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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) 1996-2001 Wichert Akkerman <wichert@cistron.nl>
* Copyright (c) 1999-2020 The strace developers.
* All rights reserved.
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*/
#include "defs.h"
#include <linux/ioctl.h>
#include "xlat/ioctl_dirs.h"
#if defined(SPARC) || defined(SPARC64)
/*
* While Alpha, MIPS, PA-RISC, and POWER simply define _IOC_SIZEBITS to 13
* and utilise 3 bits for _IOC_DIRBITS, SPARC tries to provide 14 bits
* for the size field ("as on i386") by (ab)using the lowest direction bit.
* Unfortunately, while doing so, they decide to define _IOC_SIZE to 0
* when the direction doesn't have _IOC_READ/_IOC_WRITE bits set, which
* breaks the invariant
*
* _IOC_SIZE(_IOC(dir, type, nr, size)) == size
*
* for _IOC_DIR(val) that doesn't include _IOC_READ or _IOC_WRITE, which
* is unacceptable for strace's use case.
* So, let's redefine _IOC_SIZE in a way that is more suitable for us.
*/
# undef _IOC_SIZE
# define _IOC_SIZE(nr) \
((_IOC_DIR(nr) & (_IOC_WRITE | _IOC_READ)) \
? (((nr) >> _IOC_SIZESHIFT) & _IOC_XSIZEMASK) \
: (((nr) >> _IOC_SIZESHIFT) & _IOC_SIZEMASK)) \
/* end of _IOC_SIZE definition */
#endif
static int
compare(const void *a, const void *b)
{
const unsigned int code1 = (const uintptr_t) a;
const unsigned int code2 = ((struct_ioctlent *) b)->code;
return (code1 > code2) ? 1 : (code1 < code2) ? -1 : 0;
}
static const struct_ioctlent *
ioctl_lookup(const unsigned int code)
{
struct_ioctlent *iop;
iop = bsearch((const void *) (const uintptr_t) code, ioctlent,
nioctlents, sizeof(ioctlent[0]), compare);
while (iop > ioctlent) {
iop--;
if (iop->code != code) {
iop++;
break;
}
}
return iop;
}
static const struct_ioctlent *
ioctl_next_match(const struct_ioctlent *iop)
{
const unsigned int code = iop->code;
iop++;
if (iop < ioctlent + nioctlents && iop->code == code)
return iop;
return NULL;
}
static void
ioctl_print_code(const unsigned int code)
{
const bool abbrev = xlat_verbose(xlat_verbosity) != XLAT_STYLE_VERBOSE;
tprints("_IOC(");
printflags_ex(_IOC_DIR(code), abbrev ? "_IOC_???" : NULL,
abbrev ? XLAT_STYLE_DEFAULT : XLAT_STYLE_ABBREV,
ioctl_dirs, NULL);
tprintf(", %#x, %#x, %#x)",
_IOC_TYPE(code), _IOC_NR(code), _IOC_SIZE(code));
}
static int
evdev_decode_number(const unsigned int code)
{
const unsigned int nr = _IOC_NR(code);
const bool abbrev = xlat_verbose(xlat_verbosity) != XLAT_STYLE_VERBOSE;
if (_IOC_DIR(code) == _IOC_WRITE) {
if (nr >= 0xc0 && nr <= 0xc0 + 0x3f) {
tprints("EVIOCSABS(");
printxval_ex(evdev_abs, nr - 0xc0,
abbrev ? "ABS_???" : NULL,
abbrev ? XLAT_STYLE_DEFAULT
: XLAT_STYLE_ABBREV);
tprints(")");
return 1;
}
}
if (_IOC_DIR(code) != _IOC_READ)
return 0;
if (nr >= 0x20 && nr <= 0x20 + 0x1f) {
tprints("EVIOCGBIT(");
if (nr == 0x20)
tprints("0");
else
printxval_ex(evdev_ev, nr - 0x20,
abbrev ? "EV_???" : NULL,
abbrev ? XLAT_STYLE_DEFAULT
: XLAT_STYLE_ABBREV);
tprintf(", %u)", _IOC_SIZE(code));
return 1;
} else if (nr >= 0x40 && nr <= 0x40 + 0x3f) {
tprints("EVIOCGABS(");
printxval_ex(evdev_abs, nr - 0x40, abbrev ? "ABS_???" : NULL,
abbrev ? XLAT_STYLE_DEFAULT : XLAT_STYLE_ABBREV);
tprints(")");
return 1;
}
switch (nr) {
case 0x06:
tprintf("EVIOCGNAME(%u)", _IOC_SIZE(code));
return 1;
case 0x07:
tprintf("EVIOCGPHYS(%u)", _IOC_SIZE(code));
return 1;
case 0x08:
tprintf("EVIOCGUNIQ(%u)", _IOC_SIZE(code));
return 1;
