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Quelle arrays.js Sprache: JAVA |
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// |jit-test| test-also=--gc-zeal=2 // Test array instructions on different valtypes const GENERAL_TESTS = [ [ 'i32', 0, 0xce, ], [ 'i64', 0n, 0xabcdefn, ], [ 'f32', 0, 13.5, ], [ 'f64', 0, 13.5, ], [ 'externref', null, 'hello', ], ]; for (let [valtype, def, nondef] of GENERAL_TESTS) { let {create, createDefault, get, set, len} = wasmEvalText(`(module (type $a (array (mut ${valtype}))) (; new T[0] = { 1... } ;) (func (export "create") (param i32 ${valtype}) (result eqref) local.get 1 local.get 0 array.new $a ) (; new T[0] ;) (func (export "createDefault") (param i32) (result eqref) local.get 0 array.new_default $a ) (; 0[1] ;) (func (export "get") (param eqref i32) (result ${valtype}) local.get 0 ref.cast (ref null $a) local.get 1 array.get $a ) (; 0[1] = 2 ;) (func (export "set") (param eqref i32 ${valtype}) local.get 0 ref.cast (ref null $a) local.get 1 local.get 2 array.set $a ) (; len(a) ;) (func (export "len") (param eqref) (result i32) local.get 0 ref.cast (ref null $a) array.len ) )`).exports; function checkArray(array, length, init, setval) { // Check length assertEq(len(array), length); assertEq(wasmGcArrayLength(array), length); // Check init value for (let i = 0; i < length; i++) { assertEq(wasmGcReadField(array, i), init); assertEq(get(array, i), init); } // Set every element to setval for (let i = 0; i < length; i++) { set(array, i, setval); // Check there is no overwrite for (let j = i + 1; j < length; j++) { assertEq(wasmGcReadField(array, j), init); assertEq(get(array, j), init); } } // Check out of bounds conditions for (let loc of [-1, length, length + 1]) { assertErrorMessage(() => { get(array, loc); }, WebAssembly.RuntimeError, /out of bounds/); assertErrorMessage(() => { set(array, loc, setval); }, WebAssembly.RuntimeError, /out of bounds/); } } for (let arrayLength = 0; arrayLength <= 25; arrayLength++) { checkArray(createDefault(arrayLength), arrayLength, def, nondef); checkArray(create(arrayLength, nondef), arrayLength, nondef, def); } } // Check packed array reads and writes for (let [fieldtype, max] of [ [ 'i8', 0xff, ], [ 'i16', 0xffff, ] ]) { let {create, getS, getU, set} = wasmEvalText(`(module (type $a (array (mut ${fieldtype}))) (; new T[0] = { 1... } ;) (func (export "create") (param i32 i32) (result eqref) local.get 1 local.get 0 array.new $a ) (; 0[1] ;) (func (export "getS") (param eqref i32) (result i32) local.get 0 ref.cast (ref null $a) local.get 1 array.get_s $a ) (; 0[1] ;) (func (export "getU") (param eqref i32) (result i32) local.get 0 ref.cast (ref null $a) local.get 1 array.get_u $a ) (; 0[1] = 2 ;) (func (export "set") (param eqref i32 i32) local.get 0 ref.cast (ref null $a) local.get 1 local.get 2 array.set $a ) )`).exports; // Check zero and sign extension let a = create(1, 0); set(a, 0, max); assertEq(getS(a, 0), -1); assertEq(getU(a, 0), max); // JS-API defaults to sign extension assertEq(wasmGcReadField(a, 0), getS(a, 0)); // Check array.new truncates init value assertEq(wasmGcReadField(create(1, max + 1), 0), 0); // Check array.set truncates let b = create(1, 0); set(b, 0, max + 1); assertEq(getU(b, 0), 0); // Check no overwrite on set let c = create(2, 0); set(c, 0, max << 4); assertEq(getU(c, 0), (max << 4) & max); assertEq(getU(c, 1), 0); } // Check arrays must be mutable to mutate assertErrorMessage(() => wasmEvalText(`(module (type $a (array i32)) (func (array.set $a (array.new $a i32.const 0xff i32.const 10) i32.const 0 i32.const 0 ) ) ) `), WebAssembly.CompileError, /array is not mutable/); // Check operations trap on null assertErrorMessage(() => { wasmEvalText(`(module (type $a (array (mut i32))) (func ref.null $a i32.const 0 array.get $a drop ) (start 0) )`); }, WebAssembly.RuntimeError, /null/); assertErrorMessage(() => { wasmEvalText(`(module (type $a (array (mut i32))) (func ref.null $a i32.const 0 i32.const 0 array.set $a ) (start 0) )`); }, WebAssembly.RuntimeError, /null/); assertErrorMessage(() => { wasmEvalText(`(module (type $a (array (mut i32))) (func ref.null $a array.len drop ) (start 0) )`); }, WebAssembly.RuntimeError, /null/); // Check an extension postfix is present iff the element is packed for ([fieldtype, packed] of [ ['i8', true], ['i16', true], ['i32', false], ['i64', false], ['f32', false], ['f64', false], ]) { let extensionModule = `(module (type $a (array ${fieldtype})) (func ref.null $a i32.const 0 array.get_s $a drop ) (func ref.null $a i32.const 0 array.get_u $a drop ) )`; let noExtensionModule = `(module (type $a (array ${fieldtype})) (func ref.null $a i32.const 0 array.get $a drop ) )`; if (packed) { wasmValidateText(extensionModule); wasmFailValidateText(noExtensionModule, /must specify signedness/); } else { wasmFailValidateText(extensionModule, /must not specify signedness/); wasmValidateText(noExtensionModule); } } ////////////////////////////////////////////////////////////////////////////// // // array.new_fixed /* validation: array-type imm-operand needs to be "in range" array-type imm-operand must refer to an array type operands (on stack) must all match ("be compatible with") the array elem type number of operands (on stack) must not be less than the num-of-elems imm-operand zero elements doesn't fail compilation reftypes elements doesn't fail compilation