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|
/*
* Copyright (c) 1991, 1992 Paul Kranenburg <pk@cs.few.eur.nl>
* Copyright (c) 1993 Branko Lankester <branko@hacktic.nl>
* Copyright (c) 1993, 1994, 1995, 1996 Rick Sladkey <jrs@world.std.com>
* Copyright (c) 1996-1999 Wichert Akkerman <wichert@cistron.nl>
* Copyright (c) 1999 IBM Deutschland Entwicklung GmbH, IBM Corporation
* Linux for s390 port by D.J. Barrow
* <barrow_dj@mail.yahoo.com,djbarrow@de.ibm.com>
* Copyright (c) 1999-2023 The strace developers.
* All rights reserved.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*/
#include "defs.h"
#include "get_personality.h"
#include "mmap_notify.h"
#include "native_defs.h"
#include "ptrace.h"
#include "ptrace_syscall_info.h"
#include "nsig.h"
#include "number_set.h"
#include "delay.h"
#include "poke.h"
#include "retval.h"
#include <limits.h>
#include <fcntl.h>
/* for struct iovec */
#include <sys/uio.h>
/* for PR_SET_NAME */
#include <linux/prctl.h>
/* for __X32_SYSCALL_BIT */
#include "scno.h"
#include "regs.h"
#if defined(SPARC64)
# undef PTRACE_GETREGS
# define PTRACE_GETREGS PTRACE_GETREGS64
# undef PTRACE_SETREGS
# define PTRACE_SETREGS PTRACE_SETREGS64
#endif
#include "sen.h"
#include "xstring.h"
#include "syscallent_base_nr.h"
/* Define these shorthand notations to simplify the syscallent files. */
#include "sysent_shorthand_defs.h"
#define SEN(syscall_name) SEN_ ## syscall_name, SYS_FUNC_NAME(sys_ ## syscall_name)
const struct_sysent sysent0[] = {
#include "syscallent.h"
};
#if SUPPORTED_PERSONALITIES > 1
# include PERSONALITY1_INCLUDE_FUNCS
static const struct_sysent sysent1[] = {
# include "syscallent1.h"
};
#endif
#if SUPPORTED_PERSONALITIES > 2
# include PERSONALITY2_INCLUDE_FUNCS
static const struct_sysent sysent2[] = {
# include "syscallent2.h"
};
#endif
/* Now undef them since short defines cause wicked namespace pollution. */
#include "sysent_shorthand_undefs.h"
const char *const errnoent[] = {
#include "errnoent.h"
};
const char *const signalent[] = {
#include "signalent.h"
};
/*
* `ioctlent[012].h' files are automatically generated by the auxiliary
* program `ioctlsort', such that the list is sorted by the `code' field.
* This has the side-effect of resolving the _IO.. macros into
* plain integers, eliminating the need to include here everything
* in "/usr/include".
*/
const struct_ioctlent ioctlent0[] = {
#include "ioctlent0.h"
};
#if SUPPORTED_PERSONALITIES > 1
static const struct_ioctlent ioctlent1[] = {
# include "ioctlent1.h"
};
# include PERSONALITY0_INCLUDE_PRINTERS_DECLS
static const struct_printers printers0 = {
# include PERSONALITY0_INCLUDE_PRINTERS_DEFS
};
# include PERSONALITY1_INCLUDE_PRINTERS_DECLS
static const struct_printers printers1 = {
# include PERSONALITY1_INCLUDE_PRINTERS_DEFS
};
#endif
#if SUPPORTED_PERSONALITIES > 2
static const struct_ioctlent ioctlent2[] = {
# include "ioctlent2.h"
};
# include PERSONALITY2_INCLUDE_PRINTERS_DECLS
static const struct_printers printers2 = {
# include PERSONALITY2_INCLUDE_PRINTERS_DEFS
};
#endif
enum {
nsyscalls0 = ARRAY_SIZE(sysent0)
#if SUPPORTED_PERSONALITIES > 1
, nsyscalls1 = ARRAY_SIZE(sysent1)
# if SUPPORTED_PERSONALITIES > 2
, nsyscalls2 = ARRAY_SIZE(sysent2)
# endif
#endif
};
enum {
nioctlents0 = ARRAY_SIZE(ioctlent0)
#if SUPPORTED_PERSONALITIES > 1
, nioctlents1 = ARRAY_SIZE(ioctlent1)
# if SUPPORTED_PERSONALITIES > 2
, nioctlents2 = ARRAY_SIZE(ioctlent2)
# endif
#endif
};
#if SUPPORTED_PERSONALITIES > 1
const struct_sysent *sysent = sysent0;
const struct_ioctlent *ioctlent = ioctlent0;
const struct_printers *printers = &printers0;
#endif
const unsigned int nerrnos = ARRAY_SIZE(errnoent);
const unsigned int nsignals = ARRAY_SIZE(signalent);
unsigned nsyscalls = nsyscalls0;
unsigned nioctlents = nioctlents0;
const unsigned int nsyscall_vec[SUPPORTED_PERSONALITIES] = {
nsyscalls0,
#if SUPPORTED_PERSONALITIES > 1
nsyscalls1,
#endif
#if SUPPORTED_PERSONALITIES > 2
nsyscalls2,
#endif
};
const struct_sysent *const sysent_vec[SUPPORTED_PERSONALITIES] = {
sysent0,
#if SUPPORTED_PERSONALITIES > 1
sysent1,
#endif
#if SUPPORTED_PERSONALITIES > 2
sysent2,
#endif
};
const char *const personality_names[] = PERSONALITY_NAMES;
static_assert(ARRAY_SIZE(personality_names) == SUPPORTED_PERSONALITIES,
"ARRAY_SIZE(personality_names) != SUPPORTED_PERSONALITIES");
#if SUPPORTED_PERSONALITIES > 1
unsigned current_personality;
# ifndef current_wordsize
unsigned current_wordsize = PERSONALITY0_WORDSIZE;
static const int personality_wordsize[SUPPORTED_PERSONALITIES] = {
PERSONALITY0_WORDSIZE,
PERSONALITY1_WORDSIZE,
# if SUPPORTED_PERSONALITIES > 2
PERSONALITY2_WORDSIZE,
# endif
};
