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1994-05-24 10:09:53 +00:00
; System call name/number master file.
; Processed to created init_sysent.c, syscalls.c and syscall.h.
; New FreeBSD system calls should be added to the bottom of this file.
; Columns: number audit type name alt{name,tag,rtyp}/comments
1994-05-24 10:09:53 +00:00
; number system call number, must be in order
; audit the audit event associated with the system call
; A value of AUE_NULL means no auditing, but it also means that
; there is no audit event for the call at this time. For the
; case where the event exists, but we don't want auditing, the
; event should be #defined to AUE_NULL in audit_kevents.h.
; type one of STD, OBSOL, RESERVED, UNIMPL, SYSMUX, COMPAT*,
; NODEF, NOARGS, NOPROTO, NOSTD
; The COMPAT* options may be combined with one or more NO*
; options separated by '|' with no spaces (e.g. COMPAT|NOARGS)
; The CAPENABLED option may be ORed into a type.
; name pseudo-prototype of syscall routine
; If one of the following alts is different, then all appear:
1994-05-24 10:09:53 +00:00
; altname name of system call if different
; alttag name of args struct tag if different from [o]`name'"_args"
; altrtyp return type if not int (bogus - syscalls always return int)
1994-05-24 10:09:53 +00:00
; for UNIMPL/OBSOL, name continues with comments
; types:
; STD always included
; COMPAT included on COMPAT #ifdef
; COMPAT4 included on COMPAT_FREEBSD4 #ifdef (FreeBSD 4 compat)
; COMPAT6 included on COMPAT_FREEBSD6 #ifdef (FreeBSD 6 compat)
; COMPAT7 included on COMPAT_FREEBSD7 #ifdef (FreeBSD 7 compat)
; COMPAT10 included on COMPAT_FREEBSD10 #ifdef (FreeBSD 10 compat)
; COMPAT11 included on COMPAT_FREEBSD11 #ifdef (FreeBSD 11 compat)
; COMPAT12 included on COMPAT_FREEBSD12 #ifdef (FreeBSD 12 compat)
; COMPAT13 included on COMPAT_FREEBSD13 #ifdef (FreeBSD 13 compat)
; COMPAT14 included on COMPAT_FREEBSD14 #ifdef (FreeBSD 14 compat)
1994-05-24 10:09:53 +00:00
; OBSOL obsolete, not included in system, only specifies name
; RESERVED reserved for local or vendor use (not for FreeBSD)
1994-05-24 10:09:53 +00:00
; UNIMPL not implemented, placeholder only
; NOSTD implemented but as a lkm that can be statically
; compiled in; sysent entry will be filled with lkmressys
; so the SYSCALL_MODULE macro works
; NOARGS same as STD except do not create structure in sys/sysproto.h
; NODEF same as STD except only have the entry in the syscall table
; added. Meaning - do not create structure or function
; prototype in sys/sysproto.h
; NOPROTO same as STD except do not create structure or
; function prototype in sys/sysproto.h. Does add a
; definition to syscall.h besides adding a sysent.
; NOTSTATIC syscall is loadable
; SYSMUX syscall multiplexer. No prototype, argument struct, or
; handler is declared or used. Handled in MD syscall code.
; CAPENABLED syscall is allowed in capability mode
;
; To support programmatic generation of both the default ABI and 32-bit compat
; (freebsd32) we impose a number of restrictions on the types of system calls.
; For integer types:
; - Bare int and long are allowed (long is a sign of a bad interface).
; - Use u_int and u_long rather than "unsigned (int|long)".
; - size_t is allowed.
; - typedefs are allowed, but new signed types that vary between 32- and
; 64-bit ABIs must be added to makesyscalls.lua so it knows they require
; handling.
; - Always-64-bit types other than dev_t, id_t, and off_t must be added to
; makesyscalls.lua.
; For pointers:
; - Prefer structs to typedefs so an ABI-specific suffix (e.g., "32") can
; be prepended (e.g., ucontext_t -> struct ucontext -> struct ucontext32).
; - Pointers to objects (structs, unions, etc) containing any long, pointer,
; or time_t arguments need _Contains_ annotations. Such objects should be
; padded such that all 64-bit types are 64-bit aligned.
; annotations:
; SAL 2.0 annotations are used to specify how system calls treat
; arguments that are passed using pointers. There are three basic
; annotations.
;
; _In_ Object pointed to will be read and not modified.
; _Out_ Object pointed to will be written and not read.
; _Inout_ Object pointed to will be written and read.
;
; These annotations are used alone when the pointer refers to a single
; object i.e. scalar types, structs, and pointers, and not NULL. Adding
; the _opt_ suffix, e.g. _In_opt_, implies that the pointer may also
; refer to NULL.
;
; For pointers to arrays, additional suffixes are added:
;
; _In_z_, _Out_z_, _Inout_z_:
; for a NUL terminated array e.g. a string.
; _In_reads_z_(n),_Out_writes_z_(n), _Inout_updates_z_(n):
; for a NUL terminated array e.g. a string, of known length n bytes.
; _In_reads_(n),_Out_writes_(n),_Inout_updates_(n):
; for an array of n elements.
; _In_reads_bytes_(n), _Out_writes_bytes_(n), _Inout_updates_bytes(n):
; for a buffer of n-bytes.
;
; In addition to SAL annotations, pointers are annotated to indicate
; that they point to types that change between ABIs. That means that
; they contain long, pointer, or time_t types. This is indicated with
; a _Contains_ annotation followed immediately by one or more of:
;
; long_ Object contains a direct (or typedef'd) long value and varies
; between 32- and 64-bit ABIs. This includes size_t.
; ptr_ Object contains pointers (or intptr_t) and varies between
; 32- and 64-bit ABIs.
; timet_ Object contains a time_t and varies between i386 and other
; ABIs.
; #include's, #defines's, etc. may be included, and are copied to the output
; files. However, #ifdef, etc will be copied, but any lines that don't start
; with # will not. Caveat Emptor.
1994-05-24 10:09:53 +00:00
#include <sys/param.h>
#include <sys/sysent.h>
#include <sys/sysproto.h>
%%ABI_HEADERS%%
0 AUE_NULL SYSMUX {
int syscall(
int number,
...
);
}
1 AUE_EXIT STD|CAPENABLED {
void exit(
int rval
);
}
2 AUE_FORK STD|CAPENABLED {
int fork(void);
}
3 AUE_READ STD|CAPENABLED {
ssize_t read(
int fd,
_Out_writes_bytes_(nbyte) void *buf,
size_t nbyte
);
}
4 AUE_WRITE STD|CAPENABLED {
ssize_t write(
int fd,
_In_reads_bytes_(nbyte) const void *buf,
size_t nbyte
);
}
5 AUE_OPEN_RWTC STD {
int open(
_In_z_ const char *path,
int flags,
mode_t mode
);
}
; XXX should be { int open(const char *path, int flags, ...); }
; but we're not ready for varargs.
6 AUE_CLOSE STD|CAPENABLED {
int close(
int fd
);
}
7 AUE_WAIT4 STD {
int wait4(
int pid,
_Out_opt_ int *status,
int options,
_Out_opt_ _Contains_long_timet_ struct rusage *rusage
);
}
8 AUE_CREAT COMPAT {
int creat(
_In_z_ const char *path,
int mode
);
}
9 AUE_LINK STD {
int link(
_In_z_ const char *path,
_In_z_ const char *link
);
}
10 AUE_UNLINK STD {
int unlink(
_In_z_ const char *path
);
}
11 AUE_NULL OBSOL execv
12 AUE_CHDIR STD {
int chdir(
_In_z_ const char *path
);
}
13 AUE_FCHDIR STD {
int fchdir(
int fd
);
}
14 AUE_MKNOD COMPAT11 {
int mknod(
_In_z_ const char *path,
int mode,
uint32_t dev
);
}
15 AUE_CHMOD STD {
int chmod(
_In_z_ const char *path,
mode_t mode
);
}
16 AUE_CHOWN STD {
int chown(
_In_z_ const char *path,
int uid,
int gid
);
}
17 AUE_NULL STD|CAPENABLED {
void *break(
_In_ char *nsize
);
}
18 AUE_GETFSSTAT COMPAT4 {
int getfsstat(
_Out_writes_bytes_opt_(bufsize) _Contains_long_ struct ostatfs *buf,
long bufsize,
int mode
);
}
19 AUE_LSEEK COMPAT|CAPENABLED {
long lseek(
int fd,
long offset,
int whence
);
}
20 AUE_GETPID STD|CAPENABLED {
pid_t getpid(void);
}
21 AUE_MOUNT STD {
int mount(
_In_z_ const char *type,
_In_z_ const char *path,
int flags,
_In_opt_ void *data
);
}
22 AUE_UMOUNT STD {
int unmount(
_In_z_ const char *path,
int flags
);
}
23 AUE_SETUID STD|CAPENABLED {
int setuid(
uid_t uid
);
}
24 AUE_GETUID STD|CAPENABLED {
uid_t getuid(void);
}
25 AUE_GETEUID STD|CAPENABLED {
uid_t geteuid(void);
}
26 AUE_PTRACE STD {
int ptrace(
int req,
pid_t pid,
_Inout_opt_ _Contains_long_ptr_ caddr_t addr,
int data
);
}
27 AUE_RECVMSG STD|CAPENABLED {
ssize_t recvmsg(
int s,
_Inout_ _Contains_ptr_ struct msghdr *msg,
int flags
);
}
28 AUE_SENDMSG STD|CAPENABLED {
ssize_t sendmsg(
int s,
_In_ _Contains_ptr_ const struct msghdr *msg,
int flags
);
}
29 AUE_RECVFROM STD|CAPENABLED {
ssize_t recvfrom(
int s,
_Out_writes_bytes_(len) void *buf,
size_t len,
int flags,
_Out_writes_bytes_opt_(*fromlenaddr) struct sockaddr *from,
_Inout_opt_ __socklen_t *fromlenaddr
);
}
30 AUE_ACCEPT STD|CAPENABLED {
int accept(
int s,
_Out_writes_bytes_opt_(*anamelen) struct sockaddr *name,
_Inout_opt_ __socklen_t *anamelen
);
}
31 AUE_GETPEERNAME STD|CAPENABLED {
int getpeername(
int fdes,
_Out_writes_bytes_(*alen) struct sockaddr *asa,
_Inout_opt_ __socklen_t *alen
);
}
32 AUE_GETSOCKNAME STD|CAPENABLED {
int getsockname(
int fdes,
_Out_writes_bytes_(*alen) struct sockaddr *asa,
_Inout_ __socklen_t *alen
);
}
33 AUE_ACCESS STD {
int access(
_In_z_ const char *path,
int amode
);
}
34 AUE_CHFLAGS STD {
int chflags(
_In_z_ const char *path,
u_long flags
);
}
35 AUE_FCHFLAGS STD|CAPENABLED {
int fchflags(
int fd,
u_long flags
);
}
36 AUE_SYNC STD|CAPENABLED {
int sync(void);
}
37 AUE_KILL STD|CAPENABLED {
int kill(
int pid,
int signum
);
}
38 AUE_STAT COMPAT {
int stat(
_In_z_ const char *path,
_Out_ _Contains_timet_ struct ostat *ub
);
}
39 AUE_GETPPID STD|CAPENABLED {
pid_t getppid(void);
}
40 AUE_LSTAT COMPAT {
int lstat(
_In_z_ const char *path,
_Out_ _Contains_timet_ struct ostat *ub
);
}
41 AUE_DUP STD|CAPENABLED {
int dup(
u_int fd
);
}
42 AUE_PIPE COMPAT10|CAPENABLED {
int pipe(void);
}
43 AUE_GETEGID STD|CAPENABLED {
gid_t getegid(void);
}
44 AUE_PROFILE STD|CAPENABLED {
int profil(
_Out_writes_bytes_(size) char *samples,
size_t size,
size_t offset,
u_int scale
);
}
45 AUE_KTRACE STD {
int ktrace(
_In_z_ const char *fname,
int ops,
int facs,
int pid
);
}
46 AUE_SIGACTION COMPAT|CAPENABLED {
int sigaction(
int signum,
_In_opt_ _Contains_ptr_ struct osigaction *nsa,
_Out_opt_ _Contains_ptr_ struct osigaction *osa
);
}
47 AUE_GETGID STD|CAPENABLED {
gid_t getgid(void);
}
48 AUE_SIGPROCMASK COMPAT|CAPENABLED {
int sigprocmask(
int how,
osigset_t mask
);
}
; XXX note nonstandard (bogus) calling convention - the libc stub passes
; us the mask, not a pointer to it, and we return the old mask as the
; (int) return value.