trying to create a 1-billion-element array fails gracefully run: resulting 4-element array is as expected resulting zero-element array is as expected resulting 30-element array is as expected */ // validation: array-type imm-operand needs to be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array i8)) (func (result eqref) i32.const 66 i32.const 77 array.new_fixed 2 2 ;; type index 2 is the first invalid one ) ) `), WebAssembly.CompileError, /type index out of range/); // validation: array-type imm-operand must refer to an array type assertErrorMessage(() => wasmEvalText(`(module (type $a (func (param f64) (result f64))) (func (result eqref) i32.const 66 i32.const 77 array.new_fixed $a 2 ) ) `), WebAssembly.CompileError, /not an array type/); // validation: operands (on stack) must all match ("be compatible with") // the array elem type assertErrorMessage(() => wasmEvalText(`(module (type $a (array i32)) (func (result eqref) f32.const 66.6 f64.const 77.7 array.new_fixed $a 2 ) ) `), WebAssembly.CompileError, /expression has type f64 but expected i32/); // validation: number of operands (on stack) must not be less than the // num-of-elems imm-operand assertNoWarning(() => wasmEvalText(`(module (type $a (array f32)) (func f64.const 66.6 ;; we won't put this in the array f32.const 77.7 f32.const 88.8 array.new_fixed $a 2 ;; use up 88.8 and 77.7 and replace with array drop ;; dump the array f64.const 99.9 f64.mul ;; check the 66.6 value is still on the stack drop ;; now should be empty ) ) `)); // (more) assertErrorMessage(() => wasmEvalText(`(module (type $a (array i64)) (func (param i64) (result eqref) local.get 0 array.new_fixed $a 2 ) ) `), WebAssembly.CompileError, /popping value from empty stack/); // validation: zero elements doesn't fail compilation assertNoWarning(() => wasmEvalText(`(module (type $a (array i32)) (func (result eqref) array.new_fixed $a 0 ) ) `)); // validation: reftyped elements doesn't fail compilation assertNoWarning(() => wasmEvalText(`(module (type $a (array eqref)) (func (param eqref) (result eqref) local.get 0 array.new_fixed $a 1 ) ) `)); // run: resulting 4-element array is as expected { let { newFixed } = wasmEvalText(`(module (type $a (array i8)) (func (export "newFixed") (result eqref) i32.const 66 i32.const 77 i32.const 88 i32.const 99 array.new_fixed $a 4 ) )`).exports; let a = newFixed(); assertEq(wasmGcArrayLength(a), 4); assertEq(wasmGcReadField(a, 0), 66); assertEq(wasmGcReadField(a, 1), 77); assertEq(wasmGcReadField(a, 2), 88); assertEq(wasmGcReadField(a, 3), 99); } // run: resulting zero-element array is as expected { let { newFixed } = wasmEvalText(`(module (type $a (array i16)) (func (export "newFixed") (result eqref) array.new_fixed $a 0 ) )`).exports; let a = newFixed(); assertEq(wasmGcArrayLength(a), 0); } // run: resulting 30-element array is as expected { let { newFixed } = wasmEvalText(`(module (type $a (array i16)) (func (export "newFixed") (result eqref) i32.const 1 i32.const 2 i32.const 3 i32.const 4 i32.const 5 i32.const 6 i32.const 7 i32.const 8 i32.const 9 i32.const 10 i32.const 11 i32.const 12 i32.const 13 i32.const 14 i32.const 15 i32.const 16 i32.const 17 i32.const 18 i32.const 19 i32.const 20 i32.const 21 i32.const 22 i32.const 23 i32.const 24 i32.const 25 i32.const 26 i32.const 27 i32.const 28 i32.const 29 i32.const 30 array.new_fixed $a 30 ) )`).exports; let a = newFixed(); assertEq(wasmGcArrayLength(a), 30); for (i = 0; i < 30; i++) { assertEq(wasmGcReadField(a, i), i + 1); } } // run: resulting 10_000-element array is as expected { let initializers = ''; for (let i = 0; i < 10_000; i++) { initializers += `i32.const ${i + 1}\n`; } let { newFixed } = wasmEvalText(`(module (type $a (array i16)) (func (export "newFixed") (result eqref) ${initializers} array.new_fixed $a 10000 ) )`).exports; let a = newFixed(); assertEq(wasmGcArrayLength(a), 10000); for (i = 0; i < 10000; i++) { assertEq(wasmGcReadField(a, i), i + 1); } } ////////////////////////////////////////////////////////////////////////////// // // array.new_data /* validation: array-type imm-operand needs to be "in range" array-type imm-operand must refer to an array type array-type imm-operand must refer to an array of numeric elements segment index must be "in range" run: if segment is "already used" (active, or passive that has subsequently been dropped), then only a zero length array can be created range to copy would require OOB read on data segment resulting array is as expected */ // validation: array-type imm-operand needs to be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=4 into data ;) i32.const 4 array.new_data 2 $d ) )`), WebAssembly.CompileError, /type index out of range/); // validation: array-type imm-operand must refer to an array type assertErrorMessage(() => wasmEvalText(`(module (type $a (func (param f32) (result f32))) (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=4 into data ;) i32.const 4 array.new_data $a $d ) )`), WebAssembly.CompileError, /not an array type/); // validation: array-type imm-operand must refer to an array of numeric elements assertErrorMessage(() => wasmEvalText(`(module (type $a (array eqref)) (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=4 into data ;) i32.const 4 array.new_data $a $d ) )`), WebAssembly.CompileError, /element type must be i8\/i16\/i32\/i64\/f32\/f64\/v128/); // validation: segment index must