206 lines
6.6 KiB
C
206 lines
6.6 KiB
C
#include "../include/memory.h"
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#include "../include/graphics.h"
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#include "../include/io.h"
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#include "../include/task.h"
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#include "../include/timer.h"
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page_directory_t *kernel_directory = 0; // 内核用页目录
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page_directory_t *current_directory = 0; // 当前页目录
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uint32_t *frames;
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uint32_t nframes;
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extern struct task_struct *current;
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extern uint32_t placement_address;
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extern void *program_break, *program_break_end;
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static void set_frame(uint32_t frame_addr) {
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uint32_t frame = frame_addr / 0x1000;
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uint32_t idx = INDEX_FROM_BIT(frame);
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uint32_t off = OFFSET_FROM_BIT(frame);
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frames[idx] |= (0x1 << off);
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}
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static void clear_frame(uint32_t frame_addr) {
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uint32_t frame = frame_addr / 0x1000;
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uint32_t idx = INDEX_FROM_BIT(frame);
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uint32_t off = OFFSET_FROM_BIT(frame);
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frames[idx] &= ~(0x1 << off);
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}
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static uint32_t test_frame(uint32_t frame_addr) {
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uint32_t frame = frame_addr / 0x1000;
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uint32_t idx = INDEX_FROM_BIT(frame);
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uint32_t off = OFFSET_FROM_BIT(frame);
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return (frames[idx] & (0x1 << off));
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}
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uint32_t first_frame() {
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for (int i = 0; i < INDEX_FROM_BIT(nframes); i++) {
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if (frames[i] != 0xffffffff) {
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for (int j = 0; j < 32; j++) {
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uint32_t toTest = 0x1 << j;
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if (!(frames[i] & toTest)) {
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return i * 4 * 8 + j;
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}
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}
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}
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}
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return (uint32_t) - 1;
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}
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void alloc_frame(page_t *page, int is_kernel, int is_writable) {
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if (page->frame) return;
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else {
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uint32_t idx = first_frame();
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if (idx == (uint32_t) - 1) {
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printf("FRAMES_FREE_ERROR: Cannot free frames!\n");
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asm("cli");
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for (;;)io_hlt();
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}
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set_frame(idx * 0x1000);
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page->present = 1; // 现在这个页存在了
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page->rw = is_writable ? 1 : 0; // 是否可写由is_writable决定
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page->user = is_kernel ? 0 : 1; // 是否为用户态由is_kernel决定
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page->frame = idx;
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}
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}
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void free_frame(page_t *page) {
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uint32_t frame = page->frame;
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if (!frame) return;
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else {
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clear_frame(frame);
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page->frame = 0x0;
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}
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}
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void switch_page_directory(page_directory_t *dir) {
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current_directory = dir;
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asm volatile("mov %0, %%cr3" : : "r"(&dir->tablesPhysical));
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uint32_t cr0;
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asm volatile("mov %%cr0, %0" : "=r"(cr0));
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cr0 |= 0x80000000;
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asm volatile("mov %0, %%cr0" : : "r"(cr0));
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}
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page_t *get_page(uint32_t address, int make, page_directory_t *dir) {
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address /= 0x1000;
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uint32_t table_idx = address / 1024;
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if (dir->tables[table_idx]) return &dir->tables[table_idx]->pages[address % 1024];
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else if (make) {
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uint32_t tmp;
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dir->tables[table_idx] = (page_table_t *) kmalloc_ap(sizeof(page_table_t), &tmp);
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memset(dir->tables[table_idx], 0, 0x1000);
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dir->tablesPhysical[table_idx] = tmp | 0x7;
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return &dir->tables[table_idx]->pages[address % 1024];
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} else return 0;
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}
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void page_fault(registers_t *regs) {
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asm("cli");
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uint32_t faulting_address;
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asm volatile("mov %%cr2, %0" : "=r" (faulting_address)); //
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int present = !(regs->err_code & 0x1); // 页不存在
