NetBSD/sys/kern/syscalls.master

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$NetBSD: syscalls.master,v 1.136 2004/01/29 02:00:03 tsarna Exp $
; @(#)syscalls.master 8.2 (Berkeley) 1/13/94
; NetBSD 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
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; the compatibility options defined in syscalls.conf.
;
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; An optional field, MPSAFE, after the type field, indicates that
; the system call is MP-safe.
;
; types:
; STD always included
; OBSOL obsolete, not included in system
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; UNIMPL unimplemented, not included in system
; EXCL implemented, but not included in system
; NODEF included, but don't define the syscall number
; NOARGS included, but don't define the syscall args structure
; INDIR included, but don't define the syscall args structure,
; and allow it to be "really" varargs.
;
; 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.
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#include "opt_ktrace.h"
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#include "opt_nfsserver.h"
#include "opt_ntp.h"
#include "opt_compat_netbsd.h"
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#include "opt_sysv.h"
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#include "opt_compat_43.h"
#include "opt_posix.h"
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#include "fs_lfs.h"
#include "fs_nfs.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/signal.h>
#include <sys/mount.h>
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#include <sys/sa.h>
#include <sys/syscallargs.h>
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%%
; Reserved/unimplemented system calls in the range 0-150 inclusive
; are reserved for use in future Berkeley releases.
; Additional system calls implemented in vendor and other
; redistributions should be placed in the reserved range at the end
; of the current calls.
0 INDIR { int sys_syscall(int number, ...); }
1 STD { void sys_exit(int rval); }
2 STD { int sys_fork(void); }
3 STD { ssize_t sys_read(int fd, void *buf, size_t nbyte); }
4 STD { ssize_t sys_write(int fd, const void *buf, \
size_t nbyte); }
5 STD { int sys_open(const char *path, \
int flags, ... mode_t mode); }
6 STD { int sys_close(int fd); }
7 STD { int sys_wait4(int pid, int *status, int options, \
struct rusage *rusage); }
8 COMPAT_43 { int sys_creat(const char *path, mode_t mode); } ocreat
9 STD { int sys_link(const char *path, const char *link); }
10 STD { int sys_unlink(const char *path); }
11 OBSOL execv
12 STD { int sys_chdir(const char *path); }
13 STD { int sys_fchdir(int fd); }
14 STD { int sys_mknod(const char *path, mode_t mode, \
dev_t dev); }
15 STD { int sys_chmod(const char *path, mode_t mode); }
16 STD { int sys_chown(const char *path, uid_t uid, \
gid_t gid); }
17 STD { int sys_obreak(char *nsize); } break
18 STD { int sys_getfsstat(struct statfs *buf, long bufsize, \
int flags); }
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19 COMPAT_43 { long sys_lseek(int fd, long offset, int whence); } \
olseek
#ifdef COMPAT_43
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20 STD { pid_t sys_getpid_with_ppid(void); } getpid
#else
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20 STD MPSAFE { pid_t sys_getpid(void); }
#endif
21 STD { int sys_mount(const char *type, const char *path, \
int flags, void *data); }
22 STD { int sys_unmount(const char *path, int flags); }
23 STD { int sys_setuid(uid_t uid); }
#ifdef COMPAT_43
24 STD { uid_t sys_getuid_with_euid(void); } getuid
#else
24 STD { uid_t sys_getuid(void); }
#endif
25 STD { uid_t sys_geteuid(void); }
26 STD { int sys_ptrace(int req, pid_t pid, caddr_t addr, \
int data); }
27 STD { ssize_t sys_recvmsg(int s, struct msghdr *msg, \
int flags); }
28 STD { ssize_t sys_sendmsg(int s, \
const struct msghdr *msg, int flags); }
29 STD { ssize_t sys_recvfrom(int s, void *buf, size_t len, \
int flags, struct sockaddr *from, \
unsigned int *fromlenaddr); }
30 STD { int sys_accept(int s, struct sockaddr *name, \
unsigned int *anamelen); }
31 STD { int sys_getpeername(int fdes, struct sockaddr *asa, \
unsigned int *alen); }
32 STD { int sys_getsockname(int fdes, struct sockaddr *asa, \
unsigned int *alen); }
33 STD { int sys_access(const char *path, int flags); }