be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=4 into data ;) i32.const 4 array.new_data $a 1 ;; 1 is the lowest invalid dseg index ) )`), WebAssembly.CompileError, /segment index is out of range/); // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #1 { let { newData } = wasmEvalText(`(module (memory 1) (type $a (array i8)) (data $d (offset (i32.const 0)) "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=4 into data ;) i32.const 4 array.new_data $a $d ) )`).exports; assertErrorMessage(() => { newData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #2 { let { newData } = wasmEvalText(`(module (memory 1) (type $a (array i8)) (data $d (offset (i32.const 0)) "1337") (func (export "newData") (result eqref) (; offset=4 into data ;) i32.const 4 (; size=0 into data ;) i32.const 0 array.new_data $a $d ) )`).exports; assertErrorMessage(() => { newData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #3 { let { newData } = wasmEvalText(`(module (memory 1) (type $a (array i8)) (data $d (offset (i32.const 0)) "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=0 into data ;) i32.const 0 array.new_data $a $d ) )`).exports; let arr = newData(); assertEq(wasmGcArrayLength(arr), 0); } // run: range to copy would require OOB read on data segment { let { newData } = wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 1 (; size=4 into data ;) i32.const 4 array.new_data $a $d ) )`).exports; assertErrorMessage(() => { newData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: zero-length copies are allowed { let { newData } = wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=0 into data ;) i32.const 0 array.new_data $a $d ) )`).exports; let arr = newData(); assertEq(wasmGcArrayLength(arr), 0); } // run: a zero-length copy from the end is allowed { let { newData } = wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "newData") (result eqref) (; offset=4 into data ;) i32.const 4 (; size=0 into data ;) i32.const 0 array.new_data $a $d ) )`).exports; let arr = newData(); assertEq(wasmGcArrayLength(arr), 0); } // run: even empty data segments are allowed { let { newData } = wasmEvalText(`(module (type $a (array i8)) (data $d "") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=0 into data ;) i32.const 0 array.new_data $a $d ) )`).exports; let arr = newData(); assertEq(wasmGcArrayLength(arr), 0); } // run: resulting array is as expected { let { newData } = wasmEvalText(`(module (type $a (array i8)) (data $other "\\\\9") (data $d "1337") (func (export "newData") (result eqref) (; offset=0 into data ;) i32.const 0 (; size=4 into data ;) i32.const 4 array.new_data $a $d ) )`).exports; let arr = newData(); assertEq(wasmGcArrayLength(arr), 4); assertEq(wasmGcReadField(arr, 0), 48+1); assertEq(wasmGcReadField(arr, 1), 48+3); assertEq(wasmGcReadField(arr, 2), 48+3); assertEq(wasmGcReadField(arr, 3), 48+7); } ////////////////////////////////////////////////////////////////////////////// // // array.new_elem /* validation: array-type imm-operand needs to be "in range" array-type imm-operand must refer to an array type array-type imm-operand must refer to an array of ref typed elements destination elem type must be a supertype of src elem type segment index must be "in range" run: if segment is "already used" (active, or passive that has subsequently been dropped), then only a zero length array can be created range to copy would require OOB read on elem segment resulting array is as expected */ // validation: array-type imm-operand needs to be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.new_elem 3 $e ) )`), WebAssembly.CompileError, /type index out of range/); // validation: array-type imm-operand must refer to an array type assertErrorMessage(() => wasmEvalText(`(module (type $a (func (param i64) (result f64))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.new_elem $a $e ) )`), WebAssembly.CompileError, /not an array type/); // validation: array-type imm-operand must refer to an array of ref typed // elements assertErrorMessage(() => wasmEvalText(`(module (type $a (array f32)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.new_elem $a $e ) )`), WebAssembly.CompileError, /element type is not a reftype/); // validation: destination elem type must be a supertype of src elem type assertErrorMessage(() => wasmEvalText(`(module (type $a (array eqref)) (elem $e func $f1) (func $f1 (export "f1")) ;; The implied copy here is from elem-seg-of-funcrefs to ;; array-of-eqrefs, which must fail, because funcref isn't ;; a subtype of eqref. (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=0 into elem ;) i32.const 0 array.new_elem $a $e ) )`), WebAssembly.CompileError, /incompatible element types/); // validation: segment index must be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.new_elem $a 1 ;; 1 is the lowest invalid eseg index ) )`), WebAssembly.CompileError, /segment index is out of range/); // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #1 { let { newElem } = wasmEvalText(`(module (table 4 funcref) (type $a (array funcref)) (elem $e (offset (i32.const 0)) func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.new_elem $a $e ) )`).exports; assertErrorMessage(() => { newElem(); }, WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #2 { let { newElem } = wasmEvalText(`(module (table 4 funcref) (type $a (array funcref)) (elem $e (offset (i32.const 