//! Interface to VxWorks C library use core::mem::size_of; use core::ptr::null_mut; #[cfg_attr(feature = "extra_traits", derive(Debug))] pub enum DIR {} impl ::Copy for DIR {} impl ::Clone for DIR { fn clone(&self) -> DIR { *self } } pub type c_schar = i8; pub type c_uchar = u8; pub type c_short = i16; pub type c_ushort = u16; pub type c_int = i32; pub type c_uint = u32; pub type c_float = f32; pub type c_double = f64; pub type c_longlong = i64; pub type c_ulonglong = u64; pub type intmax_t = i64; pub type uintmax_t = u64; pub type uintptr_t = usize; pub type intptr_t = isize; pub type ptrdiff_t = isize; pub type size_t = ::uintptr_t; pub type ssize_t = ::intptr_t; pub type pid_t = ::c_int; pub type in_addr_t = u32; pub type sighandler_t = ::size_t; pub type cpuset_t = u32; pub type blkcnt_t = ::c_long; pub type blksize_t = ::c_long; pub type ino_t = ::c_ulong; pub type rlim_t = ::c_ulong; pub type suseconds_t = ::c_long; pub type time_t = ::c_long; pub type errno_t = ::c_int; pub type useconds_t = ::c_ulong; pub type socklen_t = ::c_uint; pub type pthread_t = ::c_ulong; pub type clockid_t = ::c_int; //defined for the structs pub type dev_t = ::c_ulong; pub type mode_t = ::c_int; pub type nlink_t = ::c_ulong; pub type uid_t = ::c_ushort; pub type gid_t = ::c_ushort; pub type sigset_t = ::c_ulonglong; pub type key_t = ::c_long; pub type nfds_t = ::c_uint; pub type stat64 = ::stat; pub type pthread_key_t = ::c_ulong; // From b_off_t.h pub type off_t = ::c_longlong; pub type off64_t = off_t; // From b_BOOL.h pub type BOOL = ::c_int; // From vxWind.h .. pub type _Vx_OBJ_HANDLE = ::c_int; pub type _Vx_TASK_ID = ::_Vx_OBJ_HANDLE; pub type _Vx_MSG_Q_ID = ::_Vx_OBJ_HANDLE; pub type _Vx_SEM_ID_KERNEL = ::_Vx_OBJ_HANDLE; pub type _Vx_RTP_ID = ::_Vx_OBJ_HANDLE; pub type _Vx_SD_ID = ::_Vx_OBJ_HANDLE; pub type _Vx_CONDVAR_ID = ::_Vx_OBJ_HANDLE; pub type _Vx_SEM_ID = *mut ::_Vx_semaphore; pub type OBJ_HANDLE = ::_Vx_OBJ_HANDLE; pub type TASK_ID = ::OBJ_HANDLE; pub type MSG_Q_ID = ::OBJ_HANDLE; pub type SEM_ID_KERNEL = ::OBJ_HANDLE; pub type RTP_ID = ::OBJ_HANDLE; pub type SD_ID = ::OBJ_HANDLE; pub type CONDVAR_ID = ::OBJ_HANDLE; // From vxTypes.h pub type _Vx_usr_arg_t = isize; pub type _Vx_exit_code_t = isize; pub type _Vx_ticks_t = ::c_uint; pub type _Vx_ticks64_t = ::c_ulonglong; pub type sa_family_t = ::c_uchar; #[cfg_attr(feature = "extra_traits", derive(Debug))] pub enum _Vx_semaphore {} impl ::Copy for _Vx_semaphore {} impl ::Clone for _Vx_semaphore { fn clone(&self) -> _Vx_semaphore { *self } } s! { // b_pthread_condattr_t.h pub struct pthread_condattr_t { pub condAttrStatus: ::c_int, pub condAttrPshared: ::c_int, pub condAttrClockId: ::clockid_t, } // b_pthread_cond_t.h pub struct pthread_cond_t{ pub condSemId: ::_Vx_SEM_ID, pub condValid: ::c_int, pub condInitted: ::c_int, pub condRefCount: ::c_int, pub condMutex: *mut ::pthread_mutex_t, pub condAttr: ::pthread_condattr_t, pub condSemName: [::c_char; _PTHREAD_SHARED_SEM_NAME_MAX] } // b_pthread_rwlockattr_t.h pub struct pthread_rwlockattr_t { pub rwlockAttrStatus: ::c_int, pub rwlockAttrPshared: ::c_int, pub rwlockAttrMaxReaders: ::c_uint, pub rwlockAttrConformOpt: ::c_uint, } // b_pthread_rwlock_t.h pub struct pthread_rwlock_t { pub rwlockSemId: :: _Vx_SEM_ID, pub rwlockReadersRefCount: ::c_uint, pub rwlockValid: ::c_int, pub rwlockInitted: ::c_int, pub rwlockAttr: ::pthread_rwlockattr_t, pub rwlockSemName: [::c_char; _PTHREAD_SHARED_SEM_NAME_MAX] } // b_struct_timeval.h pub struct timeval { pub tv_sec: ::time_t, pub tv_usec: ::suseconds_t, } // socket.h pub struct linger { pub l_onoff: ::c_int, pub l_linger: ::c_int, } pub struct sockaddr { pub sa_len : ::c_uchar, pub sa_family : sa_family_t, pub sa_data : [::c_char; 14], } pub struct iovec { pub iov_base: *mut ::c_void, pub iov_len: ::size_t, } pub struct msghdr { pub msg_name: *mut c_void, pub msg_namelen: socklen_t, pub msg_iov: *mut iovec, pub msg_iovlen: ::c_int, pub msg_control: *mut c_void, pub msg_controllen: socklen_t, pub msg_flags: ::c_int, } pub struct cmsghdr { pub cmsg_len: socklen_t, pub cmsg_level: ::c_int, pub cmsg_type: ::c_int, } // poll.h pub struct pollfd { pub fd : ::c_int, pub events : ::c_short, pub revents : ::c_short, } // resource.h pub struct rlimit { pub rlim_cur : ::rlim_t, pub rlim_max : ::rlim_t, } // stat.h pub struct stat { pub st_dev : ::dev_t, pub st_ino : ::ino_t, pub st_mode : ::mode_t, pub st_nlink : ::nlink_t, pub st_uid : ::uid_t, pub st_gid : ::gid_t, pub st_rdev : ::dev_t, pub st_size : ::off_t, pub st_atime : ::time_t, pub st_mtime : ::time_t, pub st_ctime : ::time_t, pub st_blksize : ::blksize_t, pub st_blocks : ::blkcnt_t, pub st_attrib : ::c_uchar, pub st_reserved1 : ::c_int, pub st_reserved2 : ::c_int, pub st_reserved3 : ::c_int, pub st_reserved4 : ::c_int, } //b_struct__Timespec.h pub struct _Timespec { pub tv_sec : ::time_t, pub tv_nsec : ::c_long, } // b_struct__Sched_param.h pub struct _Sched_param { pub sched_priority: ::c_int, /* scheduling priority */ pub sched_ss_low_priority: ::c_int, /* low scheduling priority */ pub sched_ss_repl_period: ::_Timespec, /* replenishment period */ pub sched_ss_init_budget: ::_Timespec, /* initial budget */ pub sched_ss_max_repl: ::c_int, /* max pending replenishment */ } // b_pthread_attr_t.h pub struct pthread_attr_t { pub threadAttrStatus : ::c_int, pub threadAttrStacksize : ::size_t, pub threadAttrStackaddr : *mut ::c_void, pub threadAttrGuardsize : ::size_t, pub threadAttrDetachstate : ::c_int, pub threadAttrContentionscope : ::c_int, pub threadAttrInheritsched : ::c_int, pub threadAttrSchedpolicy : ::c_int, pub threadAttrName : *mut ::c_char, pub threadAttrOptions : ::c_int, pub threadAttrSchedparam : ::_Sched_param, } // signal.h pub struct sigaction { pub sa_u : ::sa_u_t, pub sa_mask : ::sigset_t, pub sa_flags : ::c_int, } // b_stack_t.h pub struct stack_t { pub ss_sp : *mut ::c_void, pub ss_size : ::size_t, pub ss_flags : ::c_int, } // signal.h pub struct siginfo_t { pub si_signo : ::c_int, pub si_code : ::c_int, pub si_value : ::sigval, pub si_errno : ::c_int, pub si_status: ::c_int, pub si_addr: *mut ::c_void, pub si_uid: ::uid_t, pub si_pid: ::pid_t, } // pthread.h (krnl) // b_pthread_mutexattr_t.h (usr) pub struct pthread_mutexattr_t { mutexAttrStatus : ::c_int, mutexAttrPshared : ::c_int, mutexAttrProtocol : ::c_int, mutexAttrPrioceiling : ::c_int, mutexAttrType : ::c_int, } // pthread.h (krnl) // b_pthread_mutex_t.h (usr) pub struct pthread_mutex_t { pub mutexSemId: ::_Vx_SEM_ID, /*_Vx_SEM_ID ..