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// 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.
#include "runtime.h"
#include "arch_GOARCH.h"
#include "malloc.h"
#include "stack.h"
enum
{
StackDebug = 0,
};
typedef struct StackCacheNode StackCacheNode;
struct StackCacheNode
{
StackCacheNode *next;
void* batch[StackCacheBatch-1];
};
static StackCacheNode *stackcache;
static Lock stackcachemu;
// stackcacherefill/stackcacherelease implement a global cache of stack segments.
// The cache is required to prevent unlimited growth of per-thread caches.
static void
stackcacherefill(void)
{
StackCacheNode *n;
int32 i, pos;
runtime·lock(&stackcachemu);
n = stackcache;
if(n)
stackcache = n->next;
runtime·unlock(&stackcachemu);
if(n == nil) {
n = (StackCacheNode*)runtime·SysAlloc(FixedStack*StackCacheBatch, &mstats.stacks_sys);
if(n == nil)
runtime·throw("out of memory (stackcacherefill)");
for(i = 0; i < StackCacheBatch-1; i++)
n->batch[i] = (byte*)n + (i+1)*FixedStack;
}
pos = m->stackcachepos;
for(i = 0; i < StackCacheBatch-1; i++) {
m->stackcache[pos] = n->batch[i];
pos = (pos + 1) % StackCacheSize;
}
m->stackcache[pos] = n;
pos = (pos + 1) % StackCacheSize;
m->stackcachepos = pos;
m->stackcachecnt += StackCacheBatch;
}
static void
stackcacherelease(void)
{
StackCacheNode *n;
uint32 i, pos;
pos = (m->stackcachepos - m->stackcachecnt) % StackCacheSize;
n = (StackCacheNode*)m->stackcache[pos];
pos = (pos + 1) % StackCacheSize;
for(i = 0; i < StackCacheBatch-1; i++) {
n->batch[i] = m->stackcache[pos];
pos = (pos + 1) % StackCacheSize;
}
m->stackcachecnt -= StackCacheBatch;
runtime·lock(&stackcachemu);
n->next = stackcache;
stackcache = n;
runtime·unlock(&stackcachemu);
}
void*
runtime·stackalloc(uint32 n)
{
uint32 pos;
void *v;
// 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).
if(g != m->g0)
runtime·throw("stackalloc not on scheduler stack");
// Stacks are usually allocated with a fixed-size free-list allocator,
// but if we need a stack of non-standard size, we fall back on malloc
// (assuming that inside malloc and GC all the stack frames are small,
// so that we do not deadlock).
if(n == FixedStack || m->mallocing || m->gcing) {
if(n != FixedStack) {
runtime·printf("stackalloc: in malloc, size=%d want %d\n", FixedStack, n);
runtime·throw("stackalloc");
}
if(m->stackcachecnt == 0)
stackcacherefill();
pos = m->stackcachepos;
pos = (pos - 1) % StackCacheSize;
v = m->stackcache[pos];
m->stackcachepos = pos;
m->stackcachecnt--;
m->stackinuse++;
return v;
}
return runtime·mallocgc(n, 0, FlagNoProfiling|FlagNoGC|FlagNoZero|FlagNoInvokeGC);
}
void
runtime·stackfree(void *v, uintptr n)
{
uint32 pos;
if(n == FixedStack || m->mallocing || m->gcing) {
if(m->stackcachecnt == StackCacheSize)
stackcacherelease();
pos = m->stackcachepos;
m->stackcache[pos] = v;
m->stackcachepos = (pos + 1) % StackCacheSize;
m->stackcachecnt++;
m->stackinuse--;
return;
}
runtime·free(v);
}
// Called from runtime·lessstack when returning from a function which
// allocated a new stack segment. The function's return value is in
// m->cret.
