// Generated using cgo, then manually converted into appropriate naming and code // for the Go runtime. // go tool cgo -godefs defs_linux.go defs1_linux.go defs2_linux.go package runtime import "unsafe" const ( _EINTR = 0x4 _EAGAIN = 0xb _ENOMEM = 0xc _ENOSYS = 0x26 _PROT_NONE = 0x0 _PROT_READ = 0x1 _PROT_WRITE = 0x2 _PROT_EXEC = 0x4 _MAP_ANON = 0x20 _MAP_PRIVATE = 0x2 _MAP_FIXED = 0x10 _MADV_DONTNEED = 0x4 _MADV_FREE = 0x8 _MADV_HUGEPAGE = 0xe _MADV_NOHUGEPAGE = 0xf _SA_RESTART = 0x10000000 _SA_ONSTACK = 0x8000000 _SA_RESTORER = 0x0 _SA_SIGINFO = 0x4 _SI_KERNEL = 0x80 _SI_TIMER = -0x2 _SIGHUP = 0x1 _SIGINT = 0x2 _SIGQUIT = 0x3 _SIGILL = 0x4 _SIGTRAP = 0x5 _SIGABRT = 0x6 _SIGBUS = 0x7 _SIGFPE = 0x8 _SIGKILL = 0x9 _SIGUSR1 = 0xa _SIGSEGV = 0xb _SIGUSR2 = 0xc _SIGPIPE = 0xd _SIGALRM = 0xe _SIGSTKFLT = 0x10 _SIGCHLD = 0x11 _SIGCONT = 0x12 _SIGSTOP = 0x13 _SIGTSTP = 0x14 _SIGTTIN = 0x15 _SIGTTOU = 0x16 _SIGURG = 0x17 _SIGXCPU = 0x18 _SIGXFSZ = 0x19 _SIGVTALRM = 0x1a _SIGPROF = 0x1b _SIGWINCH = 0x1c _SIGIO = 0x1d _SIGPWR = 0x1e _SIGSYS = 0x1f _SIGRTMIN = 0x20 _FPE_INTDIV = 0x1 _FPE_INTOVF = 0x2 _FPE_FLTDIV = 0x3 _FPE_FLTOVF = 0x4 _FPE_FLTUND = 0x5 _FPE_FLTRES = 0x6 _FPE_FLTINV = 0x7 _FPE_FLTSUB = 0x8 _BUS_ADRALN = 0x1 _BUS_ADRERR = 0x2 _BUS_OBJERR = 0x3 _SEGV_MAPERR = 0x1 _SEGV_ACCERR = 0x2 _ITIMER_REAL = 0x0 _ITIMER_VIRTUAL = 0x1 _ITIMER_PROF = 0x2 _CLOCK_THREAD_CPUTIME_ID = 0x3 _SIGEV_THREAD_ID = 0x4 _EPOLLIN = 0x1 _EPOLLOUT = 0x4 _EPOLLERR = 0x8 _EPOLLHUP = 0x10 _EPOLLRDHUP = 0x2000 _EPOLLET = 0x80000000 _EPOLL_CLOEXEC = 0x80000 _EPOLL_CTL_ADD = 0x1 _EPOLL_CTL_DEL = 0x2 _EPOLL_CTL_MOD = 0x3 ) type timespec struct { tv_sec int64 tv_nsec int64 } //go:nosplit func (ts *timespec) setNsec(ns int64) { ts.tv_sec = ns / 1e9 ts.tv_nsec = ns % 1e9 } type timeval struct { tv_sec int64 tv_usec int64 } func (tv *timeval) set_usec(x int32) { tv.tv_usec = int64(x) } type sigactiont struct { sa_handler uintptr sa_flags uint64 sa_mask uint64 // Linux on riscv64 does not have the sa_restorer field, but the setsig // function references it (for x86). Not much harm to include it at the end. sa_restorer uintptr } type siginfoFields struct { si_signo int32 si_errno int32 si_code int32 // below here is a union; si_addr is the only field we use si_addr uint64 } type siginfo struct { siginfoFields // Pad struct to the max size in the kernel. _ [_si_max_size - unsafe.Sizeof(siginfoFields{})]byte } type itimerspec struct { it_interval timespec it_value timespec } type itimerval struct { it_interval timeval it_value timeval } type sigeventFields struct { value uintptr signo int32 notify int32 // below here is a union; sigev_notify_thread_id is the only field we use sigev_notify_thread_id int32 } type sigevent struct { sigeventFields // Pad struct to the max size in the kernel. _ [_sigev_max_size - unsafe.Sizeof(sigeventFields{})]byte } type epollevent struct { events uint32 pad_cgo_0 [4]byte data [8]byte // unaligned uintptr } const ( _O_RDONLY = 0x0 _O_NONBLOCK = 0x800 _O_CLOEXEC = 0x80000 ) type user_regs_struct struct { pc uint64 ra uint64 sp uint64 gp uint64 tp uint64 t0 uint64 t1 uint64 t2 uint64 s0 uint64 s1 uint64 a0 uint64 a1 uint64 a2 uint64 a3 uint64 a4 uint64 a5 uint64 a6 uint64 a7 uint64 s2 uint64 s3 uint64 s4 uint64 s5 uint64 s6 uint64 s7 uint64 s8 uint64 s9 uint64 s10 uint64 s11 uint64 t3 uint64 t4 uint64 t5 uint64 t6 uint64 } type user_fpregs_struct struct { f [528]byte } type usigset struct { us_x__val [16]uint64 } type sigcontext struct { sc_regs user_regs_struct sc_fpregs user_fpregs_struct } type stackt struct { ss_sp *byte ss_flags int32 ss_size uintptr } type ucontext struct { uc_flags uint64 uc_link *ucontext uc_stack stackt uc_sigmask usigset uc_x__unused [0]uint8 uc_pad_cgo_0 [8]byte uc_mcontext sigcontext }