# endif
# ifndef current_klongsize
unsigned current_klongsize = PERSONALITY0_KLONGSIZE;
static const int personality_klongsize[SUPPORTED_PERSONALITIES] = {
PERSONALITY0_KLONGSIZE,
PERSONALITY1_KLONGSIZE,
# if SUPPORTED_PERSONALITIES > 2
PERSONALITY2_KLONGSIZE,
# endif
};
# endif
void
set_personality(unsigned int personality)
{
if (personality == current_personality)
return;
if (personality >= SUPPORTED_PERSONALITIES)
error_msg_and_die("Requested switch to unsupported personality "
"%u", personality);
nsyscalls = nsyscall_vec[personality];
sysent = sysent_vec[personality];
switch (personality) {
case 0:
ioctlent = ioctlent0;
nioctlents = nioctlents0;
printers = &printers0;
break;
case 1:
ioctlent = ioctlent1;
nioctlents = nioctlents1;
printers = &printers1;
break;
# if SUPPORTED_PERSONALITIES > 2
case 2:
ioctlent = ioctlent2;
nioctlents = nioctlents2;
printers = &printers2;
break;
# endif
}
current_personality = personality;
# ifndef current_wordsize
current_wordsize = personality_wordsize[personality];
# endif
# ifndef current_klongsize
current_klongsize = personality_klongsize[personality];
# endif
}
static void
update_personality(struct tcb *tcp, unsigned int personality)
{
static bool need_mpers_warning[] =
{ false, !HAVE_PERSONALITY_1_MPERS, !HAVE_PERSONALITY_2_MPERS };
set_personality(personality);
if (personality == tcp->currpers)
return;
tcp->currpers = personality;
if (!is_number_in_set(QUIET_PERSONALITY, quiet_set)) {
printleader(tcp);
tprintf_string("[ Process PID=%d runs in %s mode. ]\n",
tcp->pid, personality_names[personality]);
line_ended();
}
if (need_mpers_warning[personality]) {
error_msg("WARNING: Proper structure decoding for this "
"personality is not supported, please consider "
"building strace with mpers support enabled.");
need_mpers_warning[personality] = false;
}
# if defined(ENABLE_STACKTRACE) && !defined(USE_LIBUNWIND)
if (stack_trace_enabled) {
unwind_tcb_fin(tcp);
unwind_tcb_init(tcp);
}
# endif
}
#endif /* SUPPORTED_PERSONALITIES > 1 */
#ifdef SYS_socket_subcall
static void
decode_socket_subcall(struct tcb *tcp)
{
const int call = tcp->u_arg[0];
if (call < 1 || call >= SYS_socket_nsubcalls)
return;
const kernel_ulong_t scno = SYS_socket_subcall + call;
const unsigned int nargs = sysent[scno].nargs;
uint64_t buf[nargs];
if (umoven(tcp, tcp->u_arg[1], nargs * current_wordsize, buf) < 0)
return;
tcp->scno = scno;
tcp->qual_flg = qual_flags(scno);
tcp->s_ent = &sysent[scno];
for (unsigned int i = 0; i < nargs; ++i)
tcp->u_arg[i] = (sizeof(uint32_t) == current_wordsize)
? ((uint32_t *) (void *) buf)[i] : buf[i];
}
#endif /* SYS_socket_subcall */
#ifdef SYS_ipc_subcall
static void
decode_ipc_subcall(struct tcb *tcp)
{
unsigned int call = tcp->u_arg[0];
const unsigned int version = call >> 16;
if (version) {
# if defined S390 || defined S390X
return;
# else
# ifdef SPARC64
if (current_wordsize == 8)
return;
# endif
set_tcb_priv_ulong(tcp, version);
call &= 0xffff;
# endif
}
switch (call) {
case 1: case 2: case 3: case 4:
case 11: case 12: case 13: case 14:
case 21: case 22: case 23: case 24:
break;
default:
return;
}
tcp->scno = SYS_ipc_subcall + call;
tcp->qual_flg = qual_flags(tcp->scno);
tcp->s_ent = &sysent[tcp->scno];
const unsigned int n = n_args(tcp);
for (unsigned int i = 0; i < n; ++i)
tcp->u_arg[i] = tcp->u_arg[i + 1];
}
#endif /* SYS_ipc_subcall */
#ifdef SYS_syscall_subcall
/* The implementation is architecture specific. */
static void decode_syscall_subcall(struct tcb *);
#endif /* SYS_syscall_subcall */
static void
dumpio(struct tcb *tcp)
{
int fd = tcp->u_arg[0];
if (fd < 0)
return;
if (is_number_in_set(fd, write_set)) {
switch (tcp_sysent(tcp)->sen) {
case SEN_write:
case SEN_pwrite:
case SEN_send:
case SEN_sendto:
case SEN_mq_timedsend_time32:
case SEN_mq_timedsend_time64:
dumpstr(tcp, tcp->u_arg[1], tcp->u_arg[2]);
break;
case SEN_writev:
case SEN_pwritev:
case SEN_pwritev2:
case SEN_vmsplice:
dumpiov_upto(tcp, tcp->u_arg[2], tcp->u_arg[1], -1);
break;
case SEN_sendmsg:
dumpiov_in_msghdr(tcp, tcp->u_arg[1], -1);
break;
case SEN_sendmmsg:
dumpiov_in_mmsghdr(tcp, tcp->u_arg[1]);
break;
}
}
if (syserror(tcp))
return;
if (is_number_in_set(fd, read_set)) {
switch (tcp_sysent(tcp)->sen) {
case SEN_read:
case SEN_pread:
case SEN_recv:
case SEN_recvfrom:
case SEN_mq_timedreceive_time32:
case SEN_mq_timedreceive_time64:
dumpstr(tcp, tcp->u_arg[1], tcp->u_rval);
return;
case SEN_readv:
case SEN_preadv:
case SEN_preadv2:
dumpiov_upto(tcp, tcp->u_arg[2], tcp->u_arg[1],
tcp->u_rval);
return;
case SEN_recvmsg:
dumpiov_in_msghdr(tcp, tcp->u_arg[1], tcp->u_rval);
return;
case SEN_recvmmsg:
case SEN_recvmmsg_time32:
case SEN_recvmmsg_time64:
