diff options
Diffstat (limited to 'src/runtime/stack1.go')
| -rw-r--r-- | src/runtime/stack1.go | 801 |
1 files changed, 801 insertions, 0 deletions
diff --git a/src/runtime/stack1.go b/src/runtime/stack1.go new file mode 100644 index 000000000..1fd61ce1a --- /dev/null +++ b/src/runtime/stack1.go @@ -0,0 +1,801 @@ +// Copyright 2013 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 ( + // StackDebug == 0: no logging + // == 1: logging of per-stack operations + // == 2: logging of per-frame operations + // == 3: logging of per-word updates + // == 4: logging of per-word reads + stackDebug = 0 + stackFromSystem = 0 // allocate stacks from system memory instead of the heap + stackFaultOnFree = 0 // old stacks are mapped noaccess to detect use after free + stackPoisonCopy = 0 // fill stack that should not be accessed with garbage, to detect bad dereferences during copy + + stackCache = 1 +) + +const ( + uintptrMask = 1<<(8*ptrSize) - 1 + poisonGC = uintptrMask & 0xf969696969696969 + poisonStack = uintptrMask & 0x6868686868686868 + + // Goroutine preemption request. + // Stored into g->stackguard0 to cause split stack check failure. + // Must be greater than any real sp. + // 0xfffffade in hex. + stackPreempt = uintptrMask & -1314 + + // Thread is forking. + // Stored into g->stackguard0 to cause split stack check failure. + // Must be greater than any real sp. + stackFork = uintptrMask & -1234 +) + +// Global pool of spans that have free stacks. +// Stacks are assigned an order according to size. +// order = log_2(size/FixedStack) +// There is a free list for each order. +// TODO: one lock per order? +var stackpool [_NumStackOrders]mspan +var stackpoolmu mutex + +var stackfreequeue stack + +func stackinit() { + if _StackCacheSize&_PageMask != 0 { + gothrow("cache size must be a multiple of page size") + } + for i := range stackpool { + mSpanList_Init(&stackpool[i]) + } +} + +// Allocates a stack from the free pool. Must be called with +// stackpoolmu held. +func stackpoolalloc(order uint8) *mlink { + list := &stackpool[order] + s := list.next + if s == list { + // no free stacks. Allocate another span worth. + s = mHeap_AllocStack(&mheap_, _StackCacheSize>>_PageShift) + if s == nil { + gothrow("out of memory") + } + if s.ref != 0 { + gothrow("bad ref") + } + if s.freelist != nil { + gothrow("bad freelist") + } + for i := uintptr(0); i < _StackCacheSize; i += _FixedStack << order { + x := (*mlink)(unsafe.Pointer(uintptr(s.start)<<_PageShift + i)) + x.next = s.freelist + s.freelist = x + } + mSpanList_Insert(list, s) + } + x := s.freelist + if x == nil { + gothrow("span has no free stacks") + } + s.freelist = x.next + s.ref++ + if s.freelist == nil { + // all stacks in s are allocated. + mSpanList_Remove(s) + } + return x +} + +// Adds stack x to the free pool. Must be called with stackpoolmu held. +func stackpoolfree(x *mlink, order uint8) { + s := mHeap_Lookup(&mheap_, (unsafe.Pointer)(x)) + if s.state != _MSpanStack { + gothrow("freeing stack not in a stack span") + } + if s.freelist == nil { + // s will now have a free stack + mSpanList_Insert(&stackpool[order], s) + } + x.next = s.freelist + s.freelist = x + s.ref-- + if s.ref == 0 { + // span is completely free - return to heap + mSpanList_Remove(s) + s.freelist = nil + mHeap_FreeStack(&mheap_, s) + } +} + +// stackcacherefill/stackcacherelease