Commit 00365b13 authored by Keith Randall's avatar Keith Randall

runtime: get rid of copyable check - all G frames are copyable.

Just go ahead and do it, if something is wrong we'll throw.

Also rip out cc-generated arg ptr maps, they are useless now.

LGTM=rsc
R=rsc
CC=golang-codereviews
https://golang.org/cl/133690045
parent 91baf5c6
// 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 <u.h>
#include "cc.h"
enum {
WORDSIZE = sizeof(uint32),
WORDBITS = 32,
};
uintptr
bvsize(uintptr n)
{
return ((n + WORDBITS - 1) / WORDBITS) * WORDSIZE;
}
Bvec*
bvalloc(int32 n)
{
Bvec *bv;
uintptr nbytes;
if(n < 0)
fatal(Z, "bvalloc: initial size is negative\n");
nbytes = sizeof(Bvec) + bvsize(n);
bv = malloc(nbytes);
if(bv == nil)
fatal(Z, "bvalloc: malloc failed\n");
memset(bv, 0, nbytes);
bv->n = n;
return bv;
}
void
bvset(Bvec *bv, int32 i)
{
uint32 mask;
if(i < 0 || i >= bv->n)
fatal(Z, "bvset: index %d is out of bounds with length %d\n", i, bv->n);
mask = 1UL << (i % WORDBITS);
bv->b[i / WORDBITS] |= mask;
}
......@@ -761,12 +761,6 @@ Bits blsh(uint);
int beq(Bits, Bits);
int bset(Bits, uint);
/*
* bv.c
*/
Bvec* bvalloc(int32 n);
void bvset(Bvec *bv, int32 i);
/*
* dpchk.c
*/
......
......@@ -31,30 +31,6 @@
#include "gc.h"
#include "../../runtime/funcdata.h"
enum { BitsPerPointer = 2 };
static void dumpgcargs(Type *fn, Sym *sym);
static Sym*
makefuncdatasym(char *namefmt, int64 funcdatakind)
{
Node nod;
Sym *sym;
static int32 nsym;
static char namebuf[40];
snprint(namebuf, sizeof(namebuf), namefmt, nsym++);
sym = slookup(namebuf);
sym->class = CSTATIC;
memset(&nod, 0, sizeof nod);
nod.op = ONAME;
nod.sym = sym;
nod.class = CSTATIC;
gins(AFUNCDATA, nodconst(funcdatakind), &nod);
linksym(sym)->type = SRODATA;
return sym;
}
int
hasdotdotdot(Type *t)
{
......@@ -109,9 +85,6 @@ codgen(Node *n, Node *nn)
{
Prog *sp;
Node *n1, nod, nod1;
Sym *gcargs;
Sym *gclocals;
int isvarargs;
cursafe = 0;
curarg = 0;
......@@ -134,16 +107,6 @@ codgen(Node *n, Node *nn)
p->from.sym->cfunc = 1;
sp = p;
/*
* generate funcdata symbol for this function.
* data is filled in at the end of codgen().
*/
isvarargs = hasdotdotdot(thisfn);
gcargs = nil;
if(!isvarargs)
gcargs = makefuncdatasym("gcargs·%d", FUNCDATA_ArgsPointerMaps);
gclocals = makefuncdatasym("gclocals·%d", FUNCDATA_LocalsPointerMaps);
/*
* isolate first argument
*/
......@@ -178,22 +141,6 @@ codgen(Node *n, Node *nn)
if(thechar=='6' || thechar=='7') /* [sic] */
maxargsafe = xround(maxargsafe, 8);
sp->to.offset += maxargsafe;
if(!isvarargs)
dumpgcargs(thisfn, gcargs);
// TODO(rsc): "stkoff" is not right. It does not account for
// the possibility of data stored in .safe variables.
// Unfortunately those move up and down just like
// the argument frame (and in fact dovetail with it)
// so the number we need is not available or even
// well-defined. Probably we need to make the safe
// area its own section.
