Bug 1082107 - OdinMonkey: add maximum-length requirement to change-heap definition (r=bbouvier)

--HG--
extra : rebase_source : 71f2500219da94cf38c4f76ba52b0d1d61c97e38
This commit is contained in:
Luke Wagner 2014-10-15 09:09:44 -05:00
Родитель 71bba5063f
Коммит 8bfb973b6e
7 изменённых файлов: 152 добавлений и 100 удалений

Просмотреть файл

@ -472,6 +472,14 @@ LinkModuleToHeap(JSContext *cx, AsmJSModule &module, Handle<ArrayBufferObjectMay
return LinkFail(cx, msg.get());
}
if (heapLength > module.maxHeapLength()) {
ScopedJSFreePtr<char> msg(
JS_smprintf("ArrayBuffer byteLength 0x%x is greater than maximum length of 0x%x",
heapLength,
module.maxHeapLength()));
return LinkFail(cx, msg.get());
}
// If we've generated the code with signal handlers in mind (for bounds
// checks on x64 and for interrupt callback requesting on all platforms),
// we need to be able to use signals at runtime. In particular, a module
@ -571,7 +579,10 @@ ChangeHeap(JSContext *cx, AsmJSModule &module, CallArgs args)
Rooted<ArrayBufferObject*> newBuffer(cx, &bufferArg.toObject().as<ArrayBufferObject>());
uint32_t heapLength = newBuffer->byteLength();
if (heapLength & module.heapLengthMask() || heapLength < module.minHeapLength()) {
if (heapLength & module.heapLengthMask() ||
heapLength < module.minHeapLength() ||
heapLength > module.maxHeapLength())
{
args.rval().set(BooleanValue(false));
return true;
}

Просмотреть файл

@ -88,6 +88,7 @@ AsmJSModule::AsmJSModule(ScriptSource *scriptSource, uint32_t srcStart, uint32_t
pod.funcPtrTableAndExitBytes_ = SIZE_MAX;
pod.functionBytes_ = UINT32_MAX;
pod.minHeapLength_ = RoundUpToNextValidAsmJSHeapLength(0);
pod.maxHeapLength_ = 0x80000000;
pod.strict_ = strict;
pod.usesSignalHandlers_ = canUseSignalHandlers;

Просмотреть файл

@ -774,6 +774,7 @@ class AsmJSModule
size_t codeBytes_; // function bodies and stubs
size_t totalBytes_; // function bodies, stubs, and global data
uint32_t minHeapLength_;
uint32_t maxHeapLength_;
uint32_t heapLengthMask_;
uint32_t numGlobalScalarVars_;
uint32_t numGlobalSimdVars_;
@ -884,6 +885,9 @@ class AsmJSModule
uint32_t minHeapLength() const {
return pod.minHeapLength_;
}
uint32_t maxHeapLength() const {
return pod.maxHeapLength_;
}
uint32_t heapLengthMask() const {
MOZ_ASSERT(pod.hasFixedMinHeapLength_);
return pod.heapLengthMask_;
@ -1044,19 +1048,24 @@ class AsmJSModule
/*************************************************************************/
// These functions are called while parsing/compiling function bodies:
void addChangeHeap(uint32_t mask, uint32_t min) {
void addChangeHeap(uint32_t mask, uint32_t min, uint32_t max) {
MOZ_ASSERT(isFinishedWithModulePrologue());
MOZ_ASSERT(!pod.hasFixedMinHeapLength_);
MOZ_ASSERT(IsValidAsmJSHeapLength(mask + 1));
MOZ_ASSERT(min >= RoundUpToNextValidAsmJSHeapLength(0));
MOZ_ASSERT(max <= pod.maxHeapLength_);
MOZ_ASSERT(min <= max);
pod.heapLengthMask_ = mask;
pod.minHeapLength_ = min;
pod.maxHeapLength_ = max;
pod.hasFixedMinHeapLength_ = true;
}
bool tryRequireHeapLengthToBeAtLeast(uint32_t len) {
MOZ_ASSERT(isFinishedWithModulePrologue() && !isFinishedWithFunctionBodies());
if (pod.hasFixedMinHeapLength_ && len > pod.minHeapLength_)
return false;
if (len > pod.maxHeapLength_)
return false;
len = RoundUpToNextValidAsmJSHeapLength(len);
if (len > pod.minHeapLength_)
pod.minHeapLength_ = len;