dumpiov_in_mmsghdr(tcp, tcp->u_arg[1]);
return;
}
}
}
static const char *
err_name(uint64_t err)
{
return err < nerrnos ? errnoent[err] : NULL;
}
void
print_err(int64_t err, bool negated)
{
const char *str = err_name(negated ? -err : err);
if (!str || xlat_verbose(xlat_verbosity) != XLAT_STYLE_ABBREV)
tprintf_string(negated ? "%" PRId64 : "%" PRIu64, err);
if (!str || xlat_verbose(xlat_verbosity) == XLAT_STYLE_RAW)
return;
(xlat_verbose(xlat_verbosity) == XLAT_STYLE_ABBREV
? tprintf_string : tprintf_comment)("%s%s",
negated ? "-" : "", str);
}
static void
print_err_ret(kernel_ulong_t ret, unsigned long u_error)
{
const char *u_error_str = err_name(u_error);
tprints_sysret_next("retval");
PRINT_VAL_D(ret);
if (u_error_str) {
tprints_sysret_next("error");
tprints_string(u_error_str);
tprints_sysret_string("strerror", strerror(u_error));
} else {
tprints_sysret_next("strerror");
tprintf_string("(errno %lu)", u_error);
}
}
static long get_regs(struct tcb *);
static int get_syscall_args(struct tcb *);
static int get_syscall_result(struct tcb *);
static void get_error(struct tcb *, bool);
static void set_error(struct tcb *, unsigned long);
static void set_success(struct tcb *, kernel_long_t);
static int arch_get_scno(struct tcb *);
static int arch_check_scno(struct tcb *);
static int arch_set_scno(struct tcb *, kernel_ulong_t);
static int arch_get_syscall_args(struct tcb *);
static void arch_get_error(struct tcb *, bool);
static int arch_set_error(struct tcb *);
static int arch_set_success(struct tcb *);
#if MAX_ARGS > 6
static void arch_get_syscall_args_extra(struct tcb *, unsigned int);
#endif
struct inject_opts *inject_vec[SUPPORTED_PERSONALITIES];
static struct inject_opts *
tcb_inject_opts(struct tcb *tcp)
{
return (scno_in_range(tcp->scno) && tcp->inject_vec[current_personality])
? &tcp->inject_vec[current_personality][tcp->scno] : NULL;
}
static long
tamper_with_syscall_entering(struct tcb *tcp, unsigned int *signo)
{
if (!tcp->inject_vec[current_personality]) {
tcp->inject_vec[current_personality] =
xarraydup(inject_vec[current_personality],
nsyscalls, sizeof(**inject_vec));
}
struct inject_opts *opts = tcb_inject_opts(tcp);
if (!opts || opts->first == 0 || opts->last == 0)
return 0;
if (opts->last != INJECT_LAST_INF)
--opts->last;
--opts->first;
if (opts->first != 0)
return 0;
opts->first = opts->step;
if (!recovering(tcp)) {
if (opts->data.flags & INJECT_F_SIGNAL)
*signo = opts->data.signo;
if (opts->data.flags & (INJECT_F_ERROR | INJECT_F_RETVAL)) {
kernel_long_t scno =
(opts->data.flags & INJECT_F_SYSCALL)
? (kernel_long_t) shuffle_scno(opts->data.scno)
: -1;
if (!arch_set_scno(tcp, scno)) {
tcp->flags |= TCB_TAMPERED;
if (scno != -1)
tcp->flags |= TCB_TAMPERED_NO_FAIL;
#if ARCH_NEEDS_SET_ERROR_FOR_SCNO_TAMPERING
/*
* So far it's just a workaround for hppa,
* but let's pretend it could be used elsewhere.
*/
else {
kernel_long_t rval =
(opts->data.flags & INJECT_F_RETVAL) ?
ENOSYS : retval_get(opts->data.rval_idx);
tcp->u_error = 0; /* force reset */
set_error(tcp, rval);
}
#endif
}
}
if (opts->data.flags & INJECT_F_POKE_ENTER)
poke_tcb(tcp, opts->data.poke_idx, true);
if (opts->data.flags & INJECT_F_POKE_EXIT)
tcp->flags |= TCB_INJECT_POKE_EXIT;
if (opts->data.flags & INJECT_F_DELAY_ENTER)
delay_tcb(tcp, opts->data.delay_idx, true);
if (opts->data.flags & INJECT_F_DELAY_EXIT)
tcp->flags |= TCB_INJECT_DELAY_EXIT;
}
return 0;
}
static long
tamper_with_syscall_exiting(struct tcb *tcp)
{
struct inject_opts *opts = tcb_inject_opts(tcp);
if (!opts)
return 0;
if (inject_poke_exit(tcp))
poke_tcb(tcp, opts->data.poke_idx, false);
if (inject_delay_exit(tcp))
delay_tcb(tcp, opts->data.delay_idx, false);
if (!syscall_tampered(tcp))
return 0;
if (!syserror(tcp) ^ !!syscall_tampered_nofail(tcp)) {
error_msg("Failed to tamper with process %d: unexpectedly got"
" %serror (return value %#" PRI_klx ", error %lu)",
tcp->pid, syscall_tampered_nofail(tcp) ? "" : "no ",
tcp->u_rval, tcp->u_error);
return 1;
}
if (opts->data.flags & INJECT_F_RETVAL)
set_success(tcp, retval_get(opts->data.rval_idx));
else
set_error(tcp, retval_get(opts->data.rval_idx));
return 0;
}
/*
* Returns:
* 0: "ignore this ptrace stop", bail out silently.
* 1: ok, decoded; call
* syscall_entering_finish(tcp, syscall_entering_trace(tcp, ...)).
* other: error; call syscall_entering_finish(tcp, res), where res is the value
* returned.
*/
int
syscall_entering_decode(struct tcb *tcp)
{
int res = get_scno(tcp);
if (res == 0)
return res;
if (res != 1 || (res = get_syscall_args(tcp)) != 1) {
printleader(tcp);
tprints_arg_begin(tcp_sysent(tcp)->sys_name);
/*
* " <unavailable>" will be added later by the code which
* detects ptrace errors.