*/ pub mutexValid: ::c_int, pub mutexInitted: ::c_int, pub mutexCondRefCount: ::c_int, pub mutexSavPriority: ::c_int, pub mutexAttr: ::pthread_mutexattr_t, pub mutexSemName: [::c_char; _PTHREAD_SHARED_SEM_NAME_MAX], } // b_struct_timespec.h pub struct timespec { pub tv_sec: ::time_t, pub tv_nsec: ::c_long, } // time.h pub struct tm { pub tm_sec: ::c_int, pub tm_min: ::c_int, pub tm_hour: ::c_int, pub tm_mday: ::c_int, pub tm_mon: ::c_int, pub tm_year: ::c_int, pub tm_wday: ::c_int, pub tm_yday: ::c_int, pub tm_isdst: ::c_int, } // in.h pub struct in_addr { pub s_addr: in_addr_t, } // in.h pub struct ip_mreq { pub imr_multiaddr: in_addr, pub imr_interface: in_addr, } // in6.h #[repr(align(4))] pub struct in6_addr { pub s6_addr: [u8; 16], } // in6.h pub struct ipv6_mreq { pub ipv6mr_multiaddr: in6_addr, pub ipv6mr_interface: ::c_uint, } // netdb.h 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 : ::size_t, pub ai_canonname: *mut ::c_char, pub ai_addr : *mut ::sockaddr, pub ai_next : *mut ::addrinfo, } // in.h pub struct sockaddr_in { pub sin_len : u8, pub sin_family: u8, pub sin_port : u16, pub sin_addr : ::in_addr, pub sin_zero : [::c_char; 8], } // in6.h pub struct sockaddr_in6 { pub sin6_len : u8, pub sin6_family : u8, pub sin6_port : u16, pub sin6_flowinfo: u32, pub sin6_addr : ::in6_addr, pub sin6_scope_id: u32, } 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: *mut ::c_void, } } s_no_extra_traits! { // dirent.h pub struct dirent { pub d_ino : ::ino_t, pub d_name : [::c_char; _PARM_NAME_MAX as usize + 1], } pub struct sockaddr_un { pub sun_len: u8, pub sun_family: sa_family_t, pub sun_path: [::c_char; 104] } // rtpLibCommon.h pub struct RTP_DESC { pub status : ::c_int, pub options : u32, pub entrAddr : *mut ::c_void, pub initTaskId: ::TASK_ID, pub parentId : ::RTP_ID, pub pathName : [::c_char; VX_RTP_NAME_LENGTH as usize + 1], pub taskCnt : ::c_int, pub textStart : *mut ::c_void, pub textEnd : *mut ::c_void, } // socket.h pub struct sockaddr_storage { pub ss_len : ::c_uchar, pub ss_family : ::sa_family_t, pub __ss_pad1 : [::c_char; _SS_PAD1SIZE], pub __ss_align : i32, pub __ss_pad2 : [::c_char; _SS_PAD2SIZE], } pub union sa_u_t { pub sa_handler : ::Option !>, pub sa_sigaction: ::Option !>, } pub union sigval { pub sival_int : ::c_int, pub sival_ptr : *mut ::c_void, } } cfg_if! { if #[cfg(feature = "extra_traits")] { impl ::fmt::Debug for dirent { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("dirent") .field("d_ino", &self.d_ino) .field("d_name", &&self.d_name[..]) .finish() } } impl ::fmt::Debug for sockaddr_un { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("sockaddr_un") .field("sun_len", &self.sun_len) .field("sun_family", &self.sun_family) .field("sun_path", &&self.sun_path[..]) .finish() } } impl ::fmt::Debug for RTP_DESC { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("RTP_DESC") .field("status", &self.status) .field("options", &self.options) .field("entrAddr", &self.entrAddr) .field("initTaskId", &self.initTaskId) .field("parentId", &self.parentId) .field("pathName", &&self.pathName[..]) .field("taskCnt", &self.taskCnt) .field("textStart", &self.textStart) .field("textEnd", &self.textEnd) .finish() } } 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_align", &self.__ss_align) .field("__ss_pad2", &&self.__ss_pad2[..]) .finish() } } impl PartialEq for sa_u_t { fn eq(&self, other: &sa_u_t) -> bool { unsafe { let h1 = match self.sa_handler { Some(handler) => handler as usize, None => 0 as usize, }; let h2 = match other.sa_handler { Some(handler) => handler as usize, None => 0 as usize, }; h1 == h2 } } } impl Eq for sa_u_t {} impl ::fmt::Debug for sa_u_t { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { unsafe { let h = match self.sa_handler { Some(handler) => handler as usize, None => 0 as usize, }; f.debug_struct("sa_u_t") .field("sa_handler", &h) .finish() } } } impl ::hash::Hash for sa_u_t { fn hash(&self, state: &mut H) { unsafe { let h = match self.sa_handler { Some(handler) => handler as usize, None => 0 as usize, }; h.hash(state) } } } impl PartialEq for sigval { fn eq(&self, other: &sigval) -> bool { unsafe { self.sival_ptr as usize == other.sival_ptr as usize } } } impl Eq for sigval {} impl ::fmt::Debug for sigval { fn fmt(&self, f: &mut ::fmt::Formatter) -> ::fmt::Result { f.debug_struct("sigval") .field("sival_ptr", unsafe { &(self.sival_ptr as usize) }) .finish() } } impl ::hash::Hash for sigval { fn hash(&self, state: &mut H) { unsafe { (self.sival_ptr as usize).hash(state) }; } } } } pub const STDIN_FILENO: ::c_int = 0; pub const STDOUT_FILENO: ::c_int = 1; pub const STDERR_FILENO: ::c_int = 2; pub const EXIT_SUCCESS: ::c_int = 0; pub const EXIT_FAILURE: ::c_int = 1; pub const EAI_SERVICE: ::c_int = 9; pub const EAI_SOCKTYPE: ::c_int = 10; pub const EAI_SYSTEM: ::c_int = 11; // This is not defined in vxWorks, but we have to define it here // to make the building pass for getrandom and libstd, FIXME pub const RTLD_DEFAULT: *mut ::c_void = 0i64 as *mut ::c_void; //Clock Lib Stuff pub const CLOCK_REALTIME: ::c_int = 0x0; pub const CLOCK_MONOTONIC: ::c_int = 0x1; pub const CLOCK_PROCESS_CPUTIME_ID: ::c_int = 0x2; pub const CLOCK_THREAD_CPUTIME_ID: ::c_int = 0x3; pub const TIMER_ABSTIME: ::c_int = 0x1; pub const TIMER_RELTIME: ::c_int = 0x0; // PTHREAD STUFF pub const PTHREAD_INITIALIZED_OBJ: ::c_int = 0xF70990EF; pub const PTHREAD_DESTROYED_OBJ: ::c_int = -1; pub const PTHREAD_VALID_OBJ: ::c_int = 0xEC542A37; pub const PTHREAD_INVALID_OBJ: ::c_int = -1; pub const PTHREAD_UNUSED_YET_OBJ: ::c_int = -1; pub const PTHREAD_PRIO_NONE: ::c_int = 0; pub const PTHREAD_PRIO_INHERIT: ::c_int = 1; pub const PTHREAD_PRIO_PROTECT: ::c_int = 2; 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 PTHREAD_STACK_MIN: usize = 4096; pub const _PTHREAD_SHARED_SEM_NAME_MAX: usize = 30; // ERRNO STUFF pub const OK: ::c_int = 0; pub const EPERM: ::c_int = 1; /* Not owner */ pub const ENOENT: ::c_int = 2; /* No such file or directory */ pub const ESRCH: ::c_int = 3; /* No such process */ pub const EINTR: ::c_int = 4; /* Interrupted system call */ pub const EIO: ::c_int = 5; /* I/O error */ pub