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mirror of https://github.com/golang/go synced 2024-11-25 02:07:58 -07:00

gc: index bounds tests and fixes

move constant index checking to front end
x[2:1] is a compile-time error now too

R=ken2
CC=golang-dev
https://golang.org/cl/1848056
This commit is contained in:
Russ Cox 2010-08-03 00:26:02 -07:00
parent 0cd8777255
commit 9bac9d23d3
17 changed files with 464 additions and 129 deletions

View File

@ -605,13 +605,6 @@ agen(Node *n, Node *res)
n1.type = types[tptr]; n1.type = types[tptr];
n1.xoffset = Array_array; n1.xoffset = Array_array;
gmove(&n1, &n3); gmove(&n1, &n3);
} else
if(!debug['B'] && !n->etype) {
if(v < 0)
yyerror("out of bounds on array");
else
if(v >= nl->type->bound)
yyerror("out of bounds on array");
} }
nodconst(&n2, types[tptr], v*w); nodconst(&n2, types[tptr], v*w);

View File

@ -682,6 +682,29 @@ regcmp(const void *va, const void *vb)
static Prog* throwpc; static Prog* throwpc;
// We're only going to bother inlining if we can
// convert all the arguments to 32 bits safely. Can we?
static int
fix64(NodeList *nn, int n)
{
NodeList *l;
Node *r;
int i;
l = nn;
for(i=0; i<n; i++) {
r = l->n->right;
if(is64(r->type) && !smallintconst(r)) {
if(r->op == OCONV)
r = r->left;
if(is64(r->type))
return 0;
}
l = l->next;
}
return 1;
}
void void
getargs(NodeList *nn, Node *reg, int n) getargs(NodeList *nn, Node *reg, int n)
{ {
@ -813,6 +836,8 @@ cgen_inline(Node *n, Node *res)
slicearray: slicearray:
if(!sleasy(res)) if(!sleasy(res))
goto no; goto no;
if(!fix64(n->list, 5))
goto no;
getargs(n->list, nodes, 5); getargs(n->list, nodes, 5);
// if(hb[3] > nel[1]) goto throw // if(hb[3] > nel[1]) goto throw
@ -904,6 +929,8 @@ slicearray:
return 1; return 1;
sliceslice: sliceslice:
if(!fix64(n->list, narg))
goto no;
ntemp.op = OXXX; ntemp.op = OXXX;
if(!sleasy(n->list->n->right)) { if(!sleasy(n->list->n->right)) {
Node *n0; Node *n0;

View File

@ -1841,19 +1841,6 @@ oindex_const:
n1.type = types[tptr]; n1.type = types[tptr];
n1.xoffset = Array_array; n1.xoffset = Array_array;
gmove(&n1, reg); gmove(&n1, reg);
} else
if(!debug['B']) {
if(v < 0) {
yyerror("out of bounds on array");
} else
if(o & OPtrto) {
if(v >= l->type->type->bound)
yyerror("out of bounds on array");
} else
if(v >= l->type->bound) {
yyerror("out of bounds on array");
}
} }
n2 = *reg; n2 = *reg;