49 AUE_GETLOGIN STD|CAPENABLED {
int getlogin(
_Out_writes_z_(namelen) char *namebuf,
u_int namelen
);
}
50 AUE_SETLOGIN STD {
int setlogin(
_In_z_ const char *namebuf
);
}
51 AUE_ACCT STD {
int acct(
_In_z_ const char *path
);
}
52 AUE_SIGPENDING COMPAT|CAPENABLED {
int sigpending(void);
}
53 AUE_SIGALTSTACK STD|CAPENABLED {
int sigaltstack(
_In_opt_ _Contains_long_ptr_ const struct sigaltstack *ss,
_Out_opt_ _Contains_long_ptr_ struct sigaltstack *oss
);
}
54 AUE_IOCTL STD|CAPENABLED {
int ioctl(
int fd,
u_long com,
_Inout_opt_ _Contains_long_ptr_ char *data
);
}
55 AUE_REBOOT STD {
int reboot(
int opt
);
}
56 AUE_REVOKE STD {
int revoke(
_In_z_ const char *path
);
}
57 AUE_SYMLINK STD {
int symlink(
_In_z_ const char *path,
_In_z_ const char *link
);
}
58 AUE_READLINK STD {
ssize_t readlink(
_In_z_ const char *path,
_Out_writes_z_(count) char *buf,
size_t count
);
}
59 AUE_EXECVE STD {
int execve(
_In_z_ const char *fname,
_In_z_ char **argv,
_In_z_ char **envv
);
}
60 AUE_UMASK STD|CAPENABLED {
mode_t umask(
mode_t newmask
);
}
61 AUE_CHROOT STD {
int chroot(
_In_z_ const char *path
);
}
62 AUE_FSTAT COMPAT|CAPENABLED {
int fstat(
int fd,
_Out_ _Contains_timet_ struct ostat *sb
);
}
63 AUE_NULL COMPAT {
int getkerninfo(
int op,
_Out_writes_bytes_opt(*size) char *where,
_Inout_opt_ size_t *size,
int arg
);
}
64 AUE_NULL COMPAT|CAPENABLED {
int getpagesize(void);
}
65 AUE_MSYNC STD|CAPENABLED {
int msync(
_In_ void *addr,
size_t len,
int flags
);
}
66 AUE_VFORK STD|CAPENABLED {
int vfork(void);
}
67 AUE_NULL OBSOL vread
68 AUE_NULL OBSOL vwrite
69 AUE_NULL OBSOL sbrk
70 AUE_NULL OBSOL sstk
71 AUE_MMAP COMPAT|CAPENABLED {
void *mmap(
_In_ void *addr,
int len,
int prot,
int flags,
int fd,
long pos
);
}
72 AUE_O_VADVISE COMPAT11 {
int vadvise(
int anom
);
}
73 AUE_MUNMAP STD|CAPENABLED {
int munmap(
_In_ void *addr,
size_t len
);
}
74 AUE_MPROTECT STD|CAPENABLED {
int mprotect(
_In_ void *addr,
size_t len,
int prot
);
}
75 AUE_MADVISE STD|CAPENABLED {
int madvise(
_In_ void *addr,
size_t len,
int behav
);
}
76 AUE_NULL OBSOL vhangup
77 AUE_NULL OBSOL vlimit
78 AUE_MINCORE STD|CAPENABLED {
int mincore(
_In_ const void *addr,
size_t len,
_Out_writes_bytes_(len/PAGE_SIZE) char *vec
);
}
79 AUE_GETGROUPS STD|CAPENABLED {
int getgroups(
int gidsetsize,
_Out_writes_opt_(gidsetsize) gid_t *gidset
);
}
80 AUE_SETGROUPS STD {
int setgroups(
int gidsetsize,
_In_reads_(gidsetsize) const gid_t *gidset
);
}
81 AUE_GETPGRP STD|CAPENABLED {
int getpgrp(void);
}
82 AUE_SETPGRP STD {
int setpgid(
int pid,
int pgid
);
}
83 AUE_SETITIMER STD|CAPENABLED {
int setitimer(
int which,
_In_ _Contains_timet_ const struct itimerval *itv,
_Out_opt_ _Contains_timet_ struct itimerval *oitv
);
}
84 AUE_WAIT4 COMPAT {
int wait(void);
}
85 AUE_SWAPON STD {
int swapon(
_In_z_ const char *name
);
}
86 AUE_GETITIMER STD|CAPENABLED {
int getitimer(
int which,
_Out_ _Contains_timet_ struct itimerval *itv
);
}
87 AUE_SYSCTL COMPAT|CAPENABLED {
int gethostname(
_Out_writes_z_(len) char *hostname,
u_int len
);
}
88 AUE_SYSCTL COMPAT {
int sethostname(
_In_reads_z_(len) char *hostname,
u_int len
);
}
89 AUE_GETDTABLESIZE STD|CAPENABLED {
int getdtablesize(void);
}
90 AUE_DUP2 STD|CAPENABLED {
int dup2(
u_int from,
u_int to
);
}
91 AUE_NULL RESERVED
92 AUE_FCNTL STD|CAPENABLED {
int fcntl(
int fd,
int cmd,
intptr_t arg
);
}
; XXX should be { int fcntl(int fd, int cmd, ...); }
; but we're not ready for varargs.
93 AUE_SELECT STD|CAPENABLED {
int select(
int nd,
_Inout_opt_ fd_set *in,
_Inout_opt_ fd_set *ou,
_Inout_opt_ fd_set *ex,
_In_opt_ _Contains_long_timet_ struct timeval *tv
);
}
94 AUE_NULL RESERVED
95 AUE_FSYNC STD|CAPENABLED {
int fsync(
int fd
);
}
96 AUE_SETPRIORITY STD|CAPENABLED {
int setpriority(
int which,
int who,
int prio
);
}
97 AUE_SOCKET STD|CAPENABLED {
int socket(
int domain,
int type,
int protocol
);
}
98 AUE_CONNECT STD {
int connect(
int s,
_In_reads_bytes_(namelen) const struct sockaddr *name,
__socklen_t namelen
);
}
99 AUE_ACCEPT COMPAT|CAPENABLED {
int accept(
int s,
_Out_writes_bytes_opt_(*anamelen) struct sockaddr *name,
__socklen_t *anamelen
);
}
100 AUE_GETPRIORITY STD|CAPENABLED {
int getpriority(
int which,
int who
);
}
101 AUE_SEND COMPAT|CAPENABLED {
int send(
int s,
_In_reads_bytes_(len) const void *buf,
int len,
int flags
);
}
102 AUE_RECV COMPAT|CAPENABLED {
int recv(
int s,
_Out_writes_bytes_(len) void *buf,
int len,
int flags
);
}
103 AUE_SIGRETURN COMPAT|CAPENABLED {
int sigreturn(
_In_ struct osigcontext *sigcntxp
);
}
104 AUE_BIND STD {
int bind(
int s,
_In_reads_bytes_(namelen) const struct sockaddr *name,
__socklen_t namelen
);
}
105 AUE_SETSOCKOPT STD|CAPENABLED {
int setsockopt(
int s,
int level,
int name,
_In_reads_bytes_opt_(valsize) const void *val,
__socklen_t valsize
);
}
106 AUE_LISTEN STD|CAPENABLED {
int listen(
int s,
int backlog
);
}
107 AUE_NULL OBSOL vtimes
108 AUE_NULL COMPAT|CAPENABLED {
int sigvec(
int signum,
_In_opt_ _Contains_ptr_ struct sigvec *nsv,
_Out_opt_ _Contains_ptr_ struct sigvec *osv
);
}
109 AUE_NULL COMPAT|CAPENABLED {
int sigblock(
int mask
);
}
110 AUE_NULL COMPAT|CAPENABLED {
int sigsetmask(
int mask
);
}
111 AUE_NULL COMPAT|CAPENABLED {
int sigsuspend(
osigset_t mask
);
}
; XXX note nonstandard (bogus) calling convention - the libc stub passes
; us the mask, not a pointer to it.
