#ifndef _SYS_SYSPROTO_H_
#define _SYS_SYSPROTO_H_
#include <sys/appleapiopts.h>
#include <sys/cdefs.h>
#include <sys/mount_internal.h>
#include <sys/types.h>
#include <sys/sem_internal.h>
#include <sys/semaphore.h>
#include <sys/wait.h>
#include <mach/shared_region.h>
#ifdef KERNEL
#ifdef __APPLE_API_PRIVATE
#define PAD_(t) (sizeof(uint64_t) <= sizeof(t) \
? 0 : sizeof(uint64_t) - sizeof(t))
#if BYTE_ORDER == LITTLE_ENDIAN
#define PADL_(t) 0
#define PADR_(t) PAD_(t)
#else
#define PADL_(t) PAD_(t)
#define PADR_(t) 0
#endif
__BEGIN_DECLS
#ifndef __MUNGE_ONCE
#define __MUNGE_ONCE
void munge_w(const void *, void *);
void munge_ww(const void *, void *);
void munge_www(const void *, void *);
void munge_wwww(const void *, void *);
void munge_wwwww(const void *, void *);
void munge_wwwwww(const void *, void *);
void munge_wwwwwww(const void *, void *);
void munge_wwwwwwww(const void *, void *);
void munge_wl(const void *, void *);
void munge_wlw(const void *, void *);
void munge_wwwl(const void *, void *);
void munge_wwwlww(const void *, void *);
void munge_wwlwww(const void *, void *);
void munge_wwwwl(const void *, void *);
void munge_wwwwwl(const void *, void *);
void munge_wsw(const void *, void *);
void munge_wws(const void *, void *);
void munge_wwwsw(const void *, void *);
#ifdef __ppc__
void munge_d(const void *, void *);
void munge_dd(const void *, void *);
void munge_ddd(const void *, void *);
void munge_dddd(const void *, void *);
void munge_ddddd(const void *, void *);
void munge_dddddd(const void *, void *);
void munge_ddddddd(const void *, void *);
void munge_dddddddd(const void *, void *);
#else
#define munge_d NULL
#define munge_dd NULL
#define munge_ddd NULL
#define munge_dddd NULL
#define munge_ddddd NULL
#define munge_dddddd NULL
#define munge_ddddddd NULL
#define munge_dddddddd NULL
#endif // __ppc__
#endif
struct nosys_args {
register_t dummy;
};
struct exit_args {
char rval_l_[PADL_(int)]; int rval; char rval_r_[PADR_(int)];
};
struct fork_args {
register_t dummy;
};
struct read_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char cbuf_l_[PADL_(user_addr_t)]; user_addr_t cbuf; char cbuf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
};
struct write_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char cbuf_l_[PADL_(user_addr_t)]; user_addr_t cbuf; char cbuf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
};
struct open_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
struct close_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
struct wait4_args {
char pid_l_[PADL_(int)]; int pid; char pid_r_[PADR_(int)];
char status_l_[PADL_(user_addr_t)]; user_addr_t status; char status_r_[PADR_(user_addr_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
char rusage_l_[PADL_(user_addr_t)]; user_addr_t rusage; char rusage_r_[PADR_(user_addr_t)];
};
struct link_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char link_l_[PADL_(user_addr_t)]; user_addr_t link; char link_r_[PADR_(user_addr_t)];
};
struct unlink_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct chdir_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct fchdir_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
struct mknod_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char dev_l_[PADL_(int)]; int dev; char dev_r_[PADR_(int)];
};
struct chmod_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
struct chown_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char uid_l_[PADL_(int)]; int uid; char uid_r_[PADR_(int)];
char gid_l_[PADL_(int)]; int gid; char gid_r_[PADR_(int)];
};
struct obreak_args {
char nsize_l_[PADL_(char *)]; char * nsize; char nsize_r_[PADR_(char *)];
};
#if COMPAT_GETFSSTAT
struct ogetfsstat_args {
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(int)]; int bufsize; char bufsize_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
#else
struct getfsstat_args {
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(int)]; int bufsize; char bufsize_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
#endif
struct getpid_args {
register_t dummy;
};
struct setuid_args {
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
};
struct getuid_args {
register_t dummy;
};
struct geteuid_args {
register_t dummy;
};
struct ptrace_args {
char req_l_[PADL_(int)]; int req; char req_r_[PADR_(int)];
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char data_l_[PADL_(int)]; int data; char data_r_[PADR_(int)];
};
#if SOCKETS
struct recvmsg_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char msg_l_[PADL_(user_addr_t)]; user_addr_t msg; char msg_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct sendmsg_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char msg_l_[PADL_(user_addr_t)]; user_addr_t msg; char msg_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct recvfrom_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char from_l_[PADL_(user_addr_t)]; user_addr_t from; char from_r_[PADR_(user_addr_t)];
char fromlenaddr_l_[PADL_(user_addr_t)]; user_addr_t fromlenaddr; char fromlenaddr_r_[PADR_(user_addr_t)];
};
struct accept_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char anamelen_l_[PADL_(user_addr_t)]; user_addr_t anamelen; char anamelen_r_[PADR_(user_addr_t)];
};
struct getpeername_args {
char fdes_l_[PADL_(int)]; int fdes; char fdes_r_[PADR_(int)];
char asa_l_[PADL_(user_addr_t)]; user_addr_t asa; char asa_r_[PADR_(user_addr_t)];
char alen_l_[PADL_(user_addr_t)]; user_addr_t alen; char alen_r_[PADR_(user_addr_t)];
};
struct getsockname_args {
char fdes_l_[PADL_(int)]; int fdes; char fdes_r_[PADR_(int)];
char asa_l_[PADL_(user_addr_t)]; user_addr_t asa; char asa_r_[PADR_(user_addr_t)];
char alen_l_[PADL_(user_addr_t)]; user_addr_t alen; char alen_r_[PADR_(user_addr_t)];
};
#else
#endif
struct access_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct chflags_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct fchflags_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct sync_args {
register_t dummy;
};
struct kill_args {
char pid_l_[PADL_(int)]; int pid; char pid_r_[PADR_(int)];
char signum_l_[PADL_(int)]; int signum; char signum_r_[PADR_(int)];
char posix_l_[PADL_(int)]; int posix; char posix_r_[PADR_(int)];
};
struct getppid_args {
register_t dummy;
};
struct dup_args {
char fd_l_[PADL_(u_int)]; u_int fd; char fd_r_[PADR_(u_int)];
};
struct pipe_args {
register_t dummy;
};
struct getegid_args {
register_t dummy;
};
struct profil_args {
char bufbase_l_[PADL_(user_addr_t)]; user_addr_t bufbase; char bufbase_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(user_size_t)]; user_size_t bufsize; char bufsize_r_[PADR_(user_size_t)];
char pcoffset_l_[PADL_(user_ulong_t)]; user_ulong_t pcoffset; char pcoffset_r_[PADR_(user_ulong_t)];
char pcscale_l_[PADL_(u_int)]; u_int pcscale; char pcscale_r_[PADR_(u_int)];
};
struct sigaction_args {
char signum_l_[PADL_(int)]; int signum; char signum_r_[PADR_(int)];
char nsa_l_[PADL_(user_addr_t)]; user_addr_t nsa; char nsa_r_[PADR_(user_addr_t)];
char osa_l_[PADL_(user_addr_t)]; user_addr_t osa; char osa_r_[PADR_(user_addr_t)];
};
struct getgid_args {
register_t dummy;
};
struct sigprocmask_args {
char how_l_[PADL_(int)]; int how; char how_r_[PADR_(int)];
char mask_l_[PADL_(user_addr_t)]; user_addr_t mask; char mask_r_[PADR_(user_addr_t)];
char omask_l_[PADL_(user_addr_t)]; user_addr_t omask; char omask_r_[PADR_(user_addr_t)];
};
struct getlogin_args {
char namebuf_l_[PADL_(user_addr_t)]; user_addr_t namebuf; char namebuf_r_[PADR_(user_addr_t)];
char namelen_l_[PADL_(u_int)]; u_int namelen; char namelen_r_[PADR_(u_int)];
};
struct setlogin_args {
char namebuf_l_[PADL_(user_addr_t)]; user_addr_t namebuf; char namebuf_r_[PADR_(user_addr_t)];
};
struct acct_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct sigpending_args {
char osv_l_[PADL_(user_addr_t)]; user_addr_t osv; char osv_r_[PADR_(user_addr_t)];
};
struct sigaltstack_args {
char nss_l_[PADL_(user_addr_t)]; user_addr_t nss; char nss_r_[PADR_(user_addr_t)];
char oss_l_[PADL_(user_addr_t)]; user_addr_t oss; char oss_r_[PADR_(user_addr_t)];
};
struct ioctl_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char com_l_[PADL_(user_ulong_t)]; user_ulong_t com; char com_r_[PADR_(user_ulong_t)];
char data_l_[PADL_(user_addr_t)]; user_addr_t data; char data_r_[PADR_(user_addr_t)];
};
struct reboot_args {
char opt_l_[PADL_(int)]; int opt; char opt_r_[PADR_(int)];
char command_l_[PADL_(user_addr_t)]; user_addr_t command; char command_r_[PADR_(user_addr_t)];
};
struct revoke_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct symlink_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char link_l_[PADL_(user_addr_t)]; user_addr_t link; char link_r_[PADR_(user_addr_t)];
};
struct readlink_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char count_l_[PADL_(int)]; int count; char count_r_[PADR_(int)];
};
struct execve_args {
char fname_l_[PADL_(user_addr_t)]; user_addr_t fname; char fname_r_[PADR_(user_addr_t)];
char argp_l_[PADL_(user_addr_t)]; user_addr_t argp; char argp_r_[PADR_(user_addr_t)];
char envp_l_[PADL_(user_addr_t)]; user_addr_t envp; char envp_r_[PADR_(user_addr_t)];
};
struct umask_args {
char newmask_l_[PADL_(int)]; int newmask; char newmask_r_[PADR_(int)];
};
struct chroot_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct msync_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct vfork_args {
register_t dummy;
};
struct sbrk_args {
char incr_l_[PADL_(int)]; int incr; char incr_r_[PADR_(int)];
};
struct sstk_args {
char incr_l_[PADL_(int)]; int incr; char incr_r_[PADR_(int)];
};
struct ovadvise_args {
register_t dummy;
};
struct munmap_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
};
struct mprotect_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char prot_l_[PADL_(int)]; int prot; char prot_r_[PADR_(int)];
};
struct madvise_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char behav_l_[PADL_(int)]; int behav; char behav_r_[PADR_(int)];
};
struct mincore_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char vec_l_[PADL_(user_addr_t)]; user_addr_t vec; char vec_r_[PADR_(user_addr_t)];
};
struct getgroups_args {
char gidsetsize_l_[PADL_(u_int)]; u_int gidsetsize; char gidsetsize_r_[PADR_(u_int)];
char gidset_l_[PADL_(user_addr_t)]; user_addr_t gidset; char gidset_r_[PADR_(user_addr_t)];
};
struct setgroups_args {
char gidsetsize_l_[PADL_(u_int)]; u_int gidsetsize; char gidsetsize_r_[PADR_(u_int)];
char gidset_l_[PADL_(user_addr_t)]; user_addr_t gidset; char gidset_r_[PADR_(user_addr_t)];
};
struct getpgrp_args {
register_t dummy;
};
struct setpgid_args {
char pid_l_[PADL_(int)]; int pid; char pid_r_[PADR_(int)];
char pgid_l_[PADL_(int)]; int pgid; char pgid_r_[PADR_(int)];
};
