pub type dev_t = u32; pub type c_char = i8; pub type clock_t = u64; pub type ino_t = u64; pub type lwpid_t = i32; pub type nlink_t = u32; pub type blksize_t = i64; pub type clockid_t = ::c_ulong; pub type c_long = i64; pub type c_ulong = u64; pub type time_t = i64; pub type suseconds_t = i64; pub type uuid_t = ::uuid; pub type fsblkcnt_t = u64; pub type fsfilcnt_t = u64; pub type mqd_t = ::c_int; pub type sem_t = *mut sem; #[cfg_attr(feature = "extra_traits", derive(Debug))] pub enum sem {} impl ::Copy for sem {} impl ::Clone for sem { fn clone(&self) -> sem { *self } } s! { pub struct kevent { pub ident: ::uintptr_t, pub filter: ::c_short, pub flags: ::c_ushort, pub fflags: ::c_uint, pub data: ::intptr_t, pub udata: *mut ::c_void, } pub struct exit_status { pub e_termination: u16, pub e_exit: u16 } pub struct aiocb { pub aio_fildes: ::c_int, pub aio_offset: ::off_t, pub aio_buf: *mut ::c_void, pub aio_nbytes: ::size_t, pub aio_sigevent: sigevent, pub aio_lio_opcode: ::c_int, pub aio_reqprio: ::c_int, _aio_val: ::c_int, _aio_err: ::c_int } pub struct uuid { pub time_low: u32, pub time_mid: u16, pub time_hi_and_version: u16, pub clock_seq_hi_and_reserved: u8, pub clock_seq_low: u8, pub node: [u8; 6], } pub struct mq_attr { pub mq_flags: ::c_long, pub mq_maxmsg: ::c_long, pub mq_msgsize: ::c_long, pub mq_curmsgs: ::c_long, } pub struct statvfs { pub f_bsize: ::c_ulong, pub f_frsize: ::c_ulong, pub f_blocks: ::fsblkcnt_t, pub f_bfree: ::fsblkcnt_t, pub f_bavail: ::fsblkcnt_t, pub f_files: ::fsfilcnt_t, pub f_ffree: ::fsfilcnt_t, pub f_favail: ::fsfilcnt_t, pub f_fsid: ::c_ulong, pub f_flag: ::c_ulong, pub f_namemax: ::c_ulong, pub f_owner: ::uid_t, pub f_type: ::c_uint, pub f_syncreads: u64, pub f_syncwrites: u64, pub f_asyncreads: u64, pub f_asyncwrites: u64, pub f_fsid_uuid: ::uuid_t, pub f_uid_uuid: ::uuid_t, } pub struct stat { pub st_ino: ::ino_t, pub st_nlink: ::nlink_t, pub st_dev: ::dev_t, pub st_mode: ::mode_t, pub st_padding1: u16, pub st_uid: ::uid_t, pub st_gid: ::gid_t, pub st_rdev: ::dev_t, pub st_atime: ::time_t, pub st_atime_nsec: ::c_long, pub st_mtime: ::time_t, pub st_mtime_nsec: ::c_long, pub st_ctime: ::time_t, pub st_ctime_nsec: ::c_long, pub st_size: ::off_t, pub st_blocks: i64, pub st_blksize: u32, pub st_flags: u32, pub st_gen: u32, pub st_lspare: i32, pub st_qspare1: i64, pub st_qspare2: i64, } pub struct if_data { pub ifi_type: ::c_uchar, pub ifi_physical: ::c_uchar, pub ifi_addrlen: ::c_uchar, pub ifi_hdrlen: ::c_uchar, pub ifi_recvquota: ::c_uchar, pub ifi_xmitquota: ::c_uchar, pub ifi_mtu: ::c_ulong, pub ifi_metric: ::c_ulong, pub ifi_link_state: ::c_ulong, pub ifi_baudrate: u64, pub ifi_ipackets: ::c_ulong, pub ifi_ierrors: ::c_ulong, pub ifi_opackets: ::c_ulong, pub ifi_oerrors: ::c_ulong, pub ifi_collisions: ::c_ulong, pub ifi_ibytes: ::c_ulong, pub ifi_obytes: ::c_ulong, pub ifi_imcasts: ::c_ulong, pub ifi_omcasts: ::c_ulong, pub ifi_iqdrops: ::c_ulong, pub ifi_noproto: ::c_ulong, pub ifi_hwassist: ::c_ulong, pub ifi_oqdrops: ::c_ulong, pub ifi_lastchange: ::timeval, } pub struct if_msghdr { pub ifm_msglen: ::c_ushort, pub ifm_version: ::c_uchar, pub ifm_type: ::c_uchar, pub ifm_addrs: ::c_int, pub ifm_flags: ::c_int, pub ifm_index: ::c_ushort, pub ifm_data: if_data, } pub struct sockaddr_dl { pub sdl_len: ::c_uchar, pub sdl_family: ::c_uchar, pub sdl_index: ::c_ushort, pub sdl_type: ::c_uchar, pub sdl_nlen: ::c_uchar, pub sdl_alen: ::c_uchar, pub sdl_slen: ::c_uchar, pub sdl_data: [::c_char; 12], pub sdl_rcf: ::c_ushort, pub sdl_route: [::c_ushort; 16], } pub struct stack_t { pub ss_sp: *mut ::c_char, pub ss_size: ::size_t, pub ss_flags: ::c_int, } } s_no_extra_traits! { pub struct utmpx { pub ut_name: [::c_char; 32], pub ut_id: [::c_char; 4], pub ut_line: [::c_char; 32], pub ut_host: [::c_char; 256], pub ut_unused: [u8; 16], pub ut_session: u16, pub ut_type: u16, pub ut_pid: ::pid_t, ut_exit: exit_status, ut_ss: ::sockaddr_storage, pub ut_tv: ::timeval, pub ut_unused2: [u8; 16], } pub