34 STD { int sys_chflags(const char *path, u_long flags); }
35 STD { int sys_fchflags(int fd, u_long flags); }
36 STD { void sys_sync(void); }
37 STD { int sys_kill(int pid, int signum); }
38 COMPAT_43 { int sys_stat(const char *path, struct stat43 *ub); } \
stat43
39 STD { pid_t sys_getppid(void); }
40 COMPAT_43 { int sys_lstat(const char *path, \
struct stat43 *ub); } lstat43
41 STD { int sys_dup(int fd); }
42 STD { int sys_pipe(void); }
43 STD { gid_t sys_getegid(void); }
44 STD { int sys_profil(caddr_t samples, size_t size, \
u_long offset, u_int scale); }
#if defined(KTRACE) || !defined(_KERNEL)
45 STD { int sys_ktrace(const char *fname, int ops, \
int facs, int pid); }
#else
45 EXCL ktrace
#endif
46 COMPAT_13 { int sys_sigaction(int signum, \
const struct sigaction13 *nsa, \
struct sigaction13 *osa); } sigaction13
#ifdef COMPAT_43
47 STD { gid_t sys_getgid_with_egid(void); } getgid
#else
47 STD { gid_t sys_getgid(void); }
#endif
48 COMPAT_13 { int sys_sigprocmask(int how, \
int mask); } sigprocmask13
49 STD { int sys___getlogin(char *namebuf, size_t namelen); }
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50 STD { int sys___setlogin(const char *namebuf); }
51 STD { int sys_acct(const char *path); }
52 COMPAT_13 { int sys_sigpending(void); } sigpending13
53 COMPAT_13 { int sys_sigaltstack( \
const struct sigaltstack13 *nss, \
struct sigaltstack13 *oss); } sigaltstack13
54 STD { int sys_ioctl(int fd, \
u_long com, ... void *data); }
55 COMPAT_12 { int sys_reboot(int opt); } oreboot
56 STD { int sys_revoke(const char *path); }
57 STD { int sys_symlink(const char *path, \
const char *link); }
58 STD { int sys_readlink(const char *path, char *buf, \
size_t count); }
59 STD { int sys_execve(const char *path, \
char * const *argp, char * const *envp); }
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60 STD { mode_t sys_umask(mode_t newmask); }
61 STD { int sys_chroot(const char *path); }
62 COMPAT_43 { int sys_fstat(int fd, struct stat43 *sb); } fstat43
63 COMPAT_43 { int sys_getkerninfo(int op, char *where, int *size, \
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int arg); } ogetkerninfo
64 COMPAT_43 { int sys_getpagesize(void); } ogetpagesize
65 COMPAT_12 { int sys_msync(caddr_t addr, size_t len); }
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; XXX COMPAT_??? for 4.4BSD-compatible vfork(2)?
66 STD { int sys_vfork(void); }
67 OBSOL vread
68 OBSOL vwrite
69 STD { int sys_sbrk(intptr_t incr); }
70 STD { int sys_sstk(int incr); }
71 COMPAT_43 { int sys_mmap(caddr_t addr, size_t len, int prot, \
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int flags, int fd, long pos); } ommap
72 STD { int sys_ovadvise(int anom); } vadvise
73 STD { int sys_munmap(void *addr, size_t len); }
74 STD { int sys_mprotect(void *addr, size_t len, \
int prot); }
75 STD { int sys_madvise(void *addr, size_t len, \
int behav); }
76 OBSOL vhangup
77 OBSOL vlimit
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78 STD { int sys_mincore(void *addr, size_t len, \
char *vec); }
79 STD { int sys_getgroups(int gidsetsize, \
gid_t *gidset); }
80 STD { int sys_setgroups(int gidsetsize, \
const gid_t *gidset); }
81 STD { int sys_getpgrp(void); }
82 STD { int sys_setpgid(int pid, int pgid); }
83 STD { int sys_setitimer(int which, \
const struct itimerval *itv, \
struct itimerval *oitv); }
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84 COMPAT_43 { int sys_wait(void); } owait
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85 COMPAT_12 { int sys_swapon(const char *name); } oswapon
86 STD { int sys_getitimer(int which, \
struct itimerval *itv); }
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87 COMPAT_43 { int sys_gethostname(char *hostname, u_int len); } \
ogethostname
88 COMPAT_43 { int sys_sethostname(char *hostname, u_int len); } \
osethostname
89 COMPAT_43 { int sys_getdtablesize(void); } ogetdtablesize
90 STD { int sys_dup2(int from, int to); }
91 UNIMPL getdopt
92 STD { int sys_fcntl(int fd, int cmd, ... void *arg); }
93 STD { int sys_select(int nd, fd_set *in, fd_set *ou, \
fd_set *ex, struct timeval *tv); }
94 UNIMPL setdopt
95 STD { int sys_fsync(int fd); }
96 STD { int sys_setpriority(int which, int who, int prio); }
97 STD { int sys_socket(int domain, int type, int protocol); }
98 STD { int sys_connect(int s, const struct sockaddr *name, \
unsigned int namelen); }
