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dart-sdk/runtime/vm/stack_frame_test.cc
Tess Strickland d06d627c79 [vm] Remove --[no-]lazy-dispatchers flag. 
No client of the VM uses this flag, only tests, and this flag was always
set to false in AOT mode. Thus, remove uses of this flag and instead
always lazily create dispatchers as needed when resolving method names
in JIT mode.

Remove the implicit value of `allow_add` for some Resolver
static methods. For callers that previously depended on the implicit
`true` value (which includes the AOT precompilier), pass `true` for
uses in the compiler and pass `!FLAG_precompiled_mode` for uses in the
runtime. Assert that `allow_add` is false when these methods are invoked
from the precompiled runtime.

Remove Resolver static methods that are no longer used.

TEST=ci

Change-Id: Ib6a7354f7a859e86743c381513a4129c14895753
Cq-Include-Trybots: luci.dart.try:vm-linux-debug-x64-try,vm-linux-release-x64-try,vm-aot-linux-debug-x64-try,vm-aot-linux-release-x64-try,vm-aot-mac-release-arm64-try,vm-mac-debug-arm64-try,vm-mac-release-arm64-try
Reviewed-on: https://dart-review.googlesource.com/c/sdk/+/366668
Reviewed-by: Ryan Macnak <rmacnak@google.com>
Reviewed-by: Martin Kustermann <kustermann@google.com>
Commit-Queue: Tess Strickland <sstrickl@google.com>
2024-06-06 10:56:12 +00:00