struct setitimer_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char itv_l_[PADL_(user_addr_t)]; user_addr_t itv; char itv_r_[PADR_(user_addr_t)];
char oitv_l_[PADL_(user_addr_t)]; user_addr_t oitv; char oitv_r_[PADR_(user_addr_t)];
};
struct swapon_args {
register_t dummy;
};
struct getitimer_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char itv_l_[PADL_(user_addr_t)]; user_addr_t itv; char itv_r_[PADR_(user_addr_t)];
};
struct getdtablesize_args {
register_t dummy;
};
struct dup2_args {
char from_l_[PADL_(u_int)]; u_int from; char from_r_[PADR_(u_int)];
char to_l_[PADL_(u_int)]; u_int to; char to_r_[PADR_(u_int)];
};
struct fcntl_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char arg_l_[PADL_(user_long_t)]; user_long_t arg; char arg_r_[PADR_(user_long_t)];
};
struct select_args {
char nd_l_[PADL_(int)]; int nd; char nd_r_[PADR_(int)];
char in_l_[PADL_(user_addr_t)]; user_addr_t in; char in_r_[PADR_(user_addr_t)];
char ou_l_[PADL_(user_addr_t)]; user_addr_t ou; char ou_r_[PADR_(user_addr_t)];
char ex_l_[PADL_(user_addr_t)]; user_addr_t ex; char ex_r_[PADR_(user_addr_t)];
char tv_l_[PADL_(user_addr_t)]; user_addr_t tv; char tv_r_[PADR_(user_addr_t)];
};
struct fsync_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
struct setpriority_args {
char which_l_[PADL_(int)]; int which; char which_r_[PADR_(int)];
char who_l_[PADL_(id_t)]; id_t who; char who_r_[PADR_(id_t)];
char prio_l_[PADL_(int)]; int prio; char prio_r_[PADR_(int)];
};
#if SOCKETS
struct socket_args {
char domain_l_[PADL_(int)]; int domain; char domain_r_[PADR_(int)];
char type_l_[PADL_(int)]; int type; char type_r_[PADR_(int)];
char protocol_l_[PADL_(int)]; int protocol; char protocol_r_[PADR_(int)];
};
struct connect_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char namelen_l_[PADL_(socklen_t)]; socklen_t namelen; char namelen_r_[PADR_(socklen_t)];
};
#else
#endif
struct getpriority_args {
char which_l_[PADL_(int)]; int which; char which_r_[PADR_(int)];
char who_l_[PADL_(id_t)]; id_t who; char who_r_[PADR_(id_t)];
};
#if SOCKETS
struct bind_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char namelen_l_[PADL_(socklen_t)]; socklen_t namelen; char namelen_r_[PADR_(socklen_t)];
};
struct setsockopt_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char level_l_[PADL_(int)]; int level; char level_r_[PADR_(int)];
char name_l_[PADL_(int)]; int name; char name_r_[PADR_(int)];
char val_l_[PADL_(user_addr_t)]; user_addr_t val; char val_r_[PADR_(user_addr_t)];
char valsize_l_[PADL_(socklen_t)]; socklen_t valsize; char valsize_r_[PADR_(socklen_t)];
};
struct listen_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char backlog_l_[PADL_(int)]; int backlog; char backlog_r_[PADR_(int)];
};
#else
#endif
struct sigsuspend_args {
char mask_l_[PADL_(sigset_t)]; sigset_t mask; char mask_r_[PADR_(sigset_t)];
};
#if SOCKETS
#else
#endif
struct gettimeofday_args {
char tp_l_[PADL_(user_addr_t)]; user_addr_t tp; char tp_r_[PADR_(user_addr_t)];
char tzp_l_[PADL_(user_addr_t)]; user_addr_t tzp; char tzp_r_[PADR_(user_addr_t)];
};
struct getrusage_args {
char who_l_[PADL_(int)]; int who; char who_r_[PADR_(int)];
char rusage_l_[PADL_(user_addr_t)]; user_addr_t rusage; char rusage_r_[PADR_(user_addr_t)];
};
#if SOCKETS
struct getsockopt_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char level_l_[PADL_(int)]; int level; char level_r_[PADR_(int)];
char name_l_[PADL_(int)]; int name; char name_r_[PADR_(int)];
char val_l_[PADL_(user_addr_t)]; user_addr_t val; char val_r_[PADR_(user_addr_t)];
char avalsize_l_[PADL_(user_addr_t)]; user_addr_t avalsize; char avalsize_r_[PADR_(user_addr_t)];
};
#else
#endif
struct readv_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char iovp_l_[PADL_(user_addr_t)]; user_addr_t iovp; char iovp_r_[PADR_(user_addr_t)];
char iovcnt_l_[PADL_(u_int)]; u_int iovcnt; char iovcnt_r_[PADR_(u_int)];
};
struct writev_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char iovp_l_[PADL_(user_addr_t)]; user_addr_t iovp; char iovp_r_[PADR_(user_addr_t)];
char iovcnt_l_[PADL_(u_int)]; u_int iovcnt; char iovcnt_r_[PADR_(u_int)];
};
struct settimeofday_args {
char tv_l_[PADL_(user_addr_t)]; user_addr_t tv; char tv_r_[PADR_(user_addr_t)];
char tzp_l_[PADL_(user_addr_t)]; user_addr_t tzp; char tzp_r_[PADR_(user_addr_t)];
};
struct fchown_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char uid_l_[PADL_(int)]; int uid; char uid_r_[PADR_(int)];
char gid_l_[PADL_(int)]; int gid; char gid_r_[PADR_(int)];
};
struct fchmod_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
struct setreuid_args {
char ruid_l_[PADL_(uid_t)]; uid_t ruid; char ruid_r_[PADR_(uid_t)];
char euid_l_[PADL_(uid_t)]; uid_t euid; char euid_r_[PADR_(uid_t)];
};
struct setregid_args {
char rgid_l_[PADL_(gid_t)]; gid_t rgid; char rgid_r_[PADR_(gid_t)];
char egid_l_[PADL_(gid_t)]; gid_t egid; char egid_r_[PADR_(gid_t)];
};
struct rename_args {
char from_l_[PADL_(user_addr_t)]; user_addr_t from; char from_r_[PADR_(user_addr_t)];
char to_l_[PADL_(user_addr_t)]; user_addr_t to; char to_r_[PADR_(user_addr_t)];
};
struct flock_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char how_l_[PADL_(int)]; int how; char how_r_[PADR_(int)];
};
struct mkfifo_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
#if SOCKETS
struct sendto_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char to_l_[PADL_(user_addr_t)]; user_addr_t to; char to_r_[PADR_(user_addr_t)];
char tolen_l_[PADL_(socklen_t)]; socklen_t tolen; char tolen_r_[PADR_(socklen_t)];
};
struct shutdown_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char how_l_[PADL_(int)]; int how; char how_r_[PADR_(int)];
};
struct socketpair_args {
char domain_l_[PADL_(int)]; int domain; char domain_r_[PADR_(int)];
char type_l_[PADL_(int)]; int type; char type_r_[PADR_(int)];
char protocol_l_[PADL_(int)]; int protocol; char protocol_r_[PADR_(int)];
char rsv_l_[PADL_(user_addr_t)]; user_addr_t rsv; char rsv_r_[PADR_(user_addr_t)];
};
#else
#endif
struct mkdir_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
struct rmdir_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct utimes_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char tptr_l_[PADL_(user_addr_t)]; user_addr_t tptr; char tptr_r_[PADR_(user_addr_t)];
};
struct futimes_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char tptr_l_[PADL_(user_addr_t)]; user_addr_t tptr; char tptr_r_[PADR_(user_addr_t)];
};
struct adjtime_args {
char delta_l_[PADL_(user_addr_t)]; user_addr_t delta; char delta_r_[PADR_(user_addr_t)];
char olddelta_l_[PADL_(user_addr_t)]; user_addr_t olddelta; char olddelta_r_[PADR_(user_addr_t)];
};
struct gethostuuid_args {
char uuid_buf_l_[PADL_(user_addr_t)]; user_addr_t uuid_buf; char uuid_buf_r_[PADR_(user_addr_t)];
char timeoutp_l_[PADL_(user_addr_t)]; user_addr_t timeoutp; char timeoutp_r_[PADR_(user_addr_t)];
};
struct setsid_args {
register_t dummy;
};
struct getpgid_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
};
struct setprivexec_args {
char flag_l_[PADL_(int)]; int flag; char flag_r_[PADR_(int)];
};
struct pread_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
char offset_l_[PADL_(off_t)]; off_t offset; char offset_r_[PADR_(off_t)];
};
struct pwrite_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
char offset_l_[PADL_(off_t)]; off_t offset; char offset_r_[PADR_(off_t)];
};
#if NFSSERVER
struct nfssvc_args {
char flag_l_[PADL_(int)]; int flag; char flag_r_[PADR_(int)];
char argp_l_[PADL_(user_addr_t)]; user_addr_t argp; char argp_r_[PADR_(user_addr_t)];
};
#else
#endif
struct statfs_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
};
struct fstatfs_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
};
struct unmount_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
#if NFSSERVER
struct getfh_args {
char fname_l_[PADL_(user_addr_t)]; user_addr_t fname; char fname_r_[PADR_(user_addr_t)];
char fhp_l_[PADL_(user_addr_t)]; user_addr_t fhp; char fhp_r_[PADR_(user_addr_t)];
};
#else
#endif
struct quotactl_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char uid_l_[PADL_(int)]; int uid; char uid_r_[PADR_(int)];
char arg_l_[PADL_(user_addr_t)]; user_addr_t arg; char arg_r_[PADR_(user_addr_t)];
};
struct mount_args {
char type_l_[PADL_(user_addr_t)]; user_addr_t type; char type_r_[PADR_(user_addr_t)];
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char data_l_[PADL_(user_addr_t)]; user_addr_t data; char data_r_[PADR_(user_addr_t)];
};
struct csops_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
char ops_l_[PADL_(uint32_t)]; uint32_t ops; char ops_r_[PADR_(uint32_t)];
char useraddr_l_[PADL_(user_addr_t)]; user_addr_t useraddr; char useraddr_r_[PADR_(user_addr_t)];
char usersize_l_[PADL_(user_size_t)]; user_size_t usersize; char usersize_r_[PADR_(user_size_t)];
};
struct waitid_args {
char idtype_l_[PADL_(idtype_t)]; idtype_t idtype; char idtype_r_[PADR_(idtype_t)];
char id_l_[PADL_(id_t)]; id_t id; char id_r_[PADR_(id_t)];
char infop_l_[PADL_(user_addr_t)]; user_addr_t infop; char infop_r_[PADR_(user_addr_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct add_profil_args {
char bufbase_l_[PADL_(user_addr_t)]; user_addr_t bufbase; char bufbase_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(user_size_t)]; user_size_t bufsize; char bufsize_r_[PADR_(user_size_t)];
char pcoffset_l_[PADL_(user_ulong_t)]; user_ulong_t pcoffset; char pcoffset_r_[PADR_(user_ulong_t)];
char pcscale_l_[PADL_(u_int)]; u_int pcscale; char pcscale_r_[PADR_(u_int)];
};
struct kdebug_trace_args {
char code_l_[PADL_(int)]; int code; char code_r_[PADR_(int)];
char arg1_l_[PADL_(int)]; int arg1; char arg1_r_[PADR_(int)];
char arg2_l_[PADL_(int)]; int arg2; char arg2_r_[PADR_(int)];
char arg3_l_[PADL_(int)]; int arg3; char arg3_r_[PADR_(int)];
char arg4_l_[PADL_(int)]; int arg4; char arg4_r_[PADR_(int)];
char arg5_l_[PADL_(int)]; int arg5; char arg5_r_[PADR_(int)];
};
struct setgid_args {
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
};
struct setegid_args {
char egid_l_[PADL_(gid_t)]; gid_t egid; char egid_r_[PADR_(gid_t)];
};
struct seteuid_args {
char euid_l_[PADL_(uid_t)]; uid_t euid; char euid_r_[PADR_(uid_t)];
};
struct sigreturn_args {
char uctx_l_[PADL_(user_addr_t)]; user_addr_t uctx; char uctx_r_[PADR_(user_addr_t)];
char infostyle_l_[PADL_(int)]; int infostyle; char infostyle_r_[PADR_(int)];
};
struct chud_args {
char code_l_[PADL_(int)]; int code; char code_r_[PADR_(int)];
char arg1_l_[PADL_(int)]; int arg1; char arg1_r_[PADR_(int)];
char arg2_l_[PADL_(int)]; int arg2; char arg2_r_[PADR_(int)];
char arg3_l_[PADL_(int)]; int arg3; char arg3_r_[PADR_(int)];
char arg4_l_[PADL_(int)]; int arg4; char arg4_r_[PADR_(int)];
char arg5_l_[PADL_(int)]; int arg5; char arg5_r_[PADR_(int)];
