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提交 ca853f23 编写于 作者: R roland
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8066103: C2's range check smearing allows out of bound array accesses 

Summary: range check smearing uncorrectly adjust first range check in a list of range checks to cover all of them
Reviewed-by: jrose, kvn, iveresov
上级 4be151aa
隐藏空白更改
内联 并排
Showing with 549 addition and 50 deletion
src/share/vm/opto/ifnode.cpp
浏览文件 @ ca853f23
......@@ -820,6 +820,11 @@ static Node *remove_useless_bool(IfNode *iff, PhaseGVN *phase) {
static IfNode* idealize_test(PhaseGVN* phase, IfNode* iff);
struct RangeCheck {
Node* ctl;
jint off;
};
//------------------------------Ideal------------------------------------------
// Return a node which is more "ideal" than the current node. Strip out
// control copies
......@@ -861,83 +866,141 @@ Node *IfNode::Ideal(PhaseGVN *phase, bool can_reshape) {
jint offset1;
int flip1 = is_range_check(range1, index1, offset1);
if( flip1 ) {
Node *first_prev_dom = NULL;
// Try to remove extra range checks. All 'up_one_dom' gives up at merges
// so all checks we inspect post-dominate the top-most check we find.
// If we are going to fail the current check and we reach the top check
// then we are guaranteed to fail, so just start interpreting there.
// We 'expand' the top 2 range checks to include all post-dominating
// We 'expand' the top 3 range checks to include all post-dominating
// checks.
// The top 2 range checks seen
Node *prev_chk1 = NULL;
Node *prev_chk2 = NULL;
// The top 3 range checks seen
const int NRC =3;
RangeCheck prev_checks[NRC];
int nb_checks = 0;
// Low and high offsets seen so far
jint off_lo = offset1;
jint off_hi = offset1;
// Scan for the top 2 checks and collect range of offsets
for( int dist = 0; dist < 999; dist++ ) { // Range-Check scan limit
if( dom->Opcode() == Op_If && // Not same opcode?
prev_dom->in(0) == dom ) { // One path of test does dominate?
if( dom == this ) return NULL; // dead loop
bool found_immediate_dominator = false;
// Scan for the top checks and collect range of offsets
for (int dist = 0; dist < 999; dist++) { // Range-Check scan limit
if (dom->Opcode() == Op_If && // Not same opcode?
prev_dom->in(0) == dom) { // One path of test does dominate?
if (dom == this) return NULL; // dead loop
// See if this is a range check
Node *index2, *range2;
jint offset2;
int flip2 = dom->as_If()->is_range_check(range2, index2, offset2);
// See if this is a _matching_ range check, checking against
// the same array bounds.
if( flip2 == flip1 && range2 == range1 && index2 == index1 &&
dom->outcnt() == 2 ) {
if (flip2 == flip1 && range2 == range1 && index2 == index1 &&
dom->outcnt() == 2) {
if (nb_checks == 0 && dom->in(1) == in(1)) {
// Found an immediately dominating test at the same offset.
// This kind of back-to-back test can be eliminated locally,
// and there is no need to search further for dominating tests.
assert(offset2 == offset1, "Same test but different offsets");
found_immediate_dominator = true;
break;
}
// Gather expanded bounds
off_lo = MIN2(off_lo,offset2);
off_hi = MAX2(off_hi,offset2);
// Record top 2 range checks
prev_chk2 = prev_chk1;
prev_chk1 = prev_dom;
// If we match the test exactly, then the top test covers
// both our lower and upper bounds.
if( dom->in(1) == in(1) )
prev_chk2 = prev_chk1;
// Record top NRC range checks
prev_checks[nb_checks%NRC].ctl = prev_dom;
prev_checks[nb_checks%NRC].off = offset2;
nb_checks++;
}
}
prev_dom = dom;
dom = up_one_dom( dom );
if( !dom ) break;
dom = up_one_dom(dom);
if (!dom) break;
}
if (!found_immediate_dominator) {
// Attempt to widen the dominating range check to cover some later
// ones. Since range checks "fail" by uncommon-trapping to the
// interpreter, widening a check can make us speculatively enter
// the interpreter. If we see range-check deopt's, do not widen!
if (!phase->C->allow_range_check_smearing()) return NULL;
// Attempt to widen the dominating range check to cover some later
// ones. Since range checks "fail" by uncommon-trapping to the
// interpreter, widening a check can make us speculative enter the
// interpreter. If we see range-check deopt's, do not widen!
if (!phase->C->allow_range_check_smearing()) return NULL;
// Constant indices only need to check the upper bound.