0)) func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=4 into elem ;) i32.const 4 (; size=0 into elem ;) i32.const 0 array.new_elem $a $e ) )`).exports; assertErrorMessage(() => { newElem(); }, WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #3 { let { newElem } = wasmEvalText(`(module (table 4 funcref) (type $a (array funcref)) (elem $e (offset (i32.const 0)) func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=0 into elem ;) i32.const 0 array.new_elem $a $e ) )`).exports; let arr = newElem(); assertEq(wasmGcArrayLength(arr), 0); } // run: range to copy would require OOB read on elem segment { let { newElem } = wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 1 (; size=4 into elem ;) i32.const 4 array.new_elem $a $e ) )`).exports; assertErrorMessage(() => { newElem(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: zero-length copies are allowed { let { newElem, f1, f2, f3, f4 } = wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=0 into elem ;) i32.const 0 array.new_elem $a $e ) )`).exports; let arr = newElem(); assertEq(wasmGcArrayLength(arr), 0); } // run: a zero-length copy from the end is allowed { let { newElem, f1, f2, f3, f4 } = wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=4 into elem ;) i32.const 4 (; size=0 into elem ;) i32.const 0 array.new_elem $a $e ) )`).exports; let arr = newElem(); assertEq(wasmGcArrayLength(arr), 0); } // run: even empty elem segments are allowed { let { newElem, f1, f2, f3, f4 } = wasmEvalText(`(module (type $a (array funcref)) (elem $e func) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=0 into elem ;) i32.const 0 array.new_elem $a $e ) )`).exports; let arr = newElem(); assertEq(wasmGcArrayLength(arr), 0); } // run: resulting array is as expected { let { newElem, f1, f2, f3, f4 } = wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "newElem") (result eqref) (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.new_elem $a $e ) )`).exports; let arr = newElem(); assertEq(wasmGcArrayLength(arr), 4); assertEq(wasmGcReadField(arr, 0), f1); assertEq(wasmGcReadField(arr, 1), f2); assertEq(wasmGcReadField(arr, 2), f3); assertEq(wasmGcReadField(arr, 3), f4); } ////////////////////////////////////////////////////////////////////////////// // // array.init_data /* validation: array-type imm-operand needs to be "in range" array-type imm-operand must refer to an array type array-type imm-operand must refer to an array of numeric elements array-type imm-operand must be mutable segment index must be "in range" run: array must not be null if segment is "already used" (active, or passive that has subsequently been dropped), then only a zero length array can be created range to copy would require OOB read on data segment range to copy would require OOB write on array resulting array is as expected */ // validation: array-type imm-operand needs to be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data 2 $d ) )`), WebAssembly.CompileError, /type index out of range/); // validation: array-type imm-operand must refer to an array type assertErrorMessage(() => wasmEvalText(`(module (type $a (func (param f32) (result f32))) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) )`), WebAssembly.CompileError, /not an array type/); // validation: array-type imm-operand must refer to an array of numeric elements assertErrorMessage(() => wasmEvalText(`(module (type $a (array eqref)) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) )`), WebAssembly.CompileError, /element type must be i8\/i16\/i32\/i64\/f32\/f64\/v128 // validation: array-type imm-operand must be mutable assertErrorMessage(() => wasmEvalText(`(module (type $a (array i8)) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) )`), WebAssembly.CompileError, /destination array is not mutable/); // validation: segment index must be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut i8))) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a 1 ;; 1 is the lowest invalid dseg index ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`), WebAssembly.CompileError, /segment index is out of range/); // run: array must not be null { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $d "1337") (func (export "initData") (; array to init ;) (ref.null $a) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); }, WebAssembly.RuntimeError, /dereferencing null pointer/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #1 { let { initData } = wasmEvalText(`(module (memory 1) (type $a (array (mut i8))) (data $d (offset (i32.const 0)) "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); }, WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #2 { let { initData } = wasmEvalText(`(module (memory 1) (type $a (array (mut i8))) (data $d (offset (i32.const 0)) "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=4 into data ;) i32.const 4 (; size=0 elements ;) i32.const 0 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #3 { let { initData } = wasmEvalText(`(module (memory 1) (type $a (array (mut i8))) (data $d (offset (i32.const 0)) "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=0 elements ;) i32.const 0 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; initData(); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #4 { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $d "1337") (func (export "initData") data.drop $d (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #5 { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $d "1337") (func (export "initData") data.drop $d (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=0 elements ;) i32.const 0 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; initData(); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #6 { let { initData } = wasmEvalText(`(module (memory 1) (type $a (array (mut i8))) (data $d "1337") (func (export "initData") data.drop $d (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=4 into array ;) i32.const 4 (; offset=0 into data ;) i32.const 0 (; size=0 elements ;) i32.const 0 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; initData(); } // run: range to copy would require OOB read on data segment #1 { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=1 into data ;) i32.const 1 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: range to copy would require OOB read on data segment #2 { let { initData } = wasmEvalText(`(module (type $a (array (mut i16))) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=1 into data ;) i32.const 1 (; size=2 elements ;) i32.const 2 ;; still 4 bytes array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: range to copy would require OOB write on array #1 { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=1 into array ;) i32.const 1 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 4 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: range to copy would require OOB write on array #2 { let { initData } = wasmEvalText(`(module (type $a (array (mut i16))) (data $d "1337") (func (export "initData") (; array to init ;) (array.new_default $a (i32.const 2)) (; offset=1 into array ;) i32.const 1 (; offset=0 into data ;) i32.const 0 (; size=4 elements ;) i32.const 2 array.init_data $a $d ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; assertErrorMessage(() => { initData(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: zeroes everywhere { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $d "") (func (export "initData") (result eqref) (local $arr (ref $a)) (local.set $arr (array.new_default $a (i32.const 0))) (; array to init ;) local.get $arr (; offset=0 into array ;) i32.const 0 (; offset=0 into data ;) i32.const 0 (; size=0 elements ;) i32.const 0 array.init_data $a $d local.get $arr ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; let arr = initData(); assertEq(wasmGcArrayLength(arr), 0); } // run: resulting array is as expected { let { initData } = wasmEvalText(`(module (type $a (array (mut i8))) (data $other "\\\\9") (data $d "xX1337Xx") (func (export "initData") (result eqref) (local $arr (ref $a)) (local.set $arr (array.new_default $a (i32.const 6))) (; array to init ;) local.get $arr (; offset=1 into array ;) i32.const 1 (; offset=2 into data ;) i32.const 2 (; size=4 elements ;) i32.const 4 array.init_data $a $d local.get $arr ) (func data.drop 0) ;; force write of data count section, see https://github.com/bytecodeall )`).exports; let arr = initData(); assertEq(wasmGcArrayLength(arr), 6); assertEq(wasmGcReadField(arr, 0), 0); assertEq(wasmGcReadField(arr, 1), 48+1); assertEq(wasmGcReadField(arr, 2), 48+3); assertEq(wasmGcReadField(arr, 3), 48+3); assertEq(wasmGcReadField(arr, 4), 48+7); assertEq(wasmGcReadField(arr, 5), 0); } ////////////////////////////////////////////////////////////////////////////// // // array.init_elem /* validation: array-type imm-operand needs to be "in range" array-type imm-operand must refer to an array type array-type imm-operand must refer to an array of ref typed elements array-type imm-operand must be mutable destination elem type must be a supertype of src elem type segment index must be "in range" run: array must not be null if segment is "already used" (active, or passive that has subsequently been dropped), then only a zero length array can be created range to copy would require OOB read on element segment range to copy would require OOB write on array resulting array is as expected */ // validation: array-type imm-operand needs to be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem 4 $e ) )`), WebAssembly.CompileError, /type index out of range/); // validation: array-type imm-operand must refer to an array type assertErrorMessage(() => wasmEvalText(`(module (type $a (func (param i64) (result f64))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`), WebAssembly.CompileError, /not an array type/); // validation: array-type imm-operand must refer to an array of ref typed // elements assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut f32))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`), WebAssembly.CompileError, /element type is not a reftype/); // validation: array-type imm-operand must be mutable assertErrorMessage(() => wasmEvalText(`(module (type $a (array funcref)) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`), WebAssembly.CompileError, /destination array is not mutable/); // validation: destination elem type must be a supertype of src elem type assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut eqref))) (elem $e func $f1) (func $f1 (export "f1")) ;; The copy here is from elem-seg-of-funcrefs to ;; array-of-eqrefs, which must fail, because funcref isn't ;; a subtype of eqref. (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`), WebAssembly.CompileError, /incompatible element types/); // validation: segment index must be "in range" assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a 1 ;; 1 is the lowest invalid eseg index ) )`), WebAssembly.CompileError, /segment index is out of range/); // run: array must not be null { let { initElem } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (ref.null $a) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`).exports; assertErrorMessage(() => { initElem(); }, WebAssembly.RuntimeError, /dereferencing null pointer/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #1 { let { initElem } = wasmEvalText(`(module (table 4 funcref) (type $a (array (mut funcref))) (elem $e (offset (i32.const 0)) func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`).exports; assertErrorMessage(() => { initElem(); }, WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #2 { let { initElem } = wasmEvalText(`(module (table 4 funcref) (type $a (array (mut funcref))) (elem $e (offset (i32.const 0)) func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=4 into elem ;) i32.const 4 (; size=0 into elem ;) i32.const 0 array.init_elem $a $e ) )`).exports; assertErrorMessage(() => { initElem(); }, WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length array can be created #3 { let { initElem } = wasmEvalText(`(module (table 4 funcref) (type $a (array (mut funcref))) (elem $e (offset (i32.const 0)) func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=0 into elem ;) i32.const 0 array.init_elem $a $e ) )`).exports; initElem(); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #4 { let { initElem } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") elem.drop $e (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`).exports; assertErrorMessage(() => { initElem(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #5 { let { initElem } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") elem.drop $e (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 0 array.init_elem $a $e ) )`).exports; initElem(); } // run: if segment is "already used" (active, or passive that has subsequently // been dropped), then only a zero length init can be performed #6 { let { initElem } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") elem.drop $e (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 4 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 0 array.init_elem $a $e ) )`).exports; initElem(); } // run: range to copy would require OOB read on elem segment { let { initElem } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 1 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`).exports; assertErrorMessage(() => { initElem(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: range to copy would require OOB write on array { let { initElem } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f1 $f2 $f3 $f4) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func (export "initElem") (; array to init ;) (array.new_default $a (i32.const 4)) (; offset=0 into array ;) i32.const 1 (; offset=0 into elem ;) i32.const 0 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e ) )`).exports; assertErrorMessage(() => { initElem(); },WebAssembly.RuntimeError, /index out of bounds/); } // run: zeroes everywhere { let { initElem, f1, f2, f3, f4 } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func) (func (export "initElem") (result eqref) (local $arr (ref $a)) (local.set $arr (array.new_default $a (i32.const 0))) (; array to init ;) local.get $arr (; offset=0 into array ;) i32.const 0 (; offset=0 into elem ;) i32.const 0 (; size=0 into elem ;) i32.const 0 array.init_elem $a $e local.get $arr ) )`).exports; let arr = initElem(); assertEq(wasmGcArrayLength(arr), 0); } // run: resulting array is as expected { let { initElem, f1, f2, f3, f4 } = wasmEvalText(`(module (type $a (array (mut funcref))) (elem $e func $f5 $f5 $f1 $f2 $f3 $f4 $f5 $f5) (func $f1 (export "f1")) (func $f2 (export "f2")) (func $f3 (export "f3")) (func $f4 (export "f4")) (func $f5) (func (export "initElem") (result eqref) (local $arr (ref $a)) (local.set $arr (array.new_default $a (i32.const 6))) (; array to init ;) local.get $arr (; offset=1 into array ;) i32.const 1 (; offset=2 into elem ;) i32.const 2 (; size=4 into elem ;) i32.const 4 array.init_elem $a $e local.get $arr ) )`).exports; let arr = initElem(); assertEq(wasmGcArrayLength(arr), 6); assertEq(wasmGcReadField(arr, 0), null); assertEq(wasmGcReadField(arr, 1), f1); assertEq(wasmGcReadField(arr, 2), f2); assertEq(wasmGcReadField(arr, 3), f3); assertEq(wasmGcReadField(arr, 4), f4); assertEq(wasmGcReadField(arr, 5), null); } ////////////////////////////////////////////////////////////////////////////// // // array.copy /* validation: dest array must be mutable validation: src and dest arrays must have compatible element types run: check for OOB conditions on src/dest arrays for non-zero length copies check for OOB conditions on src/dest arrays for zero length copies check resulting arrays are as expected check that null src or dest array causes a trap */ // validation: dest array must be mutable assertErrorMessage(() => wasmEvalText(`(module (type $a (array i32)) (func (param eqref) (array.copy $a $a (local.get 0) (i32.const 1) (local.get 0) (i32.const 2) (i32.const 3)) ) ) `), WebAssembly.CompileError, /array is not mutable/); // validation: src and dest arrays must have compatible element types #1 