};
struct stat_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
};
struct fstat_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
};
struct lstat_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
};
struct pathconf_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char name_l_[PADL_(int)]; int name; char name_r_[PADR_(int)];
};
struct fpathconf_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char name_l_[PADL_(int)]; int name; char name_r_[PADR_(int)];
};
struct getrlimit_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char rlp_l_[PADL_(user_addr_t)]; user_addr_t rlp; char rlp_r_[PADR_(user_addr_t)];
};
struct setrlimit_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char rlp_l_[PADL_(user_addr_t)]; user_addr_t rlp; char rlp_r_[PADR_(user_addr_t)];
};
struct getdirentries_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char count_l_[PADL_(u_int)]; u_int count; char count_r_[PADR_(u_int)];
char basep_l_[PADL_(user_addr_t)]; user_addr_t basep; char basep_r_[PADR_(user_addr_t)];
};
struct mmap_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char prot_l_[PADL_(int)]; int prot; char prot_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char pos_l_[PADL_(off_t)]; off_t pos; char pos_r_[PADR_(off_t)];
};
struct lseek_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char offset_l_[PADL_(off_t)]; off_t offset; char offset_r_[PADR_(off_t)];
char whence_l_[PADL_(int)]; int whence; char whence_r_[PADR_(int)];
};
struct truncate_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char length_l_[PADL_(off_t)]; off_t length; char length_r_[PADR_(off_t)];
};
struct ftruncate_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char length_l_[PADL_(off_t)]; off_t length; char length_r_[PADR_(off_t)];
};
struct __sysctl_args {
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char namelen_l_[PADL_(u_int)]; u_int namelen; char namelen_r_[PADR_(u_int)];
char old_l_[PADL_(user_addr_t)]; user_addr_t old; char old_r_[PADR_(user_addr_t)];
char oldlenp_l_[PADL_(user_addr_t)]; user_addr_t oldlenp; char oldlenp_r_[PADR_(user_addr_t)];
char new_l_[PADL_(user_addr_t)]; user_addr_t new; char new_r_[PADR_(user_addr_t)];
char newlen_l_[PADL_(user_size_t)]; user_size_t newlen; char newlen_r_[PADR_(user_size_t)];
};
struct mlock_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
};
struct munlock_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
};
struct undelete_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
#if NETAT
struct ATsocket_args {
char proto_l_[PADL_(int)]; int proto; char proto_r_[PADR_(int)];
};
struct ATgetmsg_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char ctlptr_l_[PADL_(void *)]; void * ctlptr; char ctlptr_r_[PADR_(void *)];
char datptr_l_[PADL_(void *)]; void * datptr; char datptr_r_[PADR_(void *)];
char flags_l_[PADL_(int *)]; int * flags; char flags_r_[PADR_(int *)];
};
struct ATputmsg_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char ctlptr_l_[PADL_(void *)]; void * ctlptr; char ctlptr_r_[PADR_(void *)];
char datptr_l_[PADL_(void *)]; void * datptr; char datptr_r_[PADR_(void *)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct ATPsndreq_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(unsigned char *)]; unsigned char * buf; char buf_r_[PADR_(unsigned char *)];
char len_l_[PADL_(int)]; int len; char len_r_[PADR_(int)];
char nowait_l_[PADL_(int)]; int nowait; char nowait_r_[PADR_(int)];
};
struct ATPsndrsp_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char respbuff_l_[PADL_(unsigned char *)]; unsigned char * respbuff; char respbuff_r_[PADR_(unsigned char *)];
char resplen_l_[PADL_(int)]; int resplen; char resplen_r_[PADR_(int)];
char datalen_l_[PADL_(int)]; int datalen; char datalen_r_[PADR_(int)];
};
struct ATPgetreq_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(unsigned char *)]; unsigned char * buf; char buf_r_[PADR_(unsigned char *)];
char buflen_l_[PADL_(int)]; int buflen; char buflen_r_[PADR_(int)];
};
struct ATPgetrsp_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char bdsp_l_[PADL_(unsigned char *)]; unsigned char * bdsp; char bdsp_r_[PADR_(unsigned char *)];
};
#else
#endif
struct kqueue_from_portset_np_args {
char portset_l_[PADL_(int)]; int portset; char portset_r_[PADR_(int)];
};
struct kqueue_portset_np_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
struct getattrlist_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char alist_l_[PADL_(user_addr_t)]; user_addr_t alist; char alist_r_[PADR_(user_addr_t)];
char attributeBuffer_l_[PADL_(user_addr_t)]; user_addr_t attributeBuffer; char attributeBuffer_r_[PADR_(user_addr_t)];
char bufferSize_l_[PADL_(user_size_t)]; user_size_t bufferSize; char bufferSize_r_[PADR_(user_size_t)];
char options_l_[PADL_(user_ulong_t)]; user_ulong_t options; char options_r_[PADR_(user_ulong_t)];
};
struct setattrlist_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char alist_l_[PADL_(user_addr_t)]; user_addr_t alist; char alist_r_[PADR_(user_addr_t)];
char attributeBuffer_l_[PADL_(user_addr_t)]; user_addr_t attributeBuffer; char attributeBuffer_r_[PADR_(user_addr_t)];
char bufferSize_l_[PADL_(user_size_t)]; user_size_t bufferSize; char bufferSize_r_[PADR_(user_size_t)];
char options_l_[PADL_(user_ulong_t)]; user_ulong_t options; char options_r_[PADR_(user_ulong_t)];
};
struct getdirentriesattr_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char alist_l_[PADL_(user_addr_t)]; user_addr_t alist; char alist_r_[PADR_(user_addr_t)];
char buffer_l_[PADL_(user_addr_t)]; user_addr_t buffer; char buffer_r_[PADR_(user_addr_t)];
char buffersize_l_[PADL_(user_size_t)]; user_size_t buffersize; char buffersize_r_[PADR_(user_size_t)];
char count_l_[PADL_(user_addr_t)]; user_addr_t count; char count_r_[PADR_(user_addr_t)];
char basep_l_[PADL_(user_addr_t)]; user_addr_t basep; char basep_r_[PADR_(user_addr_t)];
char newstate_l_[PADL_(user_addr_t)]; user_addr_t newstate; char newstate_r_[PADR_(user_addr_t)];
char options_l_[PADL_(user_ulong_t)]; user_ulong_t options; char options_r_[PADR_(user_ulong_t)];
};
struct exchangedata_args {
char path1_l_[PADL_(user_addr_t)]; user_addr_t path1; char path1_r_[PADR_(user_addr_t)];
char path2_l_[PADL_(user_addr_t)]; user_addr_t path2; char path2_r_[PADR_(user_addr_t)];
char options_l_[PADL_(user_ulong_t)]; user_ulong_t options; char options_r_[PADR_(user_ulong_t)];
};
struct searchfs_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char searchblock_l_[PADL_(user_addr_t)]; user_addr_t searchblock; char searchblock_r_[PADR_(user_addr_t)];
char nummatches_l_[PADL_(user_addr_t)]; user_addr_t nummatches; char nummatches_r_[PADR_(user_addr_t)];
char scriptcode_l_[PADL_(user_ulong_t)]; user_ulong_t scriptcode; char scriptcode_r_[PADR_(user_ulong_t)];
char options_l_[PADL_(user_ulong_t)]; user_ulong_t options; char options_r_[PADR_(user_ulong_t)];
char state_l_[PADL_(user_addr_t)]; user_addr_t state; char state_r_[PADR_(user_addr_t)];
};
struct delete_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct copyfile_args {
char from_l_[PADL_(user_addr_t)]; user_addr_t from; char from_r_[PADR_(user_addr_t)];
char to_l_[PADL_(user_addr_t)]; user_addr_t to; char to_r_[PADR_(user_addr_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct poll_args {
char fds_l_[PADL_(user_addr_t)]; user_addr_t fds; char fds_r_[PADR_(user_addr_t)];
char nfds_l_[PADL_(u_int)]; u_int nfds; char nfds_r_[PADR_(u_int)];
char timeout_l_[PADL_(int)]; int timeout; char timeout_r_[PADR_(int)];
};
struct watchevent_args {
char u_req_l_[PADL_(user_addr_t)]; user_addr_t u_req; char u_req_r_[PADR_(user_addr_t)];
char u_eventmask_l_[PADL_(int)]; int u_eventmask; char u_eventmask_r_[PADR_(int)];
};
struct waitevent_args {
char u_req_l_[PADL_(user_addr_t)]; user_addr_t u_req; char u_req_r_[PADR_(user_addr_t)];
char tv_l_[PADL_(user_addr_t)]; user_addr_t tv; char tv_r_[PADR_(user_addr_t)];
};
struct modwatch_args {
char u_req_l_[PADL_(user_addr_t)]; user_addr_t u_req; char u_req_r_[PADR_(user_addr_t)];
char u_eventmask_l_[PADL_(int)]; int u_eventmask; char u_eventmask_r_[PADR_(int)];
};
struct getxattr_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char attrname_l_[PADL_(user_addr_t)]; user_addr_t attrname; char attrname_r_[PADR_(user_addr_t)];
char value_l_[PADL_(user_addr_t)]; user_addr_t value; char value_r_[PADR_(user_addr_t)];
char size_l_[PADL_(user_size_t)]; user_size_t size; char size_r_[PADR_(user_size_t)];
char position_l_[PADL_(uint32_t)]; uint32_t position; char position_r_[PADR_(uint32_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct fgetxattr_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char attrname_l_[PADL_(user_addr_t)]; user_addr_t attrname; char attrname_r_[PADR_(user_addr_t)];
char value_l_[PADL_(user_addr_t)]; user_addr_t value; char value_r_[PADR_(user_addr_t)];
char size_l_[PADL_(user_size_t)]; user_size_t size; char size_r_[PADR_(user_size_t)];
char position_l_[PADL_(uint32_t)]; uint32_t position; char position_r_[PADR_(uint32_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct setxattr_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char attrname_l_[PADL_(user_addr_t)]; user_addr_t attrname; char attrname_r_[PADR_(user_addr_t)];
char value_l_[PADL_(user_addr_t)]; user_addr_t value; char value_r_[PADR_(user_addr_t)];
char size_l_[PADL_(user_size_t)]; user_size_t size; char size_r_[PADR_(user_size_t)];
char position_l_[PADL_(uint32_t)]; uint32_t position; char position_r_[PADR_(uint32_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct fsetxattr_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char attrname_l_[PADL_(user_addr_t)]; user_addr_t attrname; char attrname_r_[PADR_(user_addr_t)];
char value_l_[PADL_(user_addr_t)]; user_addr_t value; char value_r_[PADR_(user_addr_t)];
char size_l_[PADL_(user_size_t)]; user_size_t size; char size_r_[PADR_(user_size_t)];
char position_l_[PADL_(uint32_t)]; uint32_t position; char position_r_[PADR_(uint32_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct removexattr_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char attrname_l_[PADL_(user_addr_t)]; user_addr_t attrname; char attrname_r_[PADR_(user_addr_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct fremovexattr_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char attrname_l_[PADL_(user_addr_t)]; user_addr_t attrname; char attrname_r_[PADR_(user_addr_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct listxattr_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char namebuf_l_[PADL_(user_addr_t)]; user_addr_t namebuf; char namebuf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(user_size_t)]; user_size_t bufsize; char bufsize_r_[PADR_(user_size_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct flistxattr_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char namebuf_l_[PADL_(user_addr_t)]; user_addr_t namebuf; char namebuf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(user_size_t)]; user_size_t bufsize; char bufsize_r_[PADR_(user_size_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct fsctl_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char cmd_l_[PADL_(user_ulong_t)]; user_ulong_t cmd; char cmd_r_[PADR_(user_ulong_t)];