View File

@ -418,7 +418,7 @@ void
agen(Node *n, Node *res) agen(Node *n, Node *res)
{ {
Node *nl, *nr; Node *nl, *nr;
Node n1, n2, n3, tmp, n4; Node n1, n2, n3, tmp, n4, n5;
Prog *p1; Prog *p1;
uint32 w; uint32 w;
uint64 v; uint64 v;
@ -518,13 +518,12 @@ agen(Node *n, Node *res)
if(isconst(nr, CTINT)) { if(isconst(nr, CTINT)) {
v = mpgetfix(nr->val.u.xval); v = mpgetfix(nr->val.u.xval);
if(isslice(nl->type)) { if(isslice(nl->type)) {
if(!debug['B'] && !n->etype) { if(!debug['B'] && !n->etype) {
n1 = n3; n1 = n3;
n1.op = OINDREG; n1.op = OINDREG;
n1.type = types[tptr]; n1.type = types[tptr];
n1.xoffset = Array_nel; n1.xoffset = Array_nel;
nodconst(&n2, types[TUINT64], v); nodconst(&n2, types[TUINT32], v);
gins(optoas(OCMP, types[TUINT32]), &n1, &n2); gins(optoas(OCMP, types[TUINT32]), &n1, &n2);
p1 = gbranch(optoas(OGT, types[TUINT32]), T); p1 = gbranch(optoas(OGT, types[TUINT32]), T);
ginscall(panicindex, 0); ginscall(panicindex, 0);
@ -536,13 +535,6 @@ agen(Node *n, Node *res)
n1.type = types[tptr]; n1.type = types[tptr];
n1.xoffset = Array_array; n1.xoffset = Array_array;
gmove(&n1, &n3); gmove(&n1, &n3);
} else
if(!debug['B'] && !n->etype) {
if(v < 0)
yyerror("out of bounds on array");
else
if(v >= nl->type->bound)
yyerror("out of bounds on array");
} }
nodconst(&n2, types[tptr], v*w); nodconst(&n2, types[tptr], v*w);
@ -564,15 +556,28 @@ agen(Node *n, Node *res)
if(!debug['B'] && !n->etype) { if(!debug['B'] && !n->etype) {
// check bounds // check bounds
n5.op = OXXX;
t = types[TUINT32];
if(isslice(nl->type)) { if(isslice(nl->type)) {
n1 = n3; n1 = n3;
n1.op = OINDREG; n1.op = OINDREG;
n1.type = types[tptr]; n1.type = types[TUINT32];
n1.xoffset = Array_nel; n1.xoffset = Array_nel;
} else if(is64(nr->type)) {
nodconst(&n1, types[TUINT64], nl->type->bound); t = types[TUINT64];
gins(optoas(OCMP, types[TUINT32]), &n2, &n1); regalloc(&n5, t, N);
p1 = gbranch(optoas(OLT, types[TUINT32]), T); gmove(&n1, &n5);
n1 = n5;
}
} else {
if(is64(nr->type))
t = types[TUINT64];
nodconst(&n1, t, nl->type->bound);
}
gins(optoas(OCMP, t), &n2, &n1);
p1 = gbranch(optoas(OLT, t), T);
if(n5.op != OXXX)
regfree(&n5);
ginscall(panicindex, 0); ginscall(panicindex, 0);
patch(p1, pc); patch(p1, pc);
} }

View File

@ -1115,44 +1115,62 @@ getargs(NodeList *nn, Node *reg, int n)
void void
cmpandthrow(Node *nl, Node *nr) cmpandthrow(Node *nl, Node *nr)
{ {
vlong cl, cr; vlong cl;
Prog *p1; Prog *p1;
int op; int op;
Node *c; Node *c;
Type *t;
Node n1;
if(nl->op == OCONV && is64(nl->type))
nl = nl->left;
if(nr->op == OCONV && is64(nr->type))
nr = nr->left;
op = OLE; op = OLE;
if(smallintconst(nl)) { if(smallintconst(nl)) {
cl = mpgetfix(nl->val.u.xval); cl = mpgetfix(nl->val.u.xval);
if(cl == 0) if(cl == 0)
return; return;
if(smallintconst(nr)) { if(smallintconst(nr))
cr = mpgetfix(nr->val.u.xval);
if(cl > cr) {
if(throwpc == nil) {
throwpc = pc;
ginscall(panicslice, 0);
} else
patch(gbranch(AJMP, T), throwpc);
}
return; return;
}
// put the constant on the right // put the constant on the right
op = brrev(op); op = brrev(op);
c = nl; c = nl;
nl = nr; nl = nr;
nr = c; nr = c;
} }
if(is64(nr->type) && smallintconst(nr))
nr->type = types[TUINT32];
gins(optoas(OCMP, types[TUINT32]), nl, nr); n1.op = OXXX;
t = types[TUINT32];
if(is64(nl->type) || is64(nr->type)) {
// two 64-bit is just a 64-bit compare,
// but one 32 and one 64 needs to copy
// the 32 into a register to get the full comparison.
t = types[TUINT64];
if(!is64(nl->type) && nl->op != OLITERAL) {
regalloc(&n1, t, nl);
gmove(nl, &n1);
nl = &n1;
} else if(!is64(nr->type) && nr->op != OLITERAL) {
regalloc(&n1, t, nr);
gmove(nr, &n1);
nr = &n1;
}
}
gins(optoas(OCMP, t), nl, nr);
if(n1.op != OXXX)
regfree(&n1);
if(throwpc == nil) { if(throwpc == nil) {
p1 = gbranch(optoas(op, types[TUINT32]), T); p1 = gbranch(optoas(op, t), T);
throwpc = pc; throwpc = pc;
ginscall(panicslice, 0); ginscall(panicslice, 0);
patch(p1, pc); patch(p1, pc);
} else { } else {
op = brcom(op); op = brcom(op);
p1 = gbranch(optoas(op, types[TUINT32]), T); p1 = gbranch(optoas(op, t), T);
patch(p1, throwpc); patch(p1, throwpc);
} }
} }
@ -1312,6 +1330,7 @@ sliceslice:
// if(lb[1] > old.nel[0]) goto throw; // if(lb[1] > old.nel[0]) goto throw;
n2 = nodes[0]; n2 = nodes[0];
n2.xoffset += Array_nel; n2.xoffset += Array_nel;
n2.type = types[TUINT32];
cmpandthrow(&nodes[1], &n2); cmpandthrow(&nodes[1], &n2);
// ret.nel = old.nel[0]-lb[1]; // ret.nel = old.nel[0]-lb[1];
@ -1331,6 +1350,7 @@ sliceslice:
// if(hb[2] > old.cap[0]) goto throw; // if(hb[2] > old.cap[0]) goto throw;
n2 = nodes[0]; n2 = nodes[0];
n2.xoffset += Array_cap; n2.xoffset += Array_cap;
n2.type = types[TUINT32];
cmpandthrow(&nodes[2], &n2); cmpandthrow(&nodes[2], &n2);
// if(lb[1] > hb[2]) goto throw; // if(lb[1] > hb[2]) goto throw;