*/
return res;
}
#ifdef SYS_syscall_subcall
if (tcp_sysent(tcp)->sen == SEN_syscall)
decode_syscall_subcall(tcp);
#endif
#if defined SYS_ipc_subcall \
|| defined SYS_socket_subcall
switch (tcp_sysent(tcp)->sen) {
# ifdef SYS_ipc_subcall
case SEN_ipc:
decode_ipc_subcall(tcp);
break;
# endif
# ifdef SYS_socket_subcall
case SEN_socketcall:
decode_socket_subcall(tcp);
break;
# endif
}
#endif
return 1;
}
int
syscall_entering_trace(struct tcb *tcp, unsigned int *sig)
{
if (hide_log(tcp)) {
/*
* Restrain from fault injection
* while the tracee executes strace code.
*/
tcp->qual_flg &= ~QUAL_INJECT;
switch (tcp_sysent(tcp)->sen) {
case SEN_execve:
case SEN_execveat:
case SEN_execv:
/*
* First exec* syscall makes the log visible.
*/
tcp->flags &= ~TCB_HIDE_LOG;
/*
* Check whether this exec* syscall succeeds.
*/
tcp->flags |= TCB_CHECK_EXEC_SYSCALL;
break;
}
}
if (hide_log(tcp) || !traced(tcp)
|| ((tracing_paths || tracing_fds) && !pathtrace_match(tcp))) {
tcp->flags |= TCB_FILTERED;
return 0;
}
tcp->flags &= ~TCB_FILTERED;
if (inject(tcp))
tamper_with_syscall_entering(tcp, sig);
if (cflag == CFLAG_ONLY_STATS) {
return 0;
}
#ifdef ENABLE_STACKTRACE
if (stack_trace_enabled &&
!check_exec_syscall(tcp) &&
tcp_sysent(tcp)->sys_flags & STACKTRACE_CAPTURE_ON_ENTER) {
unwind_tcb_capture(tcp);
}
#endif
if (!is_complete_set(status_set, NUMBER_OF_STATUSES))
strace_open_memstream(tcp);
printleader(tcp);
tprints_arg_begin(tcp_sysent(tcp)->sys_name);
int res = raw(tcp) ? printargs(tcp) : tcp_sysent(tcp)->sys_func(tcp);
fflush(tcp->outf);
return res;
}
void
syscall_entering_finish(struct tcb *tcp, int res)
{
tcp->flags |= TCB_INSYSCALL;
tcp->sys_func_rval = res;
/* Measure the entrance time as late as possible to avoid errors. */
if ((Tflag || cflag) && !filtered(tcp))
clock_gettime(CLOCK_MONOTONIC, &tcp->etime);
/* Start tracking system time */
if (cflag) {
if (debug_flag) {
struct timespec dt;
ts_sub(&dt, &tcp->stime, &tcp->ltime);
if (ts_nz(&dt))
debug_func_msg("pid %d: %.9f seconds of system "
"time spent since the last "
"syscall exit",
tcp->pid, ts_float(&dt));
}
tcp->ltime = tcp->stime;
}
}
/* Returns:
* 0: "bail out".
* 1: ok.
* -1: error in one of ptrace ops.
*
* If not 0, call syscall_exiting_trace(tcp, res), where res is the return
* value. Anyway, call syscall_exiting_finish(tcp) then.
*/
int
syscall_exiting_decode(struct tcb *tcp, struct timespec *pts)
{
/* Measure the exit time as early as possible to avoid errors. */
if ((Tflag || cflag) && !filtered(tcp))
clock_gettime(CLOCK_MONOTONIC, pts);
if (tcp_sysent(tcp)->sys_flags & MEMORY_MAPPING_CHANGE)
mmap_notify_report(tcp);
if ((tcp_sysent(tcp)->sys_flags & COMM_CHANGE) && !syserror(tcp) &&
(tcp_sysent(tcp)->sen != SEN_prctl || tcp->u_arg[0] == PR_SET_NAME))
maybe_load_task_comm(tcp);
if (filtered(tcp))
return 0;
if (check_exec_syscall(tcp)) {
/* The check failed, hide the log. */
tcp->flags |= TCB_HIDE_LOG;
}
#if SUPPORTED_PERSONALITIES > 1
update_personality(tcp, tcp->currpers);
#endif
return get_syscall_result(tcp);
}
void
print_syscall_resume(struct tcb *tcp)
{
/* If not in -ff mode, and printing_tcp != tcp,
* then the log currently does not end with output
* of _our syscall entry_, but with something else.
* We need to say which syscall's return is this.
*
* Forced reprinting via TCB_REPRINT is used only by
* "strace -ff -oLOG test/threaded_execve" corner case.
* It's the only case when -ff mode needs reprinting.