char data_l_[PADL_(user_addr_t)]; user_addr_t data; char data_r_[PADR_(user_addr_t)];
char options_l_[PADL_(user_ulong_t)]; user_ulong_t options; char options_r_[PADR_(user_ulong_t)];
};
struct initgroups_args {
char gidsetsize_l_[PADL_(u_int)]; u_int gidsetsize; char gidsetsize_r_[PADR_(u_int)];
char gidset_l_[PADL_(user_addr_t)]; user_addr_t gidset; char gidset_r_[PADR_(user_addr_t)];
char gmuid_l_[PADL_(int)]; int gmuid; char gmuid_r_[PADR_(int)];
};
struct posix_spawn_args {
char pid_l_[PADL_(user_addr_t)]; user_addr_t pid; char pid_r_[PADR_(user_addr_t)];
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char adesc_l_[PADL_(user_addr_t)]; user_addr_t adesc; char adesc_r_[PADR_(user_addr_t)];
char argv_l_[PADL_(user_addr_t)]; user_addr_t argv; char argv_r_[PADR_(user_addr_t)];
char envp_l_[PADL_(user_addr_t)]; user_addr_t envp; char envp_r_[PADR_(user_addr_t)];
};
#if NFSCLIENT
struct nfsclnt_args {
char flag_l_[PADL_(int)]; int flag; char flag_r_[PADR_(int)];
char argp_l_[PADL_(user_addr_t)]; user_addr_t argp; char argp_r_[PADR_(user_addr_t)];
};
#else
#endif
#if NFSSERVER
struct fhopen_args {
char u_fhp_l_[PADL_(user_addr_t)]; user_addr_t u_fhp; char u_fhp_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
#else
#endif
struct minherit_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char inherit_l_[PADL_(int)]; int inherit; char inherit_r_[PADR_(int)];
};
#if SYSV_SEM
struct semsys_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char a2_l_[PADL_(int)]; int a2; char a2_r_[PADR_(int)];
char a3_l_[PADL_(int)]; int a3; char a3_r_[PADR_(int)];
char a4_l_[PADL_(int)]; int a4; char a4_r_[PADR_(int)];
char a5_l_[PADL_(int)]; int a5; char a5_r_[PADR_(int)];
};
#else
#endif
#if SYSV_MSG
struct msgsys_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char a2_l_[PADL_(int)]; int a2; char a2_r_[PADR_(int)];
char a3_l_[PADL_(int)]; int a3; char a3_r_[PADR_(int)];
char a4_l_[PADL_(int)]; int a4; char a4_r_[PADR_(int)];
char a5_l_[PADL_(int)]; int a5; char a5_r_[PADR_(int)];
};
#else
#endif
#if SYSV_SHM
struct shmsys_args {
char which_l_[PADL_(u_int)]; u_int which; char which_r_[PADR_(u_int)];
char a2_l_[PADL_(int)]; int a2; char a2_r_[PADR_(int)];
char a3_l_[PADL_(int)]; int a3; char a3_r_[PADR_(int)];
char a4_l_[PADL_(int)]; int a4; char a4_r_[PADR_(int)];
};
#else
#endif
#if SYSV_SEM
struct semctl_args {
char semid_l_[PADL_(int)]; int semid; char semid_r_[PADR_(int)];
char semnum_l_[PADL_(int)]; int semnum; char semnum_r_[PADR_(int)];
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char arg_l_[PADL_(user_addr_t)]; user_addr_t arg; char arg_r_[PADR_(user_addr_t)];
};
struct semget_args {
char key_l_[PADL_(key_t)]; key_t key; char key_r_[PADR_(key_t)];
char nsems_l_[PADL_(int)]; int nsems; char nsems_r_[PADR_(int)];
char semflg_l_[PADL_(int)]; int semflg; char semflg_r_[PADR_(int)];
};
struct semop_args {
char semid_l_[PADL_(int)]; int semid; char semid_r_[PADR_(int)];
char sops_l_[PADL_(user_addr_t)]; user_addr_t sops; char sops_r_[PADR_(user_addr_t)];
char nsops_l_[PADL_(int)]; int nsops; char nsops_r_[PADR_(int)];
};
#else
#endif
#if SYSV_MSG
struct msgctl_args {
char msqid_l_[PADL_(int)]; int msqid; char msqid_r_[PADR_(int)];
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
};
struct msgget_args {
char key_l_[PADL_(key_t)]; key_t key; char key_r_[PADR_(key_t)];
char msgflg_l_[PADL_(int)]; int msgflg; char msgflg_r_[PADR_(int)];
};
struct msgsnd_args {
char msqid_l_[PADL_(int)]; int msqid; char msqid_r_[PADR_(int)];
char msgp_l_[PADL_(user_addr_t)]; user_addr_t msgp; char msgp_r_[PADR_(user_addr_t)];
char msgsz_l_[PADL_(user_size_t)]; user_size_t msgsz; char msgsz_r_[PADR_(user_size_t)];
char msgflg_l_[PADL_(int)]; int msgflg; char msgflg_r_[PADR_(int)];
};
struct msgrcv_args {
char msqid_l_[PADL_(int)]; int msqid; char msqid_r_[PADR_(int)];
char msgp_l_[PADL_(user_addr_t)]; user_addr_t msgp; char msgp_r_[PADR_(user_addr_t)];
char msgsz_l_[PADL_(user_size_t)]; user_size_t msgsz; char msgsz_r_[PADR_(user_size_t)];
char msgtyp_l_[PADL_(user_long_t)]; user_long_t msgtyp; char msgtyp_r_[PADR_(user_long_t)];
char msgflg_l_[PADL_(int)]; int msgflg; char msgflg_r_[PADR_(int)];
};
#else
#endif
#if SYSV_SHM
struct shmat_args {
char shmid_l_[PADL_(int)]; int shmid; char shmid_r_[PADR_(int)];
char shmaddr_l_[PADL_(user_addr_t)]; user_addr_t shmaddr; char shmaddr_r_[PADR_(user_addr_t)];
char shmflg_l_[PADL_(int)]; int shmflg; char shmflg_r_[PADR_(int)];
};
struct shmctl_args {
char shmid_l_[PADL_(int)]; int shmid; char shmid_r_[PADR_(int)];
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
};
struct shmdt_args {
char shmaddr_l_[PADL_(user_addr_t)]; user_addr_t shmaddr; char shmaddr_r_[PADR_(user_addr_t)];
};
struct shmget_args {
char key_l_[PADL_(key_t)]; key_t key; char key_r_[PADR_(key_t)];
char size_l_[PADL_(user_size_t)]; user_size_t size; char size_r_[PADR_(user_size_t)];
char shmflg_l_[PADL_(int)]; int shmflg; char shmflg_r_[PADR_(int)];
};
#else
#endif
struct shm_open_args {
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char oflag_l_[PADL_(int)]; int oflag; char oflag_r_[PADR_(int)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
struct shm_unlink_args {
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
};
struct sem_open_args {
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char oflag_l_[PADL_(int)]; int oflag; char oflag_r_[PADR_(int)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char value_l_[PADL_(int)]; int value; char value_r_[PADR_(int)];
};
struct sem_close_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
};
struct sem_unlink_args {
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
};
struct sem_wait_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
};
struct sem_trywait_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
};
struct sem_post_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
};
struct sem_getvalue_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
char sval_l_[PADL_(user_addr_t)]; user_addr_t sval; char sval_r_[PADR_(user_addr_t)];
};
struct sem_init_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
char phsared_l_[PADL_(int)]; int phsared; char phsared_r_[PADR_(int)];
char value_l_[PADL_(u_int)]; u_int value; char value_r_[PADR_(u_int)];
};
struct sem_destroy_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
};
struct open_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
};
struct umask_extended_args {
char newmask_l_[PADL_(int)]; int newmask; char newmask_r_[PADR_(int)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
};
struct stat_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
char xsecurity_size_l_[PADL_(user_addr_t)]; user_addr_t xsecurity_size; char xsecurity_size_r_[PADR_(user_addr_t)];
};
struct lstat_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
char xsecurity_size_l_[PADL_(user_addr_t)]; user_addr_t xsecurity_size; char xsecurity_size_r_[PADR_(user_addr_t)];
};
struct fstat_extended_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
char xsecurity_size_l_[PADL_(user_addr_t)]; user_addr_t xsecurity_size; char xsecurity_size_r_[PADR_(user_addr_t)];
};
struct chmod_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
};
struct fchmod_extended_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
};
struct access_extended_args {
char entries_l_[PADL_(user_addr_t)]; user_addr_t entries; char entries_r_[PADR_(user_addr_t)];
char size_l_[PADL_(user_size_t)]; user_size_t size; char size_r_[PADR_(user_size_t)];
char results_l_[PADL_(user_addr_t)]; user_addr_t results; char results_r_[PADR_(user_addr_t)];
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
};
struct settid_args {
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
};
struct gettid_args {
char uidp_l_[PADL_(user_addr_t)]; user_addr_t uidp; char uidp_r_[PADR_(user_addr_t)];
char gidp_l_[PADL_(user_addr_t)]; user_addr_t gidp; char gidp_r_[PADR_(user_addr_t)];
};
struct setsgroups_args {
char setlen_l_[PADL_(int)]; int setlen; char setlen_r_[PADR_(int)];
char guidset_l_[PADL_(user_addr_t)]; user_addr_t guidset; char guidset_r_[PADR_(user_addr_t)];
};
struct getsgroups_args {
char setlen_l_[PADL_(user_addr_t)]; user_addr_t setlen; char setlen_r_[PADR_(user_addr_t)];
char guidset_l_[PADL_(user_addr_t)]; user_addr_t guidset; char guidset_r_[PADR_(user_addr_t)];
};
struct setwgroups_args {
char setlen_l_[PADL_(int)]; int setlen; char setlen_r_[PADR_(int)];
char guidset_l_[PADL_(user_addr_t)]; user_addr_t guidset; char guidset_r_[PADR_(user_addr_t)];
};
struct getwgroups_args {
char setlen_l_[PADL_(user_addr_t)]; user_addr_t setlen; char setlen_r_[PADR_(user_addr_t)];
char guidset_l_[PADL_(user_addr_t)]; user_addr_t guidset; char guidset_r_[PADR_(user_addr_t)];
};
struct mkfifo_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
};
struct mkdir_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char uid_l_[PADL_(uid_t)]; uid_t uid; char uid_r_[PADR_(uid_t)];
char gid_l_[PADL_(gid_t)]; gid_t gid; char gid_r_[PADR_(gid_t)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
};
struct identitysvc_args {
char opcode_l_[PADL_(int)]; int opcode; char opcode_r_[PADR_(int)];
char message_l_[PADL_(user_addr_t)]; user_addr_t message; char message_r_[PADR_(user_addr_t)];
};
struct shared_region_check_np_args {
char start_address_l_[PADL_(user_addr_t)]; user_addr_t start_address; char start_address_r_[PADR_(user_addr_t)];
};
struct shared_region_map_np_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char count_l_[PADL_(uint32_t)]; uint32_t count; char count_r_[PADR_(uint32_t)];
char mappings_l_[PADL_(user_addr_t)]; user_addr_t mappings; char mappings_r_[PADR_(user_addr_t)];
};
struct __pthread_mutex_destroy_args {
char mutexid_l_[PADL_(int)]; int mutexid; char mutexid_r_[PADR_(int)];
};
struct __pthread_mutex_init_args {
char mutex_l_[PADL_(user_addr_t)]; user_addr_t mutex; char mutex_r_[PADR_(user_addr_t)];
char attr_l_[PADL_(user_addr_t)]; user_addr_t attr; char attr_r_[PADR_(user_addr_t)];
};
struct __pthread_mutex_lock_args {
char mutexid_l_[PADL_(int)]; int mutexid; char mutexid_r_[PADR_(int)];
};
struct __pthread_mutex_trylock_args {
char mutexid_l_[PADL_(int)]; int mutexid; char mutexid_r_[PADR_(int)];
};
struct __pthread_mutex_unlock_args {
