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loader.c
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loader.c
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/*-*- mode:c;indent-tabs-mode:nil;c-basic-offset:2;tab-width:8;coding:utf-8 -*-│
│vi: set net ft=c ts=2 sts=2 sw=2 fenc=utf-8 :vi│
╞══════════════════════════════════════════════════════════════════════════════╡
│ Copyright 2021 Justine Alexandra Roberts Tunney │
│ │
│ Permission to use, copy, modify, and/or distribute this software for │
│ any purpose with or without fee is hereby granted, provided that the │
│ above copyright notice and this permission notice appear in all copies. │
│ │
│ THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL │
│ WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED │
│ WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE │
│ AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL │
│ DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR │
│ PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER │
│ TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR │
│ PERFORMANCE OF THIS SOFTWARE. │
╚─────────────────────────────────────────────────────────────────────────────*/
#include "ape/loader.h"
#define SET_EXE_FILE 0 /* needs root ;_; */
#define TROUBLESHOOT 0
#define TROUBLESHOOT_OS LINUX
/**
* @fileoverview APE Loader for GNU/Systemd/XNU/FreeBSD/NetBSD/OpenBSD
*
* We recommend using the normal APE design, where binaries assimilate
* themselves once by self-modifying the first 64 bytes. If that can't
* meet your requirements then we provide an excellent alternative.
*
* m=tiny
* make -j8 MODE=$m o/$m/ape o/$m/examples/printargs.com
* o/$m/ape/ape.elf o/$m/examples/printargs.com
*
* This is an embeddable Actually Portable Executable interpreter. The
* `ape/ape.S` bootloader embeds this binary inside each binary that's
* linked using `$(APE_NO_MODIFY_SELF)` so it is an automated seamless
* process. the shell script at the top of the .COM files will copy it
* to `${TMPDIR:-${HOME:-.}}/.ape` and call execve(). It's a zero copy
* operation in praxis since this payload uses mmap() to load the rest
* of your executable the same way the kernel does, based on ELF phdrs
* which are located in accordance with the first sh printf statement.
*
* APE executables will look for this program on the system path first
* so your APE loader may be installed to your system as follows:
*
* m=tiny
* make -j8 MODE=$m o/$m/ape/ape.elf
* sudo cp o/$m/ape/ape.elf /usr/bin/ape
*
* For Mac OS X systems you should install the `ape.macho` executable:
*
* sudo cp o/$m/ape/ape.macho /usr/bin/ape
*
* Your APE loader may be used as a shebang interpreter by doing this:
*
* #!/usr/bin/ape python.com
* # -*- python -*-
* print("hello world")
*
* However you won't need to do that, if your APE Loader is registered
* as a binfmt_misc interpreter. You can do that as follows with root:
*
* sudo cp -f o/$m/ape/ape.elf /usr/bin
* f=/proc/sys/fs/binfmt_misc/register
* sudo sh -c "echo ':APE:M::MZqFpD::/usr/bin/ape:' >$f"
*
* If the register file doesn't exist on your Linux machine then you'd