*/
if ((!output_separately && printing_tcp != tcp && !tcp->staged_output_data)
|| (tcp->flags & TCB_REPRINT)) {
tcp->flags &= ~TCB_REPRINT;
printleader(tcp);
tprintf_string("<... %s resumed>", tcp_sysent(tcp)->sys_name);
}
printing_tcp = tcp;
}
static void
print_injected_note(struct tcb *tcp)
{
if (syscall_tampered(tcp) && syscall_tampered_poked(tcp))
tprints_sysret_string("inject", "INJECTED: args, retval");
else if (syscall_tampered_poked(tcp))
tprints_sysret_string("inject", "INJECTED: args");
else if (syscall_tampered(tcp))
tprints_sysret_string("inject", "INJECTED");
if (syscall_tampered_delayed(tcp))
tprints_sysret_string("delay", "DELAYED");
}
static void
print_erestart(const char *err_short, const char *err_long)
{
tprints_sysret_next("retval");
tprint_sysret_pseudo_rval();
tprints_sysret_next("error");
tprints_string(err_short);
tprints_sysret_string("strerror", err_long);
}
int
syscall_exiting_trace(struct tcb *tcp, struct timespec *ts, int res)
{
if (syscall_tampered(tcp) ||
inject_delay_exit(tcp) ||
inject_poke_exit(tcp))
tamper_with_syscall_exiting(tcp);
if (cflag != CFLAG_ONLY_STATS)
print_syscall_resume(tcp);
tcp->s_prev_ent = NULL;
if (res != 1) {
/* There was an error in one of prior ptrace ops. */
bool status_filtering =
!is_complete_set(status_set, NUMBER_OF_STATUSES);
bool publish = status_filtering
? is_number_in_set(STATUS_UNAVAILABLE, status_set)
: true;
if (cflag && publish)
count_syscall(tcp, ts);
if (cflag != CFLAG_ONLY_STATS) {
tprint_arg_end();
tprint_space();
tabto();
tprint_sysret_begin();
tprints_sysret_next("retval");
tprint_sysret_pseudo_rval();
tprints_sysret_next("return");
tprints_string("<unavailable>");
tprint_sysret_end();
tprint_newline();
if (status_filtering)
strace_close_memstream(tcp, publish);
line_ended();
}
return res;
}
tcp->s_prev_ent = tcp->s_ent;
int sys_res = 0;
if (cflag != CFLAG_ONLY_STATS) {
if (raw(tcp)) {
/* sys_res = printargs(tcp); - but it's nop on sysexit */
} else {
if (tcp->sys_func_rval & RVAL_DECODED)
sys_res = tcp->sys_func_rval;
else
sys_res = tcp_sysent(tcp)->sys_func(tcp);
}
}
if (!is_complete_set(status_set, NUMBER_OF_STATUSES)) {
bool publish = syserror(tcp)
&& is_number_in_set(STATUS_FAILED, status_set);
publish |= !syserror(tcp)
&& is_number_in_set(STATUS_SUCCESSFUL, status_set);
if (cflag != CFLAG_ONLY_STATS)
strace_close_memstream(tcp, publish);
if (!publish) {
if (cflag != CFLAG_ONLY_STATS)
line_ended();
return 0;
}
}
if (syscall_limit != -1)
syscall_limit--;
if (cflag) {
count_syscall(tcp, ts);
if (cflag == CFLAG_ONLY_STATS)
return 0;
}
tprint_arg_end();
tprint_space();
tabto();
tprint_sysret_begin();
if (raw(tcp)) {
if (tcp->u_error) {
print_err_ret(tcp->u_rval, tcp->u_error);
} else {
tprints_sysret_next("retval");
PRINT_VAL_X(tcp->u_rval);
}
} else if (!(sys_res & RVAL_NONE) && tcp->u_error) {
switch (tcp->u_error) {
/* Blocked signals do not interrupt any syscalls.
* In this case syscalls don't return ERESTARTfoo codes.
*
* Deadly signals set to SIG_DFL interrupt syscalls
* and kill the process regardless of which of the codes below
* is returned by the interrupted syscall.
* In some cases, kernel forces a kernel-generated deadly
* signal to be unblocked and set to SIG_DFL (and thus cause
* death) if it is blocked or SIG_IGNed: for example, SIGSEGV
* or SIGILL. (The alternative is to leave process spinning
* forever on the faulty instruction - not useful).
*
* SIG_IGNed signals and non-deadly signals set to SIG_DFL
* (for example, SIGCHLD, SIGWINCH) interrupt syscalls,
* but kernel will always restart them.
*/
case ERESTARTSYS:
/* Most common type of signal-interrupted syscall exit code.
* The system call will be restarted with the same arguments
* if SA_RESTART is set; otherwise, it will fail with EINTR.
*/
print_erestart("ERESTARTSYS", "To be restarted if SA_RESTART is set");
break;
case ERESTARTNOINTR:
/* Rare. For example, fork() returns this if interrupted.
* SA_RESTART is ignored (assumed set): the restart is unconditional.
*/
print_erestart("ERESTARTNOINTR", "To be restarted");
break;
case ERESTARTNOHAND:
/* pause(), rt_sigsuspend() etc use this code.
* SA_RESTART is ignored (assumed not set):
* syscall won't restart (will return EINTR instead)
* even after signal with SA_RESTART set. However,
* after SIG_IGN or SIG_DFL signal it will restart
* (thus the name "restart only if has no handler").
*/
print_erestart("ERESTARTNOHAND", "To be restarted if no handler");
break;
case ERESTART_RESTARTBLOCK:
/* Syscalls like nanosleep(), poll() which can't be
* restarted with their original arguments use this
* code. Kernel will execute restart_syscall() instead,
* which changes arguments before restarting syscall.
* SA_RESTART is ignored (assumed not set) similarly
* to ERESTARTNOHAND. (Kernel can't honor SA_RESTART
* since restart data is saved in "restart block"
* in task struct, and if signal handler uses a syscall
* which in turn saves another such restart block,
* old data is lost and restart becomes impossible)
*/
print_erestart("ERESTART_RESTARTBLOCK", "Interrupted by signal");
break;
default:
print_err_ret(tcp->u_rval, tcp->u_error);
break;
}
} else {
tprints_sysret_next("retval");
if (sys_res & RVAL_NONE)
tprint_sysret_pseudo_rval();
else {
switch (sys_res & RVAL_MASK) {
case RVAL_HEX:
#if ANY_WORDSIZE_LESS_THAN_KERNEL_LONG
if (current_klongsize < sizeof(tcp->u_rval)) {
PRINT_VAL_X((unsigned int) tcp->u_rval);
} else
#endif
{
PRINT_VAL_X(tcp->u_rval);
}
break;
case RVAL_OCTAL: {
unsigned long long mode =
zero_extend_signed_to_ull(tcp->u_rval);
#if ANY_WORDSIZE_LESS_THAN_KERNEL_LONG
if (current_klongsize < sizeof(tcp->u_rval))
mode = (unsigned int) mode;
#endif
print_numeric_ll_umode_t(mode);
break;
}
case RVAL_UDECIMAL:
#if ANY_WORDSIZE_LESS_THAN_KERNEL_LONG
if (current_klongsize < sizeof(tcp->u_rval)) {
PRINT_VAL_U((unsigned int) tcp->u_rval);
} else
#endif
{
PRINT_VAL_U(tcp->u_rval);
}
break;
case RVAL_FD:
/*
* printfd accepts int as fd and it makes
* little sense to pass negative fds to it.