const ENXIO: ::c_int = 6; /* No such device or address */ pub const E2BIG: ::c_int = 7; /* Arg list too long */ pub const ENOEXEC: ::c_int = 8; /* Exec format error */ pub const EBADF: ::c_int = 9; /* Bad file number */ pub const ECHILD: ::c_int = 10; /* No children */ pub const EAGAIN: ::c_int = 11; /* No more processes */ pub const ENOMEM: ::c_int = 12; /* Not enough core */ pub const EACCES: ::c_int = 13; /* Permission denied */ pub const EFAULT: ::c_int = 14; pub const ENOTEMPTY: ::c_int = 15; pub const EBUSY: ::c_int = 16; pub const EEXIST: ::c_int = 17; pub const ENODEV: ::c_int = 19; pub const ENOTDIR: ::c_int = 20; pub const EISDIR: ::c_int = 21; pub const EINVAL: ::c_int = 22; pub const ENAMETOOLONG: ::c_int = 26; pub const EFBIG: ::c_int = 27; pub const ENOSPC: ::c_int = 28; pub const EROFS: ::c_int = 30; pub const EPIPE: ::c_int = 32; pub const EDEADLK: ::c_int = 33; pub const ERANGE: ::c_int = 38; pub const EDESTADDRREQ: ::c_int = 40; pub const EPROTOTYPE: ::c_int = 41; pub const ENOPROTOOPT: ::c_int = 42; pub const EPROTONOSUPPORT: ::c_int = 43; pub const ESOCKTNOSUPPORT: ::c_int = 44; pub const EOPNOTSUPP: ::c_int = 45; pub const EPFNOSUPPORT: ::c_int = 46; pub const EAFNOSUPPORT: ::c_int = 47; pub const EADDRINUSE: ::c_int = 48; pub const EADDRNOTAVAIL: ::c_int = 49; pub const ENOTSOCK: ::c_int = 50; pub const ENETUNREACH: ::c_int = 51; pub const ENETRESET: ::c_int = 52; pub const ECONNABORTED: ::c_int = 53; pub const ECONNRESET: ::c_int = 54; pub const ENOBUFS: ::c_int = 55; pub const EISCONN: ::c_int = 56; pub const ENOTCONN: ::c_int = 57; pub const ESHUTDOWN: ::c_int = 58; pub const ETOOMANYREFS: ::c_int = 59; pub const ETIMEDOUT: ::c_int = 60; pub const ECONNREFUSED: ::c_int = 61; pub const EINPROGRESS: ::c_int = 68; pub const EALREADY: ::c_int = 69; pub const EWOULDBLOCK: ::c_int = 70; pub const ENOSYS: ::c_int = 71; pub const EDQUOT: ::c_int = 83; pub const ESTALE: ::c_int = 88; // NFS errnos: Refer to pkgs_v2/storage/fs/nfs/h/nfs/nfsCommon.h const M_nfsStat: ::c_int = 48 << 16; enum nfsstat { NFSERR_REMOTE = 71, NFSERR_WFLUSH = 99, NFSERR_BADHANDLE = 10001, NFSERR_NOT_SYNC = 10002, NFSERR_BAD_COOKIE = 10003, NFSERR_TOOSMALL = 10005, NFSERR_BADTYPE = 10007, NFSERR_JUKEBOX = 10008, } pub const S_nfsLib_NFS_OK: ::c_int = OK; pub const S_nfsLib_NFSERR_PERM: ::c_int = EPERM; pub const S_nfsLib_NFSERR_NOENT: ::c_int = ENOENT; pub const S_nfsLib_NFSERR_IO: ::c_int = EIO; pub const S_nfsLib_NFSERR_NXIO: ::c_int = ENXIO; pub const S_nfsLib_NFSERR_ACCESS: ::c_int = EACCES; pub const S_nfsLib_NFSERR_EXIST: ::c_int = EEXIST; pub const S_nfsLib_NFSERR_ENODEV: ::c_int = ENODEV; pub const S_nfsLib_NFSERR_NOTDIR: ::c_int = ENOTDIR; pub const S_nfsLib_NFSERR_ISDIR: ::c_int = EISDIR; pub const S_nfsLib_NFSERR_INVAL: ::c_int = EINVAL; pub const S_nfsLib_NFSERR_FBIG: ::c_int = EFBIG; pub const S_nfsLib_NFSERR_NOSPC: ::c_int = ENOSPC; pub const S_nfsLib_NFSERR_ROFS: ::c_int = EROFS; pub const S_nfsLib_NFSERR_NAMETOOLONG: ::c_int = ENAMETOOLONG; pub const S_nfsLib_NFSERR_NOTEMPTY: ::c_int = ENOTEMPTY; pub const S_nfsLib_NFSERR_DQUOT: ::c_int = EDQUOT; pub const S_nfsLib_NFSERR_STALE: ::c_int = ESTALE; pub const S_nfsLib_NFSERR_WFLUSH: ::c_int = M_nfsStat | nfsstat::NFSERR_WFLUSH as ::c_int; pub const S_nfsLib_NFSERR_REMOTE: ::c_int = M_nfsStat | nfsstat::NFSERR_REMOTE as ::c_int; pub const S_nfsLib_NFSERR_BADHANDLE: ::c_int = M_nfsStat | nfsstat::NFSERR_BADHANDLE as ::c_int; pub const S_nfsLib_NFSERR_NOT_SYNC: ::c_int = M_nfsStat | nfsstat::NFSERR_NOT_SYNC as ::c_int; pub const S_nfsLib_NFSERR_BAD_COOKIE: ::c_int = M_nfsStat | nfsstat::NFSERR_BAD_COOKIE as ::c_int; pub const S_nfsLib_NFSERR_NOTSUPP: ::c_int = EOPNOTSUPP; pub const S_nfsLib_NFSERR_TOOSMALL: ::c_int = M_nfsStat | nfsstat::NFSERR_TOOSMALL as ::c_int; pub const S_nfsLib_NFSERR_SERVERFAULT: ::c_int = EIO; pub const S_nfsLib_NFSERR_BADTYPE: ::c_int = M_nfsStat | nfsstat::NFSERR_BADTYPE as ::c_int; pub const S_nfsLib_NFSERR_JUKEBOX: ::c_int = M_nfsStat | nfsstat::NFSERR_JUKEBOX as ::c_int; // in.h pub const IPPROTO_IP: ::c_int = 0; pub const IPPROTO_IPV6: ::c_int = 41; pub const IP_TTL: ::c_int = 4; pub const IP_MULTICAST_IF: ::c_int = 9; pub const IP_MULTICAST_TTL: ::c_int = 10; pub const IP_MULTICAST_LOOP: ::c_int = 11; pub const IP_ADD_MEMBERSHIP: ::c_int = 12; pub const IP_DROP_MEMBERSHIP: ::c_int = 13; // in6.h pub const IPV6_V6ONLY: ::c_int = 1; pub const IPV6_UNICAST_HOPS: ::c_int = 4; pub const IPV6_MULTICAST_IF: ::c_int = 9; pub const IPV6_MULTICAST_HOPS: ::c_int = 10; pub const IPV6_MULTICAST_LOOP: ::c_int = 11; pub const IPV6_ADD_MEMBERSHIP: ::c_int = 12; pub const IPV6_DROP_MEMBERSHIP: ::c_int = 13; // STAT Stuff pub const S_IFMT: ::c_int = 0xf000; pub const S_IFIFO: ::c_int = 0x1000; pub const S_IFCHR: ::c_int = 0x2000; pub const S_IFDIR: ::c_int = 0x4000; pub const S_IFBLK: ::c_int = 0x6000; pub const S_IFREG: ::c_int = 0x8000; pub const S_IFLNK: ::c_int = 0xa000; pub const S_IFSHM: ::c_int = 0xb000; pub const S_IFSOCK: ::c_int = 0xc000; pub const S_ISUID: ::c_int = 0x0800; pub const S_ISGID: ::c_int = 0x0400; pub const S_ISTXT: ::c_int = 0x0200; pub const S_IRUSR: ::c_int = 0x0100; pub const S_IWUSR: ::c_int = 0x0080; pub const S_IXUSR: ::c_int = 0x0040; pub const S_IRWXU: ::c_int = 0x01c0; pub const S_IRGRP: ::c_int = 0x0020; pub const S_IWGRP: ::c_int = 0x0010; pub const S_IXGRP: ::c_int = 0x0008; pub const S_IRWXG: ::c_int = 0x0038; pub const S_IROTH: ::c_int = 0x0004; pub const S_IWOTH: ::c_int = 0x0002; pub const S_IXOTH: ::c_int = 0x0001; pub const S_IRWXO: ::c_int = 0x0007; // socket.h pub const SOL_SOCKET: ::c_int = 0xffff; pub const SO_DEBUG: ::c_int = 0x0001; pub const SO_REUSEADDR: ::c_int = 0x0004; pub const SO_KEEPALIVE: ::c_int = 0x0008; pub const SO_DONTROUTE: ::c_int = 0x0010; pub const SO_RCVLOWAT: ::c_int = 0x0012; pub const SO_SNDLOWAT: ::c_int = 0x0013; pub const SO_SNDTIMEO: ::c_int = 0x1005; pub const SO_ACCEPTCONN: ::c_int = 0x001e; pub const SO_BROADCAST: ::c_int = 0x0020; pub const SO_USELOOPBACK: ::c_int = 0x0040; pub const SO_LINGER: ::c_int = 0x0080; pub const SO_REUSEPORT: ::c_int = 0x0200; pub const SO_VLAN: ::c_int = 0x8000; pub const SO_SNDBUF: ::c_int = 0x1001; pub const SO_RCVBUF: ::c_int = 0x1002; pub const SO_RCVTIMEO: ::c_int = 0x1006; pub const SO_ERROR: ::c_int = 0x1007; pub const SO_TYPE: ::c_int = 