go version go1.12.5 darwin/amd64
14章Go启动引导
// The bootstrap sequence is:
//
// call osinit
// call schedinit
// make & queue new G
// call runtime·mstart
//
// The new G calls runtime·main.
TEXT runtime·rt0_go(SB),NOSPLIT,$0
---略---
CALL runtime·args(SB)
CALL runtime·osinit(SB)
CALL runtime·schedinit(SB)
// create a new goroutine to start program
MOVQ $runtime·mainPC(SB), AX // entry (runtime·mainPC+0(SB)/8,$runtime·main(SB))
PUSHQ AX
PUSHQ $0 // arg size
CALL runtime·newproc(SB)
POPQ AX
POPQ AX
// start this M
CALL runtime·mstart(SB)
CALL runtime·abort(SB) // mstart should never return
RET
osinit
func osinit() {
// pthread_create delayed until end of goenvs so that we can look at the environment first.
ncpu = getncpu()
physPageSize = getPageSize()
}
func schedinit() {
// raceinit must be the first call to race detector.
// In particular, it must be done before mallocinit below calls racemapshadow.
_g_ := getg()
if raceenabled {
_g_.racectx, raceprocctx0 = raceinit()
}
// 最大系统线程数(非goroutines数)
sched.maxmcount = 10000
// 栈、内存、调度器初始化
tracebackinit()
moduledataverify()
stackinit()
mallocinit()
mcommoninit(_g_.m)
// 初始化CPU等
cpuinit() // must run before alginit
alginit() // maps must not be used before this call
modulesinit() // provides activeModules
typelinksinit() // uses maps, activeModules
itabsinit() // uses activeModules
msigsave(_g_.m)
initSigmask = _g_.m.sigmask
goargs()
goenvs()
// 初始化调试相关
parsedebugvars()
// GC
gcinit()
sched.lastpoll = uint64(nanotime())
procs := ncpu
if n, ok := atoi32(gogetenv("GOMAXPROCS")); ok && n > 0 {
procs = n
}
if procresize(procs) != nil {
throw("unknown runnable goroutine during bootstrap")
}
// For cgocheck > 1, we turn on the write barrier at all times
// and check all pointer writes. We can't do this until after // procresize because the write barrier needs a P. if debug.cgocheck > 1 {
writeBarrier.cgo = true
writeBarrier.enabled = true
for _, p := range allp {
p.wbBuf.reset()
}
}
if buildVersion == "" {
// Condition should never trigger. This code just serves
// to ensure runtime·buildVersion is kept in the resulting binary.
buildVersion = "unknown"
}
}
runtime.main
// The main goroutine.
func main() {
g := getg()
// Racectx of m0->g0 is used only as the parent of the main goroutine.
// It must not be used for anything else. g.m.g0.racectx = 0
// Max stack size is 1 GB on 64-bit, 250 MB on 32-bit.
// Using decimal instead of binary GB and MB because // they look nicer in the stack overflow failure message. if sys.PtrSize == 8 {
maxstacksize = 1000000000
} else {
maxstacksize = 250000000
}
// Allow newproc to start new Ms.
mainStarted = true
if GOARCH != "wasm" { // no threads on wasm yet, so no sysmon
systemstack(func() {
newm(sysmon, nil)
})
}
// Lock the main goroutine onto this, the main OS thread,
// during initialization. Most programs won't care, but a few // do require certain calls to be made by the main thread. // Those can arrange for main.main to run in the main thread // by calling runtime.LockOSThread during initialization // to preserve the lock. lockOSThread()
if g.m != &m0 {
throw("runtime.main not on m0")
}
runtime_init() // must be before defer
if nanotime() == 0 {
throw("nanotime returning zero")
}
// Defer unlock so that runtime.Goexit during init does the unlock too.
needUnlock := true
defer func() {
if needUnlock {
unlockOSThread()
}
}()
// Record when the world started.
runtimeInitTime = nanotime()
gcenable()
main_init_done = make(chan bool)
if iscgo {
if _cgo_thread_start == nil {
throw("_cgo_thread_start missing")
}
if GOOS != "windows" {
if _cgo_setenv == nil {
throw("_cgo_setenv missing")
}
if _cgo_unsetenv == nil {
throw("_cgo_unsetenv missing")
}
}
if _cgo_notify_runtime_init_done == nil {
throw("_cgo_notify_runtime_init_done missing")
}
// Start the template thread in case we enter Go from
// a C-created thread and need to create a new thread. startTemplateThread()
cgocall(_cgo_notify_runtime_init_done, nil)
}
fn := main_init // make an indirect call, as the linker doesn't know the address of the main package when laying down the runtime
fn()
close(main_init_done)
needUnlock = false
unlockOSThread()
if isarchive || islibrary {
// A program compiled with -buildmode=c-archive or c-shared
// has a main, but it is not executed. return
}
fn = main_main // make an indirect call, as the linker doesn't know the address of the main package when laying down the runtime
fn()
if raceenabled {
racefini()
}
// Make racy client program work: if panicking on
// another goroutine at the same time as main returns, // let the other goroutine finish printing the panic trace. // Once it does, it will exit. See issues 3934 and 20018. if atomic.Load(&runningPanicDefers) != 0 {
// Running deferred functions should not take long.
for c := 0; c < 1000; c++ {
if atomic.Load(&runningPanicDefers) == 0 {
break
}
Gosched()
}
}
if atomic.Load(&panicking) != 0 {
gopark(nil, nil, waitReasonPanicWait, traceEvGoStop, 1)
}
exit(0)
for {
var x *int32
*x = 0
}
}
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