// Copyright 2017 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. // Flags: --expose-wasm --stress-compaction load('test/mjsunit/wasm/wasm-module-builder.js'); var initialMemoryPages = 1; var maximumMemoryPages = 5; // Grow memory in directly called functions. print('=== grow_memory in direct calls ==='); // This test verifies that the current_memory instruction returns the correct // value after returning from a function (direct call) that grew memory. (function TestMemoryGrowInFunction() { print('TestMemoryGrowInFunction ...'); let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('main', kSig_i_i) .addBody([ kExprGetLocal, 0, // get number of new pages kExprCallFunction, kGrowFunction, // call the grow function kExprDrop, // drop the result of grow kExprMemorySize, kMemoryZero // get the memory size ]) .exportFunc(); var instance = builder.instantiate(); // The caller should be aware that the memory was grown by the callee. var deltaPages = 1; assertEquals( initialMemoryPages + deltaPages, instance.exports.main(deltaPages)); })(); // This test verifies that accessing a memory page that has been created inside // a function (direct call) does not trap in the caller. (function TestMemoryGrowAndAccessInFunction() { print('TestMemoryGrowAndAccessInFunction ...'); let index = 2 * kPageSize - 4; let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('load', kSig_i_i) .addBody([kExprGetLocal, 0, kExprI32LoadMem, 0, 0]) .exportFunc(); builder.addFunction('main', kSig_v_iii) .addBody([ kExprGetLocal, 0, // get number of new pages kExprCallFunction, kGrowFunction, // call the grow function kExprDrop, // drop the result of grow kExprGetLocal, 1, // get index kExprGetLocal, 2, // get value kExprI32StoreMem, 0, 0 // store ]) .exportFunc(); var instance = builder.instantiate(); assertTraps(kTrapMemOutOfBounds, () => instance.exports.load(index)); var deltaPages = 1; instance.exports.main(deltaPages, index, 1234); // The caller should be able to access memory that was grown by the callee. assertEquals(1234, instance.exports.load(index)); })(); // This test verifies that when a function (direct call) grows and store // something in the grown memory, the caller always reads from the grown // memory. This checks that the memory start address gets updated in the caller. (function TestMemoryGrowAndStoreInFunction() { print('TestMemoryGrowAndStoreInFunction ...'); let index = 0; let oldValue = 21; let newValue = 42; let deltaPages = 1; let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_v_v) .addBody([ kExprI32Const, deltaPages, // always grow memory by deltaPages kExprMemoryGrow, kMemoryZero, // grow memory kExprDrop, // drop the result of grow kExprI32Const, index, // put index on stack kExprI32Const, newValue, // put new value on stack kExprI32StoreMem, 0, 0 // store ]) .exportFunc() .index; builder.addFunction('main', kSig_i_i) .addBody([ kExprI32Const, index, // put index on stack kExprI32Const, oldValue, // put old value on stack kExprI32StoreMem, 0, 0, // store kExprCallFunction, kGrowFunction, // call grow_and_store kExprI32Const, index, // put index on stack kExprI32LoadMem, 0, 0 // load from grown memory ]) .exportFunc(); var instance = builder.instantiate(); // The caller should always read from grown memory. assertEquals(newValue, instance.exports.main()); })(); // This test verifies that the effects of growing memory in an directly // called function inside a loop affect the result of current_memory when // the loop is over. (function TestMemoryGrowInFunctionInsideLoop() { print('TestMemoryGrowInFunctionInsideLoop ...'); let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('main', kSig_i_ii) .addBody([ // clang-format off kExprLoop, kWasmStmt, // while kExprGetLocal, 0, // - kExprIf, kWasmStmt, // if != 0 // Grow memory. kExprGetLocal, 1, // get number of new pages kExprCallFunction, kGrowFunction, // call the grow function kExprDrop, // drop the result of grow // Decrease loop variable. kExprGetLocal, 0, // - kExprI32Const, 1, // - kExprI32Sub, // - kExprSetLocal, 0, // decrease kExprBr, 1, // continue kExprEnd, // end if kExprEnd, // end loop // Return the memory size. kExprMemorySize, kMemoryZero // put memory size on stack // clang-format on ]) .exportFunc(); // The caller should be aware that the memory was grown by the callee. let instance = builder.instantiate(); let iterations = 4; let deltaPages = 1; assertEquals( initialMemoryPages + iterations * deltaPages, instance.exports.main(iterations, deltaPages)); })(); // This test verifies that the effects of writing to memory grown in an // directly called function inside a loop are retained when the loop is over. (function TestMemoryGrowAndStoreInFunctionInsideLoop() { print('TestMemoryGrowAndStoreInFunctionInsideLoop ...'); let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); builder.addFunction('store', kSig_i_ii) .addBody([ kExprGetLocal, 0, kExprGetLocal, 1, kExprI32StoreMem, 0, 0, kExprGetLocal, 1 ]) .exportFunc(); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; // parameters: iterations, deltaPages, index builder.addFunction('main', kSig_i_iii) .addBody([ // clang-format off kExprLoop, kWasmStmt, // while kExprGetLocal, 0, // - kExprIf, kWasmStmt, // if != 0 // Grow memory. kExprGetLocal, 1, // get number of new pages kExprCallFunction, kGrowFunction, // call the grow function kExprDrop, // drop the result of grow // Increase counter in memory. kExprGetLocal, 2, // put index (for store) kExprGetLocal, 2, // put index (for load) kExprI32LoadMem, 0, 0, // load from grown memory kExprI32Const, 1, // - kExprI32Add, // increase counter kExprI32StoreMem, 0, 0, // store counter in memory // Decrease loop variable. kExprGetLocal, 0, // - kExprI32Const, 1, // - kExprI32Sub, // - kExprSetLocal, 0, // decrease kExprBr, 1, // continue kExprEnd, // end if kExprEnd, // end loop // Return the value kExprGetLocal, 2, // - kExprI32LoadMem, 0, 0 // load from grown memory // clang-format on ]) .exportFunc(); // The caller should always read the correct memory let instance = builder.instantiate(); let iterations = 4; let deltaPages = 1; let index = 0; let initialValue = 1; let expectedValue = initialValue + iterations; instance.exports.store(index, initialValue); assertEquals( expectedValue, instance.exports.main(iterations, deltaPages, index)); })(); // Grow memory in indirectly called functions. print('\n=== grow_memory in indirect calls ==='); // This test verifies that the current_memory instruction returns the correct // value after returning from a function (indirect call) that grew memory. (function TestMemoryGrowInIndirectCall() { print('TestMemoryGrowInIndirectCall ...'); let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('main', kSig_i_ii) .addBody([ kExprGetLocal, 1, // get number of new pages kExprGetLocal, 0, // get index of the function kExprCallIndirect, 0, kTableZero, // call the function kExprDrop, // drop the result of grow kExprMemorySize, kMemoryZero // get the memory size ]) .exportFunc(); builder.appendToTable([kGrowFunction]); var instance = builder.instantiate(); // The caller should be aware that the memory was grown by the callee. var deltaPages = 1; assertEquals( initialMemoryPages + deltaPages, instance.exports.main(kGrowFunction, deltaPages)); })(); // This test verifies that accessing a memory page that has been created inside // a function (indirect call) does not trap in the caller. (function TestMemoryGrowAndAccessInIndirectCall() { print('TestMemoryGrowAndAccessInIndirectCall ...'); let index = 2 * kPageSize - 4; let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('load', kSig_i_i) .addBody([kExprGetLocal, 0, kExprI32LoadMem, 0, 0]) .exportFunc(); let sig = makeSig([kWasmI32, kWasmI32, kWasmI32, kWasmI32], []); builder.addFunction('main', sig) .addBody([ kExprGetLocal, 1, // get number of new pages kExprGetLocal, 0, // get index of the function kExprCallIndirect, 0, kTableZero, // call the function kExprDrop, // drop the result of grow kExprGetLocal, 2, // get index kExprGetLocal, 3, // get value kExprI32StoreMem, 0, 0 // store ]) .exportFunc(); builder.appendToTable([kGrowFunction]); var instance = builder.instantiate(); assertTraps(kTrapMemOutOfBounds, () => instance.exports.load(index)); let deltaPages = 1; let value = 1234; instance.exports.main(kGrowFunction, deltaPages, index, value); // The caller should be able to access memory that was grown by the callee. assertEquals(value, instance.exports.load(index)); })(); // This test verifies that when a function (indirect call) grows and store // something in the grown memory, the caller always reads from the grown // memory. This checks that the memory start address gets updated in the caller. (function TestMemoryGrowAndStoreInIndirectCall() { print('TestMemoryGrowAndStoreInIndirectCall ...'); let index = 0; let oldValue = 21; let newValue = 42; let