//===-- sanitizer_common_syscalls.inc ---------------------------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Common syscalls handlers for tools like AddressSanitizer, // ThreadSanitizer, MemorySanitizer, etc. // // This file should be included into the tool's interceptor file, // which has to define it's own macros: // COMMON_SYSCALL_PRE_READ_RANGE // Called in prehook for regions that will be read by the kernel and // must be initialized. // COMMON_SYSCALL_PRE_WRITE_RANGE // Called in prehook for regions that will be written to by the kernel // and must be addressable. The actual write range may be smaller than // reported in the prehook. See POST_WRITE_RANGE. // COMMON_SYSCALL_POST_READ_RANGE // Called in posthook for regions that were read by the kernel. Does // not make much sense. // COMMON_SYSCALL_POST_WRITE_RANGE // Called in posthook for regions that were written to by the kernel // and are now initialized. // COMMON_SYSCALL_ACQUIRE(addr) // Acquire memory visibility from addr. // COMMON_SYSCALL_RELEASE(addr) // Release memory visibility to addr. // COMMON_SYSCALL_FD_CLOSE(fd) // Called before closing file descriptor fd. // COMMON_SYSCALL_FD_ACQUIRE(fd) // Acquire memory visibility from fd. // COMMON_SYSCALL_FD_RELEASE(fd) // Release memory visibility to fd. // COMMON_SYSCALL_PRE_FORK() // Called before fork syscall. // COMMON_SYSCALL_POST_FORK(long res) // Called after fork syscall. // COMMON_SYSCALL_BLOCKING_START() // Called before blocking syscall. // COMMON_SYSCALL_BLOCKING_END() // Called after blocking syscall. //===----------------------------------------------------------------------===// #include "sanitizer_platform.h" #if SANITIZER_LINUX # include "sanitizer_libc.h" # define PRE_SYSCALL(name) \ SANITIZER_INTERFACE_ATTRIBUTE void __sanitizer_syscall_pre_impl_##name # define PRE_READ(p, s) COMMON_SYSCALL_PRE_READ_RANGE(p, s) # define PRE_WRITE(p, s) COMMON_SYSCALL_PRE_WRITE_RANGE(p, s) # define POST_SYSCALL(name) \ SANITIZER_INTERFACE_ATTRIBUTE void __sanitizer_syscall_post_impl_##name # define POST_READ(p, s) COMMON_SYSCALL_POST_READ_RANGE(p, s) # define POST_WRITE(p, s) COMMON_SYSCALL_POST_WRITE_RANGE(p, s) # ifndef COMMON_SYSCALL_ACQUIRE # define COMMON_SYSCALL_ACQUIRE(addr) ((void)(addr)) # endif # ifndef COMMON_SYSCALL_RELEASE # define COMMON_SYSCALL_RELEASE(addr) ((void)(addr)) # endif # ifndef COMMON_SYSCALL_FD_CLOSE # define COMMON_SYSCALL_FD_CLOSE(fd) ((void)(fd)) # endif # ifndef COMMON_SYSCALL_FD_ACQUIRE # define COMMON_SYSCALL_FD_ACQUIRE(fd) ((void)(fd)) # endif # ifndef COMMON_SYSCALL_FD_RELEASE # define COMMON_SYSCALL_FD_RELEASE(fd) ((void)(fd)) # endif # ifndef COMMON_SYSCALL_PRE_FORK # define COMMON_SYSCALL_PRE_FORK() \ {} # endif # ifndef COMMON_SYSCALL_POST_FORK # define COMMON_SYSCALL_POST_FORK(res) \ {} # endif # ifndef COMMON_SYSCALL_BLOCKING_START # define COMMON_SYSCALL_BLOCKING_START() \ {} # endif # ifndef COMMON_SYSCALL_BLOCKING_END # define COMMON_SYSCALL_BLOCKING_END() \ {} # endif // FIXME: do some kind of PRE_READ for all syscall arguments (int(s) and such). extern "C" { struct sanitizer_kernel_iovec { void *iov_base; unsigned long iov_len; }; struct sanitizer_kernel_msghdr { void *msg_name; int msg_namelen; struct sanitizer_kernel_iovec *msg_iov; unsigned long msg_iovlen; void *msg_control; unsigned long msg_controllen; unsigned msg_flags; }; struct sanitizer_kernel_mmsghdr { struct sanitizer_kernel_msghdr msg_hdr; unsigned msg_len; }; struct sanitizer_kernel_timespec { long tv_sec; long tv_nsec; }; struct sanitizer_kernel_timeval { long tv_sec; long tv_usec; }; struct sanitizer_kernel_rusage { struct sanitizer_kernel_timeval ru_timeval[2]; long ru_long[14]; }; struct sanitizer_kernel_sockaddr { unsigned short sa_family; char sa_data[14]; }; // Real sigset size is always passed as a syscall argument. // Declare it "void" to catch sizeof(kernel_sigset_t). typedef void kernel_sigset_t; static void kernel_write_iovec(const __sanitizer_iovec *iovec, SIZE_T iovlen, SIZE_T maxlen) { for (SIZE_T i = 0; i < iovlen && maxlen; ++i) { SSIZE_T sz = Min(iovec[i].iov_len, maxlen); POST_WRITE(iovec[i].iov_base, sz); maxlen -= sz; } } // This functions uses POST_READ, because it needs to run after syscall to know // the real read range. static void kernel_read_iovec(const __sanitizer_iovec *iovec, SIZE_T iovlen, SIZE_T maxlen) { POST_READ(iovec, sizeof(*iovec) * iovlen); for (SIZE_T i = 0; i < iovlen && maxlen; ++i) { SSIZE_T sz = Min(iovec[i].iov_len, maxlen); POST_READ(iovec[i].iov_base, sz); maxlen -= sz; } } PRE_SYSCALL(recvmsg)(long sockfd, sanitizer_kernel_msghdr *msg, long flags) { PRE_READ(msg, sizeof(*msg)); } POST_SYSCALL(recvmsg) (long res, long sockfd, sanitizer_kernel_msghdr *msg, long flags) { if (res >= 0) { if (msg) { for (unsigned long i = 0; i < msg->msg_iovlen; ++i) { POST_WRITE(msg->msg_iov[i].iov_base, msg->msg_iov[i].iov_len); } POST_WRITE(msg->msg_control, msg->msg_controllen); } } } PRE_SYSCALL(recvmmsg) (long fd, sanitizer_kernel_mmsghdr *msg, long vlen, long flags, void *timeout) { PRE_READ(msg, vlen * sizeof(*msg)); } POST_SYSCALL(recvmmsg) (long res, long fd, sanitizer_kernel_mmsghdr *msg, long vlen, long flags, void *timeout) { if (res >= 0) { if (msg) { for (unsigned long i = 0; i < msg->msg_hdr.msg_iovlen; ++i) { POST_WRITE(msg->msg_hdr.msg_iov[i].iov_base, msg->msg_hdr.msg_iov[i].iov_len); } POST_WRITE(msg->msg_hdr.msg_control, msg->msg_hdr.msg_controllen); POST_WRITE(&msg->msg_len, sizeof(msg->msg_len)); } if (timeout) POST_WRITE(timeout, struct_timespec_sz); } } PRE_SYSCALL(read)(long fd, void *buf, uptr count) { if (buf) { PRE_WRITE(buf, count); } } POST_SYSCALL(read)(long res, long fd, void *buf, uptr count) { if (res > 0 && buf) { POST_WRITE(buf, res); } } PRE_SYSCALL(time)(void *tloc) {} POST_SYSCALL(time)(long res, void *tloc) { if (res >= 0) { if (tloc) POST_WRITE(tloc, sizeof(long)); } } PRE_SYSCALL(stime)(void *tptr) {} POST_SYSCALL(stime)(long res, void *tptr) { if (res >= 0) { if (tptr) POST_WRITE(tptr, sizeof(long)); } } PRE_SYSCALL(gettimeofday)(void *tv, void *tz) {} POST_SYSCALL(gettimeofday)(long res, void *tv, void *tz) { if (res >= 0) { if (tv) POST_WRITE(tv, timeval_sz); if (tz) POST_WRITE(tz, struct_timezone_sz); } } PRE_SYSCALL(settimeofday)(void *tv, void *tz) {} POST_SYSCALL(settimeofday)(long res, void *tv, void *tz) { if (res >= 0) { if (tv) POST_WRITE(tv, timeval_sz); if (tz) POST_WRITE(tz, struct_timezone_sz); } } # if !SANITIZER_ANDROID PRE_SYSCALL(adjtimex)(void *txc_p) {} POST_SYSCALL(adjtimex)(long res, void *txc_p) { if (res >= 0) { if (txc_p) POST_WRITE(txc_p, struct_timex_sz); } } # endif PRE_SYSCALL(times)(void *tbuf) {} POST_SYSCALL(times)(long res, void *tbuf) { if (res >= 0) { if (tbuf) POST_WRITE(tbuf, struct_tms_sz); } } PRE_SYSCALL(gettid)() {} POST_SYSCALL(gettid)(long res) {} PRE_SYSCALL(nanosleep)(void *rqtp, void *rmtp) {} POST_SYSCALL(nanosleep)(long res, void *rqtp, void *rmtp) { if (res >= 0) { if (rqtp) POST_WRITE(rqtp, struct_timespec_sz); if (rmtp) POST_WRITE(rmtp, struct_timespec_sz); } } PRE_SYSCALL(alarm)(long seconds) {} POST_SYSCALL(alarm)(long res, long seconds) {} PRE_SYSCALL(getpid)() {} POST_SYSCALL(getpid)(long res) {} PRE_SYSCALL(getppid)() {} POST_SYSCALL(getppid)(long res) {} PRE_SYSCALL(getuid)() {} POST_SYSCALL(getuid)(long res) {} PRE_SYSCALL(geteuid)() {} POST_SYSCALL(geteuid)(long res) {} PRE_SYSCALL(getgid)() {} POST_SYSCALL(getgid)(long res) {} PRE_SYSCALL(getegid)() {} POST_SYSCALL(getegid)(long res) {} PRE_SYSCALL(getresuid)(void *ruid, void *euid, void *suid) {} POST_SYSCALL(getresuid)(long res, void *ruid, void *euid, void *suid) { if (res >= 0) { if (ruid) POST_WRITE(ruid, sizeof(unsigned)); if (euid) POST_WRITE(euid, sizeof(unsigned)); if (suid) POST_WRITE(suid, sizeof(unsigned)); } } PRE_SYSCALL(getresgid)(void *rgid, void *egid, void *sgid) {} POST_SYSCALL(getresgid)(long res, void *rgid, void *egid, void *sgid) { if (res >= 0) { if (rgid) POST_WRITE(rgid, sizeof(unsigned)); if (egid) POST_WRITE(egid, sizeof(unsigned)); if (sgid) POST_WRITE(sgid, sizeof(unsigned)); } } PRE_SYSCALL(getpgid)(long pid) {} POST_SYSCALL(getpgid)(long res, long pid) {} PRE_SYSCALL(getpgrp)() {} POST_SYSCALL(getpgrp)(long res) {} PRE_SYSCALL(getsid)(long pid) {} POST_SYSCALL(getsid)(long res, long pid) {} PRE_SYSCALL(getgroups)(long gidsetsize, void *grouplist) {} POST_SYSCALL(getgroups) (long res, long gidsetsize, __sanitizer___kernel_gid_t *grouplist) { if (res >= 0) { if (grouplist) POST_WRITE(grouplist, res * sizeof(*grouplist)); } } PRE_SYSCALL(setregid)(long rgid, long egid) {} POST_SYSCALL(setregid)(long res, long rgid, long egid) {} PRE_SYSCALL(setgid)(long gid) {} POST_SYSCALL(setgid)(long res, long gid) {} PRE_SYSCALL(setreuid)(long ruid, long euid) {} POST_SYSCALL(setreuid)(long res, long ruid, long euid) {} PRE_SYSCALL(setuid)(long uid) {} POST_SYSCALL(setuid)(long res, long uid) {} PRE_SYSCALL(setresuid)(long ruid, long euid, long suid) {} POST_SYSCALL(setresuid)(long res, long ruid, long euid, long suid) {} PRE_SYSCALL(setresgid)(long rgid, long egid, long sgid) {} POST_SYSCALL(setresgid)(long res, long rgid, long egid, long sgid) {} PRE_SYSCALL(setfsuid)(long uid) {} POST_SYSCALL(setfsuid)(long res, long uid) {} PRE_SYSCALL(setfsgid)(long gid) {} POST_SYSCALL(setfsgid)(long res, long gid) {} PRE_SYSCALL(setpgid)(long pid, long pgid) {} POST_SYSCALL(setpgid)(long res, long pid, long pgid) {} PRE_SYSCALL(setsid)() {} POST_SYSCALL(setsid)(long res) {} PRE_SYSCALL(setgroups)(long gidsetsize, __sanitizer___kernel_gid_t *grouplist) { if (grouplist) POST_WRITE(grouplist, gidsetsize * sizeof(*grouplist)); } POST_SYSCALL(setgroups) (long res, long gidsetsize, __sanitizer___kernel_gid_t *grouplist) {} PRE_SYSCALL(acct)(const void *name) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(acct)(long res, const void *name) {} PRE_SYSCALL(capget)(void *header, void *dataptr) { if (header) PRE_READ(header, __user_cap_header_struct_sz); } POST_SYSCALL(capget)(long res, void *header, void *dataptr) { if (res >= 0) if (dataptr) POST_WRITE(dataptr, __user_cap_data_struct_sz(header)); } PRE_SYSCALL(capset)(void *header, const void *data) { if (header) PRE_READ(header, __user_cap_header_struct_sz); if (data) PRE_READ(data, __user_cap_data_struct_sz(header)); } POST_SYSCALL(capset)(long res, void *header, const void *data) {} PRE_SYSCALL(personality)(long personality) {} POST_SYSCALL(personality)(long res, long personality) {} PRE_SYSCALL(sigpending)(void *set) {} POST_SYSCALL(sigpending)(long res, void *set) { if (res >= 0) { if (set) POST_WRITE(set, old_sigset_t_sz); } } PRE_SYSCALL(sigprocmask)(long how, void *set, void *oset) {} POST_SYSCALL(sigprocmask)(long res, long how, void *set, void *oset) { if (res >= 0) { if (set) POST_WRITE(set, old_sigset_t_sz); if (oset) POST_WRITE(oset, old_sigset_t_sz); } } PRE_SYSCALL(getitimer)(long which, void *value) {} POST_SYSCALL(getitimer)(long res, long which, void *value) { if (res >= 0) { if (value) POST_WRITE(value, struct_itimerval_sz); } } PRE_SYSCALL(setitimer)(long which, void *value, void *ovalue) {} POST_SYSCALL(setitimer)(long res, long which, void *value, void *ovalue) { if (res >= 0) { if (value) POST_WRITE(value, struct_itimerval_sz); if (ovalue) POST_WRITE(ovalue, struct_itimerval_sz); } } PRE_SYSCALL(timer_create) (long which_clock, void *timer_event_spec, void *created_timer_id) {} POST_SYSCALL(timer_create) (long res, long which_clock, void *timer_event_spec, void *created_timer_id) { if (res >= 0) { if (timer_event_spec) POST_WRITE(timer_event_spec, struct_sigevent_sz); if (created_timer_id) POST_WRITE(created_timer_id, sizeof(long)); } } PRE_SYSCALL(timer_gettime)(long timer_id, void *setting) {} POST_SYSCALL(timer_gettime)(long res, long timer_id, void *setting) { if (res >= 0) { if (setting) POST_WRITE(setting, struct_itimerspec_sz); } } PRE_SYSCALL(timer_getoverrun)(long timer_id) {} POST_SYSCALL(timer_getoverrun)(long res, long timer_id) {} PRE_SYSCALL(timer_settime) (long timer_id, long flags, const void *new_setting, void *old_setting) { if (new_setting) PRE_READ(new_setting, struct_itimerspec_sz); } POST_SYSCALL(timer_settime) (long res, long timer_id, long flags, const void *new_setting, void *old_setting) { if (res >= 0) { if (old_setting) POST_WRITE(old_setting, struct_itimerspec_sz); } } PRE_SYSCALL(timer_delete)(long timer_id) {} POST_SYSCALL(timer_delete)(long res, long timer_id) {} PRE_SYSCALL(clock_settime)(long which_clock, const void *tp) { if (tp) PRE_READ(tp, struct_timespec_sz); } POST_SYSCALL(clock_settime)(long res, long which_clock, const void *tp) {} PRE_SYSCALL(clock_gettime)(long which_clock, void *tp) {} POST_SYSCALL(clock_gettime)(long res, long which_clock, void *tp) { if (res >= 0) { if (tp) POST_WRITE(tp, struct_timespec_sz); } } # if !SANITIZER_ANDROID PRE_SYSCALL(clock_adjtime)(long which_clock, void *tx) {} POST_SYSCALL(clock_adjtime)(long res, long which_clock, void *tx) { if (res >= 0) { if (tx) POST_WRITE(tx, struct_timex_sz); } } # endif PRE_SYSCALL(clock_getres)(long which_clock, void *tp) {} POST_SYSCALL(clock_getres)(long res, long which_clock, void *tp) { if (res >= 0) { if (tp) POST_WRITE(tp, struct_timespec_sz); } } PRE_SYSCALL(clock_nanosleep) (long which_clock, long flags, const void *rqtp, void *rmtp) { if (rqtp) PRE_READ(rqtp, struct_timespec_sz); } POST_SYSCALL(clock_nanosleep) (long res, long which_clock, long flags, const void *rqtp, void *rmtp) { if (res >= 0) { if (rmtp) POST_WRITE(rmtp, struct_timespec_sz); } } PRE_SYSCALL(nice)(long increment) {} POST_SYSCALL(nice)(long res, long increment) {} PRE_SYSCALL(sched_setscheduler)(long pid, long policy, void *param) {} POST_SYSCALL(sched_setscheduler)(long res, long pid, long policy, void *param) { if (res >= 0) { if (param) POST_WRITE(param, struct_sched_param_sz); } } PRE_SYSCALL(sched_setparam)(long pid, void *param) { if (param) PRE_READ(param, struct_sched_param_sz); } POST_SYSCALL(sched_setparam)(long res, long pid, void *param) {} PRE_SYSCALL(sched_getscheduler)(long pid) {} POST_SYSCALL(sched_getscheduler)(long res, long pid) {} PRE_SYSCALL(sched_getparam)(long pid, void *param) {} POST_SYSCALL(sched_getparam)(long res, long pid, void *param) { if (res >= 0) { if (param) POST_WRITE(param, struct_sched_param_sz); } } PRE_SYSCALL(sched_setaffinity)(long pid, long len, void *user_mask_ptr) { if (user_mask_ptr) PRE_READ(user_mask_ptr, len); } POST_SYSCALL(sched_setaffinity) (long res, long pid, long len, void *user_mask_ptr) {} PRE_SYSCALL(sched_getaffinity)(long pid, long len, void *user_mask_ptr) {} POST_SYSCALL(sched_getaffinity) (long res, long pid, long len, void *user_mask_ptr) { if (res >= 0) { if (user_mask_ptr) POST_WRITE(user_mask_ptr, len); } } PRE_SYSCALL(sched_yield)() {} POST_SYSCALL(sched_yield)(long res) {} PRE_SYSCALL(sched_get_priority_max)(long policy) {} POST_SYSCALL(sched_get_priority_max)(long res, long policy) {} PRE_SYSCALL(sched_get_priority_min)(long policy) {} POST_SYSCALL(sched_get_priority_min)(long res, long policy) {} PRE_SYSCALL(sched_rr_get_interval)(long pid, void *interval) {} POST_SYSCALL(sched_rr_get_interval)(long res, long pid, void *interval) { if (res >= 0) { if (interval) POST_WRITE(interval, struct_timespec_sz); } } PRE_SYSCALL(setpriority)(long which, long who, long niceval) {} POST_SYSCALL(setpriority)(long res, long which, long who, long niceval) {} PRE_SYSCALL(getpriority)(long which, long who) {} POST_SYSCALL(getpriority)(long res, long which, long who) {} PRE_SYSCALL(shutdown)(long arg0, long arg1) {} POST_SYSCALL(shutdown)(long res, long arg0, long arg1) {} PRE_SYSCALL(reboot)(long magic1, long magic2, long cmd, void *arg) {} POST_SYSCALL(reboot)(long res, long magic1, long magic2, long cmd, void *arg) {} PRE_SYSCALL(restart_syscall)() {} POST_SYSCALL(restart_syscall)(long res) {} PRE_SYSCALL(kexec_load) (long entry, long nr_segments, void *segments, long flags) {} POST_SYSCALL(kexec_load) (long res, long entry, long nr_segments, void *segments, long flags) { if (res >= 0) { if (segments) POST_WRITE(segments, struct_kexec_segment_sz); } } PRE_SYSCALL(exit)(long error_code) {} POST_SYSCALL(exit)(long res, long error_code) {} PRE_SYSCALL(exit_group)(long error_code) {} POST_SYSCALL(exit_group)(long res, long error_code) {} PRE_SYSCALL(wait4)(long pid, void *stat_addr, long options, void *ru) {} POST_SYSCALL(wait4) (long res, long pid, void *stat_addr, long options, void *ru) { if (res >= 0) { if (stat_addr) POST_WRITE(stat_addr, sizeof(int)); if (ru) POST_WRITE(ru, struct_rusage_sz); } } PRE_SYSCALL(waitid) (long which, long pid, void *infop, long options, void *ru) {} POST_SYSCALL(waitid) (long res, long which, long pid, void *infop, long options, void *ru) { if (res >= 0) { if (infop) POST_WRITE(infop, siginfo_t_sz); if (ru) POST_WRITE(ru, struct_rusage_sz); } } PRE_SYSCALL(waitpid)(long pid, void *stat_addr, long options) {} POST_SYSCALL(waitpid)(long res, long pid, void *stat_addr, long options) { if (res >= 0) { if (stat_addr) POST_WRITE(stat_addr, sizeof(int)); } } PRE_SYSCALL(set_tid_address)(void *tidptr) {} POST_SYSCALL(set_tid_address)(long res, void *tidptr) { if (res >= 0) { if (tidptr) POST_WRITE(tidptr, sizeof(int)); } } PRE_SYSCALL(init_module)(void *umod, long len, const void *uargs) { if (uargs) PRE_READ(uargs, __sanitizer::internal_strlen((const char *)uargs) + 1); } POST_SYSCALL(init_module)(long res, void *umod, long len, const void *uargs) {} PRE_SYSCALL(delete_module)(const void *name_user, long flags) { if (name_user) PRE_READ(name_user, __sanitizer::internal_strlen((const char *)name_user) + 1); } POST_SYSCALL(delete_module)(long res, const void *name_user, long flags) {} PRE_SYSCALL(rt_sigprocmask)(long how, void *set, void *oset, long sigsetsize) {} POST_SYSCALL(rt_sigprocmask) (long res, long how, kernel_sigset_t *set, kernel_sigset_t *oset, long sigsetsize) { if (res >= 0) { if (set) POST_WRITE(set, sigsetsize); if (oset) POST_WRITE(oset, sigsetsize); } } PRE_SYSCALL(rt_sigpending)(void *set, long sigsetsize) {} POST_SYSCALL(rt_sigpending)(long res, kernel_sigset_t *set, long sigsetsize) { if (res >= 0) { if (set) POST_WRITE(set, sigsetsize); } } PRE_SYSCALL(rt_sigtimedwait) (const kernel_sigset_t *uthese, void *uinfo, const void *uts, long sigsetsize) { if (uthese) PRE_READ(uthese, sigsetsize); if (uts) PRE_READ(uts, struct_timespec_sz); } POST_SYSCALL(rt_sigtimedwait) (long res, const void *uthese, void *uinfo, const void *uts, long sigsetsize) { if (res >= 0) { if (uinfo) POST_WRITE(uinfo, siginfo_t_sz); } } PRE_SYSCALL(rt_tgsigqueueinfo)(long tgid, long pid, long sig, void *uinfo) {} POST_SYSCALL(rt_tgsigqueueinfo) (long res, long tgid, long pid, long sig, void *uinfo) { if (res >= 0) { if (uinfo) POST_WRITE(uinfo, siginfo_t_sz); } } PRE_SYSCALL(kill)(long pid, long sig) {} POST_SYSCALL(kill)(long res, long pid, long sig) {} PRE_SYSCALL(tgkill)(long tgid, long pid, long sig) {} POST_SYSCALL(tgkill)(long res, long tgid, long pid, long sig) {} PRE_SYSCALL(tkill)(long pid, long sig) {} POST_SYSCALL(tkill)(long res, long pid, long sig) {} PRE_SYSCALL(rt_sigqueueinfo)(long pid, long sig, void *uinfo) {} POST_SYSCALL(rt_sigqueueinfo)(long res, long pid, long sig, void *uinfo) { if (res >= 0) { if (uinfo) POST_WRITE(uinfo, siginfo_t_sz); } } PRE_SYSCALL(sgetmask)() {} POST_SYSCALL(sgetmask)(long res) {} PRE_SYSCALL(ssetmask)(long newmask) {} POST_SYSCALL(ssetmask)(long res, long newmask) {} PRE_SYSCALL(signal)(long sig, long handler) {} POST_SYSCALL(signal)(long res, long sig, long handler) {} PRE_SYSCALL(pause)() {} POST_SYSCALL(pause)(long res) {} PRE_SYSCALL(sync)() {} POST_SYSCALL(sync)(long res) {} PRE_SYSCALL(fsync)(long fd) {} POST_SYSCALL(fsync)(long res, long fd) {} PRE_SYSCALL(fdatasync)(long fd) {} POST_SYSCALL(fdatasync)(long res, long fd) {} PRE_SYSCALL(bdflush)(long func, long data) {} POST_SYSCALL(bdflush)(long res, long func, long data) {} PRE_SYSCALL(mount) (void *dev_name, void *dir_name, void *type, long flags, void *data) {} POST_SYSCALL(mount) (long res, void *dev_name, void *dir_name, void *type, long flags, void *data) { if (res >= 0) { if (dev_name) POST_WRITE(dev_name, __sanitizer::internal_strlen((const char *)dev_name) + 1); if (dir_name) POST_WRITE(dir_name, __sanitizer::internal_strlen((const char *)dir_name) + 1); if (type) POST_WRITE(type, __sanitizer::internal_strlen((const char *)type) + 1); } } PRE_SYSCALL(umount)(void *name, long flags) {} POST_SYSCALL(umount)(long res, void *name, long flags) { if (res >= 0) { if (name) POST_WRITE(name, __sanitizer::internal_strlen((const char *)name) + 1); } } PRE_SYSCALL(oldumount)(void *name) {} POST_SYSCALL(oldumount)(long res, void *name) { if (res >= 0) { if (name) POST_WRITE(name, __sanitizer::internal_strlen((const char *)name) + 1); } } PRE_SYSCALL(truncate)(const void *path, long length) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(truncate)(long res, const void *path, long length) {} PRE_SYSCALL(ftruncate)(long fd, long length) {} POST_SYSCALL(ftruncate)(long res, long fd, long length) {} PRE_SYSCALL(stat)(const void *filename, void *statbuf) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(stat)(long res, const void *filename, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct___old_kernel_stat_sz); } } # if !SANITIZER_ANDROID PRE_SYSCALL(statfs)(const void *path, void *buf) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(statfs)(long res, const void *path, void *buf) { if (res >= 0) { if (buf) POST_WRITE(buf, struct_statfs_sz); } } PRE_SYSCALL(fstatfs)(long fd, void *buf) {} POST_SYSCALL(fstatfs)(long res, long fd, void *buf) { if (res >= 0) { if (buf) POST_WRITE(buf, struct_statfs_sz); } } # endif // !SANITIZER_ANDROID # if SANITIZER_GLIBC PRE_SYSCALL(statfs64)(const void *path, long sz, void *buf) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(statfs64)(long res, const void *path, long sz, void *buf) { if (res >= 0) { if (buf) POST_WRITE(buf, struct_statfs64_sz); } } PRE_SYSCALL(fstatfs64)(long fd, long sz, void *buf) {} POST_SYSCALL(fstatfs64)(long res, long fd, long sz, void *buf) { if (res >= 0) { if (buf) POST_WRITE(buf, struct_statfs64_sz); } } # endif // SANITIZER_GLIBC PRE_SYSCALL(lstat)(const void *filename, void *statbuf) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(lstat)(long res, const void *filename, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct___old_kernel_stat_sz); } } PRE_SYSCALL(fstat)(long fd, void *statbuf) {} POST_SYSCALL(fstat)(long res, long fd, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct___old_kernel_stat_sz); } } PRE_SYSCALL(newstat)(const void *filename, void *statbuf) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(newstat)(long res, const void *filename, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat_sz); } } PRE_SYSCALL(newlstat)(const void *filename, void *statbuf) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(newlstat)(long res, const void *filename, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat_sz); } } PRE_SYSCALL(newfstat)(long fd, void *statbuf) {} POST_SYSCALL(newfstat)(long res, long fd, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat_sz); } } # if SANITIZER_GLIBC PRE_SYSCALL(ustat)(long dev, void *ubuf) {} POST_SYSCALL(ustat)(long res, long dev, void *ubuf) { if (res >= 0) { if (ubuf) POST_WRITE(ubuf, struct_ustat_sz); } } # endif // SANITIZER_GLIBC PRE_SYSCALL(stat64)(const void *filename, void *statbuf) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(stat64)(long res, const void *filename, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat64_sz); } } PRE_SYSCALL(fstat64)(long fd, void *statbuf) {} POST_SYSCALL(fstat64)(long res, long fd, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat64_sz); } } PRE_SYSCALL(lstat64)(const void *filename, void *statbuf) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(lstat64)(long res, const void *filename, void *statbuf) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat64_sz); } } PRE_SYSCALL(setxattr) (const void *path, const void *name, const void *value, long size, long flags) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); if (value) PRE_READ(value, size); } POST_SYSCALL(setxattr) (long res, const void *path, const void *name, const void *value, long size, long flags) {} PRE_SYSCALL(lsetxattr) (const void *path, const void *name, const void *value, long size, long flags) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); if (value) PRE_READ(value, size); } POST_SYSCALL(lsetxattr) (long res, const void *path, const void *name, const void *value, long size, long flags) {} PRE_SYSCALL(fsetxattr) (long fd, const void *name, const void *value, long size, long flags) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); if (value) PRE_READ(value, size); } POST_SYSCALL(fsetxattr) (long res, long fd, const void *name, const void *value, long size, long flags) {} PRE_SYSCALL(getxattr) (const void *path, const void *name, void *value, long size) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(getxattr) (long res, const void *path, const void *name, void *value, long size) { if (size && res > 0) { if (value) POST_WRITE(value, res); } } PRE_SYSCALL(lgetxattr) (const void *path, const void *name, void *value, long size) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(lgetxattr) (long res, const void *path, const void *name, void *value, long size) { if (size && res > 0) { if (value) POST_WRITE(value, res); } } PRE_SYSCALL(fgetxattr)(long fd, const void *name, void *value, long size) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(fgetxattr) (long res, long fd, const void *name, void *value, long size) { if (size && res > 0) { if (value) POST_WRITE(value, res); } } PRE_SYSCALL(listxattr)(const void *path, void *list, long size) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(listxattr)(long res, const void *path, void *list, long size) { if (size && res > 0) { if (list) POST_WRITE(list, res); } } PRE_SYSCALL(llistxattr)(const void *path, void *list, long size) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(llistxattr)(long res, const void *path, void *list, long size) { if (size && res > 0) { if (list) POST_WRITE(list, res); } } PRE_SYSCALL(flistxattr)(long fd, void *list, long size) {} POST_SYSCALL(flistxattr)(long res, long fd, void *list, long size) { if (size && res > 0) { if (list) POST_WRITE(list, res); } } PRE_SYSCALL(removexattr)(const void *path, const void *name) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(removexattr)(long res, const void *path, const void *name) {} PRE_SYSCALL(lremovexattr)(const void *path, const void *name) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(lremovexattr)(long res, const void *path, const void *name) {} PRE_SYSCALL(fremovexattr)(long fd, const void *name) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(fremovexattr)(long res, long fd, const void *name) {} PRE_SYSCALL(brk)(long brk) {} POST_SYSCALL(brk)(long res, long brk) {} PRE_SYSCALL(mprotect)(long start, long len, long prot) {} POST_SYSCALL(mprotect)(long res, long start, long len, long prot) {} PRE_SYSCALL(mremap) (long addr, long old_len, long new_len, long flags, long new_addr) {} POST_SYSCALL(mremap) (long res, long addr, long old_len, long new_len, long flags, long new_addr) {} PRE_SYSCALL(remap_file_pages) (long start, long size, long prot, long pgoff, long flags) {} POST_SYSCALL(remap_file_pages) (long res, long start, long size, long prot, long pgoff, long flags) {} PRE_SYSCALL(msync)(long start, long len, long flags) {} POST_SYSCALL(msync)(long res, long start, long len, long flags) {} PRE_SYSCALL(munmap)(long addr, long len) {} POST_SYSCALL(munmap)(long res, long addr, long len) {} PRE_SYSCALL(mlock)(long start, long len) {} POST_SYSCALL(mlock)(long res, long start, long len) {} PRE_SYSCALL(munlock)(long start, long len) {} POST_SYSCALL(munlock)(long res, long start, long len) {} PRE_SYSCALL(mlockall)(long flags) {} POST_SYSCALL(mlockall)(long res, long flags) {} PRE_SYSCALL(munlockall)() {} POST_SYSCALL(munlockall)(long res) {} PRE_SYSCALL(madvise)(long start, long len, long behavior) {} POST_SYSCALL(madvise)(long res, long start, long len, long behavior) {} PRE_SYSCALL(mincore)(long start, long len, void *vec) {} POST_SYSCALL(mincore)(long res, long start, long len, void *vec) { if (res >= 0) { if (vec) { POST_WRITE(vec, (len + GetPageSizeCached() - 1) / GetPageSizeCached()); } } } PRE_SYSCALL(pivot_root)(const void *new_root, const void *put_old) { if (new_root) PRE_READ(new_root, __sanitizer::internal_strlen((const char *)new_root) + 1); if (put_old) PRE_READ(put_old, __sanitizer::internal_strlen((const char *)put_old) + 1); } POST_SYSCALL(pivot_root)(long res, const void *new_root, const void *put_old) {} PRE_SYSCALL(chroot)(const void *filename) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(chroot)(long res, const void *filename) {} PRE_SYSCALL(mknod)(const void *filename, long mode, long dev) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(mknod)(long res, const void *filename, long mode, long dev) {} PRE_SYSCALL(link)(const void *oldname, const void *newname) { if (oldname) PRE_READ(oldname, __sanitizer::internal_strlen((const char *)oldname) + 1); if (newname) PRE_READ(newname, __sanitizer::internal_strlen((const char *)newname) + 1); } POST_SYSCALL(link)(long res, const void *oldname, const void *newname) {} PRE_SYSCALL(symlink)(const void *old, const void *new_) { if (old) PRE_READ(old, __sanitizer::internal_strlen((const char *)old) + 1); if (new_) PRE_READ(new_, __sanitizer::internal_strlen((const char *)new_) + 1); } POST_SYSCALL(symlink)(long res, const void *old, const void *new_) {} PRE_SYSCALL(unlink)(const void *pathname) { if (pathname) PRE_READ(pathname, __sanitizer::internal_strlen((const char *)pathname) + 1); } POST_SYSCALL(unlink)(long res, const void *pathname) {} PRE_SYSCALL(rename)(const void *oldname, const void *newname) { if (oldname) PRE_READ(oldname, __sanitizer::internal_strlen((const char *)oldname) + 1); if (newname) PRE_READ(newname, __sanitizer::internal_strlen((const char *)newname) + 1); } POST_SYSCALL(rename)(long res, const void *oldname, const void *newname) {} PRE_SYSCALL(chmod)(const void *filename, long mode) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(chmod)(long res, const void *filename, long mode) {} PRE_SYSCALL(fchmod)(long fd, long mode) {} POST_SYSCALL(fchmod)(long res, long fd, long mode) {} PRE_SYSCALL(fcntl)(long fd, long cmd, long arg) {} POST_SYSCALL(fcntl)(long res, long fd, long cmd, long arg) {} PRE_SYSCALL(fcntl64)(long fd, long cmd, long arg) {} POST_SYSCALL(fcntl64)(long res, long fd, long cmd, long arg) {} PRE_SYSCALL(pipe)(void *fildes) {} POST_SYSCALL(pipe)(long res, void *fildes) { if (res >= 0) if (fildes) POST_WRITE(fildes, sizeof(int) * 2); } PRE_SYSCALL(pipe2)(void *fildes, long flags) {} POST_SYSCALL(pipe2)(long res, void *fildes, long flags) { if (res >= 0) if (fildes) POST_WRITE(fildes, sizeof(int) * 2); } PRE_SYSCALL(dup)(long fildes) {} POST_SYSCALL(dup)(long res, long fildes) {} PRE_SYSCALL(dup2)(long oldfd, long newfd) {} POST_SYSCALL(dup2)(long res, long oldfd, long newfd) {} PRE_SYSCALL(dup3)(long oldfd, long newfd, long flags) {} POST_SYSCALL(dup3)(long res, long oldfd, long newfd, long flags) {} PRE_SYSCALL(ioperm)(long from, long num, long on) {} POST_SYSCALL(ioperm)(long res, long from, long num, long on) {} PRE_SYSCALL(ioctl)(long fd, long cmd, long arg) {} POST_SYSCALL(ioctl)(long res, long fd, long cmd, long arg) {} PRE_SYSCALL(flock)(long fd, long cmd) {} POST_SYSCALL(flock)(long res, long fd, long cmd) {} PRE_SYSCALL(io_setup)(long nr_reqs, void **ctx) { if (ctx) PRE_WRITE(ctx, sizeof(*ctx)); } POST_SYSCALL(io_setup)(long res, long nr_reqs, void **ctx) { if (res >= 0 && ctx) { POST_WRITE(ctx, sizeof(*ctx)); // (*ctx) is actually a pointer to a kernel mapped page, and there are // people out there who are crazy enough to peek into that page's 32-byte // header. if (*ctx) POST_WRITE(*ctx, 32); } } PRE_SYSCALL(io_destroy)(long ctx) {} POST_SYSCALL(io_destroy)(long res, long ctx) {} PRE_SYSCALL(io_getevents) (long ctx_id, long min_nr, long nr, __sanitizer_io_event *ioevpp, void *timeout) { if (timeout) PRE_READ(timeout, struct_timespec_sz); } POST_SYSCALL(io_getevents) (long res, long ctx_id, long min_nr, long nr, __sanitizer_io_event *ioevpp, void *timeout) { if (res >= 0) { if (ioevpp) POST_WRITE(ioevpp, res * sizeof(*ioevpp)); if (timeout) POST_WRITE(timeout, struct_timespec_sz); } for (long i = 0; i < res; i++) { // We synchronize io_submit -> io_getevents/io_cancel using the // user-provided data context. Data is not necessary a pointer, it can be // an int, 0 or whatever; acquire/release will correctly handle this. // This scheme can lead to false negatives, e.g. when all operations // synchronize on 0. But there does not seem to be a better solution // (except wrapping all operations in own context, which is unreliable). // We can not reliably extract fildes in io_getevents. COMMON_SYSCALL_ACQUIRE((void *)ioevpp[i].data); } } PRE_SYSCALL(io_submit)(long ctx_id, long nr, __sanitizer_iocb **iocbpp) { for (long i = 0; i < nr; ++i) { uptr op = iocbpp[i]->aio_lio_opcode; void *data = (void *)iocbpp[i]->aio_data; void *buf = (void *)iocbpp[i]->aio_buf; uptr len = (uptr)iocbpp[i]->aio_nbytes; if (op == iocb_cmd_pwrite && buf && len) { PRE_READ(buf, len); } else if (op == iocb_cmd_pread && buf && len) { POST_WRITE(buf, len); } else if (op == iocb_cmd_pwritev) { __sanitizer_iovec *iovec = (__sanitizer_iovec *)buf; for (uptr v = 0; v < len; v++) PRE_READ(iovec[v].iov_base, iovec[v].iov_len); } else if (op == iocb_cmd_preadv) { __sanitizer_iovec *iovec = (__sanitizer_iovec *)buf; for (uptr v = 0; v < len; v++) POST_WRITE(iovec[v].iov_base, iovec[v].iov_len); } // See comment in io_getevents. COMMON_SYSCALL_RELEASE(data); } } POST_SYSCALL(io_submit) (long res, long ctx_id, long nr, __sanitizer_iocb **iocbpp) {} PRE_SYSCALL(io_cancel) (long ctx_id, __sanitizer_iocb *iocb, __sanitizer_io_event *result) {} POST_SYSCALL(io_cancel) (long res, long ctx_id, __sanitizer_iocb *iocb, __sanitizer_io_event *result) { if (res == 0) { if (result) { // See comment in io_getevents. COMMON_SYSCALL_ACQUIRE((void *)result->data); POST_WRITE(result, sizeof(*result)); } if (iocb) POST_WRITE(iocb, sizeof(*iocb)); } } PRE_SYSCALL(sendfile)(long out_fd, long in_fd, void *offset, long count) {} POST_SYSCALL(sendfile) (long res, long out_fd, long in_fd, __sanitizer___kernel_off_t *offset, long count) { if (res >= 0) { if (offset) POST_WRITE(offset, sizeof(*offset)); } } PRE_SYSCALL(sendfile64)(long out_fd, long in_fd, void *offset, long count) {} POST_SYSCALL(sendfile64) (long res, long out_fd, long in_fd, __sanitizer___kernel_loff_t *offset, long count) { if (res >= 0) { if (offset) POST_WRITE(offset, sizeof(*offset)); } } PRE_SYSCALL(readlink)(const void *path, void *buf, long bufsiz) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(readlink)(long res, const void *path, void *buf, long bufsiz) { if (res >= 0) { if (buf) POST_WRITE(buf, __sanitizer::internal_strlen((const char *)buf) + 1); } } PRE_SYSCALL(creat)(const void *pathname, long mode) { if (pathname) PRE_READ(pathname, __sanitizer::internal_strlen((const char *)pathname) + 1); } POST_SYSCALL(creat)(long res, const void *pathname, long mode) {} PRE_SYSCALL(open)(const void *filename, long flags, long mode) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(open)(long res, const void *filename, long flags, long mode) {} PRE_SYSCALL(close)(long fd) { COMMON_SYSCALL_FD_CLOSE((int)fd); } POST_SYSCALL(close)(long res, long fd) {} PRE_SYSCALL(access)(const void *filename, long mode) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(access)(long res, const void *filename, long mode) {} PRE_SYSCALL(vhangup)() {} POST_SYSCALL(vhangup)(long res) {} PRE_SYSCALL(chown)(const void *filename, long user, long group) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(chown)(long res, const void *filename, long user, long group) {} PRE_SYSCALL(lchown)(const void *filename, long user, long group) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(lchown)(long res, const void *filename, long user, long group) {} PRE_SYSCALL(fchown)(long fd, long user, long group) {} POST_SYSCALL(fchown)(long res, long fd, long user, long group) {} # if SANITIZER_USES_UID16_SYSCALLS PRE_SYSCALL(chown16)(const void *filename, long user, long group) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(chown16)(long res, const void *filename, long user, long group) {} PRE_SYSCALL(lchown16)(const void *filename, long user, long group) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(lchown16)(long res, const void *filename, long user, long group) {} PRE_SYSCALL(fchown16)(long fd, long user, long group) {} POST_SYSCALL(fchown16)(long res, long fd, long user, long group) {} PRE_SYSCALL(setregid16)(long rgid, long egid) {} POST_SYSCALL(setregid16)(long res, long rgid, long egid) {} PRE_SYSCALL(setgid16)(long gid) {} POST_SYSCALL(setgid16)(long res, long gid) {} PRE_SYSCALL(setreuid16)(long ruid, long euid) {} POST_SYSCALL(setreuid16)(long res, long ruid, long euid) {} PRE_SYSCALL(setuid16)(long uid) {} POST_SYSCALL(setuid16)(long res, long uid) {} PRE_SYSCALL(setresuid16)(long ruid, long euid, long suid) {} POST_SYSCALL(setresuid16)(long res, long ruid, long euid, long suid) {} PRE_SYSCALL(getresuid16)(void *ruid, void *euid, void *suid) {} POST_SYSCALL(getresuid16) (long res, __sanitizer___kernel_old_uid_t *ruid, __sanitizer___kernel_old_uid_t *euid, __sanitizer___kernel_old_uid_t *suid) { if (res >= 0) { if (ruid) POST_WRITE(ruid, sizeof(*ruid)); if (euid) POST_WRITE(euid, sizeof(*euid)); if (suid) POST_WRITE(suid, sizeof(*suid)); } } PRE_SYSCALL(setresgid16)(long rgid, long egid, long sgid) {} POST_SYSCALL(setresgid16)(long res, long rgid, long egid, long sgid) {} PRE_SYSCALL(getresgid16)(void *rgid, void *egid, void *sgid) {} POST_SYSCALL(getresgid16) (long res, __sanitizer___kernel_old_gid_t *rgid, __sanitizer___kernel_old_gid_t *egid, __sanitizer___kernel_old_gid_t *sgid) { if (res >= 0) { if (rgid) POST_WRITE(rgid, sizeof(*rgid)); if (egid) POST_WRITE(egid, sizeof(*egid)); if (sgid) POST_WRITE(sgid, sizeof(*sgid)); } } PRE_SYSCALL(setfsuid16)(long uid) {} POST_SYSCALL(setfsuid16)(long res, long uid) {} PRE_SYSCALL(setfsgid16)(long gid) {} POST_SYSCALL(setfsgid16)(long res, long