View File

@ -1716,7 +1716,7 @@ sudoaddable(int as, Node *n, Addr *a)
int o, i, w; int o, i, w;
int oary[10]; int oary[10];
int64 v; int64 v;
Node n1, n2, n3, *nn, *l, *r; Node n1, n2, n3, n4, *nn, *l, *r;
Node *reg, *reg1; Node *reg, *reg1;
Prog *p1; Prog *p1;
Type *t; Type *t;
@ -1836,9 +1836,6 @@ oindex:
break; break;
} }
// if(sudoaddable(as, l, a))
// goto oindex_sudo;
cleani += 2; cleani += 2;
reg = &clean[cleani-1]; reg = &clean[cleani-1];
reg1 = &clean[cleani-2]; reg1 = &clean[cleani-2];
@ -1879,16 +1876,29 @@ oindex:
// check bounds // check bounds
if(!debug['B'] && !n->etype) { if(!debug['B'] && !n->etype) {
// check bounds
n4.op = OXXX;
t = types[TUINT32];
if(o & ODynam) { if(o & ODynam) {
n2 = *reg; n2 = *reg;
n2.op = OINDREG; n2.op = OINDREG;
n2.type = types[tptr]; n2.type = types[TUINT32];
n2.xoffset = Array_nel; n2.xoffset = Array_nel;
if(is64(r->type)) {
t = types[TUINT64];
regalloc(&n4, t, N);
gmove(&n2, &n4);
n2 = n4;
}
} else { } else {
if(is64(r->type))
t = types[TUINT64];
nodconst(&n2, types[TUINT64], l->type->bound); nodconst(&n2, types[TUINT64], l->type->bound);
} }
gins(optoas(OCMP, types[TUINT32]), reg1, &n2); gins(optoas(OCMP, t), reg1, &n2);
p1 = gbranch(optoas(OLT, types[TUINT32]), T); p1 = gbranch(optoas(OLT, t), T);
if(n4.op != OXXX)
regfree(&n4);
ginscall(panicindex, 0); ginscall(panicindex, 0);
patch(p1, pc); patch(p1, pc);
} }
@ -1915,15 +1925,6 @@ oindex_const:
// can multiply by width statically // can multiply by width statically
v = mpgetfix(r->val.u.xval); v = mpgetfix(r->val.u.xval);
if(!debug['B'] && (o & ODynam) == 0) {
// array indexed by a constant bounds check
if(v < 0) {
yyerror("out of bounds on array");
} else
if(v >= l->type->bound) {
yyerror("out of bounds on array");
}
}
if(sudoaddable(as, l, a)) if(sudoaddable(as, l, a))
goto oindex_const_sudo; goto oindex_const_sudo;

