NetBSD/sys/compat/hpux/syscalls.master
1997-10-17 18:39:14 +00:00

453 lines
14 KiB
Plaintext

$NetBSD: syscalls.master,v 1.15 1997/10/17 18:39:14 scottr Exp $
; @(#)syscalls.master 8.1 (Berkeley) 7/19/93
; NetBSD COMPAT_HPUX 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 switch definition file only.
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/signal.h>
#include <sys/mount.h>
#include <sys/exec.h>
#include <sys/poll.h>
#include <sys/syscallargs.h>
#include <compat/hpux/hpux.h>
#include <compat/hpux/hpux_syscallargs.h>
#include <machine/hpux_machdep.h>
0 NOARGS { int sys_nosys(void); } syscall
1 NOARGS { int sys_exit(int rval); }
2 STD { int hpux_sys_fork(void); }
3 STD { int hpux_sys_read(int fd, char *buf, u_int nbyte); }
4 STD { int hpux_sys_write(int fd, char *buf, u_int nbyte); }
5 STD { int hpux_sys_open(char *path, int flags, int mode); }
6 NOARGS { int sys_close(int fd); }
7 STD { int hpux_sys_wait(int *status); }
8 STD { int hpux_sys_creat(char *path, int mode); }
9 NOARGS { int sys_link(char *path, char *link); }
10 STD { int hpux_sys_unlink(char *path); }
11 STD { int hpux_sys_execv(char * path, char **argp); }
12 STD { int hpux_sys_chdir(char *path); }
13 STD { int hpux_sys_time_6x(time_t *t); }
14 STD { int hpux_sys_mknod(char *path, int mode, int dev); }
15 STD { int hpux_sys_chmod(char *path, int mode); }
16 STD { int hpux_sys_chown(char *path, int uid, int gid); }
17 NOARGS { int sys_obreak(char *nsize); }
18 STD { int hpux_sys_stat_6x(char *path, \
struct hpux_ostat *sb); }
19 NOARGS { long compat_43_sys_lseek(int fd, long offset, \
int whence); }
20 NOARGS { pid_t sys_getpid(void); }
21 UNIMPL mount
22 UNIMPL umount
23 NOARGS { int sys_setuid(uid_t uid); }
24 NOARGS { uid_t sys_getuid(void); }
25 STD { int hpux_sys_stime_6x(int time); }
#if 0
26 STD { int hpux_sys_ptrace(int req, int pid, int *addr, \
int data); }
#else
26 UNIMPL ptrace
#endif
27 STD { int hpux_sys_alarm_6x(int deltat); }
28 STD { int hpux_sys_fstat_6x(int fd, \
struct hpux_ostat *sb); }
29 STD { int hpux_sys_pause_6x(void); }
30 STD { int hpux_sys_utime_6x(char *fname, time_t *tptr); }
31 STD { int hpux_sys_stty_6x(int fd, caddr_t arg); }
32 STD { int hpux_sys_gtty_6x(int fd, caddr_t arg); }
33 STD { int hpux_sys_access(char *path, int flags); }
34 STD { int hpux_sys_nice_6x(int nval); }
35 STD { int hpux_sys_ftime_6x(struct hpux_timeb *tp); }
36 NOARGS { int sys_sync(void); }
37 STD { int hpux_sys_kill(pid_t pid, int signo); }
38 STD { int hpux_sys_stat(char *path, struct hpux_stat *sb); }
39 STD { int hpux_sys_setpgrp_6x(void); }
40 STD { int hpux_sys_lstat(char *path, struct hpux_stat *sb); }
41 STD { int hpux_sys_dup(int fd); }
42 NOARGS { int sys_pipe(void); }
43 STD { int hpux_sys_times_6x(struct tms *tms); }
44 NOARGS { int sys_profil(caddr_t samples, u_int size, \
u_int offset, u_int scale); }
45 UNIMPL ki_syscall
46 NOARGS { int sys_setgid(gid_t gid); }
47 NOARGS { gid_t sys_getgid(void); }
48 STD { int hpux_sys_ssig_6x(int signo, sig_t fun); }
49 UNIMPL reserved for USG
50 UNIMPL reserved for USG
51 UNIMPL acct
