NetBSD/sys/compat/svr4/syscalls.master
2003-01-18 08:44:26 +00:00

425 lines
15 KiB
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$NetBSD: syscalls.master,v 1.52 2003/01/18 08:44:27 thorpej Exp $
; @(#)syscalls.master 8.1 (Berkeley) 7/19/93
; NetBSD COMPAT_SVR4 system call name/number "master" file.
; (See syscalls.conf to see what it is processed into.)
;
; Fields: number type [type-dependent ...]
; number system call number, must be in order
; type one of STD, OBSOL, UNIMPL, NODEF, NOARGS, or one of
; the compatibility options defined in syscalls.conf.
;
; types:
; STD always included
; OBSOL obsolete, not included in system
; UNIMPL unimplemented, not included in system
; NODEF included, but don't define the syscall number
; NOARGS included, but don't define the syscall args structure
;
; The compat options are defined in the syscalls.conf file, and the
; compat option name is prefixed to the syscall name. Other than
; that, they're like NODEF (for 'compat' options), or STD (for
; 'libcompat' options).
;
; The type-dependent arguments are as follows:
; For STD, NODEF, NOARGS, and compat syscalls:
; { pseudo-proto } [alias]
; For other syscalls:
; [comment]
;
; #ifdef's, etc. may be included, and are copied to the output files.
; #include's are copied to the syscall names and switch definition files only.
#if defined(_KERNEL_OPT)
#include "opt_ntp.h"
#include "opt_sysv.h"
#endif
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/signal.h>
#include <sys/mount.h>
#include <sys/poll.h>
#include <sys/sa.h>
#include <sys/syscallargs.h>
#include <compat/svr4/svr4_types.h>
#include <compat/svr4/svr4_time.h>
#include <compat/svr4/svr4_signal.h>
#include <compat/svr4/svr4_ucontext.h>
#include <compat/svr4/svr4_lwp.h>
#include <compat/svr4/svr4_syscallargs.h>
#include <compat/svr4/svr4_statvfs.h>
#include <compat/svr4/svr4_resource.h>
#include <compat/svr4/svr4_acl.h>
%%
0 NOARGS { int sys_nosys(void); } syscall
1 NOARGS { int sys_exit(int rval); }
2 NOARGS { int sys_fork(void); }
3 NOARGS { int sys_read(int fd, char *buf, u_int nbyte); }
4 NOARGS { int sys_write(int fd, char *buf, u_int nbyte); }
5 STD { int svr4_sys_open(const char *path, int flags, \
int mode); }
6 NOARGS { int sys_close(int fd); }
7 STD { int svr4_sys_wait(int *status); }
8 STD { int svr4_sys_creat(const char *path, int mode); }
9 NOARGS { int sys_link(char *path, char *link); }
10 NOARGS { int sys_unlink(char *path); }
11 STD { int svr4_sys_execv(const char *path, char **argp); }
12 NOARGS { int sys_chdir(char *path); }
13 STD { int svr4_sys_time(svr4_time_t *t); }
14 STD { int svr4_sys_mknod(const char* path, int mode, \
int dev); }
15 NOARGS { int sys_chmod(char *path, int mode); }
16 NOARGS { int sys___posix_chown(char *path, int uid, \
int gid); } chown
17 STD { int svr4_sys_break(caddr_t nsize); }
18 STD { int svr4_sys_stat(const char* path, \
struct svr4_stat* ub); }
19 NOARGS { long compat_43_sys_lseek(int fd, long offset, \
