v8/test/mjsunit/wasm/stringrefs-exec.js

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// Copyright 2022 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: --experimental-wasm-stringref
d8.file.execute("test/mjsunit/wasm/wasm-module-builder.js");
let kSig_w_ii = makeSig([kWasmI32, kWasmI32], [kWasmStringRef]);
let kSig_w_v = makeSig([], [kWasmStringRef]);
let kSig_i_w = makeSig([kWasmStringRef], [kWasmI32]);
let kSig_i_wi = makeSig([kWasmStringRef, kWasmI32], [kWasmI32]);
let kSig_w_wii = makeSig([kWasmStringRef, kWasmI32, kWasmI32],
[kWasmStringRef]);
let kSig_v_wi = makeSig([kWasmStringRef, kWasmI32], []);
function encodeWtf8(str) {
// String iterator coalesces surrogate pairs.
let out = [];
for (let codepoint of str) {
codepoint = codepoint.codePointAt(0);
if (codepoint <= 0x7f) {
out.push(codepoint);
} else if (codepoint <= 0x7ff) {
out.push(0xc0 | (codepoint >> 6));
out.push(0x80 | (codepoint & 0x3f));
} else if (codepoint <= 0xffff) {
out.push(0xe0 | (codepoint >> 12));
out.push(0x80 | ((codepoint >> 6) & 0x3f));
out.push(0x80 | (codepoint & 0x3f));
} else if (codepoint <= 0x10ffff) {
out.push(0xf0 | (codepoint >> 18));
out.push(0x80 | ((codepoint >> 12) & 0x3f));
out.push(0x80 | ((codepoint >> 6) & 0x3f));
out.push(0x80 | (codepoint & 0x3f));
} else {
throw new Error("bad codepoint " + codepoint);
}
}
return out;
}
let interestingStrings = ['',
'ascii',
'latin \xa9 1',
'two \ucccc byte',
'surrogate \ud800\udc000 pair',
'isolated \ud800 leading',
'isolated \udc00 trailing'];
function makeWtf8TestDataSegment() {
let data = []
let valid = {};
let invalid = {};
for (let str of interestingStrings) {
let bytes = encodeWtf8(str);
valid[str] = { offset: data.length, length: bytes.length };
for (let byte of bytes) {
data.push(byte);
}
}
for (let bytes of ['trailing high byte \xa9',
'interstitial high \xa9 byte',
'invalid \xc0 byte',
'surrogate \xed\xa0\x80\xed\xd0\x80 pair']) {
invalid[bytes] = { offset: data.length, length: bytes.length };
for (let i = 0; i < bytes.length; i++) {
data.push(bytes.charCodeAt(i));
}
}
return { valid, invalid, data: Uint8Array.from(data) };
};
(function TestStringNewWtf8() {
let builder = new WasmModuleBuilder();
builder.addMemory(1, undefined, false, false);
let data = makeWtf8TestDataSegment();
builder.addDataSegment(0, data.data);
builder.addFunction("string_new_wtf8", kSig_w_ii)
.exportFunc()
.addBody([
kExprLocalGet, 0, kExprLocalGet, 1,
kGCPrefix, kExprStringNewWtf8, 0
]);
let instance = builder.instantiate();
for (let [str, {offset, length}] of Object.entries(data.valid)) {
assertEquals(str, instance.exports.string_new_wtf8(offset, length));
}
for (let [str, {offset, length}] of Object.entries(data.invalid)) {
assertThrows(() => instance.exports.string_new_wtf8(offset, length),
WebAssembly.RuntimeError, "invalid WTF-8 string");
}
})();
function encodeWtf16LE(str) {
// String iterator coalesces surrogate pairs.