52 UNIMPL
53 UNIMPL
54 STD { int hpux_sys_ioctl(int fd, int com, caddr_t data); }
55 UNIMPL reboot
56 STD { int hpux_sys_symlink(char *path, char *link); }
57 STD { int hpux_sys_utssys(struct hpux_utsname *uts, \
int dev, int request); }
58 STD { int hpux_sys_readlink(char *path, char *buf, \
int count); }
59 STD { int hpux_sys_execve(char *path, char **argp, \
char **envp); }
60 NOARGS { int sys_umask(int newmask); }
61 NOARGS { int sys_chroot(char *path); }
62 STD { int hpux_sys_fcntl(int fd, int cmd, int arg); }
63 STD { int hpux_sys_ulimit(int cmd, int newlimit); }
64 UNIMPL
65 UNIMPL
66 STD { int hpux_sys_vfork(void); }
67 NOARGS { int hpux_sys_read(int fd, char *buf, u_int nbyte); } vread
68 NOARGS { int hpux_sys_write(int fd, char *buf, u_int nbyte); } vwrite
69 UNIMPL
70 UNIMPL
71 STD { int hpux_sys_mmap(caddr_t addr, size_t len, \
int prot, int flags, int fd, long pos); }
72 UNIMPL
73 NOARGS { int sys_munmap(caddr_t addr, size_t len); }
74 NOARGS { int sys_mprotect(caddr_t addr, size_t len, \
int prot); }
75 UNIMPL
76 UNIMPL
77 UNIMPL
78 UNIMPL
79 NOARGS { int sys_getgroups(u_int gidsetsize, gid_t *gidset); }
80 NOARGS { int sys_setgroups(u_int gidsetsize, gid_t *gidset); }
81 STD { int hpux_sys_getpgrp2(pid_t pid); }
82 STD { int hpux_sys_setpgrp2(pid_t pid, pid_t pgid); }
83 NOARGS { int sys_setitimer(u_int which, \
struct itimerval *itv, struct itimerval *oitv); }
84 STD { int hpux_sys_wait3(int *status, int options, \
int rusage); }
85 UNIMPL swapon
86 NOARGS { int sys_getitimer(u_int which, \
struct itimerval *itv); }
87 UNIMPL
88 UNIMPL
89 UNIMPL
90 NOARGS { int sys_dup2(u_int from, u_int to); }
91 UNIMPL
92 STD { int hpux_sys_fstat(int fd, struct hpux_stat *sb); }
93 NOARGS { int sys_select(u_int nd, fd_set *in, fd_set *ou, \
fd_set *ex, struct timeval *tv); }
94 UNIMPL
95 NOARGS { int sys_fsync(int fd); }
96 UNIMPL
97 UNIMPL
98 UNIMPL
99 UNIMPL
100 UNIMPL
101 UNIMPL
102 UNIMPL
103 STD { int hpux_sys_sigreturn(struct hpuxsigcontext \
*sigcntxp); }
104 UNIMPL
105 UNIMPL
106 UNIMPL
107 UNIMPL
108 STD { int hpux_sys_sigvec(int signo, struct sigvec *nsv, \
struct sigvec *osv); }
109 STD { int hpux_sys_sigblock(int mask); }
110 STD { int hpux_sys_sigsetmask(int mask); }
111 STD { int hpux_sys_sigpause(int mask); }
112 NOARGS { int compat_43_sys_sigstack(struct sigstack *nss, \
struct sigstack *oss); }
113 UNIMPL
114 UNIMPL
115 UNIMPL
116 NOARGS { int sys_gettimeofday(struct timeval *tp); }
117 UNIMPL
118 UNIMPL
119 UNIMPL io_stub
120 STD { int hpux_sys_readv(int fd, struct iovec *iovp, \
u_int iovcnt); }
121 STD { int hpux_sys_writev(int fd, struct iovec *iovp, \
u_int iovcnt); }
122 NOARGS { int sys_settimeofday(struct timeval *tv, \
struct timezone *tzp); }
123 NOARGS { int sys_fchown(int fd, int uid, int gid); }
124 NOARGS { int sys_fchmod(int fd, int mode); }
125 UNIMPL
126 STD { int hpux_sys_setresuid(uid_t r, uid_t e, uid_t s); }
127 STD { int hpux_sys_setresgid(gid_t r, gid_t e, gid_t s); }
128 STD { int hpux_sys_rename(char *from, char *to); }
129 STD { int hpux_sys_truncate(char *path, long length); }
