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libkernaux/src/multiboot2/print.c

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#include <kernaux/multiboot2.h>
static const char *KernAux_Multiboot2_TagType_to_str(
enum KernAux_Multiboot2_TagType tag_type
);
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static void KernAux_Multiboot2_Tag_MemoryMap_print(
const struct KernAux_Multiboot2_Tag_MemoryMap *tag,
void (*print)(const char *format, ...)
)
__attribute__((nonnull));
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const char *KernAux_Multiboot2_TagType_to_str(
enum KernAux_Multiboot2_TagType tag_type
) {
switch (tag_type) {
case KERNAUX_MULTIBOOT2_TAGTYPE_NONE:
return "none";
case KERNAUX_MULTIBOOT2_TAGTYPE_BOOT_CMD_LINE:
return "boot cmd line";
case KERNAUX_MULTIBOOT2_TAGTYPE_BOOT_LOADER_NAME:
return "boot loader name";
case KERNAUX_MULTIBOOT2_TAGTYPE_MODULE:
return "module";
case KERNAUX_MULTIBOOT2_TAGTYPE_BASIC_MEMORY_INFO:
return "basic memory info";
case KERNAUX_MULTIBOOT2_TAGTYPE_BIOS_BOOT_DEVICE:
return "BIOS boot device";
case KERNAUX_MULTIBOOT2_TAGTYPE_MEMORY_MAP:
return "memory map";
case KERNAUX_MULTIBOOT2_TAGTYPE_VBE_INFO:
return "VBE info";
case KERNAUX_MULTIBOOT2_TAGTYPE_FRAMEBUFFER_INFO:
return "framebuffer info";
case KERNAUX_MULTIBOOT2_TAGTYPE_ELF_SYMBOLS:
return "ELF symbols";
case KERNAUX_MULTIBOOT2_TAGTYPE_APM_TABLE:
return "APM table";
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_32BIT_SYSTEM_TABLE_PTR:
return "EFI 32bit system table ptr";
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_64BIT_SYSTEM_TABLE_PTR:
return "EFI 64bit system table ptr";
case KERNAUX_MULTIBOOT2_TAGTYPE_SMBIOS_TABLES:
return "SMBIOS tables";
case KERNAUX_MULTIBOOT2_TAGTYPE_ACPI_OLD_RSDP:
return "ACPI old RSDP";
case KERNAUX_MULTIBOOT2_TAGTYPE_ACPI_NEW_RSDP:
return "ACPI new RSDP";
case KERNAUX_MULTIBOOT2_TAGTYPE_NETWORKING_INFO:
return "networking info";
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_MEMORY_MAP:
return "EFI memory map";
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_BOOT_SERVICES_NOT_TERMINATED:
return "EFI boot services not terminated";
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_32BIT_IMAGE_HANDLE_PTR:
return "EFI 32bit image handle ptr";
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_64BIT_IMAGE_HANDLE_PTR:
return "EFI 64bit image handle ptr";
case KERNAUX_MULTIBOOT2_TAGTYPE_IMAGE_LOAD_BASE_PHYS_ADDR:
return "image load base phys addr";
default:
return 0;
}
}
void KernAux_Multiboot2_print(
const struct KernAux_Multiboot2 *const multiboot2,
void (*const print)(const char *format, ...)
) {
print("Multiboot 2 info\n");
print(" size: %u\n", multiboot2->total_size);
print(" reserved1: %u\n", multiboot2->reserved1);
if (multiboot2->total_size <= 8) {
return;
}
const struct KernAux_Multiboot2_TagBase *tag_base =
(struct KernAux_Multiboot2_TagBase*)multiboot2->data;
while ((void*)tag_base < (void*)multiboot2 + multiboot2->total_size) {
if (!KernAux_Multiboot2_TagBase_is_valid(tag_base)) {
return;
}
KernAux_Multiboot2_TagBase_print(tag_base, print);
tag_base = (struct KernAux_Multiboot2_TagBase*)(
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(void*)tag_base + ((tag_base->size + 7) & ~7)
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);
}
}
void KernAux_Multiboot2_TagBase_print(
const struct KernAux_Multiboot2_TagBase *const tag_base,
void (*const print)(const char *format, ...)