// That said, we've been using stkoff for months
// and nothing too terrible has happened.
gextern(gclocals, nodconst(-stkoff), 0, 4); // locals
gclocals->type = typ(0, T);
gclocals->type->width = 4;
}
void
......@@ -673,113 +620,3 @@ bcomplex(Node *n, Node *c)
boolgen(n, 1, Z);
return 0;
}
// Updates the bitvector with a set bit for each pointer containing
// value in the type description starting at offset.
static void
walktype1(Type *t, int32 offset, Bvec *bv, int param)
{
Type *t1;
int32 o;
int32 widthptr;
widthptr = ewidth[TIND];
switch(t->etype) {
case TCHAR:
case TUCHAR:
case TSHORT:
case TUSHORT:
case TINT:
case TUINT:
case TLONG:
case TULONG:
case TVLONG:
case TUVLONG:
case TFLOAT:
case TDOUBLE:
// non-pointer types
for(o = 0; o < t->width; o++)
bvset(bv, ((offset + t->offset + o) / widthptr) * BitsPerPointer); // 1 = live scalar
break;
case TIND:
pointer:
// pointer types
if((offset + t->offset) % widthptr != 0)
yyerror("unaligned pointer");
bvset(bv, ((offset + t->offset) / widthptr)*BitsPerPointer + 1); // 2 = live ptr
break;
case TARRAY:
if(param) // unlike Go, C passes arrays by reference
goto pointer;
// array in struct or union is an actual array
for(o = 0; o < t->width; o += t->link->width)
walktype1(t->link, offset+o, bv, 0);
break;
case TSTRUCT:
// build map recursively
for(t1 = t->link; t1 != T; t1 = t1->down)
walktype1(t1, offset, bv, 0);
break;
case TUNION:
walktype1(t->link, offset, bv, 0);
break;
default:
yyerror("can't handle arg type %s\n", tnames[t->etype]);
}
}
// Compute a bit vector to describe the pointer containing locations
// in the argument list. Adds the data to gcsym and returns the offset
// of end of the bit vector.
static void
dumpgcargs(Type *fn, Sym *sym)
{
Bvec *bv;
Type *t;
int32 i;
int32 argbytes;
int32 symoffset, argoffset;
// Dump the length of the bitmap array. This value is always one for
// functions written in C.
symoffset = 0;
gextern(sym, nodconst(1), symoffset, 4);
symoffset += 4;
argbytes = (argsize(1) + ewidth[TIND] - 1);
bv = bvalloc((argbytes / ewidth[TIND]) * BitsPerPointer);
argoffset = 0;
if(hasdotdotdot(thisfn))
argoffset = align(0, fn->link, Aarg0, nil);
if(argoffset > 0) {
// The C calling convention returns structs by copying them to a
// location pointed to by a hidden first argument. This first
// argument is a pointer.
if(argoffset != ewidth[TIND])
yyerror("passbyptr arg not the right size");
bvset(bv, 1); // 2 = live ptr
}
for(t = fn->down; t != T; t = t->down) {
if(t->etype == TVOID)
continue;
argoffset = align(argoffset, t, Aarg1, nil);
walktype1(t, argoffset, bv, 1);
argoffset = align(argoffset, t, Aarg2, nil);
}
// Dump the length of the bitmap.
gextern(sym, nodconst(bv->n), symoffset, 4);
symoffset += 4;
// Dump the words of the bitmap.
for(i = 0; i < bv->n; i += 32) {
gextern(sym, nodconst(bv->b[i/32]), symoffset, 4);
symoffset += 4;
}
free(bv);
// Finalize the gc symbol.
sym->type = typ(0, T);
sym->type->width = symoffset;
}
......@@ -331,145 +331,22 @@ mapnames[] = {
// | args to callee |
// +------------------+ <- frame->sp
//
// (arm: TODO)
typedef struct CopyableInfo CopyableInfo;
struct CopyableInfo {
Stack stk;
int32 frames; // count of copyable frames (-1 = not copyable)
};
// (arm)
// +------------------+
// | args from caller |
// +------------------+ <- frame->argp
// | caller's retaddr |
// +------------------+ <- frame->varp
// | locals |
// +------------------+
// | args to callee |
// +------------------+
// | return address |
// +------------------+ <- frame->sp
void runtime·main(void);
void runtime·switchtoM(void(*)(void));
static bool
checkframecopy(Stkframe *frame, void *arg)
{
CopyableInfo *cinfo;
Func *f;
StackMap *stackmap;
cinfo = arg;
f = frame->fn;
if(StackDebug >= 2)
runtime·printf(" checking %s frame=[%p,%p] stk=[%p,%p]\n", runtime·funcname(f), frame->sp, frame->fp, cinfo->stk.lo, cinfo->stk.hi);
// if we're not in the segment any more, return immediately.