struct dirent { pub d_fileno: ::ino_t, pub d_namlen: u16, pub d_type: u8, __unused1: u8, __unused2: u32, pub d_name: [::c_char; 256], } pub struct statfs { pub f_bsize: ::c_long, pub f_iosize: ::c_long, pub f_blocks: ::c_long, pub f_bfree: ::c_long, pub f_bavail: ::c_long, pub f_files: ::c_long, pub f_ffree: ::c_long, pub f_fsid: ::fsid_t, pub f_owner: ::uid_t, pub f_type: i32, pub f_flags: i32, pub f_syncwrites: ::c_long, pub f_asyncwrites: ::c_long, pub f_fstypename: [::c_char; 16], pub f_mntonname: [::c_char; 90], pub f_syncreads: ::c_long, pub f_asyncreads: ::c_long, pub f_mntfromname: [::c_char; 90], } pub struct sigevent { pub sigev_notify: ::c_int, // The union is 8-byte in size, so it is aligned at a 8-byte offset. #[cfg(target_pointer_width = "64")] __unused1: ::c_int, pub sigev_signo: ::c_int, //actually a union // pad the union #[cfg(target_pointer_width = "64")] __unused2: ::c_int, pub sigev_value: ::sigval, __unused3: *mut ::c_void //actually a function pointer } } cfg_if! { if #[cfg(feature = "extra_traits")] { impl PartialEq for utmpx { fn eq(&self, other: &utmpx) -> bool { self.ut_name == other.ut_name && self.ut_id == other.ut_id && self.ut_line == other.ut_line && self .ut_host .iter() .zip(other.ut_host.iter()) .all(|(a,b)| a == b) && self.ut_unused == other.ut_unused && self.ut_session == other.ut_session && self.ut_type == other.ut_type && self.ut_pid == other.ut_pid && self.ut_exit == other.ut_exit && self.ut_ss == other.ut_ss && self.ut_tv == other.ut_tv && self.ut_unused2 == other.ut_unused2 } } impl Eq for utmpx {} impl ::fmt::Debug for utmpx { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("utmpx") .field("ut_name", &self.ut_name) .field("ut_id", &self.ut_id) .field("ut_line", &self.ut_line) // FIXME: .field("ut_host", &self.ut_host) .field("ut_unused", &self.ut_unused) .field("ut_session", &self.ut_session) .field("ut_type", &self.ut_type) .field("ut_pid", &self.ut_pid) .field("ut_exit", &self.ut_exit) .field("ut_ss", &self.ut_ss) .field("ut_tv", &self.ut_tv) .field("ut_unused2", &self.ut_unused2) .finish() } } impl ::hash::Hash for utmpx { fn hash(&self, state: &mut H) { self.ut_name.hash(state); self.ut_id.hash(state); self.ut_line.hash(state); self.ut_host.hash(state); self.ut_unused.hash(state); self.ut_session.hash(state); self.ut_type.hash(state); self.ut_pid.hash(state); self.ut_exit.hash(state); self.ut_ss.hash(state); self.ut_tv.hash(state); self.ut_unused2.hash(state); } } impl PartialEq for dirent { fn eq(&self, other: &dirent) -> bool { self.d_fileno == other.d_fileno && self.d_namlen == other.d_namlen && self.d_type == other.d_type // Ignore __unused1 // Ignore __unused2 && self .d_name .iter() .zip(other.d_name.iter()) .all(|(a,b)| a == b) } } impl Eq for dirent {} impl ::fmt::Debug for dirent { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("dirent") .field("d_fileno", &self.d_fileno) .field("d_namlen", &self.d_namlen) .field("d_type", &self.d_type) // Ignore __unused1 // Ignore __unused2 // FIXME: .field("d_name", &self.d_name) .finish() } } impl ::hash::Hash for dirent { fn hash(&self, state: &mut H) { self.d_fileno.hash(state); self.d_namlen.hash(state); self.d_type.hash(state); // Ignore __unused1 // Ignore __unused2 self.d_name.hash(state); } } impl PartialEq for statfs { fn eq(&self, other: &statfs) -> bool { self.f_bsize == other.f_bsize && self.f_iosize == other.f_iosize && self.f_blocks == other.f_blocks && self.f_bfree == other.f_bfree && self.f_bavail == other.f_bavail && self.f_files == other.f_files && self.f_ffree == other.f_ffree && self.f_fsid == other.f_fsid && self.f_owner == other.f_owner && self.f_type == other.f_type && self.f_flags == other.f_flags && self.f_syncwrites == other.f_syncwrites && self.f_asyncwrites == other.f_asyncwrites && self.f_fstypename == other.f_fstypename && self .f_mntonname .iter() .zip(other.f_mntonname.iter()) .all(|(a,b)| a == b) && self.f_syncreads == other.f_syncreads && self.f_asyncreads == other.f_asyncreads && self .f_mntfromname .iter() .zip(other.f_mntfromname.iter()) .all(|(a,b)| a == b) } } impl Eq for statfs {} impl ::fmt::Debug for statfs { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("statfs") .field("f_bsize", &self.f_bsize) .field("f_iosize", &self.f_iosize) .field("f_blocks", &self.f_blocks) .field("f_bfree", &self.f_bfree) .field("f_bavail", &self.f_bavail) .field("f_files", &self.f_files) .field("f_ffree", &self.f_ffree) .field("f_fsid", &self.f_fsid) .field("f_owner", &self.f_owner) .field("f_type", &self.f_type) .field("f_flags", &self.f_flags) .field("f_syncwrites", &self.f_syncwrites) .field("f_asyncwrites", &self.f_asyncwrites) // FIXME: .field("f_mntonname", &self.f_mntonname) .field("f_syncreads", &self.f_syncreads) .field("f_asyncreads", &self.f_asyncreads) // FIXME: .field("f_mntfromname", &self.f_mntfromname) .finish() } } impl ::hash::Hash for statfs { fn hash(&self, state: &mut H) { self.f_bsize.hash(state); self.f_iosize.hash(state); self.f_blocks.hash(state); self.f_bfree.hash(state); self.f_bavail.hash(state); self.f_files.hash(state); self.f_ffree.hash(state); self.f_fsid.hash(state); self.f_owner.hash(state); self.f_type.hash(state); self.f_flags.hash(state); self.f_syncwrites.hash(state); self.f_asyncwrites.hash(state); self.f_fstypename.hash(state); self.f_mntonname.hash(state); self.f_syncreads.hash(state); self.f_asyncreads.hash(state); self.f_mntfromname.hash(state); } } impl PartialEq for sigevent { fn eq(&self, other: &sigevent) -> bool { self.sigev_notify == other.sigev_notify && self.sigev_signo == other.sigev_signo && self.sigev_value == other.sigev_value } } impl Eq for sigevent {} impl ::fmt::Debug for sigevent { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("sigevent") .field("sigev_notify", &self.sigev_notify) .field("sigev_signo", &self.sigev_signo) .field("sigev_value", &self.sigev_value) .finish() } } impl ::hash::Hash for sigevent { fn hash(&self, state: &mut H) { self.sigev_notify.hash(state); self.sigev_signo.hash(state); self.sigev_value.hash(state); } } } } pub const RAND_MAX: ::c_int = 0x7fff_ffff; pub const PTHREAD_STACK_MIN: ::size_t = 16384; pub const SIGSTKSZ: ::size_t = 40960; pub const MADV_INVAL: ::c_int = 10; pub const MADV_SETMAP: ::c_int = 11; pub const O_CLOEXEC: ::c_int = 0x00020000; pub const O_DIRECTORY: ::c_int = 0x08000000; pub const F_GETLK: ::c_int = 7; pub const F_SETLK: ::c_int = 8; pub const F_SETLKW: ::c_int = 9; pub const ENOMEDIUM: ::c_int = 93; pub const EASYNC: ::c_int = 99; pub const ELAST: ::c_int = 99; pub const RLIMIT_POSIXLOCKS: ::c_int = 11; pub const RLIM_NLIMITS: ::rlim_t = 12; pub const Q_GETQUOTA: ::c_int = 0x300; pub const Q_SETQUOTA: ::c_int = 0x400; pub const CLOCK_REALTIME: ::clockid_t = 0; pub const CLOCK_VIRTUAL: ::clockid_t = 1; pub const CLOCK_PROF: ::clockid_t = 2; pub const CLOCK_MONOTONIC: ::clockid_t = 4; pub const CLOCK_UPTIME: ::clockid_t = 5; pub const CLOCK_UPTIME_PRECISE: ::clockid_t = 7; pub const CLOCK_UPTIME_FAST: ::clockid_t = 8; pub const CLOCK_REALTIME_PRECISE: ::clockid_t = 9; pub const CLOCK_REALTIME_FAST: ::clockid_t = 10; pub const CLOCK_MONOTONIC_PRECISE: ::clockid_t = 11; pub const CLOCK_MONOTONIC_FAST: ::clockid_t = 12; pub const CLOCK_SECOND: ::clockid_t = 13; pub const CLOCK_THREAD_CPUTIME_ID: ::clockid_t = 14; pub const CLOCK_PROCESS_CPUTIME_ID: ::clockid_t = 15; pub const CTL_UNSPEC: ::c_int = 0; pub const CTL_KERN: ::c_int = 1; pub const CTL_VM: ::c_int = 2; pub const CTL_VFS: ::c_int = 3; pub const CTL_NET: ::c_int = 4; pub const CTL_DEBUG: ::c_int = 5; pub const CTL_HW: ::c_int = 6; pub const CTL_MACHDEP: ::c_int = 7; pub const CTL_USER: ::c_int = 8; pub const CTL_P1003_1B: ::c_int = 9; pub const CTL_LWKT: ::c_int = 10; pub const CTL_MAXID: ::c_int = 11; pub const KERN_OSTYPE: ::c_int = 1; pub const KERN_OSRELEASE: ::c_int = 2; pub const KERN_OSREV: ::c_int = 3; pub const KERN_VERSION: ::c_int = 4; pub const KERN_MAXVNODES: ::c_int = 5; pub const KERN_MAXPROC: ::c_int = 6; pub const KERN_MAXFILES: ::c_int = 7; pub const KERN_ARGMAX: ::c_int = 8; pub const KERN_SECURELVL: ::c_int = 9; pub const KERN_HOSTNAME: ::c_int = 10; pub const KERN_HOSTID: ::c_int = 11; pub const KERN_CLOCKRATE: ::c_int = 12; pub const KERN_VNODE: ::c_int = 13; pub const KERN_PROC: ::c_int = 14; pub const KERN_FILE: ::c_int = 15; pub const KERN_PROF: ::c_int = 16; pub const KERN_POSIX1: ::c_int = 17; pub const KERN_NGROUPS: ::c_int = 18; pub const KERN_JOB_CONTROL: ::c_int = 19; pub const KERN_SAVED_IDS: ::c_int = 20; pub const KERN_BOOTTIME: ::c_int = 21; pub const KERN_NISDOMAINNAME: ::c_int = 22; pub const KERN_UPDATEINTERVAL: ::c_int = 23; pub const KERN_OSRELDATE: ::c_int = 24; pub const KERN_NTP_PLL: ::c_int = 25; pub const KERN_BOOTFILE: ::c_int = 26; pub const KERN_MAXFILESPERPROC: ::c_int = 27; pub const KERN_MAXPROCPERUID: ::c_int = 28; pub const KERN_DUMPDEV: ::c_int = 29; pub const KERN_IPC: ::c_int = 30; pub const KERN_DUMMY: ::c_int = 31; pub const KERN_PS_STRINGS: ::c_int = 32; pub const KERN_USRSTACK: ::c_int = 33; pub const KERN_LOGSIGEXIT: ::c_int = 34; pub const KERN_IOV_MAX: ::c_int = 35; pub const KERN_MAXPOSIXLOCKSPERUID: ::c_int = 36; pub const KERN_MAXID: ::c_int = 37; pub const KERN_PROC_ALL: ::c_int = 0; pub const KERN_PROC_PID: ::c_int = 1; pub const KERN_PROC_PGRP: ::c_int = 2; pub const KERN_PROC_SESSION: ::c_int = 3; pub const KERN_PROC_TTY: ::c_int = 4; pub const KERN_PROC_UID: ::c_int = 5; pub const KERN_PROC_RUID: ::c_int = 6; pub const KERN_PROC_ARGS: ::c_int = 7; pub const KERN_PROC_CWD: ::c_int = 8; pub const KERN_PROC_PATHNAME: ::c_int = 9; pub const KERN_PROC_FLAGMASK: ::c_int = 0x10; pub const KERN_PROC_FLAG_LWP: ::c_int = 0x10; pub const KIPC_MAXSOCKBUF: ::c_int = 1; pub const KIPC_SOCKBUF_WASTE: ::c_int = 2; pub const KIPC_SOMAXCONN: ::c_int = 3; pub const KIPC_MAX_LINKHDR: ::c_int = 4; pub const KIPC_MAX_PROTOHDR: ::c_int = 5; pub const KIPC_MAX_HDR: ::c_int = 6; pub const KIPC_MAX_DATALEN: ::c_int = 7; pub const KIPC_MBSTAT: ::c_int = 8; pub const KIPC_NMBCLUSTERS: ::c_int = 9; pub const HW_MACHINE: ::c_int = 1; pub const HW_MODEL: ::c_int = 2; pub const HW_NCPU: ::c_int = 3; pub const HW_BYTEORDER: ::c_int = 4; pub const HW_PHYSMEM: ::c_int = 5; pub const HW_USERMEM: ::c_int = 6; pub const HW_PAGESIZE: ::c_int = 7; pub const HW_DISKNAMES: ::c_int = 8; pub const HW_DISKSTATS: ::c_int = 9; pub const HW_FLOATINGPT: ::c_int = 10; pub const HW_MACHINE_ARCH: ::c_int = 11; pub const HW_MACHINE_PLATFORM: ::c_int = 12; pub const HW_SENSORS: ::c_int = 13; pub const HW_MAXID: ::c_int = 14; pub const USER_CS_PATH: ::c_int = 1; pub const USER_BC_BASE_MAX: ::c_int = 2; pub const USER_BC_DIM_MAX: ::c_int = 3; pub const USER_BC_SCALE_MAX: ::c_int = 4; pub const USER_BC_STRING_MAX: ::c_int = 5; pub const USER_COLL_WEIGHTS_MAX: ::c_int = 6; pub const USER_EXPR_NEST_MAX: ::c_int = 7; pub const USER_LINE_MAX: ::c_int = 8; pub const USER_RE_DUP_MAX: ::c_int = 9; pub const USER_POSIX2_VERSION: ::c_int = 10; pub const USER_POSIX2_C_BIND: ::c_int = 11; pub const USER_POSIX2_C_DEV: ::c_int = 12; pub const USER_POSIX2_CHAR_TERM: ::c_int = 13; pub const USER_POSIX2_FORT_DEV: ::c_int = 14; pub const USER_POSIX2_FORT_RUN: ::c_int = 15; pub const USER_POSIX2_LOCALEDEF: ::c_int = 16; pub const USER_POSIX2_SW_DEV: ::c_int = 17; pub const USER_POSIX2_UPE: ::c_int = 18; pub const USER_STREAM_MAX: ::c_int = 19; pub const USER_TZNAME_MAX: ::c_int = 20; pub const USER_MAXID: ::c_int = 21; pub const CTL_P1003_1B_ASYNCHRONOUS_IO: ::c_int = 1; pub const CTL_P1003_1B_MAPPED_FILES: ::c_int = 2; pub const CTL_P1003_1B_MEMLOCK: ::c_int = 3; pub const CTL_P1003_1B_MEMLOCK_RANGE: ::c_int = 4; pub const CTL_P1003_1B_MEMORY_PROTECTION: ::c_int = 5; pub const CTL_P1003_1B_MESSAGE_PASSING: ::c_int = 6; pub const CTL_P1003_1B_PRIORITIZED_IO: ::c_int = 7; pub const CTL_P1003_1B_PRIORITY_SCHEDULING: ::c_int = 8; pub const CTL_P1003_1B_REALTIME_SIGNALS: ::c_int = 9; pub const CTL_P1003_1B_SEMAPHORES: ::c_int = 10; pub const CTL_P1003_1B_FSYNC: ::c_int = 11; pub const CTL_P1003_1B_SHARED_MEMORY_OBJECTS: ::c_int = 12; pub const CTL_P1003_1B_SYNCHRONIZED_IO: ::c_int = 13; pub const CTL_P1003_1B_TIMERS: ::c_int = 14; pub const CTL_P1003_1B_AIO_LISTIO_MAX: ::c_int = 15; pub const CTL_P1003_1B_AIO_MAX: ::c_int = 16; pub const CTL_P1003_1B_AIO_PRIO_DELTA_MAX: ::c_int = 17; pub const CTL_P1003_1B_DELAYTIMER_MAX: ::c_int = 18; pub const CTL_P1003_1B_UNUSED1: ::c_int = 19; pub const CTL_P1003_1B_PAGESIZE: ::c_int = 20; pub const CTL_P1003_1B_RTSIG_MAX: ::c_int = 21; pub const CTL_P1003_1B_SEM_NSEMS_MAX: ::c_int = 22; pub const CTL_P1003_1B_SEM_VALUE_MAX: ::c_int = 23; pub const CTL_P1003_1B_SIGQUEUE_MAX: ::c_int = 24; pub const CTL_P1003_1B_TIMER_MAX: ::c_int = 25; pub const CTL_P1003_1B_MAXID: ::c_int = 26; pub const EVFILT_READ: i16 = -1; pub const EVFILT_WRITE: i16 = -2; pub const EVFILT_AIO: i16 = -3; pub const EVFILT_VNODE: i16 = -4; pub const EVFILT_PROC: i16 = -5; pub const EVFILT_SIGNAL: i16 = -6; pub const EVFILT_TIMER: i16 = -7; pub const EVFILT_EXCEPT: i16 = -8; pub const EVFILT_USER: i16 = -9; pub const EVFILT_FS: i16 = -10; pub const EV_ADD: u16 = 0x1; pub const EV_DELETE: u16 = 0x2; pub const EV_ENABLE: u16 = 0x4; pub const EV_DISABLE: u16 = 0x8; pub const EV_ONESHOT: u16 = 0x10; pub const EV_CLEAR: u16 = 0x20; pub const EV_RECEIPT: u16 = 0x40; pub const EV_DISPATCH: u16 = 0x80; pub const EV_NODATA: u16 = 0x1000; pub const EV_FLAG1: u16 = 0x2000; pub const EV_ERROR: u16 = 0x4000; pub const EV_EOF: u16 = 0x8000; pub const EV_SYSFLAGS: u16 = 0xf000; pub const NOTE_TRIGGER: u32 = 0x01000000; pub const NOTE_FFNOP: u32 = 0x00000000; pub const NOTE_FFAND: u32 = 0x40000000; pub const NOTE_FFOR: u32 = 0x80000000; pub const NOTE_FFCOPY: u32 = 0xc0000000; pub const NOTE_FFCTRLMASK: u32 = 0xc0000000; pub const NOTE_FFLAGSMASK: u32 = 0x00ffffff; pub const NOTE_LOWAT: u32 = 0x00000001; pub const NOTE_OOB: u32 = 0x00000002; pub const NOTE_DELETE: u32 = 0x00000001; pub const NOTE_WRITE: u32 = 0x00000002; pub const NOTE_EXTEND: u32 = 0x00000004; pub const NOTE_ATTRIB: u32 = 0x00000008; pub const NOTE_LINK: u32 = 0x00000010; pub const NOTE_RENAME: u32 = 0x00000020; pub const NOTE_REVOKE: u32 = 0x00000040; pub const NOTE_EXIT: u32 = 0x80000000; pub const NOTE_FORK: u32 = 0x40000000; pub const NOTE_EXEC: u32 = 0x20000000; pub const NOTE_PDATAMASK: u32 = 0x000fffff; pub const NOTE_PCTRLMASK: u32 = 0xf0000000; pub const NOTE_TRACK: u32 = 0x00000001; pub const NOTE_TRACKERR: u32 = 0x00000002; pub const NOTE_CHILD: u32 = 0x00000004; pub const SO_SNDSPACE: ::c_int = 0x100a; pub const SO_CPUHINT: ::c_int = 0x1030; pub const PT_FIRSTMACH: ::c_int = 32; // https://github.com/DragonFlyBSD/DragonFlyBSD/blob/master/sys/net/if.h#L101 pub const IFF_UP: ::c_int = 0x1; // interface is up pub const IFF_BROADCAST: ::c_int = 0x2; // broadcast address valid pub const IFF_DEBUG: ::c_int = 0x4; // turn on debugging pub const IFF_LOOPBACK: ::c_int = 0x8; // is a loopback net pub const IFF_POINTOPOINT: ::c_int = 0x10; // interface is point-to-point link pub const IFF_SMART: ::c_int = 0x20; // interface manages own routes pub const IFF_RUNNING: ::c_int = 0x40; // resources allocated pub const IFF_NOARP: ::c_int = 0x80; // no address resolution protocol pub const IFF_PROMISC: ::c_int = 0x100; // receive all packets pub const IFF_ALLMULTI: ::c_int = 0x200; // receive all multicast packets pub const IFF_OACTIVE_COMPAT: ::c_int = 0x400; // was transmission in progress pub const IFF_SIMPLEX: ::c_int = 0x800; // can't hear own transmissions pub const IFF_LINK0: ::c_int = 0x1000; // per link layer defined bit pub const IFF_LINK1: ::c_int = 0x2000; // per link layer defined bit pub const IFF_LINK2: ::c_int = 0x4000; // per link layer defined bit pub const IFF_ALTPHYS: ::c_int = IFF_LINK2; // use alternate physical connection pub const IFF_MULTICAST: ::c_int = 0x8000; // supports multicast // was interface is in polling mode pub const IFF_POLLING_COMPAT: ::c_int = 0x10000; pub const IFF_PPROMISC: ::c_int = 