void
runtime·oldstack(void)
{
Stktop *top;
uint32 argsize;
byte *sp, *old;
uintptr *src, *dst, *dstend;
G *gp;
int64 goid;
int32 oldstatus;
gp = m->curg;
top = (Stktop*)gp->stackbase;
old = (byte*)gp->stackguard - StackGuard;
sp = (byte*)top;
argsize = top->argsize;
if(StackDebug) {
runtime·printf("runtime: oldstack gobuf={pc:%p sp:%p lr:%p} cret=%p argsize=%p\n",
top->gobuf.pc, top->gobuf.sp, top->gobuf.lr, m->cret, (uintptr)argsize);
}
// gp->status is usually Grunning, but it could be Gsyscall if a stack split
// happens during a function call inside entersyscall.
oldstatus = gp->status;
gp->sched = top->gobuf;
gp->sched.ret = m->cret;
m->cret = 0; // drop reference
gp->status = Gwaiting;
gp->waitreason = "stack unsplit";
if(argsize > 0) {
sp -= argsize;
dst = (uintptr*)top->argp;
dstend = dst + argsize/sizeof(*dst);
src = (uintptr*)sp;
while(dst < dstend)
*dst++ = *src++;
}
goid = top->gobuf.g->goid; // fault if g is bad, before gogo
USED(goid);
gp->stackbase = top->stackbase;
gp->stackguard = top->stackguard;
gp->stackguard0 = gp->stackguard;
if(top->free != 0) {
gp->stacksize -= top->free;
runtime·stackfree(old, top->free);
}
gp->status = oldstatus;
runtime·gogo(&gp->sched);
}
uintptr runtime·maxstacksize = 1<<20; // enough until runtime.main sets it for real
// Called from runtime·newstackcall or from runtime·morestack when a new
// stack segment is needed. Allocate a new stack big enough for
// m->moreframesize bytes, copy m->moreargsize bytes to the new frame,
// and then act as though runtime·lessstack called the function at
// m->morepc.
void
runtime·newstack(void)
{
int32 framesize, argsize, oldstatus;
Stktop *top;
byte *stk;
uintptr sp;
uintptr *src, *dst, *dstend;
G *gp;
Gobuf label;
bool newstackcall;
uintptr free;
if(m->morebuf.g != m->curg) {
runtime·printf("runtime: newstack called from g=%p\n"
"\tm=%p m->curg=%p m->g0=%p m->gsignal=%p\n",
m->morebuf.g, m, m->curg, m->g0, m->gsignal);
runtime·throw("runtime: wrong goroutine in newstack");
}
// gp->status is usually Grunning, but it could be Gsyscall if a stack split
// happens during a function call inside entersyscall.
gp = m->curg;
oldstatus = gp->status;
framesize = m->moreframesize;
argsize = m->moreargsize;
gp->status = Gwaiting;
gp->waitreason = "stack split";
newstackcall = framesize==1;
if(newstackcall)
framesize = 0;
// For newstackcall the context already points to beginning of runtime·newstackcall.
if(!newstackcall)
runtime·rewindmorestack(&gp->sched);
sp = gp->sched.sp;
if(thechar == '6' || thechar == '8') {
// The call to morestack cost a word.
sp -= sizeof(uintptr);
}
if(StackDebug || sp < gp->stackguard - StackGuard) {
runtime·printf("runtime: newstack framesize=%p argsize=%p sp=%p stack=[%p, %p]\n"
"\tmorebuf={pc:%p sp:%p lr:%p}\n"
"\tsched={pc:%p sp:%p lr:%p ctxt:%p}\n",
(uintptr)framesize, (uintptr)argsize, sp, gp->stackguard - StackGuard, gp->stackbase,
m->morebuf.pc, m->morebuf.sp, m->morebuf.lr,
gp->sched.pc, gp->sched.sp, gp->sched.lr, gp->sched.ctxt);
}
if(sp < gp->stackguard - StackGuard) {
runtime·printf("runtime: split stack overflow: %p < %p\n", sp, gp->stackguard - StackGuard);
runtime·throw("runtime: split stack overflow");
}
if(argsize % sizeof(uintptr) != 0) {
runtime·printf("runtime: stack split with misaligned argsize %d\n", argsize);
runtime·throw("runtime: stack split argsize");
}
if(gp->stackguard0 == (uintptr)StackPreempt) {
if(gp == m->g0)
runtime·throw("runtime: preempt g0");
if(oldstatus == Grunning && m->p == nil)
runtime·throw("runtime: g is running but p is not");
if(oldstatus == Gsyscall && m->locks == 0)
runtime·throw("runtime: stack split during syscall");
// Be conservative about where we preempt.