char mutexid_l_[PADL_(int)]; int mutexid; char mutexid_r_[PADR_(int)];
};
struct __pthread_cond_init_args {
char cond_l_[PADL_(user_addr_t)]; user_addr_t cond; char cond_r_[PADR_(user_addr_t)];
char attr_l_[PADL_(user_addr_t)]; user_addr_t attr; char attr_r_[PADR_(user_addr_t)];
};
struct __pthread_cond_destroy_args {
char condid_l_[PADL_(int)]; int condid; char condid_r_[PADR_(int)];
};
struct __pthread_cond_broadcast_args {
char condid_l_[PADL_(int)]; int condid; char condid_r_[PADR_(int)];
};
struct __pthread_cond_signal_args {
char condid_l_[PADL_(int)]; int condid; char condid_r_[PADR_(int)];
};
struct getsid_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
};
struct settid_with_pid_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
char assume_l_[PADL_(int)]; int assume; char assume_r_[PADR_(int)];
};
struct __pthread_cond_timedwait_args {
char condid_l_[PADL_(int)]; int condid; char condid_r_[PADR_(int)];
char mutexid_l_[PADL_(int)]; int mutexid; char mutexid_r_[PADR_(int)];
char abstime_l_[PADL_(user_addr_t)]; user_addr_t abstime; char abstime_r_[PADR_(user_addr_t)];
};
struct aio_fsync_args {
char op_l_[PADL_(int)]; int op; char op_r_[PADR_(int)];
char aiocbp_l_[PADL_(user_addr_t)]; user_addr_t aiocbp; char aiocbp_r_[PADR_(user_addr_t)];
};
struct aio_return_args {
char aiocbp_l_[PADL_(user_addr_t)]; user_addr_t aiocbp; char aiocbp_r_[PADR_(user_addr_t)];
};
struct aio_suspend_args {
char aiocblist_l_[PADL_(user_addr_t)]; user_addr_t aiocblist; char aiocblist_r_[PADR_(user_addr_t)];
char nent_l_[PADL_(int)]; int nent; char nent_r_[PADR_(int)];
char timeoutp_l_[PADL_(user_addr_t)]; user_addr_t timeoutp; char timeoutp_r_[PADR_(user_addr_t)];
};
struct aio_cancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char aiocbp_l_[PADL_(user_addr_t)]; user_addr_t aiocbp; char aiocbp_r_[PADR_(user_addr_t)];
};
struct aio_error_args {
char aiocbp_l_[PADL_(user_addr_t)]; user_addr_t aiocbp; char aiocbp_r_[PADR_(user_addr_t)];
};
struct aio_read_args {
char aiocbp_l_[PADL_(user_addr_t)]; user_addr_t aiocbp; char aiocbp_r_[PADR_(user_addr_t)];
};
struct aio_write_args {
char aiocbp_l_[PADL_(user_addr_t)]; user_addr_t aiocbp; char aiocbp_r_[PADR_(user_addr_t)];
};
struct lio_listio_args {
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
char aiocblist_l_[PADL_(user_addr_t)]; user_addr_t aiocblist; char aiocblist_r_[PADR_(user_addr_t)];
char nent_l_[PADL_(int)]; int nent; char nent_r_[PADR_(int)];
char sigp_l_[PADL_(user_addr_t)]; user_addr_t sigp; char sigp_r_[PADR_(user_addr_t)];
};
struct __pthread_cond_wait_args {
char condid_l_[PADL_(int)]; int condid; char condid_r_[PADR_(int)];
char mutexid_l_[PADL_(int)]; int mutexid; char mutexid_r_[PADR_(int)];
};
struct iopolicysys_args {
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char arg_l_[PADL_(user_addr_t)]; user_addr_t arg; char arg_r_[PADR_(user_addr_t)];
};
struct mlockall_args {
char how_l_[PADL_(int)]; int how; char how_r_[PADR_(int)];
};
struct munlockall_args {
char how_l_[PADL_(int)]; int how; char how_r_[PADR_(int)];
};
struct issetugid_args {
register_t dummy;
};
struct __pthread_kill_args {
char thread_port_l_[PADL_(int)]; int thread_port; char thread_port_r_[PADR_(int)];
char sig_l_[PADL_(int)]; int sig; char sig_r_[PADR_(int)];
};
struct __pthread_sigmask_args {
char how_l_[PADL_(int)]; int how; char how_r_[PADR_(int)];
char set_l_[PADL_(user_addr_t)]; user_addr_t set; char set_r_[PADR_(user_addr_t)];
char oset_l_[PADL_(user_addr_t)]; user_addr_t oset; char oset_r_[PADR_(user_addr_t)];
};
struct __sigwait_args {
char set_l_[PADL_(user_addr_t)]; user_addr_t set; char set_r_[PADR_(user_addr_t)];
char sig_l_[PADL_(user_addr_t)]; user_addr_t sig; char sig_r_[PADR_(user_addr_t)];
};
struct __disable_threadsignal_args {
char value_l_[PADL_(int)]; int value; char value_r_[PADR_(int)];
};
struct __pthread_markcancel_args {
char thread_port_l_[PADL_(int)]; int thread_port; char thread_port_r_[PADR_(int)];
};
struct __pthread_canceled_args {
char action_l_[PADL_(int)]; int action; char action_r_[PADR_(int)];
};
struct __semwait_signal_args {
char cond_sem_l_[PADL_(int)]; int cond_sem; char cond_sem_r_[PADR_(int)];
char mutex_sem_l_[PADL_(int)]; int mutex_sem; char mutex_sem_r_[PADR_(int)];
char timeout_l_[PADL_(int)]; int timeout; char timeout_r_[PADR_(int)];
char relative_l_[PADL_(int)]; int relative; char relative_r_[PADR_(int)];
char tv_sec_l_[PADL_(time_t)]; time_t tv_sec; char tv_sec_r_[PADR_(time_t)];
char tv_nsec_l_[PADL_(int32_t)]; int32_t tv_nsec; char tv_nsec_r_[PADR_(int32_t)];
};
struct proc_info_args {
char callnum_l_[PADL_(int32_t)]; int32_t callnum; char callnum_r_[PADR_(int32_t)];
char pid_l_[PADL_(int32_t)]; int32_t pid; char pid_r_[PADR_(int32_t)];
char flavor_l_[PADL_(uint32_t)]; uint32_t flavor; char flavor_r_[PADR_(uint32_t)];
char arg_l_[PADL_(uint64_t)]; uint64_t arg; char arg_r_[PADR_(uint64_t)];
char buffer_l_[PADL_(user_addr_t)]; user_addr_t buffer; char buffer_r_[PADR_(user_addr_t)];
char buffersize_l_[PADL_(int32_t)]; int32_t buffersize; char buffersize_r_[PADR_(int32_t)];
};
#if SENDFILE
struct sendfile_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char offset_l_[PADL_(off_t)]; off_t offset; char offset_r_[PADR_(off_t)];
char nbytes_l_[PADL_(user_addr_t)]; user_addr_t nbytes; char nbytes_r_[PADR_(user_addr_t)];
char hdtr_l_[PADL_(user_addr_t)]; user_addr_t hdtr; char hdtr_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
#else
#endif
struct stat64_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
};
struct fstat64_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
};
struct lstat64_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
};
struct stat64_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
char xsecurity_size_l_[PADL_(user_addr_t)]; user_addr_t xsecurity_size; char xsecurity_size_r_[PADR_(user_addr_t)];
};
struct lstat64_extended_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
char xsecurity_size_l_[PADL_(user_addr_t)]; user_addr_t xsecurity_size; char xsecurity_size_r_[PADR_(user_addr_t)];
};
struct fstat64_extended_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char ub_l_[PADL_(user_addr_t)]; user_addr_t ub; char ub_r_[PADR_(user_addr_t)];
char xsecurity_l_[PADL_(user_addr_t)]; user_addr_t xsecurity; char xsecurity_r_[PADR_(user_addr_t)];
char xsecurity_size_l_[PADL_(user_addr_t)]; user_addr_t xsecurity_size; char xsecurity_size_r_[PADR_(user_addr_t)];
};
struct getdirentries64_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(user_size_t)]; user_size_t bufsize; char bufsize_r_[PADR_(user_size_t)];
char position_l_[PADL_(user_addr_t)]; user_addr_t position; char position_r_[PADR_(user_addr_t)];
};
struct statfs64_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
};
struct fstatfs64_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
};
struct getfsstat64_args {
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(int)]; int bufsize; char bufsize_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct __pthread_chdir_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
struct __pthread_fchdir_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
#if AUDIT
struct audit_args {
char record_l_[PADL_(user_addr_t)]; user_addr_t record; char record_r_[PADR_(user_addr_t)];
char length_l_[PADL_(int)]; int length; char length_r_[PADR_(int)];
};
struct auditon_args {
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char data_l_[PADL_(user_addr_t)]; user_addr_t data; char data_r_[PADR_(user_addr_t)];
char length_l_[PADL_(int)]; int length; char length_r_[PADR_(int)];
};
struct getauid_args {
char auid_l_[PADL_(user_addr_t)]; user_addr_t auid; char auid_r_[PADR_(user_addr_t)];
};
struct setauid_args {
char auid_l_[PADL_(user_addr_t)]; user_addr_t auid; char auid_r_[PADR_(user_addr_t)];
};
struct getaudit_args {
char auditinfo_l_[PADL_(user_addr_t)]; user_addr_t auditinfo; char auditinfo_r_[PADR_(user_addr_t)];
};
struct setaudit_args {
char auditinfo_l_[PADL_(user_addr_t)]; user_addr_t auditinfo; char auditinfo_r_[PADR_(user_addr_t)];
};
struct getaudit_addr_args {
char auditinfo_addr_l_[PADL_(user_addr_t)]; user_addr_t auditinfo_addr; char auditinfo_addr_r_[PADR_(user_addr_t)];
char length_l_[PADL_(int)]; int length; char length_r_[PADR_(int)];
};
struct setaudit_addr_args {
char auditinfo_addr_l_[PADL_(user_addr_t)]; user_addr_t auditinfo_addr; char auditinfo_addr_r_[PADR_(user_addr_t)];
char length_l_[PADL_(int)]; int length; char length_r_[PADR_(int)];
};
struct auditctl_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
};
#else
#endif
struct bsdthread_create_args {
char func_l_[PADL_(user_addr_t)]; user_addr_t func; char func_r_[PADR_(user_addr_t)];
char func_arg_l_[PADL_(user_addr_t)]; user_addr_t func_arg; char func_arg_r_[PADR_(user_addr_t)];
char stack_l_[PADL_(user_addr_t)]; user_addr_t stack; char stack_r_[PADR_(user_addr_t)];
char pthread_l_[PADL_(user_addr_t)]; user_addr_t pthread; char pthread_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(uint32_t)]; uint32_t flags; char flags_r_[PADR_(uint32_t)];
};
struct bsdthread_terminate_args {
char stackaddr_l_[PADL_(user_addr_t)]; user_addr_t stackaddr; char stackaddr_r_[PADR_(user_addr_t)];
char freesize_l_[PADL_(user_size_t)]; user_size_t freesize; char freesize_r_[PADR_(user_size_t)];
char port_l_[PADL_(uint32_t)]; uint32_t port; char port_r_[PADR_(uint32_t)];
char sem_l_[PADL_(uint32_t)]; uint32_t sem; char sem_r_[PADR_(uint32_t)];
};
struct kqueue_args {
register_t dummy;
};
struct kevent_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char changelist_l_[PADL_(user_addr_t)]; user_addr_t changelist; char changelist_r_[PADR_(user_addr_t)];
char nchanges_l_[PADL_(int)]; int nchanges; char nchanges_r_[PADR_(int)];
char eventlist_l_[PADL_(user_addr_t)]; user_addr_t eventlist; char eventlist_r_[PADR_(user_addr_t)];
char nevents_l_[PADL_(int)]; int nevents; char nevents_r_[PADR_(int)];
char timeout_l_[PADL_(user_addr_t)]; user_addr_t timeout; char timeout_r_[PADR_(user_addr_t)];
};
struct lchown_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char owner_l_[PADL_(uid_t)]; uid_t owner; char owner_r_[PADR_(uid_t)];
char group_l_[PADL_(gid_t)]; gid_t group; char group_r_[PADR_(gid_t)];
};
struct stack_snapshot_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
char tracebuf_l_[PADL_(user_addr_t)]; user_addr_t tracebuf; char tracebuf_r_[PADR_(user_addr_t)];
char tracebuf_size_l_[PADL_(uint32_t)]; uint32_t tracebuf_size; char tracebuf_size_r_[PADR_(uint32_t)];
char options_l_[PADL_(uint32_t)]; uint32_t options; char options_r_[PADR_(uint32_t)];
};
struct bsdthread_register_args {
char threadstart_l_[PADL_(user_addr_t)]; user_addr_t threadstart; char threadstart_r_[PADR_(user_addr_t)];