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// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "vm/stack_frame.h"
#include "include/dart_api.h"
#include "platform/assert.h"
#include "vm/class_finalizer.h"
#include "vm/compiler/jit/compiler.h"
#include "vm/dart_api_impl.h"
#include "vm/dart_entry.h"
#include "vm/heap/verifier.h"
#include "vm/resolver.h"
#include "vm/unit_test.h"
#include "vm/zone.h"
namespace dart {
// Unit test for empty stack frame iteration.
ISOLATE_UNIT_TEST_CASE(EmptyStackFrameIteration) {
StackFrameIterator iterator(ValidationPolicy::kValidateFrames,
Thread::Current(),
StackFrameIterator::kNoCrossThreadIteration);
EXPECT(!iterator.HasNextFrame());
EXPECT(iterator.NextFrame() == nullptr);
VerifyPointersVisitor::VerifyPointers("EmptyStackFrameIterationTest");
}
// Unit test for empty dart stack frame iteration.
ISOLATE_UNIT_TEST_CASE(EmptyDartStackFrameIteration) {
DartFrameIterator iterator(Thread::Current(),
StackFrameIterator::kNoCrossThreadIteration);
EXPECT(iterator.NextFrame() == nullptr);
VerifyPointersVisitor::VerifyPointers("EmptyDartStackFrameIterationTest");
}
#define FUNCTION_NAME(name) StackFrame_##name
#define REGISTER_FUNCTION(name, count) {"" #name, FUNCTION_NAME(name), count},
void FUNCTION_NAME(StackFrame_equals)(Dart_NativeArguments args) {
NativeArguments* arguments = reinterpret_cast<NativeArguments*>(args);
TransitionNativeToVM transition(arguments->thread());
Zone* zone = arguments->thread()->zone();
const Instance& expected =
Instance::CheckedHandle(zone, arguments->NativeArgAt(0));
const Instance& actual =
Instance::CheckedHandle(zone, arguments->NativeArgAt(1));
if (!expected.OperatorEquals(actual)) {
OS::PrintErr("expected: '%s' actual: '%s'\n", expected.ToCString(),
actual.ToCString());
EXPECT(false);
}
}
void FUNCTION_NAME(StackFrame_frameCount)(Dart_NativeArguments args) {
NativeArguments* arguments = reinterpret_cast<NativeArguments*>(args);
TransitionNativeToVM transition(arguments->thread());
int count = 0;
StackFrameIterator frames(ValidationPolicy::kValidateFrames,
arguments->thread(),
StackFrameIterator::kNoCrossThreadIteration);
while (frames.NextFrame() != nullptr) {
count += 1; // Count the frame.
}
VerifyPointersVisitor::VerifyPointers("StackFrame_frameCount_Test");
arguments->SetReturn(Object::Handle(Smi::New(count)));
}
void FUNCTION_NAME(StackFrame_dartFrameCount)(Dart_NativeArguments args) {
TransitionNativeToVM transition(Thread::Current());
int count = 0;
DartFrameIterator frames(Thread::Current(),
StackFrameIterator::kNoCrossThreadIteration);
while (frames.NextFrame() != nullptr) {
count += 1; // Count the dart frame.
}
VerifyPointersVisitor::VerifyPointers("StackFrame_dartFrameCount_Test");
NativeArguments* arguments = reinterpret_cast<NativeArguments*>(args);
arguments->SetReturn(Object::Handle(Smi::New(count)));
}
void FUNCTION_NAME(StackFrame_validateFrame)(Dart_NativeArguments args) {
Thread* thread = Thread::Current();
Zone* zone = thread->zone();
Dart_Handle index = Dart_GetNativeArgument(args, 0);
Dart_Handle name = Dart_GetNativeArgument(args, 1);
TransitionNativeToVM transition(thread);
const Smi& frame_index_smi =
Smi::CheckedHandle(zone, Api::UnwrapHandle(index));
const char* expected_name =
String::CheckedHandle(zone, Api::UnwrapHandle(name)).ToCString();
int frame_index = frame_index_smi.Value();
int count = 0;
DartFrameIterator frames(thread, StackFrameIterator::kNoCrossThreadIteration);
StackFrame* frame = frames.NextFrame();
while (frame != nullptr) {
if (count == frame_index) {
// Find the function corresponding to this frame and check if it
// matches the function name passed in.
const Function& function =
Function::Handle(zone, frame->LookupDartFunction());
if (function.IsNull()) {
FATAL("StackFrame_validateFrame fails, invalid dart frame.\n");
}
const char* name = function.ToFullyQualifiedCString();
// Currently all unit tests are loaded as being part of dart:core-lib.
String& url = String::Handle(zone, String::New(TestCase::url()));
const Library& lib =
Library::Handle(zone, Library::LookupLibrary(thread, url));
ASSERT(!lib.IsNull());
const char* lib_name = String::Handle(zone, lib.url()).ToCString();
char* full_name = OS::SCreate(zone, "%s_%s", lib_name, expected_name);
EXPECT_STREQ(full_name, name);
return;
}
count += 1; // Count the dart frames.
frame = frames.NextFrame();
}
FATAL("StackFrame_validateFrame fails, frame count < index passed in.\n");
}
// List all native functions implemented in the vm or core boot strap dart
// libraries so that we can resolve the native function to it's entry
// point.
#define STACKFRAME_NATIVE_LIST(V) \
V(StackFrame_equals, 2) \
V(StackFrame_frameCount, 0) \
V(StackFrame_dartFrameCount, 0) \
V(StackFrame_validateFrame, 2)
static struct NativeEntries {
const char* name_;
Dart_NativeFunction function_;
int argument_count_;
} BuiltinEntries[] = {STACKFRAME_NATIVE_LIST(REGISTER_FUNCTION)};
static Dart_NativeFunction native_lookup(Dart_Handle name,
int argument_count,
bool* auto_setup_scope) {
ASSERT(auto_setup_scope != nullptr);
*auto_setup_scope = false;
TransitionNativeToVM transition(Thread::Current());
const Object& obj = Object::Handle(Api::UnwrapHandle(name));