* load it using the following commands:
*
* sudo modprobe binfmt_misc
* sudo mount -t binfmt_misc none /proc/sys/fs/binfmt_misc
*
* You should now experience a performance boost, and you can also now
* use the regular shebang form:
*
* #!/usr/bin/python.com
* # -*- python -*-
* print("hello world")
*
* @note this can probably be used as a binfmt_misc interpreter
*/
#define LINUX 1
#define XNU 8
#define OPENBSD 16
#define FREEBSD 32
#define NETBSD 64
#define SupportsLinux() (SUPPORT_VECTOR & LINUX)
#define SupportsXnu() (SUPPORT_VECTOR & XNU)
#define SupportsFreebsd() (SUPPORT_VECTOR & FREEBSD)
#define SupportsOpenbsd() (SUPPORT_VECTOR & OPENBSD)
#define SupportsNetbsd() (SUPPORT_VECTOR & NETBSD)
#define IsLinux() (SupportsLinux() && os == LINUX)
#define IsXnu() (SupportsXnu() && os == XNU)
#define IsFreebsd() (SupportsFreebsd() && os == FREEBSD)
#define IsOpenbsd() (SupportsOpenbsd() && os == OPENBSD)
#define IsNetbsd() (SupportsNetbsd() && os == NETBSD)
#define O_RDONLY 0
#define PROT_READ 1
#define PROT_WRITE 2
#define PROT_EXEC 4
#define MAP_SHARED 1
#define MAP_PRIVATE 2
#define MAP_FIXED 16
#define MAP_ANONYMOUS (IsLinux() ? 32 : 4096)
#define AT_EXECFN_LINUX 31
#define AT_EXECFN_NETBSD 2014
#define ELFCLASS64 2
#define ELFDATA2LSB 1
#define EM_NEXGEN32E 62
#define ET_EXEC 2
#define PT_LOAD 1
#define PT_DYNAMIC 2
#define EI_CLASS 4
#define EI_DATA 5
#define PF_X 1
#define PF_W 2
#define PF_R 4
#define X_OK 1
#define XCR0_SSE 2
#define XCR0_AVX 4
#define PR_SET_MM 35
#define PR_SET_MM_EXE_FILE 13
#define Read32(S) \
((unsigned)(255 & (S)[3]) << 030 | (unsigned)(255 & (S)[2]) << 020 | \
(unsigned)(255 & (S)[1]) << 010 | (unsigned)(255 & (S)[0]) << 000)
#define Read64(S) \
((unsigned long)(255 & (S)[7]) << 070 | \
(unsigned long)(255 & (S)[6]) << 060 | \
(unsigned long)(255 & (S)[5]) << 050 | \
(unsigned long)(255 & (S)[4]) << 040 | \
(unsigned long)(255 & (S)[3]) << 030 | \
(unsigned long)(255 & (S)[2]) << 020 | \
(unsigned long)(255 & (S)[1]) << 010 | \
(unsigned long)(255 & (S)[0]) << 000)
struct PathSearcher {
char os;
unsigned long namelen;
const char *name;
const char *syspath;
char path[1024];
};
struct ElfEhdr {
unsigned char e_ident[16];
unsigned short e_type;
unsigned short e_machine;
unsigned e_version;
unsigned long e_entry;
unsigned long e_phoff;
unsigned long e_shoff;
unsigned e_flags;
unsigned short e_ehsize;
unsigned short e_phentsize;
unsigned short e_phnum;
unsigned short e_shentsize;
unsigned short e_shnum;
unsigned short e_shstrndx;
};
struct ElfPhdr {
unsigned p_type;
unsigned p_flags;
unsigned long p_offset;
unsigned long p_vaddr;
unsigned long p_paddr;
unsigned long p_filesz;
unsigned long p_memsz;
unsigned long p_align;
};
extern char ehdr[];
extern char _end[];
static void *syscall;
static char relocated;
static struct PathSearcher ps;
extern char __syscall_loader[];
static int ToLower(int c) {
return 'A' <= c && c <= 'Z' ? c + ('a' - 'A') : c;
}
char *MemCpy(char *d, const char *s, unsigned long n) {
unsigned long i = 0;
for (; i < n; ++i) d[i] = s[i];
return d + n;
}