// Non-constance indices must check both low and high.
if( index1 ) {
// Didn't find 2 prior covering checks, so cannot remove anything.
if( !prev_chk2 ) return NULL;
// 'Widen' the offsets of the 1st and 2nd covering check
adjust_check( prev_chk1, range1, index1, flip1, off_lo, igvn );
// Do not call adjust_check twice on the same projection
// as the first call may have transformed the BoolNode to a ConI
if( prev_chk1 != prev_chk2 ) {
adjust_check( prev_chk2, range1, index1, flip1, off_hi, igvn );
}
// Test is now covered by prior checks, dominate it out
prev_dom = prev_chk2;
} else {
// Didn't find prior covering check, so cannot remove anything.
if( !prev_chk1 ) return NULL;
// 'Widen' the offset of the 1st and only covering check
adjust_check( prev_chk1, range1, index1, flip1, off_hi, igvn );
// Test is now covered by prior checks, dominate it out
prev_dom = prev_chk1;
if (nb_checks == 0) {
return NULL;
}
// Constant indices only need to check the upper bound.
// Non-constant indices must check both low and high.
int chk0 = (nb_checks - 1) % NRC;
if (index1) {
if (nb_checks == 1) {
return NULL;
} else {
// If the top range check's constant is the min or max of
// all constants we widen the next one to cover the whole
// range of constants.
RangeCheck rc0 = prev_checks[chk0];
int chk1 = (nb_checks - 2) % NRC;
RangeCheck rc1 = prev_checks[chk1];
if (rc0.off == off_lo) {
adjust_check(rc1.ctl, range1, index1, flip1, off_hi, igvn);
prev_dom = rc1.ctl;
} else if (rc0.off == off_hi) {
adjust_check(rc1.ctl, range1, index1, flip1, off_lo, igvn);
prev_dom = rc1.ctl;
} else {
// If the top test's constant is not the min or max of all
// constants, we need 3 range checks. We must leave the
// top test unchanged because widening it would allow the
// accesses it protects to successfully read/write out of
// bounds.
if (nb_checks == 2) {
return NULL;
}
int chk2 = (nb_checks - 3) % NRC;
RangeCheck rc2 = prev_checks[chk2];
// The top range check a+i covers interval: -a <= i < length-a
// The second range check b+i covers interval: -b <= i < length-b
if (rc1.off <= rc0.off) {
// if b <= a, we change the second range check to:
// -min_of_all_constants <= i < length-min_of_all_constants
// Together top and second range checks now cover:
// -min_of_all_constants <= i < length-a
// which is more restrictive than -b <= i < length-b:
// -b <= -min_of_all_constants <= i < length-a <= length-b
// The third check is then changed to:
// -max_of_all_constants <= i < length-max_of_all_constants
// so 2nd and 3rd checks restrict allowed values of i to:
// -min_of_all_constants <= i < length-max_of_all_constants
adjust_check(rc1.ctl, range1, index1, flip1, off_lo, igvn);
adjust_check(rc2.ctl, range1, index1, flip1, off_hi, igvn);
} else {
// if b > a, we change the second range check to:
// -max_of_all_constants <= i < length-max_of_all_constants
// Together top and second range checks now cover:
// -a <= i < length-max_of_all_constants
// which is more restrictive than -b <= i < length-b:
// -b < -a <= i < length-max_of_all_constants <= length-b
// The third check is then changed to:
// -max_of_all_constants <= i < length-max_of_all_constants
// so 2nd and 3rd checks restrict allowed values of i to:
// -min_of_all_constants <= i < length-max_of_all_constants
adjust_check(rc1.ctl, range1, index1, flip1, off_hi, igvn);
adjust_check(rc2.ctl, range1, index1, flip1, off_lo, igvn);
}
prev_dom = rc2.ctl;
}
}
} else {
RangeCheck rc0 = prev_checks[chk0];
// 'Widen' the offset of the 1st and only covering check
adjust_check(rc0.ctl, range1, index1, flip1, off_hi, igvn);
// Test is now covered by prior checks, dominate it out
prev_dom = rc0.ctl;
}
}
} else { // Scan for an equivalent test
Node *cmp;
......@@ -1019,7 +1082,7 @@ void IfNode::dominated_by( Node *prev_dom, PhaseIterGVN *igvn ) {
// for lower and upper bounds.
ProjNode* unc_proj = proj_out(1 - prev_dom->as_Proj()->_con)->as_Proj();
if (unc_proj->is_uncommon_trap_proj(Deoptimization::Reason_predicate))
prev_dom = idom;
prev_dom = idom;
// Now walk the current IfNode's projections.
