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edcfd676bf
Author | SHA1 | Date | |
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edcfd676bf |
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@ -133,4 +133,7 @@ int acpi_validate_sdt_checksum(struct ACPISDTHeader *s);
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struct ACPISDTHeader *acpi_find_table(struct rsdt *root, const char *signature);
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void *acpi_locate_sdt(struct rsdt *rsdt, const char sig[4]);
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struct kernel_context;
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int acpi_init(struct kernel_context *ctx);
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#endif
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@ -49,4 +49,6 @@ void encode_idt_entry(struct idt_entry idt[], int i, uint32_t offset, uint16_t s
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void flush_idt(uint32_t idt_pointer);
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void exception_handler(struct registers regs);
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void interrupts_init(struct idt_entry idt[], struct idtr idtr);
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#endif
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@ -108,8 +108,7 @@
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#define KBD_INSERT2 0xD2
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#define KBD_DELETE2 0xD3
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void initialize_8042ps2();
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extern void ps2_isr();
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void ps2_init();
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void ps2_handler();
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#endif
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60
src/acpi.c
60
src/acpi.c
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@ -1,5 +1,8 @@
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#include <kernel/acpi.h>
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#include <kernel/strcmp.h>
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#include <kernel/vga.h>
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#include <kernel/printf.h>
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#include <kernel/kernel.h>
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struct rsdp *acpi_locate_rsdp() {
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char *ptr = (char *)BIOS_START;
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@ -55,3 +58,60 @@ void *acpi_locate_sdt(struct rsdt *rsdt, const char sig[4]) {
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return 0;
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}
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int acpi_init(struct kernel_context *ctx) {
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struct rsdp *found_rsdp = acpi_locate_rsdp();
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if (!found_rsdp) {
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set_color(VGA_COLOR_RED);
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printf("Failed to find RSDP signature\n");
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return 0;
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}
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if (found_rsdp->Revision == ACPI_VER_1) {
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if (!acpi_validate_rsdp_checksum(found_rsdp)) {
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set_color(VGA_COLOR_RED);
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printf("RSDP has an invalid checksum\n");
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return 0;
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}
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ctx->rsdp = found_rsdp;
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ctx->xsdp = 0;
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if (!acpi_validate_sdt_checksum((struct ACPISDTHeader *)found_rsdp->RsdtAddress)) {
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set_color(VGA_COLOR_RED);
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printf("RSDT has an invalid checksum\n");
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return 0;
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}
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ctx->rsdt = (struct rsdt*)found_rsdp->RsdtAddress;
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} else if (found_rsdp->Revision == ACPI_VER_OTHER) {
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set_color(VGA_COLOR_RED);
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printf("ACPI versions higher than 1.0 are not yet supported because I'm lazy\n");
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return 0;
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} else {
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set_color(VGA_COLOR_RED);
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printf("Invalid RSDP\n");
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return 0;
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}
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printf("[KERNEL] Using ACPI v1.0\n");
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struct fadt *fadt = acpi_locate_sdt(ctx->rsdt, "FACP");
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if (!fadt) {
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set_color(VGA_COLOR_RED);
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printf("Failed to find FADT\n");
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return 0;
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}
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printf("[KERNEL] Found FADT at 0x%x\n", fadt);
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if (fadt->Flags & 1)
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printf("[KERNEL] Legacy devices are supported\n");
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else {
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/*
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set_color(VGA_COLOR_RED);
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printf("Legacy devices are not supported. I'm too lazy to support modern devices, bye bye.\n");
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goto halt;
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*/
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}
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return 1;
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}
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23
src/idt.c
23
src/idt.c
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@ -1,6 +1,8 @@
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#include <kernel/idt.h>
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#include <kernel/vga.h>
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#include <kernel/printf.h>
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#include <kernel/gdt.h>
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#include <kernel/pic8259.h>
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void encode_idt_entry(struct idt_entry idt[], int i, uint32_t offset, uint16_t segment_selector, uint8_t attributes) {
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idt[i].offset_lo = (uint16_t)(offset & 0xFFFF);
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@ -10,6 +12,27 @@ void encode_idt_entry(struct idt_entry idt[], int i, uint32_t offset, uint16_t s
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idt[i].offset_hi = (uint16_t)(offset >> 16);
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}
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extern uint32_t isr_stub_table[32];
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extern void ps2_isr();
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extern void syscall_isr();
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void interrupts_init(struct idt_entry idt[], struct idtr idtr) {