0x20000; // user-requested promisc mode pub const IFF_MONITOR: ::c_int = 0x40000; // user-requested monitor mode pub const IFF_STATICARP: ::c_int = 0x80000; // static ARP pub const IFF_NPOLLING: ::c_int = 0x100000; // interface is in polling mode pub const IFF_IDIRECT: ::c_int = 0x200000; // direct input // // sys/netinet/in.h // Protocols (RFC 1700) // NOTE: These are in addition to the constants defined in src/unix/mod.rs // IPPROTO_IP defined in src/unix/mod.rs /// IP6 hop-by-hop options pub const IPPROTO_HOPOPTS: ::c_int = 0; // IPPROTO_ICMP defined in src/unix/mod.rs /// group mgmt protocol pub const IPPROTO_IGMP: ::c_int = 2; /// gateway^2 (deprecated) pub const IPPROTO_GGP: ::c_int = 3; /// for compatibility pub const IPPROTO_IPIP: ::c_int = 4; // IPPROTO_TCP defined in src/unix/mod.rs /// Stream protocol II. pub const IPPROTO_ST: ::c_int = 7; /// exterior gateway protocol pub const IPPROTO_EGP: ::c_int = 8; /// private interior gateway pub const IPPROTO_PIGP: ::c_int = 9; /// BBN RCC Monitoring pub const IPPROTO_RCCMON: ::c_int = 10; /// network voice protocol pub const IPPROTO_NVPII: ::c_int = 11; /// pup pub const IPPROTO_PUP: ::c_int = 12; /// Argus pub const IPPROTO_ARGUS: ::c_int = 13; /// EMCON pub const IPPROTO_EMCON: ::c_int = 14; /// Cross Net Debugger pub const IPPROTO_XNET: ::c_int = 15; /// Chaos pub const IPPROTO_CHAOS: ::c_int = 16; // IPPROTO_UDP defined in src/unix/mod.rs /// Multiplexing pub const IPPROTO_MUX: ::c_int = 18; /// DCN Measurement Subsystems pub const IPPROTO_MEAS: ::c_int = 19; /// Host Monitoring pub const IPPROTO_HMP: ::c_int = 20; /// Packet Radio Measurement pub const IPPROTO_PRM: ::c_int = 21; /// xns idp pub const IPPROTO_IDP: ::c_int = 22; /// Trunk-1 pub const IPPROTO_TRUNK1: ::c_int = 23; /// Trunk-2 pub const IPPROTO_TRUNK2: ::c_int = 24; /// Leaf-1 pub const IPPROTO_LEAF1: ::c_int = 25; /// Leaf-2 pub const IPPROTO_LEAF2: ::c_int = 26; /// Reliable Data pub const IPPROTO_RDP: ::c_int = 27; /// Reliable Transaction pub const IPPROTO_IRTP: ::c_int = 28; /// tp-4 w/ class negotiation pub const IPPROTO_TP: ::c_int = 29; /// Bulk Data Transfer pub const IPPROTO_BLT: ::c_int = 30; /// Network Services pub const IPPROTO_NSP: ::c_int = 31; /// Merit Internodal pub const IPPROTO_INP: ::c_int = 32; /// Sequential Exchange pub const IPPROTO_SEP: ::c_int = 33; /// Third Party Connect pub const IPPROTO_3PC: ::c_int = 34; /// InterDomain Policy Routing pub const IPPROTO_IDPR: ::c_int = 35; /// XTP pub const IPPROTO_XTP: ::c_int = 36; /// Datagram Delivery pub const IPPROTO_DDP: ::c_int = 37; /// Control Message Transport pub const IPPROTO_CMTP: ::c_int = 38; /// TP++ Transport pub const IPPROTO_TPXX: ::c_int = 39; /// IL transport protocol pub const IPPROTO_IL: ::c_int = 40; // IPPROTO_IPV6 defined in src/unix/mod.rs /// Source Demand Routing pub const IPPROTO_SDRP: ::c_int = 42; /// IP6 routing header pub const IPPROTO_ROUTING: ::c_int = 43; /// IP6 fragmentation header pub const IPPROTO_FRAGMENT: ::c_int = 44; /// InterDomain Routing pub const IPPROTO_IDRP: ::c_int = 45; /// resource reservation pub const IPPROTO_RSVP: ::c_int = 46; /// General Routing Encap. pub const IPPROTO_GRE: ::c_int = 47; /// Mobile Host Routing pub const IPPROTO_MHRP: ::c_int = 48; /// BHA pub const IPPROTO_BHA: ::c_int = 49; /// IP6 Encap Sec. Payload pub const IPPROTO_ESP: ::c_int = 50; /// IP6 Auth Header pub const IPPROTO_AH: ::c_int = 51; /// Integ. Net Layer Security pub const IPPROTO_INLSP: ::c_int = 52; /// IP with encryption pub const IPPROTO_SWIPE: ::c_int = 53; /// Next Hop Resolution pub const IPPROTO_NHRP: ::c_int = 54; /// IP Mobility pub const IPPROTO_MOBILE: ::c_int = 55; /// Transport Layer Security pub const IPPROTO_TLSP: ::c_int = 56; /// SKIP pub const IPPROTO_SKIP: ::c_int = 57; // IPPROTO_ICMPV6 defined in src/unix/mod.rs /// IP6 no next header pub const IPPROTO_NONE: ::c_int = 59; /// IP6 destination option pub const IPPROTO_DSTOPTS: ::c_int = 60; /// any host internal protocol pub const