View File

@ -591,13 +591,6 @@ agen(Node *n, Node *res)
n1.type = types[tptr]; n1.type = types[tptr];
n1.xoffset = Array_array; n1.xoffset = Array_array;
gmove(&n1, &n3); gmove(&n1, &n3);
} else
if(!debug['B'] && !n->etype) {
if(v < 0)
yyerror("out of bounds on array");
else
if(v >= nl->type->bound)
yyerror("out of bounds on array");
} }
nodconst(&n2, types[tptr], v*w); nodconst(&n2, types[tptr], v*w);

View File

@ -789,25 +789,58 @@ regcmp(const void *va, const void *vb)
static Prog* throwpc; static Prog* throwpc;
// We're only going to bother inlining if we can
// convert all the arguments to 32 bits safely. Can we?
static int
fix64(NodeList *nn, int n)
{
NodeList *l;
Node *r;
int i;
l = nn;
for(i=0; i<n; i++) {
r = l->n->right;
if(is64(r->type) && !smallintconst(r)) {
if(r->op == OCONV)
r = r->left;
if(is64(r->type))
return 0;
}
l = l->next;
}
return 1;
}
void void
getargs(NodeList *nn, Node *reg, int n) getargs(NodeList *nn, Node *reg, int n)
{ {
NodeList *l; NodeList *l;
Node *r;
int i; int i;
throwpc = nil; throwpc = nil;
l = nn; l = nn;
for(i=0; i<n; i++) { for(i=0; i<n; i++) {
if(!smallintconst(l->n->right) && !isslice(l->n->right->type)) { r = l->n->right;
if(is64(r->type)) {
if(r->op == OCONV)
r = r->left;
else if(smallintconst(r))
r->type = types[TUINT32];
if(is64(r->type))
fatal("getargs");
}
if(!smallintconst(r) && !isslice(r->type)) {
if(i < 3) // AX CX DX if(i < 3) // AX CX DX
nodreg(reg+i, l->n->right->type, D_AX+i); nodreg(reg+i, r->type, D_AX+i);
else else
reg[i].op = OXXX; reg[i].op = OXXX;
regalloc(reg+i, l->n->right->type, reg+i); regalloc(reg+i, r->type, reg+i);
cgen(l->n->right, reg+i); cgen(r, reg+i);
} else } else
reg[i] = *l->n->right; reg[i] = *r;
if(reg[i].local != 0) if(reg[i].local != 0)
yyerror("local used"); yyerror("local used");
reg[i].local = l->n->left->xoffset; reg[i].local = l->n->left->xoffset;
@ -908,6 +941,8 @@ cgen_inline(Node *n, Node *res)
slicearray: slicearray:
if(!sleasy(res)) if(!sleasy(res))
goto no; goto no;
if(!fix64(n->list, 5))
goto no;
getargs(n->list, nodes, 5); getargs(n->list, nodes, 5);
// if(hb[3] > nel[1]) goto throw // if(hb[3] > nel[1]) goto throw
@ -990,6 +1025,8 @@ slicearray:
return 1; return 1;
sliceslice: sliceslice:
if(!fix64(n->list, narg))
goto no;
ntemp.op = OXXX; ntemp.op = OXXX;
if(!sleasy(n->list->n->right)) { if(!sleasy(n->list->n->right)) {
Node *n0; Node *n0;

View File

@ -75,9 +75,9 @@ char *runtimeimport =
"func \"\".selectdefault (sel *uint8) bool\n" "func \"\".selectdefault (sel *uint8) bool\n"
"func \"\".selectgo (sel *uint8)\n" "func \"\".selectgo (sel *uint8)\n"
"func \"\".makeslice (typ *uint8, nel int64, cap int64) []any\n" "func \"\".makeslice (typ *uint8, nel int64, cap int64) []any\n"
"func \"\".sliceslice1 (old []any, lb int, width int) []any\n" "func \"\".sliceslice1 (old []any, lb uint64, width uint64) []any\n"
"func \"\".sliceslice (old []any, lb int, hb int, width int) []any\n" "func \"\".sliceslice (old []any, lb uint64, hb uint64, width uint64) []any\n"
"func \"\".slicearray (old *any, nel int, lb int, hb int, width int) []any\n" "func \"\".slicearray (old *any, nel uint64, lb uint64, hb uint64, width uint64) []any\n"
"func \"\".closure ()\n" "func \"\".closure ()\n"
"func \"\".int64div (? int64, ? int64) int64\n" "func \"\".int64div (? int64, ? int64) int64\n"
"func \"\".uint64div (? uint64, ? uint64) uint64\n" "func \"\".uint64div (? uint64, ? uint64) uint64\n"

