rulimine/stage23/protos/stivale2.c

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#include <stdint.h>
#include <stddef.h>
#include <stdbool.h>
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#include <protos/stivale.h>
#include <protos/stivale2.h>
#include <lib/elf.h>
#include <lib/blib.h>
#include <lib/acpi.h>
#include <lib/config.h>
#include <lib/time.h>
#include <lib/print.h>
#include <lib/real.h>
#include <lib/libc.h>
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#include <lib/gterm.h>
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#include <lib/uri.h>
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#include <sys/smp.h>
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#include <sys/cpu.h>
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#include <lib/fb.h>
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#include <lib/term.h>
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#include <sys/pic.h>
#include <sys/lapic.h>
#include <fs/file.h>
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#include <mm/pmm.h>
#include <stivale/stivale2.h>
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#include <pxe/tftp.h>
#include <drivers/edid.h>
#include <drivers/vga_textmode.h>
#define REPORTED_ADDR(PTR) \
((PTR) + ((stivale2_hdr.flags & (1 << 1)) ? \
(want_5lv ? 0xff00000000000000 : 0xffff800000000000) : 0))
struct stivale2_struct stivale2_struct = {0};
inline static size_t get_phys_addr(uint64_t addr) {
if (addr & ((uint64_t)1 << 63))
return addr - FIXED_HIGHER_HALF_OFFSET_64;
return addr;
}
static void *get_tag(struct stivale2_header *s, uint64_t id) {
struct stivale2_tag *tag = (void*)get_phys_addr(s->tags);
for (;;) {
if (tag == NULL)
return NULL;
if (tag->identifier == id)
return tag;
tag = (void*)get_phys_addr(tag->next);
}
}
#define append_tag(S, TAG) ({ \
(TAG)->next = (S)->tags; \
(S)->tags = REPORTED_ADDR((uint64_t)(uintptr_t)TAG); \
})
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#if defined (bios)
extern symbol stivale2_term_write_entry;
#endif
void stivale2_load(char *config, char *cmdline, bool pxe, void *efi_system_table) {
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struct file_handle *kernel_file = ext_mem_alloc(sizeof(struct file_handle));
char *kernel_path = config_get_value(config, 0, "KERNEL_PATH");
if (kernel_path == NULL)
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panic("stivale2: KERNEL_PATH not specified");
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print("stivale2: Loading kernel `%s`...\n", kernel_path);
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if (!uri_open(kernel_file, kernel_path))
panic("stivale2: Failed to open kernel with path `%s`. Is the path correct?", kernel_path);
char *kaslr_s = config_get_value(config, 0, "KASLR");
bool kaslr = true;
if (kaslr_s != NULL && strcmp(kaslr_s, "no") == 0)
kaslr = false;
struct stivale2_header stivale2_hdr;
bool level5pg = false;
uint64_t slide = 0;
uint64_t entry_point = 0;
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uint8_t *kernel = freadall(kernel_file, STIVALE2_MMAP_BOOTLOADER_RECLAIMABLE);
int bits = elf_bits(kernel);
bool loaded_by_anchor = false;
if (bits == -1) {
struct stivale2_anchor *anchor;
if (!stivale_load_by_anchor((void **)&anchor, "STIVALE2 ANCHOR", kernel, kernel_file->size)) {
panic("stivale2: Not a valid ELF or anchored file.");
}
bits = anchor->bits;
memcpy(&stivale2_hdr, (void *)(uintptr_t)anchor->phys_stivale2hdr,
sizeof(struct stivale2_header));
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loaded_by_anchor = true;
}
int ret = 0;
switch (bits) {
case 64: {
// Check if 64 bit CPU
uint32_t eax, ebx, ecx, edx;
if (!cpuid(0x80000001, 0, &eax, &ebx, &ecx, &edx) || !(edx & (1 << 29))) {
panic("stivale2: This CPU does not support 64-bit mode.");
}
// Check if 5-level paging is available
if (cpuid(0x00000007, 0, &eax, &ebx, &ecx, &edx) && (ecx & (1 << 16))) {
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printv("stivale2: CPU has 5-level paging support\n");
level5pg = true;
}
if (!loaded_by_anchor) {
if (elf64_load(kernel, &entry_point, NULL, &slide,
STIVALE2_MMAP_KERNEL_AND_MODULES, kaslr, false))
panic("stivale2: ELF64 load failure");
ret = elf64_load_section(kernel, &stivale2_hdr, ".stivale2hdr",
sizeof(struct stivale2_header), slide);
}
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break;
}
case 32: {
if (!loaded_by_anchor) {
