use crate::prelude::*; use crate::{cmsghdr, off_t}; pub type clock_t = c_uint; pub type suseconds_t = c_int; pub type dev_t = u64; pub type blksize_t = i32; pub type fsblkcnt_t = u64; pub type fsfilcnt_t = u64; pub type idtype_t = c_int; pub type mqd_t = c_int; type __pthread_spin_t = __cpu_simple_lock_nv_t; pub type vm_size_t = crate::uintptr_t; // FIXME: deprecated since long time pub type lwpid_t = c_uint; pub type shmatt_t = c_uint; pub type cpuid_t = c_ulong; pub type cpuset_t = _cpuset; pub type pthread_spin_t = c_uchar; pub type timer_t = c_int; // elf.h pub type Elf32_Addr = u32; pub type Elf32_Half = u16; pub type Elf32_Lword = u64; pub type Elf32_Off = u32; pub type Elf32_Sword = i32; pub type Elf32_Word = u32; pub type Elf64_Addr = u64; pub type Elf64_Half = u16; pub type Elf64_Lword = u64; pub type Elf64_Off = u64; pub type Elf64_Sword = i32; pub type Elf64_Sxword = i64; pub type Elf64_Word = u32; pub type Elf64_Xword = u64; pub type iconv_t = *mut c_void; e! { pub enum fae_action { FAE_OPEN, FAE_DUP2, FAE_CLOSE, } } cfg_if! { if #[cfg(target_pointer_width = "64")] { type Elf_Addr = Elf64_Addr; type Elf_Half = Elf64_Half; type Elf_Phdr = Elf64_Phdr; } else if #[cfg(target_pointer_width = "32")] { type Elf_Addr = Elf32_Addr; type Elf_Half = Elf32_Half; type Elf_Phdr = Elf32_Phdr; } } impl siginfo_t { pub unsafe fn si_addr(&self) -> *mut c_void { self.si_addr } pub unsafe fn si_code(&self) -> c_int { self.si_code } pub unsafe fn si_errno(&self) -> c_int { self.si_errno } pub unsafe fn si_pid(&self) -> crate::pid_t { #[repr(C)] struct siginfo_timer { _si_signo: c_int, _si_errno: c_int, _si_code: c_int, __pad1: c_int, _pid: crate::pid_t, } (*(self as *const siginfo_t as *const siginfo_timer))._pid } pub unsafe fn si_uid(&self) -> crate::uid_t { #[repr(C)] struct siginfo_timer { _si_signo: c_int, _si_errno: c_int, _si_code: c_int, __pad1: c_int, _pid: crate::pid_t, _uid: crate::uid_t, } (*(self as *const siginfo_t as *const siginfo_timer))._uid } pub unsafe fn si_value(&self) -> crate::sigval { #[repr(C)] struct siginfo_timer { _si_signo: c_int, _si_errno: c_int, _si_code: c_int, __pad1: c_int, _pid: crate::pid_t, _uid: crate::uid_t, value: crate::sigval, } (*(self as *const siginfo_t as *const siginfo_timer)).value } pub unsafe fn si_status(&self) -> c_int { #[repr(C)] struct siginfo_timer { _si_signo: c_int, _si_errno: c_int, _si_code: c_int, __pad1: c_int, _pid: crate::pid_t, _uid: crate::uid_t, _value: crate::sigval, _cpid: crate::pid_t, _cuid: crate::uid_t, status: c_int, } (*(self as *const siginfo_t as *const siginfo_timer)).status } } s! { pub struct aiocb { pub aio_offset: off_t, pub aio_buf: *mut c_void, pub aio_nbytes: size_t, pub aio_fildes: c_int, pub aio_lio_opcode: c_int, pub aio_reqprio: c_int, pub aio_sigevent: crate::sigevent, _state: c_int, _errno: c_int, _retval: ssize_t, } pub struct glob_t { pub gl_pathc: size_t, pub gl_matchc: size_t, pub gl_offs: size_t, pub gl_flags: c_int, pub gl_pathv: *mut *mut c_char, __unused3: *mut c_void, __unused4: *mut c_void, __unused5: *mut c_void, __unused6: *mut c_void, __unused7: *mut c_void, __unused8: *mut c_void, } 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 itimerspec { pub it_interval: crate::timespec, pub it_value: crate::timespec, } pub struct sigset_t { __bits: [u32; 4], } pub struct stat { pub st_dev: crate::dev_t, pub st_mode: crate::mode_t, pub st_ino: crate::ino_t, pub st_nlink: crate::nlink_t, pub st_uid: crate::uid_t, pub st_gid: crate::gid_t, pub st_rdev: crate::dev_t, pub st_atime: crate::time_t, pub st_atimensec: c_long, pub st_mtime: crate::time_t, pub st_mtimensec: c_long, pub st_ctime: crate::time_t, pub st_ctimensec: c_long, pub st_birthtime: crate::time_t, pub st_birthtimensec: c_long, pub st_size: off_t, pub st_blocks: crate::blkcnt_t, pub st_blksize: crate::blksize_t, pub st_flags: u32, pub st_gen: u32, pub st_spare: [u32; 2], } pub struct addrinfo { pub ai_flags: c_int, pub ai_family: c_int, pub ai_socktype: c_int, pub ai_protocol: c_int, pub ai_addrlen: crate::socklen_t, pub ai_canonname: *mut c_char, pub ai_addr: *mut crate::sockaddr, pub ai_next: *mut crate::addrinfo, } pub struct siginfo_t { pub si_signo: c_int, pub si_code: c_int, pub si_errno: c_int, __pad1: c_int, pub si_addr: *mut c_void, __pad2: [u64; 13], } pub struct pthread_attr_t { pta_magic: c_uint, pta_flags: c_int, pta_private: *mut c_void, } pub struct pthread_mutex_t { ptm_magic: c_uint, ptm_errorcheck: __pthread_spin_t, #[cfg(any( target_arch = "sparc", target_arch = "sparc64", target_arch = "x86", target_arch = "x86_64" ))] ptm_pad1: [u8; 3], // actually a union with a non-unused, 0-initialized field ptm_unused: __pthread_spin_t, #[cfg(any( target_arch = "sparc", target_arch = "sparc64", target_arch = "x86", target_arch = "x86_64" ))] ptm_pad2: [u8; 3], ptm_owner: crate::pthread_t, ptm_waiters: *mut u8, ptm_recursed: c_uint, ptm_spare2: *mut c_void, } pub struct pthread_mutexattr_t { ptma_magic: c_uint, ptma_private: *mut c_void, } pub struct pthread_rwlockattr_t { ptra_magic: c_uint, ptra_private: *mut c_void, } pub struct pthread_cond_t { ptc_magic: c_uint, ptc_lock: __pthread_spin_t, ptc_waiters_first: *mut u8, ptc_waiters_last: *mut u8, ptc_mutex: *mut crate::pthread_mutex_t, ptc_private: *mut c_void, } pub struct pthread_condattr_t { ptca_magic: c_uint, ptca_private: *mut c_void, } pub struct pthread_rwlock_t { ptr_magic: c_uint, ptr_interlock: __pthread_spin_t, ptr_rblocked_first: *mut u8, ptr_rblocked_last: *mut u8, ptr_wblocked_first: *mut u8, ptr_wblocked_last: *mut u8, ptr_nreaders: c_uint, ptr_owner: crate::pthread_t, ptr_private: *mut c_void, } pub struct pthread_spinlock_t { pts_magic: c_uint, pts_spin: crate::pthread_spin_t, pts_flags: c_int, } pub struct kevent { pub ident: crate::uintptr_t, pub filter: u32, pub flags: u32, pub fflags: u32, pub data: i64, pub udata: intptr_t, /* FIXME: NetBSD 10.0 will finally have same layout as other BSD */ } pub struct dqblk { pub dqb_bhardlimit: u32, pub dqb_bsoftlimit: u32, pub dqb_curblocks: u32, pub dqb_ihardlimit: u32, pub dqb_isoftlimit: u32, pub dqb_curinodes: u32, pub dqb_btime: i32, pub dqb_itime: i32, } pub struct Dl_info { pub dli_fname: *const c_char, pub dli_fbase: *mut c_void, pub dli_sname: *const c_char, pub dli_saddr: *const c_void, } pub struct lconv { pub decimal_point: *mut c_char, pub thousands_sep: *mut c_char, pub grouping: *mut c_char, pub int_curr_symbol: *mut c_char, pub currency_symbol: *mut c_char, pub mon_decimal_point: *mut c_char, pub mon_thousands_sep: *mut c_char, pub mon_grouping: *mut c_char, pub positive_sign: *mut c_char, pub negative_sign: *mut c_char, pub int_frac_digits: c_char, pub frac_digits: c_char, pub p_cs_precedes: c_char, pub p_sep_by_space: c_char, pub n_cs_precedes: c_char, pub n_sep_by_space: c_char, pub p_sign_posn: c_char, pub n_sign_posn: c_char, pub int_p_cs_precedes: c_char, pub int_n_cs_precedes: c_char, pub int_p_sep_by_space: c_char, pub int_n_sep_by_space: c_char, pub int_p_sign_posn: c_char, pub int_n_sign_posn: c_char, } pub struct if_data { pub ifi_type: c_uchar, pub ifi_addrlen: c_uchar, pub ifi_hdrlen: c_uchar, pub ifi_link_state: c_int, pub ifi_mtu: u64, pub ifi_metric: u64, pub ifi_baudrate: u64, pub ifi_ipackets: u64, pub ifi_ierrors: u64, pub ifi_opackets: u64, pub ifi_oerrors: u64, pub ifi_collisions: u64, pub ifi_ibytes: u64, pub ifi_obytes: u64, pub ifi_imcasts: u64, pub ifi_omcasts: u64, pub ifi_iqdrops: u64, pub ifi_noproto: u64, pub ifi_lastchange: crate::timespec, } 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 sockcred { pub sc_pid: crate::pid_t, pub sc_uid: crate::uid_t, pub sc_euid: crate::uid_t, pub sc_gid: crate::gid_t, pub sc_egid: crate::gid_t, pub sc_ngroups: c_int, pub sc_groups: [crate::gid_t; 1], } pub struct uucred { pub cr_unused: c_ushort, pub cr_uid: crate::uid_t, pub cr_gid: crate::gid_t, pub cr_ngroups: c_int, pub cr_groups: [crate::gid_t; NGROUPS_MAX as usize], } pub struct unpcbid { pub unp_pid: crate::pid_t, pub unp_euid: crate::uid_t, pub unp_egid: crate::gid_t, } pub struct sockaddr_dl { pub sdl_len: c_uchar, pub sdl_family: c_uchar, pub sdl_index: c_ushort, pub sdl_type: u8, pub sdl_nlen: u8, pub sdl_alen: u8, pub sdl_slen: u8, pub sdl_data: [c_char; 12], } pub struct __exit_status { pub e_termination: u16, pub e_exit: u16, } pub struct shmid_ds { pub shm_perm: crate::ipc_perm, pub shm_segsz: size_t, pub shm_lpid: crate::pid_t, pub shm_cpid: crate::pid_t, pub shm_nattch: crate::shmatt_t, pub shm_atime: crate::time_t, pub shm_dtime: crate::time_t, pub shm_ctime: crate::time_t, _shm_internal: *mut c_void, } pub struct utmp { pub ut_line: [c_char; UT_LINESIZE], pub ut_name: [c_char; UT_NAMESIZE], pub ut_host: [c_char; UT_HOSTSIZE], pub ut_time: crate::time_t, } pub struct lastlog { pub ll_line: [c_char; UT_LINESIZE], pub ll_host: [c_char; UT_HOSTSIZE], pub ll_time: crate::time_t, } pub struct timex { pub modes: c_uint, pub offset: c_long, pub freq: c_long, pub maxerror: c_long, pub esterror: c_long, pub status: c_int, pub constant: c_long, pub precision: c_long, pub tolerance: c_long, pub ppsfreq: c_long, pub jitter: c_long, pub shift: c_int, pub stabil: c_long, pub jitcnt: c_long, pub calcnt: c_long, pub errcnt: c_long, pub stbcnt: c_long, } pub struct ntptimeval { pub time: crate::timespec, pub maxerror: c_long, pub esterror: c_long, pub tai: c_long, pub time_state: c_int, } // elf.h pub struct Elf32_Phdr { pub p_type: Elf32_Word, pub p_offset: Elf32_Off, pub p_vaddr: Elf32_Addr, pub p_paddr: Elf32_Addr, pub p_filesz: Elf32_Word, pub p_memsz: Elf32_Word, pub p_flags: Elf32_Word, pub p_align: Elf32_Word, } pub struct Elf64_Phdr { pub p_type: Elf64_Word, pub p_flags: Elf64_Word, pub p_offset: Elf64_Off, pub p_vaddr: Elf64_Addr, pub p_paddr: Elf64_Addr, pub p_filesz: Elf64_Xword, pub p_memsz: Elf64_Xword, pub p_align: Elf64_Xword, } pub struct Aux32Info { pub a_type: Elf32_Word, pub a_v: Elf32_Word, } pub struct Aux64Info { pub a_type: Elf64_Word, pub a_v: Elf64_Xword, } // link.h pub struct