int whence); }
20 NOARGS MPSAFE { pid_t sys_getpid(void); }
21 UNIMPL old_mount
22 UNIMPL System V umount
23 NOARGS { int sys_setuid(uid_t uid); }
24 NOARGS { uid_t sys_getuid_with_euid(void); }
25 UNIMPL stime
26 UNIMPL ptrace
27 STD { int svr4_sys_alarm(unsigned sec); }
28 STD { int svr4_sys_fstat(int fd, struct svr4_stat *sb); }
29 STD { int svr4_sys_pause(void); }
30 STD { int svr4_sys_utime(const char *path, \
struct svr4_utimbuf *ubuf); }
31 UNIMPL was stty
32 UNIMPL was gtty
33 STD { int svr4_sys_access(const char *path, int flags); }
34 STD { int svr4_sys_nice(int prio); }
35 UNIMPL statfs
36 NOARGS { int sys_sync(void); }
37 STD { int svr4_sys_kill(int pid, int signum); }
38 UNIMPL fstatfs
39 STD { int svr4_sys_pgrpsys(int cmd, int pid, int pgid); }
40 UNIMPL xenix
41 NOARGS { int sys_dup(u_int fd); }
42 NOARGS { int sys_pipe(void); }
43 STD { int svr4_sys_times(struct tms *tp); }
44 UNIMPL profil
45 UNIMPL plock
46 NOARGS { int sys_setgid(gid_t gid); }
47 NOARGS { gid_t sys_getgid_with_egid(void); }
48 STD { int svr4_sys_signal(int signum, svr4_sig_t handler); }
#ifdef SYSVMSG
49 STD { int svr4_sys_msgsys(int what, int a2, int a3, \
int a4, int a5); }
#else
49 UNIMPL msgsys
#endif
50 STD { int svr4_sys_sysarch(int op, void *a1); }
51 UNIMPL acct
#ifdef SYSVSHM
52 STD { int svr4_sys_shmsys(int what, int a2, int a3, \
int a4); }
#else
52 UNIMPL shmsys
#endif
#ifdef SYSVSEM
53 STD { int svr4_sys_semsys(int what, int a2, int a3, \
int a4, int a5); }
#else
53 UNIMPL semsys
#endif
54 STD { int svr4_sys_ioctl(int fd, u_long com, \
caddr_t data); }
55 UNIMPL uadmin
56 UNIMPL exch
57 STD { int svr4_sys_utssys(void *a1, void *a2, int sel, \
void *a3); }
58 NOARGS { int sys_fsync(int fd); }
59 STD { int svr4_sys_execve(const char *path, char **argp, \
char **envp); }
60 NOARGS { int sys_umask(int newmask); }
61 NOARGS { int sys_chroot(char *path); }
62 STD { int svr4_sys_fcntl(int fd, int cmd, char *arg); }
63 STD { long svr4_sys_ulimit(int cmd, long newlimit); }
64 UNIMPL reserved for unix/pc
65 UNIMPL reserved for unix/pc
66 UNIMPL reserved for unix/pc
67 UNIMPL reserved for unix/pc
68 UNIMPL reserved for unix/pc
69 UNIMPL reserved for unix/pc
70 OBSOL advfs
71 OBSOL unadvfs
72 OBSOL rmount
73 OBSOL rumount
74 OBSOL rfstart
75 OBSOL sigret
76 OBSOL rdebug
77 OBSOL rfstop
78 UNIMPL rfsys
79 NOARGS { int sys_rmdir(char *path); }
80 NOARGS { int sys_mkdir(char *path, int mode); }
81 STD { int svr4_sys_getdents(int fd, char *buf, \
int nbytes); }
82 OBSOL libattach
83 OBSOL libdetach
84 UNIMPL sysfs
85 STD { int svr4_sys_getmsg(int fd, struct svr4_strbuf *ctl, \
struct svr4_strbuf *dat, int *flags); }
86 STD { int svr4_sys_putmsg(int fd, struct svr4_strbuf *ctl, \
struct svr4_strbuf *dat, int flags); }
87 NOARGS { int sys_poll(struct pollfd *fds, u_int nfds, \
int timeout); }
88 STD { int svr4_sys_lstat(const char *path, \
struct svr4_stat *ub); }
89 NOARGS { int sys_symlink(char *path, char *link); }
