// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package runtime import "unsafe" const _SIGPROF = 0 // dummy value for badsignal func pread(fd int32, buf unsafe.Pointer, nbytes int32, offset int64) int32 func pwrite(fd int32, buf unsafe.Pointer, nbytes int32, offset int64) int32 func seek(fd int32, offset int64, whence int32) int64 func exits(msg *byte) func brk_(addr unsafe.Pointer) uintptr func sleep(ms int32) int32 func rfork(flags int32) int32 func plan9_semacquire(addr *uint32, block int32) int32 func plan9_tsemacquire(addr *uint32, ms int32) int32 func plan9_semrelease(addr *uint32, count int32) int32 func notify(fn unsafe.Pointer) int32 func noted(mode int32) int32 func nsec(*int64) int64 func sigtramp(ureg, msg unsafe.Pointer) func setfpmasks() func tstart_plan9(newm *m) func errstr() string type _Plink uintptr func os_sigpipe() { gothrow("too many writes on closed pipe") } func sigpanic() { g := getg() if !canpanic(g) { gothrow("unexpected signal during runtime execution") } note := gostringnocopy((*byte)(unsafe.Pointer(g.m.notesig))) switch g.sig { case _SIGRFAULT, _SIGWFAULT: addr := note[index(note, "addr=")+5:] g.sigcode1 = uintptr(atolwhex(addr)) if g.sigcode1 < 0x1000 || g.paniconfault { panicmem() } print("unexpected fault address ", hex(g.sigcode1), "\n") gothrow("fault") case _SIGTRAP: if g.paniconfault { panicmem() } gothrow(note) case _SIGINTDIV: panicdivide() case _SIGFLOAT: panicfloat() default: panic(errorString(note)) } } func atolwhex(p string) int64 { for hasprefix(p, " ") || hasprefix(p, "\t") { p = p[1:] } neg := false if hasprefix(p, "-") || hasprefix(p, "+") { neg = p[0] == '-' p = p[1:] for hasprefix(p, " ") || hasprefix(p, "\t") { p = p[1:] } } var n int64 switch { case hasprefix(p, "0x"), hasprefix(p, "0X"): p = p[2:] for ; len(p) > 0; p = p[1:] { if '0' <= p[0] && p[0] <= '9' { n = n*16 + int64(p[0]-'0') } else if 'a' <= p[0] && p[0] <= 'f' { n = n*16 + int64(p[0]-'a'+10) } else if 'A' <= p[0] && p[0] <= 'F' { n = n*16 + int64(p[0]-'A'+10) } else { break } } case hasprefix(p, "0"): for ; len(p) > 0 && '0' <= p[0] && p[0] <= '7'; p = p[1:] { n = n*8 + int64(p[0]-'0') } default: for ; len(p) > 0 && '0' <= p[0] && p[0] <= '9'; p = p[1:] { n = n*10 + int64(p[0]-'0') } } if neg { n = -n } return n }