dl_phdr_info { pub dlpi_addr: Elf_Addr, pub dlpi_name: *const c_char, pub dlpi_phdr: *const Elf_Phdr, pub dlpi_phnum: Elf_Half, pub dlpi_adds: c_ulonglong, pub dlpi_subs: c_ulonglong, pub dlpi_tls_modid: usize, pub dlpi_tls_data: *mut c_void, } pub struct _cpuset { bits: [u32; 0], } pub struct accept_filter_arg { pub af_name: [c_char; 16], af_arg: [c_char; 256 - 16], } pub struct ki_sigset_t { pub __bits: [u32; 4], } pub struct kinfo_proc2 { pub p_forw: u64, pub p_back: u64, pub p_paddr: u64, pub p_addr: u64, pub p_fd: u64, pub p_cwdi: u64, pub p_stats: u64, pub p_limit: u64, pub p_vmspace: u64, pub p_sigacts: u64, pub p_sess: u64, pub p_tsess: u64, pub p_ru: u64, pub p_eflag: i32, pub p_exitsig: i32, pub p_flag: i32, pub p_pid: i32, pub p_ppid: i32, pub p_sid: i32, pub p__pgid: i32, pub p_tpgid: i32, pub p_uid: u32, pub p_ruid: u32, pub p_gid: u32, pub p_rgid: u32, pub p_groups: [u32; KI_NGROUPS as usize], pub p_ngroups: i16, pub p_jobc: i16, pub p_tdev: u32, pub p_estcpu: u32, pub p_rtime_sec: u32, pub p_rtime_usec: u32, pub p_cpticks: i32, pub p_pctcpu: u32, pub p_swtime: u32, pub p_slptime: u32, pub p_schedflags: i32, pub p_uticks: u64, pub p_sticks: u64, pub p_iticks: u64, pub p_tracep: u64, pub p_traceflag: i32, pub p_holdcnt: i32, pub p_siglist: ki_sigset_t, pub p_sigmask: ki_sigset_t, pub p_sigignore: ki_sigset_t, pub p_sigcatch: ki_sigset_t, pub p_stat: i8, pub p_priority: u8, pub p_usrpri: u8, pub p_nice: u8, pub p_xstat: u16, pub p_acflag: u16, pub p_comm: [c_char; KI_MAXCOMLEN as usize], pub p_wmesg: [c_char; KI_WMESGLEN as usize], pub p_wchan: u64, pub p_login: [c_char; KI_MAXLOGNAME as usize], pub p_vm_rssize: i32, pub p_vm_tsize: i32, pub p_vm_dsize: i32, pub p_vm_ssize: i32, pub p_uvalid: i64, pub p_ustart_sec: u32, pub p_ustart_usec: u32, pub p_uutime_sec: u32, pub p_uutime_usec: u32, pub p_ustime_sec: u32, pub p_ustime_usec: u32, pub p_uru_maxrss: u64, pub p_uru_ixrss: u64, pub p_uru_idrss: u64, pub p_uru_isrss: u64, pub p_uru_minflt: u64, pub p_uru_majflt: u64, pub p_uru_nswap: u64, pub p_uru_inblock: u64, pub p_uru_oublock: u64, pub p_uru_msgsnd: u64, pub p_uru_msgrcv: u64, pub p_uru_nsignals: u64, pub p_uru_nvcsw: u64, pub p_uru_nivcsw: u64, pub p_uctime_sec: u32, pub p_uctime_usec: u32, pub p_cpuid: u64, pub p_realflag: u64, pub p_nlwps: u64, pub p_nrlwps: u64, pub p_realstat: u64, pub p_svuid: u32, pub p_svgid: u32, pub p_ename: [c_char; KI_MAXEMULLEN as usize], pub p_vm_vsize: i64, pub p_vm_msize: i64, } pub struct kinfo_lwp { pub l_forw: u64, pub l_back: u64, pub l_laddr: u64, pub l_addr: u64, pub l_lid: i32, pub l_flag: i32, pub l_swtime: u32, pub l_slptime: u32, pub l_schedflags: i32, pub l_holdcnt: i32, pub l_priority: u8, pub l_usrpri: u8, pub l_stat: i8, l_pad1: i8, l_pad2: i32, pub l_wmesg: [c_char; KI_WMESGLEN as usize], pub l_wchan: u64, pub l_cpuid: u64, pub l_rtime_sec: u32, pub l_rtime_usec: u32, pub l_cpticks: u32, pub l_pctcpu: u32, pub l_pid: u32, pub l_name: [c_char; KI_LNAMELEN as usize], } pub struct kinfo_vmentry { pub kve_start: u64, pub kve_end: u64, pub kve_offset: u64, pub kve_type: u32, pub kve_flags: u32, pub kve_count: u32, pub kve_wired_count: u32, pub kve_advice: u32, pub kve_attributes: u32, pub kve_protection: u32, pub kve_max_protection: u32, pub kve_ref_count: u32, pub kve_inheritance: u32, pub kve_vn_fileid: u64, pub kve_vn_size: u64, pub kve_vn_fsid: u64, pub kve_vn_rdev: u64, pub kve_vn_type: u32, pub kve_vn_mode: u32, pub kve_path: [[c_char; 32]; 32], } pub struct __c_anonymous_posix_spawn_fae_open { pub path: *mut c_char, pub oflag: c_int, pub mode: crate::mode_t, } pub struct __c_anonymous_posix_spawn_fae_dup2 { pub newfildes: c_int, } pub struct posix_spawnattr_t { pub sa_flags: c_short, pub sa_pgroup: crate::pid_t, pub sa_schedparam: crate::sched_param, pub sa_schedpolicy: c_int, pub sa_sigdefault: sigset_t, pub sa_sigmask: sigset_t, } pub struct posix_spawn_file_actions_entry_t { pub fae_action: fae_action, pub fae_fildes: c_int, pub fae_data: __c_anonymous_posix_spawn_fae, } pub struct posix_spawn_file_actions_t { pub size: c_uint, pub len: c_uint, pub fae: *mut posix_spawn_file_actions_entry_t, } pub struct ptrace_lwpinfo { pub pl_lwpid: lwpid_t, pub pl_event: c_int, } pub struct ptrace_lwpstatus { pub pl_lwpid: lwpid_t, pub pl_sigpend: sigset_t, pub pl_sigmask: sigset_t, pub pl_name: [c_char; 20], pub pl_private: *mut c_void, } pub struct ptrace_siginfo { pub psi_siginfo: siginfo_t, pub psi_lwpid: lwpid_t, } pub struct ptrace_event { pub pe_set_event: c_int, } pub struct sysctldesc { pub descr_num: i32, pub descr_ver: u32, pub descr_len: u32, pub descr_str: [c_char; 1], } pub struct ifreq { pub _priv: [[c_char; 6]; 24], } pub struct ifconf { pub ifc_len: c_int, pub ifc_ifcu: __c_anonymous_ifc_ifcu, } pub struct tcp_info { pub tcpi_state: u8, pub __tcpi_ca_state: u8, pub __tcpi_retransmits: u8, pub __tcpi_probes: u8, pub __tcpi_backoff: u8, pub tcpi_options: u8, pub tcp_snd_wscale: u8, pub tcp_rcv_wscale: u8, pub tcpi_rto: u32, pub __tcpi_ato: u32, pub tcpi_snd_mss: u32, pub tcpi_rcv_mss: u32, pub __tcpi_unacked: u32, pub __tcpi_sacked: u32, pub __tcpi_lost: u32, pub __tcpi_retrans: u32, pub __tcpi_fackets: u32, pub __tcpi_last_data_sent: u32, pub __tcpi_last_ack_sent: u32, pub tcpi_last_data_recv: u32, pub __tcpi_last_ack_recv: u32, pub __tcpi_pmtu: u32, pub __tcpi_rcv_ssthresh: u32, pub tcpi_rtt: u32, pub tcpi_rttvar: u32, pub tcpi_snd_ssthresh: u32, pub tcpi_snd_cwnd: u32, pub __tcpi_advmss: u32, pub __tcpi_reordering: u32, pub __tcpi_rcv_rtt: u32, pub tcpi_rcv_space: u32, pub tcpi_snd_wnd: u32, pub tcpi_snd_bwnd: u32, pub tcpi_snd_nxt: u32, pub tcpi_rcv_nxt: u32, pub tcpi_toe_tid: u32, pub tcpi_snd_rexmitpack: u32, pub tcpi_rcv_ooopack: u32, pub tcpi_snd_zerowin: u32, pub __tcpi_pad: [u32; 26], } } s_no_extra_traits! { pub struct utmpx { pub ut_name: [c_char; _UTX_USERSIZE], pub ut_id: [c_char; _UTX_IDSIZE], pub ut_line: [c_char; _UTX_LINESIZE], pub ut_host: [c_char; _UTX_HOSTSIZE], pub ut_session: u16, pub ut_type: u16, pub ut_pid: crate::pid_t, pub ut_exit: __exit_status, // FIXME: when anonymous struct are supported pub ut_ss: sockaddr_storage, pub ut_tv: crate::timeval, pub ut_pad: [u8; _UTX_PADSIZE], } pub struct lastlogx { pub ll_tv: crate::timeval, pub ll_line: [c_char; _UTX_LINESIZE], pub ll_host: [c_char; _UTX_HOSTSIZE], pub ll_ss: sockaddr_storage, } pub struct in_pktinfo { pub ipi_addr: crate::in_addr, pub ipi_ifindex: c_uint, } pub struct arphdr { pub ar_hrd: u16, pub ar_pro: u16, pub ar_hln: u8, pub ar_pln: u8, pub ar_op: u16, } pub struct in_addr { pub s_addr: crate::in_addr_t, } pub struct ip_mreq { pub imr_multiaddr: in_addr, pub imr_interface: in_addr, } pub struct sockaddr_in { pub sin_len: u8, pub sin_family: crate::sa_family_t, pub sin_port: crate::in_port_t, pub sin_addr: crate::in_addr, pub sin_zero: [i8; 8], } pub struct dirent { pub d_fileno: crate::ino_t, pub d_reclen: u16, pub d_namlen: u16, pub d_type: u8, pub d_name: [c_char; 512], } pub struct statvfs { pub f_flag: c_ulong, pub f_bsize: c_ulong, pub f_frsize: c_ulong, pub f_iosize: c_ulong, pub f_blocks: crate::fsblkcnt_t, pub f_bfree: crate::fsblkcnt_t, pub f_bavail: crate::fsblkcnt_t, pub f_bresvd: crate::fsblkcnt_t, pub f_files: crate::fsfilcnt_t, pub f_ffree: crate::fsfilcnt_t, pub f_favail: crate::fsfilcnt_t, pub f_fresvd: crate::fsfilcnt_t, pub f_syncreads: u64, pub f_syncwrites: u64, pub f_asyncreads: u64, pub f_asyncwrites: u64, pub f_fsidx: crate::fsid_t, pub f_fsid: c_ulong, pub f_namemax: c_ulong, pub f_owner: crate::uid_t, pub f_spare: [u32; 4], pub f_fstypename: [c_char; 32], pub f_mntonname: [c_char; 1024], pub f_mntfromname: [c_char; 1024], } pub struct sockaddr_storage { pub ss_len: u8, pub ss_family: crate::sa_family_t, __ss_pad1: [u8; 6], __ss_pad2: i64, __ss_pad3: [u8; 112], } pub struct sigevent { pub sigev_notify: c_int, pub sigev_signo: c_int, pub sigev_value: crate::sigval, __unused1: *mut c_void, //actually a function pointer pub sigev_notify_attributes: *mut c_void, } pub union __c_anonymous_posix_spawn_fae { pub open: __c_anonymous_posix_spawn_fae_open, pub dup2: __c_anonymous_posix_spawn_fae_dup2, } pub union __c_anonymous_ifc_ifcu { pub ifcu_buf: *mut c_void, pub ifcu_req: *mut ifreq, } } cfg_if! { if #[cfg(feature = "extra_traits")] { impl PartialEq for utmpx { fn eq(&self, other: &utmpx) -> bool { self.ut_type == other.ut_type && self.ut_pid == other.ut_pid && self.ut_name == other.ut_name && self.ut_line == other.ut_line && self.ut_id == other.ut_id && self.ut_exit == other.ut_exit && self.ut_session == other.ut_session && self.ut_tv == other.ut_tv && self.ut_ss == other.ut_ss && self .ut_pad .iter() .zip(other.ut_pad.iter()) .all(|(a, b)| a == b) && self .ut_host .iter() .zip(other.ut_host.iter()) .all(|(a, b)| a == b) } } 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_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) // FIXME .field("ut_pad", &self.ut_pad) .finish() } } impl hash::Hash for utmpx { fn hash(&self, state: &mut H) { self.ut_name.hash(state); self.ut_type.hash(state); self.ut_pid.hash(state); self.ut_line.hash(state); self.ut_id.hash(state); self.ut_host.hash(state); self.ut_exit.hash(state); self.ut_session.hash(state); self.ut_tv.hash(state); self.ut_ss.hash(state); self.ut_pad.hash(state); } } impl PartialEq for lastlogx { fn eq(&self, other: &lastlogx) -> bool { self.ll_tv == other.ll_tv && self.ll_line == other.ll_line && self.ll_ss == other.ll_ss && self .ll_host .iter() .zip(other.ll_host.iter()) .all(|(a, b)| a == b) } } impl Eq for lastlogx {} impl fmt::Debug for lastlogx { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("lastlogx") .field("ll_tv", &self.ll_tv) .field("ll_line", &self.ll_line) // FIXME.field("ll_host", &self.ll_host) .field("ll_ss", &self.ll_ss) .finish() } } impl hash::Hash for lastlogx { fn hash(&self, state: &mut H) { self.ll_tv.hash(state); self.ll_line.hash(state); self.ll_host.hash(state); self.ll_ss.hash(state); } } impl PartialEq for in_pktinfo { fn eq(&self, other: &in_pktinfo) -> bool { self.ipi_addr == other.ipi_addr && self.ipi_ifindex == other.ipi_ifindex } } impl Eq for in_pktinfo {} impl fmt::Debug for in_pktinfo { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("in_pktinfo") .field("ipi_addr", &self.ipi_addr) .field("ipi_ifindex", &self.ipi_ifindex) .finish() } } impl hash::Hash for in_pktinfo { fn hash(&self, state: &mut H) { self.ipi_addr.hash(state); self.ipi_ifindex.hash(state); } } impl PartialEq for arphdr { fn eq(&self, other: &arphdr) -> bool { self.ar_hrd == other.ar_hrd && self.ar_pro == other.ar_pro && self.ar_hln == other.ar_hln && self.ar_pln == other.ar_pln && self.ar_op == other.ar_op } } impl Eq for arphdr {} impl fmt::Debug for arphdr { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let ar_hrd = self.ar_hrd; let ar_pro = self.ar_pro; let ar_op = self.ar_op; f.debug_struct("arphdr") .field("ar_hrd", &ar_hrd) .field("ar_pro", &ar_pro) .field("ar_hln", &self.ar_hln) .field("ar_pln", &self.ar_pln) .field("ar_op", &ar_op) .finish() } } impl hash::Hash for arphdr { fn hash(&self, state: &mut H) { let ar_hrd = self.ar_hrd; let ar_pro = self.ar_pro; let ar_op = self.ar_op; ar_hrd.hash(state); ar_pro.hash(state); self.ar_hln.hash(state); self.ar_pln.hash(state); ar_op.hash(state); } } impl PartialEq for in_addr { fn eq(&self, other: &in_addr) -> bool { self.s_addr == other.s_addr } } impl Eq for in_addr {} impl fmt::Debug for in_addr { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let s_addr = self.s_addr; f.debug_struct("in_addr").field("s_addr", &s_addr).finish() } } impl hash::Hash for in_addr { fn hash(&self, state: &mut H) { let s_addr = self.s_addr; s_addr.hash(state); } } impl PartialEq for ip_mreq { fn eq(&self, other: &ip_mreq) -> bool { self.imr_multiaddr == other.imr_multiaddr && self.imr_interface == other.imr_interface } } impl Eq for ip_mreq {} impl fmt::Debug for ip_mreq { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("ip_mreq") .field("imr_multiaddr", &self.imr_multiaddr) .field("imr_interface", &self.imr_interface) .finish() } } impl hash::Hash for ip_mreq { fn hash(&self, state: &mut H) { self.imr_multiaddr.hash(state); self.imr_interface.hash(state); } } impl PartialEq for sockaddr_in { fn eq(&self, other: &sockaddr_in) -> bool { self.sin_len == other.sin_len && self.sin_family == other.sin_family && self.sin_port == other.sin_port && self.sin_addr == other.sin_addr && self.sin_zero == other.sin_zero } } impl Eq for sockaddr_in {} impl fmt::Debug for sockaddr_in { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("sockaddr_in") .field("sin_len", &self.sin_len) .field("sin_family", &self.sin_family) .field("sin_port", &self.sin_port) .field("sin_addr", &self.sin_addr) .field("sin_zero", &self.sin_zero) .finish() } } impl hash::Hash for sockaddr_in { fn hash(&self, state: &mut H) { self.sin_len.hash(state); self.sin_family.hash(state); self.sin_port.hash(state); self.sin_addr.hash(state); self.sin_zero.hash(state); } } impl PartialEq for dirent { fn eq(&self, other: &dirent) -> bool { self.d_fileno == other.d_fileno && self.d_reclen == other.d_reclen && self.d_namlen == other.d_namlen && self.d_type == other.d_type && 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_reclen", &self.d_reclen) .field("d_namlen", &self.d_namlen) .field("d_type", &self.d_type) // 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_reclen.hash(state); self.d_namlen.hash(state); self.d_type.hash(state); self.d_name.hash(state); } } impl PartialEq for statvfs { fn eq(&self, other: &statvfs) -> bool { self.f_flag == other.f_flag && self.f_bsize == other.f_bsize && self.f_frsize == other.f_frsize && 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_bresvd == other.f_bresvd && self.f_files == other.f_files && self.f_ffree == other.f_ffree && self.f_favail == other.f_favail && self.f_fresvd == other.f_fresvd && self.f_syncreads == other.f_syncreads && self.f_syncwrites == other.f_syncwrites && self.f_asyncreads == other.f_asyncreads && self.f_asyncwrites == other.f_asyncwrites && self.f_fsidx == other.f_fsidx && self.f_fsid == other.f_fsid && self.f_namemax == other.f_namemax && self.f_owner == other.f_owner && self.f_spare == other.f_spare && self.f_fstypename == other.f_fstypename && self .f_mntonname .iter() .zip(other.f_mntonname.iter()) .all(|(a, b)| a == b) && self .f_mntfromname .iter() .zip(other.f_mntfromname.iter()) .all(|(a, b)| a == b) } } impl Eq for statvfs {} impl fmt::Debug for statvfs { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("statvfs") .field("f_flag", &self.f_flag) .field("f_bsize", &self.f_bsize) .field("f_frsize", &self.f_frsize) .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_bresvd", &self.f_bresvd) .field("f_files", &self.f_files) .field("f_ffree", &self.f_ffree) .field("f_favail", &self.f_favail) .field("f_fresvd", &self.f_fresvd) .field("f_syncreads", &self.f_syncreads) .field("f_syncwrites", &self.f_syncwrites) .field("f_asyncreads", &self.f_asyncreads) .field("f_asyncwrites", &self.f_asyncwrites) .field("f_fsidx", &self.f_fsidx) .field("f_fsid", &self.f_fsid) .field("f_namemax", &self.f_namemax) .field("f_owner", &self.f_owner) .field("f_spare", &self.f_spare) .field("f_fstypename", &self.f_fstypename) // FIXME: .field("f_mntonname", &self.f_mntonname) // FIXME: .field("f_mntfromname", &self.f_mntfromname) .finish() } } impl hash::Hash for statvfs { fn hash(&self, state: &mut H) { self.f_flag.hash(state); self.f_bsize.hash(state); self.f_frsize.hash(state); self.f_iosize.hash(state); self.f_blocks.hash(state); self.f_bfree.hash(state); self.f_bavail.hash(state); self.f_bresvd.hash(state); self.f_files.hash(state); self.f_ffree.hash(state); self.f_favail.hash(state); self.f_fresvd.hash(state); self.f_syncreads.hash(state); self.f_syncwrites.hash(state); self.f_asyncreads.hash(state); self.f_asyncwrites.hash(state); self.f_fsidx.hash(state); self.f_fsid.hash(state); self.f_namemax.hash(state); self.f_owner.hash(state); self.f_spare.hash(state); self.f_fstypename.hash(state); self.f_mntonname.hash(state); self.f_mntfromname.hash(state); } } impl PartialEq for sockaddr_storage { fn eq(&self, other: &sockaddr_storage) -> bool { self.ss_len == other.ss_len && self.ss_family == other.ss_family && self.__ss_pad1 == other.__ss_pad1 && self.__ss_pad2 == other.__ss_pad2 && self .__ss_pad3 .iter() .zip(other.__ss_pad3.iter()) .all(|(a, b)| a == b) } } impl Eq for sockaddr_storage {} impl fmt::Debug for sockaddr_storage { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("sockaddr_storage") .field("ss_len", &self.ss_len) .field("ss_family", &self.ss_family) .field("__ss_pad1", &self.__ss_pad1) .field("__ss_pad2", &self.__ss_pad2) // FIXME: .field("__ss_pad3", &self.__ss_pad3) .finish() } } impl hash::Hash for sockaddr_storage { fn hash(&self, state: &mut H) { self.ss_len.hash(state); self.ss_family.hash(state); self.__ss_pad1.hash(state); self.__ss_pad2.hash(state); self.__ss_pad3.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 && self.sigev_notify_attributes == other.sigev_notify_attributes } } 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) .field("sigev_notify_attributes", &self.sigev_notify_attributes) .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); self.sigev_notify_attributes.hash(state); } } impl Eq for __c_anonymous_posix_spawn_fae {} impl PartialEq for __c_anonymous_posix_spawn_fae { fn eq(&self, other: &__c_anonymous_posix_spawn_fae) -> bool { unsafe { self.open == other.open || self.dup2 == other.dup2 } } } impl hash::Hash for __c_anonymous_posix_spawn_fae { fn hash(&self, state: &mut H) { unsafe { self.open.hash(state); self.dup2.hash(state); } } } impl Eq for __c_anonymous_ifc_ifcu {} impl PartialEq for __c_anonymous_ifc_ifcu { fn eq(&self, other: &__c_anonymous_ifc_ifcu) -> bool { unsafe { self.ifcu_buf == other.ifcu_buf || self.ifcu_req == other.ifcu_req } } } impl hash::Hash for __c_anonymous_ifc_ifcu { fn hash(&self, state: &mut H) { unsafe { self.ifcu_buf.hash(state); self.ifcu_req.hash(state); } } } } } pub const AT_FDCWD: c_int = -100; pub const AT_EACCESS: c_int = 0x100; pub const AT_SYMLINK_NOFOLLOW: c_int = 0x200; pub const AT_SYMLINK_FOLLOW: c_int = 0x400; pub const AT_REMOVEDIR: c_int = 0x800; pub const AT_NULL: c_int = 0; pub const AT_IGNORE: c_int = 1; pub const AT_EXECFD: c_int = 2; pub const AT_PHDR: c_int = 3; pub const AT_PHENT: c_int = 4; pub const AT_PHNUM: c_int = 5; pub const AT_PAGESZ: c_int = 6; pub const AT_BASE: c_int = 7; pub const AT_FLAGS: c_int = 8; pub const AT_ENTRY: c_int = 9; pub const AT_DCACHEBSIZE: c_int = 10; pub const AT_ICACHEBSIZE: c_int = 11; pub const AT_UCACHEBSIZE: c_int = 12; pub const AT_STACKBASE: c_int = 13; pub const AT_EUID: c_int = 2000; pub const AT_RUID: c_int = 2001; pub const AT_EGID: c_int = 2002; pub const AT_RGID: c_int = 2003; pub const AT_SUN_LDELF: c_int = 2004; pub const AT_SUN_LDSHDR: c_int = 2005; pub const AT_SUN_LDNAME: c_int = 2006; pub const AT_SUN_LDPGSIZE: c_int = 2007; pub const AT_SUN_PLATFORM: c_int = 2008; pub const AT_SUN_HWCAP: c_int = 2009; pub const AT_SUN_IFLUSH: c_int = 2010; pub const AT_SUN_CPU: c_int = 2011; pub const AT_SUN_EMUL_ENTRY: c_int = 2012; pub const AT_SUN_EMUL_EXECFD: c_int = 2013; pub const AT_SUN_EXECNAME: c_int = 2014; pub const EXTATTR_NAMESPACE_USER: c_int = 1; pub const EXTATTR_NAMESPACE_SYSTEM: c_int = 2; pub const LC_COLLATE_MASK: c_int = 1 << crate::LC_COLLATE; pub const LC_CTYPE_MASK: c_int = 1 << crate::LC_CTYPE; pub const LC_MONETARY_MASK: c_int = 1 << crate::LC_MONETARY; pub const LC_NUMERIC_MASK: c_int = 1 << crate::LC_NUMERIC; pub const LC_TIME_MASK: c_int = 1 << crate::LC_TIME; pub const LC_MESSAGES_MASK: c_int = 1 << crate::LC_MESSAGES; pub const LC_ALL_MASK: c_int = !0; pub const ERA: crate::nl_item = 52; pub const ERA_D_FMT: crate::nl_item = 53; pub const ERA_D_T_FMT: crate::nl_item = 54; pub const ERA_T_FMT: crate::nl_item = 55; pub const ALT_DIGITS: crate::nl_item = 56; pub const O_CLOEXEC: c_int = 0x400000; pub const O_ALT_IO: c_int = 0x40000; pub