deltaPages = 1; let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_v_v) .addBody([ kExprI32Const, deltaPages, // always grow memory by deltaPages kExprMemoryGrow, kMemoryZero, // grow memory kExprDrop, // drop the result of grow kExprI32Const, index, // put index on stack kExprI32Const, newValue, // put new value on stack kExprI32StoreMem, 0, 0 // store ]) .exportFunc() .index; builder.addFunction('main', kSig_i_i) .addBody([ kExprI32Const, index, // put index on stack kExprI32Const, oldValue, // put old value on stack kExprI32StoreMem, 0, 0, // store kExprGetLocal, 0, // get index of the function kExprCallIndirect, 0, kTableZero, // call the function kExprI32Const, index, // put index on stack kExprI32LoadMem, 0, 0 // load from grown memory ]) .exportFunc(); builder.appendToTable([kGrowFunction]); var instance = builder.instantiate(); // The caller should always read from grown memory. assertEquals(42, instance.exports.main(kGrowFunction)); })(); // This test verifies that the effects of growing memory in an indirectly // called function inside a loop affect the result of current_memory when // the loop is over. (function TestMemoryGrowInIndirectCallInsideLoop() { print('TestMemoryGrowInIndirectCallInsideLoop ...'); let builder = new WasmModuleBuilder(); builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('main', kSig_i_iii) .addBody([ // clang-format off kExprLoop, kWasmStmt, // while kExprGetLocal, 1, // - kExprIf, kWasmStmt, // if != 0 // Grow memory. kExprGetLocal, 2, // get number of new pages kExprGetLocal, 0, // get index of the function kExprCallIndirect, 0, kTableZero, // call the function kExprDrop, // drop the result of grow // Decrease loop variable. kExprGetLocal, 1, // - kExprI32Const, 1, // - kExprI32Sub, // - kExprSetLocal, 1, // decrease kExprBr, 1, // continue kExprEnd, // end if kExprEnd, // end loop // Return the memory size. kExprMemorySize, kMemoryZero // put memory size on stack // clang-format on ]) .exportFunc(); builder.appendToTable([kGrowFunction]); // The caller should be aware that the memory was grown by the callee. let instance = builder.instantiate(); let deltaPages = 1; let iterations = 4; assertEquals( initialMemoryPages + iterations * deltaPages, instance.exports.main(kGrowFunction, iterations, deltaPages)); })(); // This test verifies that the effects of writing to memory grown in an // indirectly called function inside a loop are retained when the loop is over. (function TestMemoryGrowAndStoreInIndirectCallInsideLoop() { print('TestMemoryGrowAndStoreInIndirectCallInsideLoop ...'); let builder = new WasmModuleBuilder(); let deltaPages = 1; builder.addMemory(initialMemoryPages, maximumMemoryPages, true); let kGrowFunction = builder.addFunction('grow', kSig_i_i) .addBody([kExprGetLocal, 0, kExprMemoryGrow, kMemoryZero]) .exportFunc() .index; builder.addFunction('store', kSig_i_ii) .addBody([ kExprGetLocal, 0, kExprGetLocal, 1, kExprI32StoreMem, 0, 0, kExprGetLocal, 1 ]) .exportFunc(); builder .addFunction( // parameters: function_index, iterations, deltaPages, index 'main', makeSig([kWasmI32, kWasmI32, kWasmI32, kWasmI32], [kWasmI32])) .addBody([ // clang-format off kExprLoop, kWasmStmt, // while kExprGetLocal, 1, // - kExprIf, kWasmStmt, // if != 0 // Grow memory. kExprGetLocal, 2, // get number of new pages kExprGetLocal, 0, // get index of the function kExprCallIndirect, 0, kTableZero, // call the function kExprDrop, // drop the result of grow // Increase counter in memory. kExprGetLocal, 3, // put index (for store) kExprGetLocal, 3, // put index (for load) kExprI32LoadMem, 0, 0, // load from grown memory kExprI32Const, 1, // - kExprI32Add, // increase counter kExprI32StoreMem, 0, 0, // store counter in memory // Decrease loop variable. kExprGetLocal, 1, // - kExprI32Const, 1, // - kExprI32Sub, // - kExprSetLocal, 1, // decrease kExprBr, 1, // continue kExprEnd, // end if kExprEnd, // end loop // Return the value kExprGetLocal, 3, // - kExprI32LoadMem, 0, 0 // load from grown memory // clang-format on ]) .exportFunc(); builder.appendToTable([kGrowFunction]); // The caller should be aware that the memory was grown by the callee. let instance = builder.instantiate(); let iterations = 4; let index = 0; let initialValue = 1; let expectedValue = initialValue + iterations; instance.exports.store(index, initialValue); assertEquals( expectedValue, instance.exports.main(kGrowFunction, iterations, deltaPages, index)); })();