let out = [];
for (let i = 0; i < str.length; i++) {
codeunit = str.charCodeAt(i);
out.push(codeunit & 0xff)
out.push(codeunit >> 8);
}
return out;
}
function makeWtf16TestDataSegment() {
let data = []
let valid = {};
for (let str of interestingStrings) {
valid[str] = { offset: data.length, length: str.length };
for (let byte of encodeWtf16LE(str)) {
data.push(byte);
}
}
return { valid, data: Uint8Array.from(data) };
};
(function TestStringNewWtf16() {
let builder = new WasmModuleBuilder();
builder.addMemory(1, undefined, false, false);
let data = makeWtf16TestDataSegment();
builder.addDataSegment(0, data.data);
builder.addFunction("string_new_wtf16", kSig_w_ii)
.exportFunc()
.addBody([
kExprLocalGet, 0, kExprLocalGet, 1,
kGCPrefix, kExprStringNewWtf16, 0
]);
let instance = builder.instantiate();
for (let [str, {offset, length}] of Object.entries(data.valid)) {
assertEquals(str, instance.exports.string_new_wtf16(offset, length));
}
})();
(function TestStringConst() {
let builder = new WasmModuleBuilder();
for (let [index, str] of interestingStrings.entries()) {
builder.addLiteralStringRef(encodeWtf8(str));
builder.addFunction("string_const" + index, kSig_w_v)
.exportFunc()
.addBody([
kGCPrefix, kExprStringConst, index
]);
builder.addGlobal(kWasmStringRef, false, WasmInitExpr.StringConst(index))
.exportAs("global" + index);
}
let instance = builder.instantiate();
for (let [index, str] of interestingStrings.entries()) {
assertEquals(str, instance.exports["string_const" + index]());
assertEquals(str, instance.exports["global" + index].value);
}
})();
function IsSurrogate(codepoint) {
return 0xD800 <= codepoint && codepoint <= 0xDFFF
}
function HasIsolatedSurrogate(str) {
for (let codepoint of str) {
let value = codepoint.codePointAt(0);
if (IsSurrogate(value)) return true;
}
return false;
}
(function TestStringMeasureUtf8AndWtf8() {
let builder = new WasmModuleBuilder();
builder.addFunction("string_measure_utf8", kSig_i_w)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kGCPrefix, kExprStringMeasureUtf8
]);
builder.addFunction("string_measure_wtf8", kSig_i_w)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kGCPrefix, kExprStringMeasureWtf8
]);
builder.addFunction("string_measure_utf8_null", kSig_i_v)
.exportFunc()
.addBody([
kExprRefNull, kStringRefCode,
kGCPrefix, kExprStringMeasureUtf8
]);
builder.addFunction("string_measure_wtf8_null", kSig_i_v)
.exportFunc()
.addBody([
kExprRefNull, kStringRefCode,
kGCPrefix, kExprStringMeasureWtf8
]);
let instance = builder.instantiate();
for (let str of interestingStrings) {
let wtf8 = encodeWtf8(str);
assertEquals(wtf8.length, instance.exports.string_measure_wtf8(str));
if (HasIsolatedSurrogate(str)) {
assertEquals(-1, instance.exports.string_measure_utf8(str));
} else {
assertEquals(wtf8.length, instance.exports.string_measure_utf8(str));
}
}
assertThrows(() => instance.exports.string_measure_utf8_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
assertThrows(() => instance.exports.string_measure_wtf8_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
})();
(function TestStringMeasureWtf16() {
let builder = new WasmModuleBuilder();
builder.addFunction("string_measure_wtf16", kSig_i_w)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kGCPrefix, kExprStringMeasureWtf16
]);
builder.addFunction("string_measure_wtf16_null", kSig_i_v)
.exportFunc()
.addBody([
kExprRefNull, kStringRefCode,
kGCPrefix, kExprStringMeasureWtf16
]);
let instance = builder.instantiate();
for (let str of interestingStrings) {
assertEquals(str.length, instance.exports.string_measure_wtf16(str));
}
assertThrows(() => instance.exports.string_measure_wtf16_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
})();
(function TestStringEncodeWtf8() {