99 COMPAT_43 { int sys_accept(int s, caddr_t name, \
int *anamelen); } oaccept
100 STD { int sys_getpriority(int which, int who); }
101 COMPAT_43 { int sys_send(int s, caddr_t buf, int len, \
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int flags); } osend
102 COMPAT_43 { int sys_recv(int s, caddr_t buf, int len, \
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int flags); } orecv
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103 COMPAT_13 { int sys_sigreturn(struct sigcontext13 *sigcntxp); } \
sigreturn13
104 STD { int sys_bind(int s, const struct sockaddr *name, \
unsigned int namelen); }
105 STD { int sys_setsockopt(int s, int level, int name, \
const void *val, unsigned int valsize); }
106 STD { int sys_listen(int s, int backlog); }
107 OBSOL vtimes
108 COMPAT_43 { int sys_sigvec(int signum, struct sigvec *nsv, \
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struct sigvec *osv); } osigvec
109 COMPAT_43 { int sys_sigblock(int mask); } osigblock
110 COMPAT_43 { int sys_sigsetmask(int mask); } osigsetmask
111 COMPAT_13 { int sys_sigsuspend(int mask); } sigsuspend13
112 COMPAT_43 { int sys_sigstack(struct sigstack *nss, \
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struct sigstack *oss); } osigstack
113 COMPAT_43 { int sys_recvmsg(int s, struct omsghdr *msg, \
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int flags); } orecvmsg
114 COMPAT_43 { int sys_sendmsg(int s, caddr_t msg, int flags); } \
osendmsg
115 OBSOL vtrace
116 STD { int sys_gettimeofday(struct timeval *tp, \
struct timezone *tzp); }
117 STD { int sys_getrusage(int who, struct rusage *rusage); }
118 STD { int sys_getsockopt(int s, int level, int name, \
void *val, unsigned int *avalsize); }
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119 OBSOL resuba
120 STD { ssize_t sys_readv(int fd, \
const struct iovec *iovp, int iovcnt); }
121 STD { ssize_t sys_writev(int fd, \
const struct iovec *iovp, int iovcnt); }
122 STD { int sys_settimeofday(const struct timeval *tv, \
const struct timezone *tzp); }
123 STD { int sys_fchown(int fd, uid_t uid, gid_t gid); }
124 STD { int sys_fchmod(int fd, mode_t mode); }
125 COMPAT_43 { int sys_recvfrom(int s, caddr_t buf, size_t len, \
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int flags, caddr_t from, int *fromlenaddr); } \
orecvfrom
126 STD { int sys_setreuid(uid_t ruid, uid_t euid); }
127 STD { int sys_setregid(gid_t rgid, gid_t egid); }
128 STD { int sys_rename(const char *from, const char *to); }
129 COMPAT_43 { int sys_truncate(const char *path, long length); } \
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otruncate
130 COMPAT_43 { int sys_ftruncate(int fd, long length); } oftruncate
131 STD { int sys_flock(int fd, int how); }
132 STD { int sys_mkfifo(const char *path, mode_t mode); }
133 STD { ssize_t sys_sendto(int s, const void *buf, \
size_t len, int flags, const struct sockaddr *to, \
unsigned int tolen); }
134 STD { int sys_shutdown(int s, int how); }
135 STD { int sys_socketpair(int domain, int type, \
int protocol, int *rsv); }
136 STD { int sys_mkdir(const char *path, mode_t mode); }
137 STD { int sys_rmdir(const char *path); }
138 STD { int sys_utimes(const char *path, \
const struct timeval *tptr); }
139 OBSOL 4.2 sigreturn
140 STD { int sys_adjtime(const struct timeval *delta, \
struct timeval *olddelta); }
141 COMPAT_43 { int sys_getpeername(int fdes, caddr_t asa, \
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int *alen); } ogetpeername
142 COMPAT_43 { int32_t sys_gethostid(void); } ogethostid
143 COMPAT_43 { int sys_sethostid(int32_t hostid); } osethostid
144 COMPAT_43 { int sys_getrlimit(int which, \
struct orlimit *rlp); } ogetrlimit
145 COMPAT_43 { int sys_setrlimit(int which, \
const struct orlimit *rlp); } osetrlimit
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146 COMPAT_43 { int sys_killpg(int pgid, int signum); } okillpg
147 STD { int sys_setsid(void); }
148 STD { int sys_quotactl(const char *path, int cmd, \
int uid, caddr_t arg); }
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149 COMPAT_43 { int sys_quota(void); } oquota
150 COMPAT_43 { int sys_getsockname(int fdec, caddr_t asa, \
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int *alen); } ogetsockname
; Syscalls 151-180 inclusive are reserved for vendor-specific
; system calls. (This includes various calls added for compatibity
; with other Unix variants.)