112 AUE_NULL COMPAT|CAPENABLED {
int sigstack(
_In_opt_ _Contains_ptr_ struct sigstack *nss,
_Out_opt_ _Contains_ptr_ struct sigstack *oss
);
}
113 AUE_RECVMSG COMPAT|CAPENABLED {
int recvmsg(
int s,
_Inout_ _Contains_ptr_ struct omsghdr *msg,
int flags
);
}
114 AUE_SENDMSG COMPAT|CAPENABLED {
int sendmsg(
int s,
_In_ _Contains_ptr_ const struct omsghdr *msg,
int flags
);
}
115 AUE_NULL OBSOL vtrace
116 AUE_GETTIMEOFDAY STD|CAPENABLED {
int gettimeofday(
_Out_ _Contains_long_timet_ struct timeval *tp,
_Out_opt_ struct timezone *tzp
);
}
117 AUE_GETRUSAGE STD|CAPENABLED {
int getrusage(
int who,
_Out_ _Contains_long_ struct rusage *rusage
);
}
118 AUE_GETSOCKOPT STD|CAPENABLED {
int getsockopt(
int s,
int level,
int name,
_Out_writes_bytes_opt_(*avalsize) void *val,
_Inout_ __socklen_t *avalsize
);
}
119 AUE_NULL RESERVED
120 AUE_READV STD|CAPENABLED {
ssize_t readv(
int fd,
_In_reads_(iovcnt) _Contains_long_ptr_ const struct iovec *iovp,
u_int iovcnt
);
}
121 AUE_WRITEV STD|CAPENABLED {
ssize_t writev(
int fd,
_In_reads_(iovcnt) _Contains_long_ptr_ const struct iovec *iovp,
u_int iovcnt
);
}
122 AUE_SETTIMEOFDAY STD {
int settimeofday(
_In_ _Contains_long_timet_ const struct timeval *tv,
_In_opt_ const struct timezone *tzp
);
}
123 AUE_FCHOWN STD|CAPENABLED {
int fchown(
int fd,
int uid,
int gid
);
}
124 AUE_FCHMOD STD|CAPENABLED {
int fchmod(
int fd,
mode_t mode
);
}
125 AUE_RECVFROM COMPAT|CAPENABLED {
int recvfrom(
int s,
_Out_writes_(len) void *buf,
size_t len,
int flags,
_Out_writes_bytes_(*fromlenaddr) struct sockaddr *from,
_Inout_ __socklen_t *fromlenaddr
);
}
126 AUE_SETREUID STD|CAPENABLED {
int setreuid(
int ruid,
int euid
);
}
127 AUE_SETREGID STD|CAPENABLED {
int setregid(
int rgid,
int egid
);
}
128 AUE_RENAME STD {
int rename(
_In_z_ const char *from,
_In_z_ const char *to
);
}
129 AUE_TRUNCATE COMPAT {
int truncate(
_In_z_ const char *path,
long length
);
}
130 AUE_FTRUNCATE COMPAT|CAPENABLED {
int ftruncate(
int fd,
long length
);
}
131 AUE_FLOCK STD|CAPENABLED {
int flock(
int fd,
int how
);
}
132 AUE_MKFIFO STD {
int mkfifo(
_In_z_ const char *path,
mode_t mode
);
}
133 AUE_SENDTO STD|CAPENABLED {
ssize_t sendto(
int s,
_In_reads_bytes_(len) const void *buf,
size_t len,
int flags,
_In_reads_bytes_opt_(tolen) const struct sockaddr *to,
__socklen_t tolen
);
}
134 AUE_SHUTDOWN STD|CAPENABLED {
int shutdown(
int s,
int how
);
}
135 AUE_SOCKETPAIR STD|CAPENABLED {
int socketpair(
int domain,
int type,
int protocol,
_Out_writes_(2) int *rsv
);
}
136 AUE_MKDIR STD {
int mkdir(
_In_z_ const char *path,
mode_t mode
);
}
137 AUE_RMDIR STD {
int rmdir(
_In_z_ const char *path
);
}
138 AUE_UTIMES STD {
int utimes(
_In_z_ const char *path,
_In_ _Contains_long_timet_ const struct timeval *tptr
);
}
139 AUE_NULL OBSOL sigreturn
140 AUE_ADJTIME STD {
int adjtime(
_In_ _Contains_long_timet_ const struct timeval *delta,
_Out_opt_ _Contains_long_timet_ struct timeval *olddelta
);
}
141 AUE_GETPEERNAME COMPAT|CAPENABLED {
int getpeername(
int fdes,
_Out_writes_bytes_(*alen) struct sockaddr *asa,
_Inout_opt_ __socklen_t *alen
);
}
142 AUE_SYSCTL COMPAT|CAPENABLED {
long gethostid(void);
}
143 AUE_SYSCTL COMPAT {
int sethostid(
long hostid
);
}
144 AUE_GETRLIMIT COMPAT|CAPENABLED {
int getrlimit(
u_int which,
_Out_ struct orlimit *rlp
);
}
145 AUE_SETRLIMIT COMPAT|CAPENABLED {
int setrlimit(
u_int which,
_Out_ struct orlimit *rlp
);
}
146 AUE_KILLPG COMPAT {
int killpg(
int pgid,
int signum
);
}
147 AUE_SETSID STD|CAPENABLED {
int setsid(void);
}
148 AUE_QUOTACTL STD {
int quotactl(
_In_z_ const char *path,
int cmd,
int uid,
_In_ void *arg
);
}
149 AUE_O_QUOTA COMPAT {
int quota(void);
}
150 AUE_GETSOCKNAME COMPAT|CAPENABLED {
int getsockname(
int fdes,
_Out_writes_bytes_(*alen) struct sockaddr *asa,
_Inout_ __socklen_t *alen
);
}
151-153 AUE_NULL RESERVED
Add the new kernel-mode NFS Lock Manager. To use it instead of the user-mode lock manager, build a kernel with the NFSLOCKD option and add '-k' to 'rpc_lockd_flags' in rc.conf. Highlights include: * Thread-safe kernel RPC client - many threads can use the same RPC client handle safely with replies being de-multiplexed at the socket upcall (typically driven directly by the NIC interrupt) and handed off to whichever thread matches the reply. For UDP sockets, many RPC clients can share the same socket. This allows the use of a single privileged UDP port number to talk to an arbitrary number of remote hosts. * Single-threaded kernel RPC server. Adding support for multi-threaded server would be relatively straightforward and would follow approximately the Solaris KPI. A single thread should be sufficient for the NLM since it should rarely block in normal operation. * Kernel mode NLM server supporting cancel requests and granted callbacks. I've tested the NLM server reasonably extensively - it passes both my own tests and the NFS Connectathon locking tests running on Solaris, Mac OS X and Ubuntu Linux. * Userland NLM client supported. While the NLM server doesn't have support for the local NFS client's locking needs, it does have to field async replies and granted callbacks from remote NLMs that the local client has contacted. We relay these replies to the userland rpc.lockd over a local domain RPC socket. * Robust deadlock detection for the local lock manager. In particular it will detect deadlocks caused by a lock request that covers more than one blocking request. As required by the NLM protocol, all deadlock detection happens synchronously - a user is guaranteed that if a lock request isn't rejected immediately, the lock will eventually be granted. The old system allowed for a 'deferred deadlock' condition where a blocked lock request could wake up and find that some other deadlock-causing lock owner had beaten them to the lock. * Since both local and remote locks are managed by the same kernel locking code, local and remote processes can safely use file locks for mutual exclusion. Local processes have no fairness advantage compared to remote processes when contending to lock a region that has just been unlocked - the local lock manager enforces a strict first-come first-served model for both local and remote lockers. Sponsored by: Isilon Systems PR: 95247 107555 115524 116679 MFC after: 2 weeks
2008-03-26 15:23:12 +00:00
; 154 is initialised by the NLM code, if present.
154 AUE_NULL NOSTD {
int nlm_syscall(
int debug_level,
int grace_period,
int addr_count,
_In_reads_(addr_count) char **addrs
);
}
; 155 is initialized by the NFS code, if present.
155 AUE_NFS_SVC NOSTD {
int nfssvc(
int flag,
_In_ void *argp
);
}
156 AUE_GETDIRENTRIES COMPAT|CAPENABLED {
int getdirentries(
int fd,
_Out_writes_bytes_(count) char *buf,
u_int count,
_Out_opt_ long *basep
);
}
157 AUE_STATFS COMPAT4 {
int statfs(
_In_z_ const char *path,
_Out_ _Contains_long_ struct ostatfs *buf
);
}
158 AUE_FSTATFS COMPAT4|CAPENABLED {
int fstatfs(
int fd,
_Out_ _Contains_long_ struct ostatfs *buf
);
}
159 AUE_NULL RESERVED
160 AUE_LGETFH STD {
int lgetfh(
_In_z_ const char *fname,
_Out_ struct fhandle *fhp
);
}
161 AUE_NFS_GETFH STD {
int getfh(
_In_z_ const char *fname,
_Out_ struct fhandle *fhp
);
}
162 AUE_SYSCTL COMPAT4|CAPENABLED {
int getdomainname(
_Out_writes_z_(len) char *domainname,
int len
);
}
163 AUE_SYSCTL COMPAT4 {
int setdomainname(
_In_reads_z_(len) char *domainname,
int len
);
}
164 AUE_NULL COMPAT4 {
int uname(
_Out_ struct utsname *name
);
}
165 AUE_SYSARCH STD|CAPENABLED {
int sysarch(
int op,
_In_z_ char *parms
);
}
166 AUE_RTPRIO STD|CAPENABLED {
int rtprio(
int function,
pid_t pid,
_Inout_ struct rtprio *rtp
);
}
167-168 AUE_NULL RESERVED
169 AUE_SEMSYS NOSTD {
int semsys(
int which,
int a2,
int a3,
int a4,
int a5
);
}
; XXX should be { int semsys(int which, ...); }
170 AUE_MSGSYS NOSTD {
int msgsys(
int which,
int a2,
int a3,
int a4,
int a5,
int a6
);
}
; XXX should be { int msgsys(int which, ...); }
171 AUE_SHMSYS NOSTD {
int shmsys(
int which,
int a2,
int a3,
int a4
);
}
; XXX should be { int shmsys(int which, ...); }
172 AUE_NULL RESERVED
173 AUE_PREAD COMPAT6|CAPENABLED {
ssize_t pread(
int fd,
_Out_writes_bytes_(nbyte) void *buf,
size_t nbyte,
int pad,
off_t offset
);
}
174 AUE_PWRITE COMPAT6|CAPENABLED {
ssize_t pwrite(
int fd,
_In_reads_bytes_(nbyte) const void *buf,
size_t nbyte,
int pad,
off_t offset
);
}
175 AUE_SETFIB STD {
int setfib(
int fibnum
);
}
176 AUE_NTP_ADJTIME STD {
int ntp_adjtime(
_Inout_ _Contains_long_ struct timex *tp
);
}
177-180 AUE_NULL RESERVED
181 AUE_SETGID STD|CAPENABLED {
int setgid(
gid_t gid
);
}
182 AUE_SETEGID STD|CAPENABLED {
int setegid(
gid_t egid
);
}
183 AUE_SETEUID STD|CAPENABLED {
int seteuid(
uid_t euid
);
}
184 AUE_NULL OBSOL lfs_bmapv
185 AUE_NULL OBSOL lfs_markv
186 AUE_NULL OBSOL lfs_segclean
187 AUE_NULL OBSOL lfs_segwait
188 AUE_STAT COMPAT11 {
int stat(
_In_z_ const char *path,
_Out_ _Contains_timet_ struct freebsd11_stat *ub
);
}
189 AUE_FSTAT COMPAT11|CAPENABLED {
int fstat(
int fd,
_Out_ _Contains_timet_ struct freebsd11_stat *sb
);
}
190 AUE_LSTAT COMPAT11 {
int lstat(
_In_z_ const char *path,
_Out_ _Contains_timet_ struct freebsd11_stat *ub
);
}
191 AUE_PATHCONF STD {
int pathconf(
_In_z_ const char *path,
int name
);
}
192 AUE_FPATHCONF STD|CAPENABLED {
int fpathconf(
int fd,
int name
);
}
193 AUE_NULL RESERVED
194 AUE_GETRLIMIT STD|CAPENABLED {
int getrlimit(
u_int which,
_Out_ struct rlimit *rlp
);
}
195 AUE_SETRLIMIT STD|CAPENABLED {
int setrlimit(
u_int which,
_In_ struct rlimit *rlp
);
}
196 AUE_GETDIRENTRIES COMPAT11|CAPENABLED {
int getdirentries(
int fd,
_Out_writes_bytes_(count) char *buf,
u_int count,
_Out_opt_ long *basep
);
}
197 AUE_MMAP COMPAT6|CAPENABLED {
void *mmap(
_In_ void *addr,
size_t len,
int prot,
int flags,
int fd,
int pad,
off_t pos
);
}
198 AUE_NULL SYSMUX {
int __syscall(
int64_t number,
...