char wqthread_l_[PADL_(user_addr_t)]; user_addr_t wqthread; char wqthread_r_[PADR_(user_addr_t)];
char pthsize_l_[PADL_(int)]; int pthsize; char pthsize_r_[PADR_(int)];
};
struct workq_open_args {
register_t dummy;
};
struct workq_ops_args {
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
char item_l_[PADL_(user_addr_t)]; user_addr_t item; char item_r_[PADR_(user_addr_t)];
char prio_l_[PADL_(int)]; int prio; char prio_r_[PADR_(int)];
};
struct __mac_execve_args {
char fname_l_[PADL_(user_addr_t)]; user_addr_t fname; char fname_r_[PADR_(user_addr_t)];
char argp_l_[PADL_(user_addr_t)]; user_addr_t argp; char argp_r_[PADR_(user_addr_t)];
char envp_l_[PADL_(user_addr_t)]; user_addr_t envp; char envp_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_syscall_args {
char policy_l_[PADL_(user_addr_t)]; user_addr_t policy; char policy_r_[PADR_(user_addr_t)];
char call_l_[PADL_(int)]; int call; char call_r_[PADR_(int)];
char arg_l_[PADL_(user_addr_t)]; user_addr_t arg; char arg_r_[PADR_(user_addr_t)];
};
struct __mac_get_file_args {
char path_p_l_[PADL_(user_addr_t)]; user_addr_t path_p; char path_p_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_set_file_args {
char path_p_l_[PADL_(user_addr_t)]; user_addr_t path_p; char path_p_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_link_args {
char path_p_l_[PADL_(user_addr_t)]; user_addr_t path_p; char path_p_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_set_link_args {
char path_p_l_[PADL_(user_addr_t)]; user_addr_t path_p; char path_p_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_proc_args {
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_set_proc_args {
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_fd_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_set_fd_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_pid_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_lcid_args {
char lcid_l_[PADL_(pid_t)]; pid_t lcid; char lcid_r_[PADR_(pid_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_lctx_args {
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_set_lctx_args {
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct setlcid_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
char lcid_l_[PADL_(pid_t)]; pid_t lcid; char lcid_r_[PADR_(pid_t)];
};
struct getlcid_args {
char pid_l_[PADL_(pid_t)]; pid_t pid; char pid_r_[PADR_(pid_t)];
};
struct read_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char cbuf_l_[PADL_(user_addr_t)]; user_addr_t cbuf; char cbuf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
};
struct write_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char cbuf_l_[PADL_(user_addr_t)]; user_addr_t cbuf; char cbuf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
};
struct open_nocancel_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char mode_l_[PADL_(int)]; int mode; char mode_r_[PADR_(int)];
};
struct close_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
struct wait4_nocancel_args {
char pid_l_[PADL_(int)]; int pid; char pid_r_[PADR_(int)];
char status_l_[PADL_(user_addr_t)]; user_addr_t status; char status_r_[PADR_(user_addr_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
char rusage_l_[PADL_(user_addr_t)]; user_addr_t rusage; char rusage_r_[PADR_(user_addr_t)];
};
#if SOCKETS
struct recvmsg_nocancel_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char msg_l_[PADL_(user_addr_t)]; user_addr_t msg; char msg_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct sendmsg_nocancel_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char msg_l_[PADL_(user_addr_t)]; user_addr_t msg; char msg_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct recvfrom_nocancel_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char from_l_[PADL_(user_addr_t)]; user_addr_t from; char from_r_[PADR_(user_addr_t)];
char fromlenaddr_l_[PADL_(user_addr_t)]; user_addr_t fromlenaddr; char fromlenaddr_r_[PADR_(user_addr_t)];
};
struct accept_nocancel_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char anamelen_l_[PADL_(user_addr_t)]; user_addr_t anamelen; char anamelen_r_[PADR_(user_addr_t)];
};
#else
#endif
struct msync_nocancel_args {
char addr_l_[PADL_(user_addr_t)]; user_addr_t addr; char addr_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
struct fcntl_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char cmd_l_[PADL_(int)]; int cmd; char cmd_r_[PADR_(int)];
char arg_l_[PADL_(user_long_t)]; user_long_t arg; char arg_r_[PADR_(user_long_t)];
};
struct select_nocancel_args {
char nd_l_[PADL_(int)]; int nd; char nd_r_[PADR_(int)];
char in_l_[PADL_(user_addr_t)]; user_addr_t in; char in_r_[PADR_(user_addr_t)];
char ou_l_[PADL_(user_addr_t)]; user_addr_t ou; char ou_r_[PADR_(user_addr_t)];
char ex_l_[PADL_(user_addr_t)]; user_addr_t ex; char ex_r_[PADR_(user_addr_t)];
char tv_l_[PADL_(user_addr_t)]; user_addr_t tv; char tv_r_[PADR_(user_addr_t)];
};
struct fsync_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
};
#if SOCKETS
struct connect_nocancel_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char name_l_[PADL_(user_addr_t)]; user_addr_t name; char name_r_[PADR_(user_addr_t)];
char namelen_l_[PADL_(socklen_t)]; socklen_t namelen; char namelen_r_[PADR_(socklen_t)];
};
#else
#endif
struct sigsuspend_nocancel_args {
char mask_l_[PADL_(sigset_t)]; sigset_t mask; char mask_r_[PADR_(sigset_t)];
};
struct readv_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char iovp_l_[PADL_(user_addr_t)]; user_addr_t iovp; char iovp_r_[PADR_(user_addr_t)];
char iovcnt_l_[PADL_(u_int)]; u_int iovcnt; char iovcnt_r_[PADR_(u_int)];
};
struct writev_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char iovp_l_[PADL_(user_addr_t)]; user_addr_t iovp; char iovp_r_[PADR_(user_addr_t)];
char iovcnt_l_[PADL_(u_int)]; u_int iovcnt; char iovcnt_r_[PADR_(u_int)];
};
#if SOCKETS
struct sendto_nocancel_args {
char s_l_[PADL_(int)]; int s; char s_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char len_l_[PADL_(user_size_t)]; user_size_t len; char len_r_[PADR_(user_size_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char to_l_[PADL_(user_addr_t)]; user_addr_t to; char to_r_[PADR_(user_addr_t)];
char tolen_l_[PADL_(socklen_t)]; socklen_t tolen; char tolen_r_[PADR_(socklen_t)];
};
#else
#endif
struct pread_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
char offset_l_[PADL_(off_t)]; off_t offset; char offset_r_[PADR_(off_t)];
};
struct pwrite_nocancel_args {
char fd_l_[PADL_(int)]; int fd; char fd_r_[PADR_(int)];
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char nbyte_l_[PADL_(user_size_t)]; user_size_t nbyte; char nbyte_r_[PADR_(user_size_t)];
char offset_l_[PADL_(off_t)]; off_t offset; char offset_r_[PADR_(off_t)];
};
struct waitid_nocancel_args {
char idtype_l_[PADL_(idtype_t)]; idtype_t idtype; char idtype_r_[PADR_(idtype_t)];
char id_l_[PADL_(id_t)]; id_t id; char id_r_[PADR_(id_t)];
char infop_l_[PADL_(user_addr_t)]; user_addr_t infop; char infop_r_[PADR_(user_addr_t)];
char options_l_[PADL_(int)]; int options; char options_r_[PADR_(int)];
};
struct poll_nocancel_args {
char fds_l_[PADL_(user_addr_t)]; user_addr_t fds; char fds_r_[PADR_(user_addr_t)];
char nfds_l_[PADL_(u_int)]; u_int nfds; char nfds_r_[PADR_(u_int)];
char timeout_l_[PADL_(int)]; int timeout; char timeout_r_[PADR_(int)];
};
#if SYSV_MSG
struct msgsnd_nocancel_args {
char msqid_l_[PADL_(int)]; int msqid; char msqid_r_[PADR_(int)];
char msgp_l_[PADL_(user_addr_t)]; user_addr_t msgp; char msgp_r_[PADR_(user_addr_t)];
char msgsz_l_[PADL_(user_size_t)]; user_size_t msgsz; char msgsz_r_[PADR_(user_size_t)];
char msgflg_l_[PADL_(int)]; int msgflg; char msgflg_r_[PADR_(int)];
};
struct msgrcv_nocancel_args {
char msqid_l_[PADL_(int)]; int msqid; char msqid_r_[PADR_(int)];
char msgp_l_[PADL_(user_addr_t)]; user_addr_t msgp; char msgp_r_[PADR_(user_addr_t)];
char msgsz_l_[PADL_(user_size_t)]; user_size_t msgsz; char msgsz_r_[PADR_(user_size_t)];
char msgtyp_l_[PADL_(user_long_t)]; user_long_t msgtyp; char msgtyp_r_[PADR_(user_long_t)];
char msgflg_l_[PADL_(int)]; int msgflg; char msgflg_r_[PADR_(int)];
};
#else
#endif
struct sem_wait_nocancel_args {
char sem_l_[PADL_(user_addr_t)]; user_addr_t sem; char sem_r_[PADR_(user_addr_t)];
};
struct aio_suspend_nocancel_args {
char aiocblist_l_[PADL_(user_addr_t)]; user_addr_t aiocblist; char aiocblist_r_[PADR_(user_addr_t)];
char nent_l_[PADL_(int)]; int nent; char nent_r_[PADR_(int)];
char timeoutp_l_[PADL_(user_addr_t)]; user_addr_t timeoutp; char timeoutp_r_[PADR_(user_addr_t)];
};
struct __sigwait_nocancel_args {
char set_l_[PADL_(user_addr_t)]; user_addr_t set; char set_r_[PADR_(user_addr_t)];
char sig_l_[PADL_(user_addr_t)]; user_addr_t sig; char sig_r_[PADR_(user_addr_t)];
};
struct __semwait_signal_nocancel_args {
char cond_sem_l_[PADL_(int)]; int cond_sem; char cond_sem_r_[PADR_(int)];
char mutex_sem_l_[PADL_(int)]; int mutex_sem; char mutex_sem_r_[PADR_(int)];
char timeout_l_[PADL_(int)]; int timeout; char timeout_r_[PADR_(int)];
char relative_l_[PADL_(int)]; int relative; char relative_r_[PADR_(int)];
char tv_sec_l_[PADL_(time_t)]; time_t tv_sec; char tv_sec_r_[PADR_(time_t)];
char tv_nsec_l_[PADL_(int32_t)]; int32_t tv_nsec; char tv_nsec_r_[PADR_(int32_t)];
};
struct __mac_mount_args {
char type_l_[PADL_(user_addr_t)]; user_addr_t type; char type_r_[PADR_(user_addr_t)];
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
char data_l_[PADL_(user_addr_t)]; user_addr_t data; char data_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_get_mount_args {
char path_l_[PADL_(user_addr_t)]; user_addr_t path; char path_r_[PADR_(user_addr_t)];
char mac_p_l_[PADL_(user_addr_t)]; user_addr_t mac_p; char mac_p_r_[PADR_(user_addr_t)];
};
struct __mac_getfsstat_args {
char buf_l_[PADL_(user_addr_t)]; user_addr_t buf; char buf_r_[PADR_(user_addr_t)];
char bufsize_l_[PADL_(int)]; int bufsize; char bufsize_r_[PADR_(int)];
char mac_l_[PADL_(user_addr_t)]; user_addr_t mac; char mac_r_[PADR_(user_addr_t)];
char macsize_l_[PADL_(int)]; int macsize; char macsize_r_[PADR_(int)];
char flags_l_[PADL_(int)]; int flags; char flags_r_[PADR_(int)];
};
int nosys(struct proc *, struct nosys_args *, int *);
void exit(struct proc *, struct exit_args *, int *);
int fork(struct proc *, struct fork_args *, int *);
int read(struct proc *, struct read_args *, user_ssize_t *);
int write(struct proc *, struct write_args *, user_ssize_t *);
int open(struct proc *, struct open_args *, int *);
int close(struct proc *, struct close_args *, int *);
int wait4(struct proc *, struct wait4_args *, int *);
int link(struct proc *, struct link_args *, int *);
int unlink(struct proc *, struct unlink_args *, int *);
int chdir(struct proc *, struct chdir_args *, int *);