implement a global pool of stack segments. +// The pool is required to prevent unlimited growth of per-thread caches. +func stackcacherefill(c *mcache, order uint8) { + if stackDebug >= 1 { + print("stackcacherefill order=", order, "\n") + } + + // Grab some stacks from the global cache. + // Grab half of the allowed capacity (to prevent thrashing). + var list *mlink + var size uintptr + lock(&stackpoolmu) + for size < _StackCacheSize/2 { + x := stackpoolalloc(order) + x.next = list + list = x + size += _FixedStack << order + } + unlock(&stackpoolmu) + c.stackcache[order].list = list + c.stackcache[order].size = size +} + +func stackcacherelease(c *mcache, order uint8) { + if stackDebug >= 1 { + print("stackcacherelease order=", order, "\n") + } + x := c.stackcache[order].list + size := c.stackcache[order].size + lock(&stackpoolmu) + for size > _StackCacheSize/2 { + y := x.next + stackpoolfree(x, order) + x = y + size -= _FixedStack << order + } + unlock(&stackpoolmu) + c.stackcache[order].list = x + c.stackcache[order].size = size +} + +func stackcache_clear(c *mcache) { + if stackDebug >= 1 { + print("stackcache clear\n") + } + lock(&stackpoolmu) + for order := uint8(0); order < _NumStackOrders; order++ { + x := c.stackcache[order].list + for x != nil { + y := x.next + stackpoolfree(x, order) + x = y + } + c.stackcache[order].list = nil + c.stackcache[order].size = 0 + } + unlock(&stackpoolmu) +} + +func stackalloc(n uint32) stack { + // Stackalloc must be called on scheduler stack, so that we + // never try to grow the stack during the code that stackalloc runs. + // Doing so would cause a deadlock (issue 1547). + thisg := getg() + if thisg != thisg.m.g0 { + gothrow("stackalloc not on scheduler stack") + } + if n&(n-1) != 0 { + gothrow("stack size not a power of 2") + } + if stackDebug >= 1 { + print("stackalloc ", n, "\n") + } + + if debug.efence != 0 || stackFromSystem != 0 { + v := sysAlloc(round(uintptr(n), _PageSize), &memstats.stacks_sys) + if v == nil { + gothrow("out of memory (stackalloc)") + } + return stack{uintptr(v), uintptr(v) + uintptr(n)} + } + + // Small stacks are allocated with a fixed-size free-list allocator. + // If we need a stack of a bigger size, we fall back on allocating + // a dedicated span. + var v unsafe.Pointer + if stackCache != 0 && n < _FixedStack<<_NumStackOrders && n < _StackCacheSize { + order := uint8(0) + n2 := n + for n2 > _FixedStack { + order++ + n2 >>= 1 + } + var x *mlink + c := thisg.m.mcache + if c == nil || thisg.m.gcing != 0 || thisg.m.helpgc != 0 { + // c == nil can happen in the guts of exitsyscall or + // procresize. Just get a stack from the global pool. + // Also don't touch stackcache during gc + // as it's flushed concurrently. + lock(&stackpoolmu) + x = stackpoolalloc(order) + unlock(&stackpoolmu) + } else { + x = c.stackcache[order].list + if x == nil { + stackcacherefill(c, order) + x = c.stackcache[order].list + } + c.stackcache[order].list = x.next + c.stackcache[order].size -= uintptr(n) + } + v = (unsafe.Pointer)(x) + } else { + s := mHeap_AllocStack(&mheap_, round(uintptr(n), _PageSize)>>_PageShift) + if s == nil { + gothrow("out of memory") + } + v = (unsafe.Pointer)(s.start << _PageShift) + } + + if raceenabled { + racemalloc(v, uintptr(n)) + } + if stackDebug >= 1 { + print(" allocated ", v, "\n") + } + return