// Copyright 2009 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 ( _AT_PLATFORM = 15 // introduced in at least 2.6.11 _HWCAP_VFP = 1 << 6 // introduced in at least 2.6.11 _HWCAP_VFPv3 = 1 << 13 // introduced in 2.6.30 _HWCAP_IDIVA = 1 << 17 ) var randomNumber uint32 var armArch uint8 = 6 // we default to ARMv6 var hwcap uint32 // set by setup_auxv var hardDiv bool // set if a hardware divider is available func checkgoarm() { // On Android, /proc/self/auxv might be unreadable and hwcap won't // reflect the CPU capabilities. Assume that every Android arm device // has the necessary floating point hardware available. if GOOS == "android" { return } if goarm > 5 && hwcap&_HWCAP_VFP == 0 { print("runtime: this CPU has no floating point hardware, so it cannot run\n") print("this GOARM=", goarm, " binary. Recompile using GOARM=5.\n") exit(1) } if goarm > 6 && hwcap&_HWCAP_VFPv3 == 0 { print("runtime: this CPU has no VFPv3 floating point hardware, so it cannot run\n") print("this GOARM=", goarm, " binary. Recompile using GOARM=5.\n") exit(1) } } func archauxv(tag, val uintptr) { switch tag { case _AT_RANDOM: // sysargs filled in startupRandomData, but that // pointer may not be word aligned, so we must treat // it as a byte array. randomNumber = uint32(startupRandomData[4]) | uint32(startupRandomData[5])<<8 | uint32(startupRandomData[6])<<16 | uint32(startupRandomData[7])<<24 case _AT_PLATFORM: // v5l, v6l, v7l t := *(*uint8)(unsafe.Pointer(val + 1)) if '5' <= t && t <= '7' { armArch = t - '0' } case _AT_HWCAP: // CPU capability bit flags hwcap = uint32(val) hardDiv = (hwcap & _HWCAP_IDIVA) != 0 } } //go:nosplit func cputicks() int64 { // Currently cputicks() is used in blocking profiler and to seed fastrand(). // nanotime() is a poor approximation of CPU ticks that is enough for the profiler. // randomNumber provides better seeding of fastrand. return nanotime() + int64(randomNumber) }