ASSERT(obj.IsString());
const char* function_name = obj.ToCString();
ASSERT(function_name != nullptr);
int num_entries = sizeof(BuiltinEntries) / sizeof(struct NativeEntries);
for (int i = 0; i < num_entries; i++) {
struct NativeEntries* entry = &(BuiltinEntries[i]);
if ((strcmp(function_name, entry->name_) == 0) &&
(entry->argument_count_ == argument_count)) {
return reinterpret_cast<Dart_NativeFunction>(entry->function_);
}
}
return nullptr;
}
// Unit test case to verify stack frame iteration.
TEST_CASE(ValidateStackFrameIteration) {
// clang-format off
const char* kScriptChars =
"class StackFrame {"
" @pragma('vm:external-name', 'StackFrame_equals')\n"
" external static equals(var obj1, var obj2);\n"
" @pragma('vm:external-name', 'StackFrame_frameCount')\n"
" external static int frameCount();\n"
" @pragma('vm:external-name', 'StackFrame_dartFrameCount')\n"
" external static int dartFrameCount();\n"
" @pragma('vm:external-name', 'StackFrame_validateFrame')\n"
" external static validateFrame(int index, String name);"
"} "
"class First {"
" First() { }"
" int? method1(int? param) {"
" if (param == 1) {"
" param = method2(200);"
" } else {"
" param = method2(100);"
" }"
" }"
" int? method2(int param) {"
" if (param == 200) {"
" First.staticmethod(this, param);"
" } else {"
" First.staticmethod(this, 10);"
" }"
" }"
" static int? staticmethod(First obj, int param) {"
" if (param == 10) {"
" obj.method3(10);"
" } else {"
" obj.method3(200);"
" }"
" }"
" method3(int param) {"
" StackFrame.equals(9, StackFrame.frameCount());"
" StackFrame.equals(7, StackFrame.dartFrameCount());"
" StackFrame.validateFrame(0, \"StackFrame_validateFrame\");"
" StackFrame.validateFrame(1, \"First_method3\");"
" StackFrame.validateFrame(2, \"First_staticmethod\");"
" StackFrame.validateFrame(3, \"First_method2\");"
" StackFrame.validateFrame(4, \"First_method1\");"
" StackFrame.validateFrame(5, \"Second_method1\");"
" StackFrame.validateFrame(6, \"StackFrameTest_testMain\");"
" }"
"}"
"class Second {"
" Second() { }"
" int? method1(int? param) {"
" if (param == 1) {"
" param = method2(200);"
" } else {"
" First obj = new First();"
" param = obj.method1(1);"
" param = obj.method1(2);"
" }"
" }"
" int? method2(int param) {"
" Second.staticmethod(this, param);"
" }"
" static int? staticmethod(Second obj, int param) {"
" obj.method3(10);"
" }"
" method3(int param) {"
" StackFrame.equals(8, StackFrame.frameCount());"
" StackFrame.equals(6, StackFrame.dartFrameCount());"
" StackFrame.validateFrame(0, \"StackFrame_validateFrame\");"
" StackFrame.validateFrame(1, \"Second_method3\");"
" StackFrame.validateFrame(2, \"Second_staticmethod\");"
" StackFrame.validateFrame(3, \"Second_method2\");"
" StackFrame.validateFrame(4, \"Second_method1\");"
" StackFrame.validateFrame(5, \"StackFrameTest_testMain\");"
" }"
"}"
"class StackFrameTest {"
" static testMain() {"
" Second obj = new Second();"
" obj.method1(1);"
" obj.method1(2);"
" }"
"}";
// clang-format on
Dart_Handle lib = TestCase::LoadTestScript(
kScriptChars, reinterpret_cast<Dart_NativeEntryResolver>(native_lookup));
Dart_Handle cls = Dart_GetClass(lib, NewString("StackFrameTest"));
EXPECT_VALID(Dart_Invoke(cls, NewString("testMain"), 0, nullptr));
}
// Unit test case to verify stack frame iteration.
TEST_CASE(ValidateNoSuchMethodStackFrameIteration) {
const char* const kScriptChars =
"class StackFrame {"
" @pragma('vm:external-name', 'StackFrame_equals')\n"
" external static equals(var obj1, var obj2);\n"
" @pragma('vm:external-name', 'StackFrame_frameCount')\n"
" external static int frameCount();\n"
" @pragma('vm:external-name', 'StackFrame_dartFrameCount')\n"
" external static int dartFrameCount();\n"
" @pragma('vm:external-name', 'StackFrame_validateFrame')\n"
" external static validateFrame(int index, String name);"
"} "
"class StackFrame2Test {"
" StackFrame2Test() {}"
" noSuchMethod(Invocation im) {"
" /* We should have 6 general frames and 4 dart frames as follows:"
" * exit frame"
" * dart frame corresponding to StackFrame.frameCount"
" * dart frame corresponding to StackFrame2Test.noSuchMethod"
" * frame for instance function invocation stub calling "
"noSuchMethod"
" * dart frame corresponding to StackFrame2Test.testMain"
" * entry frame"
" */"
" StackFrame.equals(6, StackFrame.frameCount());"
" StackFrame.equals(4, StackFrame.dartFrameCount());"
" StackFrame.validateFrame(0, \"StackFrame_validateFrame\");"
" StackFrame.validateFrame(1, \"StackFrame2Test_noSuchMethod\");"
" StackFrame.validateFrame(2, \"StackFrame2Test_foo\");"
" StackFrame.validateFrame(3, \"StackFrame2Test_testMain\");"
" return 5;"
" }"
" static testMain() {"
" /* Declare |obj| dynamic so that noSuchMethod can be"
" * called in strong mode. */"
" dynamic obj = new StackFrame2Test();"
" StackFrame.equals(5, obj.foo(101, 202));"
" }"
"}";
Dart_Handle lib = TestCase::LoadTestScript(
kScriptChars, reinterpret_cast<Dart_NativeEntryResolver>(native_lookup));
Dart_Handle cls = Dart_GetClass(lib, NewString("StackFrame2Test"));
EXPECT_VALID(Dart_Invoke(cls, NewString("testMain"), 0, nullptr));
}
} // namespace dart
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