stack{uintptr(v), uintptr(v) + uintptr(n)} +} + +func stackfree(stk stack) { + gp := getg() + n := stk.hi - stk.lo + v := (unsafe.Pointer)(stk.lo) + if n&(n-1) != 0 { + gothrow("stack not a power of 2") + } + if stackDebug >= 1 { + println("stackfree", v, n) + memclr(v, n) // for testing, clobber stack data + } + if debug.efence != 0 || stackFromSystem != 0 { + if debug.efence != 0 || stackFaultOnFree != 0 { + sysFault(v, n) + } else { + sysFree(v, n, &memstats.stacks_sys) + } + return + } + if stackCache != 0 && n < _FixedStack<<_NumStackOrders && n < _StackCacheSize { + order := uint8(0) + n2 := n + for n2 > _FixedStack { + order++ + n2 >>= 1 + } + x := (*mlink)(v) + c := gp.m.mcache + if c == nil || gp.m.gcing != 0 || gp.m.helpgc != 0 { + lock(&stackpoolmu) + stackpoolfree(x, order) + unlock(&stackpoolmu) + } else { + if c.stackcache[order].size >= _StackCacheSize { + stackcacherelease(c, order) + } + x.next = c.stackcache[order].list + c.stackcache[order].list = x + c.stackcache[order].size += n + } + } else { + s := mHeap_Lookup(&mheap_, v) + if s.state != _MSpanStack { + println(hex(s.start<<_PageShift), v) + gothrow("bad span state") + } + mHeap_FreeStack(&mheap_, s) + } +} + +var maxstacksize uintptr = 1 << 20 // enough until runtime.main sets it for real + +var mapnames = []string{ + _BitsDead: "---", + _BitsScalar: "scalar", + _BitsPointer: "ptr", +} + +// Stack frame layout +// +// (x86) +// +------------------+ +// | args from caller | +// +------------------+ <- frame->argp +// | return address | +// +------------------+ <- frame->varp +// | locals | +// +------------------+ +// | args to callee | +// +------------------+ <- frame->sp +// +// (arm) +// +------------------+ +// | args from caller | +// +------------------+ <- frame->argp +// | caller's retaddr | +// +------------------+ <- frame->varp +// | locals | +// +------------------+ +// | args to callee | +// +------------------+ +// | return address | +// +------------------+ <- frame->sp + +type adjustinfo struct { + old stack + delta uintptr // ptr distance from old to new stack (newbase - oldbase) +} + +// Adjustpointer checks whether *vpp is in the old stack described by adjinfo. +// If so, it rewrites *vpp to point into the new stack. +func adjustpointer(adjinfo *adjustinfo, vpp unsafe.Pointer) { + pp := (*unsafe.Pointer)(vpp) + p := *pp + if stackDebug >= 4 { + print(" ", pp, ":", p, "\n") + } + if adjinfo.old.lo <= uintptr(p) && uintptr(p) < adjinfo.old.hi { + *pp = add(p, adjinfo.delta) + if stackDebug >= 3 { + print(" adjust ptr ", pp, ":", p, " -> ", *pp, "\n") + } + } +} + +type gobitvector struct { + n uintptr + bytedata []uint8 +} + +func gobv(bv bitvector) gobitvector { + return gobitvector{ + uintptr(bv.n), + (*[1 << 30]byte)(unsafe.Pointer(bv.bytedata))[:(bv.n+7)/8], + } +} + +func ptrbits(bv *gobitvector, i uintptr) uint8 { + return (bv.bytedata[i/4] >> ((i & 3) * 2)) & 3 +} + +// bv describes the memory starting at address scanp. +// Adjust any pointers contained therein. +func adjustpointers(scanp unsafe.Pointer, cbv *bitvector, adjinfo *adjustinfo, f *_func) { + bv := gobv(*cbv) + minp := adjinfo.old.lo + maxp := adjinfo.old.hi + delta := adjinfo.delta + num := uintptr(bv.n / _BitsPerPointer) + for i := uintptr(0); i < num; i++ { + if stackDebug >= 4 { + print(" ", add(scanp, i*ptrSize), ":", mapnames[ptrbits(&bv, i)], ":", hex(*(*uintptr)(add(scanp, i*ptrSize))), " # ", i, " ", bv.bytedata[i/4], "\n") + } + switch ptrbits(&bv, i) { + default: + gothrow("unexpected pointer bits") + case _BitsDead: + if debug.gcdead != 0 { + *(*unsafe.Pointer)(add(scanp, i*ptrSize)) = unsafe.Pointer(uintptr(poisonStack)) + } + case _BitsScalar: + // ok + case _BitsPointer: + p := *(*unsafe.Pointer)(add(scanp, i*ptrSize)) + up := uintptr(p) + if f != nil && 0 < up && up < _PageSize && invalidptr != 0 || up == poisonGC || up == poisonStack { + // Looks like a junk value in a pointer slot. + // Live analysis wrong? + getg().m.traceback = 2 + print("runtime: bad pointer in frame ", gofuncname(f), " at ", add(scanp, i*ptrSize), ": ", p, "\n") + gothrow("invalid stack pointer") + } + if minp <= up && up < maxp { + if stackDebug >= 3 { + print("adjust ptr ", p, " ", gofuncname(f), "\n") + } + *(*unsafe.Pointer)(add(scanp, i*ptrSize)) = unsafe.Pointer(up + delta) + } + } + } +} + +// Note: the argument/return area is adjusted by the callee. +func adjustframe(frame *stkframe, arg unsafe.Pointer) bool { + adjinfo := (*adjustinfo)(arg) + targetpc := frame.continpc + if targetpc == 0 { + // Frame is dead. + return true + } + f := frame.fn + if stackDebug >= 2 { + print(" adjusting ", funcname(f), " frame=[", hex(frame.sp), ",", hex(frame.fp), "] pc=", hex(frame.pc), " continpc=", hex(frame.continpc), "\n") + } + if f.entry == systemstack_switchPC { + // A special routine at the bottom of stack of a goroutine that does an systemstack call. + // We will allow it to be copied even though we don't + // have full GC info for it (because it is written in asm). + return true + } + if targetpc != f.entry { + targetpc-- + } + pcdata := pcdatavalue(f, _PCDATA_StackMapIndex, targetpc) + if pcdata == -1 { + pcdata = 0 // in prologue + } + + // Adjust local variables if stack frame has been allocated. + size := frame.varp - frame.sp + var minsize uintptr + if thechar != '6' && thechar != '8' { + minsize = ptrSize + } else { + minsize = 0 + } + if size > minsize { + var bv bitvector + stackmap := (*stackmap)(funcdata(f, _FUNCDATA_LocalsPointerMaps)) + if stackmap == nil || stackmap.n <= 0 { + print("runtime: frame ", funcname(f), " untyped locals ", hex(frame.varp-size), "+", hex(size), "\n") + gothrow("missing stackmap") + } + // Locals bitmap information, scan just the pointers in locals. + if pcdata < 0 || pcdata >= stackmap.n { + // don't know where we are + print("runtime: pcdata is ", pcdata, " and ", stackmap.n, " locals stack map entries for ", funcname(f), " (targetpc=", targetpc, ")\n") + gothrow("bad symbol table") + } + bv = stackmapdata(stackmap, pcdata) + size = (uintptr(bv.n) * ptrSize) / _BitsPerPointer + if stackDebug >= 3 { + print(" locals ", pcdata, "/", stackmap.n, " ", size/ptrSize, " words ", bv.bytedata, "\n") + } + adjustpointers(unsafe.Pointer(frame.varp-size), &bv, adjinfo, f) + } + + // Adjust arguments. + if frame.arglen > 0 { + var bv bitvector + if frame.argmap != nil { + bv = *frame.argmap + } else { + stackmap := (*stackmap)(funcdata(f, _FUNCDATA_ArgsPointerMaps)) + if stackmap == nil || stackmap.n <= 0 { + print("runtime: frame ", funcname(f), " untyped args ", frame.argp, "+", uintptr(frame.arglen), "\n") + gothrow("missing stackmap") + } + if pcdata < 0 || pcdata >= stackmap.n { + // don't know where we are + print("runtime: pcdata is ", pcdata, " and ", stackmap.n, " args stack map entries for ", funcname(f), " (targetpc=", targetpc, ")\n") + gothrow("bad symbol table") + } + bv = stackmapdata(stackmap, pcdata) + } + if stackDebug >= 3 { + print(" args\n") + } + adjustpointers(unsafe.Pointer(frame.argp), &bv, adjinfo, nil) + } + return true +} + +func adjustctxt(gp *g, adjinfo *adjustinfo) { + adjustpointer(adjinfo, (unsafe.Pointer)(&gp.sched.ctxt)) +} + +func adjustdefers(gp *g, adjinfo *adjustinfo) { + // Adjust defer argument blocks the same way we adjust active stack frames. + tracebackdefers(gp, adjustframe, noescape(unsafe.Pointer(adjinfo))) + + // Adjust pointers in the Defer structs. + // Defer structs themselves are never on the stack. + for d := gp._defer; d != nil; d = d.link { + adjustpointer(adjinfo, (unsafe.Pointer)(&d.fn)) + adjustpointer(adjinfo, (unsafe.Pointer)(&d.argp)) + adjustpointer(adjinfo, (unsafe.Pointer)(&d._panic)) + } +} + +func adjustpanics(gp *g, adjinfo *adjustinfo) { + // Panics are on stack and already adjusted. + // Update pointer to head of list in G. + adjustpointer(adjinfo, (unsafe.Pointer)(&gp._panic)) +} + +func adjustsudogs(gp *g, adjinfo *adjustinfo) { + // the data elements pointed to by a SudoG structure + // might be in the stack. + for s := gp.waiting; s != nil; s = s.waitlink { + adjustpointer(adjinfo, (unsafe.Pointer)(&s.elem)) + adjustpointer(adjinfo, (unsafe.Pointer)(&s.selectdone)) + } +} + +func fillstack(stk stack, b byte) { + for p := stk.lo; p < stk.hi; p++ { + *(*byte)(unsafe.Pointer(p)) = b + } +} + +// Copies gp's stack to a new stack of a different size. +func copystack(gp *g, newsize uintptr) { + if gp.syscallsp != 0 { + gothrow("stack growth not allowed in system call") + } + old := gp.stack + if old.lo == 0 { + gothrow("nil stackbase") + } + used := old.hi - gp.sched.sp + + // allocate new stack + new := stackalloc(uint32(newsize)) + if stackPoisonCopy != 0 { + fillstack(new, 0xfd) + } + if stackDebug >= 1 { + print("copystack gp=", gp, " [", hex(old.lo), " ", hex(old.hi-used), " ", hex(old.hi), "]/", old.hi-old.lo, " -> [", hex(new.lo), " ", hex(new.hi-used), " ", hex(new.hi), "]/", newsize, "\n") + } + + // adjust pointers in the to-be-copied frames + var adjinfo adjustinfo + adjinfo.old = old + adjinfo.delta = new.hi - old.hi + gentraceback(^uintptr(0), ^uintptr(0), 0, gp, 0, nil, 0x7fffffff, adjustframe, noescape(unsafe.Pointer(&adjinfo)), 0) + + // adjust other miscellaneous things that have pointers into stacks. + adjustctxt(gp, &adjinfo) + adjustdefers(gp, &adjinfo) + adjustpanics(gp, &adjinfo) + adjustsudogs(gp, &adjinfo) + + // copy the stack to the new location + if stackPoisonCopy != 0 { + fillstack(new, 0xfb) + } + memmove(unsafe.Pointer(new.hi-used), unsafe.Pointer(old.hi-used), used) + + oldstatus := casgcopystack(gp) // cas from Gwaiting or Grunnable to Gcopystack, return old status + + // Swap out old stack for new one + gp.stack = new + gp.stackguard0 = new.lo + _StackGuard // NOTE: might clobber a preempt request + gp.sched.sp = new.hi - used + + casgstatus(gp, _Gcopystack, oldstatus) // oldstatus is Gwaiting or Grunnable + + // free old stack + if stackPoisonCopy != 0 { + fillstack(old, 0xfc) + } + if newsize > old.hi-old.lo { + // growing, free stack immediately + stackfree(old) + } else { + // shrinking, queue up free operation. We