case 0x09:
tprintf("EVIOCGPROP(%u)", _IOC_SIZE(code));
return 1;
case 0x0a:
tprintf("EVIOCGMTSLOTS(%u)", _IOC_SIZE(code));
return 1;
case 0x18:
tprintf("EVIOCGKEY(%u)", _IOC_SIZE(code));
return 1;
case 0x19:
tprintf("EVIOCGLED(%u)", _IOC_SIZE(code));
return 1;
case 0x1a:
tprintf("EVIOCGSND(%u)", _IOC_SIZE(code));
return 1;
case 0x1b:
tprintf("EVIOCGSW(%u)", _IOC_SIZE(code));
return 1;
default:
return 0;
}
}
static int
hiddev_decode_number(const unsigned int code)
{
if (_IOC_DIR(code) == _IOC_READ) {
switch (_IOC_NR(code)) {
case 0x04:
tprintf("HIDIOCGRAWNAME(%u)", _IOC_SIZE(code));
return 1;
case 0x05:
tprintf("HIDIOCGRAWPHYS(%u)", _IOC_SIZE(code));
return 1;
case 0x06:
tprintf("HIDIOCSFEATURE(%u)", _IOC_SIZE(code));
return 1;
case 0x08:
tprintf("HIDIOCGRAWUNIQ(%u)", _IOC_SIZE(code));
return 1;
case 0x12:
tprintf("HIDIOCGPHYS(%u)", _IOC_SIZE(code));
return 1;
default:
return 0;
}
} else if (_IOC_DIR(code) == (_IOC_READ | _IOC_WRITE)) {
switch (_IOC_NR(code)) {
case 0x06:
tprintf("HIDIOCSFEATURE(%u)", _IOC_SIZE(code));
return 1;
case 0x07:
tprintf("HIDIOCGFEATURE(%u)", _IOC_SIZE(code));
return 1;
default:
return 0;
}
}
return 0;
}
static int
ioctl_decode_command_number(struct tcb *tcp)
{
const unsigned int code = tcp->u_arg[1];
switch (_IOC_TYPE(code)) {
case 'E':
return evdev_decode_number(code);
case 'H':
return hiddev_decode_number(code);
case 'M':
if (_IOC_DIR(code) == _IOC_WRITE) {
tprintf("MIXER_WRITE(%u)", _IOC_NR(code));
return 1;
} else if (_IOC_DIR(code) == _IOC_READ) {
tprintf("MIXER_READ(%u)", _IOC_NR(code));
return 1;
}
return 0;
case 'U':
if (_IOC_DIR(code) == _IOC_READ && _IOC_NR(code) == 0x2c) {
tprintf("UI_GET_SYSNAME(%u)", _IOC_SIZE(code));
return 1;
}
return 0;
case 'j':
if (_IOC_DIR(code) == _IOC_READ && _IOC_NR(code) == 0x13) {
tprintf("JSIOCGNAME(%u)", _IOC_SIZE(code));
return 1;
}
return 0;
case 'k':
if (_IOC_DIR(code) == _IOC_WRITE && _IOC_NR(code) == 0) {
tprintf("SPI_IOC_MESSAGE(%u)", _IOC_SIZE(code));
return 1;
}
return 0;
default:
return 0;
}
}
static int
f_ioctl(struct tcb *tcp, const unsigned int code, const kernel_ulong_t arg)
{
int rc = fs_f_ioctl(tcp, code, arg);
#if defined ALPHA
if (rc == RVAL_DECODED)
rc = sock_ioctl(tcp, code, arg);
if (rc == RVAL_DECODED)
rc = term_ioctl(tcp, code, arg);
#elif defined MIPS || defined SH || defined XTENSA
if (rc == RVAL_DECODED)
rc = sock_ioctl(tcp, code, arg);
#elif defined POWERPC
if (rc == RVAL_DECODED)
rc = term_ioctl(tcp, code, arg);
#endif
return rc;
}
/**
* Decode arg parameter of the ioctl call.
*
* @return There are two flags of the return value important for the purposes of
* processing by SYS_FUNC(ioctl):
* - RVAL_IOCTL_DECODED: indicates that ioctl decoder code
* has printed arg parameter;
* - RVAL_DECODED: indicates that decoding is done.
* As a result, the following behaviour is expected:
* - on entering:
* - 0: decoding should be continued on exiting;
* - RVAL_IOCTL_DECODED: decoding on exiting is not needed
* and decoder has printed arg value;
* - RVAL_DECODED: decoding on exiting is not needed
* and generic handler should print arg value.
* - on exiting:
* - 0: generic handler should print arg value;
* - RVAL_IOCTL_DECODED: decoder has printed arg value.
*
* Note that it makes no sense to return just RVAL_DECODED on exiting,
* but, of course, it is not prohibited (for example, it may be useful
* in cases where the return path is common on entering and on exiting
* the syscall).