if(frame->varp < cinfo->stk.lo || frame->varp >= cinfo->stk.hi) {
if(StackDebug >= 2)
runtime·printf(" <next segment>\n");
return false; // stop traceback
}
if(f->entry == (uintptr)runtime·switchtoM) {
// A special routine at the bottom of stack of a goroutine that does onM 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).
cinfo->frames++;
return true;
}
if((byte*)frame->varp != (byte*)frame->sp) { // not in prologue (and has at least one local or outarg)
stackmap = runtime·funcdata(f, FUNCDATA_LocalsPointerMaps);
if(stackmap == nil) {
cinfo->frames = -1;
runtime·printf("runtime: copystack: no locals info for %s\n", runtime·funcname(f));
return false;
}
if(stackmap->n <= 0) {
cinfo->frames = -1;
runtime·printf("runtime: copystack: locals size info only for %s\n", runtime·funcname(f));
return false;
}
}
if(frame->arglen != 0) {
stackmap = runtime·funcdata(f, FUNCDATA_ArgsPointerMaps);
if(stackmap == nil) {
cinfo->frames = -1;
runtime·printf("runtime: copystack: no arg info for %s\n", runtime·funcname(f));
return false;
}
}
cinfo->frames++;
return true; // this frame is ok; keep going
}
// If the top segment of the stack contains an uncopyable
// frame, return -1. Otherwise return the number of frames
// in the top segment, all of which are copyable.
static int32
copyabletopsegment(G *gp)
{
CopyableInfo cinfo;
Defer *d;
Func *f;
FuncVal *fn;
StackMap *stackmap;
bool (*cb)(Stkframe*, void*);
if(gp->stack.lo == 0)
runtime·throw("missing stack in copyabletopsegment");
cinfo.stk = gp->stack;
cinfo.frames = 0;
// Check that each frame is copyable. As a side effect,
// count the frames.
cb = checkframecopy;
runtime·gentraceback(~(uintptr)0, ~(uintptr)0, 0, gp, 0, nil, 0x7fffffff, &cb, &cinfo, false);
if(StackDebug >= 1 && cinfo.frames != -1)
runtime·printf("copystack: %d copyable frames\n", cinfo.frames);
if(cinfo.frames == -1)
return -1;
// Check to make sure all Defers are copyable
for(d = gp->defer; d != nil; d = d->link) {
if(cinfo.stk.lo <= (uintptr)d && (uintptr)d < cinfo.stk.hi) {
// Defer is on the stack. Its copyableness has
// been established during stack walking.
// For now, this only happens with the Defer in runtime.main.
continue;
}
if(d->argp < cinfo.stk.lo || cinfo.stk.hi <= d->argp)
break; // a defer for the next segment
fn = d->fn;
if(fn == nil) // See issue 8047
continue;
f = runtime·findfunc((uintptr)fn->fn);
if(f == nil) {
runtime·printf("runtime: copystack: no func for deferred pc %p\n", fn->fn);
return -1;
}
// Check to make sure we have an args pointer map for the defer's args.
// We only need the args map, but we check
// for the locals map also, because when the locals map
// isn't provided it means the ptr map came from C and
// C (particularly, cgo) lies to us. See issue 7695.
stackmap = runtime·funcdata(f, FUNCDATA_ArgsPointerMaps);
if(stackmap == nil || stackmap->n <= 0) {
runtime·printf("runtime: copystack: no arg info for deferred %s\n", runtime·funcname(f));
return -1;
}
stackmap = runtime·funcdata(f, FUNCDATA_LocalsPointerMaps);
if(stackmap == nil || stackmap->n <= 0) {
runtime·printf("runtime: copystack: no local info for deferred %s\n", runtime·funcname(f));
return -1;
}
if(cinfo.stk.lo <= (uintptr)fn && (uintptr)fn < cinfo.stk.hi) {
// FuncVal is on the stack. Again, its copyableness
// was established during stack walking.
continue;
}
// The FuncVal may have pointers in it, but fortunately for us
// the compiler won't put pointers into the stack in a
// heap-allocated FuncVal.
// One day if we do need to check this, we'll need maps of the
// pointerness of the closure args. The only place we have that map
// right now is in the gc program for the FuncVal. Ugh.
}
return cinfo.frames;
}
typedef struct AdjustInfo AdjustInfo;
struct AdjustInfo {
Stack old;
......@@ -573,8 +450,12 @@ adjustframe(Stkframe *frame, void *arg)
f = frame->fn;
if(StackDebug >= 2)
runtime·printf(" adjusting %s frame=[%p,%p] pc=%p continpc=%p\n", runtime·funcname(f), frame->sp, frame->fp, frame->pc, frame->continpc);
if(f->entry == (uintptr)runtime·switchtoM)
if(f->entry == (uintptr)runtime·switchtoM) {
// A special routine at the bottom of stack of a goroutine that does an onM 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;
}
targetpc = frame->continpc;
if(targetpc == 0) {
// Frame is dead.
