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ladybird/Tests/Kernel/setpgid-across-sessions-without-leader.cpp
Jean-Baptiste Boric e16894af5a LibC: Do not include errno.h inside unistd.h 
POSIX does not mandate this, therefore let's not do it.
2021-05-14 22:24:02 +02:00

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/*
* Copyright (c) 2020, Ben Wiederhake <BenWiederhake.GitHub@gmx.de>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Assertions.h>
#include <AK/Format.h>
#include <errno.h>
#include <fcntl.h>
#include <serenity.h>
#include <stdio.h>
#include <unistd.h>
/*
* Bug:
* A process can join a process group across sessions if both process groups
* do not have a leader (anymore). This can be used to join a session
* illegitimately. (Or, more harmlessly, to change the own PGID to an unused
* but arbitrary one, for example the PGID 0xDEADBEEF or the one that's going
* to be your program's session ID in the short-term future.)
*
* So what needs to happen:
* - There is session SA
* - There is session SB
* - There is a Process Group PGA in SA
* - There is a Process Group PGB in SB
* - PGA does not have a leader
* - PGB does not have a leader
* - There is a Process PA2 in PGA
* - There is a Process PB2 in PGB
* - PA2 calls setpgid(0, PGB)
* - Now PA2 and PB2 are in the same processgroup, but not in the same session. WHAAAAT! :^)
*
* Here's how to demonstrate the bug:
* - Time 0: PX forks into PA1
* - Time 1: PA1 creates a new session (SA) and pgrp (PGA)
* - Time 2: PA1 forks into PA2
* - Time 3: PA1 dies (PGA now has no leader)
* Note: PA2 never dies. Too much hassle.
* - Time 4: PX forks into PB1
* - Time 5: PB1 creates a new session (SB) and pgrp (PGB)
* - Time 6: PB1 forks into PB2
* - Time 7: PB1 dies (PGB now has no leader)
* - Time 8: PB2 calls pgrp(0, PGA)
* Note: PB2 writes "1" (exploit successful) or "0" (bug is fixed) to a pipe
* - Time 9: If PX hasn't received any message yet through the pipe, it declares the test as failed (for lack of knowledge). Otherwise, it outputs accordingly.
*/
static constexpr useconds_t STEP_SIZE = 1100000;
static void fork_into(void (*fn)(void*), void* arg)
{
const pid_t rc = fork();
if (rc < 0) {
perror("fork");
exit(1);
}
if (rc > 0) {
const int disown_rc = disown(rc);
if (disown_rc < 0) {
perror("disown");
dbgln("This might cause PA1 to remain in the Zombie state, "
"and thus in the process list, meaning the leader is "
"still 'alive' for the purpose of lookup.");
}
return;
}
fn(arg);
dbgln("child finished (?)");
exit(1);
}
static void sleep_steps(useconds_t steps)
{
const int rc = usleep(steps * STEP_SIZE);
if (rc < 0) {
perror("usleep");
VERIFY_NOT_REACHED();
}
}
static void run_pa1(void*);
static void run_pa2(void*);
static void run_pb1(void*);
static void run_pb2(void*);
int main(int, char**)
{
// This entire function is the entirety of process PX.
// Time 0: PX forks into PA1
int fds[2];
// Serenity doesn't support O_NONBLOCK for pipes yet, so
// sadly the test will hang if something goes wrong.
if (pipe2(fds, 0) < 0) {
perror("pipe");
exit(1);
}
dbgln("PX starts with SID={}, PGID={}, PID={}.", getsid(0), getpgid(0), getpid());
dbgln("PX forks into PA1");
fork_into(run_pa1, nullptr);
sleep_steps(4);
// Time 4: PX forks into PB1
dbgln("PX forks into PB1");
fork_into(run_pb1, &(fds[1]));
sleep_steps(5);
// Time 9: If PX hasn't received any message yet through the pipe, it declares
// the test as failed (for lack of knowledge). Otherwise, it outputs accordingly.
dbgln("PX reads from pipe");
unsigned char buf = 42;
ssize_t rc = read(fds[0], &buf, 1);
if (rc == 0) {
// In fact, we only reach this branch when *all* processes have died,
// including this one. So … should be unreachable.