let builder = new WasmModuleBuilder();
builder.addMemory(1, undefined, true /* exported */, false);
for (let [policy, name] of ["utf8", "wtf8", "replace"].entries()) {
builder.addFunction("encode_" + name, kSig_v_wi)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kExprLocalGet, 1,
kGCPrefix, kExprStringEncodeWtf8, 0, policy,
]);
}
builder.addFunction("encode_null", kSig_v_v)
.exportFunc()
.addBody([
kExprRefNull, kStringRefCode,
kExprI32Const, 42,
kGCPrefix, kExprStringEncodeWtf8, 0, 0,
]);
let instance = builder.instantiate();
let memory = new Uint8Array(instance.exports.memory.buffer);
function clearMemory(low, high) {
for (let i = low; i < high; i++) {
memory[i] = 0;
}
}
function assertMemoryBytesZero(low, high) {
for (let i = low; i < high; i++) {
assertEquals(0, memory[i]);
}
}
function checkMemory(offset, bytes) {
let slop = 64;
assertMemoryBytesZero(Math.max(0, offset - slop), offset);
for (let i = 0; i < bytes.length; i++) {
assertEquals(bytes[i], memory[offset + i]);
}
assertMemoryBytesZero(offset + bytes.length,
Math.min(memory.length,
offset + bytes.length + slop));
}
for (let str of interestingStrings) {
let wtf8 = encodeWtf8(str);
let offset = memory.length - wtf8.length;
instance.exports.encode_wtf8(str, offset);
checkMemory(offset, wtf8);
clearMemory(offset, offset + wtf8.length);
}
for (let str of interestingStrings) {
let offset = 0;
if (HasIsolatedSurrogate(str)) {
assertThrows(() => instance.exports.encode_utf8(str, offset),
WebAssembly.RuntimeError,
"Failed to encode string as UTF-8: contains unpaired surrogate");
} else {
let wtf8 = encodeWtf8(str);
instance.exports.encode_utf8(str, offset);
checkMemory(offset, wtf8);
clearMemory(offset, offset + wtf8.length);
}
}
for (let str of interestingStrings) {
let offset = 42;
instance.exports.encode_replace(str, offset);
let replaced = '';
for (let codepoint of str) {
codepoint = codepoint.codePointAt(0);
if (IsSurrogate(codepoint)) codepoint = 0xFFFD;
replaced += String.fromCodePoint(codepoint);
}
if (!HasIsolatedSurrogate(str)) assertEquals(str, replaced);
let wtf8 = encodeWtf8(replaced);
checkMemory(offset, wtf8);
clearMemory(offset, offset + wtf8.length);
}
assertThrows(() => instance.exports.encode_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
checkMemory(memory.length - 10, []);
for (let str of interestingStrings) {
let wtf8 = encodeWtf8(str);
let offset = memory.length - wtf8.length + 1;
assertThrows(() => instance.exports.encode_wtf8(str, offset),
WebAssembly.RuntimeError, "memory access out of bounds");
assertThrows(() => instance.exports.encode_utf8(str, offset),
WebAssembly.RuntimeError, "memory access out of bounds");
assertThrows(() => instance.exports.encode_replace(str, offset),
WebAssembly.RuntimeError, "memory access out of bounds");
checkMemory(offset - 1, []);
}
})();
(function TestStringEncodeWtf16() {
let builder = new WasmModuleBuilder();
builder.addMemory(1, undefined, true /* exported */, false);
builder.addFunction("encode_wtf16", kSig_v_wi)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kExprLocalGet, 1,
kGCPrefix, kExprStringEncodeWtf16, 0,
]);
builder.addFunction("encode_null", kSig_v_v)
.exportFunc()
.addBody([
kExprRefNull, kStringRefCode,
kExprI32Const, 42,
kGCPrefix, kExprStringEncodeWtf16, 0,
]);
let instance = builder.instantiate();
let memory = new Uint8Array(instance.exports.memory.buffer);
function clearMemory(low, high) {
for (let i = low; i < high; i++) {
memory[i] = 0;
}
}
function assertMemoryBytesZero(low, high) {
for (let i = low; i < high; i++) {
assertEquals(0, memory[i]);
}
}
function checkMemory(offset, bytes) {
let slop = 64;
assertMemoryBytesZero(Math.max(0, offset - slop), offset);
for (let i = 0; i < bytes.length; i++) {