// Loop ends when 'this' has no more uses.
......
test/compiler/rangechecks/TestRangeCheckSmearing.java 0 → 100644
浏览文件 @ ca853f23
/*
* Copyright (c) 2014, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/*
* @test
* @bug 8066103
* @summary C2's range check smearing allows out of bound array accesses
* @library /testlibrary /testlibrary/whitebox /compiler/whitebox /testlibrary/com/oracle/java/testlibrary
* @build TestRangeCheckSmearing
* @run main ClassFileInstaller sun.hotspot.WhiteBox
* @run main ClassFileInstaller com.oracle.java.testlibrary.Platform
* @run main/othervm -ea -Xmixed -Xbootclasspath/a:. -XX:+UnlockDiagnosticVMOptions -XX:+WhiteBoxAPI
* -XX:-BackgroundCompilation -XX:-UseOnStackReplacement TestRangeCheckSmearing
*
*/
import java.lang.annotation.*;
import java.lang.reflect.*;
import java.util.*;
import sun.hotspot.WhiteBox;
import sun.hotspot.code.NMethod;
import com.oracle.java.testlibrary.Platform;
public class TestRangeCheckSmearing {
private static final WhiteBox WHITE_BOX = WhiteBox.getWhiteBox();
@Retention(RetentionPolicy.RUNTIME)
@interface Args { int[] value(); }
// first range check is i + max of all constants
@Args({0, 8})
static int m1(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+9];
if (allaccesses) {
res += array[i+8];
res += array[i+7];
res += array[i+6];
res += array[i+5];
res += array[i+4];
res += array[i+3];
res += array[i+2];
res += array[i+1];
}
return res;
}
// first range check is i + min of all constants
@Args({0, -9})
static int m2(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+1];
if (allaccesses) {
res += array[i+2];
res += array[i+3];
res += array[i+4];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
// first range check is not i + min/max of all constants
@Args({0, 8})
static int m3(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
if (allaccesses) {
res += array[i+2];
res += array[i+1];
res += array[i+4];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
@Args({0, -9})
static int m4(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
if (allaccesses) {
res += array[i+4];
res += array[i+1];
res += array[i+2];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
@Args({0, -3})
static int m5(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
res += array[i+2];
if (allaccesses) {
res += array[i+1];
res += array[i+4];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
@Args({0, 6})
static int m6(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
res += array[i+4];
if (allaccesses) {
res += array[i+2];
res += array[i+1];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
@Args({0, 6})
static int m7(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
res += array[i+2];
res += array[i+4];
if (allaccesses) {
res += array[i+1];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
@Args({0, -3})
static int m8(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
res += array[i+4];
res += array[i+2];
if (allaccesses) {
res += array[i+1];
res += array[i+5];
res += array[i+6];
res += array[i+7];
res += array[i+8];
res += array[i+9];
}
return res;
}
@Args({6, 15})
static int m9(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
if (allaccesses) {
res += array[i-2];
res += array[i-1];
res += array[i-4];
res += array[i-5];
res += array[i-6];
}
return res;
}
@Args({3, 12})
static int m10(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
if (allaccesses) {
res += array[i-2];
res += array[i-1];
res += array[i-3];
res += array[i+4];
res += array[i+5];
res += array[i+6];
}
return res;
}
@Args({3, -3})
static int m11(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
res += array[i-2];
if (allaccesses) {
res += array[i+5];
res += array[i+6];
}
return res;
}
@Args({3, 6})
static int m12(int[] array, int i, boolean allaccesses) {
int res = 0;
res += array[i+3];
res += array[i+6];
if (allaccesses) {
res += array[i-2];
res += array[i-3];
}
return res;
}
// check that identical range check is replaced by dominating one
// only when correct
@Args({0})
static int m13(int[] array, int i, boolean ignore) {
int res = 0;
res += array[i+3];
res += array[i+3];
return res;
}
@Args({2, 0})
static int m14(int[] array, int i, boolean ignore) {
int res = 0;
res += array[i];
res += array[i-2];
res += array[i]; // If range check below were to be removed first this cannot be considered identical to first range check
res += array[i-1]; // range check removed so i-1 array access depends on previous check
return res;
}
static int[] m15_dummy = new int[10];
@Args({2, 0})
static int m15(int[] array, int i, boolean ignore) {
int res = 0;
res += array[i];
// When the loop is optimized out we don't want the
// array[i-1] access which is dependent on array[i]'s
// range check to become dependent on the identical range
// check above.