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int rw = regs->err_code & 0x2; // 只读页被写入
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int us = regs->err_code & 0x4; // 用户态写入内核页
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int reserved = regs->err_code & 0x8; // 写入CPU保留位
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int id = regs->err_code & 0x10; // 由取指引起
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printf("[ERROR]: Page fault |");
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if (present) {
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printf("Type: present;\n\taddress: %x \n", faulting_address);
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} else if (rw) {
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printf("Type: read-only;\n\taddress: %x", faulting_address);
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} else if (us) {
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printf("Type: user-mode;\n\taddres: %x", faulting_address);
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} else if (reserved) {
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printf("Type: reserved;\n\taddress: %x", faulting_address);
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} else if (id) {
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printf("Type: decode address;\n\taddress: %x\n", faulting_address);
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}
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if (current->pid == 0) {
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printf(" ======= Kernel Error ======= \n");
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while (1) io_hlt();
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} else {
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task_kill(current->pid);
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}
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io_sti();
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sleep(1);
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}
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static page_table_t *clone_table(page_table_t *src, uint32_t *physAddr) {
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page_table_t *table = (page_table_t *) kmalloc_ap(sizeof(page_table_t), physAddr);
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memset(table, 0, sizeof(page_directory_t));
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int i;
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for (i = 0; i < 1024; i++) {
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if (!src->pages[i].frame)
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continue;
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alloc_frame(&table->pages[i], 0, 0);
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if (src->pages[i].present) table->pages[i].present = 1;
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if (src->pages[i].rw) table->pages[i].rw = 1;
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if (src->pages[i].user) table->pages[i].user = 1;
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if (src->pages[i].accessed)table->pages[i].accessed = 1;
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if (src->pages[i].dirty) table->pages[i].dirty = 1;
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copy_page_physical(src->pages[i].frame * 0x1000, table->pages[i].frame * 0x1000);
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}
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return table;
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}
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page_directory_t *clone_directory(page_directory_t *src) {
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uint32_t phys;
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page_directory_t *dir = (page_directory_t *) kmalloc_ap(sizeof(page_directory_t), &phys);
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memset(dir, 0, sizeof(page_directory_t));
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uint32_t offset = (uint32_t) dir->tablesPhysical - (uint32_t) dir;
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dir->physicalAddr = phys + offset;
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int i;
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for (i = 0; i < 1024; i++) {
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if (!src->tables[i])
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continue;
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if (kernel_directory->tables[i] == src->tables[i]) {
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dir->tables[i] = src->tables[i];
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dir->tablesPhysical[i] = src->tablesPhysical[i];
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} else {
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uint32_t phys;
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dir->tables[i] = clone_table(src->tables[i], &phys);
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dir->tablesPhysical[i] = phys | 0x07;
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}
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}
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return dir;
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}
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void init_page() {
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uint32_t mem_end_page = 0xFFFFFFFF; // 4GB Page
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nframes = mem_end_page / 0x1000;
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frames = (uint32_t *) kmalloc(INDEX_FROM_BIT(nframes));
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memset(frames, 0, INDEX_FROM_BIT(nframes));
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kernel_directory = (page_directory_t *) kmalloc_a(sizeof(page_directory_t)); //kmalloc: 无分页情况自动在内核后方分配 | 有分页从内核堆分配
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memset(kernel_directory, 0, sizeof(page_directory_t));
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current_directory = kernel_directory;
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int i = 0;
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while (i < placement_address) {
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// 内核部分对ring3而言可读不可写 | 无偏移页表映射
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alloc_frame(get_page(i, 1, kernel_directory), 0, 0);
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i += 0x1000;
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}
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for (int i = KHEAP_START; i < KHEAP_START + KHEAP_INITIAL_SIZE; i++) {
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alloc_frame(get_page(i, 1, kernel_directory), 0, 0);
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}
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register_interrupt_handler(14, page_fault);
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switch_page_directory(kernel_directory);
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program_break = (void *) KHEAP_START;
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program_break_end = (void *) (KHEAP_START + KHEAP_INITIAL_SIZE);
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}
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