int fchdir(struct proc *, struct fchdir_args *, int *);
int mknod(struct proc *, struct mknod_args *, int *);
int chmod(struct proc *, struct chmod_args *, int *);
int chown(struct proc *, struct chown_args *, int *);
int obreak(struct proc *, struct obreak_args *, int *);
#if COMPAT_GETFSSTAT
int ogetfsstat(struct proc *, struct ogetfsstat_args *, int *);
#else
int getfsstat(struct proc *, struct getfsstat_args *, int *);
#endif
int getpid(struct proc *, struct getpid_args *, int *);
int setuid(struct proc *, struct setuid_args *, int *);
int getuid(struct proc *, struct getuid_args *, int *);
int geteuid(struct proc *, struct geteuid_args *, int *);
int ptrace(struct proc *, struct ptrace_args *, int *);
#if SOCKETS
int recvmsg(struct proc *, struct recvmsg_args *, int *);
int sendmsg(struct proc *, struct sendmsg_args *, int *);
int recvfrom(struct proc *, struct recvfrom_args *, int *);
int accept(struct proc *, struct accept_args *, int *);
int getpeername(struct proc *, struct getpeername_args *, int *);
int getsockname(struct proc *, struct getsockname_args *, int *);
#else
#endif
int access(struct proc *, struct access_args *, int *);
int chflags(struct proc *, struct chflags_args *, int *);
int fchflags(struct proc *, struct fchflags_args *, int *);
int sync(struct proc *, struct sync_args *, int *);
int kill(struct proc *, struct kill_args *, int *);
int getppid(struct proc *, struct getppid_args *, int *);
int dup(struct proc *, struct dup_args *, int *);
int pipe(struct proc *, struct pipe_args *, int *);
int getegid(struct proc *, struct getegid_args *, int *);
int profil(struct proc *, struct profil_args *, int *);
int sigaction(struct proc *, struct sigaction_args *, int *);
int getgid(struct proc *, struct getgid_args *, int *);
int sigprocmask(struct proc *, struct sigprocmask_args *, int *);
int getlogin(struct proc *, struct getlogin_args *, int *);
int setlogin(struct proc *, struct setlogin_args *, int *);
int acct(struct proc *, struct acct_args *, int *);
int sigpending(struct proc *, struct sigpending_args *, int *);
int sigaltstack(struct proc *, struct sigaltstack_args *, int *);
int ioctl(struct proc *, struct ioctl_args *, int *);
int reboot(struct proc *, struct reboot_args *, int *);
int revoke(struct proc *, struct revoke_args *, int *);
int symlink(struct proc *, struct symlink_args *, int *);
int readlink(struct proc *, struct readlink_args *, int *);
int execve(struct proc *, struct execve_args *, int *);
int umask(struct proc *, struct umask_args *, int *);
int chroot(struct proc *, struct chroot_args *, int *);
int msync(struct proc *, struct msync_args *, int *);
int vfork(struct proc *, struct vfork_args *, int *);
int sbrk(struct proc *, struct sbrk_args *, int *);
int sstk(struct proc *, struct sstk_args *, int *);
int ovadvise(struct proc *, struct ovadvise_args *, int *);
int munmap(struct proc *, struct munmap_args *, int *);
int mprotect(struct proc *, struct mprotect_args *, int *);
int madvise(struct proc *, struct madvise_args *, int *);
int mincore(struct proc *, struct mincore_args *, int *);
int getgroups(struct proc *, struct getgroups_args *, int *);
int setgroups(struct proc *, struct setgroups_args *, int *);
int getpgrp(struct proc *, struct getpgrp_args *, int *);
int setpgid(struct proc *, struct setpgid_args *, int *);
int setitimer(struct proc *, struct setitimer_args *, int *);
int swapon(struct proc *, struct swapon_args *, int *);
int getitimer(struct proc *, struct getitimer_args *, int *);
int getdtablesize(struct proc *, struct getdtablesize_args *, int *);
int dup2(struct proc *, struct dup2_args *, int *);
int fcntl(struct proc *, struct fcntl_args *, int *);
int select(struct proc *, struct select_args *, int *);
int fsync(struct proc *, struct fsync_args *, int *);
int setpriority(struct proc *, struct setpriority_args *, int *);
#if SOCKETS
int socket(struct proc *, struct socket_args *, int *);
int connect(struct proc *, struct connect_args *, int *);
#else
#endif
int getpriority(struct proc *, struct getpriority_args *, int *);
#if SOCKETS
int bind(struct proc *, struct bind_args *, int *);
int setsockopt(struct proc *, struct setsockopt_args *, int *);
int listen(struct proc *, struct listen_args *, int *);
#else
#endif
int sigsuspend(struct proc *, struct sigsuspend_args *, int *);
#if SOCKETS
#else
#endif
int gettimeofday(struct proc *, struct gettimeofday_args *, int *);
int getrusage(struct proc *, struct getrusage_args *, int *);
#if SOCKETS
int getsockopt(struct proc *, struct getsockopt_args *, int *);
#else
#endif
int readv(struct proc *, struct readv_args *, user_ssize_t *);
int writev(struct proc *, struct writev_args *, user_ssize_t *);
int settimeofday(struct proc *, struct settimeofday_args *, int *);
int fchown(struct proc *, struct fchown_args *, int *);
int fchmod(struct proc *, struct fchmod_args *, int *);
int setreuid(struct proc *, struct setreuid_args *, int *);
int setregid(struct proc *, struct setregid_args *, int *);
int rename(struct proc *, struct rename_args *, int *);
int flock(struct proc *, struct flock_args *, int *);
int mkfifo(struct proc *, struct mkfifo_args *, int *);
#if SOCKETS
int sendto(struct proc *, struct sendto_args *, int *);
int shutdown(struct proc *, struct shutdown_args *, int *);
int socketpair(struct proc *, struct socketpair_args *, int *);
#else
#endif
int mkdir(struct proc *, struct mkdir_args *, int *);
int rmdir(struct proc *, struct rmdir_args *, int *);
int utimes(struct proc *, struct utimes_args *, int *);
int futimes(struct proc *, struct futimes_args *, int *);
int adjtime(struct proc *, struct adjtime_args *, int *);
int gethostuuid(struct proc *, struct gethostuuid_args *, int *);
int setsid(struct proc *, struct setsid_args *, int *);
int getpgid(struct proc *, struct getpgid_args *, int *);
int setprivexec(struct proc *, struct setprivexec_args *, int *);
int pread(struct proc *, struct pread_args *, user_ssize_t *);
int pwrite(struct proc *, struct pwrite_args *, user_ssize_t *);
#if NFSSERVER
int nfssvc(struct proc *, struct nfssvc_args *, int *);
#else
#endif
int statfs(struct proc *, struct statfs_args *, int *);
int fstatfs(struct proc *, struct fstatfs_args *, int *);
int unmount(struct proc *, struct unmount_args *, int *);
#if NFSSERVER
int getfh(struct proc *, struct getfh_args *, int *);
#else
#endif
int quotactl(struct proc *, struct quotactl_args *, int *);
int mount(struct proc *, struct mount_args *, int *);
int csops(struct proc *, struct csops_args *, int *);
int waitid(struct proc *, struct waitid_args *, int *);
int add_profil(struct proc *, struct add_profil_args *, int *);
int kdebug_trace(struct proc *, struct kdebug_trace_args *, int *);
int setgid(struct proc *, struct setgid_args *, int *);
int setegid(struct proc *, struct setegid_args *, int *);
int seteuid(struct proc *, struct seteuid_args *, int *);
int sigreturn(struct proc *, struct sigreturn_args *, int *);
int chud(struct proc *, struct chud_args *, int *);
int stat(struct proc *, struct stat_args *, int *);
int fstat(struct proc *, struct fstat_args *, int *);
int lstat(struct proc *, struct lstat_args *, int *);
int pathconf(struct proc *, struct pathconf_args *, int *);
int fpathconf(struct proc *, struct fpathconf_args *, int *);
int getrlimit(struct proc *, struct getrlimit_args *, int *);
int setrlimit(struct proc *, struct setrlimit_args *, int *);
int getdirentries(struct proc *, struct getdirentries_args *, int *);
int mmap(struct proc *, struct mmap_args *, user_addr_t *);
int lseek(struct proc *, struct lseek_args *, off_t *);
int truncate(struct proc *, struct truncate_args *, int *);
int ftruncate(struct proc *, struct ftruncate_args *, int *);
int __sysctl(struct proc *, struct __sysctl_args *, int *);
int mlock(struct proc *, struct mlock_args *, int *);
int munlock(struct proc *, struct munlock_args *, int *);
int undelete(struct proc *, struct undelete_args *, int *);
#if NETAT
int ATsocket(struct proc *, struct ATsocket_args *, int *);
int ATgetmsg(struct proc *, struct ATgetmsg_args *, int *);
int ATputmsg(struct proc *, struct ATputmsg_args *, int *);
int ATPsndreq(struct proc *, struct ATPsndreq_args *, int *);
int ATPsndrsp(struct proc *, struct ATPsndrsp_args *, int *);
int ATPgetreq(struct proc *, struct ATPgetreq_args *, int *);
int ATPgetrsp(struct proc *, struct ATPgetrsp_args *, int *);
#else
#endif
int kqueue_from_portset_np(struct proc *, struct kqueue_from_portset_np_args *, int *);
int kqueue_portset_np(struct proc *, struct kqueue_portset_np_args *, int *);
int getattrlist(struct proc *, struct getattrlist_args *, int *);
int setattrlist(struct proc *, struct setattrlist_args *, int *);
int getdirentriesattr(struct proc *, struct getdirentriesattr_args *, int *);
int exchangedata(struct proc *, struct exchangedata_args *, int *);
int searchfs(struct proc *, struct searchfs_args *, int *);
int delete(struct proc *, struct delete_args *, int *);
int copyfile(struct proc *, struct copyfile_args *, int *);
int poll(struct proc *, struct poll_args *, int *);
int watchevent(struct proc *, struct watchevent_args *, int *);
int waitevent(struct proc *, struct waitevent_args *, int *);
int modwatch(struct proc *, struct modwatch_args *, int *);
int getxattr(struct proc *, struct getxattr_args *, user_ssize_t *);
int fgetxattr(struct proc *, struct fgetxattr_args *, user_ssize_t *);
int setxattr(struct proc *, struct setxattr_args *, int *);
int fsetxattr(struct proc *, struct fsetxattr_args *, int *);
int removexattr(struct proc *, struct removexattr_args *, int *);
int fremovexattr(struct proc *, struct fremovexattr_args *, int *);
int listxattr(struct proc *, struct listxattr_args *, user_ssize_t *);
int flistxattr(struct proc *, struct flistxattr_args *, user_ssize_t *);
int fsctl(struct proc *, struct fsctl_args *, int *);
int initgroups(struct proc *, struct initgroups_args *, int *);
int posix_spawn(struct proc *, struct posix_spawn_args *, int *);
#if NFSCLIENT
int nfsclnt(struct proc *, struct nfsclnt_args *, int *);
#else
#endif
#if NFSSERVER
int fhopen(struct proc *, struct fhopen_args *, int *);
#else
#endif
int minherit(struct proc *, struct minherit_args *, int *);
#if SYSV_SEM
int semsys(struct proc *, struct semsys_args *, int *);
#else
#endif
#if SYSV_MSG
int msgsys(struct proc *, struct msgsys_args *, int *);
#else
#endif
#if SYSV_SHM
int shmsys(struct proc *, struct shmsys_args *, int *);
#else
#endif
#if SYSV_SEM
int semctl(struct proc *, struct semctl_args *, int *);
int semget(struct proc *, struct semget_args *, int *);
int semop(struct proc *, struct semop_args *, int *);
#else
#endif
#if SYSV_MSG
