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v8/test/mjsunit/wasm/memory-external-call.js
Sven Sauleau 5bdb13297f [wasm] merge js constants file in module-builder 
We noticed that almost every call site were loading both files,
the split isn't necessary anymore.

In some message tests, removed the absolute line number to allow future
changes.

Bug: v8:8726
Change-Id: I8527f0a1ecfa685aa01a5e2f5f47ddf1cb13a545
Reviewed-on: https://chromium-review.googlesource.com/c/1446452
Commit-Queue: Sven Sauleau <ssauleau@igalia.com>
Reviewed-by: Ben Titzer <titzer@chromium.org>
Reviewed-by: Andreas Haas <ahaas@chromium.org>
Cr-Commit-Position: refs/heads/master@{#59220}
2019-01-30 22:10:34 +00:00

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// 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
load('test/mjsunit/wasm/wasm-module-builder.js');
let initialMemoryPages = 1;
let maximumMemoryPages = 5;
let other_fn_idx = 0;
// This builder can be used to generate a module with memory + load/store
// functions and/or an additional imported function.
function generateBuilder(add_memory, import_sig) {
let builder = new WasmModuleBuilder();
if (import_sig) {
// Add the import if we expect a module builder with imported functions.
let idx = builder.addImport('import_module', 'other_module_fn', import_sig);
// The imported function should always have index 0. With this assertion we
// verify that we can use other_fn_idx to refer to this function.
assertEquals(idx, other_fn_idx)
}
if (add_memory) {
// Add the memory if we expect a module builder with memory and load/store.
builder.addMemory(initialMemoryPages, maximumMemoryPages, true);
builder.addFunction('load', kSig_i_i)
.addBody([kExprGetLocal, 0, kExprI32LoadMem, 0, 0])
.exportFunc();
builder.addFunction('store', kSig_i_ii)
.addBody([
kExprGetLocal, 0, kExprGetLocal, 1, kExprI32StoreMem, 0, 0,
kExprGetLocal, 1
])
.exportFunc();
}
return builder;
}
function assertMemoryIndependence(load_a, store_a, load_b, store_b) {
assertEquals(0, load_a(0));
assertEquals(0, load_b(0));
assertEquals(0, load_a(4));
assertEquals(0, load_b(4));
store_a(0, 101);
assertEquals(101, load_a(0));
assertEquals(0, load_b(0));
assertEquals(0, load_a(4));
assertEquals(0, load_b(4));
store_a(4, 102);
assertEquals(101, load_a(0));
assertEquals(0, load_b(0));
assertEquals(102, load_a(4));
assertEquals(0, load_b(4));
store_b(0, 103);
assertEquals(101, load_a(0));
assertEquals(103, load_b(0));
assertEquals(102, load_a(4));
assertEquals(0, load_b(4));
store_b(4, 107);
assertEquals(101, load_a(0));
assertEquals(103, load_b(0));
assertEquals(102, load_a(4));
assertEquals(107, load_b(4));
store_a(0, 0);
store_a(4, 0);
store_b(0, 0);
store_b(4, 0);
}
// A simple test for memory-independence between modules.
(function SimpleMemoryIndependenceTest() {
print("SimpleMemoryIndependenceTest");
let kPages = 1;
let builder = new WasmModuleBuilder();
builder.addMemory(kPages, kPages, true);
builder.addFunction("store", kSig_v_ii)
.addBody([
kExprGetLocal, 0, // --
kExprGetLocal, 1, // --
kExprI32StoreMem, 0, 0, // --
]) // --
.exportFunc();
builder.addFunction("load", kSig_i_i)
.addBody([
kExprGetLocal, 0, // --
kExprI32LoadMem, 0, 0, // --
]) // --
.exportFunc();
var a = builder.instantiate();
// The {b} instance forwards all {store} calls to the imported function.