Просмотреть файл

@ -1658,9 +1658,9 @@ class MOZ_STACK_CLASS ModuleCompiler
Global *global = moduleLifo_.new_<Global>(Global::ByteLength);
return global && globals_.putNew(name, global);
}
bool addChangeHeap(PropertyName *name, ParseNode *fn, uint32_t mask, uint32_t min) {
bool addChangeHeap(PropertyName *name, ParseNode *fn, uint32_t mask, uint32_t min, uint32_t max) {
hasChangeHeap_ = true;
module_->addChangeHeap(mask, min);
module_->addChangeHeap(mask, min, max);
Global *global = moduleLifo_.new_<Global>(Global::ChangeHeap);
if (!global)
return false;
@ -4164,8 +4164,9 @@ CheckArrayAccess(FunctionCompiler &f, ParseNode *elem, Scalar::Type *viewType,
unsigned elementSize = 1 << TypedArrayShift(*viewType);
if (!f.m().tryRequireHeapLengthToBeAtLeast(byteOffset + elementSize)) {
return f.failf(indexExpr, "constant index outside heap size declared by the "
"change-heap function (0x%x)", f.m().minHeapLength());
return f.failf(indexExpr, "constant index outside heap size range declared by the "
"change-heap function (0x%x - 0x%x)",
f.m().minHeapLength(), f.m().module().maxHeapLength());
}
*needsBoundsCheck = NO_BOUNDS_CHECK;
@ -6545,41 +6546,58 @@ CheckByteLengthCall(ModuleCompiler &m, ParseNode *pn, PropertyName *newBufferNam
static bool
CheckHeapLengthCondition(ModuleCompiler &m, ParseNode *cond, PropertyName *newBufferName,
uint32_t *mask, uint32_t *minimumLength)
uint32_t *mask, uint32_t *minLength, uint32_t *maxLength)
{
if (!cond->isKind(PNK_OR))
return m.fail(cond, "expecting byteLength & K || byteLength <= L");
if (!cond->isKind(PNK_OR) || !BinaryLeft(cond)->isKind(PNK_OR))
return m.fail(cond, "expecting byteLength & K || byteLength <= L || byteLength > M");
ParseNode *leftCond = BinaryLeft(cond);
ParseNode *rightCond = BinaryRight(cond);
ParseNode *cond1 = BinaryLeft(BinaryLeft(cond));
ParseNode *cond2 = BinaryRight(BinaryLeft(cond));
ParseNode *cond3 = BinaryRight(cond);
if (!leftCond->isKind(PNK_BITAND))
return m.fail(leftCond, "expecting byteLength & K");
if (!cond1->isKind(PNK_BITAND))
return m.fail(cond1, "expecting byteLength & K");
if (!CheckByteLengthCall(m, BinaryLeft(leftCond), newBufferName))
if (!CheckByteLengthCall(m, BinaryLeft(cond1), newBufferName))
return false;
ParseNode *maskNode = BinaryRight(leftCond);
ParseNode *maskNode = BinaryRight(cond1);
if (!IsLiteralInt(m, maskNode, mask))