90 NOARGS { int sys_readlink(char *path, char *buf, int count); }
91 NOARGS { int sys_getgroups(u_int gidsetsize, gid_t *gidset); }
92 NOARGS { int sys_setgroups(u_int gidsetsize, gid_t *gidset); }
93 NOARGS { int sys_fchmod(int fd, int mode); }
94 NOARGS { int sys___posix_fchown(int fd, int uid, int gid); } \
fchown
95 STD { int svr4_sys_sigprocmask(int how, \
const svr4_sigset_t *set, \
svr4_sigset_t *oset); }
96 STD { int svr4_sys_sigsuspend( \
const svr4_sigset_t *set); }
97 STD { int svr4_sys_sigaltstack( \
const struct svr4_sigaltstack *nss, \
struct svr4_sigaltstack *oss); }
98 STD { int svr4_sys_sigaction(int signum, \
const struct svr4_sigaction *nsa, \
struct svr4_sigaction *osa); }
99 STD { int svr4_sys_sigpending(int what, \
svr4_sigset_t *set); }
100 STD { int svr4_sys_context(int func, \
struct svr4_ucontext *uc); }
101 UNIMPL evsys
102 UNIMPL evtrapret
103 STD { int svr4_sys_statvfs(const char *path, \
struct svr4_statvfs *fs); }
104 STD { int svr4_sys_fstatvfs(int fd, \
struct svr4_statvfs *fs); }
105 UNIMPL
106 UNIMPL nfssvc
107 STD { int svr4_sys_waitsys(int grp, int id, \
union svr4_siginfo *info, int options); }
108 UNIMPL sigsendsys
109 STD { int svr4_sys_hrtsys(int cmd, int fun, int sub, \
void *rv1, void *rv2); }
110 UNIMPL acancel
111 UNIMPL async
112 UNIMPL priocntlsys
113 STD { int svr4_sys_pathconf(const char *path, int name); }
114 UNIMPL mincore
115 STD { void *svr4_sys_mmap(void *addr, \
svr4_size_t len, int prot, int flags, int fd, \
svr4_off_t pos); }
116 NOARGS { int sys_mprotect(void *addr, int len, int prot); }
117 NOARGS { int sys_munmap(void *addr, int len); }
118 STD { int svr4_sys_fpathconf(int fd, int name); }
119 NOARGS { int sys_vfork(void); }
120 NOARGS { int sys_fchdir(int fd); }
121 NOARGS { int sys_readv(int fd, struct iovec *iovp, \
u_int iovcnt); }
122 NOARGS { int sys_writev(int fd, struct iovec *iovp, \
u_int iovcnt); }
123 STD { int svr4_sys_xstat(int two, const char *path, \
struct svr4_xstat *ub); }
124 STD { int svr4_sys_lxstat(int two, const char *path, \
struct svr4_xstat *ub); }
125 STD { int svr4_sys_fxstat(int two, int fd, \
struct svr4_xstat *sb); }
126 STD { int svr4_sys_xmknod(int two, char *path, \
svr4_mode_t mode, svr4_dev_t dev); }
127 UNIMPL clocal
128 STD { int svr4_sys_setrlimit(int which, \
const struct svr4_rlimit *rlp); }
129 STD { int svr4_sys_getrlimit(int which, \
struct svr4_rlimit *rlp); }
130 NOARGS { int sys___posix_lchown(char *path, int uid, \
int gid); } lchown
131 STD { int svr4_sys_memcntl(void * addr, \
svr4_size_t len, int cmd, void * arg, \
int attr, int mask); }
132 UNIMPL getpmsg
133 UNIMPL putpmsg
134 NOARGS { int sys___posix_rename(char *from, char *to); } \
rename
135 STD { int svr4_sys_uname(struct svr4_utsname* name, \
int dummy); }
136 NOARGS { int sys_setegid(gid_t egid); }
137 STD { int svr4_sys_sysconfig(int name); }
138 NOARGS { int sys_adjtime(struct timeval *delta, \
struct timeval *olddelta); }