static unsigned long StrLen(const char *s) {
unsigned long n = 0;
while (*s++) ++n;
return n;
}
static const char *MemChr(const char *s, unsigned char c, unsigned long n) {
for (; n; --n, ++s) {
if ((*s & 255) == c) {
return s;
}
}
return 0;
}
static char *GetEnv(char **p, const char *s) {
unsigned long i, j;
if (p) {
for (i = 0; p[i]; ++i) {
for (j = 0;; ++j) {
if (!s[j]) {
if (p[i][j] == '=') {
return p[i] + j + 1;
}
break;
}
if (s[j] != p[i][j]) {
break;
}
}
}
}
return 0;
}
static char *Utoa(char p[21], unsigned long x) {
char t;
unsigned long i, a, b;
i = 0;
do {
p[i++] = x % 10 + '0';
x = x / 10;
} while (x > 0);
p[i] = '\0';
if (i) {
for (a = 0, b = i - 1; a < b; ++a, --b) {
t = p[a];
p[a] = p[b];
p[b] = t;
}
}
return p + i;
}
static char *Itoa(char p[21], long x) {
if (x < 0) *p++ = '-', x = -(unsigned long)x;
return Utoa(p, x);
}
#if TROUBLESHOOT
const char *DescribeOs(int os) {
if (IsLinux()) {
return "GNU/SYSTEMD";
} else if (IsXnu()) {
return "XNU";
} else if (IsFreebsd()) {
return "FREEBSD";
} else if (IsOpenbsd()) {
return "OPENBSD";
} else if (IsNetbsd()) {
return "NETBSD";
} else {
return "WUT";
}
}
#endif
__attribute__((__noreturn__)) static void Exit(int rc, int os) {
asm volatile("call\t*%2"
: /* no outputs */
: "a"((IsLinux() ? 60 : 1) | (IsXnu() ? 0x2000000 : 0)), "D"(rc),
"rm"(syscall)
: "memory");
__builtin_unreachable();
}
static void Close(int fd, int os) {
int ax, di;
asm volatile("call\t*%4"
: "=a"(ax), "=D"(di)
: "0"((IsLinux() ? 3 : 6) | (IsXnu() ? 0x2000000 : 0)), "1"(fd),
"rm"(syscall)
: "rcx", "rdx", "rsi", "r8", "r9", "r10", "r11", "memory", "cc");
}
static int Read(int fd, void *data, int size, int os) {
long si;
int ax, di, dx;
asm volatile("call\t*%8"
: "=a"(ax), "=D"(di), "=S"(si), "=d"(dx)
: "0"((IsLinux() ? 0 : 3) | (IsXnu() ? 0x2000000 : 0)), "1"(fd),
"2"(data), "3"(size), "rm"(syscall)
: "rcx", "r8", "r9", "r10", "r11", "memory");
return ax;
}
static void Write(int fd, const void *data, int size, int os) {
long si;
int ax, di, dx;
asm volatile("call\t*%8"
: "=a"(ax), "=D"(di), "=S"(si), "=d"(dx)
: "0"((IsLinux() ? 1 : 4) | (IsXnu() ? 0x2000000 : 0)), "1"(fd),
"2"(data), "3"(size), "rm"(syscall)
: "rcx", "r8", "r9", "r10", "r11", "memory", "cc");
}
static void Execve(const char *prog, char **argv, char **envp, int os) {
long ax, di, si, dx;
asm volatile("call\t*%8"
: "=a"(ax), "=D"(di), "=S"(si), "=d"(dx)
: "0"(59 | (IsXnu() ? 0x2000000 : 0)), "1"(prog), "2"(argv),
"3"(envp), "rm"(syscall)
: "rcx", "r8", "r9", "r10", "r11", "memory", "cc");
}
static int Access(const char *path, int mode, int os) {
int ax, si;
long dx, di;
asm volatile("call\t*%7"
: "=a"(ax), "=D"(di), "=S"(si), "=d"(dx)
: "0"((IsLinux() ? 21 : 33) | (IsXnu() ? 0x2000000 : 0)),
"1"(path), "2"(mode), "rm"(syscall)
: "rcx", "r8", "r9", "r10", "r11", "memory", "cc");
return ax;
}
static int Msyscall(long p, long n, int os) {
int ax;
long di, si;
if (!IsOpenbsd()) {
return 0;
} else {
asm volatile("call\t*%6"
: "=a"(ax), "=D"(di), "=S"(si)
: "0"(37), "1"(p), "2"(n), "rm"(syscall)
: "rcx", "rdx", "r8", "r9", "r10", "r11", "memory", "cc");
