/****************************************************************************** * Copyright (c) 2013 IBM Corporation * All rights reserved. * This program and the accompanying materials * are made available under the terms of the BSD License * which accompanies this distribution, and is available at * http://www.opensource.org/licenses/bsd-license.php * * Contributors: * IBM Corporation - initial implementation *****************************************************************************/ /* * All functions concerning interface to slof */ #include #include #include #include #include #undef DEBUG //#define DEBUG #ifdef DEBUG #define dprintf(_x ...) do { printf ("%s: ", __func__); printf(_x); } while (0); #else #define dprintf(_x ...) #endif #define DEFAULT_BLOCK_SIZE 4096 #define BM_WORD_SIZE (sizeof(unsigned long)) #define BM_WORD_BITS (BM_WORD_SIZE * 8) struct bitmap { unsigned long start; unsigned long size; unsigned long bm_size; unsigned long block_size; unsigned long free_blocks; unsigned long bmw[]; }; #define BIT(x) (1UL << x) #define BM_WORD(bmw, n) (bmw[n/BM_WORD_BITS]) #define BM_WORD_MODULO(n) (n % BM_WORD_BITS) #define BM_NUM_BITS(reqsize, bsize) ((reqsize / bsize) + (reqsize % bsize? 1 : 0)) void bm_clear_bit(unsigned long *bmw, int n) { BM_WORD(bmw, n) &= ~BIT(BM_WORD_MODULO(n)); } void bm_set_bit(unsigned long *bmw, int n) { BM_WORD(bmw, n) |= BIT(BM_WORD_MODULO(n)); } bool bm_test_bit(unsigned long *bmw, int n) { #ifdef DEBUG //printf("BMW %x, bitpos %d, value %d\n", &BM_WORD(bmw, n), n, !!(BM_WORD(bmw, n) & BIT(BM_WORD_MODULO(n)))); #endif return !!(BM_WORD(bmw, n) & BIT(BM_WORD_MODULO(n))); } /* Improvement: can use FFS routines to get faster results */ int bm_find_bits(struct bitmap *bm, unsigned int n_bits) { unsigned int i, j, total_bits; int found = -1; dprintf("Finding %d bits set\n", n_bits); total_bits = BM_NUM_BITS(bm->size, bm->block_size); for(i = 0; i < total_bits; i++) { if (!bm_test_bit(bm->bmw, i)) continue; /* we have hit the boundary now, give up */ if (i + n_bits > total_bits) break; /* Lets find if we have consecutive bits set */ for(j = i; j < (i + n_bits); j++) { if (!bm_test_bit(bm->bmw, (j))) break; } /* Got it */ if (j == (i + n_bits)) { found = i; break; } } return found; } void SLOF_bm_print(unsigned long handle) { struct bitmap *bm; unsigned int i; if (!handle) return; bm = (struct bitmap *) handle; printf("BITMAP: start %lx, size %ld, blocksize %ld\n\n", bm->start, bm->size, bm->block_size); printf("0 16 32 48 63\n"); for(i = 0; i < BM_NUM_BITS(bm->size, bm->block_size); i++) { if (i > 0 && (i % 64 == 0)) printf("\n"); else if (i > 0 && (i % 8 == 0)) printf(" "); printf("%d", bm_test_bit(bm->bmw, i)); } printf("\n\n"); } unsigned long SLOF_bm_allocator_init(unsigned long start, unsigned long size, unsigned long blocksize) { struct bitmap *bm; unsigned long alloc_size, bm_size, n_bits; dprintf("enter start %x, size %d, block-size %d\n", start, size, blocksize); if (!size) return 0; if (!blocksize) blocksize = DEFAULT_BLOCK_SIZE; n_bits = BM_NUM_BITS(size, blocksize); bm_size = (n_bits / BM_WORD_BITS) + ((n_bits % BM_WORD_BITS)? 1 : 0); alloc_size = sizeof(struct bitmap) + bm_size * BM_WORD_SIZE; dprintf("Size %ld, blocksize %ld, bm_size %ld, alloc_size %ld\n", size, blocksize, bm_size, alloc_size); bm = (struct bitmap *) SLOF_alloc_mem(alloc_size); if (!bm) return 0; bm->start = start; bm->size = size; bm->bm_size = bm_size; bm->block_size = blocksize; bm->free_blocks = n_bits; memset(bm->bmw, 0xFF, bm_size*BM_WORD_SIZE); return (unsigned long)bm; } unsigned long SLOF_bm_alloc(unsigned long handle, unsigned long size) { struct bitmap *bm; unsigned long n_bits; unsigned long addr; unsigned int i; int bitpos; if (!handle) return -1; bm = (struct bitmap *) handle; n_bits = BM_NUM_BITS(size, bm->block_size); if (n_bits > bm->free_blocks) return -1; bitpos = bm_find_bits(bm, n_bits); if (bitpos == -1) return -1; dprintf("BMW %d, bitpos %d\n", i, bitpos); dprintf("size %d, block_size %d, n_bits %d\n", size, bm->block_size, n_bits); for(i = bitpos; i < (bitpos + n_bits); i++) { #ifdef DEBUG if (!bm_test_bit(bm->bmw, i)) dprintf("Warning: Bit already in use: %d\n", i); #endif bm_clear_bit(bm->bmw, i); } bm->free_blocks -= n_bits; addr = bm->start + bitpos * bm->block_size; dprintf("BMW %d, bitpos %d addr %lx free_blocks %d\n", i, bitpos, addr, bm->free_blocks); return addr; } void SLOF_bm_free(unsigned long handle, unsigned long ptr, unsigned long size) { struct bitmap *bm; unsigned long bitpos, n_bits; unsigned long addr; unsigned int i; if (!handle) return; bm = (struct bitmap *) handle; addr = (unsigned long ) ptr; n_bits = BM_NUM_BITS(size, bm->block_size); if (addr < bm->start || (bm->start + bm->size) < (addr + size)) { printf("Error: Bitmap start %lx, size %ld, requested address %lx, size %ld\n", bm->start, bm->size, addr, size); return; } bitpos = (addr - bm->start) / bm->block_size; bm->free_blocks += n_bits; #ifdef DEBUG dprintf("addr %lx, bitpos %d\n", addr, bitpos); dprintf("size %d, block_size %d, n_bits %d, free_blocks %d\n", size, bm->block_size, n_bits, bm->free_blocks); if (addr % bm->block_size) { dprintf("Warning: Address not aligned addr %lx\n", addr); } #endif for(i = bitpos; i < (bitpos + n_bits); i++) { #ifdef DEBUG if (bm_test_bit(bm->bmw, i)) dprintf("Warning: Bit already set: %d\n", i); #endif bm_set_bit(bm->bmw, i); } return; }