);
}
199 AUE_LSEEK COMPAT6|CAPENABLED {
off_t lseek(
int fd,
int pad,
off_t offset,
int whence
);
}
200 AUE_TRUNCATE COMPAT6 {
int truncate(
_In_z_ const char *path,
int pad,
off_t length
);
}
201 AUE_FTRUNCATE COMPAT6|CAPENABLED {
int ftruncate(
int fd,
int pad,
off_t length
);
}
202 AUE_SYSCTL STD|CAPENABLED {
int __sysctl(
_In_reads_(namelen) int *name,
u_int namelen,
_Out_writes_bytes_opt_(*oldlenp) void *old,
_Inout_opt_ size_t *oldlenp,
_In_reads_bytes_opt_(newlen) const void *new,
size_t newlen
);
}
203 AUE_MLOCK STD|CAPENABLED {
int mlock(
_In_ const void *addr,
size_t len
);
}
204 AUE_MUNLOCK STD|CAPENABLED {
int munlock(
_In_ const void *addr,
size_t len
);
}
205 AUE_UNDELETE STD {
int undelete(
_In_z_ const char *path
);
}
206 AUE_FUTIMES STD|CAPENABLED {
int futimes(
int fd,
_In_reads_(2) _Contains_long_timet_ const struct timeval *tptr
);
}
207 AUE_GETPGID STD|CAPENABLED {
int getpgid(
pid_t pid
);
}
208 AUE_NULL RESERVED
209 AUE_POLL STD|CAPENABLED {
int poll(
_Inout_updates_(nfds) struct pollfd *fds,
u_int nfds,
int timeout
);
}
;
; The following are reserved for loadable syscalls
;
210 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
211 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
212 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
213 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
214 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
215 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
216 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
217 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
218 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
219 AUE_NULL NODEF|NOTSTATIC lkmnosys lkmnosys nosys_args int
220 AUE_SEMCTL COMPAT7|NOSTD {
int __semctl(
int semid,
int semnum,
int cmd,
_Contains_ptr_ union semun_old *arg
);
}
221 AUE_SEMGET NOSTD {
int semget(
key_t key,
int nsems,
int semflg
);
}
222 AUE_SEMOP NOSTD {
int semop(
int semid,
_In_reads_(nsops) struct sembuf *sops,
size_t nsops
);
}
223 AUE_NULL OBSOL semconfig
224 AUE_MSGCTL COMPAT7|NOSTD {
int msgctl(
int msqid,
int cmd,
_Contains_long_ptr_timet_ struct msqid_ds_old *buf
);
}
225 AUE_MSGGET NOSTD {
int msgget(
key_t key,
int msgflg
);
}
226 AUE_MSGSND NOSTD {
int msgsnd(
int msqid,
_In_reads_bytes_(msgsz) _Contains_long_ const void *msgp,
size_t msgsz,
int msgflg
);
}
227 AUE_MSGRCV NOSTD {
ssize_t msgrcv(
int msqid,
_Out_writes_bytes_(msgsz) _Contains_long_ void *msgp,
size_t msgsz,
long msgtyp,
int msgflg
);
}
228 AUE_SHMAT NOSTD {
void *shmat(
int shmid,
_In_ const void *shmaddr,
int shmflg
);
}
229 AUE_SHMCTL COMPAT7|NOSTD {
int shmctl(
int shmid,
int cmd,
_Inout_opt_ _Contains_long_ struct shmid_ds_old *buf
);
}
230 AUE_SHMDT NOSTD {
int shmdt(
_In_ const void *shmaddr
);
}
231 AUE_SHMGET NOSTD {
int shmget(
key_t key,
size_t size,
int shmflg
);
}
232 AUE_NULL STD|CAPENABLED {
int clock_gettime(
clockid_t clock_id,
_Out_ _Contains_long_timet_ struct timespec *tp
);
}
233 AUE_CLOCK_SETTIME STD {
int clock_settime(
clockid_t clock_id,
_In_ _Contains_long_timet_ const struct timespec *tp
);
}
234 AUE_NULL STD|CAPENABLED {
int clock_getres(
clockid_t clock_id,
_Out_ _Contains_long_timet_ struct timespec *tp
);
}
235 AUE_NULL STD|CAPENABLED {
int ktimer_create(
clockid_t clock_id,
_In_ _Contains_long_ptr_ struct sigevent *evp,
_Out_ int *timerid
);
}
236 AUE_NULL STD|CAPENABLED {
int ktimer_delete(
int timerid
);
}
237 AUE_NULL STD|CAPENABLED {
int ktimer_settime(
int timerid,
int flags,
_In_ _Contains_long_timet_ const struct itimerspec *value,
_Out_opt_ _Contains_long_timet_ struct itimerspec *ovalue
);
}
238 AUE_NULL STD|CAPENABLED {
int ktimer_gettime(
int timerid,
_Out_ _Contains_long_timet_ struct itimerspec *value
);
}
239 AUE_NULL STD|CAPENABLED {
int ktimer_getoverrun(
int timerid
);
}
240 AUE_NULL STD|CAPENABLED {
int nanosleep(
_In_ _Contains_long_timet_ const struct timespec *rqtp,
_Out_opt_ _Contains_long_timet_ struct timespec *rmtp
);
}
241 AUE_NULL STD {
int ffclock_getcounter(
_Out_ ffcounter *ffcount
);
}
242 AUE_NULL STD {
int ffclock_setestimate(
_In_ _Contains_timet_ struct ffclock_estimate *cest
);
}
243 AUE_NULL STD {
int ffclock_getestimate(
_Out_ _Contains_timet_ struct ffclock_estimate *cest
);
}
244 AUE_NULL STD {
int clock_nanosleep(
clockid_t clock_id,
int flags,
_In_ _Contains_long_timet_ const struct timespec *rqtp,
_Out_opt_ _Contains_long_timet_ struct timespec *rmtp
);
}
245-246 AUE_NULL RESERVED
247 AUE_NULL STD {
int clock_getcpuclockid2(
id_t id,
int which,
_Out_ clockid_t *clock_id
);
}
248 AUE_NULL STD|CAPENABLED {
int ntp_gettime(
_Out_ _Contains_long_timet_ struct ntptimeval *ntvp
);
}
249 AUE_NULL RESERVED
250 AUE_MINHERIT STD|CAPENABLED {
int minherit(
_In_ void *addr,
size_t len,
int inherit
);
}
251 AUE_RFORK STD|CAPENABLED {
int rfork(
int flags
);
}
252 AUE_POLL OBSOL openbsd_poll
253 AUE_ISSETUGID STD|CAPENABLED {
int issetugid(void);
}
254 AUE_LCHOWN STD {
int lchown(
_In_z_ const char *path,
int uid,
int gid
);
}
255 AUE_AIO_READ STD|CAPENABLED {
int aio_read(
_Inout_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
256 AUE_AIO_WRITE STD|CAPENABLED {
int aio_write(
_Inout_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
257 AUE_LIO_LISTIO STD|CAPENABLED {
int lio_listio(
int mode,
_Inout_updates_(nent) _Contains_long_ptr_ struct aiocb * const *acb_list,
int nent,
_In_opt_ _Contains_long_ptr_ struct sigevent *sig
);
}
258-271 AUE_NULL RESERVED
272 AUE_O_GETDENTS COMPAT11|CAPENABLED {
int getdents(
int fd,
_Out_writes_bytes_(count) char *buf,
size_t count
);
}
273 AUE_NULL RESERVED
274 AUE_LCHMOD STD {
int lchmod(
_In_z_ const char *path,
mode_t mode
);
}
275 AUE_NULL OBSOL netbsd_lchown
276 AUE_LUTIMES STD {
int lutimes(
_In_z_ const char *path,
_In_ _Contains_long_timet_ const struct timeval *tptr
);
}
277 AUE_NULL OBSOL netbsd_msync
278 AUE_STAT COMPAT11 {
int nstat(
_In_z_ const char *path,
_Out_ _Contains_long_timet_ struct nstat *ub
);
}
279 AUE_FSTAT COMPAT11 {
int nfstat(
int fd,
_Out_ _Contains_long_timet_ struct nstat *sb
);
}
280 AUE_LSTAT COMPAT11 {
int nlstat(
_In_z_ const char *path,
_Out_ _Contains_long_timet_ struct nstat *ub
);
}
281-288 AUE_NULL RESERVED
289 AUE_PREADV STD|CAPENABLED {
ssize_t preadv(
int fd,
_In_reads_(iovcnt) _Contains_long_ptr_ struct iovec *iovp,
u_int iovcnt,
off_t offset
);
}
290 AUE_PWRITEV STD|CAPENABLED {
ssize_t pwritev(
int fd,
_In_reads_(iovcnt) _Contains_long_ptr_ struct iovec *iovp,
u_int iovcnt,
off_t offset
);
}
291-296 AUE_NULL RESERVED
297 AUE_FHSTATFS COMPAT4 {
int fhstatfs(
_In_ const struct fhandle *u_fhp,
_Out_ _Contains_long_ struct ostatfs *buf
);
}
298 AUE_FHOPEN STD {
int fhopen(
_In_ const struct fhandle *u_fhp,
int flags
);
}
299 AUE_FHSTAT COMPAT11 {
int fhstat(
_In_ const struct fhandle *u_fhp,
_Out_ _Contains_long_timet_ struct freebsd11_stat *sb
);
}
300 AUE_NULL STD {
int modnext(
int modid
);
}
301 AUE_NULL STD {
int modstat(
int modid,
_Out_ _Contains_long_ struct module_stat *stat
);
}
302 AUE_NULL STD {
int modfnext(
int modid
);
}
303 AUE_NULL STD {
int modfind(
_In_z_ const char *name
);
}
304 AUE_MODLOAD STD {
int kldload(
_In_z_ const char *file
);
}
305 AUE_MODUNLOAD STD {
int kldunload(
int fileid
);
}
306 AUE_NULL STD {
int kldfind(
_In_z_ const char *file
);
}
307 AUE_NULL STD {
int kldnext(
int fileid
);
}
308 AUE_NULL STD {
int kldstat(
int fileid,
_Out_ _Contains_long_ptr_ struct kld_file_stat *stat
);
}
309 AUE_NULL STD {
int kldfirstmod(
int fileid
);
}
310 AUE_GETSID STD|CAPENABLED {
int getsid(
pid_t pid
);
}
311 AUE_SETRESUID STD|CAPENABLED {
int setresuid(
uid_t ruid,
uid_t euid,
uid_t suid
);
}
312 AUE_SETRESGID STD|CAPENABLED {
int setresgid(
gid_t rgid,
gid_t egid,
gid_t sgid
);
}
313 AUE_NULL OBSOL signanosleep
314 AUE_AIO_RETURN STD|CAPENABLED {
ssize_t aio_return(
_Inout_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
315 AUE_AIO_SUSPEND STD|CAPENABLED {
int aio_suspend(
_Inout_updates_(nent) _Contains_long_ptr_ const struct aiocb * const * aiocbp,
int nent,
_In_opt_ _Contains_long_timet_ const struct timespec *timeout
);
}
316 AUE_AIO_CANCEL STD|CAPENABLED {
int aio_cancel(
int fd,
_In_opt_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
317 AUE_AIO_ERROR STD|CAPENABLED {
int aio_error(
_In_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
318 AUE_AIO_READ COMPAT6|CAPENABLED {
int aio_read(
_Inout_ _Contains_long_ptr_ struct oaiocb *aiocbp
);
}
319 AUE_AIO_WRITE COMPAT6|CAPENABLED {
int aio_write(
_Inout_ _Contains_long_ptr_ struct oaiocb *aiocbp
);
}
320 AUE_LIO_LISTIO COMPAT6|CAPENABLED {
int lio_listio(
int mode,
_Inout_updates_(nent) _Contains_long_ptr_ struct oaiocb * const *acb_list,
int nent,
_In_opt_ _Contains_ptr_ struct osigevent *sig
);
}
321 AUE_NULL STD|CAPENABLED {