return ax;
}
}
static int Open(const char *path, int flags, int mode, int os) {
long di;
int ax, dx, si;
asm volatile("call\t*%8"
: "=a"(ax), "=D"(di), "=S"(si), "=d"(dx)
: "0"((IsLinux() ? 2 : 5) | (IsXnu() ? 0x2000000 : 0)),
"1"(path), "2"(flags), "3"(mode), "rm"(syscall)
: "rcx", "r8", "r9", "r10", "r11", "memory", "cc");
return ax;
}
__attribute__((__noinline__)) static long Mmap(long addr, long size, int prot,
int flags, int fd, long off,
int os) {
long ax, di, si, dx;
register int flags_ asm("r10") = flags;
register int fd_ asm("r8") = fd;
register long off_ asm("r9") = off;
asm volatile("push\t%%r9\n\t"
"push\t%%r9\n\t"
"call\t*%7\n\t"
"pop\t%%r9\n\t"
"pop\t%%r9"
: "=a"(ax), "=D"(di), "=S"(si), "=d"(dx), "+r"(flags_),
"+r"(fd_), "+r"(off_)
: "rm"(syscall),
"0"((IsLinux() ? 9
: IsFreebsd() ? 477
: 197) |
(IsXnu() ? 0x2000000 : 0)),
"1"(addr), "2"(size), "3"(prot)
: "rcx", "r11", "memory", "cc");
return ax;
}
static int MunmapLinux(const void *addr, unsigned long size) {
int ax;
asm volatile("syscall"
: "=a"(ax)
: "0"(11), "D"(addr), "S"(size)
: "rcx", "r11", "memory");
return ax;
}
static int PrctlLinux(int op, long a, long b, long c, long d) {
int rc;
asm volatile("mov\t%5,%%r10\n\t"
"mov\t%6,%%r8\n\t"
"syscall"
: "=a"(rc)
: "0"(157), "D"(op), "S"(a), "d"(b), "g"(c), "g"(d)
: "rcx", "r8", "r10", "r11", "memory");
return rc;
}
static void Emit(int os, const char *s) {
Write(2, s, StrLen(s), os);
}
static void Perror(int os, const char *c, int rc, const char *s) {
char ibuf[21];
Emit(os, "ape error: ");
Emit(os, c);
Emit(os, ": ");
Emit(os, s);
if (rc) {
Emit(os, " failed errno=");
Itoa(ibuf, -rc);
Emit(os, ibuf);
}
Emit(os, "\n");
}
__attribute__((__noreturn__)) static void Pexit(int os, const char *c, int rc,
const char *s) {
Perror(os, c, rc, s);
Exit(127, os);
}
static int StrCmp(const char *l, const char *r) {
unsigned long i = 0;
while (l[i] == r[i] && r[i]) ++i;
return (l[i] & 255) - (r[i] & 255);
}
static char EndsWithIgnoreCase(const char *p, unsigned long n, const char *s) {
unsigned long i, m;
if (n >= (m = StrLen(s))) {
for (i = n - m; i < n; ++i) {
if (ToLower(p[i]) != *s++) {
return 0;
}
}
return 1;
} else {
return 0;
}
}
static char IsComPath(struct PathSearcher *ps) {
return EndsWithIgnoreCase(ps->name, ps->namelen, ".com") ||
EndsWithIgnoreCase(ps->name, ps->namelen, ".exe") ||
EndsWithIgnoreCase(ps->name, ps->namelen, ".com.dbg");
}
static char AccessCommand(struct PathSearcher *ps, const char *suffix,
unsigned long pathlen) {
unsigned long suffixlen;
suffixlen = StrLen(suffix);
if (pathlen + 1 + ps->namelen + suffixlen + 1 > sizeof(ps->path)) return 0;
if (pathlen && ps->path[pathlen - 1] != '/') ps->path[pathlen++] = '/';
MemCpy(ps->path + pathlen, ps->name, ps->namelen);
MemCpy(ps->path + pathlen + ps->namelen, suffix, suffixlen + 1);
return !Access(ps->path, X_OK, ps->os);
}
static char SearchPath(struct PathSearcher *ps, const char *suffix) {
const char *p;
unsigned long i;
for (p = ps->syspath;;) {
for (i = 0; p[i] && p[i] != ':'; ++i) {
if (i < sizeof(ps->path)) {
ps->path[i] = p[i];
}
}
if (AccessCommand(ps, suffix, i)) {
