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#include "mboot.h"
#include "serial.h"
#include "shim.h"
#include <lib.h>
#include <stdint.h>
extern char symtab;
#define kaddr(addr) ((uintptr_t)(&addr))
typedef unsigned char mboot_uint8_t;
typedef unsigned short mboot_uint16_t;
typedef unsigned int mboot_uint32_t;
typedef unsigned long long mboot_uint64_t;
struct mboot_info {
mboot_uint32_t total_size;
mboot_uint32_t reserved;
char tags[];
};
struct mboot_tag {
mboot_uint32_t type;
mboot_uint32_t size;
char data[];
};
enum mboot_tag_type {
MBOOT_CMDLINE = 0,
MBOOT_MEMORYMAP = 6,
MBOOT_SYMBOLS = 9,
MBOOT_RSDP = 14,
MBOOT_XSDP = 15,
};
struct mboot_elf_header_layout {
mboot_uint32_t type;
mboot_uint32_t size;
mboot_uint32_t num;
mboot_uint32_t entsize;
mboot_uint32_t shndx;
char elf_section_headers[];
};
struct mboot_elf_section_header {
mboot_uint32_t sh_name;
mboot_uint32_t sh_type;
mboot_uint64_t sh_flags;
mboot_uint64_t sh_addr;
mboot_uint64_t sh_offset;
mboot_uint64_t sh_size;
mboot_uint32_t sh_link;
mboot_uint32_t sh_info;
mboot_uint64_t sh_addralign;
mboot_uint64_t sh_entsize;
};
struct mboot_memory_segment {
mboot_uint64_t addr;
mboot_uint64_t len;
mboot_uint32_t type;
mboot_uint32_t reserved;
};
struct mboot_memory_map {
mboot_uint32_t tag;
mboot_uint32_t size;
mboot_uint32_t entry_size;
mboot_uint32_t entry_version;
struct memory_segment entries[];
};
struct mboot_rsdp {
mboot_uint32_t tag;
mboot_uint32_t size;
mboot_uint8_t rsdp[];
};
struct mboot_xsdp {
mboot_uint32_t tag;
mboot_uint32_t size;
mboot_uint8_t xsdp[];
};
struct mboot_cmdline {
mboot_uint32_t tag;
mboot_uint32_t size;
char cmdline[];
};
static void read_symbols(
struct boot_info *shim_info,
struct mboot_elf_header_layout *layout
) {
shim_info->symbol_table = layout->elf_section_headers;
// struct mboot_elf_section_header *section =
// (struct mboot_elf_section_header *) (layout->elf_section_headers);
//
// for (mboot_uint32_t i = 0; i < layout->num; i++) {
// char buf[20];
//
// ultoa(i, buf, 10);
// serial_out_str("[");
// serial_out_str(buf);
// serial_out_str("]\t");
//
// serial_out_str((char *)(kaddr(symtab) + section->sh_name));
// serial_out('\t');
//
// ultoa(section->sh_type, buf, 16);
// serial_out_str("type: 0x");
// serial_out_str(buf);
// serial_out('\t');
//
// ultoa(section->sh_addr, buf, 16);
// serial_out_str("addr: 0x");
// serial_out_str(buf);
// serial_out('\t');
//
// ultoa(section->sh_offset, buf, 16);
// serial_out_str("offset: 0x");
// serial_out_str(buf);
// serial_out('\n');
//
// section++;
// }
}
static void read_cmdline(
struct boot_info *shim_info,
struct mboot_cmdline *cmdline
) {
mboot_uint32_t size = cmdline->size - 8;
if (size >= CMDLINE_MAX)
size = CMDLINE_MAX; // truncate :(
memcpy(shim_info->cmdline, cmdline->cmdline, size);
shim_info->cmdline[size] = '\0';
}
static void read_memorymap(
struct boot_info *shim_info,
struct mboot_memory_map *map
) {
int size = map->size - sizeof(mboot_uint32_t) * 4;
int count = size / map->entry_size;
shim_info->map.entry_count = count;
shim_info->map.entry_length = map->entry_size;
shim_info->map.entries = map->entries;
}
static void read_rsdp(
struct boot_info *shim_info,
struct mboot_rsdp *rsdp
) {
if (shim_info->acpi_table != NULL)
return; // xsdp is newer and has been loaded
shim_info->acpi_table = rsdp->rsdp;
}
static void read_xsdp(
struct boot_info *shim_info,
struct mboot_xsdp *xsdp
) {
shim_info->acpi_table = xsdp->xsdp;
}
void mboot_load_info(
const void *mboot_data_ptr,
struct boot_info *shim_info
) {
memset(shim_info, 0, sizeof(struct boot_info));
struct mboot_info *mboot_info = (struct mboot_info *) mboot_data_ptr;
const char *mboot_end = ((char *) mboot_info) + mboot_info->total_size;
char *tag_ptr = mboot_info->tags;
while (tag_ptr < mboot_end) {
struct mboot_tag *tag = (struct mboot_tag *) tag_ptr;
switch (tag->type) {
case MBOOT_CMDLINE:
read_cmdline(
shim_info,
(struct mboot_cmdline *) tag
);
break;
case MBOOT_MEMORYMAP:
read_memorymap(
shim_info,
(struct mboot_memory_map *) tag
);
break;
case MBOOT_SYMBOLS:
read_symbols(
shim_info,
(struct mboot_elf_header_layout *) tag
);
break;
case MBOOT_RSDP:
read_rsdp(
shim_info,
(struct mboot_rsdp *) tag
);
break;
case MBOOT_XSDP:
read_xsdp(
shim_info,
(struct mboot_xsdp *) tag
);
break;
default:
break;
}
int size = tag->size;
if (size % 8 != 0) {
size += 8 - (size % 8);
}
tag_ptr += size;
}
}
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