mips/mld/link.h

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/* Copyright (c) 2024 Freya Murphy */
#ifndef __LINK_H__
#define __LINK_H__
#include <linux/limits.h>
#include <mlimits.h>
#include <merror.h>
#include <stdint.h>
#include <elf.h>
// when mapping porinters, we need to bounds check to
// make sure its in the mapped object file
//
// this checks that
// 1. the end is in the file
// 2. the off and len doesnt integer overflow
#define BOUND_CHK(obj, len, off) \
(off > UINT32_MAX - len || off + len > obj->mapped_size)
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// when relocating segments, we need to bounds check to
// make sure it wont overflow the addresses past the 32bit
// ELF file
#define ADDR_CHK(lnk_f, seg_f, max) \
((lnk_f) > max - (seg_f) || (lnk_f) + (seg_f) > max)
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// checks if a phdr and shdr are matches
#define PHDR_SHDR_MATCH(phdr, shdr) ( \
((phdr)->p_offset == (shdr)->sh_offset) && \
((phdr)->p_filesz == (shdr)->sh_size)) \
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// start addresses for each tyoe of segment
#define TEXT_VADDR_MIN 0x00400000
#define DATA_VADDR_MIN 0x10000000
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// alignment of a section
#define SEC_ALIGN 0x1000
// pre define
struct linker;
struct object;
struct segment;
struct string_table;
struct symbol_table;
struct symbol_table_mapping;
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struct glboff_table;
///
/// relocation table
///
struct relocation_table {
uint32_t type;
union {
void *raw;
Elf32_Rel *rel;
Elf32_Rela *rela;
};
size_t len;
struct symbol_table *symtab;
};
///
/// string table
///
struct string_table {
char *data;
size_t len;
};
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int strtab_init(struct string_table *strtab);
void strtab_free(struct string_table *strtab);
int strtab_push(struct string_table *strtab, const char *str, size_t *res);
int strtab_get(struct string_table *strtab, const char *str, size_t *res);
///
/// symbol table
///
struct symbol_table {
struct string_table *strtab;
Elf32_Sym *syms;
size_t len;
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size_t size;
// mapping for global symbol table
// can be null
// (metadata for each symbol)
struct symbol_table_mapping *map;
};
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int symtab_init(struct symbol_table *symtab);
void symtab_free(struct symbol_table *symtab);
int symtab_push(struct symbol_table *symtab, const Elf32_Sym *sym);
int symtab_get(struct symbol_table *symtab, Elf32_Sym **sym, const char *name,
int32_t obj_idx);
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///
/// symbol table map
/// (metadata for each symbol)
/// stores each object that a symbol
/// is in
///
struct symbol_table_mapping {
uint32_t len;
uint32_t size;
struct object **meta;
};
int symtab_map_push(struct symbol_table_mapping *symtabm, struct object *seg);
int symtab_map_init(struct symbol_table_mapping *symtabm);
void symtab_map_free(struct symbol_table_mapping *symtabm);
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///
/// segment
///
/* a loadable program segment */
struct segment {
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// segment data
char *name;
unsigned char *bytes;
// current loc
uint32_t off;
uint32_t vaddr;
// new loc
uint32_t new_off;
uint32_t new_vaddr;
// meta
bool read;
bool write;
bool execute;
uint32_t align;
// size
uint32_t size;
// phdr
Elf32_Phdr *phdr;
uint32_t phdr_idx;
// shdr
Elf32_Shdr *shdr;
uint32_t shdr_idx;
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// object im related to
struct object *obj;
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// segment table entry im related to
struct segment_table_entry *ent;
// relocation table
struct relocation_table reltab;
};
int segment_load(struct object *object, struct segment *segment, size_t index);
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///
/// segment table
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/// holds each segment that
/// share the same name
/// (i.e. all .text segments)
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///
struct segment_table_entry {
char *name;
uint32_t len;
uint32_t size;
uint32_t off;
uint32_t vaddr;
// weak segment pointers. we do not own these!!!
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// (but we own the array)
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struct segment **parts;
};
int segtab_ent_init(struct segment_table_entry *ent);
void segtab_ent_free(struct segment_table_entry *ent);
int segtab_ent_push(struct segment_table_entry *ent, struct segment *seg);
uint32_t segtab_ent_size(struct segment_table_entry *ent);
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///
/// segment table
/// holds each segment table entry by name
///
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struct segment_table {
uint32_t len;
uint32_t size;
struct segment_table_entry *entries;
};
int segtab_init(struct segment_table *segtab);
void segtab_free(struct segment_table *segtab);
/* create a new entry with <seg> as its first segment part */
int segtab_push(struct segment_table *segtab, struct segment_table_entry **ent,
struct segment *seg);
/* find a segment table entry with a given name */
int segtab_get(struct segment_table *segtab, struct segment_table_entry **ent,
const char *name);
///
/// object file
///
struct object {
// file
int fd;
char *mapped;
size_t mapped_size;
// ehdr
Elf32_Ehdr *ehdr;
// section header table
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Elf32_Shdr *shdr; // weak
size_t shdr_len;
// program table
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Elf32_Phdr *phdr; // owned
size_t phdr_len;
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// phdr <=> shdr mappings
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// need a way to find any assoiciated
// phdr with a shdr, and also reverse
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uint32_t *phdr_to_shdr_mapping;
// object meta
const char *name;
size_t index;
// segments
size_t segment_len;
struct segment *segments;
// section header strtab
struct string_table *shstrtab;
// strtabs
struct string_table *strtabs;
// symtabs
struct symbol_table *symtabs;
};
int object_load(struct object *object, char *path, uint32_t index);
void object_free(struct object *object);
///
/// linker
///
struct linker {
size_t obj_len;
struct object *objects;
struct linker_arguments *args;
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// current pointers to relocate
// sections
uint32_t off;
uint32_t text_vaddr;
uint32_t data_vaddr;
// elf tables
struct string_table shstrtab;
struct string_table strtab;
struct symbol_table symtab;
struct symbol_table_mapping symtab_map;
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// output elf
Elf32_Ehdr ehdr;
Elf32_Phdr *phdr;
uint32_t phdr_len;
Elf32_Shdr *shdr;
uint32_t shdr_len;
uint32_t symtab_shidx;
uint32_t strtab_shidx;
uint32_t shstrtab_shidx;
// all segments
struct segment_table segments;
};
/* defines arguments to the linker */
struct linker_arguments {
char **in_files;
int in_count;
char *out_file;
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bool freestanding;
};
/* link object files */
int link_files(struct linker_arguments args);
#endif /* __LINK_H__ */