// We are interested in preempting user Go code, not runtime code.
if(oldstatus != Grunning || m->locks || m->mallocing || m->gcing || 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->stackguard;
gp->status = oldstatus;
runtime·gogo(&gp->sched); // never return
}
// Act like goroutine called runtime.Gosched.
gp->status = oldstatus;
runtime·gosched0(gp); // never return
}
if(newstackcall && m->morebuf.sp - sizeof(Stktop) - argsize - 32 > gp->stackguard) {
// special case: called from runtime.newstackcall (framesize==1)
// to call code with an arbitrary argument size,
// and we have enough space on the current stack.
// the new Stktop* is necessary to unwind, but
// we don't need to create a new segment.
top = (Stktop*)(m->morebuf.sp - sizeof(*top));
stk = (byte*)gp->stackguard - StackGuard;
free = 0;
} else {
// allocate new segment.
framesize += argsize;
framesize += StackExtra; // room for more functions, Stktop.
if(framesize < StackMin)
framesize = StackMin;
framesize += StackSystem;
gp->stacksize += framesize;
if(gp->stacksize > runtime·maxstacksize) {
runtime·printf("runtime: goroutine stack exceeds %D-byte limit\n", (uint64)runtime·maxstacksize);
runtime·throw("stack overflow");
}
stk = runtime·stackalloc(framesize);
top = (Stktop*)(stk+framesize-sizeof(*top));
free = framesize;
}
if(StackDebug) {
runtime·printf("\t-> new stack [%p, %p]\n", stk, top);
}
top->stackbase = gp->stackbase;
top->stackguard = gp->stackguard;
top->gobuf = m->morebuf;
top->argp = m->moreargp;
top->argsize = argsize;
top->free = free;
m->moreargp = nil;
m->morebuf.pc = (uintptr)nil;
m->morebuf.lr = (uintptr)nil;
m->morebuf.sp = (uintptr)nil;
// copy flag from panic
top->panic = gp->ispanic;
gp->ispanic = false;
gp->stackbase = (uintptr)top;
gp->stackguard = (uintptr)stk + StackGuard;
gp->stackguard0 = gp->stackguard;
sp = (uintptr)top;
if(argsize > 0) {
sp -= argsize;
dst = (uintptr*)sp;
dstend = dst + argsize/sizeof(*dst);
src = (uintptr*)top->argp;
while(dst < dstend)
*dst++ = *src++;
}
if(thechar == '5') {
// caller would have saved its LR below args.
sp -= sizeof(void*);
*(void**)sp = nil;
}
// Continue as if lessstack had just called m->morepc
// (the PC that decided to grow the stack).
runtime·memclr((byte*)&label, sizeof label);
label.sp = sp;
label.pc = (uintptr)runtime·lessstack;
label.g = m->curg;
if(newstackcall)
runtime·gostartcallfn(&label, (FuncVal*)m->cret);
else {
runtime·gostartcall(&label, (void(*)(void))gp->sched.pc, gp->sched.ctxt);
gp->sched.ctxt = nil;
}
gp->status = oldstatus;
runtime·gogo(&label);
*(int32*)345 = 123; // never return
}
// adjust Gobuf as if it executed a call to fn
// and then did an immediate gosave.
void
runtime·gostartcallfn(Gobuf *gobuf, FuncVal *fv)
{
runtime·gostartcall(gobuf, fv->fn, fv);
}
void
runtime∕debug·setMaxStack(intgo in, intgo out)
{
out = runtime·maxstacksize;
runtime·maxstacksize = in;
FLUSH(&out);
}
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