/* This is the arm64 variant of memcheck/tests/x86-linux/scalar.c syscalls are in x86 number order to make exp comparison easier. */ #define _GNU_SOURCE #include "../../memcheck.h" #include "scalar.h" #include #include #include #include // MREMAP_FIXED // Here we are trying to trigger every syscall error (scalar errors and // memory errors) for every syscall. We do this by passing a lot of bogus // arguments, mostly 0 and 1 (often it's 1 because NULL ptr args often aren't // checked for memory errors, or in order to have a non-zero length used // with some buffer). So most of the syscalls don't actually succeed and do // anything. // // Occasionally we have to be careful not to cause Valgrind to seg fault in // its pre-syscall wrappers; it does so because it can't know in general // when memory is unaddressable, and so tries to dereference it when doing // PRE_MEM_READ/PRE_MEM_WRITE calls. (Note that Memcheck will // always issue an error message immediately before these seg faults occur). // // The output has numbers like "3s 2m" for each syscall. "s" is short for // "scalar", ie. the argument itself is undefined. "m" is short for "memory", // ie. the argument points to memory which is unaddressable. int main(void) { // uninitialised, but we know px[0] is 0x0 long* px = malloc(sizeof(long)); long x0 = px[0]; long res; // All __NR_xxx numbers are taken from x86 // __NR_restart_syscall 0 // XXX: not yet handled, perhaps should be... GO(__NR_restart_syscall, "n/a"); //SY(__NR_restart_syscall); // (Not yet handled by Valgrind) FAIL; // __NR_exit 1 GO(__NR_exit, "below"); // (see below) // __NR_fork arm64 only has clone //GO(__NR_fork, "other"); // (sse scalar_fork.c) // __NR_read 3 // Nb: here we are also getting an error from the syscall arg itself. GO(__NR_read, "1+3s 1m"); SY(__NR_read+x0, x0, x0, x0+1); FAILx(EFAULT); // __NR_write 4 GO(__NR_write, "3s 1m"); SY(__NR_write, x0, x0, x0+1); FAIL; // __NR_open arm64 only as openat. //GO(__NR_open, "(2-args) 2s 1m"); //SY(__NR_open, x0, x0); FAIL; // Only 1s 0m errors -- the other 2s 1m have been checked in the previous // open test, and if we test them they may be commoned up but they also // may not. arm64 only has openat. //GO(__NR_open, "(3-args) 1s 0m"); //SY(__NR_open, "scalar.c", O_CREAT|O_EXCL, x0); FAIL; // __NR_close 6 GO(__NR_close, "1s 0m"); SY(__NR_close, x0-1); FAIL; // __NR_waitpid arm64 only has waitid. //GO(__NR_waitpid, "3s 1m"); //SY(__NR_waitpid, x0, x0+1, x0); FAIL; // __NR_creat arm64 only has openat //GO(__NR_creat, "2s 1m"); //SY(__NR_creat, x0, x0); FAIL; // __NR_link arm64 only has linkat //GO(__NR_link, "2s 2m"); //SY(__NR_link, x0, x0); FAIL; // __NR_unlink arm64 only has unlinkat //GO(__NR_unlink, "1s 1m"); //SY(__NR_unlink, x0); FAIL; // __NR_execve 11 // Nb: could have 3 memory errors if we pass x0+1 as the 2nd and 3rd // args, except for bug #93174. GO(__NR_execve, "3s 1m"); SY(__NR_execve, x0, x0, x0); FAIL; // __NR_chdir 12 GO(__NR_chdir, "1s 1m"); SY(__NR_chdir, x0); FAIL; // __NR_time on arm64 time is provided in the vdso //GO(__NR_time, "1s 1m"); //SY(__NR_time, x0+1); FAIL; // __NR_mknod arm64 only has mknodat //GO(__NR_mknod, "3s 1m"); //SY(__NR_mknod, x0, x0, x0); FAIL; // __NR_chmod arm64 only has chmodat //GO(__NR_chmod, "2s 1m"); //SY(__NR_chmod, x0, x0); FAIL; // __NR_lchown arm64 only has lchownat //GO(__NR_lchown, "n/a"); //SY(__NR_lchown); // (Not yet handled by Valgrind) FAIL; // __NR_break arm64 has no break //GO(__NR_break, "ni"); //SY(__NR_break); FAIL; // __NR_oldstat arm64 has no oldstat //GO(__NR_oldstat, "n/a"); // (obsolete, not handled by Valgrind) // __NR_lseek 19 GO(__NR_lseek, "3s 0m"); SY(__NR_lseek, x0-1, x0, x0); FAILx(EBADF); // __NR_getpid 20 GO(__NR_getpid, "0s 0m"); SY(__NR_getpid); SUCC; // __NR_mount 21 GO(__NR_mount, "5s 3m"); SY(__NR_mount, x0, x0, x0, x0, x0); FAIL; // __NR_umount arm64 only has umount2 //GO(__NR_umount, "1s 1m"); //SY(__NR_umount, x0); FAIL; // __NR_setuid 23 GO(__NR_setuid, "1s 0m"); SY(__NR_setuid, x0); FAIL; // __NR_getuid 24 GO(__NR_getuid, "0s 0m"); SY(__NR_getuid); SUCC; // __NR_stime arm64 