int yield(void);
}
322 AUE_NULL OBSOL thr_sleep
323 AUE_NULL OBSOL thr_wakeup
324 AUE_MLOCKALL STD|CAPENABLED {
int mlockall(
int how
);
}
325 AUE_MUNLOCKALL STD|CAPENABLED {
int munlockall(void);
}
326 AUE_GETCWD STD {
int __getcwd(
_Out_writes_z_(buflen) char *buf,
size_t buflen
);
}
327 AUE_NULL STD|CAPENABLED {
int sched_setparam(
pid_t pid,
_In_ const struct sched_param *param
);
}
328 AUE_NULL STD|CAPENABLED {
int sched_getparam(
pid_t pid,
_Out_ struct sched_param *param
);
}
329 AUE_NULL STD|CAPENABLED {
int sched_setscheduler(
pid_t pid,
int policy,
_In_ const struct sched_param *param
);
}
330 AUE_NULL STD|CAPENABLED {
int sched_getscheduler(
pid_t pid
);
}
331 AUE_NULL STD|CAPENABLED {
int sched_yield(void);
}
332 AUE_NULL STD|CAPENABLED {
int sched_get_priority_max(
int policy
);
}
333 AUE_NULL STD|CAPENABLED {
int sched_get_priority_min(
int policy
);
}
334 AUE_NULL STD|CAPENABLED {
int sched_rr_get_interval(
pid_t pid,
_Out_ _Contains_long_timet_ struct timespec *interval
);
}
335 AUE_NULL STD|CAPENABLED {
int utrace(
_In_reads_bytes_(len) const void *addr,
size_t len
);
}
336 AUE_SENDFILE COMPAT4|CAPENABLED {
int sendfile(
int fd,
int s,
off_t offset,
size_t nbytes,
_In_opt_ _Contains_ptr_ struct sf_hdtr *hdtr,
_Out_opt_ off_t *sbytes,
int flags
);
}
337 AUE_NULL STD {
int kldsym(
int fileid,
int cmd,
_In_ _Contains_long_ptr_ void *data
);
}
338 AUE_JAIL STD {
int jail(
_In_ _Contains_ptr_ struct jail *jail
);
}
339 AUE_NULL NOSTD|NOTSTATIC {
int nnpfs_syscall(
int operation,
char *a_pathP,
int a_opcode,
void *a_paramsP,
int a_followSymlinks
);
}
340 AUE_SIGPROCMASK STD|CAPENABLED {
int sigprocmask(
int how,
_In_opt_ const sigset_t *set,
_Out_opt_ sigset_t *oset
);
}
341 AUE_SIGSUSPEND STD|CAPENABLED {
int sigsuspend(
_In_ const sigset_t *sigmask
);
}
342 AUE_SIGACTION COMPAT4|CAPENABLED {
int sigaction(
int sig,
_In_opt_ _Contains_ptr_ const struct sigaction *act,
_Out_opt_ _Contains_ptr_ struct sigaction *oact
);
}
343 AUE_SIGPENDING STD|CAPENABLED {
int sigpending(
_In_ sigset_t *set
);
}
344 AUE_SIGRETURN COMPAT4|CAPENABLED {
int sigreturn(
_In_ _Contains_long_ptr_ const struct freebsd4_ucontext *sigcntxp
);
}
345 AUE_SIGWAIT STD|CAPENABLED {
int sigtimedwait(
_In_ const sigset_t *set,
_Out_opt_ _Contains_long_ptr_ struct __siginfo *info,
_In_opt_ _Contains_long_timet_ const struct timespec *timeout
);
}
346 AUE_NULL STD|CAPENABLED {
int sigwaitinfo(
_In_ const sigset_t *set,
_Out_opt_ _Contains_long_ptr_ struct __siginfo *info
);
}
347 AUE_ACL_GET_FILE STD {
int __acl_get_file(
_In_z_ const char *path,
__acl_type_t type,
_Out_ struct acl *aclp
);
}
348 AUE_ACL_SET_FILE STD {
int __acl_set_file(
_In_z_ const char *path,
__acl_type_t type,
_In_ struct acl *aclp
);
}
349 AUE_ACL_GET_FD STD|CAPENABLED {
int __acl_get_fd(
int filedes,
__acl_type_t type,
_Out_ struct acl *aclp
);
}
350 AUE_ACL_SET_FD STD|CAPENABLED {
int __acl_set_fd(
int filedes,
__acl_type_t type,
_In_ struct acl *aclp
);
}
351 AUE_ACL_DELETE_FILE STD {
int __acl_delete_file(
_In_z_ const char *path,
__acl_type_t type
);
}
352 AUE_ACL_DELETE_FD STD|CAPENABLED {
int __acl_delete_fd(
int filedes,
__acl_type_t type
);
}
353 AUE_ACL_CHECK_FILE STD {
int __acl_aclcheck_file(
_In_z_ const char *path,
__acl_type_t type,
_In_ struct acl *aclp
);
}
354 AUE_ACL_CHECK_FD STD|CAPENABLED {
int __acl_aclcheck_fd(
int filedes,
__acl_type_t type,
_In_ struct acl *aclp
);
}
355 AUE_EXTATTRCTL STD {
int extattrctl(
_In_z_ const char *path,
int cmd,
_In_z_opt_ const char *filename,
int attrnamespace,
_In_z_ const char *attrname
);
}
356 AUE_EXTATTR_SET_FILE STD {
ssize_t extattr_set_file(
_In_z_ const char *path,
int attrnamespace,
_In_z_ const char *attrname,
_In_reads_bytes_(nbytes) void *data,
size_t nbytes
);
}
357 AUE_EXTATTR_GET_FILE STD {
ssize_t extattr_get_file(
_In_z_ const char *path,
int attrnamespace,
_In_z_ const char *attrname,
_Out_writes_bytes_(nbytes) void *data,
size_t nbytes
);
}
358 AUE_EXTATTR_DELETE_FILE STD {
int extattr_delete_file(
_In_z_ const char *path,
int attrnamespace,
_In_z_ const char *attrname
);
}
359 AUE_AIO_WAITCOMPLETE STD|CAPENABLED {
ssize_t aio_waitcomplete(
_Outptr_result_maybenull_ struct aiocb **aiocbp,
_In_opt_ _Contains_long_timet_ struct timespec *timeout
);
}
360 AUE_GETRESUID STD|CAPENABLED {
int getresuid(
_Out_opt_ uid_t *ruid,
_Out_opt_ uid_t *euid,
_Out_opt_ uid_t *suid
);
}
361 AUE_GETRESGID STD|CAPENABLED {
int getresgid(
_Out_opt_ gid_t *rgid,
_Out_opt_ gid_t *egid,
_Out_opt_ gid_t *sgid
);
}
362 AUE_KQUEUE STD|CAPENABLED {
int kqueue(void);
}
363 AUE_KEVENT COMPAT11|CAPENABLED {
int kevent(
int fd,
_In_reads_opt_(nchanges) _Contains_ptr_ const struct freebsd11_kevent *changelist,
int nchanges,
_Out_writes_opt_(nevents) _Contains_ptr_ struct freebsd11_kevent *eventlist,
int nevents,
_In_opt_ _Contains_long_timet_ const struct timespec *timeout
);
}
364 AUE_NULL OBSOL __cap_get_proc
365 AUE_NULL OBSOL __cap_set_proc
366 AUE_NULL OBSOL __cap_get_fd
367 AUE_NULL OBSOL __cap_get_file
368 AUE_NULL OBSOL __cap_set_fd
369 AUE_NULL OBSOL __cap_set_file
370 AUE_NULL RESERVED
371 AUE_EXTATTR_SET_FD STD|CAPENABLED {
ssize_t extattr_set_fd(
int fd,
int attrnamespace,
_In_z_ const char *attrname,
_In_reads_bytes_(nbytes) void *data,
size_t nbytes
);
}
372 AUE_EXTATTR_GET_FD STD|CAPENABLED {
ssize_t extattr_get_fd(
int fd,
int attrnamespace,
_In_z_ const char *attrname,
_Out_writes_bytes_(nbytes) void *data,
size_t nbytes
);
}
373 AUE_EXTATTR_DELETE_FD STD|CAPENABLED {
int extattr_delete_fd(
int fd,
int attrnamespace,
_In_z_ const char *attrname
);
}
374 AUE_SETUGID STD {
int __setugid(
int flag
);
}
375 AUE_NULL OBSOL nfsclnt
376 AUE_EACCESS STD {
int eaccess(
_In_z_ const char *path,
int amode
);
}
377 AUE_NULL NOSTD|NOTSTATIC {
int afs3_syscall(
long syscall,
long parm1,
long parm2,
long parm3,
long parm4,
long parm5,
long parm6
);
}
378 AUE_NMOUNT STD {
int nmount(
_In_reads_(iovcnt) _Contains_long_ptr_ struct iovec *iovp,
unsigned int iovcnt,
int flags
);
}
379 AUE_NULL OBSOL kse_exit
380 AUE_NULL OBSOL kse_wakeup
381 AUE_NULL OBSOL kse_create
382 AUE_NULL OBSOL kse_thr_interrupt
383 AUE_NULL OBSOL kse_release
384 AUE_NULL STD|CAPENABLED {
int __mac_get_proc(
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
385 AUE_NULL STD|CAPENABLED {
int __mac_set_proc(
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
386 AUE_NULL STD|CAPENABLED {
int __mac_get_fd(
int fd,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
387 AUE_NULL STD {
int __mac_get_file(
_In_z_ const char *path_p,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
388 AUE_NULL STD|CAPENABLED {
int __mac_set_fd(
int fd,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
389 AUE_NULL STD {
int __mac_set_file(
_In_z_ const char *path_p,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
390 AUE_NULL STD {
int kenv(
int what,
_In_z_opt_ const char *name,
_Inout_updates_opt_(len) char *value,
int len
);
}
391 AUE_LCHFLAGS STD {
int lchflags(
_In_z_ const char *path,
u_long flags
);
}
392 AUE_NULL STD|CAPENABLED {
int uuidgen(
_Out_writes_(count) struct uuid *store,
int count
);
}
393 AUE_SENDFILE STD|CAPENABLED {
int sendfile(
int fd,
int s,
off_t offset,
size_t nbytes,
_In_opt_ _Contains_ptr_ struct sf_hdtr *hdtr,
_Out_opt_ off_t *sbytes,
int flags
);
}
394 AUE_NULL STD {
int mac_syscall(
_In_z_ const char *policy,
int call,
_In_opt_ void *arg
);
}
395 AUE_GETFSSTAT COMPAT11 {
int getfsstat(
_Out_writes_bytes_opt_(bufsize) struct freebsd11_statfs *buf,
long bufsize,
int mode
);
}
396 AUE_STATFS COMPAT11 {
int statfs(
_In_z_ const char *path,
_Out_ struct freebsd11_statfs *buf
);
}
397 AUE_FSTATFS COMPAT11|CAPENABLED {
int fstatfs(
int fd,
_Out_ struct freebsd11_statfs *buf
);
}
398 AUE_FHSTATFS COMPAT11 {
int fhstatfs(
_In_ const struct fhandle *u_fhp,
_Out_ struct freebsd11_statfs *buf
);
}
399 AUE_NULL RESERVED
400 AUE_SEMCLOSE NOSTD {
int ksem_close(
semid_t id
);
}
401 AUE_SEMPOST NOSTD {
int ksem_post(
semid_t id
);
}
402 AUE_SEMWAIT NOSTD {
int ksem_wait(
semid_t id
);
}
403 AUE_SEMTRYWAIT NOSTD {
int ksem_trywait(
semid_t id
);
}
404 AUE_SEMINIT NOSTD {
int ksem_init(
_Out_ semid_t *idp,
unsigned int value
);
}
405 AUE_SEMOPEN NOSTD {
int ksem_open(
_Out_ semid_t *idp,
_In_z_ const char *name,
int oflag,
mode_t mode,
unsigned int value
);
}
406 AUE_SEMUNLINK NOSTD {
int ksem_unlink(
_In_z_ const char *name
);
}
407 AUE_SEMGETVALUE NOSTD {
int ksem_getvalue(
semid_t id,
_Out_ int *val
);
}
408 AUE_SEMDESTROY NOSTD {
int ksem_destroy(
semid_t id
);
}
409 AUE_NULL STD {
int __mac_get_pid(
pid_t pid,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
410 AUE_NULL STD {
int __mac_get_link(
_In_z_ const char *path_p,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