int[] array2 = m15_dummy;
int j = 0;
for (; j < 10; j++);
if (j == 10) {
array2 = array;
}
res += array2[i-2];
res += array2[i];
res += array2[i-1]; // range check removed so i-1 array access depends on previous check
return res;
}
@Args({2, 0})
static int m16(int[] array, int i, boolean ignore) {
int res = 0;
res += array[i];
res += array[i-1];
res += array[i-1];
res += array[i-2];
return res;
}
@Args({2, 0})
static int m17(int[] array, int i, boolean ignore) {
int res = 0;
res += array[i];
res += array[i-2];
res += array[i-2];
res += array[i+2];
res += array[i+2];
res += array[i-1];
res += array[i-1];
return res;
}
static public void main(String[] args) {
if (WHITE_BOX.getBooleanVMFlag("BackgroundCompilation")) {
throw new AssertionError("Background compilation enabled");
}
new TestRangeCheckSmearing().doTests();
}
boolean success = true;
boolean exception = false;
final int[] array = new int[10];
final HashMap<String,Method> tests = new HashMap<>();
{
final Class<?> TEST_PARAM_TYPES[] = { int[].class, int.class, boolean.class };
for (Method m : this.getClass().getDeclaredMethods()) {
if (m.getName().matches("m[0-9]+")) {
assert(Modifier.isStatic(m.getModifiers())) : m;
assert(m.getReturnType() == int.class) : m;
assert(Arrays.equals(m.getParameterTypes(), TEST_PARAM_TYPES)) : m;
tests.put(m.getName(), m);
}
}
}
void invokeTest(Method m, int[] array, int index, boolean z) {
try {
m.invoke(null, array, index, z);
} catch (ReflectiveOperationException roe) {
Throwable ex = roe.getCause();
if (ex instanceof ArrayIndexOutOfBoundsException)
throw (ArrayIndexOutOfBoundsException) ex;
throw new AssertionError(roe);
}
}
void doTest(String name) {
Method m = tests.get(name);
tests.remove(name);
int[] args = m.getAnnotation(Args.class).value();
int index0 = args[0], index1;
boolean exceptionRequired = true;
if (args.length == 2) {
index1 = args[1];
} else {
// no negative test for this one
assert(args.length == 1);
assert(name.equals("m13"));
exceptionRequired = false;
index1 = index0;
}
// Get the method compiled.
if (!WHITE_BOX.isMethodCompiled(m)) {
// If not, try to compile it with C2
if(!WHITE_BOX.enqueueMethodForCompilation(m, CompilerWhiteBoxTest.COMP_LEVEL_FULL_OPTIMIZATION)) {
// C2 compiler not available, try to compile with C1
WHITE_BOX.enqueueMethodForCompilation(m, CompilerWhiteBoxTest.COMP_LEVEL_SIMPLE);
}
}
if (!WHITE_BOX.isMethodCompiled(m)) {
throw new RuntimeException(m + " not compiled");
}
// valid access
invokeTest(m, array, index0, true);
if (!WHITE_BOX.isMethodCompiled(m)) {
throw new RuntimeException(m + " deoptimized on valid array access");
}
exception = false;
boolean test_success = true;
try {
invokeTest(m, array, index1, false);
} catch(ArrayIndexOutOfBoundsException aioob) {
exception = true;
System.out.println("ArrayIndexOutOfBoundsException thrown in "+name);
}
if (!exception) {
System.out.println("ArrayIndexOutOfBoundsException was not thrown in "+name);
}
if (Platform.isServer()) {
if (exceptionRequired == WHITE_BOX.isMethodCompiled(m)) {
System.out.println((exceptionRequired?"Didn't deoptimized":"deoptimized") + " in "+name);
test_success = false;
}
}
if (exception != exceptionRequired) {
System.out.println((exceptionRequired?"exception required but not thrown":"not exception required but thrown") + " in "+name);
test_success = false;
}
if (!test_success) {
success = false;
System.out.println("TEST FAILED: "+name);
}
}
void doTests() {
doTest("m1");
doTest("m2");
doTest("m3");
doTest("m4");
doTest("m5");
doTest("m6");
doTest("m7");
doTest("m8");
doTest("m9");
doTest("m10");
doTest("m11");
doTest("m12");
doTest("m13");
doTest("m14");
doTest("m15");
doTest("m16");
doTest("m17");
if (!success) {
throw new RuntimeException("Some tests failed");
}
assert(tests.isEmpty()) : tests;
}
}
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