does not have stime //GO(__NR_stime, "n/a"); //SY(__NR_stime); // (Not yet handled by Valgrind) FAIL; // __NR_ptrace arm64 does not use PTRACE_GETREGS // XXX: memory pointed to be arg3 goes unchecked... otherwise would be 2m //GO(__NR_ptrace, "4s 1m"); //SY(__NR_ptrace, x0+PTRACE_GETREGS, x0, x0, x0); FAIL; // __NR_alarm arm64 only has ualarm //GO(__NR_alarm, "1s 0m"); //SY(__NR_alarm, x0); SUCC; // __NR_oldfstat arm64 does not have oldfstat //GO(__NR_oldfstat, "n/a"); // (obsolete, not handled by Valgrind) // __NR_pause arm64 does not have pause //GO(__NR_pause, "ignore"); // (hard to test, and no args so not much to be gained -- don't bother) // __NR_utime arm64 only has utimes //GO(__NR_utime, "2s 2m"); //SY(__NR_utime, x0, x0+1); FAIL; // __NR_stty arm64 doesn't have stty. //GO(__NR_stty, "ni"); //SY(__NR_stty); FAIL; // __NR_gtty arm64 doesm't have gtty. //GO(__NR_gtty, "ni"); //SY(__NR_gtty); FAIL; // __NR_access arm64 only has fsaccessat //GO(__NR_access, "2s 1m"); //SY(__NR_access, x0, x0); FAIL; // __NR_nice arm64 only has setpriority //GO(__NR_nice, "1s 0m"); //SY(__NR_nice, x0); SUCC; // __NR_ftime arm64 doesn't implement ftime //GO(__NR_ftime, "ni"); //SY(__NR_ftime); FAIL; // __NR_sync 36 GO(__NR_sync, "0s 0m"); SY(__NR_sync); SUCC; // __NR_kill 37 GO(__NR_kill, "2s 0m"); SY(__NR_kill, x0, x0); SUCC; // __NR_rename arm64 only has renameat //GO(__NR_rename, "2s 2m"); //SY(__NR_rename, x0, x0); FAIL; // __NR_mkdir arm64 only has mkdirat //GO(__NR_mkdir, "2s 1m"); //SY(__NR_mkdir, x0, x0); FAIL; // __NR_rmdir arm64 only has rmdirat //GO(__NR_rmdir, "1s 1m"); //SY(__NR_rmdir, x0); FAIL; // __NR_dup 41 GO(__NR_dup, "1s 0m"); SY(__NR_dup, x0-1); FAIL; // __NR_pipe arm64 only has pipe2 //GO(__NR_pipe, "1s 1m"); //SY(__NR_pipe, x0); FAIL; // __NR_times 43 GO(__NR_times, "1s 1m"); SY(__NR_times, x0+1); FAIL; // __NR_prof arm64 doesn't implement prof //GO(__NR_prof, "ni"); //SY(__NR_prof); FAIL; // __NR_brk 45 GO(__NR_brk, "1s 0m"); SY(__NR_brk, x0); SUCC; // __NR_setgid 46 GO(__NR_setgid, "1s 0m"); SY(__NR_setgid, x0); FAIL; // __NR_getgid 47 GO(__NR_getgid, "0s 0m"); SY(__NR_getgid); SUCC; // __NR_signal arm64 only has rt_sigaction //GO(__NR_signal, "n/a"); //SY(__NR_signal); // (Not yet handled by Valgrind) FAIL; // __NR_geteuid 49 GO(__NR_geteuid, "0s 0m"); SY(__NR_geteuid); SUCC; // __NR_getegid 50 GO(__NR_getegid, "0s 0m"); SY(__NR_getegid); SUCC; // __NR_acct 51 GO(__NR_acct, "1s 1m"); SY(__NR_acct, x0); FAIL; // __NR_umount2 52 GO(__NR_umount2, "2s 1m"); SY(__NR_umount2, x0, x0); FAIL; // __NR_lock arm64 doesn't implement lock //GO(__NR_lock, "ni"); //SY(__NR_lock); FAIL; // __NR_ioctl 54 #include GO(__NR_ioctl, "3s 1m"); SY(__NR_ioctl, x0, x0+TCSETS, x0); FAIL; // __NR_fcntl 55 // As with sys_open(), the 'fd' error is suppressed for the later ones. // For F_GETFD the 3rd arg is ignored GO(__NR_fcntl, "(GETFD) 2s 0m"); SY(__NR_fcntl, x0-1, x0+F_GETFD, x0); FAILx(EBADF); // For F_DUPFD the 3rd arg is 'arg'. We don't check the 1st two args // because any errors may or may not be commoned up with the ones from // the previous fcntl call. GO(__NR_fcntl, "(DUPFD) 1s 0m"); SY(__NR_fcntl, -1, F_DUPFD, x0); FAILx(EBADF); // For F_GETLK the 3rd arg is 'lock'. On x86, this fails w/EBADF. But // on amd64 in 32-bit mode it fails w/EFAULT. We don't check the 1st two // args for the reason given above. GO(__NR_fcntl, "(GETLK) 1s 5m"); SY(__NR_fcntl, -1, F_GETLK, x0); FAIL; //FAILx(EBADF); // __NR_mpx arm64 doesn't implement mpx //GO(__NR_mpx, "ni"); //SY(__NR_mpx); FAIL; // __NR_setpgid 57 GO(__NR_setpgid, "2s 0m"); SY(__NR_setpgid, x0, x0-1); FAIL; // __NR_ulimit arm64 doesn't implement ulimit //GO(__NR_ulimit, "ni"); //SY(__NR_ulimit); FAIL; // __NR_oldolduname arm64 doesn't implement oldolduname, //GO(__NR_oldolduname, "n/a"); // (obsolete, not handled by Valgrind) // __NR_umask 60 GO(__NR_umask, "1s 0m"); SY(__NR_umask, x0+022); SUCC; // __NR_chroot 61 GO(__NR_chroot, "1s 1m"); SY(__NR_chroot, x0); FAIL; // __NR_ustat arm64 only has statfs //GO(__NR_ustat, "n/a"); // (deprecated, not handled by Valgrind) // __NR_dup2 arm64 only