View File

@ -1092,6 +1092,12 @@ smallintconst(Node *n)
case TBOOL: case TBOOL:
case TPTR32: case TPTR32:
return 1; return 1;
case TINT64:
case TUINT64:
if(mpcmpfixfix(n->val.u.xval, minintval[TINT32]) < 0
|| mpcmpfixfix(n->val.u.xval, maxintval[TINT32]) > 0)
break;
return 1;
} }
return 0; return 0;
} }

View File

@ -536,7 +536,7 @@ mpgetfix(Mpint *a)
vlong v; vlong v;
if(a->ovf) { if(a->ovf) {
yyerror("ovf in mpgetfix"); yyerror("constant overflow");
return 0; return 0;
} }

View File

@ -99,9 +99,9 @@ func selectdefault(sel *byte) (selected bool)
func selectgo(sel *byte) func selectgo(sel *byte)
func makeslice(typ *byte, nel int64, cap int64) (ary []any) func makeslice(typ *byte, nel int64, cap int64) (ary []any)
func sliceslice1(old []any, lb int, width int) (ary []any) func sliceslice1(old []any, lb uint64, width uint64) (ary []any)
func sliceslice(old []any, lb int, hb int, width int) (ary []any) func sliceslice(old []any, lb uint64, hb uint64, width uint64) (ary []any)
func slicearray(old *any, nel int, lb int, hb int, width int) (ary []any) func slicearray(old *any, nel uint64, lb uint64, hb uint64, width uint64) (ary []any)
func closure() // has args, but compiler fills in func closure() // has args, but compiler fills in

View File

@ -561,7 +561,7 @@ reswitch:
goto error; goto error;
case TARRAY: case TARRAY:
defaultlit(&n->right, types[TUINT]); defaultlit(&n->right, T);
if(n->right->type != T && !isint[n->right->type->etype]) if(n->right->type != T && !isint[n->right->type->etype])
yyerror("non-integer array index %#N", n->right); yyerror("non-integer array index %#N", n->right);
n->type = t->type; n->type = t->type;
@ -635,8 +635,8 @@ reswitch:
typecheck(&n->right->left, Erv); typecheck(&n->right->left, Erv);
typecheck(&n->right->right, Erv); typecheck(&n->right->right, Erv);
defaultlit(&n->left, T); defaultlit(&n->left, T);
defaultlit(&n->right->left, types[TUINT]); defaultlit(&n->right->left, T);
defaultlit(&n->right->right, types[TUINT]); defaultlit(&n->right->right, T);
if(isfixedarray(n->left->type)) { if(isfixedarray(n->left->type)) {
// Insert explicit & before fixed array // Insert explicit & before fixed array
// so that back end knows to move to heap. // so that back end knows to move to heap.