0x1008; pub const SO_BINDTODEVICE: ::c_int = 0x1010; pub const SO_OOBINLINE: ::c_int = 0x1011; pub const SO_CONNTIMEO: ::c_int = 0x100a; pub const SOCK_STREAM: ::c_int = 1; pub const SOCK_DGRAM: ::c_int = 2; pub const SOCK_RAW: ::c_int = 3; pub const SOCK_RDM: ::c_int = 4; pub const SOCK_SEQPACKET: ::c_int = 5; pub const SOCK_PACKET: ::c_int = 10; pub const _SS_MAXSIZE: usize = 128; pub const _SS_ALIGNSIZE: usize = size_of::(); pub const _SS_PAD1SIZE: usize = (_SS_ALIGNSIZE - size_of::<::c_uchar>() - size_of::<::sa_family_t>()); pub const _SS_PAD2SIZE: usize = (_SS_MAXSIZE - size_of::<::c_uchar>() - size_of::<::sa_family_t>() - _SS_PAD1SIZE - _SS_ALIGNSIZE); pub const MSG_OOB: ::c_int = 0x0001; pub const MSG_PEEK: ::c_int = 0x0002; pub const MSG_DONTROUTE: ::c_int = 0x0004; pub const MSG_EOR: ::c_int = 0x0008; pub const MSG_TRUNC: ::c_int = 0x0010; pub const MSG_CTRUNC: ::c_int = 0x0020; pub const MSG_WAITALL: ::c_int = 0x0040; pub const MSG_DONTWAIT: ::c_int = 0x0080; pub const MSG_EOF: ::c_int = 0x0100; pub const MSG_EXP: ::c_int = 0x0200; pub const MSG_MBUF: ::c_int = 0x0400; pub const MSG_NOTIFICATION: ::c_int = 0x0800; pub const MSG_COMPAT: ::c_int = 0x8000; pub const AF_UNSPEC: ::c_int = 0; pub const AF_LOCAL: ::c_int = 1; pub const AF_UNIX: ::c_int = AF_LOCAL; pub const AF_INET: ::c_int = 2; pub const AF_NETLINK: ::c_int = 16; pub const AF_ROUTE: ::c_int = 17; pub const AF_LINK: ::c_int = 18; pub const AF_PACKET: ::c_int = 19; pub const pseudo_AF_KEY: ::c_int = 27; pub const AF_KEY: ::c_int = pseudo_AF_KEY; pub const AF_INET6: ::c_int = 28; pub const AF_SOCKDEV: ::c_int = 31; pub const AF_TIPC: ::c_int = 33; pub const AF_MIPC: ::c_int = 34; pub const AF_MIPC_SAFE: ::c_int = 35; pub const AF_MAX: ::c_int = 37; pub const SHUT_RD: ::c_int = 0; pub const SHUT_WR: ::c_int = 1; pub const SHUT_RDWR: ::c_int = 2; pub const IPPROTO_TCP: ::c_int = 6; pub const TCP_NODELAY: ::c_int = 1; pub const TCP_MAXSEG: ::c_int = 2; pub const TCP_NOPUSH: ::c_int = 3; pub const TCP_KEEPIDLE: ::c_int = 4; pub const TCP_KEEPINTVL: ::c_int = 5; pub const TCP_KEEPCNT: ::c_int = 6; // ioLib.h pub const FIONREAD: ::c_int = 0x40040001; pub const FIOFLUSH: ::c_int = 2; pub const FIOOPTIONS: ::c_int = 3; pub const FIOBAUDRATE: ::c_int = 4; pub const FIODISKFORMAT: ::c_int = 5; pub const FIODISKINIT: ::c_int = 6; pub const FIOSEEK: ::c_int = 7; pub const FIOWHERE: ::c_int = 8; pub const FIODIRENTRY: ::c_int = 9; pub const FIORENAME: ::c_int = 10; pub const FIOREADYCHANGE: ::c_int = 11; pub const FIODISKCHANGE: ::c_int = 13; pub const FIOCANCEL: ::c_int = 14; pub const FIOSQUEEZE: ::c_int = 15; pub const FIOGETNAME: ::c_int = 18; pub const FIONBIO: ::c_int = 0x90040010; // limits.h pub const PATH_MAX: ::c_int = _PARM_PATH_MAX; pub const _POSIX_PATH_MAX: ::c_int = 256; // Some poll stuff pub const POLLIN: ::c_short = 0x0001; pub const POLLPRI: ::c_short = 0x0002; pub const POLLOUT: ::c_short = 0x0004; pub const POLLRDNORM: ::c_short = 0x0040; pub const POLLWRNORM: ::c_short = POLLOUT; pub const POLLRDBAND: ::c_short = 0x0080; pub const POLLWRBAND: ::c_short = 0x0100; pub const POLLERR: ::c_short = 0x0008; pub const POLLHUP: ::c_short = 0x0010; pub const POLLNVAL: ::c_short = 0x0020; // fnctlcom.h pub const FD_CLOEXEC: ::c_int = 1; pub const F_DUPFD: ::c_int = 0; pub const F_GETFD: ::c_int = 1; pub const F_SETFD: ::c_int = 2; pub const F_GETFL: ::c_int = 3; pub const F_SETFL: ::c_int = 4; pub const F_GETOWN: ::c_int = 5; pub const F_SETOWN: ::c_int = 6; pub const F_GETLK: ::c_int = 7; pub const F_SETLK: ::c_int = 8; pub const F_SETLKW: ::c_int = 9; pub const F_DUPFD_CLOEXEC: ::c_int = 14; // signal.h pub const SIG_DFL: sighandler_t = 0 as sighandler_t; pub const SIG_IGN: sighandler_t = 1 as sighandler_t; pub const SIG_ERR: sighandler_t = -1 as isize as sighandler_t; pub const SIGHUP: ::c_int = 1; pub const SIGINT: ::c_int = 2; pub const SIGQUIT: ::c_int = 3; pub const SIGILL: ::c_int = 4; pub const SIGTRAP: ::c_int = 5; pub const SIGABRT: ::c_int = 6; pub const SIGEMT: ::c_int = 7; pub const SIGFPE: ::c_int = 8; pub const SIGKILL: ::c_int = 9; pub const SIGBUS: ::c_int = 10; pub const SIGSEGV: ::c_int = 11; pub const SIGFMT: ::c_int = 12; pub const SIGPIPE: ::c_int = 13; pub const SIGALRM: ::c_int = 14; pub const SIGTERM: ::c_int = 15; pub const SIGCNCL: ::c_int = 16; pub const SIGSTOP: ::c_int = 17; pub const SIGTSTP: ::c_int = 18; pub const SIGCONT: ::c_int = 19; pub const SIGCHLD: ::c_int = 20; pub const SIGTTIN: ::c_int = 21; pub const SIGTTOU: ::c_int = 22; pub const SIG_BLOCK: ::c_int = 1; pub const SIG_UNBLOCK: ::c_int = 2; pub const SIG_SETMASK: ::c_int = 3; pub const SI_SYNC: ::c_int = 0; pub const SI_USER: ::c_int = -1; pub const SI_QUEUE: ::c_int = -2; pub const SI_TIMER: ::c_int = -3; pub const SI_ASYNCIO: ::c_int = -4; pub const SI_MESGQ: ::c_int = -5; pub const SI_CHILD: ::c_int = -6; pub const SI_KILL: ::c_int = SI_USER; // vxParams.h definitions pub const _PARM_NAME_MAX: ::c_int = 255; pub const _PARM_PATH_MAX: ::c_int = 1024; // WAIT STUFF pub const WNOHANG: ::c_int = 0x01; pub const WUNTRACED: ::c_int = 0x02; const PTHREAD_MUTEXATTR_INITIALIZER: pthread_mutexattr_t = pthread_mutexattr_t { mutexAttrStatus: PTHREAD_INITIALIZED_OBJ, mutexAttrProtocol: PTHREAD_PRIO_NONE, mutexAttrPrioceiling: 0, mutexAttrType: PTHREAD_MUTEX_DEFAULT, mutexAttrPshared: 1, }; pub const PTHREAD_MUTEX_INITIALIZER: pthread_mutex_t = pthread_mutex_t { mutexSemId: null_mut(), mutexValid: PTHREAD_VALID_OBJ, mutexInitted: PTHREAD_UNUSED_YET_OBJ, mutexCondRefCount: 0, mutexSavPriority: -1, mutexAttr: PTHREAD_MUTEXATTR_INITIALIZER, mutexSemName: [0; _PTHREAD_SHARED_SEM_NAME_MAX], }; const PTHREAD_CONDATTR_INITIALIZER: pthread_condattr_t = pthread_condattr_t { condAttrStatus: 0xf70990ef, condAttrPshared: 1, condAttrClockId: CLOCK_REALTIME, }; pub const PTHREAD_COND_INITIALIZER: pthread_cond_t = pthread_cond_t { condSemId: null_mut(), condValid: PTHREAD_VALID_OBJ, condInitted: PTHREAD_UNUSED_YET_OBJ, condRefCount: 0, condMutex: null_mut(), condAttr: PTHREAD_CONDATTR_INITIALIZER, condSemName: [0; _PTHREAD_SHARED_SEM_NAME_MAX], }; const PTHREAD_RWLOCKATTR_INITIALIZER: pthread_rwlockattr_t = pthread_rwlockattr_t { rwlockAttrStatus: PTHREAD_INITIALIZED_OBJ, rwlockAttrPshared: 1, rwlockAttrMaxReaders: 0, rwlockAttrConformOpt: 1, }; pub const PTHREAD_RWLOCK_INITIALIZER: pthread_rwlock_t = pthread_rwlock_t { rwlockSemId: null_mut(), rwlockReadersRefCount: 0, rwlockValid: PTHREAD_VALID_OBJ, rwlockInitted: PTHREAD_UNUSED_YET_OBJ, rwlockAttr: PTHREAD_RWLOCKATTR_INITIALIZER, rwlockSemName: [0; _PTHREAD_SHARED_SEM_NAME_MAX], }; pub const SEEK_SET: ::c_int = 0; pub const SEEK_CUR: ::c_int = 1; pub const SEEK_END: ::c_int = 2; // rtpLibCommon.h pub const VX_RTP_NAME_LENGTH: ::c_int = 255; pub const RTP_ID_ERROR: ::RTP_ID = -1; // h/public/unistd.h pub const _SC_GETPW_R_SIZE_MAX: ::c_int = 21; // Via unistd.h pub const _SC_PAGESIZE: ::c_int = 39; pub const O_ACCMODE: ::c_int = 3; pub const O_CLOEXEC: ::c_int = 0x100000; // fcntlcom pub const O_EXCL: ::c_int = 0x0800; pub const O_CREAT: ::c_int = 0x0200; pub const O_TRUNC: ::c_int = 0x0400; pub const O_APPEND: ::c_int = 0x0008; pub const O_RDWR: ::c_int = 0x0002; pub const O_WRONLY: ::c_int = 0x0001; pub const O_RDONLY: ::c_int = 0; pub const O_NONBLOCK: ::c_int = 0x4000; #[cfg_attr(feature = "extra_traits", derive(Debug))] pub enum FILE {} impl ::Copy for FILE {} impl ::Clone for FILE { fn clone(&self) -> FILE { *self } } #[cfg_attr(feature = "extra_traits", derive(Debug))] pub enum fpos_t {} // TODO: fill this out with a struct impl ::Copy for fpos_t {} impl ::Clone for fpos_t { fn clone(&self) -> fpos_t { *self } } f! { pub fn CMSG_ALIGN(len: usize) -> usize { len + ::mem::size_of::() - 1 & !(::mem::size_of::() - 1) } 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_FIRSTHDR(mhdr: *const msghdr) -> *mut cmsghdr { if (*mhdr).msg_controllen as usize > 0 { (*mhdr).msg_control as *mut cmsghdr } else { 0 as *mut cmsghdr } } 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_SPACE(length: ::c_uint) -> ::c_uint { (CMSG_ALIGN(length as usize) + CMSG_ALIGN(::mem::size_of::())) as ::c_uint } pub fn CMSG_LEN(length: ::c_uint) -> ::c_uint { CMSG_ALIGN(::mem::size_of::()) as ::c_uint + length } } extern "C" { pub fn isalnum(c: c_int) -> c_int; pub fn isalpha(c: c_int) -> c_int; pub fn iscntrl(c: c_int) -> c_int; pub fn isdigit(c: c_int) -> c_int; pub fn isgraph(c: c_int) -> c_int; pub fn islower(c: c_int) -> c_int; pub fn isprint(c: c_int) -> c_int; pub fn ispunct(c: c_int) -> c_int; pub fn isspace(c: c_int) -> c_int; pub fn isupper(c: c_int) -> c_int; pub fn isxdigit(c: c_int) -> c_int; pub fn isblank(c: c_int) -> c_int; pub fn tolower(c: c_int) -> c_int; pub fn toupper(c: c_int) -> c_int; pub fn fopen(filename: *const c_char, mode: *const c_char) -> *mut FILE; pub fn freopen( filename: *const c_char, mode: *const c_char, file: *mut FILE, ) -> *mut FILE; pub fn fflush(file: *mut FILE) -> c_int; pub fn fclose(file: *mut FILE) -> c_int; pub fn remove(filename: *const c_char) -> c_int; pub fn rename(oldname: *const c_char, newname: *const c_char) -> c_int; pub fn tmpfile() -> *mut FILE; pub fn setvbuf( stream: *mut FILE, buffer: *mut c_char, mode: c_int, size: size_t, ) -> c_int; pub fn setbuf(stream: *mut FILE, buf: *mut c_char); pub fn getchar() -> c_int; pub fn putchar(c: c_int) -> c_int; pub fn fgetc(stream: *mut FILE) -> c_int; pub fn fgets(buf: *mut c_char, n: c_int, stream: *mut FILE) -> *mut c_char; pub fn fputc(c: c_int, stream: *mut FILE) -> c_int; pub fn fputs(s: *const c_char, stream: *mut FILE) -> c_int; pub fn puts(s: *const c_char) -> c_int; pub fn ungetc(c: c_int, stream: *mut FILE) -> c_int; pub fn fread( ptr: *mut c_void, size: size_t, nobj: size_t, stream: *mut FILE, ) -> size_t; pub fn fwrite( ptr: *const c_void, size: size_t, nobj: size_t, stream: *mut FILE, ) -> size_t; pub fn fseek(stream: *mut FILE, offset: c_long, whence: c_int) -> c_int; pub fn ftell(stream: *mut FILE) -> c_long; pub fn rewind(stream: *mut FILE); pub fn fgetpos(stream: *mut FILE, ptr: *mut fpos_t) -> c_int; pub fn fsetpos(stream: *mut FILE, ptr: *const fpos_t) -> c_int; pub fn feof(stream: *mut FILE) -> c_int; pub fn ferror(stream: *mut FILE) -> c_int; pub fn perror(s: *const c_char); pub fn atoi(s: *const c_char) -> c_int; pub fn strtod(s: *const c_char, endp: *mut *mut c_char) -> c_double; pub fn strtol( s: *const c_char, endp: *mut *mut c_char, base: c_int, ) -> c_long; pub fn strtoul( s: *const c_char, endp: *mut *mut c_char, base: c_int, ) -> c_ulong; pub fn calloc(nobj: size_t, size: size_t) -> *mut c_void; pub fn malloc(size: size_t) -> *mut c_void; pub fn realloc(p: *mut c_void, size: size_t) -> *mut c_void; pub fn free(p: *mut c_void); pub fn abort() -> !; pub fn exit(status: c_int) -> !; pub fn atexit(cb: extern "C" fn()) -> c_int; pub fn system(s: *const c_char) -> c_int; pub fn getenv(s: *const c_char) -> *mut c_char; pub fn strcpy(dst: *mut c_char, src: *const c_char) -> *mut c_char; pub fn strncpy( dst: *mut c_char, src: *const c_char, n: size_t, ) -> *mut c_char; pub fn strcat(s: *mut c_char, ct: *const c_char) -> *mut c_char; pub fn strncat( s: *mut c_char, ct: *const c_char, n: size_t, ) -> *mut c_char; pub fn strcmp(cs: *const c_char, ct: *const c_char) -> c_int; pub fn strncmp(cs: *const c_char, ct: *const c_char, n: size_t) -> c_int; pub fn strcoll(cs: *const c_char, ct: *const c_char) -> c_int; pub fn strchr(cs: *const c_char, c: c_int) -> *mut c_char; pub fn strrchr(cs: *const c_char, c: c_int) -> *mut c_char; pub fn strspn(cs: *const c_char, ct: *const c_char) -> size_t; pub fn strcspn(cs: *const c_char, ct: *const c_char) -> size_t; pub fn strdup(cs: *const c_char) -> *mut c_char; pub fn strpbrk(cs: *const c_char, ct: *const c_char) -> *mut c_char; pub fn strstr(cs: *const c_char, ct: *const c_char) -> *mut c_char; pub fn strcasecmp(s1: *const c_char, s2: *const c_char) -> c_int; pub fn strncasecmp( s1: *const c_char, s2: *const c_char, n: size_t, ) -> c_int; pub fn strlen(cs: *const c_char) -> size_t; pub fn strerror(n: c_int) -> *mut c_char; pub fn strtok(s: *mut c_char, t: *const c_char) -> *mut c_char; pub fn strxfrm(s: *mut c_char, ct: *const c_char, n: size_t) -> size_t; pub fn wcslen(buf: *const wchar_t) -> size_t; pub fn wcstombs( dest: *mut c_char, src: *const wchar_t, n: size_t, ) -> ::size_t; pub fn memchr(cx: *const c_void, c: c_int, n: size_t) -> *mut c_void; pub fn memcmp(cx: *const c_void, ct: *const c_void, n: size_t) -> c_int; pub fn memcpy( dest: *mut c_void, src: *const c_void, n: size_t, ) -> *mut c_void; pub fn memmove( dest: *mut c_void, src: *const c_void, n: size_t, ) -> *mut c_void; pub fn memset(dest: *mut