return 1;
} else if (p[i] == ':') {
p += i + 1;
} else {
return 0;
}
}
}
static char FindCommand(struct PathSearcher *ps, const char *suffix) {
if (MemChr(ps->name, '/', ps->namelen) ||
MemChr(ps->name, '\\', ps->namelen)) {
ps->path[0] = 0;
return AccessCommand(ps, suffix, 0);
} else {
if (AccessCommand(ps, suffix, 0)) return 1;
}
return SearchPath(ps, suffix);
}
static char *Commandv(struct PathSearcher *ps, int os, const char *name,
const char *syspath) {
ps->os = os;
ps->syspath = syspath ? syspath : "/bin:/usr/local/bin:/usr/bin";
if (!(ps->namelen = StrLen((ps->name = name)))) return 0;
if (ps->namelen + 1 > sizeof(ps->path)) return 0;
if (FindCommand(ps, "") || (!IsComPath(ps) && FindCommand(ps, ".com"))) {
return ps->path;
} else {
return 0;
}
}
__attribute__((__noreturn__)) static void Spawn(int os, const char *exe, int fd,
long *sp, char *page,
struct ElfEhdr *e) {
long rc;
unsigned long i;
int prot, flags;
struct ElfPhdr *p;
long code, codesize;
if (e->e_type != ET_EXEC) {
Pexit(os, exe, 0, "ELF e_type != ET_EXEC");
}
if (e->e_machine != EM_NEXGEN32E) {
Pexit(os, exe, 0, "ELF e_machine != EM_NEXGEN32E");
}
if (e->e_ident[EI_CLASS] != ELFCLASS64) {
Pexit(os, exe, 0, "ELF e_ident[EI_CLASS] != ELFCLASS64");
}
if (e->e_ident[EI_DATA] != ELFDATA2LSB) {
Pexit(os, exe, 0, "ELF e_ident[EI_DATA] != ELFDATA2LSB");
}
if (e->e_phoff + e->e_phnum * sizeof(*p) > 0x1000) {
Pexit(os, exe, 0, "ELF phdrs need to be in first page");
}
code = 0;
codesize = 0;
for (p = (struct ElfPhdr *)(page + e->e_phoff), i = e->e_phnum; i--;) {
if (p[i].p_type == PT_DYNAMIC) {
Pexit(os, exe, 0, "not a real executable");
}
if (p[i].p_type != PT_LOAD) continue;
if ((p[i].p_vaddr | p[i].p_filesz | p[i].p_memsz | p[i].p_offset) & 0xfff) {
Pexit(os, exe, 0, "APE phdrs must be 4096-aligned and 4096-padded");
}
prot = 0;
flags = MAP_FIXED | MAP_PRIVATE;
if (p[i].p_flags & PF_R) {
prot |= PROT_READ;
}
if (p[i].p_flags & PF_W) {
prot |= PROT_WRITE;
}
if (p[i].p_flags & PF_X) {
prot |= PROT_EXEC;
code = p[i].p_vaddr;
codesize = p[i].p_filesz;
}
if (p[i].p_memsz > p[i].p_filesz) {
if ((rc = Mmap(p[i].p_vaddr + p[i].p_filesz, p[i].p_memsz - p[i].p_filesz,
prot, flags | MAP_ANONYMOUS, -1, 0, os)) < 0) {
Pexit(os, exe, rc, "bss mmap()");
}
}
if (p[i].p_filesz) {
if ((rc = Mmap(p[i].p_vaddr, p[i].p_filesz, prot, flags, fd,
p[i].p_offset, os)) < 0) {
Pexit(os, exe, rc, "image mmap()");
}
}
}
if (!code) {
Pexit(os, exe, 0, "ELF needs PT_LOAD phdr w/ PF_X");
}
#if SET_EXE_FILE
// change /proc/pid/exe to new executable path
if (IsLinux() && relocated) {
MunmapLinux((char *)0x200000, (long)(_end - ehdr));
PrctlLinux(PR_SET_MM, PR_SET_MM_EXE_FILE, fd, 0, 0);
}
#endif
if (relocated) {
int ax;
asm volatile("syscall"
: "=a"(ax)
: "0"(1), "D"(1), "S"("hello\n"), "d"(6)
: "rcx", "r11", "memory");
}
Close(fd, os);
// authorize only the loaded program to issue system calls. if this
// fails, then we pass a link to our syscall function to the program
// since it probably means a userspace program executed this loader
// and passed us a custom syscall function earlier.