View File

@ -565,6 +565,7 @@ walkexpr(Node **np, NodeList **init)
NodeList *ll, *lr, *lpost; NodeList *ll, *lr, *lpost;
Type *t; Type *t;
int et; int et;
int64 v, v1, v2, len;
int32 lno; int32 lno;
Node *n, *fn; Node *n, *fn;
char buf[100], *p; char buf[100], *p;
@ -1023,6 +1024,18 @@ walkexpr(Node **np, NodeList **init)
if((1<<(8*n->right->type->width)) <= n->left->type->bound) if((1<<(8*n->right->type->width)) <= n->left->type->bound)
n->etype = 1; n->etype = 1;
// check for static out of bounds
if(isconst(n->right, CTINT) && !n->etype) {
v = mpgetfix(n->right->val.u.xval);
len = 1LL<<60;
t = n->left->type;
if(t != T && isptr[t->etype])
t = t->type;
if(isfixedarray(t))
len = t->bound;
if(v < 0 || v >= (1LL<<31) || v >= len)
yyerror("index out of bounds");
}
goto ret; goto ret;
case OINDEXMAP: case OINDEXMAP:
@ -1039,36 +1052,6 @@ walkexpr(Node **np, NodeList **init)
goto ret; goto ret;
case OSLICE: case OSLICE:
walkexpr(&n->left, init);
n->left = safeexpr(n->left, init);
walkexpr(&n->right->left, init);
n->right->left = safeexpr(n->right->left, init);
walkexpr(&n->right->right, init);
n->right->right = safeexpr(n->right->right, init);
// dynamic slice
// sliceslice(old []any, lb int, hb int, width int) (ary []any)
// sliceslice1(old []any, lb int, width int) (ary []any)
t = n->type;
if(n->right->right != N) {
fn = syslook("sliceslice", 1);
argtype(fn, t->type); // any-1
argtype(fn, t->type); // any-2
n = mkcall1(fn, t, init,
n->left,
conv(n->right->left, types[TINT]),
conv(n->right->right, types[TINT]),
nodintconst(t->type->width));
} else {
fn = syslook("sliceslice1", 1);
argtype(fn, t->type); // any-1
argtype(fn, t->type); // any-2
n = mkcall1(fn, t, init,
n->left,
conv(n->right->left, types[TINT]),
nodintconst(t->type->width));
}
goto ret;
case OSLICEARR: case OSLICEARR:
walkexpr(&n->left, init); walkexpr(&n->left, init);
n->left = safeexpr(n->left, init); n->left = safeexpr(n->left, init);
@ -1076,8 +1059,65 @@ walkexpr(Node **np, NodeList **init)
n->right->left = safeexpr(n->right->left, init); n->right->left = safeexpr(n->right->left, init);
walkexpr(&n->right->right, init); walkexpr(&n->right->right, init);
n->right->right = safeexpr(n->right->right, init); n->right->right = safeexpr(n->right->right, init);
len = 1LL<<60;
t = n->left->type;
if(t != T && isptr[t->etype])
t = t->type;
if(isfixedarray(t))
len = t->bound;
// check for static out of bounds
// NOTE: v > len not v >= len.
v1 = -1;
v2 = -1;
if(isconst(n->right->left, CTINT)) {
v1 = mpgetfix(n->right->left->val.u.xval);
if(v1 < 0 || v1 >= (1LL<<31) || v1 > len) {
yyerror("slice index out of bounds");
v1 = -1;
}
}
if(isconst(n->right->right, CTINT)) {
v2 = mpgetfix(n->right->right->val.u.xval);
if(v2 < 0 || v2 >= (1LL<<31) || v2 > len) {
yyerror("slice index out of bounds");
v2 = -1;
}
}
if(v1 >= 0 && v2 >= 0 && v1 > v2)
yyerror("inverted slice range");
if(n->op == OSLICEARR)
goto slicearray;
// dynamic slice
// sliceslice(old []any, lb uint64, hb uint64, width uint64) (ary []any)
// sliceslice1(old []any, lb uint64, width uint64) (ary []any)
t = n->type;
if(n->right->right != N) {
fn = syslook("sliceslice", 1);
argtype(fn, t->type); // any-1
argtype(fn, t->type); // any-2
n = mkcall1(fn, t, init,
n->left,
conv(n->right->left, types[TUINT64]),
conv(n->right->right, types[TUINT64]),
nodintconst(t->type->width));
} else {
fn = syslook("sliceslice1", 1);
argtype(fn, t->type); // any-1
argtype(fn, t->type); // any-2
n = mkcall1(fn, t, init,
n->left,
conv(n->right->left, types[TUINT64]),
nodintconst(t->type->width));
}
goto ret;
slicearray:
// static slice // static slice
// slicearray(old *any, nel int, lb int, hb int, width int) (ary []any) // slicearray(old *any, uint64 nel, lb uint64, hb uint64, width uint64) (ary []any)
t = n->type; t = n->type;
fn = syslook("slicearray", 1); fn = syslook("slicearray", 1);
argtype(fn, n->left->type); // any-1 argtype(fn, n->left->type); // any-1
@ -1085,16 +1125,16 @@ walkexpr(Node **np, NodeList **init)
if(n->right->right == N) if(n->right->right == N)
r = nodintconst(n->left->type->bound); r = nodintconst(n->left->type->bound);
else else
r = conv(n->right->right, types[TINT]); r = conv(n->right->right, types[TUINT64]);
n = mkcall1(fn, t, init, n = mkcall1(fn, t, init,
nod(OADDR, n->left, N), nodintconst(n->left->type->bound), nod(OADDR, n->left, N), nodintconst(n->left->type->bound),
conv(n->right->left, types[TINT]), conv(n->right->left, types[TUINT64]),
r, r,
nodintconst(t->type->width)); nodintconst(t->type->width));
goto ret; goto ret;
case OCONVSLICE: case OCONVSLICE:
// slicearray(old *any, nel int, lb int, hb int, width int) (ary []any) // slicearray(old *any, uint64 nel, lb uint64, hb uint64, width uint64) (ary []any)
fn = syslook("slicearray", 1); fn = syslook("slicearray", 1);
argtype(fn, n->left->type->type); // any-1 argtype(fn, n->left->type->type); // any-1
argtype(fn, n->type->type); // any-2 argtype(fn, n->type->type); // any-2