*
* SYS_FUNC(ioctl) converts RVAL_IOCTL_DECODED flag to RVAL_DECODED,
* and passes all other bits of ioctl_decode return value unchanged.
*/
static int
ioctl_decode(struct tcb *tcp)
{
const unsigned int code = tcp->u_arg[1];
const kernel_ulong_t arg = tcp->u_arg[2];
switch (_IOC_TYPE(code)) {
case 0x03:
return hdio_ioctl(tcp, code, arg);
case 0x12:
return block_ioctl(tcp, code, arg);
case '"': /* 0x22 */
return scsi_ioctl(tcp, code, arg);
case '$': /* 0x24 */
return perf_ioctl(tcp, code, arg);
#ifdef HAVE_STRUCT_PTP_SYS_OFFSET
case '=': /* 0x3d */
return ptp_ioctl(tcp, code, arg);
#endif
#ifdef HAVE_LINUX_INPUT_H
case 'E':
return evdev_ioctl(tcp, code, arg);
#endif
case 'I':
return inotify_ioctl(tcp, code, arg);
case 'L':
return loop_ioctl(tcp, code, arg);
#ifdef HAVE_STRUCT_MTD_WRITE_REQ
case 'M':
return mtd_ioctl(tcp, code, arg);
#endif
#ifdef HAVE_STRUCT_UBI_ATTACH_REQ_MAX_BEB_PER1024
case 'O':
return ubi_ioctl(tcp, code, arg);
#endif
case 'R':
return random_ioctl(tcp, code, arg);
case 'T':
return term_ioctl(tcp, code, arg);
case 'V':
return v4l2_ioctl(tcp, code, arg);
case 'W':
return watchdog_ioctl(tcp, code, arg);
case 'X':
return fs_x_ioctl(tcp, code, arg);
case 'f':
return f_ioctl(tcp, code, arg);
#ifdef HAVE_STRUCT_UBI_ATTACH_REQ_MAX_BEB_PER1024
case 'o':
return ubi_ioctl(tcp, code, arg);
#endif
case 'p':
return rtc_ioctl(tcp, code, arg);
#if defined ALPHA || defined MIPS || defined SH || defined XTENSA
case 's':
return sock_ioctl(tcp, code, arg);
#endif
#if defined(ALPHA) || defined(POWERPC)
case 't':
return term_ioctl(tcp, code, arg);
#endif /* !ALPHA */
case 0x89:
return sock_ioctl(tcp, code, arg);
case 0x94:
return fs_0x94_ioctl(tcp, code, arg);
case 0xa4:
return tee_ioctl(tcp, code, arg);
#ifdef HAVE_LINUX_USERFAULTFD_H
case 0xaa:
return uffdio_ioctl(tcp, code, arg);
#endif
case 0xab:
return nbd_ioctl(tcp, code, arg);
#ifdef HAVE_LINUX_KVM_H
case 0xae:
return kvm_ioctl(tcp, code, arg);
#endif
case 0xb4:
return gpio_ioctl(tcp, code, arg);
case 0xb7:
return nsfs_ioctl(tcp, code, arg);
#ifdef HAVE_LINUX_DM_IOCTL_H
case 0xfd:
return dm_ioctl(tcp, code, arg);
#endif
default:
break;
}
return 0;
}
SYS_FUNC(ioctl)
{
const struct_ioctlent *iop;
int ret;
if (entering(tcp)) {
printfd(tcp, tcp->u_arg[0]);
tprints(", ");
if (xlat_verbosity != XLAT_STYLE_ABBREV)
tprintf("%#x", (unsigned int) tcp->u_arg[1]);
if (xlat_verbosity == XLAT_STYLE_VERBOSE)
tprints(" /* ");
if (xlat_verbosity != XLAT_STYLE_RAW) {
ret = ioctl_decode_command_number(tcp);
if (!(ret & IOCTL_NUMBER_STOP_LOOKUP)) {
iop = ioctl_lookup(tcp->u_arg[1]);
if (iop) {
if (ret)
tprints(" or ");
tprints(iop->symbol);
while ((iop = ioctl_next_match(iop)))
tprintf(" or %s", iop->symbol);
} else if (!ret) {
ioctl_print_code(tcp->u_arg[1]);
}
}
}
if (xlat_verbosity == XLAT_STYLE_VERBOSE)
tprints(" */");
ret = ioctl_decode(tcp);
} else {
ret = ioctl_decode(tcp) | RVAL_DECODED;
}
if (ret & RVAL_IOCTL_DECODED) {
ret &= ~RVAL_IOCTL_DECODED;
ret |= RVAL_DECODED;
} else if (ret & RVAL_DECODED) {
tprintf(", %#" PRI_klx, tcp->u_arg[2]);
}
return ret;
}
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