has dup or dup3 //GO(__NR_dup2, "2s 0m"); //SY(__NR_dup2, x0-1, x0); FAIL; // __NR_getppid 64 GO(__NR_getppid, "0s 0m"); SY(__NR_getppid); SUCC; // __NR_getpgrp arm64 only has getpgid //GO(__NR_getpgrp, "0s 0m"); //SY(__NR_getpgrp); SUCC; // __NR_setsid 66 GO(__NR_setsid, "0s 0m"); SY(__NR_setsid); SUCC_OR_FAIL; // __NR_sigaction arm64 only has rt_sigaction //GO(__NR_sigaction, "3s 4m"); //SY(__NR_sigaction, x0, x0+&px[1], x0+&px[1]); FAIL; // __NR_sgetmask arm64 only has rt_sigprocmask //GO(__NR_sgetmask, "n/a"); //SY(__NR_sgetmask); // (Not yet handled by Valgrind) FAIL; // __NR_ssetmask arm64 only has rt_sigprocmask //GO(__NR_ssetmask, "n/a"); //SY(__NR_ssetmask); // (Not yet handled by Valgrind) FAIL; // __NR_setreuid 70 GO(__NR_setreuid, "2s 0m"); SY(__NR_setreuid, x0, x0); FAIL; // __NR_setregid 71 GO(__NR_setregid, "2s 0m"); SY(__NR_setregid, x0, x0); FAIL; // __NR_sigsuspend arm64 only has rt_sigsuspend // XXX: how do you use this function? //GO(__NR_sigsuspend, "ignore"); // (I don't know how to test this...) // __NR_sigpending arm64 only has rt_sigpending //GO(__NR_sigpending, "1s 1m"); //SY(__NR_sigpending, x0); FAIL; // __NR_sethostname 74 GO(__NR_sethostname, "n/a"); //SY(__NR_sethostname); // (Not yet handled by Valgrind) FAIL; // __NR_setrlimit 75 GO(__NR_setrlimit, "2s 1m"); SY(__NR_setrlimit, x0, x0); FAIL; // __NR_getrlimit 76 GO(__NR_getrlimit, "2s 1m"); SY(__NR_getrlimit, x0, x0); FAIL; // __NR_getrusage 77 GO(__NR_getrusage, "2s 1m"); SY(__NR_getrusage, x0, x0); FAIL; // __NR_gettimeofday 78 GO(__NR_gettimeofday, "2s 2m"); SY(__NR_gettimeofday, x0+1, x0+1); FAIL; // __NR_settimeofday 79 GO(__NR_settimeofday, "2s 2m"); SY(__NR_settimeofday, x0+1, x0+1); FAIL; // __NR_getgroups 80 GO(__NR_getgroups, "2s 1m"); SY(__NR_getgroups, x0+1, x0+1); FAIL; // __NR_setgroups 81 GO(__NR_setgroups, "2s 1m"); SY(__NR_setgroups, x0+1, x0+1); FAIL; // __NR_select arm64 only has pselect6 //{ // long args[5] = { x0+8, x0+0xffffffee, x0+1, x0+1, x0+1 }; // GO(__NR_select, "1s 5m"); // SY(__NR_select, args+x0); FAIL; //} // __NR_symlink arm64 only has symlinkat //GO(__NR_symlink, "2s 2m"); //SY(__NR_symlink, x0, x0); FAIL; // __NR_oldlstat arm64 doesn't implement oldlstat //GO(__NR_oldlstat, "n/a"); // (obsolete, not handled by Valgrind) // __NR_readlink arm64 only has readlinkat //GO(__NR_readlink, "3s 2m"); //SY(__NR_readlink, x0+1, x0+1, x0+1); FAIL; // __NR_uselib arm64 doesn't implement uselib //GO(__NR_uselib, "n/a"); //SY(__NR_uselib); // (Not yet handled by Valgrind) FAIL; // __NR_swapon 87 GO(__NR_swapon, "n/a"); //SY(__NR_swapon); // (Not yet handled by Valgrind) FAIL; // __NR_reboot 88 GO(__NR_reboot, "n/a"); //SY(__NR_reboot); // (Not yet handled by Valgrind) FAIL; // __NR_readdir arm64 only implements getdents64 //GO(__NR_readdir, "n/a"); // (superseded, not handled by Valgrind) // __NR_mmap 90 { long args[6] = { x0, x0, x0, x0, x0-1, x0 }; GO(__NR_mmap, "1s 1m"); SY(__NR_mmap, args+x0); FAIL; } // __NR_munmap 91 GO(__NR_munmap, "2s 0m"); SY(__NR_munmap, x0, x0); FAIL; // __NR_truncate 92 GO(__NR_truncate, "2s 1m"); SY(__NR_truncate, x0, x0); FAIL; // __NR_ftruncate 93 GO(__NR_ftruncate, "2s 0m"); SY(__NR_ftruncate, x0, x0); FAIL; // __NR_fchmod 94 GO(__NR_fchmod, "2s 0m"); SY(__NR_fchmod, x0-1, x0); FAIL; // __NR_fchown 95 GO(__NR_fchown, "3s 0m"); SY(__NR_fchown, x0, x0, x0); FAIL; // __NR_getpriority 96 GO(__NR_getpriority, "2s 0m"); SY(__NR_getpriority, x0-1, x0); FAIL; // __NR_setpriority 97 GO(__NR_setpriority, "3s 0m"); SY(__NR_setpriority, x0-1, x0, x0); FAIL; // __NR_profil arm64 doesn't implement profil. //GO(__NR_profil, "ni"); //SY(__NR_profil); FAIL; // __NR_statfs 99 GO(__NR_statfs, "2s 2m"); SY(__NR_statfs, x0, x0); FAIL; // __NR_fstatfs 100 GO(__NR_fstatfs, "2s 1m"); SY(__NR_fstatfs, x0, x0); FAIL; // __NR_ioperm arm64 doesn't implement ioperm //GO(__NR_ioperm, "3s 0m"); //SY(__NR_ioperm, x0, x0, x0); FAIL; // __NR_socketcall arm64 doesn't have socketcall. //GO(__NR_socketcall, "XXX"); // (XXX: need to do all sub-cases properly) // __NR_syslog 103 GO(__NR_syslog, "3s 1m"); SY(__NR_syslog, x0+2, x0, x0+1); FAIL; // __NR_setitimer 