) {
if (!KernAux_Multiboot2_TagBase_is_valid(tag_base)) {
return;
}
print("Multiboot 2 tag\n");
print(
" type: %u (%s)\n",
tag_base->type,
KernAux_Multiboot2_TagType_to_str(tag_base->type)
);
print(" size: %u\n", tag_base->size);
switch (tag_base->type) {
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case KERNAUX_MULTIBOOT2_TAGTYPE_NONE:
break;
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case KERNAUX_MULTIBOOT2_TAGTYPE_BOOT_CMD_LINE:
print(
" cmdline: %s\n",
((struct KernAux_Multiboot2_Tag_BootCmdLine*)tag_base)->cmdline
);
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_BOOT_LOADER_NAME:
print(
" name: %s\n",
((struct KernAux_Multiboot2_Tag_BootLoaderName*)tag_base)->name
);
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_MODULE:
{
const struct KernAux_Multiboot2_Tag_Module *const tag_module =
(struct KernAux_Multiboot2_Tag_Module*)tag_base;
print(" start: %u\n", tag_module->mod_start);
print(" end: %u\n", tag_module->mod_end);
print(" cmdline: %s\n", tag_module->cmdline);
}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_BASIC_MEMORY_INFO:
{
const struct KernAux_Multiboot2_Tag_BasicMemoryInfo *const tag_bmi =
(struct KernAux_Multiboot2_Tag_BasicMemoryInfo*)tag_base;
print(" mem lower: %u\n", tag_bmi->mem_lower);
print(" mem upper: %u\n", tag_bmi->mem_upper);
}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_BIOS_BOOT_DEVICE:
{
const struct KernAux_Multiboot2_Tag_BIOSBootDevice *const tag_bbd =
(struct KernAux_Multiboot2_Tag_BIOSBootDevice*)tag_base;
print(" bios dev: %u\n", tag_bbd->bios_dev);
print(" partition: %u\n", tag_bbd->partition);
print(" sub_partition: %u\n", tag_bbd->sub_partition);
}
break;
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case KERNAUX_MULTIBOOT2_TAGTYPE_MEMORY_MAP:
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KernAux_Multiboot2_Tag_MemoryMap_print(
(struct KernAux_Multiboot2_Tag_MemoryMap*)tag_base,
print
);
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break;
case KERNAUX_MULTIBOOT2_TAGTYPE_VBE_INFO:
{
const struct KernAux_Multiboot2_Tag_VBEInfo *const tag_vbe =
(struct KernAux_Multiboot2_Tag_VBEInfo*)tag_base;
print(" VBE mode: %hu\n", tag_vbe->vbe_mode);
print(" VBE interface seg: %hu\n", tag_vbe->vbe_interface_seg);
print(" VBE interface off: %hu\n", tag_vbe->vbe_interface_off);
print(" VBE interface len: %hu\n", tag_vbe->vbe_interface_len);
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_FRAMEBUFFER_INFO:
{
const struct KernAux_Multiboot2_Tag_FramebufferInfo *const tag_fb =
(struct KernAux_Multiboot2_Tag_FramebufferInfo*)tag_base;
print(" framebuffer addr: %llu\n", tag_fb->framebuffer_addr);
print(" framebuffer pitch: %u\n", tag_fb->framebuffer_pitch);
print(" framebuffer width: %u\n", tag_fb->framebuffer_width);
print(" framebuffer height: %u\n", tag_fb->framebuffer_height);
print(" framebuffer bpp: %u\n", tag_fb->framebuffer_bpp);
print(" framebuffer type: %u\n", tag_fb->framebuffer_type);
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print(" reserved1: %u\n", tag_fb->reserved1);
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_ELF_SYMBOLS:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_APM_TABLE:
{
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const struct KernAux_Multiboot2_Tag_APMTable *const tag_apm =
(struct KernAux_Multiboot2_Tag_APMTable*)tag_base;
print(" version: %hu\n", tag_apm->version);
print(" cseg: %hu\n", tag_apm->cseg);
print(" offset: %u\n", tag_apm->offset);
print(" cseg 16: %hu\n", tag_apm->cseg_16);
print(" dseg: %hu\n", tag_apm->dseg);
print(" flags: %hu\n", tag_apm->flags);
print(" cseg len: %hu\n", tag_apm->cseg_len);
print(" cseg 16 len: %hu\n", tag_apm->cseg_16_len);
print(" dseg len: %hu\n", tag_apm->dseg_len);
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_32BIT_SYSTEM_TABLE_PTR:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_64BIT_SYSTEM_TABLE_PTR:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_SMBIOS_TABLES:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_ACPI_OLD_RSDP:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_ACPI_NEW_RSDP:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_NETWORKING_INFO:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_MEMORY_MAP:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_BOOT_SERVICES_NOT_TERMINATED:
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_32BIT_IMAGE_HANDLE_PTR:
{
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// TODO: print
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}
break;
case KERNAUX_MULTIBOOT2_TAGTYPE_EFI_64BIT_IMAGE_HANDLE_PTR:
{
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// TODO: print
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}
break;
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case KERNAUX_MULTIBOOT2_TAGTYPE_IMAGE_LOAD_BASE_PHYS_ADDR:
print(
" load base addr: %u\n",
((struct KernAux_Multiboot2_Tag_ImageLoadBasePhysAddr*)tag_base)->
load_base_addr
);
break;
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}
}
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void KernAux_Multiboot2_Tag_MemoryMap_print(
const struct KernAux_Multiboot2_Tag_MemoryMap *const tag,
void (*print)(const char *format, ...)
) {
if (!KernAux_Multiboot2_Tag_MemoryMap_is_valid(tag)) {
print(" invalid!\n");
return;
}
print(" entry size: %u\n", tag->entry_size);
print(" entry version: %u\n", tag->entry_version);
print(" entries:\n");
const struct KernAux_Multiboot2_Tag_MemoryMap_EntryBase *const entries =
(struct KernAux_Multiboot2_Tag_MemoryMap_EntryBase*)tag->data;
for (
unsigned int index = 0;
index < (tag->base.size - sizeof(*tag)) / tag->entry_size;
++index
) {
print(" entry %u\n", index);
print(" base addr: %llu\n", entries[index].base_addr);
print(" length: %llu\n", entries[index].length);
print(" type: %u\n", entries[index].type);
print(" reserved1: %u\n", entries[index].reserved1);
}
}