// Copyright 2016 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "test/unittests/test-utils.h" #include "testing/gmock/include/gmock/gmock.h" #include "src/v8.h" #include "src/wasm/wasm-interpreter.h" #include "src/wasm/wasm-macro-gen.h" using testing::MakeMatcher; using testing::Matcher; using testing::MatcherInterface; using testing::MatchResultListener; using testing::StringMatchResultListener; namespace v8 { namespace internal { namespace wasm { #define B1(a) kExprBlock, a, kExprEnd #define B2(a, b) kExprBlock, a, b, kExprEnd #define B3(a, b, c) kExprBlock, a, b, c, kExprEnd struct ExpectedTarget { pc_t pc; ControlTransfer expected; }; // For nicer error messages. class ControlTransferMatcher : public MatcherInterface { public: explicit ControlTransferMatcher(pc_t pc, const ControlTransfer& expected) : pc_(pc), expected_(expected) {} void DescribeTo(std::ostream* os) const override { *os << "@" << pc_ << " {pcdiff = " << expected_.pcdiff << ", spdiff = " << expected_.spdiff << ", action = " << expected_.action << "}"; } bool MatchAndExplain(const ControlTransfer& input, MatchResultListener* listener) const override { if (input.pcdiff != expected_.pcdiff || input.spdiff != expected_.spdiff || input.action != expected_.action) { *listener << "@" << pc_ << " {pcdiff = " << input.pcdiff << ", spdiff = " << input.spdiff << ", action = " << input.action << "}"; return false; } return true; } private: pc_t pc_; const ControlTransfer& expected_; }; class ControlTransferTest : public TestWithZone { public: void CheckControlTransfers(const byte* start, const byte* end, ExpectedTarget* expected_targets, size_t num_targets) { ControlTransferMap map = WasmInterpreter::ComputeControlTransfersForTesting(zone(), start, end); // Check all control targets in the map. for (size_t i = 0; i < num_targets; i++) { pc_t pc = expected_targets[i].pc; auto it = map.find(pc); if (it == map.end()) { printf("expected control target @ +%zu\n", pc); EXPECT_TRUE(false); } else { ControlTransfer& expected = expected_targets[i].expected; ControlTransfer& target = it->second; EXPECT_THAT(target, MakeMatcher(new ControlTransferMatcher(pc, expected))); } } // Check there are no other control targets. for (pc_t pc = 0; start + pc < end; pc++) { bool found = false; for (size_t i = 0; i < num_targets; i++) { if (expected_targets[i].pc == pc) { found = true; break; } } if (found) continue; if (map.find(pc) != map.end()) { printf("expected no control @ +%zu\n", pc); EXPECT_TRUE(false); } } } }; // Macro for simplifying tests below. #define EXPECT_TARGETS(...) \ do { \ ExpectedTarget pairs[] = {__VA_ARGS__}; \ CheckControlTransfers(code, code + sizeof(code), pairs, arraysize(pairs)); \ } while (false) TEST_F(ControlTransferTest, SimpleIf) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprEnd // @3 }; EXPECT_TARGETS({2, {2, 0, ControlTransfer::kPushVoid}}, // -- {3, {1, 0, ControlTransfer::kPushVoid}}); } TEST_F(ControlTransferTest, SimpleIf1) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprNop, // @3 kExprEnd // @4 }; EXPECT_TARGETS({2, {3, 0, ControlTransfer::kPushVoid}}, // -- {4, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, SimpleIf2) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprNop, // @3 kExprNop, // @4 kExprEnd // @5 }; EXPECT_TARGETS({2, {4, 0, ControlTransfer::kPushVoid}}, // -- {5, {1, 2, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, SimpleIfElse) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprElse, // @3 kExprEnd // @4 }; EXPECT_TARGETS({2, {2, 0, ControlTransfer::kNoAction}}, // -- {3, {2, 0, ControlTransfer::kPushVoid}}, // -- {4, {1, 0, ControlTransfer::kPushVoid}}); } TEST_F(ControlTransferTest, SimpleIfElse1) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprNop, // @3 kExprElse, // @4 kExprNop, // @5 kExprEnd // @6 }; EXPECT_TARGETS({2, {3, 0, ControlTransfer::kNoAction}}, // -- {4, {3, 1, ControlTransfer::kPopAndRepush}}, // -- {6, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, IfBr) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprBr, // @3 ARITY_0, // +1 0, // +1 kExprEnd // @6 }; EXPECT_TARGETS({2, {5, 0, ControlTransfer::kPushVoid}}, // -- {3, {4, 0, ControlTransfer::kPushVoid}}, // -- {6, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, IfBrElse) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprBr, // @3 