6454102c5b
In the current implementation, WasmInstanceWrapper is allocated after the imports for the instance are processed, and before the InstanceFinalizer callback is associated with the instance. This raises the possibility of triggering a gc in the middle of the instantiate flow which is incorrect. BUG=5707 R=titzer@chromium.org, petermarshall@chromium.org Review-Url: https://codereview.chromium.org/2544273002 Cr-Commit-Position: refs/heads/master@{#41464}
125 lines
4.2 KiB
JavaScript
125 lines
4.2 KiB
JavaScript
// Copyright 2016 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Flags: --expose-wasm --expose-gc
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load("test/mjsunit/wasm/wasm-constants.js");
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load("test/mjsunit/wasm/wasm-module-builder.js");
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// This test verifies that when instances are exported, Gc'ed, the other
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// instances in the chain still maintain a consistent view of the memory.
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(function InstanceMemoryGcStress() {
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print("InstanceMemoryGcStress");
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let memory = new WebAssembly.Memory({initial: 100, maximum: 1500});
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var builder = new WasmModuleBuilder();
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builder.addImportedMemory("imported_mem");
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builder.addFunction("mem_size", kSig_i_v)
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.addBody([kExprMemorySize, kMemoryZero])
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.exportFunc();
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builder.addFunction("grow", kSig_i_i)
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.addBody([kExprGetLocal, 0, kExprGrowMemory, kMemoryZero])
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.exportFunc();
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var instances = [];
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for (var i = 0; i < 5; i++) {
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gc();
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instances.push(builder.instantiate({imported_mem: memory}));
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}
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function grow_instance_0(pages) { return instances[0].exports.grow(pages); }
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function grow_instance_1(pages) { return instances[1].exports.grow(pages); }
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function grow_instance_2(pages) { return instances[2].exports.grow(pages); }
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function grow_instance_3(pages) { return instances[3].exports.grow(pages); }
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function grow_instance_4(pages) { return instances[4].exports.grow(pages); }
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var start_index = 0;
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var end_index = 5;
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function verify_mem_size(expected_pages) {
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assertEquals(expected_pages*kPageSize, memory.buffer.byteLength);
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for (var i = start_index; i < end_index; i++) {
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assertEquals(expected_pages, instances[i].exports.mem_size());
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}
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}
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// Verify initial memory size of all instances, grow and verify that all
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// instances are updated correctly.
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verify_mem_size(100);
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assertEquals(100, memory.grow(500));
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verify_mem_size(600);
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instances[1] = null;
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gc();
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gc();
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// i[0] - i[2] - i[3] - i[4]
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start_index = 2;
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verify_mem_size(600);
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assertEquals(600, instances[0].exports.mem_size());
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assertEquals(600, grow_instance_2(200));
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assertEquals(800*kPageSize, memory.buffer.byteLength);
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verify_mem_size(800);
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assertEquals(800, instances[0].exports.mem_size());
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// Instantiate a new instance and verify that it can be grown correctly.
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instances.push(builder.instantiate({imported_mem: memory}));
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function grow_instance_5(pages) { return instances[5].exports.grow(pages); }
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gc();
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gc();
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// i[0] - i[2] - i[3] - i[4] - i[5]
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start_index = 2;
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end_index = 6;
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verify_mem_size(800);
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assertEquals(800, instances[0].exports.mem_size());
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assertEquals(800, grow_instance_2(100));
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assertEquals(900*kPageSize, memory.buffer.byteLength);
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verify_mem_size(900);
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assertEquals(900, instances[0].exports.mem_size());
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instances[4] = null;
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gc();
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gc();
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// i[0] - i[2] - i[3] - i[5]
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assertEquals(900, instances[0].exports.mem_size());
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assertEquals(900, instances[2].exports.mem_size());
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assertEquals(900, instances[3].exports.mem_size());
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assertEquals(900, instances[5].exports.mem_size());
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assertEquals(900, memory.grow(100));
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assertEquals(1000*kPageSize, memory.buffer.byteLength);
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assertEquals(1000, instances[0].exports.mem_size());
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assertEquals(1000, instances[2].exports.mem_size());
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assertEquals(1000, instances[3].exports.mem_size());
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assertEquals(1000, instances[5].exports.mem_size());
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gc();
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gc();
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instances[3] = null;
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// i[0] - i[2] - i[5]
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assertEquals(1000, instances[0].exports.mem_size());
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assertEquals(1000, instances[2].exports.mem_size());
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assertEquals(1000, instances[5].exports.mem_size());
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assertEquals(1000, memory.grow(100));
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assertEquals(1100*kPageSize, memory.buffer.byteLength);
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assertEquals(1100, instances[0].exports.mem_size());
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assertEquals(1100, instances[2].exports.mem_size());
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assertEquals(1100, instances[5].exports.mem_size());
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instances[0] = null;
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gc();
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gc();
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// i[2] - i[5]
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assertEquals(1100, instances[2].exports.mem_size());
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assertEquals(1100, instances[5].exports.mem_size());
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assertEquals(1100, grow_instance_5(1));
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gc();
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gc();
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assertEquals(1101*kPageSize, memory.buffer.byteLength);
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assertEquals(1101, instances[2].exports.mem_size());
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assertEquals(1101, instances[5].exports.mem_size());
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})();
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