*/
if ((current_klongsize < sizeof(tcp->u_rval)) ||
((kernel_ulong_t) tcp->u_rval <= INT_MAX)) {
printfd(tcp, tcp->u_rval);
} else {
PRINT_VAL_D(tcp->u_rval);
}
break;
case RVAL_TID:
case RVAL_SID:
case RVAL_TGID:
case RVAL_PGID: {
#define _(_t) [RVAL_##_t - RVAL_TID] = PT_##_t
static const enum pid_type types[] = {
_(TID), _(SID), _(TGID), _(PGID),
};
#undef _
printpid(tcp, tcp->u_rval,
types[(sys_res & RVAL_MASK) - RVAL_TID]);
break;
}
default:
tprint_sysret_pseudo_rval();
error_msg("invalid rval format");
break;
}
}
}
if ((sys_res & RVAL_STR) && tcp->auxstr)
tprints_sysret_string("retstr", tcp->auxstr);
print_injected_note(tcp);
if (Tflag) {
tprints_sysret_next("time");
tprint_associated_info_begin();
ts_sub(ts, ts, &tcp->etime);
PRINT_VAL_D(ts->tv_sec);
if (Tflag_width) {
tprintf_string(".%0*ld", Tflag_width,
(long) ts->tv_nsec / Tflag_scale);
}
tprint_associated_info_end();
}
tprint_sysret_end();
tprint_newline();
dumpio(tcp);
line_ended();
#ifdef ENABLE_STACKTRACE
if (stack_trace_enabled)
unwind_tcb_print(tcp);
#endif
return 0;
}
void
syscall_exiting_finish(struct tcb *tcp)
{
tcp->flags &= ~(TCB_INSYSCALL | TCB_TAMPERED | TCB_INJECT_DELAY_EXIT |
TCB_INJECT_POKE_EXIT | TCB_TAMPERED_DELAYED | TCB_TAMPERED_POKED);
tcp->sys_func_rval = 0;
free_tcb_priv_data(tcp);
#ifdef ENABLE_SECONTEXT
tcp->last_dirfd = AT_FDCWD;
#endif
if (cflag)
tcp->ltime = tcp->stime;
}
bool
is_erestart(struct tcb *tcp)
{
switch (tcp->u_error) {
case ERESTARTSYS:
case ERESTARTNOINTR:
case ERESTARTNOHAND:
case ERESTART_RESTARTBLOCK:
return true;
default:
return false;
}
}
static unsigned long saved_u_error;
void
temporarily_clear_syserror(struct tcb *tcp)
{
saved_u_error = tcp->u_error;
tcp->u_error = 0;
}
void
restore_cleared_syserror(struct tcb *tcp)
{
tcp->u_error = saved_u_error;
}
static struct_ptrace_syscall_info ptrace_sci;
static bool
ptrace_syscall_info_is_valid(void)
{
return ptrace_get_syscall_info_supported &&
ptrace_sci.op <= PTRACE_SYSCALL_INFO_SECCOMP;
}
#define XLAT_MACROS_ONLY
#include "xlat/nt_descriptor_types.h"
#undef XLAT_MACROS_ONLY
#define ARCH_MIGHT_USE_SET_REGS 1
#include "arch_regs.c"
#if HAVE_ARCH_GETRVAL2
# include "arch_getrval2.c"
#endif
#include "getregs_old.h"
#ifdef HAVE_GETREGS_OLD
/* Either getregs_old() or set_regs() */
# undef ARCH_MIGHT_USE_SET_REGS
# define ARCH_MIGHT_USE_SET_REGS 0
#endif
#undef ptrace_getregset_or_getregs
#undef ptrace_setregset_or_setregs
#ifdef ARCH_REGS_FOR_GETREGSET
# define ptrace_getregset_or_getregs ptrace_getregset
static long
ptrace_getregset(pid_t pid)
{
# ifdef ARCH_IOVEC_FOR_GETREGSET
/* variable iovec */
ARCH_IOVEC_FOR_GETREGSET.iov_len = sizeof(ARCH_REGS_FOR_GETREGSET);
return ptrace(PTRACE_GETREGSET, pid, NT_PRSTATUS,
&ARCH_IOVEC_FOR_GETREGSET);
# else
/* constant iovec */
static struct iovec io = {
.iov_base = &ARCH_REGS_FOR_GETREGSET,
.iov_len = sizeof(ARCH_REGS_FOR_GETREGSET)
};
return ptrace(PTRACE_GETREGSET, pid, NT_PRSTATUS, &io);
# endif
}
# if ARCH_MIGHT_USE_SET_REGS
# define ptrace_setregset_or_setregs ptrace_setregset
static int
ptrace_setregset(pid_t pid)
{
# ifdef ARCH_IOVEC_FOR_GETREGSET
/* variable iovec */
return ptrace(PTRACE_SETREGSET, pid, NT_PRSTATUS,
&ARCH_IOVEC_FOR_GETREGSET);
# else
/* constant iovec */
static struct iovec io = {
.iov_base = &ARCH_REGS_FOR_GETREGSET,
.iov_len = sizeof(ARCH_REGS_FOR_GETREGSET)
};
return ptrace(PTRACE_SETREGSET, pid, NT_PRSTATUS, &io);
# endif
}
# endif /* ARCH_MIGHT_USE_SET_REGS */
#elif defined ARCH_REGS_FOR_GETREGS
# define ptrace_getregset_or_getregs ptrace_getregs
static long
ptrace_getregs(pid_t pid)
{
# if defined SPARC || defined SPARC64
/* SPARC systems have the meaning of data and addr reversed */
return ptrace(PTRACE_GETREGS, pid, (void *) &ARCH_REGS_FOR_GETREGS, 0);
# else
return ptrace(PTRACE_GETREGS, pid, NULL, &ARCH_REGS_FOR_GETREGS);
# endif
}
# if ARCH_MIGHT_USE_SET_REGS
# define ptrace_setregset_or_setregs ptrace_setregs
static int
ptrace_setregs(pid_t pid)
{
# if defined SPARC || defined SPARC64
/* SPARC systems have the meaning of data and addr reversed */
return ptrace(PTRACE_SETREGS, pid, (void *) &ARCH_REGS_FOR_GETREGS, 0);
# else
return ptrace(PTRACE_SETREGS, pid, NULL, &ARCH_REGS_FOR_GETREGS);
# endif
}
# endif /* ARCH_MIGHT_USE_SET_REGS */
#endif /* ARCH_REGS_FOR_GETREGSET || ARCH_REGS_FOR_GETREGS */
static long get_regs_error = -1;
void
clear_regs(struct tcb *tcp)
{
ptrace_sci.op = 0xff;
get_regs_error = -1;
}
static long
get_regs(struct tcb *const tcp)
{
#ifdef ptrace_getregset_or_getregs
if (get_regs_error != -1)
return get_regs_error;
# ifdef HAVE_GETREGS_OLD
/*
* Try PTRACE_GETREGSET/PTRACE_GETREGS first,
* fallback to getregs_old.