IPPROTO_AHIP: ::c_int = 61; /// CFTP pub const IPPROTO_CFTP: ::c_int = 62; /// "hello" routing protocol pub const IPPROTO_HELLO: ::c_int = 63; /// SATNET/Backroom EXPAK pub const IPPROTO_SATEXPAK: ::c_int = 64; /// Kryptolan pub const IPPROTO_KRYPTOLAN: ::c_int = 65; /// Remote Virtual Disk pub const IPPROTO_RVD: ::c_int = 66; /// Pluribus Packet Core pub const IPPROTO_IPPC: ::c_int = 67; /// Any distributed FS pub const IPPROTO_ADFS: ::c_int = 68; /// Satnet Monitoring pub const IPPROTO_SATMON: ::c_int = 69; /// VISA Protocol pub const IPPROTO_VISA: ::c_int = 70; /// Packet Core Utility pub const IPPROTO_IPCV: ::c_int = 71; /// Comp. Prot. Net. Executive pub const IPPROTO_CPNX: ::c_int = 72; /// Comp. Prot. HeartBeat pub const IPPROTO_CPHB: ::c_int = 73; /// Wang Span Network pub const IPPROTO_WSN: ::c_int = 74; /// Packet Video Protocol pub const IPPROTO_PVP: ::c_int = 75; /// BackRoom SATNET Monitoring pub const IPPROTO_BRSATMON: ::c_int = 76; /// Sun net disk proto (temp.) pub const IPPROTO_ND: ::c_int = 77; /// WIDEBAND Monitoring pub const IPPROTO_WBMON: ::c_int = 78; /// WIDEBAND EXPAK pub const IPPROTO_WBEXPAK: ::c_int = 79; /// ISO cnlp pub const IPPROTO_EON: ::c_int = 80; /// VMTP pub const IPPROTO_VMTP: ::c_int = 81; /// Secure VMTP pub const IPPROTO_SVMTP: ::c_int = 82; /// Banyon VINES pub const IPPROTO_VINES: ::c_int = 83; /// TTP pub const IPPROTO_TTP: ::c_int = 84; /// NSFNET-IGP pub const IPPROTO_IGP: ::c_int = 85; /// dissimilar gateway prot. pub const IPPROTO_DGP: ::c_int = 86; /// TCF pub const IPPROTO_TCF: ::c_int = 87; /// Cisco/GXS IGRP pub const IPPROTO_IGRP: ::c_int = 88; /// OSPFIGP pub const IPPROTO_OSPFIGP: ::c_int = 89; /// Strite RPC protocol pub const IPPROTO_SRPC: ::c_int = 90; /// Locus Address Resoloution pub const IPPROTO_LARP: ::c_int = 91; /// Multicast Transport pub const IPPROTO_MTP: ::c_int = 92; /// AX.25 Frames pub const IPPROTO_AX25: ::c_int = 93; /// IP encapsulated in IP pub const IPPROTO_IPEIP: ::c_int = 94; /// Mobile Int.ing control pub const IPPROTO_MICP: ::c_int = 95; /// Semaphore Comm. security pub const IPPROTO_SCCSP: ::c_int = 96; /// Ethernet IP encapsulation pub const IPPROTO_ETHERIP: ::c_int = 97; /// encapsulation header pub const IPPROTO_ENCAP: ::c_int = 98; /// any private encr. scheme pub const IPPROTO_APES: ::c_int = 99; /// GMTP pub const IPPROTO_GMTP: ::c_int = 100; /// payload compression (IPComp) pub const IPPROTO_IPCOMP: ::c_int = 108; /* 101-254: Partly Unassigned */ /// Protocol Independent Mcast pub const IPPROTO_PIM: ::c_int = 103; /// CARP pub const IPPROTO_CARP: ::c_int = 112; /// PGM pub const IPPROTO_PGM: ::c_int = 113; /// PFSYNC pub const IPPROTO_PFSYNC: ::c_int = 240; /* 255: Reserved */ /* BSD Private, local use, namespace incursion, no longer used */ /// divert pseudo-protocol pub const IPPROTO_DIVERT: ::c_int = 254; pub const IPPROTO_MAX: ::c_int = 256; /// last return value of *_input(), meaning "all job for this pkt is done". pub const IPPROTO_DONE: ::c_int = 257; /// Used by RSS: the layer3 protocol is unknown pub const IPPROTO_UNKNOWN: ::c_int = 258; // sys/netinet/tcp.h pub const TCP_SIGNATURE_ENABLE: ::c_int = 16; pub const TCP_KEEPINIT: ::c_int = 32; pub const TCP_FASTKEEP: ::c_int = 128; pub const AF_BLUETOOTH: ::c_int = 33; pub const AF_MPLS: ::c_int = 34; pub const AF_IEEE80211: ::c_int = 35; pub const PF_BLUETOOTH: ::c_int = AF_BLUETOOTH; pub const NET_RT_DUMP: ::c_int = 1; pub const NET_RT_FLAGS: ::c_int = 2; pub const NET_RT_IFLIST: ::c_int = 3; pub const NET_RT_MAXID: ::c_int = 4; pub const SOMAXOPT_SIZE: ::c_int = 65536; pub const MSG_UNUSED09: ::c_int = 0x00000200; pub const MSG_NOSIGNAL: ::c_int = 0x00000400; pub const MSG_SYNC: ::c_int = 0x00000800; pub const MSG_CMSG_CLOEXEC: ::c_int = 0x00001000; pub const MSG_FBLOCKING: ::c_int = 0x00010000; pub const MSG_FNONBLOCKING: ::c_int = 0x00020000; pub const MSG_FMASK: ::c_int = 0xFFFF0000; pub const EMPTY: ::c_short = 0; pub const RUN_LVL: ::c_short = 1; pub const BOOT_TIME: ::c_short = 2; pub const OLD_TIME: ::c_short = 3; pub const NEW_TIME: ::c_short = 4; pub const INIT_PROCESS: ::c_short = 5; pub const LOGIN_PROCESS: ::c_short = 6; pub const USER_PROCESS: ::c_short = 7; pub const DEAD_PROCESS: ::c_short = 8; pub const LC_COLLATE_MASK: ::c_int = (1 << 0); pub const LC_CTYPE_MASK: ::c_int = (1 << 1); pub const LC_MONETARY_MASK: ::c_int = (1 << 2); pub const LC_NUMERIC_MASK: ::c_int = (1 << 3); pub const LC_TIME_MASK: ::c_int = (1 << 4); pub const LC_MESSAGES_MASK: ::c_int = (1 << 5); pub const LC_ALL_MASK: ::c_int = LC_COLLATE_MASK | LC_CTYPE_MASK | LC_MESSAGES_MASK | LC_MONETARY_MASK | LC_NUMERIC_MASK | LC_TIME_MASK; pub const TIOCSIG: ::c_uint = 0x2000745f; pub const BTUARTDISC: ::c_int = 0x7; pub const TIOCDCDTIMESTAMP: ::c_uint = 0x40107458; pub const TIOCISPTMASTER: ::c_uint = 0x20007455; pub const TIOCMODG: ::c_uint = 0x40047403; pub const TIOCMODS: ::c_ulong = 0x80047404; pub const TIOCREMOTE: ::c_ulong = 0x80047469; // Constants used by "at" family of system calls. pub const AT_FDCWD: ::c_int = 0xFFFAFDCD; // invalid file descriptor pub const AT_SYMLINK_NOFOLLOW: ::c_int = 1; pub const AT_REMOVEDIR: ::c_int = 2; pub const AT_EACCESS: ::c_int = 4; pub const AT_SYMLINK_FOLLOW: ::c_int = 8; pub const VCHECKPT: usize = 19; pub const _PC_2_SYMLINKS: ::c_int = 22; pub const _PC_TIMESTAMP_RESOLUTION: ::c_int = 23; pub const _SC_V7_ILP32_OFF32: ::c_int = 122; pub const _SC_V7_ILP32_OFFBIG: ::c_int = 123; pub const _SC_V7_LP64_OFF64: ::c_int = 124; pub const _SC_V7_LPBIG_OFFBIG: ::c_int = 125; pub const _SC_THREAD_ROBUST_PRIO_INHERIT: ::c_int = 126; pub const _SC_THREAD_ROBUST_PRIO_PROTECT: ::c_int = 127; pub const WCONTINUED: ::c_int = 4; pub const WSTOPPED: ::c_int = 0o177; // Values for struct rtprio (type_ field) pub const RTP_PRIO_REALTIME: ::c_ushort = 0; pub const RTP_PRIO_NORMAL: ::c_ushort = 1; pub const RTP_PRIO_IDLE: ::c_ushort = 2; pub const RTP_PRIO_THREAD: ::c_ushort = 3; // Flags for chflags(2) pub const UF_NOHISTORY: ::c_ulong = 0x00000040; pub const UF_CACHE: ::c_ulong = 0x00000080; pub const UF_XLINK: ::c_ulong = 0x00000100; pub const SF_NOHISTORY: ::c_ulong = 0x00400000; pub const SF_CACHE: ::c_ulong = 0x00800000; pub const SF_XLINK: ::c_ulong = 0x01000000; fn _CMSG_ALIGN(n: usize) -> usize { (n + 3) & !3 } f! { pub fn CMSG_DATA(cmsg: *const ::cmsghdr) -> *mut ::c_uchar { (cmsg as *mut ::c_uchar) .offset(_CMSG_ALIGN(::mem::size_of::<::cmsghdr>()) as isize) } pub fn CMSG_LEN(length: ::c_uint) -> ::c_uint { (_CMSG_ALIGN(::mem::size_of::<::cmsghdr>()) + length as usize) as ::c_uint } pub fn CMSG_NXTHDR(mhdr: *const ::msghdr, cmsg: *const ::cmsghdr) -> *mut ::cmsghdr { let next = cmsg as usize + _CMSG_ALIGN((*cmsg).cmsg_len as usize) + _CMSG_ALIGN(::mem::size_of::<::cmsghdr>()); let max = (*mhdr).msg_control as usize + (*mhdr).msg_controllen as usize; if next <= max { (cmsg as usize + _CMSG_ALIGN((*cmsg).cmsg_len as usize)) as *mut ::cmsghdr } else { 0 as *mut ::cmsghdr } } pub fn CMSG_SPACE(length: ::c_uint) -> ::c_uint { (_CMSG_ALIGN(::mem::size_of::<::cmsghdr>()) + _CMSG_ALIGN(length as usize)) as ::c_uint } } extern { pub fn setgrent(); pub fn mprotect(addr: *mut ::c_void, len: ::size_t, prot: ::c_int) -> ::c_int; pub fn clock_getres(clk_id: ::clockid_t, tp: *mut ::timespec) -> ::c_int; pub fn clock_gettime(clk_id: ::clockid_t, tp: *mut ::timespec) -> ::c_int; pub fn clock_settime(clk_id: ::clockid_t, tp: *const ::timespec) -> ::c_int; pub fn setutxdb(_type: ::c_uint, file: *mut ::c_char) -> ::c_int; pub fn aio_waitcomplete(iocbp: *mut *mut aiocb, timeout: *mut ::timespec) -> ::c_int; pub fn freelocale(loc: ::locale_t); pub fn lwp_rtprio(function: ::c_int, pid: ::pid_t, lwpid: lwpid_t, rtp: *mut super::rtprio) -> ::c_int; pub fn statfs(path: *const ::c_char, buf: *mut statfs) -> ::c_int; pub fn fstatfs(fd: ::c_int, buf: *mut statfs) -> ::c_int; pub fn uname(buf: *mut ::utsname) -> ::c_int; } cfg_if! { if #[cfg(libc_thread_local)] { mod errno; pub use self::errno::*; } }