ARITY_0, // +1 0, // +1 kExprElse, // @6 kExprEnd // @7 }; EXPECT_TARGETS({2, {5, 0, ControlTransfer::kNoAction}}, // -- {3, {5, 0, ControlTransfer::kPushVoid}}, // -- {6, {2, 1, ControlTransfer::kPopAndRepush}}, // -- {7, {1, 0, ControlTransfer::kPushVoid}}); } TEST_F(ControlTransferTest, IfElseBr) { byte code[] = { kExprI32Const, // @0 0, // +1 kExprIf, // @2 kExprNop, // @3 kExprElse, // @4 kExprBr, // @5 ARITY_0, // +1 0, // +1 kExprEnd // @8 }; EXPECT_TARGETS({2, {3, 0, ControlTransfer::kNoAction}}, // -- {4, {5, 1, ControlTransfer::kPopAndRepush}}, // -- {5, {4, 0, ControlTransfer::kPushVoid}}, // -- {8, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, BlockEmpty) { byte code[] = { kExprBlock, // @0 kExprEnd // @1 }; EXPECT_TARGETS({1, {1, 0, ControlTransfer::kPushVoid}}); } TEST_F(ControlTransferTest, Br0) { byte code[] = { kExprBlock, // @0 kExprBr, // @1 ARITY_0, // +1 0, // +1 kExprEnd // @4 }; EXPECT_TARGETS({1, {4, 0, ControlTransfer::kPushVoid}}, {4, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, Br1) { byte code[] = { kExprBlock, // @0 kExprNop, // @1 kExprBr, // @2 ARITY_0, // +1 0, // +1 kExprEnd // @5 }; EXPECT_TARGETS({2, {4, 1, ControlTransfer::kPopAndRepush}}, // -- {5, {1, 2, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, Br2) { byte code[] = { kExprBlock, // @0 kExprNop, // @1 kExprNop, // @2 kExprBr, // @3 ARITY_0, // +1 0, // +1 kExprEnd // @6 }; EXPECT_TARGETS({3, {4, 2, ControlTransfer::kPopAndRepush}}, // -- {6, {1, 3, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, Br0b) { byte code[] = { kExprBlock, // @0 kExprBr, // @1 ARITY_0, // +1 0, // +1 kExprNop, // @4 kExprEnd // @5 }; EXPECT_TARGETS({1, {5, 0, ControlTransfer::kPushVoid}}, // -- {5, {1, 2, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, Br0c) { byte code[] = { kExprBlock, // @0 kExprBr, // @1 ARITY_0, // +1 0, // +1 kExprNop, // @4 kExprNop, // @5 kExprEnd // @6 }; EXPECT_TARGETS({1, {6, 0, ControlTransfer::kPushVoid}}, // -- {6, {1, 3, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, SimpleLoop1) { byte code[] = { kExprLoop, // @0 kExprBr, // @1 ARITY_0, // +1 0, // +1 kExprEnd // @4 }; EXPECT_TARGETS({1, {-1, 0, ControlTransfer::kNoAction}}, // -- {4, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, SimpleLoop2) { byte code[] = { kExprLoop, // @0 kExprNop, // @1 kExprBr, // @2 ARITY_0, // +1 0, // +1 kExprEnd // @5 }; EXPECT_TARGETS({2, {-2, 1, ControlTransfer::kNoAction}}, // -- {5, {1, 2, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, SimpleLoopExit1) { byte code[] = { kExprLoop, // @0 kExprBr, // @1 ARITY_0, // +1 1, // +1 kExprEnd // @4 }; EXPECT_TARGETS({1, {4, 0, ControlTransfer::kPushVoid}}, // -- {4, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, SimpleLoopExit2) { byte code[] = { kExprLoop, // @0 kExprNop, // @1 kExprBr, // @2 ARITY_0, // +1 1, // +1 kExprEnd // @5 }; EXPECT_TARGETS({2, {4, 1, ControlTransfer::kPopAndRepush}}, // -- {5, {1, 2, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, BrTable0) { byte code[] = { kExprBlock, // @0 kExprI8Const, // @1 0, // +1 kExprBrTable, // @3 ARITY_0, // +1 0, // +1 U32_LE(0), // +4 kExprEnd // @10 }; EXPECT_TARGETS({3, {8, 0, ControlTransfer::kPushVoid}}, // -- {10, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, BrTable1) { byte code[] = { kExprBlock, // @0 kExprI8Const, // @1 0, // +1 kExprBrTable, // @3 ARITY_0, // +1 1, // +1 U32_LE(0), // +4 U32_LE(0), // +4 kExprEnd // @14 }; EXPECT_TARGETS({3, {12, 0, ControlTransfer::kPushVoid}}, // -- {4, {11, 0, ControlTransfer::kPushVoid}}, // -- {14, {1, 1, ControlTransfer::kPopAndRepush}}); } TEST_F(ControlTransferTest, BrTable2) { byte code[] = { kExprBlock, // @0 kExprBlock, // @1 kExprI8Const, // @2 0, // +1 kExprBrTable, // @4 ARITY_0, // +1 2, // +1 U32_LE(0), // +4 U32_LE(0), // +4 U32_LE(1), // +4 kExprEnd, // @19 kExprEnd // @19 }; EXPECT_TARGETS({4, {16, 0, ControlTransfer::kPushVoid}}, // -- {5, {15, 0, ControlTransfer::kPushVoid}}, // -- {6, {15, 0, ControlTransfer::kPushVoid}}, // -- {19, {1, 1, ControlTransfer::kPopAndRepush}}, // -- {20, {1, 1, ControlTransfer::kPopAndRepush}}); } } // namespace wasm } // namespace internal } // namespace v8