*/
static int use_getregs_old;
if (use_getregs_old < 0) {
return get_regs_error = ptrace_getregset_or_getregs(tcp->pid);
} else if (use_getregs_old == 0) {
get_regs_error = ptrace_getregset_or_getregs(tcp->pid);
if (get_regs_error >= 0) {
use_getregs_old = -1;
return get_regs_error;
}
if (errno == EPERM || errno == ESRCH)
return get_regs_error;
use_getregs_old = 1;
}
return get_regs_error = getregs_old(tcp);
# else /* !HAVE_GETREGS_OLD */
/* Assume that PTRACE_GETREGSET/PTRACE_GETREGS works. */
get_regs_error = ptrace_getregset_or_getregs(tcp->pid);
# if defined ARCH_PERSONALITY_0_IOV_SIZE
if (get_regs_error)
return get_regs_error;
switch (ARCH_IOVEC_FOR_GETREGSET.iov_len) {
case ARCH_PERSONALITY_0_IOV_SIZE:
update_personality(tcp, 0);
break;
case ARCH_PERSONALITY_1_IOV_SIZE:
update_personality(tcp, 1);
break;
default: {
static bool printed = false;
if (!printed) {
error_msg("Unsupported regset size returned by "
"PTRACE_GETREGSET: %zu",
ARCH_IOVEC_FOR_GETREGSET.iov_len);
printed = true;
}
update_personality(tcp, 0);
}
}
# endif /* ARCH_PERSONALITY_0_IOV_SIZE */
return get_regs_error;
# endif /* !HAVE_GETREGS_OLD */
#else /* !ptrace_getregset_or_getregs */
# warning get_regs is not implemented for this architecture yet
return 0;
#endif /* !ptrace_getregset_or_getregs */
}
#ifdef ptrace_setregset_or_setregs
static int
set_regs(pid_t pid)
{
return ptrace_setregset_or_setregs(pid);
}
#endif /* ptrace_setregset_or_setregs */
struct sysent_buf {
struct tcb *tcp;
struct_sysent ent;
char buf[sizeof("syscall_0x") + sizeof(kernel_ulong_t) * 2];
};
static void
free_sysent_buf(void *ptr)
{
struct sysent_buf *s = ptr;
s->tcp->s_prev_ent = s->tcp->s_ent = NULL;
free(ptr);
}
static bool
strace_get_syscall_info(struct tcb *tcp)
{
/*
* ptrace_get_syscall_info_supported should have been checked
* by the caller.
*/
if (ptrace_sci.op == 0xff) {
const size_t size = sizeof(ptrace_sci);
if (ptrace(PTRACE_GET_SYSCALL_INFO, tcp->pid,
(void *) size, &ptrace_sci) < 0) {
get_regs_error = -2;
return false;
}
#if SUPPORTED_PERSONALITIES > 1
int newpers = get_personality_from_syscall_info(&ptrace_sci);
if (newpers >= 0)
update_personality(tcp, newpers);
#endif
}
if (entering(tcp)) {
if (ptrace_sci.op == PTRACE_SYSCALL_INFO_EXIT) {
error_msg("pid %d: entering"
", ptrace_syscall_info.op == %u",
tcp->pid, ptrace_sci.op);
/* TODO: handle this. */
}
} else {
if (ptrace_sci.op == PTRACE_SYSCALL_INFO_ENTRY) {
error_msg("pid %d: exiting"
", ptrace_syscall_info.op == %u",
tcp->pid, ptrace_sci.op);
/* TODO: handle this. */
}
}
return true;
}
bool
get_instruction_pointer(struct tcb *tcp, kernel_ulong_t *ip)
{
if (get_regs_error < -1)
return false;
if (ptrace_get_syscall_info_supported) {
if (!strace_get_syscall_info(tcp))
return false;
*ip = (kernel_ulong_t) ptrace_sci.instruction_pointer;
return true;
}
#if defined ARCH_PC_REG
if (get_regs(tcp) < 0)
return false;
*ip = (kernel_ulong_t) ARCH_PC_REG;
return true;
#elif defined ARCH_PC_PEEK_ADDR
if (upeek(tcp, ARCH_PC_PEEK_ADDR, ip) < 0)
return false;
return true;
#else
# error Neither ARCH_PC_REG nor ARCH_PC_PEEK_ADDR is defined
#endif
}
bool
get_stack_pointer(struct tcb *tcp, kernel_ulong_t *sp)
{
if (get_regs_error < -1)
return false;
if (ptrace_get_syscall_info_supported) {
if (!strace_get_syscall_info(tcp))
return false;
*sp = (kernel_ulong_t) ptrace_sci.stack_pointer;
return true;
}
#if defined ARCH_SP_REG
if (get_regs(tcp) < 0)
return false;
*sp = (kernel_ulong_t) ARCH_SP_REG;
return true;
#elif defined ARCH_SP_PEEK_ADDR
if (upeek(tcp, ARCH_SP_PEEK_ADDR, sp) < 0)
return false;
return true;
#else
return false;
#endif
}
static int
get_syscall_regs(struct tcb *tcp)
{
if (get_regs_error != -1)
return get_regs_error;
if (ptrace_get_syscall_info_supported)
return strace_get_syscall_info(tcp) ? 0 : get_regs_error;
return get_regs(tcp);
}
const struct_sysent stub_sysent = {
.nargs = MAX_ARGS,
.sys_flags = MEMORY_MAPPING_CHANGE,
.sen = SEN_printargs,
.sys_func = printargs,
.sys_name = "???",
};
/*
* Returns:
* 0: "ignore this ptrace stop", syscall_entering_decode() should return a "bail
* out silently" code.