assertErrorMessage(() => wasmEvalText(`(module (type $a32 (array (mut i32))) (type $a8 (array i8)) (func (param eqref) (array.copy $a32 $a8 (local.get 0) (i32.const 1) (local.get 0) (i32.const 2) (i32.const 3)) ) ) `), WebAssembly.CompileError, /incompatible element types/); // validation: src and dest arrays must have compatible element types #2 assertErrorMessage(() => wasmEvalText(`(module (type $a64 (array (mut i64))) (type $aER (array eqref)) (func (param eqref) (array.copy $a64 $aER (local.get 0) (i32.const 1) (local.get 0) (i32.const 2) (i32.const 3)) ) ) `), WebAssembly.CompileError, /incompatible element types/); // validation: src and dest arrays must have compatible element types #3 // // We can only copy from a child (sub) reftype to a parent (super) reftype [or // to the same reftype.] Here, we have an array of eqref and an array of // arrays. An array is a child type of eqref, so it's invalid to try and copy // eqrefs into the array of arrays. assertErrorMessage(() => wasmEvalText(`(module (type $ty (array i32)) (type $child (array (mut (ref $ty)))) (type $parent (array (mut eqref))) (func (param (ref null $child) (ref null $parent)) ;; implied copy from parent to child -> not allowed (array.copy $child $parent (local.get 1) (i32.const 1) (local.get 0) (i32.const 2) (i32.const 3)) ) ) `), WebAssembly.CompileError, /incompatible element types/); // run: check for OOB conditions on src/dest arrays for non-zero length copies // run: check for OOB conditions on src/dest arrays for zero length copies // run: check resulting arrays are as expected const ARRAY_COPY_TESTS = [ // Format is: // array element type // corresponding value type // source array // first expected result // second expected result // // Value-type cases [ 'i32', 'i32', [22, 33, 44, 55, 66, 77], [22, 55, 66, 77, 66, 77], [22, 33, 22, 33, 44, 77] ], [ 'i64', 'i64', [0x2022002220002n, 0x3033003330003n, 0x4044004440004n, 0x5055005550005n, 0x6066006660006n, 0x7077007770007n], [0x2022002220002n, 0x5055005550005n, 0x6066006660006n, 0x7077007770007n, 0x6066006660006n, 0x7077007770007n], [0x2022002220002n, 0x3033003330003n, 0x2022002220002n, 0x3033003330003n, 0x4044004440004n, 0x7077007770007n] ], [ 'f32', 'f32', [22.0, 33.0, 44.0, 55.0, 66.0, 77.0], [22.0, 55.0, 66.0, 77.0, 66.0, 77.0], [22.0, 33.0, 22.0, 33.0, 44.0, 77.0] ], [ 'f64', 'f64', [22.0, 33.0, 44.0, 55.0, 66.0, 77.0], [22.0, 55.0, 66.0, 77.0, 66.0, 77.0], [22.0, 33.0, 22.0, 33.0, 44.0, 77.0] ], [ 'externref', 'externref', ['two', 'three', 'four', 'five', 'six', 'seven'], ['two', 'five', 'six', 'seven', 'six', 'seven'], ['two', 'three', 'two', 'three', 'four', 'seven'] ], // non-Value-type cases [ 'i8', 'i32', [22, 33, 44, 55, 66, 77], [22, 55, 66, 77, 66, 77], [22, 33, 22, 33, 44, 77] ], [ 'i16', 'i32', [22, 33, 44, 55, 66, 77], [22, 55, 66, 77, 66, 77], [22, 33, 22, 33, 44, 77] ] ]; for (let [elemTy, valueTy, src, exp1, exp2] of ARRAY_COPY_TESTS) { let { arrayNew, arrayCopy } = wasmEvalText( `(module (type $arrTy (array (mut ${elemTy}))) (func (export "arrayNew") (param ${valueTy} ${valueTy} ${valueTy} ${valueTy} ${valueTy} ${valueTy}) (result eqref) local.get 0 local.get 1 local.get 2 local.get 3 local.get 4 local.get 5 array.new_fixed $arrTy 6 ) (func (export "arrayCopy") (param eqref i32 eqref i32 i32) (array.copy $arrTy $arrTy (ref.cast (ref null $arrTy) local.get 0) (local.get 1) (ref.cast (ref null $arrTy) local.get 2) (local.get 3) (local.get 4) ) ) )` ).exports; assertEq(src.length, 6); assertEq(exp1.length, 6); assertEq(exp2.length, 6); function eqArrays(a1, a2) { function len(arr) { return Array.isArray(arr) ? arr.length : wasmGcArrayLength(arr); } function get(arr, i) { return Array.isArray(arr) ? arr[i] : wasmGcReadField(arr, i); } assertEq(len(a1), 6); assertEq(len(a2), 6); for (i = 0; i < 6; i++) { if (get(a1, i) !== get(a2, i)) return false; } return true; } function show(who, arr) { print(who + ": " + arr[0] + " " + arr[1] + " " + arr[2] + " " + arr[3] + " " + arr[4] + " " + arr[5] + " "); } // Check that "normal" copying gives expected results. let srcTO; srcTO = arrayNew(src[0], src[1], src[2], src[3], src[4], src[5]); arrayCopy(srcTO, 1, srcTO, 3, 3); assertEq(eqArrays(srcTO, exp1), true); srcTO = arrayNew(src[0], src[1], src[2], src[3], src[4], src[5]); arrayCopy(srcTO, 2, srcTO, 0, 3); assertEq(eqArrays(srcTO, exp2), true); // Check out-of-bounds conditions let exp1TO = arrayNew(exp1[0], exp1[1], exp1[2], exp1[3], exp1[4], exp1[5]); let exp2TO = arrayNew(exp2[0], exp2[1], exp2[2], exp2[3], exp2[4], exp2[5]); // dst overrun, wants to write [5, 6] assertErrorMessage(() => { arrayCopy(exp1TO, 5, exp2TO, 1, 2); },WebAssembly.RuntimeError, /index out of bounds/); // dst overrun, wants to write [7, 8] assertErrorMessage(() => { arrayCopy(exp1TO, 7, exp2TO, 1, 2); },WebAssembly.RuntimeError, /index out of bounds/); // dst zero-len overrun, wants to write no elements, but starting at 9 assertErrorMessage(() => { arrayCopy(exp1TO, 9, exp2TO, 1, 0); },WebAssembly.RuntimeError, /index out of bounds/); // src overrun, wants to read [5, 6] assertErrorMessage(() => { arrayCopy(exp1TO, 1, exp2TO, 5, 2); },WebAssembly.RuntimeError, /index out of bounds/); // src overrun, wants to read [7, 8] assertErrorMessage(() => { arrayCopy(exp1TO, 1, exp2TO, 7, 2); },WebAssembly.RuntimeError, /index out of bounds/); // src zero-len overrun, wants to read no elements, but starting