if (elf32_load(kernel, (uint32_t *)&entry_point, NULL, 10))
panic("stivale2: ELF32 load failure");
ret = elf32_load_section(kernel, &stivale2_hdr, ".stivale2hdr",
sizeof(struct stivale2_header));
}
break;
}
default:
panic("stivale2: Not 32 nor 64-bit kernel. What is this?");
}
printv("stivale2: %u-bit kernel detected\n", bits);
switch (ret) {
case 1:
panic("stivale2: File is not a valid ELF.");
case 2:
panic("stivale2: Section .stivale2hdr not found.");
case 3:
panic("stivale2: Section .stivale2hdr exceeds the size of the struct.");
case 4:
panic("stivale2: Section .stivale2hdr is smaller than size of the struct.");
}
if ((stivale2_hdr.flags & (1 << 1)) && bits == 32) {
panic("stivale2: Higher half addresses header flag not supported in 32-bit mode.");
}
bool want_5lv = (get_tag(&stivale2_hdr, STIVALE2_HEADER_TAG_5LV_PAGING_ID) ? true : false) && level5pg;
if (stivale2_hdr.entry_point != 0)
entry_point = stivale2_hdr.entry_point;
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if (verbose) {
print("stivale2: Kernel slide: %X\n", slide);
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print("stivale2: Entry point at: %X\n", entry_point);
print("stivale2: Requested stack at: %X\n", stivale2_hdr.stack);
}
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strcpy(stivale2_struct.bootloader_brand, "Limine");
strcpy(stivale2_struct.bootloader_version, LIMINE_VERSION);
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//////////////////////////////////////////////
// Create kernel file struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_kernel_file *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_kernel_file));
tag->tag.identifier = STIVALE2_STRUCT_TAG_KERNEL_FILE_ID;
tag->kernel_file = REPORTED_ADDR((uint64_t)(uintptr_t)kernel);
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append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
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//////////////////////////////////////////////
// Create kernel slide struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_kernel_slide *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_kernel_slide));
tag->tag.identifier = STIVALE2_STRUCT_TAG_KERNEL_SLIDE_ID;
tag->kernel_slide = slide;
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create firmware struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_firmware *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_firmware));
tag->tag.identifier = STIVALE2_STRUCT_TAG_FIRMWARE_ID;
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#if defined (bios)
tag->flags = 1 << 0; // bit 0 = BIOS boot
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#endif
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create modules struct tag
//////////////////////////////////////////////
{
size_t module_count;
for (module_count = 0; ; module_count++) {
char *module_file = config_get_value(config, module_count, "MODULE_PATH");
if (module_file == NULL)
break;
}
struct stivale2_struct_tag_modules *tag =
ext_mem_alloc(sizeof(struct stivale2_struct_tag_modules)
+ sizeof(struct stivale2_module) * module_count);
tag->tag.identifier = STIVALE2_STRUCT_TAG_MODULES_ID;
tag->module_count = module_count;
for (size_t i = 0; i < module_count; i++) {
char *module_path = config_get_value(config, i, "MODULE_PATH");
struct stivale2_module *m = &tag->modules[i];
char *module_string = config_get_value(config, i, "MODULE_STRING");
if (module_string == NULL) {
m->string[0] = '\0';
} else {
// TODO perhaps change this to be a pointer
size_t str_len = strlen(module_string);
if (str_len > 127)
str_len = 127;
memcpy(m->string, module_string, str_len);
}
print("stivale2: Loading module `%s`...\n", module_path);
struct file_handle f;
if (!uri_open(&f, module_path))
panic("stivale2: Failed to open module with path `%s`. Is the path correct?", module_path);
m->begin = REPORTED_ADDR((uint64_t)(size_t)freadall(&f, STIVALE2_MMAP_KERNEL_AND_MODULES));
m->end = m->begin + f.size;
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if (verbose) {
print("stivale2: Requested module %u:\n", i);
print(" Path: %s\n", module_path);
print(" String: %s\n", m->string);
print(" Begin: %X\n", m->begin);
print(" End: %X\n", m->end);
}
}
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create RSDP struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_rsdp *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_rsdp));