return m.fail(maskNode, "expecting integer literal mask");
if ((*mask & 0xffffff) != 0xffffff)
return m.fail(maskNode, "mask value must have the bits 0xffffff set");
if (!rightCond->isKind(PNK_LE))
return m.fail(rightCond, "expecting byteLength <= L");
if (!cond2->isKind(PNK_LE))
return m.fail(cond2, "expecting byteLength <= L");
if (!CheckByteLengthCall(m, BinaryLeft(rightCond), newBufferName))
if (!CheckByteLengthCall(m, BinaryLeft(cond2), newBufferName))
return false;
ParseNode *minLengthNode = BinaryRight(rightCond);
ParseNode *minLengthNode = BinaryRight(cond2);
uint32_t minLengthExclusive;
if (!IsLiteralInt(m, minLengthNode, &minLengthExclusive))
return m.fail(minLengthNode, "expecting integer limit literal");
return m.fail(minLengthNode, "expecting integer literal");
if (minLengthExclusive < 0xffffff)
return m.fail(minLengthNode, "limit value must be >= 0xffffff");
return m.fail(minLengthNode, "literal must be >= 0xffffff");
// Add one to convert from exclusive (the branch rejects if ==) to inclusive.
*minimumLength = minLengthExclusive + 1;
*minLength = minLengthExclusive + 1;
if (!cond3->isKind(PNK_GT))
return m.fail(cond3, "expecting byteLength > M");
if (!CheckByteLengthCall(m, BinaryLeft(cond3), newBufferName))
return false;
ParseNode *maxLengthNode = BinaryRight(cond3);
if (!IsLiteralInt(m, maxLengthNode, maxLength))
return m.fail(maxLengthNode, "expecting integer literal");
if (*maxLength > 0x80000000)
return m.fail(maxLengthNode, "literal must be <= 0x80000000");
if (*maxLength < *minLength)
return m.fail(maxLengthNode, "maximum length must be greater or equal to minimum length");
return true;
}
@ -6665,8 +6683,8 @@ CheckChangeHeap(ModuleCompiler &m, ParseNode *fn, bool *validated)
if (ParseNode *elseStmt = TernaryKid3(stmtIter))
return m.fail(elseStmt, "unexpected else statement");
uint32_t mask, min;
if (!CheckHeapLengthCondition(m, cond, newBufferName, &mask, &min))
uint32_t mask, min, max;
if (!CheckHeapLengthCondition(m, cond, newBufferName, &mask, &min, &max))
return false;
if (!CheckReturnBoolLiteral(m, thenStmt, false))
@ -6713,7 +6731,7 @@ CheckChangeHeap(ModuleCompiler &m, ParseNode *fn, bool *validated)
if (stmtIter)
return m.fail(stmtIter, "expecting end of function");
return m.addChangeHeap(changeHeapName, fn, mask, min);
return m.addChangeHeap(changeHeapName, fn, mask, min, max);
}
static bool