411 AUE_NULL STD {
int __mac_set_link(
_In_z_ const char *path_p,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
412 AUE_EXTATTR_SET_LINK STD {
ssize_t extattr_set_link(
_In_z_ const char *path,
int attrnamespace,
_In_z_ const char *attrname,
_In_reads_bytes_(nbytes) void *data,
size_t nbytes
);
}
413 AUE_EXTATTR_GET_LINK STD {
ssize_t extattr_get_link(
_In_z_ const char *path,
int attrnamespace,
_In_z_ const char *attrname,
_Out_writes_bytes_(nbytes) void *data,
size_t nbytes
);
}
414 AUE_EXTATTR_DELETE_LINK STD {
int extattr_delete_link(
_In_z_ const char *path,
int attrnamespace,
_In_z_ const char *attrname
);
}
415 AUE_NULL STD {
int __mac_execve(
_In_z_ const char *fname,
_In_ char **argv,
_In_ char **envv,
_In_ _Contains_long_ptr_ struct mac *mac_p
);
}
416 AUE_SIGACTION STD|CAPENABLED {
int sigaction(
int sig,
_In_opt_ _Contains_ptr_ const struct sigaction *act,
_Out_opt_ _Contains_ptr_ struct sigaction *oact
);
}
417 AUE_SIGRETURN STD|CAPENABLED {
int sigreturn(
_In_ _Contains_long_ptr_ const struct __ucontext *sigcntxp
);
}
418-420 AUE_NULL RESERVED
421 AUE_NULL STD|CAPENABLED {
int getcontext(
_Out_ _Contains_long_ptr_ struct __ucontext *ucp
);
}
422 AUE_NULL STD|CAPENABLED {
int setcontext(
_In_ _Contains_long_ptr_ const struct __ucontext *ucp
);
}
423 AUE_NULL STD {
int swapcontext(
_Out_ _Contains_long_ptr_ struct __ucontext *oucp,
_In_ _Contains_long_ptr_ const struct __ucontext *ucp
);
}
424 AUE_SWAPOFF COMPAT13 {
int swapoff(
_In_z_ const char *name
);
}
425 AUE_ACL_GET_LINK STD {
int __acl_get_link(
_In_z_ const char *path,
__acl_type_t type,
_Out_ struct acl *aclp
);
}
426 AUE_ACL_SET_LINK STD {
int __acl_set_link(
_In_z_ const char *path,
__acl_type_t type,
_In_ struct acl *aclp
);
}
427 AUE_ACL_DELETE_LINK STD {
int __acl_delete_link(
_In_z_ const char *path,
__acl_type_t type
);
}
428 AUE_ACL_CHECK_LINK STD {
int __acl_aclcheck_link(
_In_z_ const char *path,
__acl_type_t type,
_In_ struct acl *aclp
);
}
429 AUE_SIGWAIT STD|CAPENABLED {
int sigwait(
_In_ const sigset_t *set,
_Out_ int *sig
);
}
430 AUE_THR_CREATE STD|CAPENABLED {
int thr_create(
_In_ _Contains_long_ptr_ ucontext_t *ctx,
_Out_ long *id,
int flags
);
}
431 AUE_THR_EXIT STD|CAPENABLED {
void thr_exit(
_Out_opt_ long *state
);
}
432 AUE_NULL STD|CAPENABLED {
int thr_self(
_Out_ long *id
);
}
433 AUE_THR_KILL STD|CAPENABLED {
int thr_kill(
long id,
int sig
);
}
434 AUE_NULL COMPAT10 {
int _umtx_lock(
_Inout_ struct umtx *umtx
);
}
435 AUE_NULL COMPAT10 {
int _umtx_unlock(
_Inout_ struct umtx *umtx
);
}
436 AUE_JAIL_ATTACH STD {
int jail_attach(
int jid
);
}
437 AUE_EXTATTR_LIST_FD STD|CAPENABLED {
ssize_t extattr_list_fd(
int fd,
int attrnamespace,
_Out_writes_bytes_opt_(nbytes) void *data,
size_t nbytes
);
}
438 AUE_EXTATTR_LIST_FILE STD {
ssize_t extattr_list_file(
_In_z_ const char *path,
int attrnamespace,
_Out_writes_bytes_opt_(nbytes) void *data,
size_t nbytes
);
}
439 AUE_EXTATTR_LIST_LINK STD {
ssize_t extattr_list_link(
_In_z_ const char *path,
int attrnamespace,
_Out_writes_bytes_opt_(nbytes) void *data,
size_t nbytes
);
}
440 AUE_NULL OBSOL kse_switchin
441 AUE_SEMWAIT NOSTD {
int ksem_timedwait(
semid_t id,
_In_opt_ _Contains_long_timet_ const struct timespec *abstime
);
}
442 AUE_NULL STD|CAPENABLED {
int thr_suspend(
_In_opt_ _Contains_long_timet_ const struct timespec *timeout
);
}
443 AUE_NULL STD|CAPENABLED {
int thr_wake(
long id
);
}
444 AUE_MODUNLOAD STD {
int kldunloadf(
int fileid,
int flags
);
}
445 AUE_AUDIT STD {
int audit(
_In_reads_bytes_(length) const void *record,
u_int length
);
}
446 AUE_AUDITON STD {
int auditon(
int cmd,
_In_opt_ void *data,
u_int length
);
}
447 AUE_GETAUID STD|CAPENABLED {
int getauid(
_Out_ uid_t *auid
);
}
448 AUE_SETAUID STD|CAPENABLED {
int setauid(
_In_ uid_t *auid
);
}
449 AUE_GETAUDIT STD|CAPENABLED {
int getaudit(
_Out_ struct auditinfo *auditinfo
);
}
450 AUE_SETAUDIT STD|CAPENABLED {
int setaudit(
_In_ struct auditinfo *auditinfo
);
}
451 AUE_GETAUDIT_ADDR STD|CAPENABLED {
int getaudit_addr(
_Out_writes_bytes_(length) struct auditinfo_addr *auditinfo_addr,
u_int length
);
}
452 AUE_SETAUDIT_ADDR STD|CAPENABLED {
int setaudit_addr(
_In_reads_bytes_(length) struct auditinfo_addr *auditinfo_addr,
u_int length
);
}
453 AUE_AUDITCTL STD {
int auditctl(
_In_z_ const char *path
);
}
454 AUE_NULL STD|CAPENABLED {
int _umtx_op(
_Inout_ void *obj,
int op,
u_long val,
_In_ void *uaddr1,
_In_ void *uaddr2
);
}
455 AUE_THR_NEW STD|CAPENABLED {
int thr_new(
_In_ _Contains_long_ptr_ struct thr_param *param,
int param_size
);
}
456 AUE_NULL STD|CAPENABLED {
int sigqueue(
pid_t pid,
int signum,
_In_ void *value
);
}
457 AUE_MQ_OPEN NOSTD {
int kmq_open(
_In_z_ const char *path,
int flags,
mode_t mode,
_In_opt_ _Contains_long_ const struct mq_attr *attr
);
}
458 AUE_MQ_SETATTR NOSTD|CAPENABLED {
int kmq_setattr(
int mqd,
_In_opt_ _Contains_long_ const struct mq_attr *attr,
_Out_opt_ _Contains_long_ struct mq_attr *oattr
);
}
459 AUE_MQ_TIMEDRECEIVE NOSTD|CAPENABLED {
int kmq_timedreceive(
int mqd,
_Out_writes_bytes_(msg_len) char *msg_ptr,
size_t msg_len,
_Out_opt_ unsigned *msg_prio,
_In_opt_ _Contains_long_timet_ const struct timespec *abs_timeout
);
}
460 AUE_MQ_TIMEDSEND NOSTD|CAPENABLED {
int kmq_timedsend(
int mqd,
_In_reads_bytes_(msg_len) const char *msg_ptr,
size_t msg_len,
unsigned msg_prio,
_In_opt_ _Contains_long_timet_ const struct timespec *abs_timeout
);
}
461 AUE_MQ_NOTIFY NOSTD|CAPENABLED {
int kmq_notify(
int mqd,
_In_opt_ _Contains_long_ptr_ const struct sigevent *sigev
);
}
462 AUE_MQ_UNLINK NOSTD {
int kmq_unlink(
_In_z_ const char *path
);
}
463 AUE_NULL STD|CAPENABLED {
void abort2(
_In_z_ const char *why,
int nargs,
_In_reads_(nargs) void **args
);
}
464 AUE_NULL STD|CAPENABLED {
int thr_set_name(
long id,
_In_z_ const char *name
);
}
465 AUE_AIO_FSYNC STD|CAPENABLED {
int aio_fsync(
int op,
_In_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
466 AUE_RTPRIO STD|CAPENABLED {
int rtprio_thread(
int function,
lwpid_t lwpid,
_Inout_ struct rtprio *rtp
);
}
467-470 AUE_NULL RESERVED
471 AUE_SCTP_PEELOFF NOSTD|CAPENABLED {
int sctp_peeloff(
int sd,
uint32_t name
);
}
472 AUE_SCTP_GENERIC_SENDMSG NOSTD|CAPENABLED {
int sctp_generic_sendmsg(
int sd,
_In_reads_bytes_(mlen) void *msg,
int mlen,
_In_reads_bytes_(tolen) const struct sockaddr *to,
__socklen_t tolen,
_In_opt_ struct sctp_sndrcvinfo *sinfo,
int flags
);
}
473 AUE_SCTP_GENERIC_SENDMSG_IOV NOSTD|CAPENABLED {
int sctp_generic_sendmsg_iov(
int sd,
_In_reads_(iovlen) _Contains_long_ptr_ struct iovec *iov,
int iovlen,
_In_reads_bytes_(tolen) const struct sockaddr *to,
__socklen_t tolen,
_In_opt_ struct sctp_sndrcvinfo *sinfo,
int flags
);
}
474 AUE_SCTP_GENERIC_RECVMSG NOSTD|CAPENABLED {
int sctp_generic_recvmsg(
int sd,
_In_reads_(iovlen) _Contains_long_ptr_ struct iovec *iov,
int iovlen,
_Out_writes_bytes_(*fromlenaddr) struct sockaddr *from,
_Out_ __socklen_t *fromlenaddr,
_In_opt_ struct sctp_sndrcvinfo *sinfo,
_Out_opt_ int *msg_flags
);
}
475 AUE_PREAD STD|CAPENABLED {
ssize_t pread(
int fd,
_Out_writes_bytes_(nbyte) void *buf,
size_t nbyte,
off_t offset
);
}
476 AUE_PWRITE STD|CAPENABLED {
ssize_t pwrite(
int fd,
_In_reads_bytes_(nbyte) const void *buf,
size_t nbyte,
off_t offset
);
}
477 AUE_MMAP STD|CAPENABLED {
void *mmap(
_In_ void *addr,
size_t len,
int prot,
int flags,
int fd,
off_t pos
);
}
478 AUE_LSEEK STD|CAPENABLED {
off_t lseek(
int fd,
off_t offset,
int whence
);
}
479 AUE_TRUNCATE STD {
int truncate(
_In_z_ const char *path,
off_t length
);
}
480 AUE_FTRUNCATE STD|CAPENABLED {
int ftruncate(
int fd,
off_t length
);
}
481 AUE_THR_KILL2 STD {
int thr_kill2(
pid_t pid,
long id,
int sig
);
}
482 AUE_SHMOPEN COMPAT12|CAPENABLED {
int shm_open(
_In_z_ const char *path,
int flags,
mode_t mode
);
}
483 AUE_SHMUNLINK STD {
int shm_unlink(
_In_z_ const char *path
);
}
484 AUE_NULL STD {
int cpuset(
_Out_ cpusetid_t *setid
);
}
485 AUE_NULL STD {
int cpuset_setid(
cpuwhich_t which,
id_t id,
cpusetid_t setid
);
}
486 AUE_NULL STD {
int cpuset_getid(
cpulevel_t level,
cpuwhich_t which,
id_t id,
_Out_ cpusetid_t *setid
);
}
487 AUE_NULL STD|CAPENABLED {
int cpuset_getaffinity(
cpulevel_t level,
cpuwhich_t which,
id_t id,
size_t cpusetsize,
_Out_ cpuset_t *mask
);
}
488 AUE_NULL STD|CAPENABLED {
int cpuset_setaffinity(
cpulevel_t level,
cpuwhich_t which,
id_t id,
size_t cpusetsize,
_Out_ const cpuset_t *mask
);
}
489 AUE_FACCESSAT STD|CAPENABLED {
int faccessat(
int fd,
_In_z_ const char *path,
int amode,
int flag
);
}
490 AUE_FCHMODAT STD|CAPENABLED {
int fchmodat(
int fd,
_In_z_ const char *path,
mode_t mode,
int flag
);
}
491 AUE_FCHOWNAT STD|CAPENABLED {
int fchownat(
int fd,
_In_z_ const char *path,
uid_t uid,
gid_t gid,
int flag
);
}