assertEquals(bytes[i], memory[offset + i]);
}
assertMemoryBytesZero(offset + bytes.length,
Math.min(memory.length,
offset + bytes.length + slop));
}
for (let str of interestingStrings) {
let wtf16 = encodeWtf16LE(str);
let offset = memory.length - wtf16.length;
instance.exports.encode_wtf16(str, offset);
checkMemory(offset, wtf16);
clearMemory(offset, offset + wtf16.length);
}
for (let str of interestingStrings) {
let wtf16 = encodeWtf16LE(str);
let offset = 0;
instance.exports.encode_wtf16(str, offset);
checkMemory(offset, wtf16);
clearMemory(offset, offset + wtf16.length);
}
assertThrows(() => instance.exports.encode_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
checkMemory(memory.length - 10, []);
for (let str of interestingStrings) {
let offset = 1;
assertThrows(() => instance.exports.encode_wtf16(str, offset),
WebAssembly.RuntimeError,
"operation does not support unaligned accesses");
}
for (let str of interestingStrings) {
let wtf16 = encodeWtf16LE(str);
let offset = memory.length - wtf16.length + 2;
assertThrows(() => instance.exports.encode_wtf16(str, offset),
WebAssembly.RuntimeError, "memory access out of bounds");
checkMemory(offset - 2, []);
}
})();
(function TestStringViewWtf16() {
let builder = new WasmModuleBuilder();
builder.addFunction("string_view_wtf16_length", kSig_i_w)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kGCPrefix, kExprStringAsWtf16,
kGCPrefix, kExprStringViewWtf16Length
]);
builder.addFunction("string_view_wtf16_length_null", kSig_i_v)
.exportFunc()
.addBody([
kExprRefNull, kStringViewWtf16Code,
kGCPrefix, kExprStringViewWtf16Length
]);
builder.addFunction("string_view_wtf16_get_codeunit", kSig_i_wi)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kGCPrefix, kExprStringAsWtf16,
kExprLocalGet, 1,
kGCPrefix, kExprStringViewWtf16GetCodeunit
]);
builder.addFunction("string_view_wtf16_get_codeunit_null", kSig_i_v)
.exportFunc()
.addBody([
kExprRefNull, kStringViewWtf16Code,
kExprI32Const, 0,
kGCPrefix, kExprStringViewWtf16GetCodeunit
]);
builder.addFunction("string_view_wtf16_slice", kSig_w_wii)
.exportFunc()
.addBody([
kExprLocalGet, 0,
kGCPrefix, kExprStringAsWtf16,
kExprLocalGet, 1,
kExprLocalGet, 2,
kGCPrefix, kExprStringViewWtf16Slice
]);
builder.addFunction("string_view_wtf16_slice_null", kSig_w_v)
.exportFunc()
.addBody([
kExprRefNull, kStringViewWtf16Code,
kExprI32Const, 0,
kExprI32Const, 0,
kGCPrefix, kExprStringViewWtf16Slice
]);
let instance = builder.instantiate();
for (let str of interestingStrings) {
assertEquals(str.length, instance.exports.string_view_wtf16_length(str));
for (let i = 0; i < str.length; i++) {
assertEquals(str.charCodeAt(i),
instance.exports.string_view_wtf16_get_codeunit(str, i));
}
assertEquals(str, instance.exports.string_view_wtf16_slice(str, 0, -1));
}
assertEquals("f", instance.exports.string_view_wtf16_slice("foo", 0, 0));
assertEquals("fo", instance.exports.string_view_wtf16_slice("foo", 0, 1));
assertEquals("foo", instance.exports.string_view_wtf16_slice("foo", 0, 2));
assertEquals("oo", instance.exports.string_view_wtf16_slice("foo", 1, 2));
assertEquals("oo", instance.exports.string_view_wtf16_slice("foo", 1, 100));
assertEquals("", instance.exports.string_view_wtf16_slice("foo", 1, 0));
assertThrows(() => instance.exports.string_view_wtf16_length_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
assertThrows(() => instance.exports.string_view_wtf16_get_codeunit_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
assertThrows(() => instance.exports.string_view_wtf16_get_codeunit("", 0),
WebAssembly.RuntimeError, "string offset out of bounds");
assertThrows(() => instance.exports.string_view_wtf16_slice_null(),
WebAssembly.RuntimeError, "dereferencing a null pointer");
})();