gid) {} PRE_SYSCALL(getgroups16) (long gidsetsize, __sanitizer___kernel_old_gid_t *grouplist) {} POST_SYSCALL(getgroups16) (long res, long gidsetsize, __sanitizer___kernel_old_gid_t *grouplist) { if (res >= 0) { if (grouplist) POST_WRITE(grouplist, res * sizeof(*grouplist)); } } PRE_SYSCALL(setgroups16) (long gidsetsize, __sanitizer___kernel_old_gid_t *grouplist) { if (grouplist) POST_WRITE(grouplist, gidsetsize * sizeof(*grouplist)); } POST_SYSCALL(setgroups16) (long res, long gidsetsize, __sanitizer___kernel_old_gid_t *grouplist) {} PRE_SYSCALL(getuid16)() {} POST_SYSCALL(getuid16)(long res) {} PRE_SYSCALL(geteuid16)() {} POST_SYSCALL(geteuid16)(long res) {} PRE_SYSCALL(getgid16)() {} POST_SYSCALL(getgid16)(long res) {} PRE_SYSCALL(getegid16)() {} POST_SYSCALL(getegid16)(long res) {} # endif // SANITIZER_USES_UID16_SYSCALLS PRE_SYSCALL(utime)(void *filename, void *times) {} POST_SYSCALL(utime)(long res, void *filename, void *times) { if (res >= 0) { if (filename) POST_WRITE(filename, __sanitizer::internal_strlen((const char *)filename) + 1); if (times) POST_WRITE(times, struct_utimbuf_sz); } } PRE_SYSCALL(utimes)(void *filename, void *utimes) {} POST_SYSCALL(utimes)(long res, void *filename, void *utimes) { if (res >= 0) { if (filename) POST_WRITE(filename, __sanitizer::internal_strlen((const char *)filename) + 1); if (utimes) POST_WRITE(utimes, timeval_sz); } } PRE_SYSCALL(lseek)(long fd, long offset, long origin) {} POST_SYSCALL(lseek)(long res, long fd, long offset, long origin) {} PRE_SYSCALL(llseek) (long fd, long offset_high, long offset_low, void *result, long origin) {} POST_SYSCALL(llseek) (long res, long fd, long offset_high, long offset_low, void *result, long origin) { if (res >= 0) { if (result) POST_WRITE(result, sizeof(long long)); } } PRE_SYSCALL(readv)(long fd, const __sanitizer_iovec *vec, long vlen) {} POST_SYSCALL(readv) (long res, long fd, const __sanitizer_iovec *vec, long vlen) { if (res >= 0) { if (vec) kernel_write_iovec(vec, vlen, res); } } PRE_SYSCALL(write)(long fd, const void *buf, long count) { if (buf) PRE_READ(buf, count); } POST_SYSCALL(write)(long res, long fd, const void *buf, long count) {} PRE_SYSCALL(writev)(long fd, const __sanitizer_iovec *vec, long vlen) {} POST_SYSCALL(writev) (long res, long fd, const __sanitizer_iovec *vec, long vlen) { if (res >= 0) { if (vec) kernel_read_iovec(vec, vlen, res); } } # ifdef _LP64 PRE_SYSCALL(pread64)(long fd, void *buf, long count, long pos) {} POST_SYSCALL(pread64)(long res, long fd, void *buf, long count, long pos) { if (res >= 0) { if (buf) POST_WRITE(buf, res); } } PRE_SYSCALL(pwrite64)(long fd, const void *buf, long count, long pos) { if (buf) PRE_READ(buf, count); } POST_SYSCALL(pwrite64) (long res, long fd, const void *buf, long count, long pos) {} # else PRE_SYSCALL(pread64)(long fd, void *buf, long count, long pos0, long pos1) {} POST_SYSCALL(pread64) (long res, long fd, void *buf, long count, long pos0, long pos1) { if (res >= 0) { if (buf) POST_WRITE(buf, res); } } PRE_SYSCALL(pwrite64) (long fd, const void *buf, long count, long pos0, long pos1) { if (buf) PRE_READ(buf, count); } POST_SYSCALL(pwrite64) (long res, long fd, const void *buf, long count, long pos0, long pos1) {} # endif PRE_SYSCALL(preadv) (long fd, const __sanitizer_iovec *vec, long vlen, long pos_l, long pos_h) {} POST_SYSCALL(preadv) (long res, long fd, const __sanitizer_iovec *vec, long vlen, long pos_l, long pos_h) { if (res >= 0) { if (vec) kernel_write_iovec(vec, vlen, res); } } PRE_SYSCALL(pwritev) (long fd, const __sanitizer_iovec *vec, long vlen, long pos_l, long pos_h) {} POST_SYSCALL(pwritev) (long res, long fd, const __sanitizer_iovec *vec, long vlen, long pos_l, long pos_h) { if (res >= 0) { if (vec) kernel_read_iovec(vec, vlen, res); } } PRE_SYSCALL(getcwd)(void *buf, long size) {} POST_SYSCALL(getcwd)(long res, void *buf, long size) { if (res >= 0) { if (buf) POST_WRITE(buf, __sanitizer::internal_strlen((const char *)buf) + 1); } } PRE_SYSCALL(mkdir)(const void *pathname, long mode) { if (pathname) PRE_READ(pathname, __sanitizer::internal_strlen((const char *)pathname) + 1); } POST_SYSCALL(mkdir)(long res, const void *pathname, long mode) {} PRE_SYSCALL(chdir)(const void *filename) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(chdir)(long res, const void *filename) {} PRE_SYSCALL(fchdir)(long fd) {} POST_SYSCALL(fchdir)(long res, long fd) {} PRE_SYSCALL(rmdir)(const void *pathname) { if (pathname) PRE_READ(pathname, __sanitizer::internal_strlen((const char *)pathname) + 1); } POST_SYSCALL(rmdir)(long res, const void *pathname) {} PRE_SYSCALL(lookup_dcookie)(u64 cookie64, void *buf, long len) {} POST_SYSCALL(lookup_dcookie)(long res, u64 cookie64, void *buf, long len) { if (res >= 0) { if (buf) POST_WRITE(buf, __sanitizer::internal_strlen((const char *)buf) + 1); } } PRE_SYSCALL(quotactl)(long cmd, const void *special, long id, void *addr) { if (special) PRE_READ(special, __sanitizer::internal_strlen((const char *)special) + 1); } POST_SYSCALL(quotactl) (long res, long cmd, const void *special, long id, void *addr) {} PRE_SYSCALL(getdents)(long fd, void *dirent, long count) {} POST_SYSCALL(getdents)(long res, long fd, void *dirent, long count) { if (res >= 0) { if (dirent) POST_WRITE(dirent, res); } } PRE_SYSCALL(getdents64)(long fd, void *dirent, long count) {} POST_SYSCALL(getdents64)(long res, long fd, void *dirent, long count) { if (res >= 0) { if (dirent) POST_WRITE(dirent, res); } } PRE_SYSCALL(setsockopt) (long fd, long level, long optname, void *optval, long optlen) {} POST_SYSCALL(setsockopt) (long res, long fd, long level, long optname, void *optval, long optlen) { if (res >= 0) { if (optval) POST_WRITE(optval, __sanitizer::internal_strlen((const char *)optval) + 1); } } PRE_SYSCALL(getsockopt) (long fd, long level, long optname, void *optval, void *optlen) {} POST_SYSCALL(getsockopt) (long res, long fd, long level, long optname, void *optval, void *optlen) { if (res >= 0) { if (optval) POST_WRITE(optval, __sanitizer::internal_strlen((const char *)optval) + 1); if (optlen) POST_WRITE(optlen, sizeof(int)); } } PRE_SYSCALL(bind)(long arg0, sanitizer_kernel_sockaddr *arg1, long arg2) {} POST_SYSCALL(bind) (long res, long arg0, sanitizer_kernel_sockaddr *arg1, long arg2) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); } } PRE_SYSCALL(connect)(long arg0, sanitizer_kernel_sockaddr *arg1, long arg2) {} POST_SYSCALL(connect) (long res, long arg0, sanitizer_kernel_sockaddr *arg1, long arg2) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); } } PRE_SYSCALL(accept)(long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2) {} POST_SYSCALL(accept) (long res, long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); if (arg2) POST_WRITE(arg2, sizeof(unsigned)); } } PRE_SYSCALL(accept4) (long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2, long arg3) {} POST_SYSCALL(accept4) (long res, long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2, long arg3) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); if (arg2) POST_WRITE(arg2, sizeof(unsigned)); } } PRE_SYSCALL(getsockname) (long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2) {} POST_SYSCALL(getsockname) (long res, long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); if (arg2) POST_WRITE(arg2, sizeof(unsigned)); } } PRE_SYSCALL(getpeername) (long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2) {} POST_SYSCALL(getpeername) (long res, long arg0, sanitizer_kernel_sockaddr *arg1, void *arg2) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); if (arg2) POST_WRITE(arg2, sizeof(unsigned)); } } PRE_SYSCALL(send)(long arg0, void *arg1, long arg2, long arg3) {} POST_SYSCALL(send)(long res, long arg0, void *arg1, long arg2, long arg3) { if (res) { if (arg1) POST_READ(arg1, res); } } PRE_SYSCALL(sendto) (long arg0, void *arg1, long arg2, long arg3, sanitizer_kernel_sockaddr *arg4, long arg5) {} POST_SYSCALL(sendto) (long res, long arg0, void *arg1, long arg2, long arg3, sanitizer_kernel_sockaddr *arg4, long arg5) { if (res >= 0) { if (arg1) POST_READ(arg1, res); if (arg4) POST_WRITE(arg4, sizeof(*arg4)); } } PRE_SYSCALL(sendmsg)(long fd, void *msg, long flags) {} POST_SYSCALL(sendmsg)(long res, long fd, void *msg, long flags) { // FIXME: POST_READ } PRE_SYSCALL(sendmmsg)(long fd, void *msg, long vlen, long flags) {} POST_SYSCALL(sendmmsg)(long res, long fd, void *msg, long vlen, long flags) { // FIXME: POST_READ } PRE_SYSCALL(recv)(long arg0, void *buf, long len, long flags) {} POST_SYSCALL(recv)(long res, void *buf, long len, long flags) { if (res >= 0) { if (buf) POST_WRITE(buf, res); } } PRE_SYSCALL(recvfrom) (long arg0, void *buf, long len, long flags, sanitizer_kernel_sockaddr *arg4, void *arg5) {} POST_SYSCALL(recvfrom) (long res, long arg0, void *buf, long len, long flags, sanitizer_kernel_sockaddr *arg4, void *arg5) { if (res >= 0) { if (buf) POST_WRITE(buf, res); if (arg4) POST_WRITE(arg4, sizeof(*arg4)); if (arg5) POST_WRITE(arg5, sizeof(int)); } } PRE_SYSCALL(socket)(long arg0, long arg1, long arg2) {} POST_SYSCALL(socket)(long res, long arg0, long arg1, long arg2) {} PRE_SYSCALL(socketpair)(long arg0, long arg1, long arg2, int *sv) {} POST_SYSCALL(socketpair)(long res, long arg0, long arg1, long arg2, int *sv) { if (res >= 0) if (sv) POST_WRITE(sv, sizeof(int) * 2); } PRE_SYSCALL(socketcall)(long call, void *args) {} POST_SYSCALL(socketcall)(long res, long call, void *args) { if (res >= 0) { if (args) POST_WRITE(args, sizeof(long)); } } PRE_SYSCALL(listen)(long arg0, long arg1) {} POST_SYSCALL(listen)(long res, long arg0, long arg1) {} PRE_SYSCALL(poll)(void *ufds, long nfds, long timeout) {} POST_SYSCALL(poll) (long res, __sanitizer_pollfd *ufds, long nfds, long timeout) { if (res >= 0) { if (ufds) POST_WRITE(ufds, nfds * sizeof(*ufds)); } } PRE_SYSCALL(select) (long n, __sanitizer___kernel_fd_set *inp, __sanitizer___kernel_fd_set *outp, __sanitizer___kernel_fd_set *exp, void *tvp) {} POST_SYSCALL(select) (long res, long n, __sanitizer___kernel_fd_set *inp, __sanitizer___kernel_fd_set *outp, __sanitizer___kernel_fd_set *exp, void *tvp) { if (res >= 0) { if (inp) POST_WRITE(inp, sizeof(*inp)); if (outp) POST_WRITE(outp, sizeof(*outp)); if (exp) POST_WRITE(exp, sizeof(*exp)); if (tvp) POST_WRITE(tvp, timeval_sz); } } PRE_SYSCALL(old_select)(void *arg) {} POST_SYSCALL(old_select)(long res, void *arg) {} PRE_SYSCALL(epoll_create)(long size) {} POST_SYSCALL(epoll_create)(long res, long size) {} PRE_SYSCALL(epoll_create1)(long flags) {} POST_SYSCALL(epoll_create1)(long res, long flags) {} PRE_SYSCALL(epoll_ctl)(long epfd, long op, long fd, void *event) {} POST_SYSCALL(epoll_ctl)(long res, long epfd, long op, long fd, void *event) { if (res >= 0) { if (event) POST_WRITE(event, struct_epoll_event_sz); } } PRE_SYSCALL(epoll_wait) (long epfd, void *events, long maxevents, long timeout) {} POST_SYSCALL(epoll_wait) (long res, long epfd, void *events, long maxevents, long timeout) { if (res >= 0) { COMMON_SYSCALL_FD_ACQUIRE(epfd); if (events) POST_WRITE(events, res * struct_epoll_event_sz); } } PRE_SYSCALL(epoll_pwait) (long epfd, void *events, long maxevents, long timeout, const kernel_sigset_t *sigmask, long sigsetsize) { if (sigmask) PRE_READ(sigmask, sigsetsize); } POST_SYSCALL(epoll_pwait) (long res, long epfd, void *events, long maxevents, long timeout, const void *sigmask, long sigsetsize) { if (res >= 0) { COMMON_SYSCALL_FD_ACQUIRE(epfd); if (events) POST_WRITE(events, res * struct_epoll_event_sz); } } PRE_SYSCALL(epoll_pwait2) (long epfd, void *events, long maxevents, const sanitizer_kernel_timespec *timeout, const kernel_sigset_t *sigmask, long sigsetsize) { if (timeout) PRE_READ(timeout, sizeof(*timeout)); if (sigmask) PRE_READ(sigmask, sigsetsize); } POST_SYSCALL(epoll_pwait2) (long res, long epfd, void *events, long maxevents, const sanitizer_kernel_timespec *timeout, const void *sigmask, long sigsetsize) { if (res >= 0) { COMMON_SYSCALL_FD_ACQUIRE(epfd); if (events) POST_WRITE(events, res * struct_epoll_event_sz); } } PRE_SYSCALL(gethostname)(void *name, long len) {} POST_SYSCALL(gethostname)(long res, void *name, long len) { if (res >= 0) { if (name) POST_WRITE(name, __sanitizer::internal_strlen((const char *)name) + 1); } } PRE_SYSCALL(sethostname)(void *name, long len) {} POST_SYSCALL(sethostname)(long res, void *name, long len) { if (res >= 0) { if (name) POST_WRITE(name, __sanitizer::internal_strlen((const char *)name) + 1); } } PRE_SYSCALL(setdomainname)(void *name, long len) {} POST_SYSCALL(setdomainname)(long res, void *name, long len) { if (res >= 0) { if (name) POST_WRITE(name, __sanitizer::internal_strlen((const char *)name) + 1); } } PRE_SYSCALL(newuname)(void *name) {} POST_SYSCALL(newuname)(long res, void *name) { if (res >= 0) { if (name) POST_WRITE(name, struct_new_utsname_sz); } } PRE_SYSCALL(uname)(void *arg0) {} POST_SYSCALL(uname)(long res, void *arg0) { if (res >= 0) { if (arg0) POST_WRITE(arg0, struct_old_utsname_sz); } } PRE_SYSCALL(olduname)(void *arg0) {} POST_SYSCALL(olduname)(long res, void *arg0) { if (res >= 0) { if (arg0) POST_WRITE(arg0, struct_oldold_utsname_sz); } } PRE_SYSCALL(getrlimit)(long resource, void *rlim) {} POST_SYSCALL(getrlimit)(long res, long resource, void *rlim) { if (res >= 0) { if (rlim) POST_WRITE(rlim, struct_rlimit_sz); } } PRE_SYSCALL(old_getrlimit)(long resource, void *rlim) {} POST_SYSCALL(old_getrlimit)(long res, long resource, void *rlim) { if (res >= 0) { if (rlim) POST_WRITE(rlim, struct_rlimit_sz); } } PRE_SYSCALL(setrlimit)(long resource, void *rlim) {} POST_SYSCALL(setrlimit)(long res, long resource, void *rlim) { if (res >= 0) { if (rlim) POST_WRITE(rlim, struct_rlimit_sz); } } # if SANITIZER_GLIBC PRE_SYSCALL(prlimit64) (long pid, long resource, const void *new_rlim, void *old_rlim) { if (new_rlim) PRE_READ(new_rlim, struct_rlimit64_sz); } POST_SYSCALL(prlimit64) (long res, long pid, long resource, const void *new_rlim, void *old_rlim) { if (res >= 0) { if (old_rlim) POST_WRITE(old_rlim, struct_rlimit64_sz); } } # endif PRE_SYSCALL(getrusage)(long who, void *ru) {} POST_SYSCALL(getrusage)(long res, long who, void *ru) { if (res >= 0) { if (ru) POST_WRITE(ru, struct_rusage_sz); } } PRE_SYSCALL(umask)(long mask) {} POST_SYSCALL(umask)(long res, long mask) {} PRE_SYSCALL(msgget)(long key, long msgflg) {} POST_SYSCALL(msgget)(long res, long key, long msgflg) {} PRE_SYSCALL(msgsnd)(long msqid, void *msgp, long msgsz, long msgflg) { if (msgp) PRE_READ(msgp, msgsz); } POST_SYSCALL(msgsnd) (long res, long msqid, void *msgp, long msgsz, long msgflg) {} PRE_SYSCALL(msgrcv) (long msqid, void *msgp, long msgsz, long msgtyp, long msgflg) {} POST_SYSCALL(msgrcv) (long res, long msqid, void *msgp, long msgsz, long msgtyp, long msgflg) { if (res >= 0) { if (msgp) POST_WRITE(msgp, res); } } # if !SANITIZER_ANDROID PRE_SYSCALL(msgctl)(long msqid, long cmd, void *buf) {} POST_SYSCALL(msgctl)(long res, long msqid, long cmd, void *buf) { if (res >= 0) { if (buf) POST_WRITE(buf, struct_msqid_ds_sz); } } # endif PRE_SYSCALL(semget)(long key, long nsems, long semflg) {} POST_SYSCALL(semget)(long res, long key, long nsems, long semflg) {} PRE_SYSCALL(semop)(long semid, void *sops, long nsops) {} POST_SYSCALL(semop)(long res, long semid, void *sops, long nsops) {} PRE_SYSCALL(semctl)(long semid, long semnum, long cmd, void *arg) {} POST_SYSCALL(semctl)(long res, long semid, long semnum, long cmd, void *arg) {} PRE_SYSCALL(semtimedop) (long semid, void *sops, long nsops, const void *timeout) { if (timeout) PRE_READ(timeout, struct_timespec_sz); } POST_SYSCALL(semtimedop) (long res, long semid, void *sops, long nsops, const void *timeout) {} PRE_SYSCALL(shmat)(long shmid, void *shmaddr, long shmflg) {} POST_SYSCALL(shmat)(long res, long shmid, void *shmaddr, long shmflg) { if (res >= 0) { if (shmaddr) POST_WRITE(shmaddr, __sanitizer::internal_strlen((const char *)shmaddr) + 1); } } PRE_SYSCALL(shmget)(long key, long size, long flag) {} POST_SYSCALL(shmget)(long res, long key, long size, long flag) {} PRE_SYSCALL(shmdt)(void *shmaddr) {} POST_SYSCALL(shmdt)(long res, void *shmaddr) { if (res >= 0) { if (shmaddr) POST_WRITE(shmaddr, __sanitizer::internal_strlen((const char *)shmaddr) + 1); } } PRE_SYSCALL(ipc) (long call, long first, long second, long third, void *ptr, long fifth) {} POST_SYSCALL(ipc) (long res, long call, long first, long second, long third, void *ptr, long fifth) {} # if !SANITIZER_ANDROID PRE_SYSCALL(shmctl)(long shmid, long cmd, void *buf) {} POST_SYSCALL(shmctl)(long res, long shmid, long cmd, void *buf) { if (res >= 0) { if (buf) POST_WRITE(buf, sizeof(__sanitizer_shmid_ds)); } } PRE_SYSCALL(mq_open)(const void *name, long oflag, long mode, void *attr) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(mq_open) (long res, const void *name, long oflag, long mode, void *attr) { if (res >= 0) { if (attr) POST_WRITE(attr, struct_mq_attr_sz); } } PRE_SYSCALL(mq_unlink)(const void *name) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(mq_unlink)(long res, const void *name) {} PRE_SYSCALL(mq_timedsend) (long mqdes, const void *msg_ptr, long msg_len, long msg_prio, const void *abs_timeout) { if (msg_ptr) PRE_READ(msg_ptr, msg_len); if (abs_timeout) PRE_READ(abs_timeout, struct_timespec_sz); } POST_SYSCALL(mq_timedsend) (long res, long mqdes, const void *msg_ptr, long msg_len, long msg_prio, const void *abs_timeout) {} PRE_SYSCALL(mq_timedreceive) (long mqdes, void *msg_ptr, long msg_len, void *msg_prio, const void *abs_timeout) { if (abs_timeout) PRE_READ(abs_timeout, struct_timespec_sz); } POST_SYSCALL(mq_timedreceive) (long res, long mqdes, void *msg_ptr, long msg_len, int *msg_prio, const void *abs_timeout) { if (res >= 0) { if (msg_ptr) POST_WRITE(msg_ptr, res); if (msg_prio) POST_WRITE(msg_prio, sizeof(*msg_prio)); } } PRE_SYSCALL(mq_notify)(long mqdes, const void *notification) { if (notification) PRE_READ(notification, struct_sigevent_sz); } POST_SYSCALL(mq_notify)(long res, long mqdes, const void *notification) {} PRE_SYSCALL(mq_getsetattr)(long mqdes, const void *mqstat, void *omqstat) { if (mqstat) PRE_READ(mqstat, struct_mq_attr_sz); } POST_SYSCALL(mq_getsetattr) (long res, long mqdes, const void *mqstat, void *omqstat) { if (res >= 0) { if (omqstat) POST_WRITE(omqstat, struct_mq_attr_sz); } } # endif // SANITIZER_ANDROID PRE_SYSCALL(pciconfig_iobase)(long which, long bus, long devfn) {} POST_SYSCALL(pciconfig_iobase)(long res, long which, long bus, long devfn) {} PRE_SYSCALL(pciconfig_read) (long bus, long dfn, long off, long len, void *buf) {} POST_SYSCALL(pciconfig_read) (long res, long bus, long dfn, long off, long len, void *buf) {} PRE_SYSCALL(pciconfig_write) (long bus, long dfn, long off, long len, void *buf) {} POST_SYSCALL(pciconfig_write) (long res, long bus, long dfn, long off, long len, void *buf) {} PRE_SYSCALL(swapon)(const void *specialfile, long swap_flags) { if (specialfile) PRE_READ(specialfile, __sanitizer::internal_strlen((const char *)specialfile) + 1); } POST_SYSCALL(swapon)(long res, const void *specialfile, long swap_flags) {} PRE_SYSCALL(swapoff)(const void *specialfile) { if (specialfile) PRE_READ(specialfile, __sanitizer::internal_strlen((const char *)specialfile) + 