......@@ -648,11 +529,10 @@ adjustdefers(G *gp, AdjustInfo *adjinfo)
runtime·printf("runtime: adjustdefers argp=%p stk=%p %p\n", d->argp, adjinfo->old.lo, adjinfo->old.hi);
runtime·throw("adjustdefers: unexpected argp");
}
d->argp += adjinfo->delta;
fn = d->fn;
if(fn == nil) {
// Defer of nil function. It will panic when run, and there
// aren't any args to adjust. See issue 8047.
d->argp += adjinfo->delta;
// Defer of nil function. It will panic when run. See issue 8047.
continue;
}
f = runtime·findfunc((uintptr)fn->fn);
......@@ -675,7 +555,11 @@ adjustdefers(G *gp, AdjustInfo *adjinfo)
bv = runtime·stackmapdata(stackmap, 0);
adjustpointers(d->args, &bv, adjinfo, f);
}
d->argp += adjinfo->delta;
// The FuncVal may have pointers in it, but fortunately for us
// the compiler won't put pointers into the stack in a
// heap-allocated FuncVal.
// One day if we do need to check this, we can use the gc bits in the
// heap to do the right thing (although getting the size will be expensive).
}
}
......@@ -707,10 +591,9 @@ adjustsudogs(G *gp, AdjustInfo *adjinfo)
}
}
// Copies the top stack segment of gp to a new stack segment of a
// different size. The top segment must contain nframes frames.
// Copies gp's stack to a new stack of a different size.
static void
copystack(G *gp, uintptr nframes, uintptr newsize)
copystack(G *gp, uintptr newsize)
{
Stack old, new;
uintptr used;
......@@ -735,7 +618,7 @@ copystack(G *gp, uintptr nframes, uintptr newsize)
adjinfo.old = old;
adjinfo.delta = new.hi - old.hi;
cb = adjustframe;
runtime·gentraceback(~(uintptr)0, ~(uintptr)0, 0, gp, 0, nil, nframes, &cb, &adjinfo, false);
runtime·gentraceback(~(uintptr)0, ~(uintptr)0, 0, gp, 0, nil, 0x7fffffff, &cb, &adjinfo, false);
// adjust other miscellaneous things that have pointers into stacks.
adjustctxt(gp, &adjinfo);
......@@ -785,7 +668,7 @@ runtime·round2(int32 x)
void
runtime·newstack(void)
{
int32 oldsize, newsize, nframes;
int32 oldsize, newsize;
uintptr sp;
G *gp;
Gobuf morebuf;
......@@ -867,10 +750,6 @@ runtime·newstack(void)
}
// Allocate a bigger segment and move the stack.
nframes = copyabletopsegment(gp);
if(nframes == -1)
runtime·throw("unable to grow stack");
oldsize = gp->stack.hi - gp->stack.lo;
newsize = oldsize * 2;
if(newsize > runtime·maxstacksize) {
......@@ -880,7 +759,7 @@ runtime·newstack(void)
// 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, nframes, newsize);
copystack(gp, newsize);
if(StackDebug >= 1)
runtime·printf("stack grow done\n");
runtime·casgstatus(gp, Gwaiting, Grunning);
......@@ -913,14 +792,13 @@ runtime·gostartcallfn(Gobuf *gobuf, FuncVal *fv)
void
runtime·shrinkstack(G *gp)
{
int32 nframes;
uintptr used, oldsize, newsize;
if(runtime·readgstatus(gp) == Gdead)
return;
if(gp->stack.lo == 0)
runtime·throw("missing stack in shrinkstack");
//return; // TODO: why does this happen?
oldsize = gp->stack.hi - gp->stack.lo;
newsize = oldsize / 2;
if(newsize < FixedStack)
......@@ -938,10 +816,7 @@ runtime·shrinkstack(G *gp)
#endif
if(StackDebug > 0)
runtime·printf("shrinking stack %D->%D\n", (uint64)oldsize, (uint64)newsize);
nframes = copyabletopsegment(gp);
if(nframes == -1)
return;
copystack(gp, nframes, newsize);
copystack(gp, newsize);
}
static void badc(void);
......
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