* 1: ok, continue in syscall_entering_decode().
* other: error, syscall_entering_decode() should print error indicator
* ("???" etc) and return an appropriate code.
*/
int
get_scno(struct tcb *tcp)
{
tcp->scno = -1;
tcp->s_ent = NULL;
tcp->qual_flg = QUAL_RAW | DEFAULT_QUAL_FLAGS;
if (get_syscall_regs(tcp) < 0)
return -1;
if (ptrace_syscall_info_is_valid()) {
/* Apply arch-specific workarounds. */
int rc = arch_check_scno(tcp);
if (rc != 1)
return rc;
tcp->scno = ptrace_sci.entry.nr;
} else {
int rc = arch_get_scno(tcp);
if (rc != 1)
return rc;
}
tcp->true_scno = tcp->scno;
tcp->scno = shuffle_scno(tcp->scno);
if (scno_is_valid(tcp->scno)) {
tcp->s_ent = &sysent[tcp->scno];
tcp->qual_flg = qual_flags(tcp->scno);
} else {
struct sysent_buf *s = xzalloc(sizeof(*s));
s->tcp = tcp;
s->ent = stub_sysent;
s->ent.sys_name = s->buf;
xsprintf(s->buf, "syscall_%#" PRI_klx, shuffle_scno(tcp->scno));
tcp->s_ent = &s->ent;
set_tcb_priv_data(tcp, s, free_sysent_buf);
debug_msg("pid %d invalid syscall %#" PRI_klx,
tcp->pid, shuffle_scno(tcp->scno));
}
/*
* We refrain from argument decoding during recovering
* as tracee memory mappings has changed and the registers
* are very likely pointing to garbage already.
*/
if (recovering(tcp))
tcp->qual_flg |= QUAL_RAW;
return 1;
}
static int
get_syscall_args(struct tcb *tcp)
{
if (ptrace_syscall_info_is_valid()) {
const unsigned int n =
MIN(ARRAY_SIZE(tcp->u_arg),
ARRAY_SIZE(ptrace_sci.entry.args));
for (unsigned int i = 0; i < n; ++i)
tcp->u_arg[i] = ptrace_sci.entry.args[i];
#if SUPPORTED_PERSONALITIES > 1
if (tcp_sysent(tcp)->sys_flags & COMPAT_SYSCALL_TYPES) {
for (unsigned int i = 0; i < n; ++i)
tcp->u_arg[i] = (uint32_t) tcp->u_arg[i];
}
#endif
/*
* So far it's just a workaround for mips o32,
* but let's pretend it could be used elsewhere.
*/
#if MAX_ARGS > 6
arch_get_syscall_args_extra(tcp, n);
#endif
return 1;
}
return arch_get_syscall_args(tcp);
}
#ifdef ptrace_getregset_or_getregs
# define get_syscall_result_regs get_syscall_regs
#else
static int get_syscall_result_regs(struct tcb *);
#endif
/* Returns:
* 1: ok, continue in syscall_exiting_trace().
* -1: error, syscall_exiting_trace() should print error indicator
* ("???" etc) and bail out.
*/
static int
get_syscall_result(struct tcb *tcp)
{
if (get_syscall_result_regs(tcp) < 0)
return -1;
get_error(tcp,
(!(tcp_sysent(tcp)->sys_flags & SYSCALL_NEVER_FAILS)
|| syscall_tampered(tcp))
&& !syscall_tampered_nofail(tcp));
return 1;
}
static void
get_error(struct tcb *tcp, const bool check_errno)
{
if (ptrace_syscall_info_is_valid()) {
if (ptrace_sci.exit.is_error) {
tcp->u_rval = -1;
tcp->u_error = -ptrace_sci.exit.rval;
} else {
tcp->u_error = 0;
tcp->u_rval = ptrace_sci.exit.rval;
}
} else {
tcp->u_error = 0;
arch_get_error(tcp, check_errno);
}
}
static void
set_error(struct tcb *tcp, unsigned long new_error)
{
const unsigned long old_error = tcp->u_error;
if (new_error == old_error || new_error > MAX_ERRNO_VALUE)
return;
#ifdef ptrace_setregset_or_setregs
/* if we are going to invoke set_regs, call get_regs first */
if (get_regs(tcp) < 0)
return;
#endif
tcp->u_error = new_error;
if (arch_set_error(tcp)) {
tcp->u_error = old_error;
/* arch_set_error does not update u_rval */
} else {
if (ptrace_syscall_info_is_valid())
tcp->u_rval = -1;
else
get_error(tcp, !(tcp_sysent(tcp)->sys_flags &
SYSCALL_NEVER_FAILS));
}
}
static void
set_success(struct tcb *tcp, kernel_long_t new_rval)
{
const kernel_long_t old_rval = tcp->u_rval;
#ifdef ptrace_setregset_or_setregs
/* if we are going to invoke set_regs, call get_regs first */
if (get_regs(tcp) < 0)
return;
#endif
tcp->u_rval = new_rval;
if (arch_set_success(tcp)) {
tcp->u_rval = old_rval;
/* arch_set_success does not update u_error */
} else {
if (ptrace_syscall_info_is_valid())
tcp->u_error = 0;
else
get_error(tcp, !(tcp_sysent(tcp)->sys_flags &
SYSCALL_NEVER_FAILS));
}
}
#include "get_scno.c"
#include "check_scno.c"
#include "set_scno.c"
#include "get_syscall_args.c"
#ifndef ptrace_getregset_or_getregs
# include "get_syscall_result.c"
#endif
#include "get_error.c"
#include "set_error.c"
#ifdef HAVE_GETREGS_OLD
# include "getregs_old.c"
#endif
#include "shuffle_scno.c"
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