; Some of these calls are now supported by BSD...
151 UNIMPL
152 UNIMPL
153 UNIMPL
154 UNIMPL
#if defined(NFS) || defined(NFSSERVER) || !defined(_KERNEL)
155 STD { int sys_nfssvc(int flag, void *argp); }
#else
155 EXCL nfssvc
#endif
156 COMPAT_43 { int sys_getdirentries(int fd, char *buf, \
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u_int count, long *basep); } ogetdirentries
157 STD { int sys_statfs(const char *path, \
struct statfs *buf); }
158 STD { int sys_fstatfs(int fd, struct statfs *buf); }
159 UNIMPL
160 UNIMPL
161 STD { int sys_getfh(const char *fname, fhandle_t *fhp); }
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162 COMPAT_09 { int sys_getdomainname(char *domainname, int len); } \
ogetdomainname
163 COMPAT_09 { int sys_setdomainname(char *domainname, int len); } \
osetdomainname
164 COMPAT_09 { int sys_uname(struct outsname *name); } ouname
165 STD { int sys_sysarch(int op, void *parms); }
166 UNIMPL
167 UNIMPL
168 UNIMPL
; XXX more generally, never on machines where sizeof(void *) != sizeof(int)
#if (defined(SYSVSEM) || !defined(_KERNEL)) && !defined(_LP64)
169 COMPAT_10 { int sys_semsys(int which, int a2, int a3, int a4, \
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int a5); } osemsys
#else
169 EXCL 1.0 semsys
#endif
; XXX more generally, never on machines where sizeof(void *) != sizeof(int)
#if (defined(SYSVMSG) || !defined(_KERNEL)) && !defined(_LP64)
170 COMPAT_10 { int sys_msgsys(int which, int a2, int a3, int a4, \
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int a5, int a6); } omsgsys
#else
170 EXCL 1.0 msgsys
#endif
; XXX more generally, never on machines where sizeof(void *) != sizeof(int)
#if (defined(SYSVSHM) || !defined(_KERNEL)) && !defined(_LP64)
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171 COMPAT_10 { int sys_shmsys(int which, int a2, int a3, int a4); } \
oshmsys
#else
171 EXCL 1.0 shmsys
#endif
172 UNIMPL
173 STD { ssize_t sys_pread(int fd, void *buf, \
size_t nbyte, int pad, off_t offset); }
174 STD { ssize_t sys_pwrite(int fd, const void *buf, \
size_t nbyte, int pad, off_t offset); }
; For some reason, ntp_gettime doesn't want to raise SIGSYS when it's excluded.