int msgctl(struct proc *, struct msgctl_args *, int *);
int msgget(struct proc *, struct msgget_args *, int *);
int msgsnd(struct proc *, struct msgsnd_args *, int *);
int msgrcv(struct proc *, struct msgrcv_args *, user_ssize_t *);
#else
#endif
#if SYSV_SHM
int shmat(struct proc *, struct shmat_args *, user_addr_t *);
int shmctl(struct proc *, struct shmctl_args *, int *);
int shmdt(struct proc *, struct shmdt_args *, int *);
int shmget(struct proc *, struct shmget_args *, int *);
#else
#endif
int shm_open(struct proc *, struct shm_open_args *, int *);
int shm_unlink(struct proc *, struct shm_unlink_args *, int *);
int sem_open(struct proc *, struct sem_open_args *, user_addr_t *);
int sem_close(struct proc *, struct sem_close_args *, int *);
int sem_unlink(struct proc *, struct sem_unlink_args *, int *);
int sem_wait(struct proc *, struct sem_wait_args *, int *);
int sem_trywait(struct proc *, struct sem_trywait_args *, int *);
int sem_post(struct proc *, struct sem_post_args *, int *);
int sem_getvalue(struct proc *, struct sem_getvalue_args *, int *);
int sem_init(struct proc *, struct sem_init_args *, int *);
int sem_destroy(struct proc *, struct sem_destroy_args *, int *);
int open_extended(struct proc *, struct open_extended_args *, int *);
int umask_extended(struct proc *, struct umask_extended_args *, int *);
int stat_extended(struct proc *, struct stat_extended_args *, int *);
int lstat_extended(struct proc *, struct lstat_extended_args *, int *);
int fstat_extended(struct proc *, struct fstat_extended_args *, int *);
int chmod_extended(struct proc *, struct chmod_extended_args *, int *);
int fchmod_extended(struct proc *, struct fchmod_extended_args *, int *);
int access_extended(struct proc *, struct access_extended_args *, int *);
int settid(struct proc *, struct settid_args *, int *);
int gettid(struct proc *, struct gettid_args *, int *);
int setsgroups(struct proc *, struct setsgroups_args *, int *);
int getsgroups(struct proc *, struct getsgroups_args *, int *);
int setwgroups(struct proc *, struct setwgroups_args *, int *);
int getwgroups(struct proc *, struct getwgroups_args *, int *);
int mkfifo_extended(struct proc *, struct mkfifo_extended_args *, int *);
int mkdir_extended(struct proc *, struct mkdir_extended_args *, int *);
int identitysvc(struct proc *, struct identitysvc_args *, int *);
int shared_region_check_np(struct proc *, struct shared_region_check_np_args *, int *);
int shared_region_map_np(struct proc *, struct shared_region_map_np_args *, int *);
int __pthread_mutex_destroy(struct proc *, struct __pthread_mutex_destroy_args *, int *);
int __pthread_mutex_init(struct proc *, struct __pthread_mutex_init_args *, int *);
int __pthread_mutex_lock(struct proc *, struct __pthread_mutex_lock_args *, int *);
int __pthread_mutex_trylock(struct proc *, struct __pthread_mutex_trylock_args *, int *);
int __pthread_mutex_unlock(struct proc *, struct __pthread_mutex_unlock_args *, int *);
int __pthread_cond_init(struct proc *, struct __pthread_cond_init_args *, int *);
int __pthread_cond_destroy(struct proc *, struct __pthread_cond_destroy_args *, int *);
int __pthread_cond_broadcast(struct proc *, struct __pthread_cond_broadcast_args *, int *);
int __pthread_cond_signal(struct proc *, struct __pthread_cond_signal_args *, int *);
int getsid(struct proc *, struct getsid_args *, int *);
int settid_with_pid(struct proc *, struct settid_with_pid_args *, int *);
int __pthread_cond_timedwait(struct proc *, struct __pthread_cond_timedwait_args *, int *);
int aio_fsync(struct proc *, struct aio_fsync_args *, int *);
int aio_return(struct proc *, struct aio_return_args *, user_ssize_t *);
int aio_suspend(struct proc *, struct aio_suspend_args *, int *);
int aio_cancel(struct proc *, struct aio_cancel_args *, int *);
int aio_error(struct proc *, struct aio_error_args *, int *);
int aio_read(struct proc *, struct aio_read_args *, int *);
int aio_write(struct proc *, struct aio_write_args *, int *);
int lio_listio(struct proc *, struct lio_listio_args *, int *);
int __pthread_cond_wait(struct proc *, struct __pthread_cond_wait_args *, int *);
int iopolicysys(struct proc *, struct iopolicysys_args *, int *);
int mlockall(struct proc *, struct mlockall_args *, int *);
int munlockall(struct proc *, struct munlockall_args *, int *);
int issetugid(struct proc *, struct issetugid_args *, int *);
int __pthread_kill(struct proc *, struct __pthread_kill_args *, int *);
int __pthread_sigmask(struct proc *, struct __pthread_sigmask_args *, int *);
int __sigwait(struct proc *, struct __sigwait_args *, int *);
int __disable_threadsignal(struct proc *, struct __disable_threadsignal_args *, int *);
int __pthread_markcancel(struct proc *, struct __pthread_markcancel_args *, int *);
int __pthread_canceled(struct proc *, struct __pthread_canceled_args *, int *);
int __semwait_signal(struct proc *, struct __semwait_signal_args *, int *);
int proc_info(struct proc *, struct proc_info_args *, int *);
#if SENDFILE
int sendfile(struct proc *, struct sendfile_args *, int *);
#else
#endif
int stat64(struct proc *, struct stat64_args *, int *);
int fstat64(struct proc *, struct fstat64_args *, int *);
int lstat64(struct proc *, struct lstat64_args *, int *);
int stat64_extended(struct proc *, struct stat64_extended_args *, int *);
int lstat64_extended(struct proc *, struct lstat64_extended_args *, int *);
int fstat64_extended(struct proc *, struct fstat64_extended_args *, int *);
int getdirentries64(struct proc *, struct getdirentries64_args *, user_ssize_t *);
int statfs64(struct proc *, struct statfs64_args *, int *);
int fstatfs64(struct proc *, struct fstatfs64_args *, int *);
int getfsstat64(struct proc *, struct getfsstat64_args *, int *);
int __pthread_chdir(struct proc *, struct __pthread_chdir_args *, int *);
int __pthread_fchdir(struct proc *, struct __pthread_fchdir_args *, int *);
#if AUDIT
int audit(struct proc *, struct audit_args *, int *);
int auditon(struct proc *, struct auditon_args *, int *);
int getauid(struct proc *, struct getauid_args *, int *);
int setauid(struct proc *, struct setauid_args *, int *);
int getaudit(struct proc *, struct getaudit_args *, int *);
int setaudit(struct proc *, struct setaudit_args *, int *);
int getaudit_addr(struct proc *, struct getaudit_addr_args *, int *);
int setaudit_addr(struct proc *, struct setaudit_addr_args *, int *);
int auditctl(struct proc *, struct auditctl_args *, int *);
#else
#endif
int bsdthread_create(struct proc *, struct bsdthread_create_args *, user_addr_t *);
int bsdthread_terminate(struct proc *, struct bsdthread_terminate_args *, int *);
int kqueue(struct proc *, struct kqueue_args *, int *);
int kevent(struct proc *, struct kevent_args *, int *);
int lchown(struct proc *, struct lchown_args *, int *);
int stack_snapshot(struct proc *, struct stack_snapshot_args *, int *);
int bsdthread_register(struct proc *, struct bsdthread_register_args *, int *);
int workq_open(struct proc *, struct workq_open_args *, int *);
int workq_ops(struct proc *, struct workq_ops_args *, int *);
int __mac_execve(struct proc *, struct __mac_execve_args *, int *);
int __mac_syscall(struct proc *, struct __mac_syscall_args *, int *);
int __mac_get_file(struct proc *, struct __mac_get_file_args *, int *);
int __mac_set_file(struct proc *, struct __mac_set_file_args *, int *);
int __mac_get_link(struct proc *, struct __mac_get_link_args *, int *);
int __mac_set_link(struct proc *, struct __mac_set_link_args *, int *);
int __mac_get_proc(struct proc *, struct __mac_get_proc_args *, int *);
int __mac_set_proc(struct proc *, struct __mac_set_proc_args *, int *);
int __mac_get_fd(struct proc *, struct __mac_get_fd_args *, int *);
int __mac_set_fd(struct proc *, struct __mac_set_fd_args *, int *);
int __mac_get_pid(struct proc *, struct __mac_get_pid_args *, int *);
int __mac_get_lcid(struct proc *, struct __mac_get_lcid_args *, int *);
int __mac_get_lctx(struct proc *, struct __mac_get_lctx_args *, int *);
int __mac_set_lctx(struct proc *, struct __mac_set_lctx_args *, int *);
int setlcid(struct proc *, struct setlcid_args *, int *);
int getlcid(struct proc *, struct getlcid_args *, int *);
int read_nocancel(struct proc *, struct read_nocancel_args *, user_ssize_t *);
int write_nocancel(struct proc *, struct write_nocancel_args *, user_ssize_t *);
int open_nocancel(struct proc *, struct open_nocancel_args *, int *);
int close_nocancel(struct proc *, struct close_nocancel_args *, int *);
int wait4_nocancel(struct proc *, struct wait4_nocancel_args *, int *);
#if SOCKETS
int recvmsg_nocancel(struct proc *, struct recvmsg_nocancel_args *, int *);
int sendmsg_nocancel(struct proc *, struct sendmsg_nocancel_args *, int *);
int recvfrom_nocancel(struct proc *, struct recvfrom_nocancel_args *, int *);
int accept_nocancel(struct proc *, struct accept_nocancel_args *, int *);
#else
#endif
int msync_nocancel(struct proc *, struct msync_nocancel_args *, int *);
int fcntl_nocancel(struct proc *, struct fcntl_nocancel_args *, int *);
int select_nocancel(struct proc *, struct select_nocancel_args *, int *);
int fsync_nocancel(struct proc *, struct fsync_nocancel_args *, int *);
#if SOCKETS
int connect_nocancel(struct proc *, struct connect_nocancel_args *, int *);
#else
#endif
int sigsuspend_nocancel(struct proc *, struct sigsuspend_nocancel_args *, int *);
int readv_nocancel(struct proc *, struct readv_nocancel_args *, user_ssize_t *);
int writev_nocancel(struct proc *, struct writev_nocancel_args *, user_ssize_t *);
#if SOCKETS
int sendto_nocancel(struct proc *, struct sendto_nocancel_args *, int *);
#else
#endif
int pread_nocancel(struct proc *, struct pread_nocancel_args *, user_ssize_t *);
int pwrite_nocancel(struct proc *, struct pwrite_nocancel_args *, user_ssize_t *);
int waitid_nocancel(struct proc *, struct waitid_nocancel_args *, int *);
int poll_nocancel(struct proc *, struct poll_nocancel_args *, int *);
#if SYSV_MSG
int msgsnd_nocancel(struct proc *, struct msgsnd_nocancel_args *, int *);
int msgrcv_nocancel(struct proc *, struct msgrcv_nocancel_args *, user_ssize_t *);
#else
#endif
int sem_wait_nocancel(struct proc *, struct sem_wait_nocancel_args *, int *);
int aio_suspend_nocancel(struct proc *, struct aio_suspend_nocancel_args *, int *);
int __sigwait_nocancel(struct proc *, struct __sigwait_nocancel_args *, int *);
int __semwait_signal_nocancel(struct proc *, struct __semwait_signal_nocancel_args *, int *);
int __mac_mount(struct proc *, struct __mac_mount_args *, int *);
int __mac_get_mount(struct proc *, struct __mac_get_mount_args *, int *);
int __mac_getfsstat(struct proc *, struct __mac_getfsstat_args *, int *);
__END_DECLS
#undef PAD_
#undef PADL_
#undef PADR_
#endif
#endif
#endif