View File

@ -39,9 +39,9 @@ void
} }
} }
// sliceslice(old []any, lb int, hb int, width int) (ary []any); // sliceslice(old []any, lb uint64, hb uint64, width uint64) (ary []any);
void void
·sliceslice(Slice old, uint32 lb, uint32 hb, uint32 width, Slice ret) ·sliceslice(Slice old, uint64 lb, uint64 hb, uint64 width, Slice ret)
{ {
if(hb > old.cap || lb > hb) { if(hb > old.cap || lb > hb) {
if(debug) { if(debug) {
@ -86,9 +86,9 @@ void
} }
} }
// sliceslice1(old []any, lb int, width int) (ary []any); // sliceslice1(old []any, lb uint64, width uint64) (ary []any);
void void
·sliceslice1(Slice old, uint32 lb, uint32 width, Slice ret) ·sliceslice1(Slice old, uint64 lb, uint64 width, Slice ret)
{ {
if(lb > old.len) { if(lb > old.len) {
if(debug) { if(debug) {
@ -129,9 +129,9 @@ void
} }
} }
// slicearray(old *any, nel int, lb int, hb int, width int) (ary []any); // slicearray(old *any, nel uint64, lb uint64, hb uint64, width uint64) (ary []any);
void void
·slicearray(byte* old, uint32 nel, uint32 lb, uint32 hb, uint32 width, Slice ret) ·slicearray(byte* old, uint64 nel, uint64 lb, uint64 hb, uint64 width, Slice ret)
{ {
if(nel > 0 && old == nil) { if(nel > 0 && old == nil) {
// crash if old == nil. // crash if old == nil.

