blob: 360d205bc808003774acdf11ad52dbf1d56a540c (
plain) (
tree)
|
|
// Copyright (c) 2020 Johannes Stoelp
#include <elf.h>
#define MAX_PRINTF_LEN 128
#include <io.h>
#if !defined(__linux__) || !defined(__x86_64__)
# error "Only supported in linux(x86_64)!"
#endif
void entry(const long* prctx) {
// Interpret data on the stack passed by the OS kernel as specified in the
// x86_64 SysV ABI.
long argc = *prctx;
const char** argv = (const char**)(prctx + 1);
const char** envv = (const char**)(argv + argc + 1);
int envc = 0;
for (const char** env = envv; *env; ++env) {
++envc;
}
uint64_t auxv[AT_MAX_CNT];
for (unsigned i = 0; i < AT_MAX_CNT; ++i) {
auxv[i] = 0;
}
const uint64_t* auxvp = (const uint64_t*)(envv + envc + 1);
for (unsigned i = 0; auxvp[i] != AT_NULL; i += 2) {
if (auxvp[i] < AT_MAX_CNT) {
auxv[auxvp[i]] = auxvp[i + 1];
}
}
// Print for demonstration
dynld_printf("Got %d arg(s)\n", argc);
for (const char** arg = argv; *arg; ++arg) {
dynld_printf("\targ = %s\n", *arg);
}
const int max_env = 10;
dynld_printf("Print first %d env var(s)\n", max_env - 1);
for (const char** env = envv; *env && (env - envv < max_env); ++env) {
dynld_printf("\tenv = %s\n", *env);
}
dynld_printf("Print auxiliary vector\n");
dynld_printf("\tAT_EXECFD: %ld\n", auxv[AT_EXECFD]);
dynld_printf("\tAT_PHDR : %p\n", auxv[AT_PHDR]);
dynld_printf("\tAT_PHENT : %ld\n", auxv[AT_PHENT]);
dynld_printf("\tAT_PHNUM : %ld\n", auxv[AT_PHNUM]);
dynld_printf("\tAT_PAGESZ: %ld\n", auxv[AT_PAGESZ]);
dynld_printf("\tAT_BASE : %lx\n", auxv[AT_BASE]);
dynld_printf("\tAT_FLAGS : %ld\n", auxv[AT_FLAGS]);
dynld_printf("\tAT_ENTRY : %p\n", auxv[AT_ENTRY]);
dynld_printf("\tAT_NOTELF: %lx\n", auxv[AT_NOTELF]);
dynld_printf("\tAT_UID : %ld\n", auxv[AT_UID]);
dynld_printf("\tAT_EUID : %ld\n", auxv[AT_EUID]);
dynld_printf("\tAT_GID : %ld\n", auxv[AT_GID]);
dynld_printf("\tAT_EGID : %ld\n", auxv[AT_EGID]);
}
|