#pragma once // Kernel virtual memory region allocator // This is entirely thread-safe #include #include // Region types #define REGION_T_KERNEL_BASE 0x00000001 // base kernel code & data #define REGION_T_DESCRIPTORS 0x00000002 // contains more region descriptors #define REGION_T_CORE_HEAP 0x00000100 // used for the core kernel heap #define REGION_T_KPROC_HEAP 0x00000200 // used for a kernel process' heap #define REGION_T_KPROC_STACK 0x00000400 // used for a kernel process' heap #define REGION_T_PROC_KSTACK 0x00000800 // used for a process' kernel heap #define REGION_T_CACHE 0x00001000 // used for cache #define REGION_T_HW 0x00002000 // used for hardware access struct region_info; typedef void (*page_fault_handler_t)(pagedir_t *pd, struct region_info *r, void* addr); typedef struct region_info { void* addr; size_t size; uint32_t type; page_fault_handler_t pf; } region_info_t; void region_allocator_init(void* kernel_data_end); void* region_alloc(size_t size, uint32_t type, page_fault_handler_t pf); // returns 0 on error region_info_t *find_region(void* addr); void region_free(void* addr); // some usefull PF handlers // default_allocator_pf_handler : just allocates new frames on page faults void default_allocator_pf_handler(pagedir_t *pd, struct region_info *r, void* addr); // some functions for freeing regions and frames // region_free_unmap_free : deletes a region and frees all frames that were mapped in it void region_free_unmap_free(void* addr); // region_free_unmap : deletes a region and unmaps all frames that were mapped in it, without freeing them void region_free_unmap(void* addr); void dbg_print_region_info(); /* vim: set ts=4 sw=4 tw=0 noet :*/