130 NOARGS { int compat_43_sys_ftruncate(int fd, long length); }
131 UNIMPL
132 STD { int hpux_sys_sysconf(int name); }
133 UNIMPL
134 UNIMPL
135 UNIMPL
136 STD { int hpux_sys_mkdir(char *path, int mode); }
137 STD { int hpux_sys_rmdir(char *path); }
138 UNIMPL
139 UNIMPL
140 UNIMPL
141 UNIMPL
142 UNIMPL
143 UNIMPL
144 STD { int hpux_sys_getrlimit(u_int which, \
struct orlimit *rlp); }
145 STD { int hpux_sys_setrlimit(u_int which, \
struct orlimit *rlp); }
146 UNIMPL
147 UNIMPL
148 UNIMPL
149 UNIMPL
150 UNIMPL
151 UNIMPL privgrp
152 STD { int hpux_sys_rtprio(pid_t pid, int prio); }
153 UNIMPL plock
154 STD { int hpux_sys_netioctl(int call, int *args); }
155 STD { int hpux_sys_lockf(int fd, int func, long size); }
#ifdef SYSVSEM
156 NOARGS { int sys_semget(key_t key, int nsems, int semflg); }
157 NOARGS { int sys___semctl(int semid, int semnum, int cmd, \
union semun *arg); }
158 NOARGS { int sys_semop(int semid, struct sembuf *sops, \
u_int nsops); }
#else
156 UNIMPL semget
157 UNIMPL semctl
158 UNIMPL semop
#endif
#ifdef SYSVMSG
159 NOARGS { int sys_msgget(key_t key, int msgflg); }
160 NOARGS { int sys_msgctl(int msqid, int cmd, \
struct msqid_ds *buf); }
161 NOARGS { int sys_msgsnd(int msqid, void *msgp, size_t msgsz, \
int msgflg); }
162 NOARGS { int sys_msgrcv(int msqid, void *msgp, size_t msgsz, \
long msgtyp, int msgflg); }
#else
159 UNIMPL msgget
160 UNIMPL msgctl
161 UNIMPL msgsnd
162 UNIMPL msgrcv
#endif
#ifdef SYSVSHM
163 NOARGS { int sys_shmget(key_t key, int size, int shmflg); }
164 STD { int hpux_sys_shmctl(int shmid, int cmd, \
caddr_t buf); }
165 NOARGS { int sys_shmat(int shmid, void *shmaddr, int shmflg); }
166 NOARGS { int sys_shmdt(void *shmaddr); }
#else
163 UNIMPL shmget
164 UNIMPL shmctl
165 UNIMPL shmat
166 UNIMPL shmdt
#endif
167 STD { int hpux_sys_advise(int arg); }
168 UNIMPL nsp_init
169 UNIMPL cluster
170 UNIMPL mkrnod
171 UNIMPL
172 UNIMPL unsp_open
173 UNIMPL
174 STD { int hpux_sys_getcontext(char *buf, int len); }
175 UNIMPL
176 UNIMPL
177 UNIMPL
178 UNIMPL lsync
179 UNIMPL
180 UNIMPL mysite
181 UNIMPL sitels
182 UNIMPL
183 UNIMPL
184 UNIMPL dskless_stats
185 UNIMPL
186 UNIMPL setacl
187 UNIMPL fsetacl
188 UNIMPL getacl
189 UNIMPL fgetacl
190 STD { int hpux_sys_getaccess(char *path, uid_t uid, \
int ngroups, gid_t *gidset, void *label, \
void *privs); }
191 UNIMPL getaudid
192 UNIMPL setaudid
193 UNIMPL getaudproc
194 UNIMPL setaudproc
195 UNIMPL getevent
196 UNIMPL setevent
197 UNIMPL audwrite
198 UNIMPL audswitch
199 UNIMPL audctl
200 STD { int hpux_sys_waitpid(pid_t pid, int *status, \
int options, struct rusage *rusage); }
201 UNIMPL
202 UNIMPL
203 UNIMPL
204 UNIMPL
205 UNIMPL
206 UNIMPL
207 UNIMPL
208 UNIMPL
209 UNIMPL
210 UNIMPL
211 UNIMPL
212 UNIMPL
213 UNIMPL
214 UNIMPL
215 UNIMPL
216 UNIMPL
217 UNIMPL
218 UNIMPL
219 UNIMPL
220 UNIMPL
221 UNIMPL
222 UNIMPL
223 UNIMPL
224 UNIMPL
225 NOARGS { int sys_pathconf(char *path, int name); }
226 NOARGS { int sys_fpathconf(int fd, int name); }
227 UNIMPL
228 UNIMPL
229 UNIMPL async_daemon
230 UNIMPL nfs_fcntl
