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/*
* Functions for actually doing the system calls.
*/
#include <errno.h>
#include <string.h>
#include <signal.h>
#include <unistd.h>
#include <sys/prctl.h>
#include <sys/syscall.h>
#include <sys/types.h>
#include <sys/wait.h>
#include "arch.h"
#include "child.h"
#include "ftrace.h"
#include "params.h"
#include "pids.h"
#include "random.h"
#include "results.h"
#include "sanitise.h"
#include "shm.h"
#include "syscall.h"
#include "tables.h"
#include "taint.h"
#include "trinity.h"
#include "uid.h"
#include "utils.h"
#ifdef ARCH_IS_BIARCH
/*
* This routine does 32 bit syscalls on 64 bit kernel.
* 32-on-32 will just use syscall() directly from do_syscall() because do32bit flag is biarch only.
*/
static long syscall32(unsigned int call,
unsigned long a1, unsigned long a2, unsigned long a3,
unsigned long a4, unsigned long a5, unsigned long a6)
{
long __res = 0;
#if defined(DO_32_SYSCALL)
/* If we have CONFIG_IA32_EMULATION unset, we will segfault.
* Detect this case, and force 64-bit only.
*/
if (shm->syscalls32_succeeded == FALSE) {
if (shm->syscalls32_attempted >= (max_children * 2)) {
unsigned int i;
lock(&shm->syscalltable_lock);
/* check another thread didn't already do this. */
if (shm->nr_active_32bit_syscalls == 0)
goto already_done;
output(0, "Tried %d 32-bit syscalls unsuccessfully. Disabling all 32-bit syscalls.\n",
shm->syscalls32_attempted);
for (i = 0; i < max_nr_32bit_syscalls; i++) {
struct syscallentry *entry = syscalls[i].entry;
if (entry->active_number != 0)
deactivate_syscall(i, TRUE);
}
already_done:
unlock(&shm->syscalltable_lock);
}
shm->syscalls32_attempted++;
}
DO_32_SYSCALL
if ((unsigned long)(__res) >= (unsigned long)(-133)) {
errno = -(__res);
__res = -1;
}
shm->syscalls32_succeeded = TRUE;
#else
#error Implement 32-on-64 syscall macro for this architecture.
#endif
return __res;
}
#else
#define syscall32(a,b,c,d,e,f,g) 0
#endif /* ARCH_IS_BIARCH */
static void __do_syscall(struct syscallrecord *rec, enum syscallstate state)
{
unsigned long ret = 0;
errno = 0;
shm->stats.op_count++;
if (dry_run == FALSE) {
int nr, call;
bool needalarm;
nr = rec->nr;
/* Some architectures (IA64/MIPS) start their Linux syscalls
* At non-zero, and have other ABIs below.
*/
call = nr + SYSCALL_OFFSET;
needalarm = syscalls[nr].entry->flags & NEED_ALARM;
if (needalarm)
(void)alarm(1);
lock(&rec->lock);
rec->state = state;
unlock(&rec->lock);
if (rec->do32bit == FALSE) {
ret = syscall(call, rec->a1, rec->a2, rec->a3, rec->a4, rec->a5, rec->a6);
} else {
ret = syscall32(call, rec->a1, rec->a2, rec->a3, rec->a4, rec->a5, rec->a6);
}
/* If we became tainted, get out as fast as we can. */
if (is_tainted() == TRUE) {
stop_ftrace();
panic(EXIT_KERNEL_TAINTED);
_exit(EXIT_FAILURE);
}
if (needalarm)
(void)alarm(0);
}
lock(&rec->lock);
rec->errno_post = errno;
rec->retval = ret;
rec->state = AFTER;
unlock(&rec->lock);
}
/* This is a special case for things like execve, which would replace our
* child process with something unknown to us. We use a 'throwaway' process
* to do the execve in, and let it run for a max of a second before we kill it
*/
static void do_extrafork(struct syscallrecord *rec)
{
pid_t pid = 0;
pid_t extrapid;
extrapid = fork();
if (extrapid == 0) {
/* grand-child */
char childname[]="trinity-subchild";
prctl(PR_SET_NAME, (unsigned long) &childname);
__do_syscall(rec, GOING_AWAY);
/* if this was for eg. an successful execve, we should never get here.
