blob: 259f5e18eecf881ff1cf27c3b4ce6c0fc0899e5f [file] [log] [blame]
#include <stddef.h>
#include "dynlink.h"
#include "libc.h"
#ifndef START
#define START "_dlstart"
#endif
#define SHARED
#include "crt_arch.h"
#ifndef GETFUNCSYM
#define GETFUNCSYM(fp, sym, got) do { \
hidden void sym(); \
static void (*static_func_ptr)() = sym; \
__asm__ __volatile__ ( "" : "+m"(static_func_ptr) : : "memory"); \
*(fp) = static_func_ptr; } while(0)
#endif
hidden void _dlstart_c(size_t *sp, size_t *dynv)
{
size_t i, aux[AUX_CNT], dyn[DYN_CNT];
size_t *rel, rel_size, base;
int argc = *sp;
char **argv = (void *)(sp+1);
for (i=argc+1; argv[i]; i++);
size_t *auxv = (void *)(argv+i+1);
for (i=0; i<AUX_CNT; i++) aux[i] = 0;
for (i=0; auxv[i]; i+=2) if (auxv[i]<AUX_CNT)
aux[auxv[i]] = auxv[i+1];
#if DL_FDPIC
struct fdpic_loadseg *segs, fakeseg;
size_t j;
if (dynv) {
/* crt_arch.h entry point asm is responsible for reserving
* space and moving the extra fdpic arguments to the stack
* vector where they are easily accessible from C. */
segs = ((struct fdpic_loadmap *)(sp[-1] ? sp[-1] : sp[-2]))->segs;
} else {
/* If dynv is null, the entry point was started from loader
* that is not fdpic-aware. We can assume normal fixed-
* displacement ELF loading was performed, but when ldso was
* run as a command, finding the Ehdr is a heursitic: we
* have to assume Phdrs start in the first 4k of the file. */
base = aux[AT_BASE];
if (!base) base = aux[AT_PHDR] & -4096;
segs = &fakeseg;
segs[0].addr = base;
segs[0].p_vaddr = 0;
segs[0].p_memsz = -1;
Ehdr *eh = (void *)base;
Phdr *ph = (void *)(base + eh->e_phoff);
size_t phnum = eh->e_phnum;
size_t phent = eh->e_phentsize;
while (phnum-- && ph->p_type != PT_DYNAMIC)
ph = (void *)((size_t)ph + phent);
dynv = (void *)(base + ph->p_vaddr);
}
#endif
for (i=0; i<DYN_CNT; i++) dyn[i] = 0;
for (i=0; dynv[i]; i+=2) if (dynv[i]<DYN_CNT)
dyn[dynv[i]] = dynv[i+1];
#if DL_FDPIC
for (i=0; i<DYN_CNT; i++) {
if (i==DT_RELASZ || i==DT_RELSZ) continue;
if (!dyn[i]) continue;
for (j=0; dyn[i]-segs[j].p_vaddr >= segs[j].p_memsz; j++);
dyn[i] += segs[j].addr - segs[j].p_vaddr;
}
base = 0;
const Sym *syms = (void *)dyn[DT_SYMTAB];
rel = (void *)dyn[DT_RELA];
rel_size = dyn[DT_RELASZ];
for (; rel_size; rel+=3, rel_size-=3*sizeof(size_t)) {
if (!IS_RELATIVE(rel[1], syms)) continue;
for (j=0; rel[0]-segs[j].p_vaddr >= segs[j].p_memsz; j++);
size_t *rel_addr = (void *)
(rel[0] + segs[j].addr - segs[j].p_vaddr);
if (R_TYPE(rel[1]) == REL_FUNCDESC_VAL) {
*rel_addr += segs[rel_addr[1]].addr
- segs[rel_addr[1]].p_vaddr
+ syms[R_SYM(rel[1])].st_value;
rel_addr[1] = dyn[DT_PLTGOT];
} else {
size_t val = syms[R_SYM(rel[1])].st_value;
for (j=0; val-segs[j].p_vaddr >= segs[j].p_memsz; j++);
*rel_addr = rel[2] + segs[j].addr - segs[j].p_vaddr + val;
}
}
#else
/* If the dynamic linker is invoked as a command, its load
* address is not available in the aux vector. Instead, compute
* the load address as the difference between &_DYNAMIC and the
* virtual address in the PT_DYNAMIC program header. */
base = aux[AT_BASE];
if (!base) {
size_t phnum = aux[AT_PHNUM];
size_t phentsize = aux[AT_PHENT];
Phdr *ph = (void *)aux[AT_PHDR];
for (i=phnum; i--; ph = (void *)((char *)ph + phentsize)) {
if (ph->p_type == PT_DYNAMIC) {
base = (size_t)dynv - ph->p_vaddr;
break;
}
}
}
/* MIPS uses an ugly packed form for GOT relocations. Since we
* can't make function calls yet and the code is tiny anyway,
* it's simply inlined here. */
if (NEED_MIPS_GOT_RELOCS) {
size_t local_cnt = 0;
size_t *got = (void *)(base + dyn[DT_PLTGOT]);
for (i=0; dynv[i]; i+=2) if (dynv[i]==DT_MIPS_LOCAL_GOTNO)
local_cnt = dynv[i+1];
for (i=0; i<local_cnt; i++) got[i] += base;
}
rel = (void *)(base+dyn[DT_REL]);
rel_size = dyn[DT_RELSZ];
for (; rel_size; rel+=2, rel_size-=2*sizeof(size_t)) {
if (!IS_RELATIVE(rel[1], 0)) continue;
size_t *rel_addr = (void *)(base + rel[0]);
*rel_addr += base;
}
rel = (void *)(base+dyn[DT_RELA]);
rel_size = dyn[DT_RELASZ];
for (; rel_size; rel+=3, rel_size-=3*sizeof(size_t)) {
if (!IS_RELATIVE(rel[1], 0)) continue;
size_t *rel_addr = (void *)(base + rel[0]);
*rel_addr = base + rel[2];
}
rel = (void *)(base+dyn[DT_RELR]);
rel_size = dyn[DT_RELRSZ];
size_t *relr_addr = 0;
for (; rel_size; rel++, rel_size-=sizeof(size_t)) {
if ((rel[0]&1) == 0) {
relr_addr = (void *)(base + rel[0]);
*relr_addr++ += base;
} else {
for (size_t i=0, bitmap=rel[0]; bitmap>>=1; i++)
if (bitmap&1)
relr_addr[i] += base;
relr_addr += 8*sizeof(size_t)-1;
}
}
#endif
stage2_func dls2;
GETFUNCSYM(&dls2, __dls2, base+dyn[DT_PLTGOT]);
dls2((void *)base, sp);
}