const O_NOSIGPIPE: c_int = 0x1000000; pub const O_SEARCH: c_int = 0x800000; pub const O_DIRECTORY: c_int = 0x200000; pub const O_DIRECT: c_int = 0x00080000; pub const O_RSYNC: c_int = 0x00020000; pub const MS_SYNC: c_int = 0x4; pub const MS_INVALIDATE: c_int = 0x2; // Here because they are not present on OpenBSD // (https://github.com/openbsd/src/blob/HEAD/sys/sys/resource.h) pub const RLIMIT_SBSIZE: c_int = 9; pub const RLIMIT_AS: c_int = 10; pub const RLIMIT_NTHR: c_int = 11; #[deprecated(since = "0.2.64", note = "Not stable across OS versions")] pub const RLIM_NLIMITS: c_int = 12; pub const EIDRM: c_int = 82; pub const ENOMSG: c_int = 83; pub const EOVERFLOW: c_int = 84; pub const EILSEQ: c_int = 85; pub const ENOTSUP: c_int = 86; pub const ECANCELED: c_int = 87; pub const EBADMSG: c_int = 88; pub const ENODATA: c_int = 89; pub const ENOSR: c_int = 90; pub const ENOSTR: c_int = 91; pub const ETIME: c_int = 92; pub const ENOATTR: c_int = 93; pub const EMULTIHOP: c_int = 94; pub const ENOLINK: c_int = 95; pub const EPROTO: c_int = 96; pub const EOWNERDEAD: c_int = 97; pub const ENOTRECOVERABLE: c_int = 98; #[deprecated( since = "0.2.143", note = "This value will always match the highest defined error number \ and thus is not stable. \ See #3040 for more info." )] pub const ELAST: c_int = 98; pub const F_DUPFD_CLOEXEC: c_int = 12; pub const F_CLOSEM: c_int = 10; pub const F_GETNOSIGPIPE: c_int = 13; pub const F_SETNOSIGPIPE: c_int = 14; pub const F_MAXFD: c_int = 11; pub const F_GETPATH: c_int = 15; pub const FUTEX_WAIT: c_int = 0; pub const FUTEX_WAKE: c_int = 1; pub const FUTEX_FD: c_int = 2; pub const FUTEX_REQUEUE: c_int = 3; pub const FUTEX_CMP_REQUEUE: c_int = 4; pub const FUTEX_WAKE_OP: c_int = 5; pub const FUTEX_LOCK_PI: c_int = 6; pub const FUTEX_UNLOCK_PI: c_int = 7; pub const FUTEX_TRYLOCK_PI: c_int = 8; pub const FUTEX_WAIT_BITSET: c_int = 9; pub const FUTEX_WAKE_BITSET: c_int = 10; pub const FUTEX_WAIT_REQUEUE_PI: c_int = 11; pub const FUTEX_CMP_REQUEUE_PI: c_int = 12; pub const FUTEX_PRIVATE_FLAG: c_int = 1 << 7; pub const FUTEX_CLOCK_REALTIME: c_int = 1 << 8; pub const FUTEX_CMD_MASK: c_int = !(FUTEX_PRIVATE_FLAG | FUTEX_CLOCK_REALTIME); pub const FUTEX_WAITERS: u32 = 1 << 31; pub const FUTEX_OWNER_DIED: u32 = 1 << 30; pub const FUTEX_SYNCOBJ_1: u32 = 1 << 29; pub const FUTEX_SYNCOBJ_0: u32 = 1 << 28; pub const FUTEX_TID_MASK: u32 = (1 << 28) - 1; pub const FUTEX_BITSET_MATCH_ANY: u32 = !0; pub const IP_RECVDSTADDR: c_int = 7; pub const IP_SENDSRCADDR: c_int = IP_RECVDSTADDR; pub const IP_RECVIF: c_int = 20; pub const IP_PKTINFO: c_int = 25; pub const IP_RECVPKTINFO: c_int = 26; pub const IPV6_JOIN_GROUP: c_int = 12; pub const IPV6_LEAVE_GROUP: c_int = 13; pub const TCP_KEEPIDLE: c_int = 3; pub const TCP_KEEPINTVL: c_int = 5; pub const TCP_KEEPCNT: c_int = 6; pub const TCP_KEEPINIT: c_int = 7; pub const TCP_MD5SIG: c_int = 0x10; pub const TCP_CONGCTL: c_int = 0x20; pub const SOCK_CONN_DGRAM: c_int = 6; pub const SOCK_DCCP: c_int = SOCK_CONN_DGRAM; pub const SOCK_NOSIGPIPE: c_int = 0x40000000; pub const SOCK_FLAGS_MASK: c_int = 0xf0000000; pub const SO_SNDTIMEO: c_int = 0x100b; pub const SO_RCVTIMEO: c_int = 0x100c; pub const SO_NOSIGPIPE: c_int = 0x0800; pub const SO_ACCEPTFILTER: c_int = 0x1000; pub const SO_TIMESTAMP: c_int = 0x2000; pub const SO_OVERFLOWED: c_int = 0x1009; pub const SO_NOHEADER: c_int = 0x100a; // http://cvsweb.netbsd.org/bsdweb.cgi/src/sys/sys/un.h?annotate pub const LOCAL_OCREDS: c_int = 0x0001; // pass credentials to receiver pub const LOCAL_CONNWAIT: c_int = 0x0002; // connects block until accepted pub const LOCAL_PEEREID: c_int = 0x0003; // get peer identification pub const LOCAL_CREDS: c_int = 0x0004; // pass credentials to receiver // https://github.com/NetBSD/src/blob/trunk/sys/net/if.h#L373 pub const IFF_UP: c_int = 0x0001; // interface is up pub const IFF_BROADCAST: c_int = 0x0002; // broadcast address valid pub const IFF_DEBUG: c_int = 0x0004; // turn on debugging pub const IFF_LOOPBACK: c_int = 0x0008; // is a loopback net pub const IFF_POINTOPOINT: c_int = 0x0010; // interface is point-to-point link pub const IFF_NOTRAILERS: c_int = 0x0020; // avoid use of trailers pub const IFF_RUNNING: c_int = 0x0040; // resources allocated pub const IFF_NOARP: c_int = 0x0080; // no address resolution protocol pub const IFF_PROMISC: c_int = 0x0100; // receive all packets pub const IFF_ALLMULTI: c_int = 0x0200; // receive all multicast packets pub const IFF_OACTIVE: c_int = 0x0400; // transmission in progress pub const IFF_SIMPLEX: c_int = 0x0800; // 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_MULTICAST: c_int = 0x8000; // supports multicast // 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 /// Hop-by-hop option header 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 /// exterior gateway protocol pub const IPPROTO_EGP: c_int = 8; /// pup pub const IPPROTO_PUP: c_int = 12; // IPPROTO_UDP defined in src/unix/mod.rs /// xns idp pub const IPPROTO_IDP: c_int = 22; /// tp-4 w/ class negotiation pub const IPPROTO_TP: c_int = 29; /// DCCP pub const IPPROTO_DCCP: c_int = 33; // IPPROTO_IPV6 defined in src/unix/mod.rs /// IP6 routing header pub const IPPROTO_ROUTING: c_int = 43; /// IP6 fragmentation header pub const IPPROTO_FRAGMENT: c_int = 44; /// resource reservation pub const IPPROTO_RSVP: c_int = 46; /// General Routing Encap. pub const IPPROTO_GRE: c_int = 47; /// IP6 Encap Sec. Payload pub const IPPROTO_ESP: c_int = 50; /// IP6 Auth Header pub const IPPROTO_AH: c_int = 51; /// IP Mobility RFC 2004 pub const IPPROTO_MOBILE: c_int = 55; /// IPv6 ICMP pub const IPPROTO_IPV6_ICMP: c_int = 58; // 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; /// ISO cnlp pub const IPPROTO_EON: c_int = 80; /// Ethernet-in-IP pub const IPPROTO_ETHERIP: c_int = 97; /// encapsulation header pub const IPPROTO_ENCAP: c_int = 98; /// Protocol indep. multicast pub const IPPROTO_PIM: c_int = 103; /// IP Payload Comp. Protocol pub const IPPROTO_IPCOMP: c_int = 108; /// VRRP RFC 2338 pub const IPPROTO_VRRP: c_int = 112; /// Common Address Resolution Protocol pub const IPPROTO_CARP: c_int = 112; /// L2TPv3 pub const IPPROTO_L2TP: c_int = 115; /// SCTP pub const IPPROTO_SCTP: c_int = 132; /// PFSYNC pub const IPPROTO_PFSYNC: c_int = 240; 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; /// sysctl placeholder for (FAST_)IPSEC pub const CTL_IPPROTO_IPSEC: c_int = 258; pub const AF_OROUTE: c_int = 17; pub const AF_ARP: c_int = 28; pub const pseudo_AF_KEY: c_int = 29; pub const pseudo_AF_HDRCMPLT: c_int = 30; pub const AF_BLUETOOTH: c_int = 31; pub const AF_IEEE80211: c_int = 32; pub const AF_MPLS: c_int = 33; pub const AF_ROUTE: c_int = 34; pub const NET_RT_DUMP: c_int = 1; pub const NET_RT_FLAGS: c_int = 2; pub const NET_RT_OOOIFLIST: c_int = 3; pub const NET_RT_OOIFLIST: c_int = 4; pub const NET_RT_OIFLIST: c_int = 5; pub const NET_RT_IFLIST: c_int = 6; pub const NET_RT_MAXID: c_int = 7; pub const PF_OROUTE: c_int = AF_OROUTE; pub const PF_ARP: c_int = AF_ARP; pub const PF_KEY: c_int = pseudo_AF_KEY; pub const PF_BLUETOOTH: c_int = AF_BLUETOOTH; pub const PF_MPLS: c_int = AF_MPLS; pub const PF_ROUTE: c_int = AF_ROUTE; pub const MSG_NBIO: c_int = 0x1000; pub const MSG_WAITFORONE: c_int = 0x2000; pub const MSG_NOTIFICATION: c_int = 0x4000; pub const SCM_TIMESTAMP: c_int = 0x08; pub const SCM_CREDS: c_int = 0x10; pub const O_DSYNC: c_int = 0x10000; pub const MAP_RENAME: c_int = 0x20; pub const MAP_NORESERVE: c_int = 0x40; pub const MAP_HASSEMAPHORE: c_int = 0x200; pub const MAP_TRYFIXED: c_int = 0x400; pub const MAP_WIRED: c_int = 0x800; pub const MAP_STACK: c_int = 0x2000; // map alignment aliases for MAP_ALIGNED pub const MAP_ALIGNMENT_SHIFT: c_int = 24; pub const MAP_ALIGNMENT_MASK: c_int = 0xff << MAP_ALIGNMENT_SHIFT; pub const MAP_ALIGNMENT_64KB: c_int = 16 << MAP_ALIGNMENT_SHIFT; pub const MAP_ALIGNMENT_16MB: c_int = 24 << MAP_ALIGNMENT_SHIFT; pub const MAP_ALIGNMENT_4GB: c_int = 32 << MAP_ALIGNMENT_SHIFT; pub const MAP_ALIGNMENT_1TB: c_int = 40 << MAP_ALIGNMENT_SHIFT; pub const MAP_ALIGNMENT_256TB: c_int = 48 << MAP_ALIGNMENT_SHIFT; pub const MAP_ALIGNMENT_64PB: c_int = 56 << MAP_ALIGNMENT_SHIFT; // mremap flag pub const MAP_REMAPDUP: c_int = 0x004; pub const DCCP_TYPE_REQUEST: c_int = 0; pub const DCCP_TYPE_RESPONSE: c_int = 1; pub const DCCP_TYPE_DATA: c_int = 2; pub const DCCP_TYPE_ACK: c_int = 3; pub const DCCP_TYPE_DATAACK: c_int = 4; pub const DCCP_TYPE_CLOSEREQ: c_int = 5; pub const DCCP_TYPE_CLOSE: c_int = 6; pub const DCCP_TYPE_RESET: c_int = 7; pub const DCCP_TYPE_MOVE: c_int = 8; pub const DCCP_FEATURE_CC: c_int = 1; pub const DCCP_FEATURE_ECN: c_int = 2; pub const DCCP_FEATURE_ACKRATIO: c_int = 3; pub const DCCP_FEATURE_ACKVECTOR: c_int = 4; pub const DCCP_FEATURE_MOBILITY: c_int = 5; pub const DCCP_FEATURE_LOSSWINDOW: c_int = 6; pub const DCCP_FEATURE_CONN_NONCE: c_int = 8; pub const DCCP_FEATURE_IDENTREG: c_int = 7; pub const DCCP_OPT_PADDING: c_int = 0; pub const DCCP_OPT_DATA_DISCARD: c_int = 1; pub const DCCP_OPT_SLOW_RECV: c_int = 2; pub const DCCP_OPT_BUF_CLOSED: c_int = 3; pub const DCCP_OPT_CHANGE_L: c_int = 32; pub const DCCP_OPT_CONFIRM_L: c_int = 33; pub const DCCP_OPT_CHANGE_R: c_int = 34; pub const DCCP_OPT_CONFIRM_R: c_int = 35; pub const DCCP_OPT_INIT_COOKIE: c_int = 36; pub const DCCP_OPT_NDP_COUNT: c_int = 37; pub const DCCP_OPT_ACK_VECTOR0: c_int = 38; pub const DCCP_OPT_ACK_VECTOR1: c_int = 39; pub const DCCP_OPT_RECV_BUF_DROPS: c_int = 40; pub const DCCP_OPT_TIMESTAMP: c_int = 41; pub const DCCP_OPT_TIMESTAMP_ECHO: c_int = 42; pub const DCCP_OPT_ELAPSEDTIME: c_int = 43; pub const DCCP_OPT_DATACHECKSUM: c_int = 44; pub const DCCP_REASON_UNSPEC: c_int = 0; pub const DCCP_REASON_CLOSED: c_int = 1; pub const DCCP_REASON_INVALID: c_int = 2; pub const DCCP_REASON_OPTION_ERR: c_int = 3; pub const DCCP_REASON_FEA_ERR: c_int = 4; pub const DCCP_REASON_CONN_REF: c_int = 5; pub const DCCP_REASON_BAD_SNAME: c_int = 6; pub const DCCP_REASON_BAD_COOKIE: c_int = 7; pub const DCCP_REASON_INV_MOVE: c_int = 8; pub const DCCP_REASON_UNANSW_CH: c_int = 10; pub const DCCP_REASON_FRUITLESS_NEG: c_int = 11; pub const DCCP_CCID: c_int = 1; pub const DCCP_CSLEN: c_int = 2; pub const DCCP_MAXSEG: c_int = 4; pub const DCCP_SERVICE: c_int = 8; pub const DCCP_NDP_LIMIT: c_int = 16; pub const DCCP_SEQ_NUM_LIMIT: c_int = 16777216; pub const DCCP_MAX_OPTIONS: c_int = 32; pub const DCCP_MAX_PKTS: c_int = 100; pub const _PC_LINK_MAX: c_int = 1; pub const _PC_MAX_CANON: c_int = 2; pub const _PC_MAX_INPUT: c_int = 3; pub const _PC_NAME_MAX: c_int = 4; pub const _PC_PATH_MAX: c_int = 5; pub const _PC_PIPE_BUF: c_int = 6; pub const _PC_CHOWN_RESTRICTED: c_int = 7; pub const _PC_NO_TRUNC: c_int = 8; pub const _PC_VDISABLE: c_int = 9; pub const _PC_SYNC_IO: c_int = 10; pub const _PC_FILESIZEBITS: c_int = 11; pub const _PC_SYMLINK_MAX: c_int = 12; pub const _PC_2_SYMLINKS: c_int = 13; pub const _PC_ACL_EXTENDED: c_int = 14; pub const _PC_MIN_HOLE_SIZE: c_int = 15; pub const _SC_SYNCHRONIZED_IO: c_int = 31; pub const _SC_IOV_MAX: c_int = 32; pub const _SC_MAPPED_FILES: c_int = 33; pub const _SC_MEMLOCK: c_int = 34; pub const _SC_MEMLOCK_RANGE: c_int = 35; pub const _SC_MEMORY_PROTECTION: c_int = 36; pub const _SC_LOGIN_NAME_MAX: c_int = 37; pub const _SC_MONOTONIC_CLOCK: c_int = 38; pub const _SC_CLK_TCK: c_int = 39; pub const _SC_ATEXIT_MAX: c_int = 40; pub const _SC_THREADS: c_int = 41; pub const _SC_SEMAPHORES: c_int = 42; pub const _SC_BARRIERS: c_int = 43; pub const _SC_TIMERS: c_int = 44; pub const _SC_SPIN_LOCKS: c_int = 45; pub const _SC_READER_WRITER_LOCKS: c_int = 46; pub const _SC_GETGR_R_SIZE_MAX: c_int = 47; pub const _SC_GETPW_R_SIZE_MAX: c_int = 48; pub const _SC_CLOCK_SELECTION: c_int = 49; pub const _SC_ASYNCHRONOUS_IO: c_int = 50; pub const _SC_AIO_LISTIO_MAX: c_int = 51; pub const _SC_AIO_MAX: c_int = 52; pub const _SC_MESSAGE_PASSING: c_int = 53; pub const _SC_MQ_OPEN_MAX: c_int = 54; pub const _SC_MQ_PRIO_MAX: c_int = 55; pub const _SC_PRIORITY_SCHEDULING: c_int = 56; pub const _SC_THREAD_DESTRUCTOR_ITERATIONS: c_int = 57; pub const _SC_THREAD_KEYS_MAX: c_int = 58; pub const _SC_THREAD_STACK_MIN: c_int = 59; pub const _SC_THREAD_THREADS_MAX: c_int = 60; pub const _SC_THREAD_ATTR_STACKADDR: c_int = 61; pub const _SC_THREAD_ATTR_STACKSIZE: c_int = 62; pub const _SC_THREAD_PRIORITY_SCHEDULING: c_int = 63; pub const _SC_THREAD_PRIO_INHERIT: c_int = 64; pub const _SC_THREAD_PRIO_PROTECT: c_int = 65; pub const _SC_THREAD_PROCESS_SHARED: c_int = 66; pub const _SC_THREAD_SAFE_FUNCTIONS: c_int = 67; pub const _SC_TTY_NAME_MAX: c_int = 68; pub const _SC_HOST_NAME_MAX: c_int = 69; pub const _SC_PASS_MAX: c_int = 70; pub const _SC_REGEXP: c_int = 71; pub const _SC_SHELL: c_int = 72; pub const _SC_SYMLOOP_MAX: c_int = 73; pub const _SC_V6_ILP32_OFF32: c_int = 74; pub const _SC_V6_ILP32_OFFBIG: c_int = 75; pub const _SC_V6_LP64_OFF64: c_int = 76; pub const _SC_V6_LPBIG_OFFBIG: c_int = 77; pub const _SC_2_PBS: c_int = 80; pub const _SC_2_PBS_ACCOUNTING: c_int = 81; pub const _SC_2_PBS_CHECKPOINT: c_int = 82; pub const _SC_2_PBS_LOCATE: c_int = 83; pub const _SC_2_PBS_MESSAGE: c_int = 84; pub const _SC_2_PBS_TRACK: c_int = 85; pub const _SC_SPAWN: c_int = 86; pub const _SC_SHARED_MEMORY_OBJECTS: c_int = 87; pub const _SC_TIMER_MAX: c_int = 88; pub const _SC_SEM_NSEMS_MAX: c_int = 89; pub const _SC_CPUTIME: c_int = 90; pub const _SC_THREAD_CPUTIME: c_int = 91; pub const _SC_DELAYTIMER_MAX: c_int = 92; // These two variables will be supported in NetBSD 8.0 // pub const _SC_SIGQUEUE_MAX : c_int = 93; // pub const _SC_REALTIME_SIGNALS : c_int = 94; pub const _SC_PHYS_PAGES: c_int = 121; pub const _SC_NPROCESSORS_CONF: c_int = 1001; pub const _SC_NPROCESSORS_ONLN: c_int = 1002; pub const _SC_SCHED_RT_TS: c_int = 2001; pub const _SC_SCHED_PRI_MIN: c_int = 2002; pub const _SC_SCHED_PRI_MAX: c_int = 2003; pub const FD_SETSIZE: usize = 0x100; pub const ST_NOSUID: c_ulong = 8; pub const BIOCGRSIG: c_ulong = 0x40044272; pub const BIOCSRSIG: c_ulong = 0x80044273; pub const BIOCSDLT: c_ulong = 0x80044278; pub const BIOCGSEESENT: c_ulong = 0x40044276; pub const BIOCSSEESENT: c_ulong = 0x80044277; // pub const MNT_UNION: c_int = 0x00000020; pub const MNT_NOCOREDUMP: c_int = 0x00008000; pub const MNT_RELATIME: c_int = 0x00020000; pub const MNT_IGNORE: c_int = 0x00100000; pub const MNT_NFS4ACLS: c_int = 0x00200000; pub const MNT_DISCARD: c_int = 0x00800000; pub const MNT_EXTATTR: c_int = 0x01000000; pub const MNT_LOG: c_int = 0x02000000; pub const MNT_NOATIME: c_int = 0x04000000; pub const MNT_AUTOMOUNTED: c_int = 0x10000000; pub const MNT_SYMPERM: c_int = 0x20000000; pub const MNT_NODEVMTIME: c_int = 0x40000000; pub const MNT_SOFTDEP: c_int = 0x80000000; pub const MNT_POSIX1EACLS: c_int = 0x00000800; pub const MNT_ACLS: c_int = MNT_POSIX1EACLS; pub const MNT_WAIT: c_int = 1; pub const MNT_NOWAIT: c_int = 2; pub const MNT_LAZY: c_int = 3; // pub const CLOCK_PROCESS_CPUTIME_ID: crate::clockid_t = 2; pub const CLOCK_THREAD_CPUTIME_ID: crate::clockid_t = 4; pub const NTP_API: c_int = 4; pub const MAXPHASE: c_long = 500000000; pub const MAXFREQ: c_long = 500000; pub const MINSEC: c_int = 256; pub const MAXSEC: c_int = 2048; pub const NANOSECOND: c_long = 1000000000; pub const SCALE_PPM: c_int = 65; pub const MAXTC: c_int = 10; pub const MOD_OFFSET: c_uint = 0x0001; pub const MOD_FREQUENCY: c_uint = 0x0002; pub const MOD_MAXERROR: c_uint = 0x0004; pub const MOD_ESTERROR: c_uint = 0x0008; pub const MOD_STATUS: c_uint = 0x0010; pub const MOD_TIMECONST: c_uint = 0x0020; pub const MOD_PPSMAX: c_uint = 0x0040; pub const MOD_TAI: c_uint = 0x0080; pub const MOD_MICRO: c_uint = 0x1000; pub const MOD_NANO: c_uint = 0x2000; pub const MOD_CLKB: c_uint = 0x4000; pub const MOD_CLKA: c_uint = 0x8000; pub const STA_PLL: c_int = 0x0001; pub const STA_PPSFREQ: c_int = 0x0002; pub const STA_PPSTIME: c_int = 0x0004; pub const STA_FLL: c_int = 0x0008; pub const STA_INS: c_int = 0x0010; pub const STA_DEL: c_int = 0x0020; pub const STA_UNSYNC: c_int = 0x0040; pub const STA_FREQHOLD: c_int = 0x0080; pub const STA_PPSSIGNAL: c_int = 0x0100; pub const STA_PPSJITTER: c_int = 0x0200; pub const STA_PPSWANDER: c_int = 0x0400; pub const STA_PPSERROR: c_int = 0x0800; pub const STA_CLOCKERR: c_int = 0x1000; pub const STA_NANO: c_int = 0x2000; pub const STA_MODE: c_int = 0x4000; pub const STA_CLK: c_int = 0x8000; pub const STA_RONLY: c_int = STA_PPSSIGNAL | STA_PPSJITTER | STA_PPSWANDER | STA_PPSERROR | STA_CLOCKERR | STA_NANO | STA_MODE | STA_CLK; pub const TIME_OK: c_int = 0; pub const TIME_INS: c_int = 1; pub const TIME_DEL: c_int = 2; pub const TIME_OOP: c_int = 3; pub const TIME_WAIT: c_int = 4; pub const TIME_ERROR: c_int = 5; pub const LITTLE_ENDIAN: c_int = 1234; pub const BIG_ENDIAN: c_int = 4321; pub const PL_EVENT_NONE: c_int = 0; pub const PL_EVENT_SIGNAL: c_int = 1; pub const PL_EVENT_SUSPENDED: c_int = 2; cfg_if! { if #[cfg(any( target_arch = "sparc", target_arch = "sparc64", target_arch = "x86", target_arch = "x86_64" ))] { pub const PTHREAD_MUTEX_INITIALIZER: pthread_mutex_t = pthread_mutex_t { ptm_magic: 0x33330003, ptm_errorcheck: 0, ptm_pad1: [0; 3], ptm_unused: 0, ptm_pad2: [0; 3], ptm_waiters: 0 as *mut _, ptm_owner: 0, ptm_recursed: 0, ptm_spare2: 0 as *mut _, }; } else { pub const PTHREAD_MUTEX_INITIALIZER: pthread_mutex_t = pthread_mutex_t { ptm_magic: 0x33330003, ptm_errorcheck: 0, ptm_unused: 0, ptm_waiters: 0 as *mut _, ptm_owner: 0, ptm_recursed: 0, ptm_spare2: 0 as *mut _, }; } } pub const PTHREAD_COND_INITIALIZER: pthread_cond_t = pthread_cond_t { ptc_magic: 0x55550005, ptc_lock: 0, ptc_waiters_first: 0 as *mut _, ptc_waiters_last: 0 as *mut _, ptc_mutex: 0 as *mut _, ptc_private: 0 as *mut _, }; pub const PTHREAD_RWLOCK_INITIALIZER: pthread_rwlock_t = pthread_rwlock_t { ptr_magic: 0x99990009, ptr_interlock: 0, ptr_rblocked_first: 0 as *mut _, ptr_rblocked_last: 0 as *mut _, ptr_wblocked_first: 0 as *mut _, ptr_wblocked_last: 0 as *mut _, ptr_nreaders: 0, ptr_owner: 0, ptr_private: 0 as *mut _, }; pub const PTHREAD_MUTEX_NORMAL: c_int = 0; pub const PTHREAD_MUTEX_ERRORCHECK: c_int = 1; pub const PTHREAD_MUTEX_RECURSIVE: c_int = 2; pub const PTHREAD_MUTEX_DEFAULT: c_int = PTHREAD_MUTEX_NORMAL; pub const SCHED_NONE: c_int = -1; pub const SCHED_OTHER: c_int = 0; pub const SCHED_FIFO: c_int = 1; pub const SCHED_RR: c_int = 2; pub const EVFILT_AIO: u32 = 2; pub const EVFILT_PROC: u32 = 4; pub const EVFILT_READ: u32 = 0; pub const EVFILT_SIGNAL: u32 = 5; pub const EVFILT_TIMER: u32 = 6; pub const EVFILT_VNODE: u32 = 3; pub const EVFILT_WRITE: u32 = 1; pub const EVFILT_FS: u32 = 7; pub const EVFILT_USER: u32 = 8; pub const EVFILT_EMPTY: u32 = 9; pub const EV_ADD: u32 = 0x1; pub const EV_DELETE: u32 = 0x2; pub const EV_ENABLE: u32 = 0x4; pub const EV_DISABLE: u32 = 0x8; pub const EV_ONESHOT: u32 = 0x10; pub const EV_CLEAR: u32 = 0x20; pub const EV_RECEIPT: u32 = 0x40; pub const EV_DISPATCH: u32 = 0x80; pub const EV_FLAG1: u32 = 0x2000; pub const EV_ERROR: u32 = 0x4000; pub const EV_EOF: u32 = 0x8000; pub const EV_SYSFLAGS: u32 = 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_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 NOTE_MSECONDS: u32 = 0x00000000; pub const NOTE_SECONDS: u32 = 0x00000001; pub const NOTE_USECONDS: u32 = 0x00000002; pub const NOTE_NSECONDS: u32 = 0x00000003; pub const NOTE_ABSTIME: u32 = 0x000000010; pub const TMP_MAX: c_uint = 308915776; pub const AI_PASSIVE: c_int = 0x00000001; pub const AI_CANONNAME: c_int = 0x00000002; pub const AI_NUMERICHOST: c_int = 0x00000004; pub const AI_NUMERICSERV: c_int = 0x00000008; pub const AI_ADDRCONFIG: c_int = 0x00000400; pub const AI_SRV: c_int = 0x00000800; pub const NI_MAXHOST: crate::socklen_t = 1025; pub const NI_MAXSERV: crate::socklen_t = 32; pub const NI_NOFQDN: c_int = 0x00000001; pub const NI_NUMERICHOST: c_int = 0x000000002; pub const NI_NAMEREQD: c_int = 0x000000004; pub const NI_NUMERICSERV: c_int = 0x000000008; pub const NI_DGRAM: c_int = 0x00000010; pub const NI_WITHSCOPEID: c_int = 0x00000020; pub const NI_NUMERICSCOPE: c_int = 0x00000040; pub const RTLD_NOLOAD: c_int = 0x2000; pub const RTLD_LOCAL: c_int = 0x200; pub const CTL_MAXNAME: c_int = 12; pub const SYSCTL_NAMELEN: c_int = 32; pub const SYSCTL_DEFSIZE: c_int = 8; pub const CTLTYPE_NODE: c_int = 1; pub const CTLTYPE_INT: c_int = 2; pub const CTLTYPE_STRING: c_int = 3; pub const CTLTYPE_QUAD: c_int = 4; pub const CTLTYPE_STRUCT: c_int = 5; pub const CTLTYPE_BOOL: c_int = 6; pub const CTLFLAG_READONLY: c_int = 0x00000000; pub const CTLFLAG_READWRITE: c_int = 0x00000070; pub const CTLFLAG_ANYWRITE: c_int = 0x00000080; pub const CTLFLAG_PRIVATE: c_int = 0x00000100; pub const CTLFLAG_PERMANENT: c_int = 0x00000200; pub const CTLFLAG_OWNDATA: c_int = 0x00000400; pub const CTLFLAG_IMMEDIATE: c_int = 0x00000800; pub const CTLFLAG_HEX: c_int = 0x00001000; pub const CTLFLAG_ROOT: c_int = 0x00002000; pub const CTLFLAG_ANYNUMBER: c_int = 0x00004000; pub const CTLFLAG_HIDDEN: c_int = 0x00008000; pub const CTLFLAG_ALIAS: c_int = 0x00010000; pub const CTLFLAG_MMAP: c_int = 0x00020000; pub const CTLFLAG_OWNDESC: c_int = 0x00040000; pub const CTLFLAG_UNSIGNED: c_int = 0x00080000; pub const SYSCTL_VERS_MASK: c_int = 0xff000000; pub const SYSCTL_VERS_0: c_int = 0x00000000; pub const SYSCTL_VERS_1: c_int = 0x01000000; pub const SYSCTL_VERSION: c_int = SYSCTL_VERS_1; pub const CTL_EOL: c_int = -1; pub const CTL_QUERY: c_int = -2; pub const CTL_CREATE: c_int = -3; pub const CTL_CREATESYM: c_int = -4; pub const CTL_DESTROY: c_int = -5; pub const CTL_MMAP: c_int = -6; pub const CTL_DESCRIBE: c_int = -7; 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_DDB: c_int = 9; pub const CTL_PROC: c_int = 10; pub const CTL_VENDOR: c_int = 11; pub const CTL_EMUL: c_int = 12; pub const CTL_SECURITY: c_int = 13; pub const CTL_MAXID: c_int = 14; 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_OBOOTTIME: c_int = 21; pub const KERN_DOMAINNAME: c_int = 22; pub const KERN_MAXPARTITIONS: c_int = 23; pub const KERN_RAWPARTITION: c_int = 24; pub const KERN_NTPTIME: c_int = 25; pub const KERN_TIMEX: c_int = 26; pub const KERN_AUTONICETIME: c_int = 27; pub const KERN_AUTONICEVAL: c_int = 28; pub const KERN_RTC_OFFSET: c_int = 29; pub const KERN_ROOT_DEVICE: c_int = 30; pub const KERN_MSGBUFSIZE: c_int = 31; pub const KERN_FSYNC: c_int = 32; pub const KERN_OLDSYSVMSG: c_int = 33; pub const KERN_OLDSYSVSEM: c_int = 34; pub const KERN_OLDSYSVSHM: c_int = 35; pub const KERN_OLDSHORTCORENAME: c_int = 36; pub const KERN_SYNCHRONIZED_IO: c_int = 37; pub const KERN_IOV_MAX: c_int = 38; pub const KERN_MBUF: c_int = 39; pub const KERN_MAPPED_FILES: c_int = 40; pub const KERN_MEMLOCK: c_int = 41; pub const KERN_MEMLOCK_RANGE: c_int = 42; pub const KERN_MEMORY_PROTECTION: c_int = 43; pub const KERN_LOGIN_NAME_MAX: c_int = 44; pub const KERN_DEFCORENAME: c_int = 45; pub const KERN_LOGSIGEXIT: c_int = 46; pub const KERN_PROC2: c_int = 47; pub const KERN_PROC_ARGS: c_int = 48; pub const KERN_FSCALE: c_int = 49; pub const KERN_CCPU: c_int = 50; pub const KERN_CP_TIME: c_int = 51; pub const KERN_OLDSYSVIPC_INFO: c_int = 52; pub const KERN_MSGBUF: c_int = 53; pub const KERN_CONSDEV: c_int = 54; pub const KERN_MAXPTYS: c_int = 55; pub const KERN_PIPE: c_int = 56; pub const KERN_MAXPHYS: c_int = 57; pub const KERN_SBMAX: c_int = 58; pub const KERN_TKSTAT: c_int = 59; pub const KERN_MONOTONIC_CLOCK: c_int = 60; pub const KERN_URND: c_int = 61; pub const KERN_LABELSECTOR: c_int = 62; pub const KERN_LABELOFFSET: c_int = 63; pub const KERN_LWP: c_int = 64; pub const KERN_FORKFSLEEP: c_int = 65; pub const KERN_POSIX_THREADS: c_int = 66; pub const KERN_POSIX_SEMAPHORES: c_int = 67; pub const KERN_POSIX_BARRIERS: c_int = 68; pub const KERN_POSIX_TIMERS: c_int = 69; pub const KERN_POSIX_SPIN_LOCKS: c_int = 70; pub const KERN_POSIX_READER_WRITER_LOCKS: c_int = 71; pub const KERN_DUMP_ON_PANIC: c_int = 72; pub const KERN_SOMAXKVA: c_int = 73; pub const KERN_ROOT_PARTITION: c_int = 74; pub const KERN_DRIVERS: c_int = 75; pub const KERN_BUF: c_int = 76; pub const KERN_FILE2: c_int = 77; pub const KERN_VERIEXEC: c_int = 78; pub const KERN_CP_ID: c_int = 79; pub const KERN_HARDCLOCK_TICKS: c_int = 80; pub const KERN_ARND: c_int = 81; pub const KERN_SYSVIPC: c_int = 82; pub const KERN_BOOTTIME: c_int = 83; pub const KERN_EVCNT: c_int = 84; pub const KERN_MAXID: c_int = 85; 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_GID: c_int = 7; pub const KERN_PROC_RGID: c_int = 8; pub const KERN_PROC_ARGV: c_int = 1; pub const KERN_PROC_NARGV: c_int = 2; pub const KERN_PROC_ENV: c_int = 3; pub const KERN_PROC_NENV: c_int = 4; pub const KERN_PROC_PATHNAME: c_int = 5; pub const VM_PROC: c_int = 16; pub const VM_PROC_MAP: c_int = 1; pub const EAI_AGAIN: c_int = 2; pub const EAI_BADFLAGS: c_int = 3; pub const EAI_FAIL: c_int = 4; pub const EAI_FAMILY: c_int = 5; pub const EAI_MEMORY: c_int = 6; pub const EAI_NODATA: c_int = 7; pub const EAI_NONAME: c_int = 8; pub const EAI_SERVICE: c_int = 9; pub const EAI_SOCKTYPE: c_int = 10; pub const EAI_SYSTEM: c_int = 11; pub const EAI_OVERFLOW: c_int = 14; pub const AIO_CANCELED: c_int = 1; pub const AIO_NOTCANCELED: c_int = 2; pub const AIO_ALLDONE: c_int = 3; pub const LIO_NOP: c_int = 0; pub const LIO_WRITE: c_int = 1; pub const LIO_READ: c_int = 2; pub const LIO_WAIT: c_int = 1; pub const LIO_NOWAIT: c_int = 0; pub const SIGEV_NONE: c_int = 0; pub const SIGEV_SIGNAL: c_int = 1; pub const SIGEV_THREAD: c_int = 2; pub const WSTOPPED: c_int = 0x00000002; // same as WUNTRACED pub const WCONTINUED: c_int = 0x00000010; pub const WEXITED: c_int = 0x000000020; pub const WNOWAIT: c_int = 0x00010000; pub const WALTSIG: c_int = 0x00000004; pub const WALLSIG: c_int = 0x00000008; pub const WTRAPPED: c_int = 0x00000040; pub const WNOZOMBIE: c_int = 0x00020000; pub const P_ALL: idtype_t = 0; pub const P_PID: idtype_t = 1; pub const P_PGID: idtype_t = 4; pub const UTIME_OMIT: c_long = 1073741822; pub const UTIME_NOW: c_long = 1073741823; pub const B460800: crate::speed_t = 460800; pub const B921600: crate::speed_t = 921600; pub const ONOCR: crate::tcflag_t = 0x20; pub const ONLRET: crate::tcflag_t = 0x40; pub const CDTRCTS: crate::tcflag_t = 0x00020000; pub const CHWFLOW: crate::tcflag_t = crate::MDMBUF | crate::CRTSCTS | crate::CDTRCTS; // pub const _PATH_UTMPX: &[c_char; 14] = b"/var/run/utmpx"; // pub const _PATH_WTMPX: &[c_char; 14] = b"/var/log/wtmpx"; // pub const _PATH_LASTLOGX: &[c_char; 17] = b"/var/log/lastlogx"; // pub const _PATH_UTMP_UPDATE: &[c_char; 24] = b"/usr/libexec/utmp_update"; pub const UT_NAMESIZE: usize = 8; pub const UT_LINESIZE: usize = 8; pub const UT_HOSTSIZE: usize = 16; pub const _UTX_USERSIZE: usize = 32; pub const _UTX_LINESIZE: usize = 32; pub const _UTX_PADSIZE: usize = 40; pub const _UTX_IDSIZE: usize = 4; pub const _UTX_HOSTSIZE: usize = 256; pub const EMPTY: u16 = 0; pub const RUN_LVL: u16 = 1; pub const BOOT_TIME: u16 = 2; pub const OLD_TIME: u16 = 3; pub const NEW_TIME: u16 = 4; pub const INIT_PROCESS: u16 = 5; pub const LOGIN_PROCESS: u16 = 6; pub const USER_PROCESS: u16 = 7; pub const DEAD_PROCESS: u16 = 8; pub const ACCOUNTING: u16 = 9; pub const SIGNATURE: u16 = 10; pub const DOWN_TIME: u16 = 11; pub const SOCK_CLOEXEC: c_int = 0x10000000; pub const SOCK_NONBLOCK: c_int = 0x20000000; // Uncomment on next NetBSD release // pub const FIOSEEKDATA: c_ulong = 0xc0086661; // pub const FIOSEEKHOLE: c_ulong = 0xc0086662; pub const OFIOGETBMAP: c_ulong = 0xc004667a; pub const FIOGETBMAP: c_ulong = 0xc008667a; pub const FIONWRITE: c_ulong = 0x40046679; pub const FIONSPACE: c_ulong = 0x40046678; pub const FIBMAP: c_ulong = 0xc008667a; pub const SIGSTKSZ: size_t = 40960; pub const REG_ENOSYS: c_int = 17; pub const PT_DUMPCORE: c_int = 12; pub const PT_LWPINFO: c_int = 13; pub const PT_SYSCALL: c_int = 14; pub const PT_SYSCALLEMU: c_int = 15; pub const PT_SET_EVENT_MASK: c_int = 16; pub const PT_GET_EVENT_MASK: c_int = 17; pub const PT_GET_PROCESS_STATE: c_int = 18; pub const PT_SET_SIGINFO: c_int = 19; pub const PT_GET_SIGINFO: c_int = 20; pub const PT_RESUME: c_int = 21; pub const PT_SUSPEND: c_int = 23; pub const PT_STOP: c_int = 23; pub const PT_LWPSTATUS: c_int = 24; pub const PT_LWPNEXT: c_int = 25; pub const PT_SET_SIGPASS: c_int = 26; pub const PT_GET_SIGPASS: c_int = 27; pub const PT_FIRSTMACH: c_int = 32; pub const POSIX_SPAWN_RETURNERROR: c_int = 0x40; // Flags for chflags(2) pub const SF_APPEND: c_ulong = 0x00040000; pub const SF_ARCHIVED: c_ulong = 0x00010000; pub const SF_IMMUTABLE: c_ulong = 0x00020000; pub const SF_LOG: c_ulong = 0x00400000; pub const SF_SETTABLE: c_ulong = 0xffff0000; pub const SF_SNAPINVAL: c_ulong = 0x00800000; pub const SF_SNAPSHOT: c_ulong = 0x00200000; pub const UF_APPEND: c_ulong = 0x00000004; pub const UF_IMMUTABLE: c_ulong = 0x00000002; pub const UF_NODUMP: c_ulong = 0x00000001; pub const UF_OPAQUE: c_ulong = 0x00000008; pub const UF_SETTABLE: c_ulong = 0x0000ffff; // sys/sysctl.h pub const KVME_PROT_READ: c_int = 0x00000001; pub const KVME_PROT_WRITE: c_int = 0x00000002; pub const KVME_PROT_EXEC: c_int = 0x00000004; pub const KVME_FLAG_COW: c_int = 0x00000001; pub const KVME_FLAG_NEEDS_COPY: c_int = 0x00000002; pub const KVME_FLAG_NOCOREDUMP: c_int = 0x000000004; pub const KVME_FLAG_PAGEABLE: c_int = 0x000000008; pub const KVME_FLAG_GROWS_UP: c_int = 0x000000010; pub const KVME_FLAG_GROWS_DOWN: c_int = 0x000000020; pub const NGROUPS_MAX: c_int = 16; pub const KI_NGROUPS: c_int = 16; pub const KI_MAXCOMLEN: c_int = 24; pub const KI_WMESGLEN: c_int = 8; pub const KI_MAXLOGNAME: c_int = 24; pub const KI_MAXEMULLEN: c_int = 16; pub const KI_LNAMELEN: c_int = 20; // sys/lwp.h pub const LSIDL: c_int = 1; pub const LSRUN: c_int = 2; pub const LSSLEEP: c_int = 3; pub const LSSTOP: c_int = 4; pub const LSZOMB: c_int = 5; pub const LSONPROC: c_int = 7; pub const LSSUSPENDED: c_int = 8; // sys/xattr.h pub const XATTR_CREATE: c_int = 0x01; pub const XATTR_REPLACE: c_int = 