175 STD { int sys_ntp_gettime(struct ntptimeval *ntvp); }
#if defined(NTP) || !defined(_KERNEL)
176 STD { int sys_ntp_adjtime(struct timex *tp); }
#else
176 EXCL ntp_adjtime
#endif
177 UNIMPL
178 UNIMPL
179 UNIMPL
180 UNIMPL
; Syscalls 180-199 are used by/reserved for BSD
181 STD { int sys_setgid(gid_t gid); }
182 STD { int sys_setegid(gid_t egid); }
183 STD { int sys_seteuid(uid_t euid); }
#if defined(LFS) || !defined(_KERNEL)
184 STD { int sys_lfs_bmapv(fsid_t *fsidp, \
struct block_info *blkiov, int blkcnt); }
185 STD { int sys_lfs_markv(fsid_t *fsidp, \
struct block_info *blkiov, int blkcnt); }
186 STD { int sys_lfs_segclean(fsid_t *fsidp, u_long segment); }
187 STD { int sys_lfs_segwait(fsid_t *fsidp, \
struct timeval *tv); }
#else
184 EXCL lfs_bmapv
185 EXCL lfs_markv
186 EXCL lfs_segclean
187 EXCL lfs_segwait
#endif
188 COMPAT_12 { int sys_stat(const char *path, struct stat12 *ub); } \
stat12
189 COMPAT_12 { int sys_fstat(int fd, struct stat12 *sb); } fstat12
190 COMPAT_12 { int sys_lstat(const char *path, \
struct stat12 *ub); } lstat12
191 STD { long sys_pathconf(const char *path, int name); }
192 STD { long sys_fpathconf(int fd, int name); }
193 UNIMPL
194 STD { int sys_getrlimit(int which, \
struct rlimit *rlp); }
195 STD { int sys_setrlimit(int which, \
const struct rlimit *rlp); }
196 COMPAT_12 { int sys_getdirentries(int fd, char *buf, \
u_int count, long *basep); }
197 STD { void *sys_mmap(void *addr, size_t len, int prot, \
int flags, int fd, long pad, off_t pos); }
198 INDIR { quad_t sys___syscall(quad_t num, ...); }
199 STD { off_t sys_lseek(int fd, int pad, off_t offset, \
int whence); }
200 STD { int sys_truncate(const char *path, int pad, \
off_t length); }
201 STD { int sys_ftruncate(int fd, int pad, off_t length); }
202 STD { int sys___sysctl(int *name, u_int namelen, \
void *old, size_t *oldlenp, void *new, \
size_t newlen); }
203 STD { int sys_mlock(const void *addr, size_t len); }
204 STD { int sys_munlock(const void *addr, size_t len); }
205 STD { int sys_undelete(const char *path); }
206 STD { int sys_futimes(int fd, \
const struct timeval *tptr); }
207 STD { pid_t sys_getpgid(pid_t pid); }
208 STD { int sys_reboot(int opt, char *bootstr); }
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209 STD { int sys_poll(struct pollfd *fds, u_int nfds, \
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int timeout); }
;
; Syscalls 210-219 are reserved for dynamically loaded syscalls
;
#if defined(LKM) || !defined(_KERNEL)
210 NODEF { int sys_lkmnosys(void); }
211 NODEF { int sys_lkmnosys(void); }
212 NODEF { int sys_lkmnosys(void); }
213 NODEF { int sys_lkmnosys(void); }
214 NODEF { int sys_lkmnosys(void); }
215 NODEF { int sys_lkmnosys(void); }
216 NODEF { int sys_lkmnosys(void); }
217 NODEF { int sys_lkmnosys(void); }
218 NODEF { int sys_lkmnosys(void); }
219 NODEF { int sys_lkmnosys(void); }
#else /* !LKM */
210 EXCL lkmnosys
211 EXCL lkmnosys
212 EXCL lkmnosys
213 EXCL lkmnosys
214 EXCL lkmnosys
215 EXCL lkmnosys
216 EXCL lkmnosys
217 EXCL lkmnosys
218 EXCL lkmnosys
219 EXCL lkmnosys
#endif /* !LKM */
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; System calls 220-300 are reserved for use by NetBSD
#if defined(SYSVSEM) || !defined(_KERNEL)
220 COMPAT_14 { int sys___semctl(int semid, int semnum, int cmd, \
union __semun *arg); }
221 STD { int sys_semget(key_t key, int nsems, int semflg); }
222 STD { int sys_semop(int semid, struct sembuf *sops, \
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size_t nsops); }
223 STD { int sys_semconfig(int flag); }
#else
220 EXCL compat_14_semctl
221 EXCL semget
222 EXCL semop
223 EXCL semconfig
#endif
#if defined(SYSVMSG) || !defined(_KERNEL)
224 COMPAT_14 { int sys_msgctl(int msqid, int cmd, \
struct msqid_ds14 *buf); }
225 STD { int sys_msgget(key_t key, int msgflg); }