1); } POST_SYSCALL(swapoff)(long res, const void *specialfile) {} PRE_SYSCALL(sysctl)(__sanitizer___sysctl_args *args) { if (args) { if (args->name) PRE_READ(args->name, args->nlen * sizeof(*args->name)); if (args->newval) PRE_READ(args->name, args->newlen); } } POST_SYSCALL(sysctl)(long res, __sanitizer___sysctl_args *args) { if (res >= 0) { if (args && args->oldval && args->oldlenp) { POST_WRITE(args->oldlenp, sizeof(*args->oldlenp)); POST_WRITE(args->oldval, *args->oldlenp); } } } PRE_SYSCALL(sysinfo)(void *info) {} POST_SYSCALL(sysinfo)(long res, void *info) { if (res >= 0) { if (info) POST_WRITE(info, struct_sysinfo_sz); } } PRE_SYSCALL(sysfs)(long option, long arg1, long arg2) {} POST_SYSCALL(sysfs)(long res, long option, long arg1, long arg2) {} PRE_SYSCALL(syslog)(long type, void *buf, long len) {} POST_SYSCALL(syslog)(long res, long type, void *buf, long len) { if (res >= 0) { if (buf) POST_WRITE(buf, __sanitizer::internal_strlen((const char *)buf) + 1); } } PRE_SYSCALL(uselib)(const void *library) { if (library) PRE_READ(library, __sanitizer::internal_strlen((const char *)library) + 1); } POST_SYSCALL(uselib)(long res, const void *library) {} PRE_SYSCALL(ni_syscall)() {} POST_SYSCALL(ni_syscall)(long res) {} PRE_SYSCALL(ptrace)(long request, long pid, long addr, long data) { # if !SANITIZER_ANDROID && \ (defined(__i386) || defined(__x86_64) || defined(__mips64) || \ defined(__powerpc64__) || defined(__aarch64__) || defined(__s390__) || \ defined(__loongarch__) || SANITIZER_RISCV64) if (data) { if (request == ptrace_setregs) { PRE_READ((void *)data, struct_user_regs_struct_sz); } else if (request == ptrace_setfpregs) { PRE_READ((void *)data, struct_user_fpregs_struct_sz); } else if (request == ptrace_setfpxregs) { PRE_READ((void *)data, struct_user_fpxregs_struct_sz); } else if (request == ptrace_setsiginfo) { PRE_READ((void *)data, siginfo_t_sz); } else if (request == ptrace_setregset) { __sanitizer_iovec *iov = (__sanitizer_iovec *)data; PRE_READ(iov->iov_base, iov->iov_len); } } # endif } POST_SYSCALL(ptrace)(long res, long request, long pid, long addr, long data) { # if !SANITIZER_ANDROID && \ (defined(__i386) || defined(__x86_64) || defined(__mips64) || \ defined(__powerpc64__) || defined(__aarch64__) || defined(__s390__) || \ defined(__loongarch__) || SANITIZER_RISCV64) if (res >= 0 && data) { // Note that this is different from the interceptor in // sanitizer_common_interceptors.inc. // PEEK* requests return resulting values through data pointer. if (request == ptrace_getregs) { POST_WRITE((void *)data, struct_user_regs_struct_sz); } else if (request == ptrace_getfpregs) { POST_WRITE((void *)data, struct_user_fpregs_struct_sz); } else if (request == ptrace_getfpxregs) { POST_WRITE((void *)data, struct_user_fpxregs_struct_sz); } else if (request == ptrace_getsiginfo) { POST_WRITE((void *)data, siginfo_t_sz); } else if (request == ptrace_getregset) { __sanitizer_iovec *iov = (__sanitizer_iovec *)data; POST_WRITE(iov->iov_base, iov->iov_len); } else if (request == ptrace_peekdata || request == ptrace_peektext || request == ptrace_peekuser) { POST_WRITE((void *)data, sizeof(void *)); } } # endif } PRE_SYSCALL(add_key) (const void *_type, const void *_description, const void *_payload, long plen, long destringid) { if (_type) PRE_READ(_type, __sanitizer::internal_strlen((const char *)_type) + 1); if (_description) PRE_READ(_description, __sanitizer::internal_strlen((const char *)_description) + 1); } POST_SYSCALL(add_key) (long res, const void *_type, const void *_description, const void *_payload, long plen, long destringid) {} PRE_SYSCALL(request_key) (const void *_type, const void *_description, const void *_callout_info, long destringid) { if (_type) PRE_READ(_type, __sanitizer::internal_strlen((const char *)_type) + 1); if (_description) PRE_READ(_description, __sanitizer::internal_strlen((const char *)_description) + 1); if (_callout_info) PRE_READ(_callout_info, __sanitizer::internal_strlen((const char *)_callout_info) + 1); } POST_SYSCALL(request_key) (long res, const void *_type, const void *_description, const void *_callout_info, long destringid) {} PRE_SYSCALL(keyctl)(long cmd, long arg2, long arg3, long arg4, long arg5) {} POST_SYSCALL(keyctl) (long res, long cmd, long arg2, long arg3, long arg4, long arg5) {} PRE_SYSCALL(ioprio_set)(long which, long who, long ioprio) {} POST_SYSCALL(ioprio_set)(long res, long which, long who, long ioprio) {} PRE_SYSCALL(ioprio_get)(long which, long who) {} POST_SYSCALL(ioprio_get)(long res, long which, long who) {} PRE_SYSCALL(set_mempolicy)(long mode, void *nmask, long maxnode) {} POST_SYSCALL(set_mempolicy)(long res, long mode, void *nmask, long maxnode) { if (res >= 0) { if (nmask) POST_WRITE(nmask, sizeof(long)); } } PRE_SYSCALL(migrate_pages) (long pid, long maxnode, const void *from, const void *to) { if (from) PRE_READ(from, sizeof(long)); if (to) PRE_READ(to, sizeof(long)); } POST_SYSCALL(migrate_pages) (long res, long pid, long maxnode, const void *from, const void *to) {} PRE_SYSCALL(move_pages) (long pid, long nr_pages, const void **pages, const int *nodes, int *status, long flags) { if (pages) PRE_READ(pages, nr_pages * sizeof(*pages)); if (nodes) PRE_READ(nodes, nr_pages * sizeof(*nodes)); } POST_SYSCALL(move_pages) (long res, long pid, long nr_pages, const void **pages, const int *nodes, int *status, long flags) { if (res >= 0) { if (status) POST_WRITE(status, nr_pages * sizeof(*status)); } } PRE_SYSCALL(mbind) (long start, long len, long mode, void *nmask, long maxnode, long flags) {} POST_SYSCALL(mbind) (long res, long start, long len, long mode, void *nmask, long maxnode, long flags) { if (res >= 0) { if (nmask) POST_WRITE(nmask, sizeof(long)); } } PRE_SYSCALL(get_mempolicy) (void *policy, void *nmask, long maxnode, long addr, long flags) {} POST_SYSCALL(get_mempolicy) (long res, void *policy, void *nmask, long maxnode, long addr, long flags) { if (res >= 0) { if (policy) POST_WRITE(policy, sizeof(int)); if (nmask) POST_WRITE(nmask, sizeof(long)); } } PRE_SYSCALL(inotify_init)() {} POST_SYSCALL(inotify_init)(long res) {} PRE_SYSCALL(inotify_init1)(long flags) {} POST_SYSCALL(inotify_init1)(long res, long flags) {} PRE_SYSCALL(inotify_add_watch)(long fd, const void *path, long mask) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(inotify_add_watch) (long res, long fd, const void *path, long mask) {} PRE_SYSCALL(inotify_rm_watch)(long fd, long wd) {} POST_SYSCALL(inotify_rm_watch)(long res, long fd, long wd) {} PRE_SYSCALL(spu_run)(long fd, void *unpc, void *ustatus) {} POST_SYSCALL(spu_run)(long res, long fd, unsigned *unpc, unsigned *ustatus) { if (res >= 0) { if (unpc) POST_WRITE(unpc, sizeof(*unpc)); if (ustatus) POST_WRITE(ustatus, sizeof(*ustatus)); } } PRE_SYSCALL(spu_create)(const void *name, long flags, long mode, long fd) { if (name) PRE_READ(name, __sanitizer::internal_strlen((const char *)name) + 1); } POST_SYSCALL(spu_create) (long res, const void *name, long flags, long mode, long fd) {} PRE_SYSCALL(mknodat)(long dfd, const void *filename, long mode, long dev) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(mknodat) (long res, long dfd, const void *filename, long mode, long dev) {} PRE_SYSCALL(mkdirat)(long dfd, const void *pathname, long mode) { if (pathname) PRE_READ(pathname, __sanitizer::internal_strlen((const char *)pathname) + 1); } POST_SYSCALL(mkdirat)(long res, long dfd, const void *pathname, long mode) {} PRE_SYSCALL(unlinkat)(long dfd, const void *pathname, long flag) { if (pathname) PRE_READ(pathname, __sanitizer::internal_strlen((const char *)pathname) + 1); } POST_SYSCALL(unlinkat)(long res, long dfd, const void *pathname, long flag) {} PRE_SYSCALL(symlinkat)(const void *oldname, long newdfd, const void *newname) { if (oldname) PRE_READ(oldname, __sanitizer::internal_strlen((const char *)oldname) + 1); if (newname) PRE_READ(newname, __sanitizer::internal_strlen((const char *)newname) + 1); } POST_SYSCALL(symlinkat) (long res, const void *oldname, long newdfd, const void *newname) {} PRE_SYSCALL(linkat) (long olddfd, const void *oldname, long newdfd, const void *newname, long flags) { if (oldname) PRE_READ(oldname, __sanitizer::internal_strlen((const char *)oldname) + 1); if (newname) PRE_READ(newname, __sanitizer::internal_strlen((const char *)newname) + 1); } POST_SYSCALL(linkat) (long res, long olddfd, const void *oldname, long newdfd, const void *newname, long flags) {} PRE_SYSCALL(renameat) (long olddfd, const void *oldname, long newdfd, const void *newname) { if (oldname) PRE_READ(oldname, __sanitizer::internal_strlen((const char *)oldname) + 1); if (newname) PRE_READ(newname, __sanitizer::internal_strlen((const char *)newname) + 1); } POST_SYSCALL(renameat) (long res, long olddfd, const void *oldname, long newdfd, const void *newname) { } PRE_SYSCALL(futimesat)(long dfd, const void *filename, void *utimes) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(futimesat) (long res, long dfd, const void *filename, void *utimes) { if (res >= 0) { if (utimes) POST_WRITE(utimes, timeval_sz); } } PRE_SYSCALL(faccessat)(long dfd, const void *filename, long mode) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(faccessat)(long res, long dfd, const void *filename, long mode) {} PRE_SYSCALL(fchmodat)(long dfd, const void *filename, long mode) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(fchmodat)(long res, long dfd, const void *filename, long mode) {} PRE_SYSCALL(fchownat) (long dfd, const void *filename, long user, long group, long flag) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(fchownat) (long