0x02; // sys/extattr.h pub const EXTATTR_NAMESPACE_EMPTY: c_int = 0; // For getrandom() pub const GRND_NONBLOCK: c_uint = 0x1; pub const GRND_RANDOM: c_uint = 0x2; pub const GRND_INSECURE: c_uint = 0x4; // sys/reboot.h pub const RB_ASKNAME: c_int = 0x000000001; pub const RB_SINGLE: c_int = 0x000000002; pub const RB_NOSYNC: c_int = 0x000000004; pub const RB_HALT: c_int = 0x000000008; pub const RB_INITNAME: c_int = 0x000000010; pub const RB_KDB: c_int = 0x000000040; pub const RB_RDONLY: c_int = 0x000000080; pub const RB_DUMP: c_int = 0x000000100; pub const RB_MINIROOT: c_int = 0x000000200; pub const RB_STRING: c_int = 0x000000400; pub const RB_POWERDOWN: c_int = RB_HALT | 0x000000800; pub const RB_USERCONF: c_int = 0x000001000; pub const fn MAP_ALIGNED(alignment: c_int) -> c_int { alignment << MAP_ALIGNMENT_SHIFT } // net/route.h pub const RTF_MASK: c_int = 0x80; pub const RTF_CONNECTED: c_int = 0x100; pub const RTF_ANNOUNCE: c_int = 0x20000; pub const RTF_SRC: c_int = 0x10000; pub const RTF_LOCAL: c_int = 0x40000; pub const RTF_BROADCAST: c_int = 0x80000; pub const RTF_UPDATING: c_int = 0x100000; pub const RTF_DONTCHANGEIFA: c_int = 0x200000; pub const RTM_VERSION: c_int = 4; pub const RTM_LOCK: c_int = 0x8; pub const RTM_IFANNOUNCE: c_int = 0x10; pub const RTM_IEEE80211: c_int = 0x11; pub const RTM_SETGATE: c_int = 0x12; pub const RTM_LLINFO_UPD: c_int = 0x13; pub const RTM_IFINFO: c_int = 0x14; pub const RTM_OCHGADDR: c_int = 0x15; pub const RTM_NEWADDR: c_int = 0x16; pub const RTM_DELADDR: c_int = 0x17; pub const RTM_CHGADDR: c_int = 0x18; pub const RTA_TAG: c_int = 0x100; pub const RTAX_TAG: c_int = 8; pub const RTAX_MAX: c_int = 9; const_fn! { {const} fn _ALIGN(p: usize) -> usize { (p + _ALIGNBYTES) & !_ALIGNBYTES } } f! { pub fn CMSG_DATA(cmsg: *const cmsghdr) -> *mut c_uchar { (cmsg as *mut c_uchar).offset(_ALIGN(mem::size_of::()) as isize) } pub {const} fn CMSG_LEN(length: c_uint) -> c_uint { _ALIGN(mem::size_of::()) as c_uint + length } pub fn CMSG_NXTHDR(mhdr: *const crate::msghdr, cmsg: *const cmsghdr) -> *mut cmsghdr { if cmsg.is_null() { return crate::CMSG_FIRSTHDR(mhdr); }; let next = cmsg as usize + _ALIGN((*cmsg).cmsg_len as usize) + _ALIGN(mem::size_of::()); let max = (*mhdr).msg_control as usize + (*mhdr).msg_controllen as usize; if next > max { 0 as *mut cmsghdr } else { (cmsg as usize + _ALIGN((*cmsg).cmsg_len as usize)) as *mut cmsghdr } } pub {const} fn CMSG_SPACE(length: c_uint) -> c_uint { (_ALIGN(mem::size_of::()) + _ALIGN(length as usize)) as c_uint } // dirfd() is a macro on netbsd to access // the first field of the struct where dirp points to: // http://cvsweb.netbsd.org/bsdweb.cgi/src/include/dirent.h?rev=1.36 pub fn dirfd(dirp: *mut crate::DIR) -> c_int { *(dirp as *const c_int) } pub fn SOCKCREDSIZE(ngrps: usize) -> usize { let ngrps = if ngrps > 0 { ngrps - 1 } else { 0 }; mem::size_of::() + mem::size_of::() * ngrps } pub fn PROT_MPROTECT(x: c_int) -> c_int { x << 3 } pub fn PROT_MPROTECT_EXTRACT(x: c_int) -> c_int { (x >> 3) & 0x7 } pub fn major(dev: crate::dev_t) -> c_int { (((dev as u32) & 0x000fff00) >> 8) as c_int } pub fn minor(dev: crate::dev_t) -> c_int { let mut res = 0; res |= ((dev as u32) & 0xfff00000) >> 12; res |= (dev as u32) & 0x000000ff; res as c_int } } safe_f! { pub {const} fn WSTOPSIG(status: c_int) -> c_int { status >> 8 } pub {const} fn WIFSIGNALED(status: c_int) -> bool { (status & 0o177) != 0o177 && (status & 0o177) != 0 } pub {const} fn WIFSTOPPED(status: c_int) -> bool { (status & 0o177) == 0o177 } pub {const} fn WIFCONTINUED(status: c_int) -> bool { status == 0xffff } pub {const} fn makedev(major: c_uint, minor: c_uint) -> crate::dev_t { let major = major as crate::dev_t; let minor = minor as crate::dev_t; let mut dev = 0; dev |= (major << 8) & 0x000ff00; dev |= (minor << 12) & 0xfff00000; dev |= minor & 0xff; dev } } extern "C" { pub fn ntp_adjtime(buf: *mut timex) -> c_int; pub fn ntp_gettime(buf: *mut ntptimeval) -> c_int; pub fn clock_nanosleep( clk_id: crate::clockid_t, flags: c_int, rqtp: *const crate::timespec, rmtp: *mut crate::timespec, ) -> c_int; pub fn reallocarr(ptr: *mut c_void, number: size_t, size: size_t) -> c_int; pub fn chflags(path: *const c_char, flags: c_ulong) -> c_int; pub fn fchflags(fd: c_int, flags: c_ulong) -> c_int; pub fn lchflags(path: *const c_char, flags: c_ulong) -> c_int; pub fn extattr_list_fd( fd: c_int, attrnamespace: c_int, data: *mut c_void, nbytes: size_t, ) -> ssize_t; pub fn extattr_list_file( path: *const c_char, attrnamespace: c_int, data: *mut c_void, nbytes: size_t, ) -> ssize_t; pub fn extattr_list_link( path: *const c_char, attrnamespace: c_int, data: *mut c_void, nbytes: size_t, ) -> ssize_t; pub fn extattr_delete_fd(fd: c_int, attrnamespace: c_int, attrname: *const c_char) -> c_int; pub fn extattr_delete_file( path: *const c_char, attrnamespace: c_int, attrname: *const c_char, ) -> c_int; pub fn extattr_delete_link( path: *const c_char, attrnamespace: c_int, attrname: *const c_char, ) -> c_int; pub fn extattr_get_fd( fd: c_int, attrnamespace: c_int, attrname: *const c_char, data: *mut c_void, nbytes: size_t, ) -> ssize_t; pub fn extattr_get_file( path: *const c_char, attrnamespace: c_int, attrname: *const c_char, data: *mut c_void, nbytes: size_t, ) -> ssize_t; pub fn extattr_get_link( path: *const c_char, attrnamespace: c_int, attrname: *const c_char, data: *mut c_void, nbytes: size_t, ) -> ssize_t; pub fn extattr_namespace_to_string(attrnamespace: c_int, string: *mut *mut c_char) -> c_int; pub fn extattr_set_fd( fd: c_int, attrnamespace: c_int, attrname: *const c_char, data: *const c_void, nbytes: size_t, ) -> c_int; pub fn extattr_set_file( path: *const c_char, attrnamespace: c_int, attrname: *const c_char, data: *const c_void, nbytes: size_t, ) -> c_int; pub fn extattr_set_link( path: *const c_char, attrnamespace: c_int, attrname: *const c_char, data: *const c_void, nbytes: size_t, ) -> c_int; pub fn extattr_string_to_namespace(string: *const c_char, attrnamespace: *mut c_int) -> c_int; pub fn openpty( amaster: *mut c_int, aslave: *mut c_int, name: *mut c_char, termp: *mut crate::termios, winp: *mut crate::winsize, ) -> c_int; pub fn forkpty( amaster: *mut c_int, name: *mut c_char, termp: *mut crate::termios, winp: *mut crate::winsize, ) -> crate::pid_t; #[link_name = "__lutimes50"] pub fn lutimes(file: *const c_char, times: *const crate::timeval) -> c_int; #[link_name = "__gettimeofday50"] pub fn gettimeofday(tp: *mut crate::timeval, tz: *mut c_void) -> c_int; pub fn getnameinfo( sa: *const crate::sockaddr, salen: crate::socklen_t, host: *mut c_char, hostlen: crate::socklen_t, serv: *mut c_char, servlen: crate::socklen_t, flags: c_int, ) -> c_int; pub fn mprotect(addr: *mut c_void, len: size_t, prot: c_int) -> c_int; pub fn sysctl( name: *const c_int, namelen: c_uint, oldp: *mut c_void, oldlenp: *mut size_t, newp: *const c_void, newlen: size_t, ) -> c_int; pub fn sysctlbyname( name: *const c_char, oldp: *mut c_void, oldlenp: *mut size_t, newp: *const c_void, newlen: size_t, ) -> c_int; pub fn sysctlnametomib(sname: *const c_char, name: *mut c_int, namelenp: *mut size_t) -> c_int; #[link_name = "__kevent50"] pub fn kevent( kq: c_int, changelist: *const crate::kevent, nchanges: size_t, eventlist: *mut crate::kevent, nevents: size_t, timeout: *const crate::timespec, ) -> c_int; #[link_name = "__mount50"] pub fn mount( src: *const c_char, target: *const c_char, flags: c_int, data: *mut c_void, size: size_t, ) -> c_int; pub fn mq_open(name: *const c_char, oflag: c_int, ...) -> crate::mqd_t; pub fn mq_close(mqd: crate::mqd_t) -> c_int; pub fn mq_getattr(mqd: crate::mqd_t, attr: *mut crate::mq_attr) -> c_int; pub fn mq_notify(mqd: crate::mqd_t, notification: *const crate::sigevent) -> c_int; pub fn mq_receive( mqd: crate::mqd_t, msg_ptr: *mut c_char, msg_len: size_t, msg_prio: *mut c_uint, ) -> ssize_t; pub fn mq_send( mqd: crate::mqd_t, msg_ptr: *const c_char, msg_len: size_t, msg_prio: c_uint, ) -> c_int; pub fn mq_setattr( mqd: crate::mqd_t, newattr: *const crate::mq_attr, oldattr: *mut crate::mq_attr, ) -> c_int; #[link_name = "__mq_timedreceive50"] pub fn mq_timedreceive( mqd: crate::mqd_t, msg_ptr: *mut c_char, msg_len: size_t, msg_prio: *mut c_uint, abs_timeout: *const crate::timespec, ) -> ssize_t; #[link_name = "__mq_timedsend50"] pub fn mq_timedsend( mqd: crate::mqd_t, msg_ptr: *const c_char, msg_len: size_t, msg_prio: c_uint, abs_timeout: *const crate::timespec, ) -> c_int; pub fn mq_unlink(name: *const c_char) -> c_int; pub fn ptrace(request: c_int, pid: crate::pid_t, addr: *mut c_void, data: c_int) -> c_int; pub fn utrace(label: *const c_char, addr: *mut c_void, len: size_t) -> c_int; pub fn pthread_getname_np(t: crate::pthread_t, name: *mut c_char, len: size_t) -> c_int; pub fn pthread_setname_np( t: crate::pthread_t, name: *const c_char, arg: *const c_void, ) -> c_int; pub fn pthread_attr_get_np(thread: crate::pthread_t, attr: *mut crate::pthread_attr_t) -> c_int; pub fn pthread_getattr_np(native: crate::pthread_t, attr: *mut crate::pthread_attr_t) -> c_int; pub fn pthread_attr_getguardsize( attr: *const crate::pthread_attr_t, guardsize: *mut size_t, ) -> c_int; pub fn pthread_attr_setguardsize(attr: *mut crate::pthread_attr_t, guardsize: size_t) -> c_int; pub fn pthread_attr_getstack( attr: *const crate::pthread_attr_t, stackaddr: *mut *mut c_void, stacksize: *mut size_t, ) -> c_int; pub fn pthread_getaffinity_np( thread: crate::pthread_t, size: size_t, set: *mut cpuset_t, ) -> c_int; pub fn pthread_setaffinity_np( thread: crate::pthread_t, size: size_t, set: *mut cpuset_t, ) -> c_int; pub fn _cpuset_create() -> *mut cpuset_t; pub fn _cpuset_destroy(set: *mut cpuset_t); pub fn _cpuset_clr(cpu: cpuid_t, set: *mut cpuset_t) -> c_int; pub fn _cpuset_set(cpu: cpuid_t, set: *mut cpuset_t) -> c_int; pub fn _cpuset_isset(cpu: cpuid_t, set: *const cpuset_t) -> c_int; pub fn _cpuset_size(set: *const cpuset_t) -> size_t; pub fn _cpuset_zero(set: *mut cpuset_t); #[link_name = "__sigtimedwait50"] pub fn