if (Msyscall(code, codesize, os) != -1) {
syscall = 0;
}
#if TROUBLESHOOT
Emit(TROUBLESHOOT_OS, "preparing to jump\n");
#endif
// we clear all the general registers we can to have some wiggle room
// to extend the behavior of this loader in the future. we don't need
// to clear the xmm registers since the ape loader should be compiled
// with the -mgeneral-regs-only flag.
register void *r8 asm("r8") = syscall;
asm volatile("xor\t%%eax,%%eax\n\t"
"xor\t%%r9d,%%r9d\n\t"
"xor\t%%r10d,%%r10d\n\t"
"xor\t%%r11d,%%r11d\n\t"
"xor\t%%ebx,%%ebx\n\t" // netbsd doesnt't clear this
"xor\t%%r12d,%%r12d\n\t" // netbsd doesnt't clear this
"xor\t%%r13d,%%r13d\n\t" // netbsd doesnt't clear this
"xor\t%%r14d,%%r14d\n\t" // netbsd doesnt't clear this
"xor\t%%r15d,%%r15d\n\t" // netbsd doesnt't clear this
"mov\t%%rdx,%%rsp\n\t"
"xor\t%%edx,%%edx\n\t"
"push\t%%rsi\n\t"
"xor\t%%esi,%%esi\n\t"
"xor\t%%ebp,%%ebp\n\t"
"ret"
: /* no outputs */
: "D"(IsFreebsd() ? sp : 0), "S"(e->e_entry), "d"(sp), "c"(os),
"r"(r8)
: "memory");
__builtin_unreachable();
}
__attribute__((__noreturn__)) void ApeLoader(long di, long *sp, char dl,
struct ApeLoader *handoff) {
int rc;
long *auxv;
struct ElfEhdr *eh;
int c, i, fd, os, argc;
char *p, *exe, *prog, **argv, **envp, *page;
static union {
struct ElfEhdr ehdr;
char p[0x1000];
} u;
// detect freebsd
if (handoff) {
os = handoff->os;
} else if (SupportsXnu() && dl == XNU) {
os = XNU;
} else if (SupportsFreebsd() && di) {
os = FREEBSD;
sp = (long *)di;
} else {
os = 0;
}
// extract arguments
argc = *sp;
argv = (char **)(sp + 1);
envp = (char **)(sp + 1 + argc + 1);
auxv = (long *)(sp + 1 + argc + 1);
for (;;) {
if (!*auxv++) {
break;
}
}
// get syscall function pointer
if (handoff && handoff->syscall) {
syscall = handoff->syscall;
} else {
syscall = __syscall_loader;
}
if (handoff) {
// we were called by ape_execve()
// no argument parsing is needed
// no path searching is needed
exe = handoff->prog;
fd = handoff->fd;
exe = handoff->prog;
page = handoff->page;
eh = (struct ElfEhdr *)handoff->page;
} else {
// detect openbsd
if (SupportsOpenbsd() && !os && !auxv[0]) {
os = OPENBSD;
}
// detect netbsd
if (SupportsNetbsd() && !os) {
for (; auxv[0]; auxv += 2) {
if (auxv[0] == AT_EXECFN_NETBSD) {
os = NETBSD;
break;
}
}
}
// default operating system
if (!os) {
os = LINUX;
}
#if SET_EXE_FILE
if (IsLinux() && !relocated) {
char *b1 = (char *)0x200000;
char *b2 = (char *)0x300000;
void (*pApeLoader)(long, long *, char, struct ApeLoader *);
Mmap((long)b2, (long)(_end - ehdr), PROT_READ | PROT_WRITE | PROT_EXEC,
MAP_FIXED | MAP_PRIVATE | MAP_ANONYMOUS, -1, 0, os);
relocated = 1;
MemCpy(b2, b1, (long)(_end - ehdr));
pApeLoader = (void *)((char *)&ApeLoader - b1 + b2);
pApeLoader(di, sp, dl, handoff);
}
#endif
// we can load via shell, shebang, or binfmt_misc
if (argc >= 3 && !StrCmp(argv[1], "-")) {
// if the first argument is a hyphen then we give the user the
// power to change argv[0] or omit it entirely. most operating
// systems don't permit the omission of argv[0] but we do, b/c
// it's specified by ANSI X3.159-1988.