492 AUE_FEXECVE STD|CAPENABLED {
int fexecve(
int fd,
_In_ char **argv,
_In_ char **envv
);
}
493 AUE_FSTATAT COMPAT11|CAPENABLED {
int fstatat(
int fd,
_In_z_ const char *path,
_Out_ _Contains_long_timet_ struct freebsd11_stat *buf,
int flag
);
}
494 AUE_FUTIMESAT STD|CAPENABLED {
int futimesat(
int fd,
_In_z_ const char *path,
_In_reads_(2) _Contains_long_timet_ const struct timeval *times
);
}
495 AUE_LINKAT STD|CAPENABLED {
int linkat(
int fd1,
_In_z_ const char *path1,
int fd2,
_In_z_ const char *path2,
int flag
);
}
496 AUE_MKDIRAT STD|CAPENABLED {
int mkdirat(
int fd,
_In_z_ const char *path,
mode_t mode
);
}
497 AUE_MKFIFOAT STD|CAPENABLED {
int mkfifoat(
int fd,
_In_z_ const char *path,
mode_t mode
);
}
498 AUE_MKNODAT COMPAT11|CAPENABLED {
int mknodat(
int fd,
_In_z_ const char *path,
mode_t mode,
uint32_t dev
);
}
; XXX: see the comment for open
499 AUE_OPENAT_RWTC STD|CAPENABLED {
int openat(
int fd,
_In_z_ const char *path,
int flag,
mode_t mode
);
}
500 AUE_READLINKAT STD|CAPENABLED {
ssize_t readlinkat(
int fd,
_In_z_ const char *path,
_Out_writes_bytes_(bufsize) char *buf,
size_t bufsize
);
}
501 AUE_RENAMEAT STD|CAPENABLED {
int renameat(
int oldfd,
_In_z_ const char *old,
int newfd,
_In_z_ const char *new
);
}
502 AUE_SYMLINKAT STD|CAPENABLED {
int symlinkat(
_In_z_ const char *path1,
int fd,
_In_z_ const char *path2
);
}
503 AUE_UNLINKAT STD|CAPENABLED {
int unlinkat(
int fd,
_In_z_ const char *path,
int flag
);
}
504 AUE_POSIX_OPENPT STD {
int posix_openpt(
int flags
);
}
Implement support for RPCSEC_GSS authentication to both the NFS client and server. This replaces the RPC implementation of the NFS client and server with the newer RPC implementation originally developed (actually ported from the userland sunrpc code) to support the NFS Lock Manager. I have tested this code extensively and I believe it is stable and that performance is at least equal to the legacy RPC implementation. The NFS code currently contains support for both the new RPC implementation and the older legacy implementation inherited from the original NFS codebase. The default is to use the new implementation - add the NFS_LEGACYRPC option to fall back to the old code. When I merge this support back to RELENG_7, I will probably change this so that users have to 'opt in' to get the new code. To use RPCSEC_GSS on either client or server, you must build a kernel which includes the KGSSAPI option and the crypto device. On the userland side, you must build at least a new libc, mountd, mount_nfs and gssd. You must install new versions of /etc/rc.d/gssd and /etc/rc.d/nfsd and add 'gssd_enable=YES' to /etc/rc.conf. As long as gssd is running, you should be able to mount an NFS filesystem from a server that requires RPCSEC_GSS authentication. The mount itself can happen without any kerberos credentials but all access to the filesystem will be denied unless the accessing user has a valid ticket file in the standard place (/tmp/krb5cc_<uid>). There is currently no support for situations where the ticket file is in a different place, such as when the user logged in via SSH and has delegated credentials from that login. This restriction is also present in Solaris and Linux. In theory, we could improve this in future, possibly using Brooks Davis' implementation of variant symlinks. Supporting RPCSEC_GSS on a server is nearly as simple. You must create service creds for the server in the form 'nfs/<fqdn>@<REALM>' and install them in /etc/krb5.keytab. The standard heimdal utility ktutil makes this fairly easy. After the service creds have been created, you can add a '-sec=krb5' option to /etc/exports and restart both mountd and nfsd. The only other difference an administrator should notice is that nfsd doesn't fork to create service threads any more. In normal operation, there will be two nfsd processes, one in userland waiting for TCP connections and one in the kernel handling requests. The latter process will create as many kthreads as required - these should be visible via 'top -H'. The code has some support for varying the number of service threads according to load but initially at least, nfsd uses a fixed number of threads according to the value supplied to its '-n' option. Sponsored by: Isilon Systems MFC after: 1 month
2008-11-03 10:38:00 +00:00
; 505 is initialised by the kgssapi code, if present.
505 AUE_NULL NOSTD {
int gssd_syscall(
_In_z_ const char *path
);
}
506 AUE_JAIL_GET STD {
int jail_get(
_In_reads_(iovcnt) _Contains_long_ptr_ struct iovec *iovp,
unsigned int iovcnt,
int flags
);
}
507 AUE_JAIL_SET STD {
int jail_set(
_In_reads_(iovcnt) _Contains_long_ptr_ struct iovec *iovp,
unsigned int iovcnt,
int flags
);
}
508 AUE_JAIL_REMOVE STD {
int jail_remove(
int jid
);
}
509 AUE_CLOSEFROM COMPAT12|CAPENABLED {
int closefrom(
int lowfd
);
}
510 AUE_SEMCTL NOSTD {
int __semctl(
int semid,
int semnum,
int cmd,
_Inout_ _Contains_ptr_ union semun *arg
);
}
511 AUE_MSGCTL NOSTD {
int msgctl(
int msqid,
int cmd,
_Inout_opt_ _Contains_long_ptr_ struct msqid_ds *buf
);
}
512 AUE_SHMCTL NOSTD {
int shmctl(
int shmid,
int cmd,
_Inout_opt_ _Contains_long_ struct shmid_ds *buf
);
}
513 AUE_LPATHCONF STD {
int lpathconf(
_In_z_ const char *path,
int name
);
}
Change the cap_rights_t type from uint64_t to a structure that we can extend in the future in a backward compatible (API and ABI) way. The cap_rights_t represents capability rights. We used to use one bit to represent one right, but we are running out of spare bits. Currently the new structure provides place for 114 rights (so 50 more than the previous cap_rights_t), but it is possible to grow the structure to hold at least 285 rights, although we can make it even larger if 285 rights won't be enough. The structure definition looks like this: struct cap_rights { uint64_t cr_rights[CAP_RIGHTS_VERSION + 2]; }; The initial CAP_RIGHTS_VERSION is 0. The top two bits in the first element of the cr_rights[] array contain total number of elements in the array - 2. This means if those two bits are equal to 0, we have 2 array elements. The top two bits in all remaining array elements should be 0. The next five bits in all array elements contain array index. Only one bit is used and bit position in this five-bits range defines array index. This means there can be at most five array elements in the future. To define new right the CAPRIGHT() macro must be used. The macro takes two arguments - an array index and a bit to set, eg. #define CAP_PDKILL CAPRIGHT(1, 0x0000000000000800ULL) We still support aliases that combine few rights, but the rights have to belong to the same array element, eg: #define CAP_LOOKUP CAPRIGHT(0, 0x0000000000000400ULL) #define CAP_FCHMOD CAPRIGHT(0, 0x0000000000002000ULL) #define CAP_FCHMODAT (CAP_FCHMOD | CAP_LOOKUP) There is new API to manage the new cap_rights_t structure: cap_rights_t *cap_rights_init(cap_rights_t *rights, ...); void cap_rights_set(cap_rights_t *rights, ...); void cap_rights_clear(cap_rights_t *rights, ...); bool cap_rights_is_set(const cap_rights_t *rights, ...); bool cap_rights_is_valid(const cap_rights_t *rights); void cap_rights_merge(cap_rights_t *dst, const cap_rights_t *src); void cap_rights_remove(cap_rights_t *dst, const cap_rights_t *src); bool cap_rights_contains(const cap_rights_t *big, const cap_rights_t *little); Capability rights to the cap_rights_init(), cap_rights_set(), cap_rights_clear() and cap_rights_is_set() functions are provided by separating them with commas, eg: cap_rights_t rights; cap_rights_init(&rights, CAP_READ, CAP_WRITE, CAP_FSTAT); There is no need to terminate the list of rights, as those functions are actually macros that take care of the termination, eg: #define cap_rights_set(rights, ...) \ __cap_rights_set((rights), __VA_ARGS__, 0ULL) void __cap_rights_set(cap_rights_t *rights, ...); Thanks to using one bit as an array index we can assert in those functions that there are no two rights belonging to different array elements provided together. For example this is illegal and will be detected, because CAP_LOOKUP belongs to element 0 and CAP_PDKILL to element 1: cap_rights_init(&rights, CAP_LOOKUP | CAP_PDKILL); Providing several rights that belongs to the same array's element this way is correct, but is not advised. It should only be used for aliases definition. This commit also breaks compatibility with some existing Capsicum system calls, but I see no other way to do that. This should be fine as Capsicum is still experimental and this change is not going to 9.x. Sponsored by: The FreeBSD Foundation
2013-09-05 00:09:56 +00:00
514 AUE_NULL OBSOL cap_new
515 AUE_CAP_RIGHTS_GET STD|CAPENABLED {
int __cap_rights_get(
int version,
int fd,
_Out_ cap_rights_t *rightsp
);
}