sigtimedwait( set: *const sigset_t, info: *mut siginfo_t, timeout: *const crate::timespec, ) -> c_int; pub fn sigwaitinfo(set: *const sigset_t, info: *mut siginfo_t) -> c_int; pub fn duplocale(base: crate::locale_t) -> crate::locale_t; pub fn freelocale(loc: crate::locale_t); pub fn localeconv_l(loc: crate::locale_t) -> *mut lconv; pub fn newlocale(mask: c_int, locale: *const c_char, base: crate::locale_t) -> crate::locale_t; #[link_name = "__settimeofday50"] pub fn settimeofday(tv: *const crate::timeval, tz: *const c_void) -> c_int; pub fn dup3(src: c_int, dst: c_int, flags: c_int) -> c_int; pub fn kqueue1(flags: c_int) -> c_int; pub fn _lwp_self() -> lwpid_t; pub fn memmem( haystack: *const c_void, haystacklen: size_t, needle: *const c_void, needlelen: size_t, ) -> *mut c_void; // link.h pub fn dl_iterate_phdr( callback: Option< unsafe extern "C" fn(info: *mut dl_phdr_info, size: usize, data: *mut c_void) -> c_int, >, data: *mut c_void, ) -> c_int; // dlfcn.h pub fn _dlauxinfo() -> *mut c_void; pub fn iconv_open(tocode: *const c_char, fromcode: *const c_char) -> iconv_t; pub fn iconv( cd: iconv_t, inbuf: *mut *mut c_char, inbytesleft: *mut size_t, outbuf: *mut *mut c_char, outbytesleft: *mut size_t, ) -> size_t; pub fn iconv_close(cd: iconv_t) -> c_int; pub fn timer_create( clockid: crate::clockid_t, sevp: *mut crate::sigevent, timerid: *mut crate::timer_t, ) -> c_int; pub fn timer_delete(timerid: crate::timer_t) -> c_int; pub fn timer_getoverrun(timerid: crate::timer_t) -> c_int; pub fn timer_gettime(timerid: crate::timer_t, curr_value: *mut crate::itimerspec) -> c_int; pub fn timer_settime( timerid: crate::timer_t, flags: c_int, new_value: *const crate::itimerspec, old_value: *mut crate::itimerspec, ) -> c_int; // Added in `NetBSD` 7.0 pub fn explicit_memset(b: *mut c_void, c: c_int, len: size_t); pub fn consttime_memequal(a: *const c_void, b: *const c_void, len: size_t) -> c_int; pub fn setproctitle(fmt: *const c_char, ...); pub fn mremap( oldp: *mut c_void, oldsize: size_t, newp: *mut c_void, newsize: size_t, flags: c_int, ) -> *mut c_void; pub fn sched_rr_get_interval(pid: crate::pid_t, t: *mut crate::timespec) -> c_int; pub fn sched_setparam(pid: crate::pid_t, param: *const crate::sched_param) -> c_int; pub fn sched_getparam(pid: crate::pid_t, param: *mut crate::sched_param) -> c_int; pub fn sched_getscheduler(pid: crate::pid_t) -> c_int; pub fn sched_setscheduler( pid: crate::pid_t, policy: c_int, param: *const crate::sched_param, ) -> c_int; #[link_name = "__pollts50"] pub fn pollts( fds: *mut crate::pollfd, nfds: crate::nfds_t, ts: *const crate::timespec, sigmask: *const crate::sigset_t, ) -> c_int; pub fn ppoll( fds: *mut crate::pollfd, nfds: crate::nfds_t, ts: *const crate::timespec, sigmask: *const crate::sigset_t, ) -> c_int; pub fn getrandom(buf: *mut c_void, buflen: size_t, flags: c_uint) -> ssize_t; pub fn reboot(mode: c_int, bootstr: *mut c_char) -> c_int; #[link_name = "___lwp_park60"] pub fn _lwp_park( clock: crate::clockid_t, flags: c_int, ts: *const crate::timespec, unpark: crate::lwpid_t, hint: *const c_void, unparkhint: *mut c_void, ) -> c_int; pub fn _lwp_unpark(lwp: crate::lwpid_t, hint: *const c_void) -> c_int; pub fn _lwp_unpark_all( targets: *const crate::lwpid_t, ntargets: size_t, hint: *const c_void, ) -> c_int; pub fn getmntinfo(mntbufp: *mut *mut crate::statvfs, flags: c_int) -> c_int; pub fn getvfsstat(buf: *mut statvfs, bufsize: size_t, flags: c_int) -> c_int; } #[link(name = "rt")] extern "C" { pub fn aio_read(aiocbp: *mut aiocb) -> c_int; pub fn aio_write(aiocbp: *mut aiocb) -> c_int; pub fn aio_fsync(op: c_int, aiocbp: *mut aiocb) -> c_int; pub fn aio_error(aiocbp: *const aiocb) -> c_int; pub fn aio_return(aiocbp: *mut aiocb) -> ssize_t; #[link_name = "__aio_suspend50"] pub fn aio_suspend( aiocb_list: *const *const aiocb, nitems: c_int, timeout: *const crate::timespec, ) -> c_int; pub fn aio_cancel(fd: c_int, aiocbp: *mut aiocb) -> c_int; pub fn lio_listio( mode: c_int, aiocb_list: *const *mut aiocb, nitems: c_int, sevp: *mut sigevent, ) -> c_int; } #[link(name = "util")] extern "C" { #[cfg_attr(target_os = "netbsd", link_name = "__getpwent_r50")] pub fn getpwent_r( pwd: *mut crate::passwd, buf: *mut c_char, buflen: size_t, result: *mut *mut crate::passwd, ) -> c_int; pub fn getgrent_r( grp: *mut crate::group, buf: *mut c_char, buflen: size_t, result: *mut *mut crate::group, ) -> c_int; pub fn updwtmpx(file: *const c_char, ut: *const utmpx) -> c_int; pub fn getlastlogx(fname: *const c_char, uid: crate::uid_t, ll: *mut lastlogx) -> *mut lastlogx; pub fn updlastlogx(fname: *const c_char, uid: crate::uid_t, ll: *mut lastlogx) -> c_int; pub fn utmpxname(file: *const c_char) -> c_int; pub fn getutxent() -> *mut utmpx; pub fn getutxid(ut: *const utmpx) -> *mut utmpx; pub fn getutxline(ut: *const utmpx) -> *mut utmpx; pub fn pututxline(ut: *const utmpx) -> *mut utmpx; pub fn setutxent(); pub fn endutxent(); pub fn getutmp(ux: *const utmpx, u: *mut utmp); pub fn getutmpx(u: *const utmp, ux: *mut utmpx); pub fn utpname(file: *const c_char) -> c_int; pub fn setutent(); pub fn endutent(); pub fn getutent() -> *mut utmp; pub fn efopen(p: *const c_char, m: *const c_char) -> crate::FILE; pub fn emalloc(n: size_t) -> *mut c_void; pub fn ecalloc(n: size_t, c: size_t) -> *mut c_void; pub fn erealloc(p: *mut c_void, n: size_t) -> *mut c_void; pub fn ereallocarr(p: *mut c_void, n: size_t, s: size_t); pub fn estrdup(s: *const c_char) -> *mut c_char; pub fn estrndup(s: *const c_char, len: size_t) -> *mut c_char; pub fn estrlcpy(dst: *mut c_char, src: *const c_char, len: size_t) -> size_t; pub fn estrlcat(dst: *mut c_char, src: *const c_char, len: size_t) -> size_t; pub fn estrtoi( nptr: *const c_char, base: c_int, lo: crate::intmax_t, hi: crate::intmax_t, ) -> crate::intmax_t; pub fn estrtou( nptr: *const c_char, base: c_int, lo: crate::uintmax_t, hi: crate::uintmax_t, ) -> crate::uintmax_t; pub fn easprintf(string: *mut *mut c_char, fmt: *const c_char, ...) -> c_int; pub fn evasprintf(string: *mut *mut c_char, fmt: *const c_char, ...) -> c_int; pub fn esetfunc( cb: Option, ) -> Option; pub fn secure_path(path: *const c_char) -> c_int; pub fn snprintb(buf: *mut c_char, buflen: size_t, fmt: *const c_char, val: u64) -> c_int; pub fn snprintb_m( buf: *mut c_char, buflen: size_t, fmt: *const c_char, val: u64, max: size_t, ) -> c_int; pub fn getbootfile() -> *const c_char; pub fn getbyteorder() -> c_int; pub fn getdiskrawname(buf: *mut c_char, buflen: size_t, name: *const c_char) -> *const c_char; pub fn getdiskcookedname( buf: *mut c_char, buflen: size_t, name: *const c_char, ) -> *const c_char; pub fn getfsspecname(buf: *mut c_char, buflen: size_t, spec: *const c_char) -> *const c_char; pub fn strpct( buf: *mut c_char, bufsiz: size_t, numerator: crate::uintmax_t, denominator: crate::uintmax_t, precision: size_t, ) -> *mut c_char; pub fn strspct( buf: *mut c_char, bufsiz: size_t, numerator: crate::intmax_t, denominator: crate::intmax_t, precision: size_t, ) -> *mut c_char; #[link_name = "__login50"] pub fn login(ut: *const utmp); #[link_name = "__loginx50"] pub fn loginx(ut: *const utmpx); pub fn logout(line: *const c_char); pub fn logoutx(line: *const c_char, status: c_int, tpe: c_int); pub fn logwtmp(line: *const c_char, name: *const c_char, host: *const c_char); pub fn logwtmpx( line: *const c_char, name: *const c_char, host: *const c_char, status: c_int, tpe: c_int, ); pub fn getxattr( path: *const c_char, name: *const c_char, value: *mut c_void, size: size_t, ) -> ssize_t; pub fn lgetxattr( path: *const c_char, name: *const c_char, value: *mut c_void, size: size_t, ) -> ssize_t; pub fn fgetxattr( filedes: c_int, name: *const c_char, value: *mut c_void, size: size_t, ) -> ssize_t; pub fn setxattr( path: *const c_char, name: *const c_char, value: *const c_void, size: size_t, ) -> c_int; pub fn lsetxattr( path: *const c_char, name: *const c_char, value: *const c_void, size: size_t, ) -> c_int; pub fn fsetxattr( filedes: c_int, name: *const c_char, value: *const c_void, size: size_t, flags: c_int, ) -> c_int; pub fn listxattr(path: *const c_char, list: *mut c_char, size: size_t) -> ssize_t; pub fn llistxattr(path: *const c_char, list: *mut c_char, size: size_t) -> ssize_t; pub fn flistxattr(filedes: c_int, list: *mut c_char, size: size_t) -> ssize_t; pub fn removexattr(path: *const c_char, name: *const c_char) -> c_int; pub fn lremovexattr(path: *const c_char, name: *const c_char) -> c_int; pub fn fremovexattr(fd: c_int, path: *const c_char, name: *const c_char) -> c_int; pub fn string_to_flags( string_p: *mut *mut c_char, setp: *mut c_ulong, clrp: *mut c_ulong, ) -> c_int; pub fn flags_to_string(flags: c_ulong, def: *const c_char) -> c_int; pub fn kinfo_getvmmap(pid: crate::pid_t, cntp: *mut size_t) -> *mut kinfo_vmentry; } #[link(name = "execinfo")] extern "C" { pub fn backtrace(addrlist: *mut *mut c_void, len: size_t) -> size_t; pub fn backtrace_symbols(addrlist: *const *mut c_void, len: size_t) -> *mut *mut c_char; pub fn backtrace_symbols_fd(addrlist: *const *mut c_void, len: size_t, fd: c_int) -> c_int; pub fn backtrace_symbols_fmt( addrlist: *const *mut c_void, len: size_t, fmt: *const c_char, ) -> *mut *mut c_char; pub fn backtrace_symbols_fd_fmt( addrlist: *const *mut c_void, len: size_t, fd: c_int, fmt: *const c_char, ) -> c_int; } cfg_if! { if #[cfg(target_arch = "aarch64")] { mod aarch64; pub use self::aarch64::*; } else if #[cfg(target_arch = "arm")] { mod arm; pub use self::arm::*; } else if #[cfg(target_arch = "powerpc")] { mod powerpc; pub use self::powerpc::*; } else if #[cfg(target_arch = "sparc64")] { mod sparc64; pub use self::sparc64::*; } else if #[cfg(target_arch = "x86_64")] { mod x86_64; pub use self::x86_64::*; } else if #[cfg(target_arch = "x86")] { mod x86; pub use self::x86::*; } else if #[cfg(target_arch = "mips")] { mod mips; pub use self::mips::*; } else if #[cfg(target_arch = "riscv64")] { mod riscv64; pub use self::riscv64::*; } else { // Unknown target_arch } }