printf("DOUBLE FAIL: pipe is closed, but we still have it open.\n"
"See debug log, some process probably crashed.\n");
exit(1);
}
if (rc < 0) {
if (errno == EAGAIN) {
printf("FAIL: pipe has no data. See debug log, some process os probably hanging.\n");
} else {
perror("read (unknown)");
}
exit(1);
}
VERIFY(rc == 1);
if (buf == 0) {
printf("PASS\n");
return 0;
}
if (buf == 1) {
printf("FAIL (exploit successful)\n");
return 1;
}
printf("FAIL, for some reason %c\n", buf);
return 1;
}
static void run_pa1(void*)
{
// Time 0: PX forks into PA1
sleep_steps(1);
// Time 1: PA1 creates a new session (SA) and pgrp (PGA)
dbgln("PA1 starts with SID={}, PGID={}, PID={}.", getsid(0), getpgid(0), getpid());
dbgln("PA1 calls setsid()");
int rc = setsid();
if (rc < 0) {
perror("setsid (PA)");
VERIFY_NOT_REACHED();
}
dbgln("PA1 did setsid() -> PGA={}, SA={}, yay!", rc, getsid(0));
sleep_steps(1);
// Time 2: PA1 forks into PA2
dbgln("PA1 forks into PA2");
fork_into(run_pa2, nullptr);
sleep_steps(1);
// Time 3: PA1 dies (PGA now has no leader)
dbgln("PA1 dies. You should see a 'Reaped unparented process' "
"message with my ID next, OR THIS TEST IS MEANINGLESS "
"(see fork_into()).");
exit(0);
}
static void run_pa2(void*)
{
// Time 2: PA1 forks into PA2
dbgln("PA2 starts with SID={}, PGID={}, PID={}.", getsid(0), getpgid(0), getpid());
sleep_steps(18);
// pa_2 never *does* anything.
dbgln("PA2 dies from boredom.");
exit(1);
}
static void run_pb1(void* pipe_fd_ptr)
{
// Time 4: PX forks into PB1
sleep_steps(1);
// Time 5: PB1 creates a new session (SB) and pgrp (PGB)
dbgln("PB1 starts with SID={}, PGID={}, PID={}.", getsid(0), getpgid(0), getpid());
dbgln("PB1 calls setsid()");
int rc = setsid();
if (rc < 0) {
perror("setsid (PB)");
VERIFY_NOT_REACHED();
}
dbgln("PB1 did setsid() -> PGB={}, SB={}, yay!", rc, getsid(0));
sleep_steps(1);
// Time 6: PB1 forks into PB2
dbgln("PB1 forks into PB2");
fork_into(run_pb2, pipe_fd_ptr);
sleep_steps(1);
// Time 7: PB1 dies (PGB now has no leader)
dbgln("PB1 dies. You should see a 'Reaped unparented process' "
"message with my ID next, OR THIS TEST IS MEANINGLESS "
"(see fork_into()).");
exit(0);
}
static void simulate_sid_from_pgid(pid_t pgid)
{
pid_t rc = getpgid(pgid); // Same confusion as in the Kernel
int saved_errno = errno;
if (rc < 0 && saved_errno == ESRCH) {
dbgln("The old get_sid_from_pgid({}) would return -1", pgid);
} else if (rc >= 0) {
dbgln("FAIL: Process {} still exists?! PGID is {}.", pgid, rc);
} else {
perror("pgid (probably fail)");
}
}
static void run_pb2(void* pipe_fd_ptr)
{
// Time 6: PB1 forks into PB2
sleep_steps(2);
// Time 8: PB2 calls pgrp(0, PGA)
// Note: PB2 writes "1" (exploit successful) or "0" (bug is fixed) to a pipe
dbgln("PB2 starts with SID={}, PGID={}, PID={}.", getsid(0), getpgid(0), getpid());
dbgln("PB2 calls pgrp(0, PGA)");
int pga = getpid() - 3;
dbgln("PB2: Actually, what is PGA? I guess it's {}?", pga);
simulate_sid_from_pgid(pga);
int rc = setpgid(0, pga);
unsigned char to_write = 123;
if (rc == 0) {
dbgln("PB2: setgpid SUCCESSFUL! CHANGED PGROUP!");
to_write = 1;
} else {
VERIFY(rc == -1);
switch (errno) {
case EACCES:
dbgln("PB2: Failed with EACCES. Huh?!");
to_write = 101;
break;
case EINVAL:
dbgln("PB2: Failed with EINVAL. Huh?!");
to_write = 102;
break;
case ESRCH:
dbgln("PB2: Failed with ESRCH. Huh?!");
to_write = 103;
break;
case EPERM:
dbgln("PB2: Failed with EPERM. Aww, no exploit today :^)");
to_write = 0;
break;
default:
dbgln("PB2: Failed with errno={}?!", errno);
perror("setpgid");
to_write = 104;
break;
}
}
dbgln("PB2 ends with SID={}, PGID={}, PID={}.", getsid(0), getpgid(0), getpid());
int* pipe_fd = static_cast<int*>(pipe_fd_ptr);
VERIFY(*pipe_fd);
rc = write(*pipe_fd, &to_write, 1);
if (rc != 1) {
dbgln("Wrote only {} bytes instead of 1?!", rc);
exit(1);
}
exit(0);
}
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