104 GO(__NR_setitimer, "3s 2m"); SY(__NR_setitimer, x0, x0+1, x0+1); FAIL; // __NR_getitimer 105 GO(__NR_getitimer, "2s 1m"); SY(__NR_getitimer, x0, x0, x0); FAIL; // __NR_stat arm64 doesn't implement stat //GO(__NR_stat, "2s 2m"); //SY(__NR_stat, x0, x0); FAIL; // __NR_lstat arm64 doesn't implement lstat //GO(__NR_lstat, "2s 2m"); //SY(__NR_lstat, x0, x0); FAIL; // __NR_fstat 108 GO(__NR_fstat, "2s 1m"); SY(__NR_fstat, x0, x0); FAIL; // __NR_olduname arm64 doesn't implement olduname //GO(__NR_olduname, "n/a"); // (obsolete, not handled by Valgrind) // __NR_iopl arm64 doesn't implement iopl //GO(__NR_iopl, "1s 0m"); //SY(__NR_iopl, x0+100); FAIL; // __NR_vhangup 111 GO(__NR_vhangup, "0s 0m"); SY(__NR_vhangup); SUCC_OR_FAIL; // Will succeed for superuser // __NR_idle arm64 doesn't implement idle. //GO(__NR_idle, "ni"); //SY(__NR_idle); FAIL; // __NR_vm86old arm64 doesn't implement vm86old //GO(__NR_vm86old, "n/a"); // (will probably never be handled by Valgrind) // __NR_wait4 114 GO(__NR_wait4, "4s 2m"); SY(__NR_wait4, x0, x0+1, x0, x0+1); FAIL; // __NR_swapoff 115 GO(__NR_swapoff, "n/a"); //SY(__NR_swapoff); // (Not yet handled by Valgrind) FAIL; // __NR_sysinfo 116 GO(__NR_sysinfo, "1s 1m"); SY(__NR_sysinfo, x0); FAIL; // __NR_ipc arm64 has separate msgctl semctl shmctl system calls // XXX: This is simplistic -- need to do all the sub-cases properly. // XXX: Also, should be 6 scalar errors, except glibc's syscall() doesn't // use the 6th one! //GO(__NR_ipc, "5s 0m"); //SY(__NR_ipc, x0+4, x0, x0, x0, x0, x0); FAIL; // __NR_fsync 118 GO(__NR_fsync, "1s 0m"); SY(__NR_fsync, x0-1); FAIL; // __NR_sigreturn arm64 only has rt_sigreturn //GO(__NR_sigreturn, "n/a"); //SY(__NR_sigreturn); // (Not yet handled by Valgrind) FAIL; // __NR_clone 120 #ifndef CLONE_PARENT_SETTID #define CLONE_PARENT_SETTID 0x00100000 #endif GO(__NR_clone, "5s 3m"); SY(__NR_clone, x0|CLONE_PARENT_SETTID|CLONE_SETTLS|CLONE_CHILD_SETTID|SIGCHLD, x0, x0, x0, x0); FAIL; if (0 == res) { SY(__NR_exit, 0); FAIL; } // __NR_setdomainname 121 GO(__NR_setdomainname, "n/a"); //SY(__NR_setdomainname); // (Not yet handled by Valgrind) FAIL; // __NR_uname 122 GO(__NR_uname, "1s 1m"); SY(__NR_uname, x0); FAIL; // __NR_modify_ldt arm64 doesn't implement modify_ldt //GO(__NR_modify_ldt, "3s 1m"); //SY(__NR_modify_ldt, x0+1, x0, x0+1); FAILx(EINVAL); // __NR_adjtimex 124 // XXX: need to do properly, but deref'ing NULL causing Valgrind to crash... GO(__NR_adjtimex, "XXX"); // SY(__NR_adjtimex, x0); FAIL; // __NR_mprotect 125 GO(__NR_mprotect, "3s 0m"); SY(__NR_mprotect, x0+1, x0, x0); FAILx(EINVAL); // __NR_sigprocmask arm64 has rt_sigprocmask //GO(__NR_sigprocmask, "3s 2m"); //SY(__NR_sigprocmask, x0, x0+&px[1], x0+&px[1]); SUCC; // __NR_create_module arm64 doesn't implement create_module. //GO(__NR_create_module, "ni"); //SY(__NR_create_module); FAIL; // __NR_init_module 128 GO(__NR_init_module, "3s 2m"); SY(__NR_init_module, x0, x0+1, x0); FAIL; // __NR_delete_module 129 GO(__NR_delete_module, "n/a"); //SY(__NR_delete_module); // (Not yet handled by Valgrind) FAIL; // __NR_get_kernel_syms arm64 doesn't implement get_kernel_syms //GO(__NR_get_kernel_syms, "ni"); //SY(__NR_get_kernel_syms); FAIL; // __NR_quotactl 131 GO(__NR_quotactl, "4s 1m"); SY(__NR_quotactl, x0, x0, x0, x0); FAIL; // __NR_getpgid 132 GO(__NR_getpgid, "1s 0m"); SY(__NR_getpgid, x0-1); FAIL; // __NR_fchdir 133 GO(__NR_fchdir, "1s 0m"); SY(__NR_fchdir, x0-1); FAIL; // __NR_bdflush arm64 doesn't implement bdflush //GO(__NR_bdflush, "n/a"); //SY(__NR_bdflush); // (Not yet handled by Valgrind) FAIL; // __NR_sysfs arm64 doesn't handle sysfs, use proc. //GO(__NR_sysfs, "n/a"); //SY(__NR_sysfs); // (Not yet handled by Valgrind) FAIL; // __NR_personality 136 GO(__NR_personality, "1s 0m"); SY(__NR_personality, x0+0xffffffff); SUCC; // __NR_afs_syscall arm64 doesn't implement afs_syscall //GO(__NR_afs_syscall, "ni"); //SY(__NR_afs_syscall); FAIL; // __NR_setfsuid 138 GO(__NR_setfsuid, "1s 0m"); SY(__NR_setfsuid, x0); SUCC; // This syscall has a stupid return value // __NR_setfsgid 139 GO(__NR_setfsgid, "1s 