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@ -72,69 +72,80 @@ const IMPORT1 = "var I8=glob.Int8Array; var i8=new I8(b); " + BYTELENGTH_IMPORT;
const IMPORT2 = "var I8=glob.Int8Array; var i8=new I8(b); var I32=glob.Int32Array; var i32=new I32(b); var II32=glob.Int32Array; " + BYTELENGTH_IMPORT;
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function f() { return 42 } function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function b(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function f(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2=1) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2,xyz) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(...r) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2,...r) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch({b2}) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { ;if((len((b2))) & (0xffffff) || (len((b2)) <= (0xffffff))) {;;return false;;} ; i8=new I8(b2);; b=b2;; return true;; } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function ch2(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { 3; if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { b2=b2|0; if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function f() { return 42 } function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function b(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function f(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2=1) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2,xyz) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(...r) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2,...r) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch({b2}) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { ;if((len((b2))) & (0xffffff) || (len((b2)) <= (0xffffff)) || len(b2) > 0x80000000) {;;return false;;} ; i8=new I8(b2);; b=b2;; return true;; } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function ch2(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { 3; if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { b2=b2|0; if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1 || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1 & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || 1) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(i8(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(xyz) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff && len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) | 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) == 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xfffffe || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0x1ffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) < 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xfffffe) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0x1000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) ; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) {} i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) {return false} i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return true; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT0 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i7=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; b=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=1; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new 1; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I7(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new b(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(1); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2,1); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); xyz=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=1; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; 1; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return 1 } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return false } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true; 1 } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i32=new I32(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i32=new I32(b2); i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); i32=new I32(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I32(b2); i32=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); i32=new II32(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1 || 1) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1 || 1 || 1) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1 || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(1 & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || 1 || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(i8(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(xyz) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff && len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) | 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) == 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xfffffe || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0x1ffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) < 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xfffffe || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0x1000000 || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || 1) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) < 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || 1 > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0.0) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0xffffff) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x1000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0x1000000 || len(b2) > 0x1000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0x1000000 || len(b2) > 0x1000001) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000001) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) ; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) {} i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) {return false} i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return true; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT0 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i7=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; b=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=1; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new 1; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I7(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new b(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8; b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(1); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2,1); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); xyz=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=1; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; 1; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return 1 } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return false } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true; 1 } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i32=new I32(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i32=new I32(b2); i8=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); i32=new I32(b2); b=b2; return true } function f() { return 42 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I32(b2); i32=new I8(b2); b=b2; return true } function f() { return 42 } return f');