res, long dfd, const void *filename, long user, long group, long flag) {} PRE_SYSCALL(fchmodat2)(long dfd, const void *filename, long mode, long flag) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(fchmodat2) (long res, long dfd, const void *filename, long mode, long flag) {} PRE_SYSCALL(openat)(long dfd, const void *filename, long flags, long mode) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(openat) (long res, long dfd, const void *filename, long flags, long mode) {} PRE_SYSCALL(newfstatat) (long dfd, const void *filename, void *statbuf, long flag) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(newfstatat) (long res, long dfd, const void *filename, void *statbuf, long flag) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat_sz); } } PRE_SYSCALL(fstatat64) (long dfd, const void *filename, void *statbuf, long flag) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(fstatat64) (long res, long dfd, const void *filename, void *statbuf, long flag) { if (res >= 0) { if (statbuf) POST_WRITE(statbuf, struct_kernel_stat64_sz); } } PRE_SYSCALL(readlinkat)(long dfd, const void *path, void *buf, long bufsiz) { if (path) PRE_READ(path, __sanitizer::internal_strlen((const char *)path) + 1); } POST_SYSCALL(readlinkat) (long res, long dfd, const void *path, void *buf, long bufsiz) { if (res >= 0) { if (buf) POST_WRITE(buf, __sanitizer::internal_strlen((const char *)buf) + 1); } } PRE_SYSCALL(utimensat) (long dfd, const void *filename, void *utimes, long flags) { if (filename) PRE_READ(filename, __sanitizer::internal_strlen((const char *)filename) + 1); } POST_SYSCALL(utimensat) (long res, long dfd, const void *filename, void *utimes, long flags) { if (res >= 0) { if (utimes) POST_WRITE(utimes, struct_timespec_sz); } } PRE_SYSCALL(unshare)(long unshare_flags) {} POST_SYSCALL(unshare)(long res, long unshare_flags) {} PRE_SYSCALL(splice) (long fd_in, void *off_in, long fd_out, void *off_out, long len, long flags) {} POST_SYSCALL(splice) (long res, long fd_in, void *off_in, long fd_out, void *off_out, long len, long flags) { if (res >= 0) { if (off_in) POST_WRITE(off_in, sizeof(long long)); if (off_out) POST_WRITE(off_out, sizeof(long long)); } } PRE_SYSCALL(vmsplice) (long fd, const __sanitizer_iovec *iov, long nr_segs, long flags) {} POST_SYSCALL(vmsplice) (long res, long fd, const __sanitizer_iovec *iov, long nr_segs, long flags) { if (res >= 0) { if (iov) kernel_read_iovec(iov, nr_segs, res); } } PRE_SYSCALL(tee)(long fdin, long fdout, long len, long flags) {} POST_SYSCALL(tee)(long res, long fdin, long fdout, long len, long flags) {} PRE_SYSCALL(get_robust_list)(long pid, void *head_ptr, void *len_ptr) {} POST_SYSCALL(get_robust_list) (long res, long pid, void *head_ptr, void *len_ptr) {} PRE_SYSCALL(set_robust_list)(void *head, long len) {} POST_SYSCALL(set_robust_list)(long res, void *head, long len) {} PRE_SYSCALL(getcpu)(void *cpu, void *node, void *cache) {} POST_SYSCALL(getcpu)(long res, void *cpu, void *node, void *cache) { if (res >= 0) { if (cpu) POST_WRITE(cpu, sizeof(unsigned)); if (node) POST_WRITE(node, sizeof(unsigned)); // The third argument to this system call is nowadays unused. } } PRE_SYSCALL(signalfd)(long ufd, void *user_mask, long sizemask) {} POST_SYSCALL(signalfd) (long res, long ufd, kernel_sigset_t *user_mask, long sizemask) { if (res >= 0) { if (user_mask) POST_WRITE(user_mask, sizemask); } } PRE_SYSCALL(signalfd4)(long ufd, void *user_mask, long sizemask, long flags) {} POST_SYSCALL(signalfd4) (long res, long ufd, kernel_sigset_t *user_mask, long sizemask, long flags) { if (res >= 0) { if (user_mask) POST_WRITE(user_mask, sizemask); } } PRE_SYSCALL(timerfd_create)(long clockid, long flags) {} POST_SYSCALL(timerfd_create)(long res, long clockid, long flags) {} PRE_SYSCALL(timerfd_settime) (long ufd, long flags, const void *utmr, void *otmr) { if (utmr) PRE_READ(utmr, struct_itimerspec_sz); } POST_SYSCALL(timerfd_settime) (long res, long ufd, long flags, const void *utmr, void *otmr) { if (res >= 0) { if (otmr) POST_WRITE(otmr, struct_itimerspec_sz); } } PRE_SYSCALL(timerfd_gettime)(long ufd, void *otmr) {} POST_SYSCALL(timerfd_gettime)(long res, long ufd, void *otmr) { if (res >= 0) { if (otmr) POST_WRITE(otmr, struct_itimerspec_sz); } } PRE_SYSCALL(eventfd)(long count) {} POST_SYSCALL(eventfd)(long res, long count) {} PRE_SYSCALL(eventfd2)(long count, long flags) {} POST_SYSCALL(eventfd2)(long res, long count, long flags) {} PRE_SYSCALL(old_readdir)(long arg0, void *arg1, long arg2) {} POST_SYSCALL(old_readdir)(long res, long arg0, void *arg1, long arg2) { // Missing definition of 'struct old_linux_dirent'. } PRE_SYSCALL(pselect6) (long arg0, __sanitizer___kernel_fd_set *arg1, __sanitizer___kernel_fd_set *arg2, __sanitizer___kernel_fd_set *arg3, void *arg4, void *arg5) {} POST_SYSCALL(pselect6) (long res, long arg0, __sanitizer___kernel_fd_set *arg1, __sanitizer___kernel_fd_set *arg2, __sanitizer___kernel_fd_set *arg3, void *arg4, void *arg5) { if (res >= 0) { if (arg1) POST_WRITE(arg1, sizeof(*arg1)); if (arg2) POST_WRITE(arg2, sizeof(*arg2)); if (arg3) POST_WRITE(arg3, sizeof(*arg3)); if (arg4) POST_WRITE(arg4, struct_timespec_sz); } } PRE_SYSCALL(ppoll) (__sanitizer_pollfd *arg0, long arg1, void *arg2, const kernel_sigset_t *arg3, long arg4) { if (arg3) PRE_READ(arg3, arg4); } POST_SYSCALL(ppoll) (long res, __sanitizer_pollfd *arg0, long arg1, void *arg2, const void *arg3, long arg4) { if (res >= 0) { if (arg0) POST_WRITE(arg0, sizeof(*arg0)); if (arg2) POST_WRITE(arg2, struct_timespec_sz); } } PRE_SYSCALL(syncfs)(long fd) {} POST_SYSCALL(syncfs)(long res, long fd) {} PRE_SYSCALL(perf_event_open) (__sanitizer_perf_event_attr *attr_uptr, long pid, long cpu, long group_fd, long flags) { if (attr_uptr) PRE_READ(attr_uptr, attr_uptr->size); } POST_SYSCALL(perf_event_open) (long res, __sanitizer_perf_event_attr *attr_uptr, long pid, long cpu, long group_fd, long flags) {} PRE_SYSCALL(mmap_pgoff) (long addr, long len, long prot, long flags, long fd, long pgoff) {} POST_SYSCALL(mmap_pgoff) (long res, long addr, long len, long prot, long flags, long fd, long pgoff) {} PRE_SYSCALL(old_mmap)(void *arg) {} POST_SYSCALL(old_mmap)(long res, void *arg) {} PRE_SYSCALL(name_to_handle_at) (long dfd, const void *name, void *handle, void *mnt_id, long flag) {} POST_SYSCALL(name_to_handle_at) (long res, long dfd, const void *name, void *handle, void *mnt_id, long flag) {} PRE_SYSCALL(open_by_handle_at)(long mountdirfd, void *handle, long flags) {} POST_SYSCALL(open_by_handle_at) (long res, long mountdirfd, void *handle, long flags) {} PRE_SYSCALL(setns)(long fd, long nstype) {} POST_SYSCALL(setns)(long res, long fd, long nstype) {} PRE_SYSCALL(process_vm_readv) (long pid, const __sanitizer_iovec *lvec, long liovcnt, const void *rvec, long riovcnt, long flags) {} POST_SYSCALL(process_vm_readv) (long res, long pid, const __sanitizer_iovec *lvec, long liovcnt, const void *rvec, long riovcnt, long flags) { if (res >= 0) { if (lvec) kernel_write_iovec(lvec, liovcnt, res); } } PRE_SYSCALL(process_vm_writev) (long pid, const __sanitizer_iovec *lvec, long liovcnt, const void *rvec, long riovcnt, long flags) {} POST_SYSCALL(process_vm_writev) (long res, long pid, const __sanitizer_iovec *lvec, long liovcnt, const void *rvec, long riovcnt, long flags) { if (res >= 0) { if (lvec) kernel_read_iovec(lvec, liovcnt, res); } } PRE_SYSCALL(fork)() { COMMON_SYSCALL_PRE_FORK(); } POST_SYSCALL(fork)(long res) { COMMON_SYSCALL_POST_FORK(res); } PRE_SYSCALL(vfork)() { COMMON_SYSCALL_PRE_FORK(); } POST_SYSCALL(vfork)(long res) { COMMON_SYSCALL_POST_FORK(res); } PRE_SYSCALL(sigaction) (long signum, const __sanitizer_kernel_sigaction_t *act, __sanitizer_kernel_sigaction_t *oldact) { if (act) { PRE_READ(&act->sigaction, sizeof(act->sigaction)); PRE_READ(&act->sa_flags, sizeof(act->sa_flags)); PRE_READ(&act->sa_mask, sizeof(act->sa_mask)); } } POST_SYSCALL(sigaction) (long res, long signum, const __sanitizer_kernel_sigaction_t *act, __sanitizer_kernel_sigaction_t *oldact) { if (res >= 0 && oldact) POST_WRITE(oldact, sizeof(*oldact)); } PRE_SYSCALL(rt_sigaction) (long signum, const __sanitizer_kernel_sigaction_t *act, __sanitizer_kernel_sigaction_t *oldact, SIZE_T sz) { if (act) { PRE_READ(&act->sigaction, sizeof(act->sigaction)); PRE_READ(&act->sa_flags, sizeof(act->sa_flags)); PRE_READ(&act->sa_mask, sz); } } POST_SYSCALL(rt_sigaction) (long res, long signum, const __sanitizer_kernel_sigaction_t *act, __sanitizer_kernel_sigaction_t *oldact, SIZE_T sz) { if (res >= 0 && oldact) { SIZE_T oldact_sz = ((char *)&oldact->sa_mask) - ((char *)oldact) + sz; POST_WRITE(oldact, oldact_sz); } } PRE_SYSCALL(getrandom)(void *buf, uptr count, long flags) { if (buf) { PRE_WRITE(buf, count); } } POST_SYSCALL(getrandom)(long res, void *buf, uptr count, long flags) { if (res > 0 && buf) { POST_WRITE(buf, res); } } PRE_SYSCALL(sigaltstack)(const void *ss, void *oss) { if (ss != nullptr) { PRE_READ(ss, struct_stack_t_sz); } if (oss != nullptr) { PRE_WRITE(oss, struct_stack_t_sz); } } POST_SYSCALL(sigaltstack)(long res, void *ss, void *oss) { if (res == 0) { if (oss != nullptr) { POST_WRITE(oss, struct_stack_t_sz); } } } PRE_SYSCALL(futex) (void *uaddr, long futex_op, long val, void *timeout, void *uaddr2, long val3) { COMMON_SYSCALL_BLOCKING_START(); } POST_SYSCALL(futex) (long res, void *uaddr, long futex_op, long val, void *timeout, void *uaddr2, long val3) { COMMON_SYSCALL_BLOCKING_END(); } } // extern "C" # undef PRE_SYSCALL # undef PRE_READ # undef PRE_WRITE # undef POST_SYSCALL # undef POST_READ # undef POST_WRITE #endif // SANITIZER_LINUX