0m"); SY(__NR_setfsgid, x0); SUCC; // This syscall has a stupid return value // __NR__llseek arm64 doesn't implement _llseek //GO(__NR__llseek, "5s 1m"); //SY(__NR__llseek, x0, x0, x0, x0, x0); FAIL; // __NR_getdents arm64 only has getdents64 //GO(__NR_getdents, "3s 1m"); //SY(__NR_getdents, x0, x0, x0+1); FAIL; // __NR__newselect arm64 doesn't implement _newselect //GO(__NR__newselect, "5s 4m"); //SY(__NR__newselect, x0+8, x0+0xffffffff, x0+1, x0+1, x0+1); FAIL; // __NR_flock 143 GO(__NR_flock, "2s 0m"); SY(__NR_flock, x0, x0); FAIL; // __NR_msync 144 GO(__NR_msync, "3s 1m"); SY(__NR_msync, x0, x0+1, x0); FAIL; // __NR_readv 145 GO(__NR_readv, "3s 1m"); SY(__NR_readv, x0, x0, x0+1); FAIL; // __NR_writev 146 GO(__NR_writev, "3s 1m"); SY(__NR_writev, x0, x0, x0+1); FAIL; // __NR_getsid 147 GO(__NR_getsid, "1s 0m"); SY(__NR_getsid, x0-1); FAIL; // __NR_fdatasync 148 GO(__NR_fdatasync, "1s 0m"); SY(__NR_fdatasync, x0-1); FAIL; // __NR__sysctl arm64 doesn't implement sysctl, use /proc //GO(__NR__sysctl, "1s 1m"); //SY(__NR__sysctl, x0); FAIL; // __NR_mlock 150 GO(__NR_mlock, "2s 0m"); SY(__NR_mlock, x0, x0+1); FAIL; // __NR_munlock 151 GO(__NR_munlock, "2s 0m"); SY(__NR_munlock, x0, x0+1); FAIL; // __NR_mlockall 152 GO(__NR_mlockall, "1s 0m"); SY(__NR_mlockall, x0-1); FAIL; // __NR_munlockall 153 GO(__NR_munlockall, "0s 0m"); SY(__NR_munlockall); SUCC_OR_FAILx(EPERM); // __NR_sched_setparam 154 GO(__NR_sched_setparam, "2s 1m"); SY(__NR_sched_setparam, x0, x0); FAIL; // __NR_sched_getparam 155 GO(__NR_sched_getparam, "2s 1m"); SY(__NR_sched_getparam, x0, x0); FAIL; // __NR_sched_setscheduler 156 GO(__NR_sched_setscheduler, "3s 1m"); SY(__NR_sched_setscheduler, x0-1, x0, x0+1); FAIL; // __NR_sched_getscheduler 157 GO(__NR_sched_getscheduler, "1s 0m"); SY(__NR_sched_getscheduler, x0-1); FAIL; // __NR_sched_yield 158 GO(__NR_sched_yield, "0s 0m"); SY(__NR_sched_yield); SUCC; // __NR_sched_get_priority_max 159 GO(__NR_sched_get_priority_max, "1s 0m"); SY(__NR_sched_get_priority_max, x0-1); FAIL; // __NR_sched_get_priority_min 160 GO(__NR_sched_get_priority_min, "1s 0m"); SY(__NR_sched_get_priority_min, x0-1); FAIL; // __NR_sched_rr_get_interval 161 GO(__NR_sched_rr_get_interval, "n/a"); //SY(__NR_sched_rr_get_interval); // (Not yet handled by Valgrind) FAIL; // __NR_nanosleep 162 GO(__NR_nanosleep, "2s 2m"); SY(__NR_nanosleep, x0, x0+1); FAIL; // __NR_mremap 163 GO(__NR_mremap, "5s 0m"); SY(__NR_mremap, x0+1, x0, x0, x0+MREMAP_FIXED, x0); FAILx(EINVAL); // __NR_setresuid 164 GO(__NR_setresuid, "3s 0m"); SY(__NR_setresuid, x0, x0, x0); FAIL; // __NR_getresuid 165 GO(__NR_getresuid, "3s 3m"); SY(__NR_getresuid, x0, x0, x0); FAIL; // __NR_vm86 arm64 doesn't implement vm86 //GO(__NR_vm86, "n/a"); // (will probably never be handled by Valgrind) // __NR_query_module arm64 doesn't implement query_module //GO(__NR_query_module, "ni"); //SY(__NR_query_module); FAIL; // __NR_poll arm64 only has ppoll //GO(__NR_poll, "3s 1m"); //SY(__NR_poll, x0, x0+1, x0); FAIL; // __NR_nfsservctl 169 GO(__NR_nfsservctl, "n/a"); //SY(__NR_nfsservctl); // (Not yet handled by Valgrind) FAIL; // __NR_setresgid 170 GO(__NR_setresgid, "3s 0m"); SY(__NR_setresgid, x0, x0, x0); FAIL; // __NR_getresgid 171 GO(__NR_getresgid, "3s 3m"); SY(__NR_getresgid, x0, x0, x0); FAIL; // __NR_prctl 172 GO(__NR_prctl, "5s 0m"); SY(__NR_prctl, x0, x0, x0, x0, x0); FAIL; // __NR_rt_sigreturn 173 GO(__NR_rt_sigreturn, "n/a"); //SY(__NR_rt_sigreturn); // (Not yet handled by Valgrind) FAIL; // __NR_rt_sigaction 174 GO(__NR_rt_sigaction, "4s 4m"); SY(__NR_rt_sigaction, x0, x0+&px[2], x0+&px[2], x0); FAIL; // __NR_rt_sigprocmask 175 GO(__NR_rt_sigprocmask, "4s 2m"); SY(__NR_rt_sigprocmask, x0, x0+1, x0+1, x0); FAIL; // __NR_rt_sigpending 176 GO(__NR_rt_sigpending, "2s 1m"); SY(__NR_rt_sigpending, x0, x0+1); FAIL; // __NR_rt_sigtimedwait 177 GO(__NR_rt_sigtimedwait, "4s 3m"); SY(__NR_rt_sigtimedwait, x0+1, x0+1, x0+1, x0); FAIL; // __NR_rt_sigqueueinfo 178 GO(__NR_rt_sigqueueinfo, "3s 1m"); SY(__NR_rt_sigqueueinfo, x0, x0+1, x0); FAIL; // __NR_rt_sigsuspend 179 GO(__NR_rt_sigsuspend, "ignore"); // (I