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226 STD { int sys_msgsnd(int msqid, const void *msgp, \
size_t msgsz, int msgflg); }
227 STD { ssize_t sys_msgrcv(int msqid, void *msgp, \
size_t msgsz, long msgtyp, int msgflg); }
#else
224 EXCL compat_14_msgctl
225 EXCL msgget
226 EXCL msgsnd
227 EXCL msgrcv
#endif
#if defined(SYSVSHM) || !defined(_KERNEL)
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228 STD { void *sys_shmat(int shmid, const void *shmaddr, \
int shmflg); }
229 COMPAT_14 { int sys_shmctl(int shmid, int cmd, \
struct shmid_ds14 *buf); }
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230 STD { int sys_shmdt(const void *shmaddr); }
231 STD { int sys_shmget(key_t key, size_t size, int shmflg); }
#else
228 EXCL shmat
229 EXCL compat_14_shmctl
230 EXCL shmdt
231 EXCL shmget
#endif
232 STD { int sys_clock_gettime(clockid_t clock_id, \
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struct timespec *tp); }
233 STD { int sys_clock_settime(clockid_t clock_id, \
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const struct timespec *tp); }
234 STD { int sys_clock_getres(clockid_t clock_id, \
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struct timespec *tp); }
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235 STD { int sys_timer_create(clockid_t clock_id, \
struct sigevent *evp, timer_t *timerid); }
236 STD { int sys_timer_delete(timer_t timerid); }
237 STD { int sys_timer_settime(timer_t timerid, int flags, \
const struct itimerspec *value, \
struct itimerspec *ovalue); }
238 STD { int sys_timer_gettime(timer_t timerid, struct \
itimerspec *value); }
239 STD { int sys_timer_getoverrun(timer_t timerid); }
;
; Syscalls 240-269 are reserved for other IEEE Std1003.1b syscalls
;
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240 STD { int sys_nanosleep(const struct timespec *rqtp, \
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struct timespec *rmtp); }
241 STD { int sys_fdatasync(int fd); }
242 STD { int sys_mlockall(int flags); }
243 STD { int sys_munlockall(void); }
244 STD { int sys___sigtimedwait(const sigset_t *set, \
siginfo_t *info, \
struct timespec *timeout); }
245 UNIMPL sys_sigqueue
;
; Syscall 246 is free for any use
;
246 UNIMPL
#if defined(P1003_1B_SEMAPHORE) || (!defined(_KERNEL) && defined(_LIBC))
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247 STD { int sys__ksem_init(unsigned int value, semid_t *idp); }
248 STD { int sys__ksem_open(const char *name, int oflag, \
mode_t mode, unsigned int value, semid_t *idp); }
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249 STD { int sys__ksem_unlink(const char *name); }
250 STD { int sys__ksem_close(semid_t id); }
251 STD { int sys__ksem_post(semid_t id); }
252 STD { int sys__ksem_wait(semid_t id); }
253 STD { int sys__ksem_trywait(semid_t id); }
254 STD { int sys__ksem_getvalue(semid_t id, \
unsigned int *value); }
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255 STD { int sys__ksem_destroy(semid_t id); }
256 UNIMPL sys__ksem_timedwait
#else
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247 EXCL sys__ksem_init
248 EXCL sys__ksem_open
249 EXCL sys__ksem_unlink
250 EXCL sys__ksem_close
251 EXCL sys__ksem_post
252 EXCL sys__ksem_wait
253 EXCL sys__ksem_trywait
254 EXCL sys__ksem_getvalue
255 EXCL sys__ksem_destroy
256 UNIMPL sys__ksem_timedwait
#endif
257 UNIMPL sys_mq_open
258 UNIMPL sys_mq_close
259 UNIMPL sys_mq_unlink
260 UNIMPL sys_mq_getattr
261 UNIMPL sys_mq_setattr
262 UNIMPL sys_mq_notify
263 UNIMPL sys_mq_send
264 UNIMPL sys_mq_receive
265 UNIMPL sys_mq_timedsend
266 UNIMPL sys_mq_timedreceive
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267 UNIMPL
268 UNIMPL
269 UNIMPL
270 STD { int sys___posix_rename(const char *from, \
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const char *to); }