139 STD { long svr4_sys_systeminfo(int what, char *buf, \
long len); }
140 UNIMPL
141 NOARGS { int sys_seteuid(uid_t euid); }
142 UNIMPL vtrace
143 NOARGS { int sys_fork(void); } fork1
144 UNIMPL sigtimedwait
145 STD { int svr4_sys__lwp_info(struct svr4_lwpinfo *lwpinfo);}
146 UNIMPL yield
147 UNIMPL lwp_sema_wait
148 UNIMPL lwp_sema_post
149 UNIMPL lwp_sema_trywait
150 UNIMPL
151 UNIMPL
152 UNIMPL modctl
153 NOARGS { int sys_fchroot(int fd); }
154 STD { int svr4_sys_utimes(const char *path, \
struct timeval *tptr); }
155 STD { int svr4_sys_vhangup(void); }
156 STD { int svr4_sys_gettimeofday(struct timeval *tp); }
157 NOARGS { int sys_getitimer(u_int which, \
struct itimerval *itv); }
158 NOARGS { int sys_setitimer(u_int which, \
struct itimerval *itv, struct itimerval *oitv); }
159 STD { int svr4_sys__lwp_create(svr4_ucontext_t *uc, \
unsigned long flags, svr4_lwpid_t *lwpid); }
160 STD { int svr4_sys__lwp_exit(void); }
161 STD { int svr4_sys__lwp_suspend(svr4_lwpid_t lwpid); }
162 STD { int svr4_sys__lwp_continue(svr4_lwpid_t lwpid); }
163 STD { int svr4_sys__lwp_kill(svr4_lwpid_t lwpid, \
int signum); }
164 STD { svr4_lwpid_t svr4_sys__lwp_self(void); }
165 STD { void *svr4_sys__lwp_getprivate(void); }
166 STD { int svr4_sys__lwp_setprivate(void *buffer); }
167 STD { int svr4_sys__lwp_wait(svr4_lwpid_t wait_for, \
svr4_lwpid_t *departed_lwp); }
168 UNIMPL lwp_mutex_unlock
169 UNIMPL lwp_mutex_lock
170 UNIMPL lwp_cond_wait
171 UNIMPL lwp_cond_signal
172 UNIMPL lwp_cond_broadcast
173 STD { ssize_t svr4_sys_pread(int fd, void *buf, \
size_t nbyte, svr4_off_t off); }
174 STD { ssize_t svr4_sys_pwrite(int fd, const void *buf, \
size_t nbyte, svr4_off_t off); }
175 STD { svr4_off64_t svr4_sys_llseek(int fd, \
long offset1, long offset2, int whence); }
176 UNIMPL inst_sync
177 UNIMPL
178 UNIMPL kaio
179 UNIMPL
180 UNIMPL
181 UNIMPL
182 UNIMPL
183 UNIMPL
184 UNIMPL tsolsys
185 STD { int svr4_sys_acl(char *path, int cmd, int num, \
struct svr4_aclent *buf); }
186 STD { int svr4_sys_auditsys(int code, int a1, int a2, \
int a3, int a4, int a5); }
187 UNIMPL processor_bind
188 UNIMPL processor_info
189 UNIMPL p_online
190 UNIMPL sigqueue
191 UNIMPL clock_gettime
192 UNIMPL clock_settime
193 UNIMPL clock_getres
194 UNIMPL timer_create
195 UNIMPL timer_delete
196 UNIMPL timer_settime
197 UNIMPL timer_gettime
198 UNIMPL timer_getoverrun
199 NOARGS { int sys_nanosleep(const struct timespec *rqtp, \
struct timespec *rmtp); }
200 STD { int svr4_sys_facl(int fd, int cmd, int num, \
struct svr4_aclent *buf); }
201 UNIMPL door
202 NOARGS { int sys_setreuid(int ruid, int euid); }
203 NOARGS { int sys_setregid(int rgid, int egid); }
204 UNIMPL install_utrap
205 UNIMPL signotify
206 UNIMPL schedctl
207 UNIMPL pset
208 UNIMPL
209 STD { int svr4_sys_resolvepath(const char *path, \
char *buf, size_t bufsiz); }
210 UNIMPL signotifywait
211 UNIMPL lwp_sigredirect
212 UNIMPL lwp_alarm
213 STD { int svr4_sys_getdents64(int fd, \