don't know how to test this...) // __NR_pread64 180 GO(__NR_pread64, "5s 1m"); SY(__NR_pread64, x0, x0, x0+1, x0, x0); FAIL; // __NR_pwrite64 181 GO(__NR_pwrite64, "5s 1m"); SY(__NR_pwrite64, x0, x0, x0+1, x0, x0); FAIL; // __NR_chown arm64 only has chownat //GO(__NR_chown, "3s 1m"); //SY(__NR_chown, x0, x0, x0); FAIL; // __NR_getcwd 183 GO(__NR_getcwd, "2s 1m"); SY(__NR_getcwd, x0, x0+1); FAIL; // __NR_capget 184 GO(__NR_capget, "2s 2m"); SY(__NR_capget, x0, x0+1); FAIL; // __NR_capset 185 GO(__NR_capset, "2s 2m"); SY(__NR_capset, x0, x0); FAIL; // __NR_sigaltstack 186 { struct our_sigaltstack { void *ss_sp; int ss_flags; size_t ss_size; } ss; ss.ss_sp = NULL; ss.ss_flags = 0; ss.ss_size = 0; VALGRIND_MAKE_MEM_NOACCESS(& ss, sizeof(struct our_sigaltstack)); GO(__NR_sigaltstack, "2s 2m"); SY(__NR_sigaltstack, x0+&ss, x0+&ss); SUCC; } // __NR_sendfile 187 GO(__NR_sendfile, "4s 1m"); SY(__NR_sendfile, x0, x0, x0+1, x0); FAIL; // __NR_getpmsg arm64 doesn't implement getpmsg // Could do 5s 4m with more effort, but I can't be bothered for this // crappy non-standard syscall. //GO(__NR_getpmsg, "5s 0m"); //SY(__NR_getpmsg, x0, x0, x0, x0); FAIL; // __NR_putpmsg arm64 doesn't implement putpmsg // Could do 5s 2m with more effort, but I can't be bothered for this // crappy non-standard syscall. //GO(__NR_putpmsg, "5s 0m"); //SY(__NR_putpmsg, x0, x0, x0, x0, x0); FAIL; // __NR_vfork arm64 only has clone //GO(__NR_vfork, "other"); // (sse scalar_vfork.c) // __NR_ugetrlimit arm64 only has getrlimit and prlimit64 //GO(__NR_ugetrlimit, "2s 1m"); //SY(__NR_ugetrlimit, x0, x0); FAIL; // __NR_mmap2 arm64 doesn't implement mmap2 //GO(__NR_mmap2, "6s 0m"); //SY(__NR_mmap2, x0, x0, x0, x0, x0-1, x0); FAIL; // __NR_truncate64 arm64 just has truncate //GO(__NR_truncate64, "3s 1m"); //SY(__NR_truncate64, x0, x0, x0); FAIL; // __NR_ftruncate64 arm64 just has ftruncate //GO(__NR_ftruncate64, "3s 0m"); //SY(__NR_ftruncate64, x0, x0, x0); FAIL; // __NR_stat64 arm64 doesn't implement stat64 //GO(__NR_stat64, "2s 2m"); //SY(__NR_stat64, x0, x0); FAIL; // __NR_lstat64 196 //GO(__NR_lstat64, "2s 2m"); //SY(__NR_lstat64, x0, x0); FAIL; // __NR_fstat64 197 //GO(__NR_fstat64, "2s 1m"); //SY(__NR_fstat64, x0, x0); FAIL; // __NR_lchown32 198 //GO(__NR_lchown32, "3s 1m"); //SY(__NR_lchown32, x0, x0, x0); FAIL; // __NR_getuid32 199 //GO(__NR_getuid32, "0s 0m"); //SY(__NR_getuid32); SUCC; // __NR_getgid32 200 //GO(__NR_getgid32, "0s 0m"); //SY(__NR_getgid32); SUCC; // __NR_geteuid32 201 //GO(__NR_geteuid32, "0s 0m"); //SY(__NR_geteuid32); SUCC; // __NR_getegid32 202 //GO(__NR_getegid32, "0s 0m"); //SY(__NR_getegid32); SUCC; // __NR_setreuid32 203 //GO(__NR_setreuid32, "2s 0m"); //SY(__NR_setreuid32, x0, x0); FAIL; // __NR_setregid32 204 //GO(__NR_setregid32, "2s 0m"); //SY(__NR_setregid32, x0, x0); FAIL; // __NR_getgroups32 205 //GO(__NR_getgroups32, "2s 1m"); //SY(__NR_getgroups32, x0+1, x0+1); FAIL; // __NR_setgroups32 206 //GO(__NR_setgroups32, "2s 1m"); //SY(__NR_setgroups32, x0+1, x0+1); FAIL; // __NR_fchown32 207 //GO(__NR_fchown32, "3s 0m"); //SY(__NR_fchown32, x0, x0, x0); FAIL; // __NR_setresuid32 208 //GO(__NR_setresuid32, "3s 0m"); //SY(__NR_setresuid32, x0, x0, x0); FAIL; // __NR_getresuid32 209 //GO(__NR_getresuid32, "3s 3m"); //SY(__NR_getresuid32, x0, x0, x0); FAIL; // __NR_setresgid32 210 //GO(__NR_setresgid32, "3s 0m"); //SY(__NR_setresgid32, x0, x0, x0); FAIL; // __NR_getresgid32 211 //GO(__NR_getresgid32, "3s 3m"); //SY(__NR_getresgid32, x0, x0, x0); FAIL; // __NR_chown32 212 //GO(__NR_chown32, "3s 1m"); //SY(__NR_chown32, x0, x0, x0); FAIL; // __NR_setuid32 213 //GO(__NR_setuid32, "1s 0m"); //SY(__NR_setuid32, x0); FAIL; // __NR_setgid32 214 //GO(__NR_setgid32, "1s 0m"); //SY(__NR_setgid32, x0); FAIL; // __NR_setfsuid32 215 //GO(__NR_setfsuid32, "1s 0m"); //SY(__NR_setfsuid32, x0); SUCC; // This syscall has a stupid return value // __NR_setfsgid32 216 //GO(__NR_setfsgid32, "1s 0m"); //SY(__NR_setfsgid32, x0); SUCC; // This syscall has a stupid return value // __NR_pivot_root 217 GO(__NR_pivot_root, "n/a"); //SY(__NR_pivot_root); // (Not