can't actually free the stack + // just yet because we might run into the following situation: + // 1) GC starts, scans a SudoG but does not yet mark the SudoG.elem pointer + // 2) The stack that pointer points to is shrunk + // 3) The old stack is freed + // 4) The containing span is marked free + // 5) GC attempts to mark the SudoG.elem pointer. The marking fails because + // the pointer looks like a pointer into a free span. + // By not freeing, we prevent step #4 until GC is done. + lock(&stackpoolmu) + *(*stack)(unsafe.Pointer(old.lo)) = stackfreequeue + stackfreequeue = old + unlock(&stackpoolmu) + } +} + +// round x up to a power of 2. +func round2(x int32) int32 { + s := uint(0) + for 1<<s < x { + s++ + } + return 1 << s +} + +// Called from runtime·morestack when more stack is needed. +// Allocate larger stack and relocate to new stack. +// Stack growth is multiplicative, for constant amortized cost. +// +// g->atomicstatus will be Grunning or Gscanrunning upon entry. +// If the GC is trying to stop this g then it will set preemptscan to true. +func newstack() { + thisg := getg() + // TODO: double check all gp. shouldn't be getg(). + if thisg.m.morebuf.g.stackguard0 == stackFork { + gothrow("stack growth after fork") + } + if thisg.m.morebuf.g != thisg.m.curg { + print("runtime: newstack called from g=", thisg.m.morebuf.g, "\n"+"\tm=", thisg.m, " m->curg=", thisg.m.curg, " m->g0=", thisg.m.g0, " m->gsignal=", thisg.m.gsignal, "\n") + morebuf := thisg.m.morebuf + traceback(morebuf.pc, morebuf.sp, morebuf.lr, morebuf.g) + gothrow("runtime: wrong goroutine in newstack") + } + if thisg.m.curg.throwsplit { + gp := thisg.m.curg + // Update syscallsp, syscallpc in case traceback uses them. + morebuf := thisg.m.morebuf + gp.syscallsp = morebuf.sp + gp.syscallpc = morebuf.pc + print("runtime: newstack sp=", hex(gp.sched.sp), " stack=[", hex(gp.stack.lo), ", ", hex(gp.stack.hi), "]\n", + "\tmorebuf={pc:", hex(morebuf.pc), " sp:", hex(morebuf.sp), " lr:", hex(morebuf.lr), "}\n", + "\tsched={pc:", hex(gp.sched.pc), " sp:", hex(gp.sched.sp), " lr:", hex(gp.sched.lr), " ctxt:", gp.sched.ctxt, "}\n") + gothrow("runtime: stack split at bad time") + } + + // The goroutine must be executing in order to call newstack, + // so it must be Grunning or Gscanrunning. + + gp := thisg.m.curg + morebuf := thisg.m.morebuf + thisg.m.morebuf.pc = 0 + thisg.m.morebuf.lr = 0 + thisg.m.morebuf.sp = 0 + thisg.m.morebuf.g = nil + + casgstatus(gp, _Grunning, _Gwaiting) + gp.waitreason = "stack growth" + + rewindmorestack(&gp.sched) + + if gp.stack.lo == 0 { + gothrow("missing stack in newstack") + } + sp := gp.sched.sp + if thechar == '6' || thechar == '8' { + // The call to morestack cost a word. + sp -= ptrSize + } + if stackDebug >= 1 || sp < gp.stack.lo { + print("runtime: newstack sp=", hex(sp), " stack=[", hex(gp.stack.lo), ", ", hex(gp.stack.hi), "]\n", + "\tmorebuf={pc:", hex(morebuf.pc), " sp:", hex(morebuf.sp), " lr:", hex(morebuf.lr), "}\n", + "\tsched={pc:", hex(gp.sched.pc), " sp:", hex(gp.sched.sp), " lr:", hex(gp.sched.lr), " ctxt:", gp.sched.ctxt, "}\n") + } + if sp < gp.stack.lo { + print("runtime: gp=", gp, ", gp->status=", hex(readgstatus(gp)), "\n ") + print("runtime: split stack overflow: ", hex(sp), " < ", hex(gp.stack.lo), "\n") + gothrow("runtime: split stack overflow") + } + + if gp.stackguard0 == stackPreempt { + if gp == thisg.m.g0 { + gothrow("runtime: preempt g0") + } + if thisg.m.p == nil && thisg.m.locks == 0 { + gothrow("runtime: g is running but p is not") + } + if gp.preemptscan { + gcphasework(gp) + casgstatus(gp, _Gwaiting, _Grunning) + gp.stackguard0 = gp.stack.lo + _StackGuard + gp.preempt = false + gp.preemptscan = false // Tells the GC premption was successful. + gogo(&gp.sched) // never return + } + + // Be conservative about where we preempt. + // We are interested in preempting user Go code, not runtime code. + if thisg.m.locks != 0 || thisg.m.mallocing != 0 || thisg.m.gcing != 0 || thisg.m.p.status != _Prunning { + // Let the goroutine keep running for now. + // gp->preempt is set, so it will be preempted next time. + gp.stackguard0 = gp.stack.lo + _StackGuard + casgstatus(gp, _Gwaiting, _Grunning) + gogo(&gp.sched) // never return + } + + // Act like goroutine called runtime.Gosched. + casgstatus(gp, _Gwaiting, _Grunning) + gosched_m(gp) // never return + } + + // Allocate a bigger segment and move the stack. + oldsize := int(gp.stack.hi - gp.stack.lo) + newsize := oldsize * 2 + if uintptr(newsize) > maxstacksize { + print("runtime: goroutine stack exceeds ", maxstacksize, "-byte limit\n") + gothrow("stack overflow") + } + + // Note that the concurrent GC might be scanning the stack as we try to replace it. + // copystack takes care of the appropriate coordination with the stack scanner. + copystack(gp, uintptr(newsize)) + if stackDebug >= 1 { + print("stack grow done\n") + } + casgstatus(gp, _Gwaiting, _Grunning) + gogo(&gp.sched) +} + +//go:nosplit +func nilfunc() { + *(*uint8)(nil) = 0 +} + +// adjust Gobuf as if it executed a call to fn +// and then did an immediate gosave. +func gostartcallfn(gobuf *gobuf, fv *funcval) { + var fn unsafe.Pointer + if fv != nil { + fn = (unsafe.Pointer)(fv.fn) + } else { + fn = unsafe.Pointer(funcPC(nilfunc)) + } + gostartcall(gobuf, fn, (unsafe.Pointer)(fv)) +} + +// Maybe shrink the stack being used by gp. +// Called at garbage collection time. +func shrinkstack(gp *g) { + if readgstatus(gp) == _Gdead { + if gp.stack.lo != 0 { + // Free whole stack - it will get reallocated + // if G is used again. + stackfree(gp.stack) + gp.stack.lo = 0 + gp.stack.hi = 0 + } + return + } + if gp.stack.lo == 0 { + gothrow("missing stack in shrinkstack") + } + + oldsize := gp.stack.hi - gp.stack.lo + newsize := oldsize / 2 + if newsize < _FixedStack { + return // don't shrink below the minimum-sized stack + } + used := gp.stack.hi - gp.sched.sp + if used >= oldsize/4 { + return // still using at least 1/4 of the segment. + } + + // We can't copy the stack if we're in a syscall. + // The syscall might have pointers into the stack. + if gp.syscallsp != 0 { + return + } + + /* TODO + if goos_windows && gp.m != nil && gp.m.libcallsp != 0 { + return + } + */ + + if stackDebug > 0 { + print("shrinking stack ", oldsize, "->", newsize, "\n") + } + copystack(gp, newsize) +} + +// Do any delayed stack freeing that was queued up during GC. +func shrinkfinish() { + lock(&stackpoolmu) + s := stackfreequeue + stackfreequeue = stack{} + unlock(&stackpoolmu) + for s.lo != 0 { + t := *(*stack)(unsafe.Pointer(s.lo)) + stackfree(s) + s = t + } +} + +//go:nosplit +func morestackc() { + systemstack(func() { + gothrow("attempt to execute C code on Go stack") + }) +} |