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for (int i = 0; i < 32; i++) {
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encode_idt_entry(idt, i, isr_stub_table[i], GDT_SEGMENT_SELECTOR(GDT_KERNEL_CODE, 0x00), TRAP_GATE_32 | INT_RING0 | INT_PRESENT);
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}
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encode_idt_entry(idt, 0x21, (uint32_t)&ps2_isr, GDT_SEGMENT_SELECTOR(GDT_KERNEL_CODE, RING0), INT_GATE_32 | INT_RING0 | INT_PRESENT);
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encode_idt_entry(idt, 0x80, (uint32_t)&syscall_isr, GDT_SEGMENT_SELECTOR(GDT_USER_CODE, RING3), INT_GATE_32 | INT_RING3 | INT_PRESENT);
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idtr.size = (sizeof(struct idt_entry) * 256) - 1;
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idtr.base = (uint32_t) idt;
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asm volatile ("lidt %0" :: "m"(idtr));
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pic_remap(PIC_1_START, PIC_2_START);
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asm volatile ("sti" ::);
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}
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void exception_handler(struct registers regs) {
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clear_screen();
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155
src/kmain.c
155
src/kmain.c
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@ -19,16 +19,10 @@
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struct kernel_context ctx = {0};
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struct idt_entry g_idt[256] = {0};
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struct idtr g_idtr = {0};
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extern uint32_t isr_stub_table[32];
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extern void ps2_isr();
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extern struct gdt_entry gdt[6];
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extern void syscall_isr();
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extern void syscall();
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extern void test();
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linked_mem_t stdout = {0};
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linked_mem_t stdin = {0};
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struct tss_entry tss;
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struct stack_frame {
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@ -37,13 +31,13 @@ struct stack_frame {
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void syscall_read(struct stack_frame regs) {
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uint32_t fd = regs.edi;
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char *buf = (char *)regs.esi;
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// char *buf = (char *)regs.esi;
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uint32_t count = regs.edx;
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if (fd == FD_STDOUT) {
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int pages = count / BLOCK_SIZE;
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if (pages == 0) {
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memcpy(buf, stdout.data, count);
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// memcpy(buf, stdout.data, count);
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}
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}
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}
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@ -83,123 +77,9 @@ void switch_to_user_mode(void *user_stack, void *user_entry) {
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);
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}
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void kmain(struct multiboot_info *info) {
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clear_screen();
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set_color(VGA_COLOR_CYAN);
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// Check if the bootloader gave us the upper and lower memory
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if (!(info->flags & 0x1)) goto halt;
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ctx.multi_mmap = (struct multiboot_mmap_entry *)info->memMapAddress;
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ctx.multi_mmap_size = info->memMapLength / sizeof(struct multiboot_mmap_entry);
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if (!mmap_init(&ctx)) {
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set_color(VGA_COLOR_RED);
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printf("Failed to create memory map\n");
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goto halt;
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}
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printf("[KERNEL] Detected %d bytes of memory\n", ctx.available_bytes);
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// Create and load an IDT
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for (int i = 0; i < 32; i++) {
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encode_idt_entry(g_idt, i, isr_stub_table[i], GDT_SEGMENT_SELECTOR(GDT_KERNEL_CODE, 0x00), TRAP_GATE_32 | INT_RING0 | INT_PRESENT);
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}
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g_idtr.size = (sizeof(struct idt_entry) * 256) - 1;
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g_idtr.base = (uint32_t) &g_idt;
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asm volatile ("lidt %0" :: "m"(g_idtr));
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struct rsdp *found_rsdp = acpi_locate_rsdp();
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if (!found_rsdp) {
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set_color(VGA_COLOR_RED);
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printf("Failed to find RSDP signature\n");
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goto halt;
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}
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if (found_rsdp->Revision == ACPI_VER_1) {
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if (!acpi_validate_rsdp_checksum(found_rsdp)) {
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set_color(VGA_COLOR_RED);
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printf("RSDP has an invalid checksum\n");
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goto halt;
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}
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ctx.rsdp = found_rsdp;
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ctx.xsdp = 0;
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if (!acpi_validate_sdt_checksum((struct ACPISDTHeader *)found_rsdp->RsdtAddress)) {
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set_color(VGA_COLOR_RED);
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printf("RSDT has an invalid checksum\n");
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goto halt;
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}
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ctx.rsdt = (struct rsdt*)found_rsdp->RsdtAddress;
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} else if (found_rsdp->Revision == ACPI_VER_OTHER) {
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set_color(VGA_COLOR_RED);
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printf("ACPI versions higher than 1.0 are not yet supported because I'm lazy\n");
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goto halt;
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} else {
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set_color(VGA_COLOR_RED);
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printf("Invalid RSDP\n");
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goto halt;
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}