yet handled by Valgrind) FAIL; // __NR_mincore 218 GO(__NR_mincore, "3s 1m"); SY(__NR_mincore, x0, x0+40960, x0); FAIL; // __NR_madvise 219 GO(__NR_madvise, "3s 0m"); SY(__NR_madvise, x0, x0+1, x0); FAILx(ENOMEM); // __NR_getdents64 220 GO(__NR_getdents64, "3s 1m"); SY(__NR_getdents64, x0, x0, x0+1); FAIL; // __NR_fcntl64 221 // As with sys_open(), we don't trigger errors for the 1st two args for // the later ones. // For F_GETFD the 3rd arg is ignored. //GO(__NR_fcntl64, "(GETFD) 2s 0m"); //SY(__NR_fcntl64, x0-1, x0+F_GETFD, x0); FAILx(EBADF); // For F_DUPFD the 3rd arg is 'arg' //GO(__NR_fcntl64, "(DUPFD) 1s 0m"); //SY(__NR_fcntl64, -1, F_DUPFD, x0); FAILx(EBADF); // For F_GETLK the 3rd arg is 'lock'. // On x86, this fails w/EBADF. But on amd64 in 32-bit mode it fails // w/EFAULT. //GO(__NR_fcntl64, "(GETLK) 1s 0m"); //SY(__NR_fcntl64, -1, +F_GETLK, x0); FAIL; //FAILx(EBADF); // 222 //GO(222, "ni"); //SY(222); FAIL; // 223 //GO(223, "ni"); //SY(223); FAIL; // __NR_gettid 224 GO(__NR_gettid, "n/a"); //SY(__NR_gettid); // (Not yet handled by Valgrind) FAIL; // __NR_readahead 225 GO(__NR_readahead, "n/a"); //SY(__NR_readahead); // (Not yet handled by Valgrind) FAIL; // __NR_setxattr 226 GO(__NR_setxattr, "5s 3m"); SY(__NR_setxattr, x0, x0, x0, x0+1, x0); FAIL; // __NR_lsetxattr 227 GO(__NR_lsetxattr, "5s 3m"); SY(__NR_lsetxattr, x0, x0, x0, x0+1, x0); FAIL; // __NR_fsetxattr 228 GO(__NR_fsetxattr, "5s 2m"); SY(__NR_fsetxattr, x0, x0, x0, x0+1, x0); FAIL; // __NR_getxattr 229 GO(__NR_getxattr, "4s 3m"); SY(__NR_getxattr, x0, x0, x0, x0+1); FAIL; // __NR_lgetxattr 230 GO(__NR_lgetxattr, "4s 3m"); SY(__NR_lgetxattr, x0, x0, x0, x0+1); FAIL; // __NR_fgetxattr 231 GO(__NR_fgetxattr, "4s 2m"); SY(__NR_fgetxattr, x0, x0, x0, x0+1); FAIL; // __NR_listxattr 232 GO(__NR_listxattr, "3s 2m"); SY(__NR_listxattr, x0, x0, x0+1); FAIL; // __NR_llistxattr 233 GO(__NR_llistxattr, "3s 2m"); SY(__NR_llistxattr, x0, x0, x0+1); FAIL; // __NR_flistxattr 234 GO(__NR_flistxattr, "3s 1m"); SY(__NR_flistxattr, x0-1, x0, x0+1); FAIL; /* kernel returns EBADF, but both seem correct */ // __NR_removexattr 235 GO(__NR_removexattr, "2s 2m"); SY(__NR_removexattr, x0, x0); FAIL; // __NR_lremovexattr 236 GO(__NR_lremovexattr, "2s 2m"); SY(__NR_lremovexattr, x0, x0); FAIL; // __NR_fremovexattr 237 GO(__NR_fremovexattr, "2s 1m"); SY(__NR_fremovexattr, x0, x0); FAIL; // __NR_tkill 238 GO(__NR_tkill, "n/a"); //SY(__NR_tkill); // (Not yet handled by Valgrind) FAIL; // __NR_sendfile64 239 //GO(__NR_sendfile64, "4s 1m"); //SY(__NR_sendfile64, x0, x0, x0+1, x0); FAIL; // __NR_futex 240 #ifndef FUTEX_WAIT #define FUTEX_WAIT 0 #endif // XXX: again, glibc not doing 6th arg means we have only 5s errors GO(__NR_futex, "4s 2m"); SY(__NR_futex, x0+FUTEX_WAIT, x0, x0, x0+1); FAIL; // __NR_sched_setaffinity 241 GO(__NR_sched_setaffinity, "3s 1m"); SY(__NR_sched_setaffinity, x0, x0+1, x0); FAIL; // __NR_sched_getaffinity 242 GO(__NR_sched_getaffinity, "3s 1m"); SY(__NR_sched_getaffinity, x0, x0+1, x0); FAIL; // __NR_set_thread_area 243 //GO(__NR_set_thread_area, "1s 1m"); //SY(__NR_set_thread_area, x0); FAILx(EFAULT); // __NR_get_thread_area 244 //GO(__NR_get_thread_area, "1s 1m"); //SY(__NR_get_thread_area, x0); FAILx(EFAULT); // __NR_io_setup 245 GO(__NR_io_setup, "2s 1m"); SY(__NR_io_setup, x0, x0); FAIL; // __NR_io_destroy 246 { // jump through hoops to prevent the PRE(io_destroy) wrapper crashing. struct fake_aio_ring { unsigned id; /* kernel internal index number */ unsigned nr; /* number of io_events */ // There are more fields in the real aio_ring, but the 'nr' field is // the only one used by the PRE() wrapper. } ring = { 0, 0 }; struct fake_aio_ring* ringptr = ˚ GO(__NR_io_destroy, "1s 0m"); SY(__NR_io_destroy, x0+&ringptr); FAIL; } // __NR_io_getevents 247 GO(__NR_io_getevents, "5s 2m"); SY(__NR_io_getevents, x0, x0, x0+1, x0, x0+1); FAIL; // __NR_io_submit 248 GO(__NR_io_submit, "3s 1m"); SY(__NR_io_submit, x0, x0+1, x0); FAIL; // __NR_io_cancel 249 GO(__NR_io_cancel, "3s 2m"); SY(__NR_io_cancel, x0, x0, x0); FAIL; // __NR_fadvise64 250 GO(__NR_fadvise64, "n/a"); //SY(__NR_fadvise64); // (Not