516 AUE_CAP_ENTER STD|CAPENABLED {
int cap_enter(void);
}
517 AUE_CAP_GETMODE STD|CAPENABLED {
int cap_getmode(
_Out_ u_int *modep
);
}
518 AUE_PDFORK STD|CAPENABLED {
int pdfork(
_Out_ int *fdp,
int flags
);
}
519 AUE_PDKILL STD|CAPENABLED {
int pdkill(
int fd,
int signum
);
}
520 AUE_PDGETPID STD|CAPENABLED {
int pdgetpid(
int fd,
_Out_ pid_t *pidp
);
}
521 AUE_NULL RESERVED
522 AUE_SELECT STD|CAPENABLED {
int pselect(
int nd,
_Inout_opt_ fd_set *in,
_Inout_opt_ fd_set *ou,
_Inout_opt_ fd_set *ex,
_In_opt_ _Contains_long_timet_ const struct timespec *ts,
_In_opt_ const sigset_t *sm
);
}
523 AUE_GETLOGINCLASS STD|CAPENABLED {
int getloginclass(
_Out_writes_z_(namelen) char *namebuf,
size_t namelen
);
}
524 AUE_SETLOGINCLASS STD {
int setloginclass(
_In_z_ const char *namebuf
);
}
525 AUE_NULL STD {
int rctl_get_racct(
_In_reads_bytes_(inbuflen) const void *inbufp,
size_t inbuflen,
_Out_writes_bytes_(outbuflen) void *outbufp,
size_t outbuflen
);
}
526 AUE_NULL STD {
int rctl_get_rules(
_In_reads_bytes_(inbuflen) const void *inbufp,
size_t inbuflen,
_Out_writes_bytes_(outbuflen) void *outbufp,
size_t outbuflen
);
}
527 AUE_NULL STD {
int rctl_get_limits(
_In_reads_bytes_(inbuflen) const void *inbufp,
size_t inbuflen,
_Out_writes_bytes_(outbuflen) void *outbufp,
size_t outbuflen
);
}
528 AUE_NULL STD {
int rctl_add_rule(
_In_reads_bytes_(inbuflen) const void *inbufp,
size_t inbuflen,
_Out_writes_bytes_(outbuflen) void *outbufp,
size_t outbuflen
);
}
529 AUE_NULL STD {
int rctl_remove_rule(
_In_reads_bytes_(inbuflen) const void *inbufp,
size_t inbuflen,
_Out_writes_bytes_(outbuflen) void *outbufp,
size_t outbuflen
);
}
530 AUE_POSIX_FALLOCATE STD|CAPENABLED {
int posix_fallocate(
int fd,
off_t offset,
off_t len
);
}
531 AUE_POSIX_FADVISE STD|CAPENABLED {
int posix_fadvise(
int fd,
off_t offset,
off_t len,
int advice
);
}
532 AUE_WAIT6 STD {
int wait6(
idtype_t idtype,
id_t id,
_Out_opt_ int *status,
int options,
_Out_opt_ _Contains_long_ struct __wrusage *wrusage,
_Out_opt_ _Contains_long_ptr_ struct __siginfo *info
);
}
533 AUE_CAP_RIGHTS_LIMIT STD|CAPENABLED {
int cap_rights_limit(
int fd,
_In_ cap_rights_t *rightsp
);
}
534 AUE_CAP_IOCTLS_LIMIT STD|CAPENABLED {
int cap_ioctls_limit(
int fd,
_In_reads_(ncmds) const u_long *cmds,
size_t ncmds
);
}
535 AUE_CAP_IOCTLS_GET STD|CAPENABLED {
ssize_t cap_ioctls_get(
int fd,
_Out_writes_(maxcmds) u_long *cmds,
size_t maxcmds
);
}
536 AUE_CAP_FCNTLS_LIMIT STD|CAPENABLED {
int cap_fcntls_limit(
int fd,
uint32_t fcntlrights
);
}
537 AUE_CAP_FCNTLS_GET STD|CAPENABLED {
int cap_fcntls_get(
int fd,
_Out_ uint32_t *fcntlrightsp
);
}
538 AUE_BINDAT STD|CAPENABLED {
int bindat(
int fd,
int s,
_In_reads_bytes_(namelen) const struct sockaddr *name,
__socklen_t namelen
);
}
539 AUE_CONNECTAT STD|CAPENABLED {
int connectat(
int fd,
int s,
_In_reads_bytes_(namelen) const struct sockaddr *name,
__socklen_t namelen
);
}
540 AUE_CHFLAGSAT STD|CAPENABLED {
int chflagsat(
int fd,
_In_z_ const char *path,
u_long flags,
int atflag
);
}
541 AUE_ACCEPT STD|CAPENABLED {
int accept4(
int s,
_Out_writes_bytes_opt_(*anamelen) struct sockaddr *name,
_Inout_opt_ __socklen_t *anamelen,
int flags
);
}
542 AUE_PIPE STD|CAPENABLED {
int pipe2(
_Out_writes_(2) int *fildes,
int flags
);
}
543 AUE_AIO_MLOCK STD {
int aio_mlock(
_In_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
544 AUE_PROCCTL STD {
int procctl(
idtype_t idtype,
id_t id,
int com,
_In_opt_ void *data
);
}
545 AUE_POLL STD|CAPENABLED {
int ppoll(
_Inout_updates_(nfds) struct pollfd *fds,
u_int nfds,
_In_opt_ _Contains_long_timet_ const struct timespec *ts,
_In_opt_ const sigset_t *set
);
}
546 AUE_FUTIMES STD|CAPENABLED {
int futimens(
int fd,
_In_reads_(2) _Contains_long_timet_ const struct timespec *times
);
}
547 AUE_FUTIMESAT STD|CAPENABLED {
int utimensat(
int fd,
_In_z_ const char *path,
_In_reads_(2) _Contains_long_timet_ const struct timespec *times,
int flag
);
}
548 AUE_NULL OBSOL numa_getaffinity
549 AUE_NULL OBSOL numa_setaffinity
550 AUE_FSYNC STD|CAPENABLED {
int fdatasync(
int fd
);
}
551 AUE_FSTAT STD|CAPENABLED {
int fstat(
int fd,
_Out_ _Contains_long_timet_ struct stat *sb
);
}
552 AUE_FSTATAT STD|CAPENABLED {
int fstatat(
int fd,
_In_z_ const char *path,
_Out_ _Contains_long_timet_ struct stat *buf,
int flag
);
}
553 AUE_FHSTAT STD {
int fhstat(
_In_ const struct fhandle *u_fhp,
_Out_ _Contains_long_timet_ struct stat *sb
);
}
554 AUE_GETDIRENTRIES STD|CAPENABLED {
ssize_t getdirentries(
int fd,
_Out_writes_bytes_(count) char *buf,
size_t count,
_Out_opt_ off_t *basep
);
}
555 AUE_STATFS STD {
int statfs(
_In_z_ const char *path,
_Out_ struct statfs *buf
);
}
556 AUE_FSTATFS STD|CAPENABLED {
int fstatfs(
int fd,
_Out_ struct statfs *buf
);
}
557 AUE_GETFSSTAT STD {
int getfsstat(
_Out_writes_bytes_opt_(bufsize) struct statfs *buf,
long bufsize,
int mode
);
}
558 AUE_FHSTATFS STD {
int fhstatfs(
_In_ const struct fhandle *u_fhp,
_Out_ struct statfs *buf
);
}
559 AUE_MKNODAT STD|CAPENABLED {
int mknodat(
int fd,
_In_z_ const char *path,
mode_t mode,
dev_t dev
);
}
560 AUE_KEVENT STD|CAPENABLED {
int kevent(
int fd,
_In_reads_opt_(nchanges) _Contains_ptr_ const struct kevent *changelist,
int nchanges,
_Out_writes_opt_(nevents) _Contains_ptr_ struct kevent *eventlist,
int nevents,
_In_opt_ _Contains_long_timet_ const struct timespec *timeout
);
}
561 AUE_NULL STD|CAPENABLED {
int cpuset_getdomain(
cpulevel_t level,
cpuwhich_t which,
id_t id,
size_t domainsetsize,
_Out_writes_bytes_(domainsetsize) domainset_t *mask,
_Out_ int *policy
);
}
562 AUE_NULL STD|CAPENABLED {
int cpuset_setdomain(
cpulevel_t level,
cpuwhich_t which,
id_t id,
size_t domainsetsize,
_In_ domainset_t *mask,
int policy
);
}
563 AUE_NULL STD|CAPENABLED {
int getrandom(
_Out_writes_bytes_(buflen) void *buf,
size_t buflen,
unsigned int flags
);
}
564 AUE_NULL STD {
int getfhat(
int fd,
_In_z_ char *path,
_Out_ struct fhandle *fhp,
int flags
);
}
565 AUE_NULL STD {
int fhlink(
_In_ struct fhandle *fhp,
_In_z_ const char *to
);
}
566 AUE_NULL STD {
int fhlinkat(
_In_ struct fhandle *fhp,
int tofd,
_In_z_ const char *to,
);
}
567 AUE_NULL STD {
int fhreadlink(
_In_ struct fhandle *fhp,
_Out_writes_(bufsize) char *buf,
size_t bufsize
);
}
568 AUE_UNLINKAT STD|CAPENABLED {
int funlinkat(
int dfd,
_In_z_ const char *path,
int fd,
int flag
);
}
569 AUE_NULL STD|CAPENABLED {
ssize_t copy_file_range(
int infd,
_Inout_opt_ off_t *inoffp,
int outfd,
_Inout_opt_ off_t *outoffp,
size_t len,
unsigned int flags
);
}
570 AUE_SYSCTL STD|CAPENABLED {
int __sysctlbyname(
_In_reads_(namelen) const char *name,
size_t namelen,
_Out_writes_bytes_opt_(*oldlenp) void *old,
_Inout_opt_ size_t *oldlenp,
_In_reads_bytes_opt_(newlen) void *new,
size_t newlen
);
}
571 AUE_SHMOPEN STD|CAPENABLED {
int shm_open2(
_In_z_ const char *path,
int flags,
mode_t mode,
int shmflags,
_In_z_ const char *name
);
}
572 AUE_SHMRENAME STD {
int shm_rename(
_In_z_ const char *path_from,
_In_z_ const char *path_to,
int flags
);
}
573 AUE_NULL STD|CAPENABLED {
int sigfastblock(
int cmd,
_Inout_updates_bytes_opt_(4) void *ptr
);
}
574 AUE_REALPATHAT STD {
int __realpathat(
int fd,
_In_z_ const char *path,
_Out_writes_z_(size) char *buf,
size_t size,
int flags
);
}
575 AUE_CLOSERANGE STD|CAPENABLED {
int close_range(
u_int lowfd,
u_int highfd,
int flags
);
}
; 576 is initialised by the krpc code, if present.
576 AUE_NULL NOSTD {
int rpctls_syscall(
int op,
_In_z_ const char *path
);
}
577 AUE_SPECIALFD STD|CAPENABLED {
int __specialfd(
int type,
_In_reads_bytes_(len) const void *req,
size_t len
);
}
578 AUE_AIO_WRITEV STD|CAPENABLED {
int aio_writev(
_Inout_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
579 AUE_AIO_READV STD|CAPENABLED {
int aio_readv(
_Inout_ _Contains_long_ptr_ struct aiocb *aiocbp
);
}
580 AUE_FSPACECTL STD|CAPENABLED {
int fspacectl(
int fd,
int cmd,
_In_ const struct spacectl_range *rqsr,
int flags,
_Out_opt_ struct spacectl_range *rmsr,
);
}
581 AUE_NULL STD|CAPENABLED {
int sched_getcpu(void);
}
582 AUE_SWAPOFF STD {
int swapoff(
_In_z_ const char *name,
u_int flags,
);
}
583 AUE_KQUEUE STD|CAPENABLED {
int kqueuex(
u_int flags
);
}
584 AUE_NULL STD|CAPENABLED {
int membarrier(
int cmd,
unsigned flags,
int cpu_id
);
}
585 AUE_TIMERFD STD|CAPENABLED {
int timerfd_create(
int clockid,
int flags
);
}
586 AUE_TIMERFD STD|CAPENABLED {
int timerfd_gettime(
int fd,
_Out_ _Contains_long_timet_ struct itimerspec *curr_value
);
}
587 AUE_TIMERFD STD|CAPENABLED {
int timerfd_settime(
int fd,
int flags,
_In_ _Contains_long_timet_ const struct itimerspec *new_value,
_Out_opt_ _Contains_long_timet_ struct itimerspec *old_value
);
}
588 AUE_NULL STD {
int kcmp(
pid_t pid1,
pid_t pid2,
int type,
uintptr_t idx1,
uintptr_t idx2
);
}
; vim: syntax=off