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printf("[KERNEL] Using ACPI v1.0\n");
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struct fadt *fadt = acpi_locate_sdt(ctx.rsdt, "FACP");
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if (!fadt) {
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set_color(VGA_COLOR_RED);
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printf("Failed to find FADT\n");
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goto halt;
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}
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printf("[KERNEL] Found FADT at 0x%x\n", fadt);
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if (fadt->Flags & 1)
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printf("[KERNEL] Legacy devices are supported\n");
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else {
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/*
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set_color(VGA_COLOR_RED);
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printf("Legacy devices are not supported. I'm too lazy to support modern devices, bye bye.\n");
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goto halt;
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*/
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}
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pic_remap(PIC_1_START, PIC_2_START);
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// ACPI version 1.0 is so old that we assume that our PC supports the 8042 ps/2 controller
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// Allocate 4KiB for stdout
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stdout.data = mmap_find_first_free_block(&ctx);
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stdout.next = NULL;
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// Allocate 4KiB for stdin
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stdin.data = mmap_find_first_free_block(&ctx);
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stdin.next = NULL;
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initialize_8042ps2();
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encode_idt_entry(g_idt, 0x21, (uint32_t)&ps2_isr, GDT_SEGMENT_SELECTOR(GDT_KERNEL_CODE, RING0), INT_GATE_32 | INT_RING0 | INT_PRESENT);
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asm volatile ("sti" ::);
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/*
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struct mcfg *mcfg = acpi_locate_sdt(ctx.rsdt, "MCFG");
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if (!mcfg) {
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set_color(VGA_COLOR_RED);
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printf("Failed to find MCFG\n");
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} else {
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printf("Looks like you are using PCIe- Found MCFG at 0x%x\n", mcfg);
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struct pci_config_space *ide = pcie_find_device(mcfg, MASS_STORAGE_CONTROLLER, IDE_INTERFACE);
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if (ide) {
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printf("IDE controller detected. Program Interface: %X\n", ide->program_interface);
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uint16_t ide_buf[256] = {0};
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ide_identify(ATA_PRIMARY, ATA_MASTER, ide_buf);
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}
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}
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*/
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write_tss(&tss, gdt, 5, 0x10, 0x0);
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tss_flush(0x2B);
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encode_idt_entry(g_idt, 0x80, (uint32_t)&syscall_isr, GDT_SEGMENT_SELECTOR(GDT_USER_CODE, RING3), INT_GATE_32 | INT_RING3 | INT_PRESENT);
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uint16_t cs_selector = 0x10; // Example code segment selector
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uint32_t eip = (uint32_t)&syscall; // Example entry point address
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void user_init() {
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// Setup syscalls
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uint32_t eip = (uint32_t)&syscall;
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uint32_t esp;
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// Get the current value of ESP
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@ -212,7 +92,7 @@ void kmain(struct multiboot_info *info) {
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"xor %%edx, %%edx \n\t" // Upper 32 bits (zero for 32-bit value)
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"wrmsr"
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:
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: "r"((uint32_t)cs_selector)
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: "r"(GDT_SEGMENT_SELECTOR(GDT_KERNEL_CODE, RING0))
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: "eax", "ecx", "edx"
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);
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@ -238,7 +118,10 @@ void kmain(struct multiboot_info *info) {
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: "eax", "ecx", "edx"
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);
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void *page = mmap_find_first_free_block(&ctx);
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// Switch
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write_tss(&tss, gdt, 5, 0x10, 0x0);
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tss_flush(0x2B);
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void *page = (uint32_t *)0x6000;
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ata_read_sector(ATA_PRIMARY, ATA_MASTER, 0, page);
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printf("[KERNEL] Init program loaded to 0x%08X\n", page);
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printf("[KERNEL] Transferring control... goodbye\n");
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@ -246,8 +129,24 @@ void kmain(struct multiboot_info *info) {
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// 4 KiB for stack
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void *stack_bottom = mmap_find_first_free_block(&ctx);
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void *stack_top = stack_bottom + 0x1000;
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MAGIC_BREAKPOINT
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switch_to_user_mode(stack_top, page);
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}
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void kmain(struct multiboot_info *info) {
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clear_screen();
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set_color(VGA_COLOR_CYAN);
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// Check if the bootloader gave us the upper and lower memory
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if (!(info->flags & 0x1)) goto halt;
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ctx.multi_mmap = (struct multiboot_mmap_entry *)info->memMapAddress;
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ctx.multi_mmap_size = info->memMapLength / sizeof(struct multiboot_mmap_entry);
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mmap_init(&ctx);
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acpi_init(&ctx);
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ps2_init();
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interrupts_init(g_idt, g_idtr);
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user_init();
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halt:
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for (;;) {}
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}
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