c_void, c: c_int, n: size_t) -> *mut c_void; } extern "C" { pub fn fprintf( stream: *mut ::FILE, format: *const ::c_char, ... ) -> ::c_int; pub fn printf(format: *const ::c_char, ...) -> ::c_int; pub fn snprintf( s: *mut ::c_char, n: ::size_t, format: *const ::c_char, ... ) -> ::c_int; pub fn sprintf(s: *mut ::c_char, format: *const ::c_char, ...) -> ::c_int; pub fn fscanf( stream: *mut ::FILE, format: *const ::c_char, ... ) -> ::c_int; pub fn scanf(format: *const ::c_char, ...) -> ::c_int; pub fn sscanf(s: *const ::c_char, format: *const ::c_char, ...) -> ::c_int; pub fn getchar_unlocked() -> ::c_int; pub fn putchar_unlocked(c: ::c_int) -> ::c_int; pub fn stat(path: *const c_char, buf: *mut stat) -> ::c_int; pub fn fdopen(fd: ::c_int, mode: *const c_char) -> *mut ::FILE; pub fn fileno(stream: *mut ::FILE) -> ::c_int; pub fn creat(path: *const c_char, mode: mode_t) -> ::c_int; pub fn rewinddir(dirp: *mut ::DIR); pub fn fchown(fd: ::c_int, owner: ::uid_t, group: ::gid_t) -> ::c_int; pub fn access(path: *const c_char, amode: ::c_int) -> ::c_int; pub fn alarm(seconds: ::c_uint) -> ::c_uint; pub fn fchdir(dirfd: ::c_int) -> ::c_int; pub fn chown(path: *const c_char, uid: uid_t, gid: gid_t) -> ::c_int; pub fn fpathconf(filedes: ::c_int, name: ::c_int) -> c_long; pub fn getegid() -> gid_t; pub fn geteuid() -> uid_t; pub fn getgroups(ngroups_max: ::c_int, groups: *mut gid_t) -> ::c_int; pub fn getlogin() -> *mut c_char; pub fn getopt( argc: ::c_int, argv: *const *mut c_char, optstr: *const c_char, ) -> ::c_int; pub fn pathconf(path: *const c_char, name: ::c_int) -> c_long; pub fn pause() -> ::c_int; pub fn seteuid(uid: uid_t) -> ::c_int; pub fn setegid(gid: gid_t) -> ::c_int; pub fn sleep(secs: ::c_uint) -> ::c_uint; pub fn ttyname(fd: ::c_int) -> *mut c_char; pub fn wait(status: *mut ::c_int) -> pid_t; pub fn umask(mask: mode_t) -> mode_t; pub fn mlock(addr: *const ::c_void, len: ::size_t) -> ::c_int; pub fn mlockall(flags: ::c_int) -> ::c_int; pub fn munlockall() -> ::c_int; pub fn mmap( addr: *mut ::c_void, len: ::size_t, prot: ::c_int, flags: ::c_int, fd: ::c_int, offset: off_t, ) -> *mut ::c_void; pub fn munmap(addr: *mut ::c_void, len: ::size_t) -> ::c_int; pub fn truncate(path: *const c_char, length: off_t) -> ::c_int; pub fn gettimeofday(tp: *mut ::timeval, tz: *mut ::c_void) -> ::c_int; pub fn pthread_exit(value: *mut ::c_void) -> !; pub fn pthread_attr_setdetachstate( attr: *mut ::pthread_attr_t, state: ::c_int, ) -> ::c_int; pub fn strerror_r( errnum: ::c_int, buf: *mut c_char, buflen: ::size_t, ) -> ::c_int; pub fn sigaction( signum: ::c_int, act: *const sigaction, oldact: *mut sigaction, ) -> ::c_int; pub fn utimes( filename: *const ::c_char, times: *const ::timeval, ) -> ::c_int; #[link_name = "_rtld_dlopen"] pub fn dlopen(filename: *const ::c_char, flag: ::c_int) -> *mut ::c_void; #[link_name = "_rtld_dlerror"] pub fn dlerror() -> *mut ::c_char; #[link_name = "_rtld_dlsym"] pub fn dlsym( handle: *mut ::c_void, symbol: *const ::c_char, ) -> *mut ::c_void; #[link_name = "_rtld_dlclose"] pub fn dlclose(handle: *mut ::c_void) -> ::c_int; #[link_name = "_rtld_dladdr"] pub fn dladdr(addr: *mut ::c_void, info: *mut Dl_info) -> ::c_int; // time.h pub fn gmtime_r(time_p: *const time_t, result: *mut tm) -> *mut tm; pub fn localtime_r(time_p: *const time_t, result: *mut tm) -> *mut tm; pub fn mktime(tm: *mut tm) -> time_t; pub fn time(time: *mut time_t) -> time_t; pub fn gmtime(time_p: *const time_t) -> *mut tm; pub fn localtime(time_p: *const time_t) -> *mut tm; pub fn timegm(tm: *mut tm) -> time_t; pub fn difftime(time1: time_t, time0: time_t) -> ::c_double; pub fn gethostname(name: *mut ::c_char, len: ::size_t) -> ::c_int; pub fn usleep(secs: ::useconds_t) -> ::c_int; pub fn putenv(string: *mut c_char) -> ::c_int; pub fn setlocale( category: ::c_int, locale: *const ::c_char, ) -> *mut ::c_char; pub fn sigprocmask( how: ::c_int, set: *const sigset_t, oldset: *mut sigset_t, ) -> ::c_int; pub fn sigpending(set: *mut sigset_t) -> ::c_int; pub fn mkfifo(path: *const c_char, mode: mode_t) -> ::c_int; pub fn fseeko( stream: *mut ::FILE, offset: ::off_t, whence: ::c_int, ) -> ::c_int; pub fn ftello(stream: *mut ::FILE) -> ::off_t; pub fn mkstemp(template: *mut ::c_char) -> ::c_int; pub fn tmpnam(ptr: *mut ::c_char) -> *mut ::c_char; pub fn openlog(ident: *const ::c_char, logopt: ::c_int, facility: ::c_int); pub fn closelog(); pub fn setlogmask(maskpri: ::c_int) -> ::c_int; pub fn syslog(priority: ::c_int, message: *const ::c_char, ...); pub fn getline( lineptr: *mut *mut c_char, n: *mut size_t, stream: *mut FILE, ) -> ssize_t; } extern "C" { // stdlib.h pub fn memalign(block_size: ::size_t, size_arg: ::size_t) -> *mut ::c_void; // ioLib.h pub fn getcwd(buf: *mut ::c_char, size: ::size_t) -> *mut ::c_char; // ioLib.h pub fn chdir(attr: *const ::c_char) -> ::c_int; // pthread.h pub fn pthread_mutexattr_init(attr: *mut pthread_mutexattr_t) -> ::c_int; // pthread.h pub fn pthread_mutexattr_destroy( attr: *mut pthread_mutexattr_t, ) -> ::c_int; // pthread.h pub fn pthread_mutexattr_settype( pAttr: *mut ::pthread_mutexattr_t, pType: ::c_int, ) -> ::c_int; // pthread.h pub fn pthread_mutex_init( mutex: *mut pthread_mutex_t, attr: *const pthread_mutexattr_t, ) -> ::c_int; // pthread.h pub fn pthread_mutex_destroy(mutex: *mut pthread_mutex_t) -> ::c_int; // pthread.h pub fn pthread_mutex_lock(mutex: *mut pthread_mutex_t) -> ::c_int; // pthread.h pub fn pthread_mutex_trylock(mutex: *mut pthread_mutex_t) -> ::c_int; // pthread.h pub fn pthread_mutex_timedlock( attr: *mut pthread_mutex_t, spec: *const timespec, ) -> ::c_int; // pthread.h pub fn pthread_mutex_unlock(mutex: *mut pthread_mutex_t) -> ::c_int; // pthread.h pub fn pthread_attr_setname( pAttr: *mut ::pthread_attr_t, name: *mut ::c_char, ) -> ::c_int; // pthread.h pub fn pthread_attr_setstacksize( attr: *mut ::pthread_attr_t, stacksize: ::size_t, ) -> ::c_int; // pthread.h pub fn pthread_attr_getstacksize( attr: *const ::pthread_attr_t, size: *mut ::size_t, ) -> ::c_int; // pthread.h pub fn pthread_attr_init(attr: *mut ::pthread_attr_t) -> ::c_int; // pthread.h pub fn pthread_create( pThread: *mut ::pthread_t, pAttr: *const ::pthread_attr_t, start_routine: extern "C" fn(*mut ::c_void) -> *mut ::c_void, value: *mut ::c_void, ) -> ::c_int; // pthread.h pub fn pthread_attr_destroy(thread: *mut ::pthread_attr_t) -> ::c_int; // pthread.h pub fn pthread_detach(thread: ::pthread_t) -> ::c_int; // int pthread_atfork (void (*)(void), void (*)(void), void (*)(void)); pub fn pthread_atfork( prepare: ::Option, parent: ::Option, child: ::Option, ) -> ::c_int; // stat.h pub fn fstat(fildes: ::c_int, buf: *mut stat) -> ::c_int; // stat.h pub fn lstat(path: *const ::c_char, buf: *mut stat) -> ::c_int; // unistd.h pub fn ftruncate(fd: ::c_int, length: off_t) -> ::c_int; // dirent.h pub fn readdir_r( pDir: *mut ::DIR, entry: *mut ::dirent, result: *mut *mut ::dirent, ) -> ::c_int; // dirent.h pub fn readdir(pDir: *mut ::DIR) -> *mut ::dirent; // fcntl.h or // ioLib.h pub fn open(path: *const ::c_char, oflag: ::c_int, ...) -> ::c_int; // poll.h pub fn poll(fds: *mut pollfd, nfds: nfds_t, timeout: ::c_int) -> ::c_int; // pthread.h pub fn pthread_condattr_init(attr: *mut ::pthread_condattr_t) -> ::c_int; // pthread.h pub fn pthread_condattr_destroy( attr: *mut ::pthread_condattr_t, ) -> ::c_int; // pthread.h pub fn pthread_condattr_getclock( pAttr: *const ::pthread_condattr_t, pClockId: *mut ::clockid_t, ) -> ::c_int; // pthread.h pub fn pthread_condattr_setclock( pAttr: *mut ::pthread_condattr_t, clockId: ::clockid_t, ) -> ::c_int; // pthread.h pub fn pthread_cond_init( cond: *mut ::pthread_cond_t, attr: *const ::pthread_condattr_t, ) -> ::c_int; // pthread.h pub fn pthread_cond_destroy(cond: *mut pthread_cond_t) -> ::c_int; // pthread.h pub fn pthread_cond_signal(cond: *mut ::pthread_cond_t) -> ::c_int; // pthread.h pub fn pthread_cond_broadcast(cond: *mut ::pthread_cond_t) -> ::c_int; // pthread.h pub fn pthread_cond_wait( cond: *mut ::pthread_cond_t, mutex: *mut ::pthread_mutex_t, ) -> ::c_int; // pthread.h pub fn pthread_rwlockattr_init( attr: *mut ::pthread_rwlockattr_t, ) -> ::c_int; // pthread.h pub fn pthread_rwlockattr_destroy( attr: *mut ::pthread_rwlockattr_t, ) -> ::c_int; // pthread.h pub fn pthread_rwlockattr_setmaxreaders( attr: *mut ::pthread_rwlockattr_t, attr2: ::c_uint, ) -> ::c_int; // pthread.h pub fn pthread_rwlock_init( attr: *mut ::pthread_rwlock_t, host: *const ::pthread_rwlockattr_t, ) -> ::c_int; // pthread.h pub fn pthread_rwlock_destroy(attr: *mut ::pthread_rwlock_t) -> ::c_int; // pthread.h pub fn pthread_rwlock_rdlock(attr: *mut ::pthread_rwlock_t) -> ::c_int; // pthread.h pub fn pthread_rwlock_tryrdlock(attr: *mut ::pthread_rwlock_t) -> ::c_int; // pthread.h pub fn pthread_rwlock_timedrdlock( attr: *mut ::pthread_rwlock_t, host: *const ::timespec, ) -> ::c_int; // pthread.h pub fn pthread_rwlock_wrlock(attr: *mut ::pthread_rwlock_t) -> ::c_int; // pthread.h pub fn pthread_rwlock_trywrlock(attr: *mut ::pthread_rwlock_t) -> ::c_int; // pthread.h pub fn pthread_rwlock_timedwrlock( attr: *mut ::pthread_rwlock_t, host: *const ::timespec, ) -> ::c_int; // pthread.h pub fn pthread_rwlock_unlock(attr: *mut ::pthread_rwlock_t) -> ::c_int; // pthread.h pub fn pthread_key_create( key: *mut ::pthread_key_t, dtor: ::Option, ) -> ::c_int; // pthread.h pub fn pthread_key_delete(key: ::pthread_key_t) -> ::c_int; // pthread.h pub fn pthread_setspecific( key: ::pthread_key_t, value: *const ::c_void, ) -> ::c_int; // pthread.h pub fn pthread_getspecific(key: ::pthread_key_t) -> *mut ::c_void; // pthread.h pub fn pthread_cond_timedwait( cond: *mut ::pthread_cond_t, mutex: *mut ::pthread_mutex_t, abstime: *const ::timespec, ) -> ::c_int; // pthread.h pub fn pthread_attr_getname( attr: *mut ::pthread_attr_t, name: *mut *mut ::c_char, ) -> ::c_int; // pthread.h pub fn pthread_join( thread: ::pthread_t, status: *mut *mut ::c_void, ) -> ::c_int; // pthread.h pub fn pthread_self() -> ::pthread_t; // clockLib.h pub fn clock_gettime( clock_id: ::clockid_t, tp: *mut ::timespec, ) -> ::c_int; // clockLib.h pub fn clock_settime( clock_id: ::clockid_t, tp: *const ::timespec, ) -> ::c_int; // clockLib.h pub fn clock_getres( clock_id: ::clockid_t, res: *mut ::timespec, ) -> ::c_int; // clockLib.h pub fn clock_nanosleep( clock_id: ::clockid_t, flags: ::c_int, rqtp: *const ::timespec, rmtp: *mut ::timespec, ) -> ::c_int; // timerLib.h pub fn nanosleep( rqtp: *const ::timespec, rmtp: *mut ::timespec, ) -> ::c_int; // socket.h pub fn accept( s: ::c_int, addr: *mut ::sockaddr, addrlen: *mut ::socklen_t, ) -> ::c_int; // socket.h pub fn bind(fd: ::c_int, addr: *const sockaddr, len: socklen_t) -> ::c_int; // socket.h pub fn connect( s: ::c_int, name: *const ::sockaddr, namelen: ::socklen_t, ) -> ::c_int; // socket.h pub fn getpeername( s: ::c_int, name: *mut ::sockaddr, namelen: *mut ::socklen_t, ) -> ::c_int; // socket.h pub fn getsockname( socket: ::c_int, address: *mut sockaddr, address_len: *mut socklen_t, ) -> ::c_int; // socket.h pub fn getsockopt( sockfd: ::c_int, level: ::c_int, optname: ::c_int, optval: *mut ::c_void, optlen: *mut ::socklen_t, ) -> ::c_int; // socket.h pub fn listen(socket: ::c_int, backlog: ::c_int) -> ::c_int; // socket.h pub fn recv( s: ::c_int, buf: *mut ::c_void, bufLen: ::size_t, flags: ::c_int, ) -> ::ssize_t; // socket.h pub fn recvfrom( s: ::c_int, buf: *mut ::c_void, bufLen: ::size_t, flags: ::c_int, from: *mut ::sockaddr, pFromLen: *mut ::socklen_t, ) -> ::ssize_t; pub fn recvmsg( socket: ::c_int, mp: *mut ::msghdr, flags: ::c_int, ) -> ::ssize_t; // socket.h pub fn send( socket: ::c_int, buf: *const ::c_void, len: ::size_t, flags: ::c_int, ) -> ::ssize_t; pub fn sendmsg( socket: ::c_int, mp: *const ::msghdr, flags: ::c_int, ) -> ::ssize_t; // socket.h pub fn sendto( socket: ::c_int, buf: *const ::c_void, len: ::size_t, flags: ::c_int, addr: *const sockaddr, addrlen: socklen_t, ) -> ::ssize_t; // socket.h pub fn setsockopt( socket: ::c_int, level: ::c_int, name: ::c_int, value: *const ::c_void, option_len: socklen_t, ) -> ::c_int; // socket.h pub fn shutdown(s: ::c_int, how: ::c_int) -> ::c_int; // socket.h pub fn socket( domain: ::c_int, _type: ::c_int, protocol: ::c_int, ) -> ::c_int; // icotl.h pub fn ioctl(fd: ::c_int, request: ::c_int, ...) -> ::c_int; // fcntl.h pub fn fcntl(fd: ::c_int, cmd: ::c_int, ...) -> ::c_int; // ntp_rfc2553.h for kernel // netdb.h for user pub fn gai_strerror(errcode: ::c_int) -> *mut ::c_char; // ioLib.h or // unistd.h pub fn close(fd: ::c_int) -> ::c_int; // ioLib.h or // unistd.h pub fn read(fd: ::c_int, buf: *mut ::c_void, count: ::size_t) -> ::ssize_t; // ioLib.h or // unistd.h pub fn write( fd: ::c_int, buf: *const ::c_void, count: ::size_t, ) -> ::ssize_t; // ioLib.h or // unistd.h pub fn isatty(fd: ::c_int) -> ::c_int; // ioLib.h or // unistd.h pub fn dup(src: ::c_int) -> ::c_int; // ioLib.h or // unistd.h pub fn dup2(src: ::c_int, dst: ::c_int) -> ::c_int; // ioLib.h or // unistd.h pub fn pipe(fds: *mut ::c_int) -> ::c_int; // ioLib.h or // unistd.h pub fn unlink(pathname: *const ::c_char) -> ::c_int; // unistd.h and // ioLib.h pub fn lseek(fd: ::c_int, offset: off_t, whence: ::c_int) -> off_t; // netdb.h pub fn getaddrinfo( node: *const ::c_char, service: *const ::c_char, hints: *const addrinfo, res: *mut *mut addrinfo, ) -> ::c_int; // netdb.h pub fn freeaddrinfo(res: *mut addrinfo); // signal.h pub fn signal(signum: ::c_int, handler: sighandler_t) -> sighandler_t; // unistd.h pub fn getpid() -> pid_t; // unistd.h pub fn getppid() -> pid_t; // wait.h pub fn waitpid(pid: pid_t, status: *mut ::c_int, optons: ::c_int) -> pid_t; // unistd.h pub fn sysconf(attr: ::c_int) -> ::c_long; // stdlib.h pub fn setenv( // setenv.c envVarName: *const ::c_char, envVarValue: *const ::c_char, overwrite: ::c_int, ) -> ::c_int; // stdlib.h pub fn unsetenv( // setenv.c envVarName: *const ::c_char, ) -> ::c_int; // stdlib.h pub fn realpath( fileName: *const ::c_char, resolvedName: *mut ::c_char, ) -> *mut ::c_char; // unistd.h pub fn link(src: *const ::c_char, dst: *const ::c_char) -> ::c_int; // unistd.h pub fn readlink( path: *const ::c_char, buf: *mut ::c_char, bufsize: ::size_t, ) -> ::ssize_t; // unistd.h pub fn symlink(path1: *const ::c_char, path2: *const ::c_char) -> ::c_int; // dirent.h pub fn opendir(name: *const ::c_char) -> *mut ::DIR; // unistd.h pub fn rmdir(path: *const ::c_char) -> ::c_int; // stat.h pub fn mkdir(dirName: *const ::c_char, mode: ::mode_t) -> ::c_int; // stat.h pub fn chmod(path: *const ::c_char, mode: ::mode_t) -> ::c_int; // stat.h pub fn fchmod(attr1: ::c_int, attr2: ::mode_t) -> ::c_int; // unistd.h pub fn fsync(fd: ::c_int) -> ::c_int; // dirent.h pub fn closedir(ptr: *mut ::DIR) -> ::c_int; // sched.h pub fn sched_yield() -> ::c_int; // errnoLib.h pub fn errnoSet(err: ::c_int) -> ::c_int; // errnoLib.h pub fn errnoGet() -> ::c_int; // unistd.h pub fn _exit(status: ::c_int) -> !; // unistd.h pub fn setgid(gid: ::gid_t) -> ::c_int; // unistd.h pub fn getgid() -> ::gid_t; // unistd.h pub fn setuid(uid: ::uid_t) -> ::c_int; // unistd.h pub fn getuid() -> ::uid_t; // signal.h pub fn sigemptyset(__set: *mut sigset_t) -> ::c_int; // pthread.h for kernel // signal.h for user pub fn pthread_sigmask( __how: ::c_int, __set: *const sigset_t, __oset: *mut sigset_t, ) -> ::c_int; // signal.h for user pub fn kill(__pid: pid_t, __signo: ::c_int) -> ::c_int; // signal.h for user pub fn sigqueue( __pid: pid_t, __signo: ::c_int, __value: ::sigval, ) -> ::c_int; // signal.h for user pub fn _sigqueue( rtpId: ::RTP_ID, signo: ::c_int, pValue: *const ::sigval, sigCode: ::c_int, ) -> ::c_int; // signal.h pub fn taskKill(taskId: ::TASK_ID, signo: ::c_int) -> ::c_int; // signal.h pub fn raise(__signo: ::c_int) -> ::c_int; // taskLibCommon.h pub fn taskIdSelf() -> ::TASK_ID; pub fn taskDelay(ticks: ::_Vx_ticks_t) -> ::c_int; // rtpLibCommon.h pub fn rtpInfoGet(rtpId: ::RTP_ID, rtpStruct: *mut ::RTP_DESC) -> ::c_int; pub fn rtpSpawn( pubrtpFileName: *const ::c_char, argv: *mut *const ::c_char, envp: *mut *const ::c_char, priority: ::c_int, uStackSize: ::size_t, options: ::c_int, taskOptions: ::c_int, ) -> RTP_ID; // ioLib.h pub fn _realpath( fileName: *const ::c_char, resolvedName: *mut ::c_char, ) -> *mut ::c_char; // pathLib.h pub fn _pathIsAbsolute( filepath: *const ::c_char, pNameTail: *mut *const ::c_char, ) -> BOOL; pub fn writev( fd: ::c_int, iov: *const ::iovec, iovcnt: ::c_int, ) -> ::ssize_t; pub fn readv( fd: ::c_int, iov: *const ::iovec, iovcnt: ::c_int, ) -> ::ssize_t; // randomNumGen.h pub fn randBytes(buf: *mut c_uchar, length: c_int) -> c_int; pub fn randABytes(buf: *mut c_uchar, length: c_int) -> c_int; pub fn randUBytes(buf: *mut c_uchar, length: c_int) -> c_int; pub fn randSecure() -> c_int; } //Dummy functions, these don't really exist in VxWorks. // wait.h macros pub fn WIFEXITED(status: ::c_int) -> bool { (status & 0xFF00) == 0 } pub fn WIFSIGNALED(status: ::c_int) -> bool { (status & 0xFF00) != 0 } pub fn WIFSTOPPED(status: ::c_int) -> bool { (status & 0xFF0000) != 0 } pub fn WEXITSTATUS(status: ::c_int) -> ::c_int { status & 0xFF } pub fn WTERMSIG(status: ::c_int) -> ::c_int { (status >> 8) & 0xFF } pub fn WSTOPSIG(status: ::c_int) -> ::c_int { (status >> 16) & 0xFF } pub fn pread( _fd: ::c_int, _buf: *mut ::c_void, _count: ::size_t, _offset: off64_t, ) -> ::ssize_t { -1 } pub fn pwrite( _fd: ::c_int, _buf: *const ::c_void, _count: ::size_t, _offset: off64_t, ) -> ::ssize_t { -1 } pub fn posix_memalign( memptr: *mut *mut ::c_void, align: ::size_t, size: ::size_t, ) -> ::c_int { // check to see if align is a power of 2 and if align is a multiple // of sizeof(void *) if (align & align - 1 != 0) || (align as usize % size_of::<::size_t>() != 0) { return ::EINVAL; } unsafe { // posix_memalign should not set errno let e = ::errnoGet(); let temp = memalign(align, size); ::errnoSet(e as ::c_int); if temp.is_null() { ::ENOMEM } else { *memptr = temp; 0 } } } cfg_if! { if #[cfg(libc_core_cvoid)] { pub use ::ffi::c_void; } else { // Use repr(u8) as LLVM expects `void*` to be the same as `i8*` to help // enable more optimization opportunities around it recognizing things // like malloc/free. #[repr(u8)] #[allow(missing_copy_implementations)] #[allow(missing_debug_implementations)] pub enum c_void { // Two dummy variants so the #[repr] attribute can be used. #[doc(hidden)] __variant1, #[doc(hidden)] __variant2, } } } cfg_if! { if #[cfg(target_arch = "aarch64")] { mod aarch64; pub use self::aarch64::*; } else if #[cfg(any(target_arch = "arm"))] { mod arm; pub use self::arm::*; } else if #[cfg(any(target_arch = "x86"))] { mod x86; pub use self::x86::*; } else if #[cfg(any(target_arch = "x86_64"))] { mod x86_64; pub use self::x86_64::*; } else if #[cfg(any(target_arch = "powerpc"))] { mod powerpc; pub use self::powerpc::*; } else if #[cfg(any(target_arch = "powerpc64"))] { mod powerpc64; pub use self::powerpc64::*; } else { // Unknown target_arch } }