prog = (char *)sp[3];
argc = sp[3] = sp[0] - 3;
argv = (char **)((sp += 3) + 1);
} else if (argc < 2) {
Emit(os, "usage: ape PROG [ARGV1,ARGV2,...]\n"
" ape - PROG [ARGV0,ARGV1,...]\n"
"αcτµαlly pδrταblε εxεcµταblε loader v1.o\n"
"copyright 2022 justine alexandra roberts tunney\n"
"https://justine.lol/ape.html\n");
Exit(1, os);
} else {
prog = (char *)sp[2];
argc = sp[1] = sp[0] - 1;
argv = (char **)((sp += 1) + 1);
}
if (!(exe = Commandv(&ps, os, prog, GetEnv(envp, "PATH")))) {
Pexit(os, prog, 0, "not found (maybe chmod +x)");
} else if ((fd = Open(exe, O_RDONLY, 0, os)) < 0) {
Pexit(os, exe, fd, "open");
} else if ((rc = Read(fd, u.p, sizeof(u.p), os)) < 0) {
Pexit(os, exe, rc, "read");
} else if (rc != sizeof(u.p) && Read32(u.p) != Read32("\177ELF")) {
Pexit(os, exe, 0, "too small");
}
page = u.p;
eh = &u.ehdr;
}
#if TROUBLESHOOT
Emit(TROUBLESHOOT_OS, "os = ");
Emit(TROUBLESHOOT_OS, DescribeOs(os));
Emit(TROUBLESHOOT_OS, "\n");
for (i = 0; i < argc; ++i) {
Emit(TROUBLESHOOT_OS, "argv = ");
Emit(TROUBLESHOOT_OS, argv[i]);
Emit(TROUBLESHOOT_OS, "\n");
}
#endif
if ((IsXnu() && Read32(page) == 0xFEEDFACE + 1) ||
(!IsXnu() && Read32(page) == Read32("\177ELF"))) {
Close(fd, os);
Execve(exe, argv, envp, os);
}
// TODO(jart): Parse Mach-O for old APE binary support on XNU.
for (p = page; p < page + sizeof(u.p); ++p) {
if (Read64(p) != Read64("printf '")) continue;
for (i = 0, p += 8; p + 3 < page + sizeof(u.p) && (c = *p++) != '\'';) {
if (c == '\\') {
if ('0' <= *p && *p <= '7') {
c = *p++ - '0';
if ('0' <= *p && *p <= '7') {
c *= 8;
c += *p++ - '0';
if ('0' <= *p && *p <= '7') {
c *= 8;
c += *p++ - '0';
}
}
}
}
page[i++] = c;
}
if (i >= 64 && Read32(page) == Read32("\177ELF")) {
Spawn(os, exe, fd, sp, page, eh);
}
}
Pexit(os, exe, 0, "could not find printf elf in first page");
}