231 NOARGS { int compat_43_sys_getdirentries(int fd, char *buf, \
u_int count, long *basep); }
232 NOARGS { int compat_09_sys_getdomainname(char *domainname, \
int len); }
233 UNIMPL nfs_getfh
234 UNIMPL vfsmount
235 UNIMPL nfs_svc
236 NOARGS { int compat_09_sys_setdomainname(char *domainname, \
int len); }
237 UNIMPL statfs
238 UNIMPL fstatfs
239 STD { int hpux_sys_sigaction(int signo, \
struct hpux_sigaction *nsa, \
struct hpux_sigaction *osa); }
240 STD { int hpux_sys_sigprocmask(int how, \
hpux_sigset_t *set, hpux_sigset_t *oset); }
241 STD { int hpux_sys_sigpending(hpux_sigset_t *set); }
242 STD { int hpux_sys_sigsuspend(hpux_sigset_t *set); }
243 UNIMPL fsctl
244 UNIMPL
245 UNIMPL pstat
246 UNIMPL
247 UNIMPL
248 UNIMPL
249 UNIMPL
250 UNIMPL
251 UNIMPL
252 UNIMPL
253 UNIMPL
254 UNIMPL
255 UNIMPL
256 UNIMPL
257 UNIMPL
258 UNIMPL
259 UNIMPL
260 UNIMPL
261 UNIMPL
262 UNIMPL
263 UNIMPL
264 UNIMPL
265 UNIMPL
266 UNIMPL
267 UNIMPL
268 NOARGS { int compat_43_sys_getdtablesize(void); }
269 NOARGS { int sys_poll(struct pollfd *fds, u_int nfds, \
int timeout); }
270 UNIMPL
271 UNIMPL
272 NOARGS { int sys_fchdir(int fd); }
273 UNIMPL
274 UNIMPL
275 NOARGS { int compat_43_sys_accept(int s, caddr_t name, \
int *anamelen); }
276 NOARGS { int sys_bind(int s, caddr_t name, int namelen); }
277 NOARGS { int sys_connect(int s, caddr_t name, int namelen); }
278 NOARGS { int compat_43_sys_getpeername(int fdes, caddr_t asa, \
int *alen); }
279 NOARGS { int compat_43_sys_getsockname(int fdec, caddr_t asa, \
int *alen); }
280 NOARGS { int sys_getsockopt(int s, int level, int name, \
caddr_t val, int *avalsize); }
281 NOARGS { int sys_listen(int s, int backlog); }
282 NOARGS { int compat_43_sys_recv(int s, caddr_t buf, int len, \
int flags); }
283 NOARGS { int compat_43_sys_recvfrom(int s, caddr_t buf, \
size_t len, int flags, caddr_t from, \
int *fromlenaddr); }
284 NOARGS { int compat_43_sys_recvmsg(int s, \
struct omsghdr *msg, int flags); }
285 NOARGS { int compat_43_sys_send(int s, caddr_t buf, int len, \
int flags); }
286 NOARGS { int compat_43_sys_sendmsg(int s, caddr_t msg, \
int flags); }
287 NOARGS { int sys_sendto(int s, caddr_t buf, size_t len, \
int flags, caddr_t to, int tolen); }
288 STD { int hpux_sys_setsockopt2(int s, int level, int name, \
caddr_t val, int valsize); }
289 NOARGS { int sys_shutdown(int s, int how); }
290 NOARGS { int sys_socket(int domain, int type, int protocol); }
291 NOARGS { int sys_socketpair(int domain, int type, \
int protocol, int *rsv); }
292 UNIMPL
293 UNIMPL
294 UNIMPL
295 UNIMPL
296 UNIMPL
297 UNIMPL
298 UNIMPL
299 UNIMPL
300 UNIMPL
301 UNIMPL
302 UNIMPL
303 UNIMPL
304 UNIMPL
305 UNIMPL
306 UNIMPL
307 UNIMPL
308 UNIMPL
309 UNIMPL
310 UNIMPL
311 UNIMPL
#ifdef SYSVSEM
312 NOARGS { int sys___semctl(int semid, int semnum, int cmd, \
union semun *arg); } nsemctl
#else
312 UNIMPL semctl
#endif
#ifdef SYSVMSG
313 NOARGS { int sys_msgctl(int msqid, int cmd, \
struct msqid_ds *buf); } nmsgctl
#else
313 UNIMPL msgctl
#endif
#ifdef SYSVSHM
314 STD { int hpux_sys_nshmctl(int shmid, int cmd, \
caddr_t buf); }
#else
314 UNIMPL shmctl
#endif