224
test/index.go Normal file
View File

@ -0,0 +1,224 @@
// $G $D/$F.go && $L $F.$A &&
// ./$A.out -pass 0 >tmp.go && $G tmp.go && $L -o tmp1.$A tmp.$A && ./tmp1.$A &&
// ./$A.out -pass 1 >tmp.go && errchk $G -e tmp.go &&
// ./$A.out -pass 2 >tmp.go && errchk $G -e tmp.go
// rm -f tmp.go
// Copyright 2010 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.
// Generate test of index and slice bounds checks.
package main
import (
"bufio"
"flag"
"fmt"
"os"
)
const prolog = `
package main
import (
"runtime"
)
type quad struct { x, y, z, w int }
const (
cj = 11
ci int = 12
ci32 int32 = 13
ci64 int64 = 14
ci64big int64 = 1<<31
ci64bigger int64 = 1<<32
chuge = 1<<100
cnj = -2
cni int = -3
cni32 int32 = -4
cni64 int64 = -5
cni64big int64 = -1<<31
cni64bigger int64 = -1<<32
cnhuge = -1<<100
)
var j int = 20
var i int = 21
var i32 int32 = 22
var i64 int64 = 23
var i64big int64 = 1<<31
var i64bigger int64 = 1<<32
var huge uint64 = 1<<64 - 1
var nj int = -10
var ni int = -11
var ni32 int32 = -12
var ni64 int64 = -13
var ni64big int64 = -1<<31
var ni64bigger int64 = -1<<32
var nhuge int64 = -1<<63
var si []int = make([]int, 10)
var ai [10]int
var pai *[10]int = &ai
var sq []quad = make([]quad, 10)
var aq [10]quad
var paq *[10]quad = &aq
type T struct {
si []int
ai [10]int
pai *[10]int
sq []quad
aq [10]quad
paq *[10]quad
}
var t = T{si, ai, pai, sq, aq, paq}
var pt = &T{si, ai, pai, sq, aq, paq}
// test that f panics
func test(f func(), s string) {
defer func() {
if err := recover(); err == nil {
_, file, line, _ := runtime.Caller(2)
bug()
print(file, ":", line, ": ", s, " did not panic\n")
}
}()
f()
}
var X interface{}
func use(y interface{}) {
X = y
}
var didBug = false
func bug() {
if !didBug {
didBug = true
println("BUG")
}
}
func main() {
`
// Passes:
// 0 - dynamic checks
// 1 - static checks of invalid constants (cannot assign to types)
// 2 - static checks of array bounds
var pass = flag.Int("pass", 0, "which test (0,1,2)")
func testExpr(b *bufio.Writer, expr string) {
if *pass == 0 {
fmt.Fprintf(b, "\ttest(func(){use(%s)}, %q)\n", expr, expr)
} else {
fmt.Fprintf(b, "\tuse(%s) // ERROR \"index|overflow\"\n", expr)
}
}
func main() {
b := bufio.NewWriter(os.Stdout)
flag.Parse()
if *pass == 0 {
fmt.Fprint(b, "// $G $D/$F.go && $L $F.$A && ./$A.out\n\n")
} else {
fmt.Fprint(b, "// errchk $G -e $D/$F.go\n\n")
}
fmt.Fprint(b, prolog)
var choices = [][]string{
// Direct value, fetch from struct, fetch from struct pointer.
// The last two cases get us to oindex_const_sudo in gsubr.c.
[]string{"", "t.", "pt."},
// Array, pointer to array, slice.
[]string{"a", "pa", "s"},
// Element is int, element is quad (struct).
// This controls whether we end up in gsubr.c (i) or cgen.c (q).
[]string{"i", "q"},
// Variable or constant.
[]string{"", "c"},
// Positive or negative.
[]string{"", "n"},
// Size of index.
[]string{"j", "i", "i32", "i64", "i64big", "i64bigger", "huge"},
}
forall(choices, func(x []string) {
p, a, e, c, n, i := x[0], x[1], x[2], x[3], x[4], x[5]
// Pass: dynamic=0, static=1, 2.
// Which cases should be caught statically?
// Only constants, obviously.
// Beyond that, must be one of these:
// indexing into array or pointer to array
// negative constant
// large constant
thisPass := 0
if c == "c" && (a == "a" || a == "pa" || n == "n" || i == "i64big" || i == "i64bigger" || i == "huge") {
if i == "huge" {
// Due to a detail of 6g's internals,
// the huge constant errors happen in an
// earlier pass than the others and inhibits
// the next pass from running.
// So run it as a separate check.
thisPass = 1
} else {
thisPass = 2
}
}
// Only print the test case if it is appropriate for this pass.
if thisPass == *pass {
pae := p+a+e
cni := c+n+i
// Index operation
testExpr(b, pae + "[" + cni + "]")
// Slice operation.
// Low index 0 is a special case in ggen.c
// so test both 0 and 1.
testExpr(b, pae + "[0:" + cni + "]")
testExpr(b, pae + "[1:" + cni + "]")
testExpr(b, pae + "[" + cni + ":]")
testExpr(b, pae + "[" + cni + ":" + cni + "]")
}
})
fmt.Fprintln(b, "}")
b.Flush()
}
func forall(choices [][]string, f func([]string)) {
x := make([]string, len(choices))
var recurse func(d int)
recurse = func(d int) {
if d >= len(choices) {
f(x)
return
}
for _, x[d] = range choices[d] {
recurse(d+1)
}
}
recurse(0)
}

View File

@ -52,7 +52,9 @@ func test2() {
func test3() { func test3() {
defer mustRecover("slice") defer mustRecover("slice")
println(x[11:9]) var lo = 11
var hi = 9
println(x[lo:hi])
} }
func test4() { func test4() {