#include "../include/memory.h" header_t *head = NULL, *tail = NULL; // 内存块链表 extern page_directory_t *current_directory; extern uint32_t end; // declared in linker.ld static uint32_t placement_address = (uint32_t) &end; void *program_break, *program_break_end; static uint32_t kmalloc_int(uint32_t sz, uint32_t align, uint32_t *phys) { if (program_break) { // 有内存堆 void *addr = alloc(sz); // 直接malloc,align丢掉了 if (phys) { // 需要物理地址,先找到对应页 page_t *page = get_page((uint32_t) addr, 0, current_directory); *phys = page->frame * 0x1000 + ((uint32_t) addr & 0xfff); } return (uint32_t) addr; } if (align && (placement_address & 0x00000FFF)) { placement_address &= 0xFFFFF000; placement_address += 0x1000; } if (phys) *phys = placement_address; uint32_t tmp = placement_address; placement_address += sz; return tmp; } uint32_t kmalloc_a(uint32_t size) { return kmalloc_int(size, 1, 0); } uint32_t kmalloc_p(uint32_t size, uint32_t *phys) { return kmalloc_int(size, 0, phys); } uint32_t kmalloc_ap(uint32_t size, uint32_t *phys) { return kmalloc_int(size, 1, phys); } uint32_t kmalloc(uint32_t size) { return kmalloc_int(size, 0, 0); } void *ksbrk(int incr) { if (program_break == 0 || program_break + incr >= program_break_end) return (void *) -1; void *prev_break = program_break; program_break += incr; return prev_break; } // 寻找一个符合条件的指定大小的空闲内存块 static header_t *get_free_block(uint32_t size) { header_t *curr = head; while (curr) { if (curr->s.is_free && curr->s.size >= size) return curr; curr = curr->s.next; } return NULL; } void *alloc(uint32_t size) { uint32_t total_size; void *block; header_t *header; if (!size) return NULL; header = get_free_block(size); if (header) { header->s.is_free = 0; return (void *) (header + 1); } total_size = sizeof(header_t) + size; block = ksbrk(total_size); if (block == (void *) -1) return NULL; header = block; header->s.size = size; header->s.is_free = 0; header->s.next = NULL; if (!head) head = header; if (tail) tail->s.next = header; tail = header; return (void *) (header + 1); } void kfree(void *block) { header_t *header, *tmp; if (!block) return; header = (header_t *) block - 1; if ((char *) block + header->s.size == program_break) { if (head == tail) head = tail = NULL; else { tmp = head; while (tmp) { if (tmp->s.next == tail) { tmp->s.next = NULL; tail = tmp; } tmp = tmp->s.next; } } ksbrk(0 - sizeof(header_t) - header->s.size); return; } header->s.is_free = 1; }