tag->tag.identifier = STIVALE2_STRUCT_TAG_RSDP_ID;
uint64_t rsdp = (uint64_t)(size_t)acpi_get_rsdp();
if (rsdp)
tag->rsdp = REPORTED_ADDR(rsdp);
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create SMBIOS struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_smbios *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_smbios));
tag->tag.identifier = STIVALE2_STRUCT_TAG_SMBIOS_ID;
uint64_t smbios_entry_32 = 0, smbios_entry_64 = 0;
acpi_get_smbios((void **)&smbios_entry_32, (void **)&smbios_entry_64);
if (smbios_entry_32)
tag->smbios_entry_32 = REPORTED_ADDR(smbios_entry_32);
if (smbios_entry_64)
tag->smbios_entry_64 = REPORTED_ADDR(smbios_entry_64);
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create cmdline struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_cmdline *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_cmdline));
tag->tag.identifier = STIVALE2_STRUCT_TAG_CMDLINE_ID;
tag->cmdline = REPORTED_ADDR((uint64_t)(size_t)cmdline);
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create epoch struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_epoch *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_epoch));
tag->tag.identifier = STIVALE2_STRUCT_TAG_EPOCH_ID;
tag->epoch = time();
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printv("stivale2: Current epoch: %U\n", tag->epoch);
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// Create framebuffer struct tag
//////////////////////////////////////////////
{
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struct fb_info *fb = NULL;
struct fb_info _fb;
struct stivale2_header_tag_framebuffer *hdrtag = get_tag(&stivale2_hdr, STIVALE2_HEADER_TAG_FRAMEBUFFER_ID);
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int req_width, req_height, req_bpp;
if (hdrtag != NULL) {
req_width = hdrtag->framebuffer_width;
req_height = hdrtag->framebuffer_height;
req_bpp = hdrtag->framebuffer_bpp;
char *resolution = config_get_value(config, 0, "RESOLUTION");
if (resolution != NULL)
parse_resolution(&req_width, &req_height, &req_bpp, resolution);
}
struct stivale2_header_tag_terminal *terminal_hdr_tag = get_tag(&stivale2_hdr, STIVALE2_HEADER_TAG_TERMINAL_ID);
if (bits == 64 && terminal_hdr_tag != NULL && hdrtag != NULL) {
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term_vbe(req_width, req_height);
if (current_video_mode < 0) {
panic("stivale2: Failed to initialise terminal");
}
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fb = &fbinfo;
struct stivale2_struct_tag_terminal *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_terminal));
tag->tag.identifier = STIVALE2_STRUCT_TAG_TERMINAL_ID;
#if defined (bios)
tag->term_write = (uintptr_t)(void *)stivale2_term_write_entry;
#elif defined (uefi)
tag->term_write = (uintptr_t)term_write;
#endif
// We provide rows and cols
tag->flags |= (1 << 0);
tag->cols = term_cols;
tag->rows = term_rows;
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append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
goto skip_modeset;
} else {
fb = &_fb;
}
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if (hdrtag != NULL) {
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term_deinit();
if (fb_init(fb, req_width, req_height, req_bpp)) {
skip_modeset:;
struct stivale2_struct_tag_framebuffer *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_framebuffer));
tag->tag.identifier = STIVALE2_STRUCT_TAG_FRAMEBUFFER_ID;
memmap_alloc_range(fb->framebuffer_addr,
(uint64_t)fb->framebuffer_pitch * fb->framebuffer_height,
MEMMAP_FRAMEBUFFER, false, false, false, true);
tag->memory_model = STIVALE2_FBUF_MMODEL_RGB;
tag->framebuffer_addr = REPORTED_ADDR(fb->framebuffer_addr);
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tag->framebuffer_width = fb->framebuffer_width;
tag->framebuffer_height = fb->framebuffer_height;
tag->framebuffer_bpp = fb->framebuffer_bpp;
tag->framebuffer_pitch = fb->framebuffer_pitch;
tag->red_mask_size = fb->red_mask_size;
tag->red_mask_shift = fb->red_mask_shift;
tag->green_mask_size = fb->green_mask_size;
tag->green_mask_shift = fb->green_mask_shift;
tag->blue_mask_size = fb->blue_mask_size;
tag->blue_mask_shift = fb->blue_mask_shift;
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
} else {
#if defined (uefi)
panic("stivale2: Cannot use text mode with UEFI.");
#elif defined (bios)
int rows, cols;
init_vga_textmode(&rows, &cols, false);
#endif
}
}
//////////////////////////////////////////////