builder = new WasmModuleBuilder();
builder.addImport("mod", "store", kSig_v_ii);
builder.addMemory(kPages, kPages, true);
builder.addFunction("store", kSig_v_ii)
.addBody([
kExprGetLocal, 0, // --
kExprGetLocal, 1, // --
kExprCallFunction, 0, // --
]) // --
.exportFunc();
builder.addFunction("load", kSig_i_i)
.addBody([
kExprGetLocal, 0, // --
kExprI32LoadMem, 0, 0, // --
]) // --
.exportFunc();
var b = builder.instantiate({mod: {store: a.exports.store}});
assertEquals(0, a.exports.load(0));
assertEquals(0, b.exports.load(0));
assertEquals(0, a.exports.load(4));
assertEquals(0, b.exports.load(4));
a.exports.store(0, 101);
assertEquals(101, a.exports.load(0));
assertEquals(0, b.exports.load(0));
assertEquals(0, a.exports.load(4));
assertEquals(0, b.exports.load(4));
a.exports.store(4, 102);
assertEquals(101, a.exports.load(0));
assertEquals(0, b.exports.load(0));
assertEquals(102, a.exports.load(4));
assertEquals(0, b.exports.load(4));
b.exports.store(4, 107); // should forward to {a}.
assertEquals(101, a.exports.load(0));
assertEquals(0, b.exports.load(0));
assertEquals(107, a.exports.load(4));
assertEquals(0, b.exports.load(4));
})();
// This test verifies that when a Wasm module without memory invokes a function
// imported from another module that has memory, the second module reads its own
// memory and returns the expected value.
(function TestExternalCallBetweenTwoWasmModulesWithoutAndWithMemory() {
print('TestExternalCallBetweenTwoWasmModulesWithoutAndWithMemory');
let first_module = generateBuilder(add_memory = false, import_sig = kSig_i_i);
// Function to invoke the imported function and add 1 to the result.
first_module.addFunction('plus_one', kSig_i_i)
.addBody([
kExprGetLocal, 0, // -
kExprCallFunction, other_fn_idx, // call the imported function
kExprI32Const, 1, // -
kExprI32Add, // add 1 to the result
kExprReturn // -
])
.exportFunc();
let second_module =
generateBuilder(add_memory = true, import_sig = undefined);
let index = kPageSize - 4;
let second_value = 2222;
// Instantiate the instances.
let second_instance = second_module.instantiate();
let first_instance = first_module.instantiate(
{import_module: {other_module_fn: second_instance.exports.load}});
// Write the values in the second instance.
second_instance.exports.store(index, second_value);
assertEquals(second_value, second_instance.exports.load(index));
// Verify that the value is correct when passing from the imported function.
assertEquals(second_value + 1, first_instance.exports.plus_one(index));
})();
// This test verifies that when a Wasm module with memory invokes a function
// imported from another module that also has memory, the second module reads
// its own memory and returns the expected value.
(function TestExternalCallBetweenTwoWasmModulesWithMemory() {
print('TestExternalCallBetweenTwoWasmModulesWithMemory');
let first_module = generateBuilder(add_memory = true, import_sig = kSig_i_i);
// Function to invoke the imported function and add 1 to the result.
first_module.addFunction('plus_one', kSig_i_i)
.addBody([
kExprGetLocal, 0, // -
kExprCallFunction, other_fn_idx, // call the imported function
kExprI32Const, 1, // -
kExprI32Add, // add 1 to the result
kExprReturn // -
])
.exportFunc();
let second_module =
generateBuilder(add_memory = true, import_sig = undefined);
let index = kPageSize - 4;
let first_value = 1111;
let second_value = 2222;
// Instantiate the instances.
let second_instance = second_module.instantiate();
let first_instance = first_module.instantiate(
{import_module: {other_module_fn: second_instance.exports.load}});
// Write the values in the two instances.
first_instance.exports.store(index, first_value);
second_instance.exports.store(index, second_value);
// Verify that the values were stored to memory.
assertEquals(first_value, first_instance.exports.load(index));
assertEquals(second_value, second_instance.exports.load(index));
// Verify that the value is correct when passing from the imported function.
assertEquals(second_value + 1, first_instance.exports.plus_one(index));
})();
// This test verifies that the correct memory is accessed after returning
// from a function imported from another module that also has memory.
