/* * GLX Hardware Device Driver common code * Copyright (C) 1999 Wittawat Yamwong * * 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 * WITTAWAT YAMWONG, OR ANY OTHER CONTRIBUTORS 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. * */ #include #include #include "xf86drm.h" #include "libdrm_macros.h" #include "mm.h" drm_private void mmDumpMemInfo(const struct mem_block *heap) { drmMsg("Memory heap %p:\n", (void *)heap); if (heap == 0) { drmMsg(" heap == 0\n"); } else { const struct mem_block *p; for (p = heap->next; p != heap; p = p->next) { drmMsg(" Offset:%08x, Size:%08x, %c%c\n", p->ofs, p->size, p->free ? 'F' : '.', p->reserved ? 'R' : '.'); } drmMsg("\nFree list:\n"); for (p = heap->next_free; p != heap; p = p->next_free) { drmMsg(" FREE Offset:%08x, Size:%08x, %c%c\n", p->ofs, p->size, p->free ? 'F' : '.', p->reserved ? 'R' : '.'); } } drmMsg("End of memory blocks\n"); } drm_private struct mem_block *mmInit(int ofs, int size) { struct mem_block *heap, *block; if (size <= 0) return NULL; heap = (struct mem_block *)calloc(1, sizeof(struct mem_block)); if (!heap) return NULL; block = (struct mem_block *)calloc(1, sizeof(struct mem_block)); if (!block) { free(heap); return NULL; } heap->next = block; heap->prev = block; heap->next_free = block; heap->prev_free = block; block->heap = heap; block->next = heap; block->prev = heap; block->next_free = heap; block->prev_free = heap; block->ofs = ofs; block->size = size; block->free = 1; return heap; } static struct mem_block *SliceBlock(struct mem_block *p, int startofs, int size, int reserved, int alignment) { struct mem_block *newblock; /* break left [p, newblock, p->next], then p = newblock */ if (startofs > p->ofs) { newblock = (struct mem_block *)calloc(1, sizeof(struct mem_block)); if (!newblock) return NULL; newblock->ofs = startofs; newblock->size = p->size - (startofs - p->ofs); newblock->free = 1; newblock->heap = p->heap; newblock->next = p->next; newblock->prev = p; p->next->prev = newblock; p->next = newblock; newblock->next_free = p->next_free; newblock->prev_free = p; p->next_free->prev_free = newblock; p->next_free = newblock; p->size -= newblock->size; p = newblock; } /* break right, also [p, newblock, p->next] */ if (size < p->size) { newblock = (struct mem_block *)calloc(1, sizeof(struct mem_block)); if (!newblock) return NULL; newblock->ofs = startofs + size; newblock->size = p->size - size; newblock->free = 1; newblock->heap = p->heap; newblock->next = p->next; newblock->prev = p; p->next->prev = newblock; p->next = newblock; newblock->next_free = p->next_free; newblock->prev_free = p; p->next_free->prev_free = newblock; p->next_free = newblock; p->size = size; } /* p = middle block */ p->free = 0; /* Remove p from the free list: */ p->next_free->prev_free = p->prev_free; p->prev_free->next_free = p->next_free; p->next_free = 0; p->prev_free = 0; p->reserved = reserved; return p; } drm_private struct mem_block *mmAllocMem(struct mem_block *heap, int size, int align2, int startSearch) { struct mem_block *p; const int mask = (1 << align2) - 1; int startofs = 0; int endofs; if (!heap || align2 < 0 || size <= 0) return NULL; for (p = heap->next_free; p != heap; p = p->next_free) { assert(p->free); startofs = (p->ofs + mask) & ~mask; if (startofs < startSearch) { startofs = startSearch; } endofs = startofs + size; if (endofs <= (p->ofs + p->size)) break; } if (p == heap) return NULL; assert(p->free); p = SliceBlock(p, startofs, size, 0, mask + 1); return p; } static int Join2Blocks(struct mem_block *p) { /* XXX there should be some assertions here */ /* NOTE: heap->free == 0 */ if (p->free && p->next->free) { struct mem_block *q = p->next; assert(p->ofs + p->size == q->ofs); p->size += q->size; p->next = q->next; q->next->prev = p; q->next_free->prev_free = q->prev_free; q->prev_free->next_free = q->next_free; free(q); return 1; } return 0; } drm_private int mmFreeMem(struct mem_block *b) { if (!b) return 0; if (b->free) { drmMsg("block already free\n"); return -1; } if (b->reserved) { drmMsg("block is reserved\n"); return -1; } b->free = 1; b->next_free = b->heap->next_free; b->prev_free = b->heap; b->next_free->prev_free = b; b->prev_free->next_free = b; Join2Blocks(b); if (b->prev != b->heap) Join2Blocks(b->prev); return 0; } drm_private void mmDestroy(struct mem_block *heap) { struct mem_block *p; if (!heap) return; for (p = heap->next; p != heap;) { struct mem_block *next = p->next; free(p); p = next; } free(heap); }