(); + + // Record the dimensions of this new heap + heap[heap_count].heap_start = (uint32_t *)start; + heap[heap_count].heap_end = (uint32_t *)end; + + // Initialise the heap as being completely empty and available for use. + microbit_initialise_heap(heap[heap_count]); + heap_count++; + + // Enable Interrupts + __enable_irq(); + +#if CONFIG_ENABLED(MICROBIT_DBG) && CONFIG_ENABLED(MICROBIT_HEAP_DBG) + microbit_heap_print(); +#endif + + return MICROBIT_OK; +} + +/** + * Create and initialise a heap region within the current the heap region specified + * by the linker script. + * + * If the requested amount is not available, then the amount requested will be reduced + * automatically to fit the space available. + * + * @param ratio The proportion of the underlying heap to allocate. + * + * @return MICROBIT_OK on success, or MICROBIT_NO_RESOURCES if the heap could not be allocated. + */ +int microbit_create_nested_heap(float ratio) +{ + uint32_t length; + void *p; + + if (ratio <= 0.0 || ratio > 1.0) + return MICROBIT_INVALID_PARAMETER; + + // Snapshot something at the top of the main heap. + p = native_malloc(sizeof(uint32_t)); + + // Estimate the size left in our heap, taking care to ensure it lands on a word boundary. + length = (uint32_t) (((float)(MICROBIT_HEAP_END - (uint32_t)p)) * ratio); + length &= 0xFFFFFFFC; + + // Release our reference pointer. + native_free(p); + p = NULL; + + // Allocate memory for our heap. + // We iteratively reduce the size of memory are allocate until it fits within available space. + while (p == NULL) + { + p = native_malloc(length); + if (p == NULL) + { + length -= 32; + if (length <= 0) + return MICROBIT_NO_RESOURCES; + } + } + + uint32_t start = (uint32_t) p; + microbit_create_heap(start, start + length); + + return MICROBIT_OK; +} + +/** + * Attempt to allocate a given amount of memory from any of our configured heap areas. + * + * @param size The amount of memory, in bytes, to allocate. + * + * @return A pointer to the allocated memory, or NULL if insufficient memory is available. + */ +void *microbit_malloc(size_t size, HeapDefinition &heap) +{ + uint32_t blockSize = 0; + uint32_t blocksNeeded = size % MICROBIT_HEAP_BLOCK_SIZE == 0 ? size / MICROBIT_HEAP_BLOCK_SIZE : size / MICROBIT_HEAP_BLOCK_SIZE + 1; + uint32_t *block; + uint32_t *next; + + if (size <= 0) + return NULL; + + // Account for the index block; + blocksNeeded++; + + // Disable IRQ temporarily to ensure no race conditions! + __disable_irq(); + + // We implement a first fit algorithm with cache to handle rapid churn... + // We also defragment free blocks as we search, to optimise this and future searches. + block = heap.heap_start; + while (block < heap.heap_end) + { + // If the block is used, then keep looking. + if(!(*block & MICROBIT_HEAP_BLOCK_FREE)) + { + block += *block; + continue; + } + + blockSize = *block & ~MICROBIT_HEAP_BLOCK_FREE; + + // We have a free block. Let's see if the subsequent ones are too. If so, we can merge... + next = block + blockSize; + + while (*next & MICROBIT_HEAP_BLOCK_FREE) + { + if (next >= heap.heap_end) + break; + + // We can merge! + blockSize += (*next & ~MICROBIT_HEAP_BLOCK_FREE); + *block = blockSize | MICROBIT_HEAP_BLOCK_FREE; + + next = block + blockSize; + } + + // We have a free block. Let's see if it's big enough. + // If so, we have a winner. + if (blockSize >= blocksNeeded) + break; + + // Otherwise, keep looking... + block += blockSize; + } + + // We're full! + if (block >= heap.heap_end) + { + __enable_irq(); + return NULL; + } + + // If we're at the end of memory or have very near match then mark the whole segment as in use. + if (blockSize <= blocksNeeded+1 || block+blocksNeeded+1 >= heap.heap_end) + { + // Just mark the whole block as used. + *block &= ~MICROBIT_HEAP_BLOCK_FREE; + } + else + { + // We need to split the block. + uint32_t *splitBlock = block + blocksNeeded; + *splitBlock = blockSize - blocksNeeded; + *splitBlock |= MICROBIT_HEAP_BLOCK_FREE; + + *block = blocksNeeded; + } + + // Enable Interrupts + __enable_irq(); + + return block+1; +} + +/** + * Release a given area of memory from the heap. + * + * @param mem The memory area to release. + */ +void *microbit_malloc(size_t size) +{ + void *p; + + // Assign the memory from the first heap created that has space. + for (int i=0; i < heap_count; i++) + { + p = microbit_malloc(size, heap[i]); + if (p != NULL) + { +#if CONFIG_ENABLED(MICROBIT_DBG) && CONFIG_ENABLED(MICROBIT_HEAP_DBG) + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("microbit_malloc: ALLOCATED: %d [%p]\n", size, p); +#endif + return p; + } + } + + // If we reach here, then either we have no memory available, or our heap spaces + // haven't been initialised. Either way, we try the native allocator. + + p = native_malloc(size); + if (p != NULL) + { +#if CONFIG_ENABLED(MICROBIT_DBG) && CONFIG_ENABLED(MICROBIT_HEAP_DBG) + // Keep everything trasparent if we've not been initialised yet + if (heap_count > 0) + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("microbit_malloc: NATIVE ALLOCATED: %d [%p]\n", size, p); +#endif + return p; + } + + // We're totally out of options (and memory!). +#if CONFIG_ENABLED(MICROBIT_DBG) && CONFIG_ENABLED(MICROBIT_HEAP_DBG) + // Keep everything transparent if we've not been initialised yet + if (heap_count > 0) + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("microbit_malloc: OUT OF MEMORY [%d]\n", size); +#endif + +#if CONFIG_ENABLED(MICROBIT_PANIC_HEAP_FULL) + microbit_panic(MICROBIT_OOM); +#endif + + return NULL; +} + +/** + * Release a given area of memory from the heap. + * + * @param mem The memory area to release. + */ +void microbit_free(void *mem) +{ + uint32_t *memory = (uint32_t *)mem; + uint32_t *cb = memory-1; + +#if CONFIG_ENABLED(MICROBIT_DBG) && CONFIG_ENABLED(MICROBIT_HEAP_DBG) + if (heap_count > 0) + if(SERIAL_DEBUG) SERIAL_DEBUG->printf("microbit_free: %p\n", mem); +#endif + // Sanity check. + if (memory == NULL) + return; + + // If this memory was created from a heap registered with us, free it. + for (int i=0; i < heap_count; i++) + { + if(memory > heap[i].heap_start && memory < heap[i].heap_end) + { + // The memory block given is part of this heap, so we can simply + // flag that this memory area is now free, and we're done. + *cb |= MICROBIT_HEAP_BLOCK_FREE; + return; + } + } + + // If we reach here, then the memory is not part of any registered heap. + // Forward it to the native heap allocator, and let nature take its course... + native_free(mem); +}