at 9 assertErrorMessage(() => { arrayCopy(exp1TO, 1, exp2TO, 9, 0); },WebAssembly.RuntimeError, /index out of bounds/); } // run: check that null src or dest array causes a trap #1 { let { shouldTrap } = wasmEvalText(`(module (type $a (array (mut f32))) (func (export "shouldTrap") ref.null $a i32.const 1 (array.new_fixed $a 3 (f32.const 1.23) (f32.const 4.56) (f32.const 7.89)) i32.const 1 i32.const 1 array.copy $a $a ) )`).exports; assertErrorMessage(() => { shouldTrap(); }, WebAssembly.RuntimeError, /null/); } // run: check that null src or dest array causes a trap #2 { let { shouldTrap } = wasmEvalText(`(module (type $a (array (mut f32))) (func (export "shouldTrap") (array.new_fixed $a 3 (f32.const 1.23) (f32.const 4.56) (f32.const 7.89)) i32.const 1 ref.null $a i32.const 1 i32.const 1 array.copy $a $a ) )`).exports; assertErrorMessage(() => { shouldTrap(); }, WebAssembly.RuntimeError, /null/); } ////////////////////////////////////////////////////////////////////////////// // // array.fill /* validation: array must be mutable value must be compatible with array element type run: null array causes a trap OOB conditions on array for non-zero length copies OOB conditions on array for zero length copies resulting arrays are as expected (all types) */ // validation: array must be mutable assertErrorMessage(() => wasmEvalText(`(module (type $a (array i32)) (func (array.new_default $a (i32.const 8)) i32.const 0 i32.const 123 i32.const 8 array.fill $a ) ) `), WebAssembly.CompileError, /array is not mutable/); // validation: value must be compatible with array element type #1 assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut i32))) (func (array.new_default $a (i32.const 8)) i32.const 0 i64.const 123 i32.const 8 array.fill $a ) ) `), WebAssembly.CompileError, /type mismatch/); // validation: value must be compatible with array element type #2 assertErrorMessage(() => wasmEvalText(`(module (type $a (array (mut eqref))) (func (array.new_default $a (i32.const 8)) i32.const 0 ref.null any i32.const 8 array.fill $a ) ) `), WebAssembly.CompileError, /type mismatch/); // run: null array causes a trap { const { arrayFill } = wasmEvalText(`(module (type $a (array (mut i32))) (func (export "arrayFill") ref.null $a i32.const 0 i32.const 123 i32.const 8 array.fill $a ) )`).exports; assertErrorMessage(() => { arrayFill(); }, WebAssembly.RuntimeError, /dereferencing null pointer/); } // run: OOB conditions on array for non-zero length copies { const { arrayFill } = wasmEvalText(`(module (type $a (array (mut i32))) (func (export "arrayFill") (array.new_default $a (i32.const 8)) i32.const 1 i32.const 123 i32.const 8 array.fill $a ) )`).exports; assertErrorMessage(() => { arrayFill(); }, WebAssembly.RuntimeError, /index out of bounds/); } // run: OOB conditions on array for zero length copies { const { arrayFill } = wasmEvalText(`(module (type $a (array (mut i32))) (func (export "arrayFill") (array.new_default $a (i32.const 8)) i32.const 8 i32.const 123 i32.const 0 array.fill $a ) )`).exports; arrayFill(); } // run: arrays are as expected (all types) { const TESTS = [ { type: 'i8', val: 'i32.const 123', get: 'array.get_u', test: 'i32.eq' }, { type: 'i16', val: 'i32.const 123', get: 'array.get_u', test: 'i32.eq' }, { type: 'i32', val: 'i32.const 123', test: 'i32.eq' }, { type: 'i64', val: 'i64.const 123', test: 'i64.eq' }, { type: 'f32', val: 'f32.const 3.14', test: 'f32.eq' }, { type: 'f64', val: 'f64.const 3.14', test: 'f64.eq' }, { type: 'eqref', val: 'global.get 0', test: 'ref.eq' }, ]; if (wasmSimdEnabled()) { TESTS.push({ type: 'v128', val: 'v128.const i32x4 111 222 333 444', test: '(v128.xor) } for (const { type, val, get = 'array.get', test } of TESTS) { const { arrayFill, isDefault, isFilled } = wasmEvalText(`(module (type $a (array (mut ${type}))) (type $s (struct)) (global (ref $s) (struct.new_default $s)) (func (export "arrayFill") (result (ref $a)) (local $arr (ref $a)) (local.set $arr (array.new_default $a (i32.const 4))) local.get $arr i32.const 1 ${val} i32.const 2 array.fill $a local.get $arr ) (func (export "isDefault") (param (ref $a) i32) (result i32) (${get} $a (local.get 0) (local.get 1)) (${get} $a (array.new_default $a (i32.const 1)) (i32.const 0)) ${test} ) (func (export "isFilled") (param (ref $a) i32) (result i32) (${get} $a (local.get 0) (local.get 1)) ${val} ${test} ) )`).exports; const arr = arrayFill(); assertEq(isDefault(arr, 0), 1, `expected default value for ${type} but got filled`); assertEq(isFilled(arr, 1), 1, `expected filled value for ${type} but got default`); assertEq(isFilled(arr, 2), 1, `expected filled value for ${type} but got default`); assertEq(isDefault(arr, 3), 1, `expected default value for ${type} but got filled`); } } // Test whether array data pointers are correctly tracked in stack maps. { const { newArray, test } = wasmEvalText(`(module (type $a (array i32)) (import "" "gc" (func $gc)) (func (export "newArray") (result (ref $a)) (array.new $a (i32.const 123) (i32.const 4)) ) (func (export "test") (param $arr (ref $a)) (result i32) (local i32) (local i32) (array.get $a (local.get $arr) (i32.const 1)) local.set 1 call $gc (array.get $a (local.get $arr) (i32.const 2)) local.set 2 (i32.add (local.get 1) (local.get 2)) ) --> -------------------- --> maximum size reached --> --------------------
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2026-04-02