struct svr4_dirent64 *dp, \
int nbytes); }
214 STD { void *svr4_sys_mmap64(void *addr, \
svr4_size_t len, int prot, int flags, int fd, \
svr4_off64_t pos); }
215 STD { int svr4_sys_stat64(const char* path, \
struct svr4_stat64 *sb); }
216 STD { int svr4_sys_lstat64(const char* path, \
struct svr4_stat64 *sb); }
217 STD { int svr4_sys_fstat64(int fd, \
struct svr4_stat64 *sb); }
218 STD { int svr4_sys_statvfs64(const char *path, \
struct svr4_statvfs64 *fs); }
219 STD { int svr4_sys_fstatvfs64(int fd, \
struct svr4_statvfs64 *fs); }
220 STD { int svr4_sys_setrlimit64(int which, \
const struct svr4_rlimit64 *rlp); }
221 STD { int svr4_sys_getrlimit64(int which, \
struct svr4_rlimit64 *rlp); }
222 STD { ssize_t svr4_sys_pread64(int fd, void *buf, \
size_t nbyte, svr4_off64_t off); }
223 STD { ssize_t svr4_sys_pwrite64(int fd, \
const void *buf, size_t nbyte, svr4_off64_t off); }
224 STD { int svr4_sys_creat64(char *path, int mode); }
225 STD { int svr4_sys_open64(char *path, int flags, \
int mode); }
226 UNIMPL rpcsys
227 UNIMPL
228 UNIMPL
229 UNIMPL
230 STD { int svr4_sys_socket(int domain, int type, \
int protocol); }
231 NOARGS { int sys_socketpair(int domain, int type, \
int protocol, int *rsv); }
232 NOARGS { int sys_bind(int s, const struct sockaddr *name, \
int namelen); }
233 NOARGS { int sys_listen(int s, int backlog); }
234 NOARGS { int compat_43_sys_accept(int s, \
struct sockaddr *name, int *anamelen); }
235 NOARGS { int sys_connect(int s, const struct sockaddr *name, \
int namelen); }
236 NOARGS { int sys_shutdown(int s, int how); }
237 NOARGS { int compat_43_sys_recv(int s, caddr_t buf, int len, \
int flags); }
238 NOARGS { ssize_t compat_43_sys_recvfrom(int s, void *buf, \
size_t len, int flags, struct sockaddr *from, \
int *fromlenaddr); }
239 NOARGS { ssize_t compat_43_sys_recvmsg(int s, \
struct msghdr *msg, int flags); }
240 NOARGS { int compat_43_sys_send(int s, caddr_t buf, int len, \
int flags); }
241 NOARGS { ssize_t compat_43_sys_sendmsg(int s, \
const struct msghdr *msg, int flags); }
242 NOARGS { ssize_t sys_sendto(int s, const void *buf, \
size_t len, int flags, const struct sockaddr *to, \
int tolen); }
243 NOARGS { int compat_43_sys_getpeername(int fdes, \
struct sockaddr *asa, int *alen); }
244 NOARGS { int compat_43_sys_getsockname(int fdes, \
struct sockaddr *asa, int *alen); }
245 NOARGS { int sys_getsockopt(int s, int level, int name, \
void *val, int *avalsize); }
246 NOARGS { int sys_setsockopt(int s, int level, int name, \
const void *val, int valsize); }
247 UNIMPL sockconfig
; For some reason, ntp_gettime doesn't want to raise SIGSYS when it's excluded.
248 NOARGS { int sys_ntp_gettime(struct ntptimeval *ntvp); }
#if defined(NTP) || !defined(_KERNEL)
249 NOARGS { int sys_ntp_adjtime(struct timex *tp); }
#else
249 EXCL ntp_adjtime
#endif
250 UNIMPL lwp_mutex_unlock
251 UNIMPL lwp_mutex_trylock
252 UNIMPL lwp_mutex_init
253 UNIMPL cladm
254 UNIMPL lwp_sigtimedwait
255 UNIMPL umount2