* if it failed though... */
_exit(EXIT_SUCCESS);
}
/* misc failure. */
if (extrapid == -1) {
//debugf("Couldn't fork grandchild: %s\n", strerror(errno));
return;
}
/* small pause to let grandchild do some work. */
if (pid_alive(extrapid) == TRUE)
usleep(100);
/* We take the rec lock here even though we don't obviously use it.
* The reason, is that the grandchild is using it. */
lock(&rec->lock);
while (pid == 0) {
int childstatus;
pid = waitpid(extrapid, &childstatus, WUNTRACED | WCONTINUED | WNOHANG);
if (pid_alive(extrapid) == TRUE)
kill(extrapid, SIGKILL);
usleep(1000);
}
unlock(&rec->lock);
}
void do_syscall(struct syscallrecord *rec)
{
struct syscallentry *entry;
unsigned int call;
call = rec->nr;
entry = syscalls[call].entry;
if (entry->flags & EXTRA_FORK)
do_extrafork(rec);
else
/* common-case, do the syscall in this child process. */
__do_syscall(rec, BEFORE);
/* timestamp again for when we returned */
clock_gettime(CLOCK_MONOTONIC, &rec->tp);
}
/*
* If the syscall doesn't exist don't bother calling it next time.
* Some syscalls return ENOSYS depending on their arguments, we mark
* those as IGNORE_ENOSYS and keep calling them.
*/
static void deactivate_enosys(struct syscallrecord *rec, struct syscallentry *entry, unsigned int call)
{
/* some syscalls return ENOSYS instead of EINVAL etc (futex for eg) */
if (entry->flags & IGNORE_ENOSYS)
return;
lock(&shm->syscalltable_lock);
/* check another thread didn't already do this. */
if (entry->active_number == 0)
goto already_done;
output(1, "%s (%d%s) returned ENOSYS, marking as inactive.\n",
entry->name,
call + SYSCALL_OFFSET,
rec->do32bit == TRUE ? ":[32BIT]" : "");
deactivate_syscall(call, rec->do32bit);
already_done:
unlock(&shm->syscalltable_lock);
}
static void generic_post(const enum argtype type, unsigned long reg)
{
void *ptr = (void *) reg;
if ((type == ARG_PATHNAME) && (ptr != NULL))
free(ptr);
}
void handle_syscall_ret(struct syscallrecord *rec)
{
struct syscallentry *entry;
unsigned int call;
call = rec->nr;
entry = syscalls[call].entry;
if (rec->retval == -1UL) {
int err = rec->errno_post;
/* only check syscalls that completed. */
//FIXME: how else would we get here?
if (rec->state == AFTER) {
if (err == ENOSYS)
deactivate_enosys(rec, entry, call);
entry->failures++;
if (err < NR_ERRNOS) {
entry->errnos[err]++;
} else {
// "These should never be seen by user programs."
// But trinity isn't a 'normal' user program, we're doing
// stuff that libc hides from apps.
if (err < 512 || err > 530)
printf("errno out of range after doing %s: %d:%s\n",
entry->name,
err, strerror(err));
}
shm->stats.failures++;
}
} else {
handle_success(rec); // Believe me folks, you'll never get bored with winning
entry->successes++;
shm->stats.successes++;
}
entry->attempted++;
generic_post(entry->arg1type, rec->a1);
generic_post(entry->arg2type, rec->a2);
generic_post(entry->arg3type, rec->a3);
generic_post(entry->arg4type, rec->a4);
generic_post(entry->arg5type, rec->a5);
generic_post(entry->arg6type, rec->a6);
if (entry->post)
entry->post(rec);
check_uid();
generic_free_arg(rec);
}
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