271 STD { int sys_swapctl(int cmd, const void *arg, int misc); }
272 STD { int sys_getdents(int fd, char *buf, size_t count); }
273 STD { int sys_minherit(void *addr, size_t len, \
int inherit); }
274 STD { int sys_lchmod(const char *path, mode_t mode); }
275 STD { int sys_lchown(const char *path, uid_t uid, \
gid_t gid); }
276 STD { int sys_lutimes(const char *path, \
const struct timeval *tptr); }
277 STD { int sys___msync13(void *addr, size_t len, int flags); }
278 STD { int sys___stat13(const char *path, struct stat *ub); }
279 STD { int sys___fstat13(int fd, struct stat *sb); }
280 STD { int sys___lstat13(const char *path, struct stat *ub); }
281 STD { int sys___sigaltstack14( \
const struct sigaltstack *nss, \
struct sigaltstack *oss); }
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282 STD { int sys___vfork14(void); }
283 STD { int sys___posix_chown(const char *path, uid_t uid, \
gid_t gid); }
284 STD { int sys___posix_fchown(int fd, uid_t uid, \
gid_t gid); }
285 STD { int sys___posix_lchown(const char *path, uid_t uid, \
gid_t gid); }
286 STD { pid_t sys_getsid(pid_t pid); }
287 STD { pid_t sys___clone(int flags, void *stack); }
#if defined(KTRACE) || !defined(_KERNEL)
288 STD { int sys_fktrace(const int fd, int ops, \
int facs, int pid); }
#else
288 EXCL ktrace
#endif
289 STD { ssize_t sys_preadv(int fd, \
const struct iovec *iovp, int iovcnt, \
int pad, off_t offset); }
290 STD { ssize_t sys_pwritev(int fd, \
const struct iovec *iovp, int iovcnt, \
int pad, off_t offset); }
291 COMPAT_16 { int sys___sigaction14(int signum, \
const struct sigaction *nsa, \
struct sigaction *osa); }
292 STD { int sys___sigpending14(sigset_t *set); }
293 STD { int sys___sigprocmask14(int how, \
const sigset_t *set, \
sigset_t *oset); }
294 STD { int sys___sigsuspend14(const sigset_t *set); }
#if defined(__HAVE_SIGINFO)
295 COMPAT_16 { int sys___sigreturn14(struct sigcontext *sigcntxp); }
#else
295 STD { int sys___sigreturn14(struct sigcontext *sigcntxp); }
#endif
296 STD { int sys___getcwd(char *bufp, size_t length); }
297 STD { int sys_fchroot(int fd); }
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298 STD { int sys_fhopen(const fhandle_t *fhp, int flags); }
299 STD { int sys_fhstat(const fhandle_t *fhp, \
struct stat *sb); }
300 STD { int sys_fhstatfs(const fhandle_t *fhp, \
struct statfs *buf); }
#if defined(SYSVSEM) || !defined(_KERNEL)
301 STD { int sys_____semctl13(int semid, int semnum, int cmd, \
... union __semun *arg); }
#else
301 EXCL ____semctl13
#endif
#if defined(SYSVMSG) || !defined(_KERNEL)
302 STD { int sys___msgctl13(int msqid, int cmd, \
struct msqid_ds *buf); }
#else
302 EXCL __msgctl13
#endif
#if defined(SYSVSHM) || !defined(_KERNEL)
303 STD { int sys___shmctl13(int shmid, int cmd, \
struct shmid_ds *buf); }
#else
303 EXCL __shmctl13
#endif
304 STD { int sys_lchflags(const char *path, u_long flags); }
305 STD { int sys_issetugid(void); }
306 STD { int sys_utrace(const char *label, void *addr, \
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size_t len); }
307 STD { int sys_getcontext(struct __ucontext *ucp); }
308 STD { int sys_setcontext(const struct __ucontext *ucp); }
309 STD { int sys__lwp_create(const struct __ucontext *ucp, \
u_long flags, lwpid_t *new_lwp); }
310 STD { int sys__lwp_exit(void); }
311 STD { lwpid_t sys__lwp_self(void); }
312 STD { int sys__lwp_wait(lwpid_t wait_for, \
lwpid_t *departed); }
313 STD { int sys__lwp_suspend(lwpid_t target); }
314 STD { int sys__lwp_continue(lwpid_t target); }
315 STD { int sys__lwp_wakeup(lwpid_t target); }
316 STD { void *sys__lwp_getprivate(void); }
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317 STD { void sys__lwp_setprivate(void *ptr); }
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; Syscalls 318-329 reserved for remaining Solaris-compatible LWP calls.