(function TestCorrectMemoryAccessedAfterReturningFromExternalCall() {
print('TestCorrectMemoryAccessedAfterReturningFromExternalCall');
let first_module = generateBuilder(add_memory = true, import_sig = kSig_i_ii);
// Function to invoke the imported function and add 1 to the result.
first_module.addFunction('sandwich', kSig_i_iii)
.addBody([
kExprGetLocal, 0, // param0 (index)
kExprGetLocal, 1, // param1 (first_value)
kExprI32StoreMem, 0, 0, // store value in first_instance
kExprGetLocal, 0, // param0 (index)
kExprGetLocal, 2, // param2 (second_value)
kExprCallFunction, other_fn_idx, // call the imported function
kExprDrop, // drop the return value
kExprGetLocal, 0, // param0 (index)
kExprI32LoadMem, 0, 0, // load from first_instance
kExprReturn // -
])
.exportFunc();
let second_module =
generateBuilder(add_memory = true, import_sig = undefined);
let index = kPageSize - 4;
let first_value = 1111;
let second_value = 2222;
// Instantiate the instances.
let second_instance = second_module.instantiate();
let first_instance = first_module.instantiate(
{import_module: {other_module_fn: second_instance.exports.store}});
// Call the sandwich function and check that it returns the correct value.
assertEquals(
first_value,
first_instance.exports.sandwich(index, first_value, second_value));
// Verify that the values are correct in both memories.
assertEquals(first_value, first_instance.exports.load(index));
assertEquals(second_value, second_instance.exports.load(index));
})();
// A test for memory-independence between modules when calling through
// imported tables.
(function CallThroughTableMemoryIndependenceTest() {
print("CallThroughTableIndependenceTest");
let kTableSize = 2;
let kPages = 1;
let builder = new WasmModuleBuilder();
builder.addMemory(kPages, kPages, true);
builder.addFunction("store", kSig_v_ii)
.addBody([
kExprGetLocal, 0, // --
kExprGetLocal, 1, // --
kExprI32StoreMem, 0, 0, // --
]) // --
.exportFunc();
builder.addFunction("load", kSig_i_i)
.addBody([
kExprGetLocal, 0, // --
kExprI32LoadMem, 0, 0, // --
]) // --
.exportFunc();
{
// Create two instances.
let module = builder.toModule();
var a = new WebAssembly.Instance(module);
var b = new WebAssembly.Instance(module);
// Check that the memories are initially independent.
assertMemoryIndependence(a.exports.load, a.exports.store,
b.exports.load, b.exports.store);
}
let table = new WebAssembly.Table({element: "anyfunc",
initial: kTableSize,
maximum: kTableSize});
table.set(0, a.exports.store);
table.set(1, b.exports.store);
// Check that calling (from JS) through the table maintains independence.
assertMemoryIndependence(a.exports.load, table.get(0),
b.exports.load, table.get(1));
table.set(1, a.exports.store);
table.set(0, b.exports.store);
// Check that calling (from JS) through the table maintains independence,
// even after reorganizing the table.
assertMemoryIndependence(a.exports.load, table.get(1),
b.exports.load, table.get(0));
// Check that calling (from WASM) through the table maintains independence.
builder = new WasmModuleBuilder();
builder.addImportedTable("m", "table", kTableSize, kTableSize);
var sig_index = builder.addType(kSig_v_ii);
builder.addFunction("store", kSig_v_iii)
.addBody([
kExprGetLocal, 1,
kExprGetLocal, 2,
kExprGetLocal, 0,
kExprCallIndirect, sig_index, kTableZero,
]).exportFunc();
let c = builder.instantiate({m: {table: table}});
let a_index = 1;
let b_index = 0;
let store_a = (index, val) => c.exports.store(a_index, index, val)
let store_b = (index, val) => c.exports.store(b_index, index, val);
assertMemoryIndependence(a.exports.load, store_a,
b.exports.load, store_b);
// Flip the order in the table and do it again.
table.set(0, a.exports.store);
table.set(1, b.exports.store);
a_index = 0;
b_index = 1;
assertMemoryIndependence(a.exports.load, store_a,
b.exports.load, store_b);
})();
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