yet handled by Valgrind) FAIL; // 251 //GO(251, "ni"); //SY(251); FAIL; // __NR_exit_group 252 GO(__NR_exit_group, "other"); // (see scalar_exit_group.c) // __NR_lookup_dcookie 253 GO(__NR_lookup_dcookie, "4s 1m"); SY(__NR_lookup_dcookie, x0, x0, x0, x0+1); FAIL; // __NR_epoll_create arm64 only has epoll_create1 //GO(__NR_epoll_create, "1s 0m"); //SY(__NR_epoll_create, x0); SUCC_OR_FAIL; // __NR_epoll_ctl 255 GO(__NR_epoll_ctl, "4s 1m"); SY(__NR_epoll_ctl, x0, x0, x0, x0); FAIL; // __NR_epoll_wait arm64 only has epoll_pwait //GO(__NR_epoll_wait, "4s 1m"); //SY(__NR_epoll_wait, x0, x0, x0+1, x0); FAIL; // __NR_remap_file_pages 257 GO(__NR_remap_file_pages, "n/a"); //SY(__NR_remap_file_pages); // (Not yet handled by Valgrind) FAIL; // __NR_set_tid_address 258 GO(__NR_set_tid_address, "1s 0m"); SY(__NR_set_tid_address, x0); SUCC_OR_FAILx(ENOSYS); // __NR_timer_create 259 GO(__NR_timer_create, "3s 2m"); SY(__NR_timer_create, x0, x0+1, x0); FAIL; // __NR_timer_settime (__NR_timer_create+1) GO(__NR_timer_settime, "4s 2m"); SY(__NR_timer_settime, x0, x0, x0, x0+1); FAIL; // __NR_timer_gettime (__NR_timer_create+2) GO(__NR_timer_gettime, "2s 1m"); SY(__NR_timer_gettime, x0, x0); FAIL; // __NR_timer_getoverrun (__NR_timer_create+3) GO(__NR_timer_getoverrun, "1s 0m"); SY(__NR_timer_getoverrun, x0); FAIL; // __NR_timer_delete (__NR_timer_create+4) GO(__NR_timer_delete, "1s 0m"); SY(__NR_timer_delete, x0); FAIL; // __NR_clock_settime (__NR_timer_create+5) GO(__NR_clock_settime, "2s 1m"); SY(__NR_clock_settime, x0, x0); FAIL; FAIL; // __NR_clock_gettime (__NR_timer_create+6) GO(__NR_clock_gettime, "2s 1m"); SY(__NR_clock_gettime, x0, x0); FAIL; // __NR_clock_getres (__NR_timer_create+7) GO(__NR_clock_getres, "2s 1m"); SY(__NR_clock_getres, x0+1, x0+1); FAIL; FAIL; // __NR_clock_nanosleep (__NR_timer_create+8) GO(__NR_clock_nanosleep, "n/a"); //SY(__NR_clock_nanosleep); // (Not yet handled by Valgrind) FAIL; // __NR_statfs64 268 //GO(__NR_statfs64, "3s 2m"); //SY(__NR_statfs64, x0, x0+1, x0); FAIL; // __NR_fstatfs64 269 //GO(__NR_fstatfs64, "3s 1m"); //SY(__NR_fstatfs64, x0, x0+1, x0); FAIL; // __NR_tgkill 270 GO(__NR_tgkill, "n/a"); //SY(__NR_tgkill); // (Not yet handled by Valgrind) FAIL; // __NR_utimes arm64 only has utimensat //GO(__NR_utimes, "2s 2m"); //SY(__NR_utimes, x0, x0+1); FAIL; // __NR_fadvise64_64 272 //GO(__NR_fadvise64_64, "n/a"); //SY(__NR_fadvise64_64); // (Not yet handled by Valgrind) FAIL; // __NR_vserver 273 //GO(__NR_vserver, "ni"); //SY(__NR_vserver); FAIL; // __NR_mbind 274 GO(__NR_mbind, "n/a"); //SY(__NR_mbind); // (Not yet handled by Valgrind) FAIL; // __NR_get_mempolicy 275 GO(__NR_get_mempolicy, "n/a"); //SY(__NR_get_mempolicy); // (Not yet handled by Valgrind) FAIL; // __NR_set_mempolicy 276 GO(__NR_set_mempolicy, "n/a"); //SY(__NR_set_mempolicy); // (Not yet handled by Valgrind) FAIL; // __NR_mq_open 277 GO(__NR_mq_open, "4s 3m"); SY(__NR_mq_open, x0, x0+O_CREAT, x0, x0+1); FAIL; // __NR_mq_unlink (__NR_mq_open+1) GO(__NR_mq_unlink, "1s 1m"); SY(__NR_mq_unlink, x0); FAIL; // __NR_mq_timedsend (__NR_mq_open+2) GO(__NR_mq_timedsend, "5s 2m"); SY(__NR_mq_timedsend, x0, x0, x0+1, x0, x0+1); FAIL; // __NR_mq_timedreceive (__NR_mq_open+3) GO(__NR_mq_timedreceive, "5s 3m"); SY(__NR_mq_timedreceive, x0, x0, x0+1, x0+1, x0+1); FAIL; // __NR_mq_notify (__NR_mq_open+4) GO(__NR_mq_notify, "2s 1m"); SY(__NR_mq_notify, x0, x0+1); FAIL; // __NR_mq_getsetattr (__NR_mq_open+5) GO(__NR_mq_getsetattr, "3s 2m"); SY(__NR_mq_getsetattr, x0, x0+1, x0+1); FAIL; // __NR_kexec_load 283 GO(__NR_kexec_load, "ni"); SY(__NR_kexec_load); FAIL; // __NR_epoll_create1 329 GO(__NR_epoll_create1, "1s 0m"); SY(__NR_epoll_create1, x0); SUCC_OR_FAIL; // __NR_process_vm_readv 347 GO(__NR_process_vm_readv, "6s 2m"); SY(__NR_process_vm_readv, x0, x0, x0+1, x0, x0+1, x0); FAIL; // __NR_process_vm_writev 348 GO(__NR_process_vm_writev, "6s 2m"); SY(__NR_process_vm_writev, x0, x0, x0+1, x0, x0+1, x0); FAIL; // no such syscall... GO(9999, "1e"); SY(9999); FAIL; // __NR_exit 1 GO(__NR_exit, "1s 0m"); SY(__NR_exit, x0); FAIL; assert(0); }