// Create EDID struct tag
//////////////////////////////////////////////
{
struct edid_info_struct *edid_info = get_edid_info();
if (edid_info != NULL) {
struct stivale2_struct_tag_edid *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_edid) + sizeof(struct edid_info_struct));
tag->tag.identifier = STIVALE2_STRUCT_TAG_EDID_ID;
tag->edid_size = sizeof(struct edid_info_struct);
memcpy(tag->edid_information, edid_info, sizeof(struct edid_info_struct));
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
}
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#if defined (bios)
//////////////////////////////////////////////
// Create PXE struct tag
//////////////////////////////////////////////
if (pxe) {
struct stivale2_struct_tag_pxe_server_info *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_pxe_server_info));
tag->tag.identifier = STIVALE2_STRUCT_TAG_PXE_SERVER_INFO;
tag->server_ip = get_boot_server_info();
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
#else
(void)pxe;
#endif
//////////////////////////////////////////////
// Create EFI system table struct tag
//////////////////////////////////////////////
{
if (efi_system_table != NULL) {
struct stivale2_struct_tag_efi_system_table *tag = ext_mem_alloc(sizeof(struct stivale2_struct_tag_efi_system_table));
tag->tag.identifier = STIVALE2_STRUCT_TAG_EFI_SYSTEM_TABLE_ID;
tag->system_table = REPORTED_ADDR((uint64_t)(uintptr_t)efi_system_table);
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
}
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bool unmap_null = get_tag(&stivale2_hdr, STIVALE2_HEADER_TAG_UNMAP_NULL_ID) ? true : false;
pagemap_t pagemap = {0};
if (bits == 64)
pagemap = stivale_build_pagemap(want_5lv, unmap_null);
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#if defined (uefi)
efi_exit_boot_services();
#endif
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//////////////////////////////////////////////
// Create SMP struct tag
//////////////////////////////////////////////
{
struct stivale2_header_tag_smp *smp_hdr_tag = get_tag(&stivale2_hdr, STIVALE2_HEADER_TAG_SMP_ID);
if (smp_hdr_tag != NULL) {
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struct stivale2_struct_tag_smp *tag;
struct smp_information *smp_info;
size_t cpu_count;
uint32_t bsp_lapic_id;
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smp_info = init_smp(sizeof(struct stivale2_struct_tag_smp), (void **)&tag,
&cpu_count, &bsp_lapic_id,
bits == 64, want_5lv,
pagemap, smp_hdr_tag->flags & 1);
if (smp_info != NULL) {
tag->tag.identifier = STIVALE2_STRUCT_TAG_SMP_ID;
tag->bsp_lapic_id = bsp_lapic_id;
tag->cpu_count = cpu_count;
tag->flags |= (smp_hdr_tag->flags & 1) && x2apic_check();
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
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}
}
//////////////////////////////////////////////
// Create memmap struct tag
//////////////////////////////////////////////
{
struct stivale2_struct_tag_memmap *tag =
ext_mem_alloc(sizeof(struct stivale2_struct_tag_memmap) +
sizeof(struct e820_entry_t) * 256);
// Reserve 32K at 0x70000
memmap_alloc_range(0x70000, 0x8000, MEMMAP_USABLE, true, true, false, false);
size_t memmap_entries;
struct e820_entry_t *memmap = get_memmap(&memmap_entries);
tag->tag.identifier = STIVALE2_STRUCT_TAG_MEMMAP_ID;
tag->entries = (uint64_t)memmap_entries;
memcpy((void*)tag + sizeof(struct stivale2_struct_tag_memmap),
memmap, sizeof(struct e820_entry_t) * memmap_entries);
append_tag(&stivale2_struct, (struct stivale2_tag *)tag);
}
//////////////////////////////////////////////
// List tags
//////////////////////////////////////////////
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if (verbose) {
print("stivale2: Generated tags:\n");
struct stivale2_tag *taglist =
(void*)(uintptr_t)(stivale2_struct.tags & (uint64_t)0xffffffff);
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for (size_t i = 0; ; i++) {
print(" Tag #%u ID: %X\n", i, taglist->identifier);
if (taglist->next) {
taglist = (void*)(uintptr_t)(taglist->next & (uint64_t)0xffffffff);
} else {
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break;
}
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}
}
// Clear terminal for kernels that will use the stivale2 terminal
term_write("\e[2J\e[H", 7);
stivale_spinup(bits, want_5lv, &pagemap, entry_point,
REPORTED_ADDR((uint64_t)(uintptr_t)&stivale2_struct),
stivale2_hdr.stack);
}