318 UNIMPL
319 UNIMPL
320 UNIMPL
321 UNIMPL
322 UNIMPL
323 UNIMPL
324 UNIMPL
325 UNIMPL
326 UNIMPL
327 UNIMPL
328 UNIMPL
329 UNIMPL
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; Scheduler activation syscalls
330 STD { int sys_sa_register(sa_upcall_t new, \
kernel part of no-syscall upcall stack return: libpthread registers an offset between ss_sp and struct sa_stackinfo_t (located in struct __pthread_st) when calling sa_register. The kernel increments the sast_gen counter in struct sastack when an upcall stack is used. libpthread increments the sasi_stackgen counter in struct sa_stackinfo_t when an upcall stack is freed. The kernel compares the two counters to decide if a stack is free or in use. - add struct sa_stackinfo_t with sasi_stackgen to count stack use in userland - add sast_gen to struct sastack to count stack use in kernel - add SA_FLAG_STACKINFO to enable the stackinfo_offset argument in the sa_register syscall - add sa_stackinfo_offset to struct sadata for offset between ss_sp and struct sa_stackinfo_t - add ssize_t stackinfo_offset argument to sa_register, initialize struct sadata's sa_stackinfo_offset from it if SA_FLAG_STACKINFO is set - add sa_getstack, sa_getstack0, sa_stackused and sa_setstackfree functions to find/use/free upcall stacks and use these where appropriate - don't record stack for upcall in sa_upcall0 - pass sau to sa_switchcall instead of l2 (l2 = curlwp in sa_switchcall) - add sa_vp_blocker to struct sadata to pass recently blocked lwp to sa_switchcall - delay finding a stack for blocked upcalls to sa_switchcall - add sa_stacknext to struct sadata pointing to next most likely free upcall stack; also g/c sa_stackslist in struct sadata and sast_list in struct sastack - add L_SA_WOKEN flag: LWP is on sa_woken queue - add L_SA_RECYCLE flag: LWP should be recycled in sa_setwoken - replace l_upcallstack with L_SA_WOKEN/L_SA_RECYCLE/L_SA_BLOCKING flags - g/c now unused sast_blocker in struct sastack - make sa_switchcall, sa_upcall0 and sa_upcall_getstate static in kern_sa.c - call sa_upcall_userret only once in userret - split sa_makeupcalls out of sa_upcall_userret and use to process the sa_upcalls queue - on process exit: mark LWPs sleeping in saunblock interruptible; also there are no LWPs sleeping on l->l_upcallstack anymore; also clear sa_wokenq_head to prevent unblocked upcalls additional changes: - cleanup timerupcall sa_vp == curlwp check - add check in sa_yield if we didn't block on our way here and we wouldn't any longer be the LWP on the VP - invalidate sa_vp_ofaultaddr after resolving pagefault
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sa_upcall_t *old, int flags, \
ssize_t stackinfo_offset); }
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331 STD { int sys_sa_stacks(int num, stack_t *stacks); }
332 STD { int sys_sa_enable(void); }
333 STD { int sys_sa_setconcurrency(int concurrency); }
334 STD { int sys_sa_yield(void); }
335 STD { int sys_sa_preempt(int sa_id); }
336 STD { int sys_sa_unblockyield(int sa_id, \
void *up_preempted, stack_t *up_stack); }
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;
; Syscalls 337-339 are reserved for other scheduler activation syscalls.
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;
337 UNIMPL
338 UNIMPL
339 UNIMPL
340 STD { int sys___sigaction_sigtramp(int signum, \
const struct sigaction *nsa, \
struct sigaction *osa, \
const void *tramp, int vers); }
341 STD { int sys_pmc_get_info(int ctr, int op, void *args); }
342 STD { int sys_pmc_control(int ctr, int op, void *args); }
343 STD { int sys_rasctl(caddr_t addr, size_t len, int op); }
344 STD { int sys_kqueue(void); }
345 STD { int sys_kevent(int fd, \
const struct kevent *changelist, size_t nchanges, \
struct kevent *eventlist, size_t nevents, \
const struct timespec *timeout); }
;
; Syscalls 346-353 are reserved for the IEEE Std1003.1b scheduling syscalls
;
346 UNIMPL sys_sched_setparam
347 UNIMPL sys_sched_getparam
348 UNIMPL sys_sched_setscheduler
349 UNIMPL sys_sched_getscheduler
350 UNIMPL sys_sched_yield
351 UNIMPL sys_sched_get_priority_max
352 UNIMPL sys_sched_get_priority_min
353 UNIMPL sys_sched_rr_get_interval
354 STD { int sys_fsync_range(int fd, int flags, off_t start, \
off_t length); }
355 STD { int sys_uuidgen(struct uuid *store, int count); }