asmCompile('glob', 'ffis', 'b', USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); i32=new II32(b2); b=b2; return true } function f() { return 42 } return f');
// Tests for no calls in heap index expressions
const SETUP = USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i8=new I8(b2); i32=new I32(b2); b=b2; return true }';
const SETUP = USE_ASM + IMPORT2 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i8=new I8(b2); i32=new I32(b2); b=b2; return true }';
asmCompile('glob', 'ffis', 'b', SETUP + 'function f() { i32[0] } return f');
asmCompile('glob', 'ffis', 'b', SETUP + 'function f() { i32[0] = 0 } return f');
@ -152,26 +163,28 @@ assertAsmTypeFail('glob', 'ffis', 'b', SETUP + 'function f() { var i = 0; i32[i
// Tests for constant heap accesses when change-heap is used
const HEADER = USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & MASK || len(b2) <= MIN) return false; i8=new I8(b2); b=b2; return true } ';
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0xffffff') + 'function f() { i8[0x1000000] = 0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0xffffff') + 'function f() { i8[0xffffff] = 0 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0x1000000') + 'function f() { i8[0x1000001] = 0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0x1000000') + 'function f() { i8[0x1000000] = 0 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0xffffff') + 'function f() { return i8[0x1000000]|0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0xffffff') + 'function f() { return i8[0xffffff]|0 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0x1000000') + 'function f() { return i8[0x1000001]|0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MASK', '0xffffff').replace('MIN', '0x1000000') + 'function f() { return i8[0x1000000]|0 } return f');
const HEADER = USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= MIN || len(b2) > 0x80000000) return false; i8=new I8(b2); b=b2; return true } ';
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MIN', '0xffffff') + 'function f() { i8[0x1000000] = 0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MIN', '0xffffff') + 'function f() { i8[0xffffff] = 0 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MIN', '0x1000000') + 'function f() { i8[0x1000001] = 0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MIN', '0x1000000') + 'function f() { i8[0x1000000] = 0 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MIN', '0xffffff') + 'function f() { return i8[0x1000000]|0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MIN', '0xffffff') + 'function f() { return i8[0xffffff]|0 } return f');
assertAsmTypeFail('glob', 'ffis', 'b', HEADER.replace('MIN', '0x1000000') + 'function f() { return i8[0x1000001]|0 } return f');
asmCompile('glob', 'ffis', 'b', HEADER.replace('MIN', '0x1000000') + 'function f() { return i8[0x1000000]|0 } return f');
// Tests for validation of heap length
var body = USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & MASK || len(b2) <= MIN) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return ch';
var m = asmCompile('glob', 'ffis', 'b', body.replace('MASK', '0xffffff').replace('MIN', '0x1ffffff'));
var body = USE_ASM + IMPORT1 + 'function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0x1ffffff || len(b2) > 0x4000000) return false; i8=new I8(b2); b=b2; return true } function f() { return 42 } return ch';
var m = asmCompile('glob', 'ffis', 'b', body);
assertAsmLinkFail(m, this, null, new ArrayBuffer(BUF_CHANGE_MIN));
assertAsmLinkFail(m, this, null, new ArrayBuffer(0x1000000));
var changeHeap = asmLink(m, this, null, new ArrayBuffer(0x2000000));
assertEq(changeHeap(new ArrayBuffer(0x1000000)), false);
assertEq(changeHeap(new ArrayBuffer(0x2000000)), true);
assertEq(changeHeap(new ArrayBuffer(0x2000001)), false);
assertEq(changeHeap(new ArrayBuffer(0x4000000)), true);
assertEq(changeHeap(new ArrayBuffer(0x5000000)), false);
assertThrowsInstanceOf(() => changeHeap(null), TypeError);
assertThrowsInstanceOf(() => changeHeap({}), TypeError);
assertThrowsInstanceOf(() => changeHeap(new Int32Array(100)), TypeError);
@ -184,7 +197,7 @@ assertEq(changeHeap(detached), false);
const CHANGE_HEAP = 'var changeHeap = glob.byteLength;';
var changeHeapSource = `function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i32=new I32(b2); b=b2; return true }`;
var changeHeapSource = `function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i32=new I32(b2); b=b2; return true }`;
var body = `var I32=glob.Int32Array; var i32=new I32(b);
var len=glob.byteLength;` +
changeHeapSource +
@ -229,7 +242,7 @@ new Int32Array(buf2)[0] = 42;
var m = asmCompile('glob', 'ffis', 'b', USE_ASM +
`var len=glob.byteLength;
function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; b=b2; return true }
function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; b=b2; return true }
return ch`);
var changeHeap = asmLink(m, this, null, buf1);
changeHeap(buf2);
@ -246,7 +259,7 @@ var m = asmCompile('glob', 'ffis', 'b', USE_ASM +
`var ffi=ffis.ffi;
var I32=glob.Int32Array; var i32=new I32(b);
var len=glob.byteLength;
function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i32=new I32(b2); b=b2; return true }
function ch(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i32=new I32(b2); b=b2; return true }
function test(i) { i=i|0; var sum=0; sum = i32[i>>2]|0; sum = (sum + (ffi()|0))|0; sum = (sum + (i32[i>>2]|0))|0; return sum|0 }
return {test:test, changeHeap:ch}`);
var ffi = function() { changeHeap(changeToBuf); return 1 }

Просмотреть файл

@ -20,7 +20,7 @@ new Int32Array(buf2)[0] = 42;
var m = asmCompile('glob', 'ffis', 'b', USE_ASM +
`var I32=glob.Int32Array; var i32=new I32(b);
var len=glob.byteLength;
function changeHeap(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i32=new I32(b2); b=b2; return true }
function changeHeap(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i32=new I32(b2); b=b2; return true }
function f() {}
function loop(i) { i=i|0; while((i32[i>>2]|0) == 13) { f() } }
return {loop:loop, changeHeap:changeHeap}`);

Просмотреть файл

@ -18,7 +18,7 @@ new Int32Array(buf2)[0] = 42;
var m = asmCompile('glob', 'ffis', 'b', USE_ASM +
`var I32=glob.Int32Array; var i32=new I32(b);
var len=glob.byteLength;
function changeHeap(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff) return false; i32=new I32(b2); b=b2; return true }
function changeHeap(b2) { if(len(b2) & 0xffffff || len(b2) <= 0xffffff || len(b2) > 0x80000000) return false; i32=new I32(b2); b=b2; return true }
function f() {}
function loop(i) { i=i|0; while((i32[i>>2]|0) == 13) { f() } }
return {loop:loop, changeHeap:changeHeap}`);