if (getBuildConfiguration("debug") && (getBuildConfiguration("arm-simulator") || getBuildConfiguration("arm64-simulator") || getBuildConfiguration("mips32-simulator") || getBuildConfiguration("mips64-simulator"))) { // Will timeout, so just quit early. quit(0); } // Sundry test cases for the "partial write" bounds checking semantics. const PAGESIZE = 65536; // memory.fill: out of bounds, should not perform writes // // Arithmetic overflow of memory offset + len should not affect the behavior, we // should still fill up to the limit. function mem_fill(min, max, shared, backup, write=backup*2) { if (shared == "shared" && !sharedMemoryEnabled()) return; let ins = wasmEvalText( `(module (memory (export "mem") ${min} ${max} ${shared}) (func (export "run") (param $offs i32) (param $val i32) (param $len i32) (memory.fill (local.get $offs) (local.get $val) (local.get $len))))`); // A fill past the end should throw *and* not have filled all the way up to // the end let offs = min*PAGESIZE - backup; let val = 37; assertErrorMessage(() => ins.exports.run(offs, val, write), WebAssembly.RuntimeError, /index out of bounds/); let v = new Uint8Array(ins.exports.mem.buffer); for (let i=0; i < backup; i++) assertEq(v[offs+i], 0); for (let i=0; i < offs; i++) assertEq(v[i], 0); } mem_fill(1, 1, "", 256); mem_fill(1, 1, "", 257); mem_fill(1, 1, "", 257, 0xFFFFFFFF); // offs + len overflows 32-bit mem_fill(2, 4, "shared", 256); mem_fill(2, 4, "shared", 257); mem_fill(2, 4, "shared", 257, 0xFFFFFFFF); // offs + len overflows 32-bit // memory.init: out of bounds of the memory or the segment, and should not perform // the operation at all. // // Arithmetic overflow of memoffset + len or of bufferoffset + len should not // affect the behavior. // Note, the length of the data segment is 16. const mem_init_len = 16; function mem_init(min, max, shared, backup, write) { if (shared == "shared" && !sharedMemoryEnabled()) return; let ins = wasmEvalText( `(module (memory (export "mem") ${min} ${max} ${shared}) (data "\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42\\42") (func (export "run") (param $offs i32) (param $len i32) (memory.init 0 (local.get $offs) (i32.const 0) (local.get $len))))`); // A fill writing past the end of the memory should throw *and* not have filled // all the way up to the end. // // A fill reading past the end of the segment should throw *and* not have filled // memory with as much data as was available. let offs = min*PAGESIZE - backup; assertErrorMessage(() => ins.exports.run(offs, write), WebAssembly.RuntimeError, /index out of bounds/); let v = new Uint8Array(ins.exports.mem.buffer); for (let i=0; i < min; i++) assertEq(v[offs + i], 0); } // We exceed the bounds of the memory but not of the data segment mem_init(1, 1, "", Math.floor(mem_init_len/2), mem_init_len); mem_init(1, 1, "", Math.floor(mem_init_len/2)+1, mem_init_len); mem_init(2, 4, "shared", Math.floor(mem_init_len/2), mem_init_len); mem_init(2, 4, "shared", Math.floor(mem_init_len/2)+1, mem_init_len); // We exceed the bounds of the data segment but not the memory mem_init(1, 1, "", mem_init_len*4, mem_init_len*2-2); mem_init(1, 1, "", mem_init_len*4-1, mem_init_len*2-1); mem_init(2, 4, "shared", mem_init_len*4, mem_init_len*2-2); mem_init(2, 4, "shared", mem_init_len*4-1, mem_init_len*2-1); // We arithmetically overflow the memory limit but not the segment limit mem_init(1, "", "", Math.floor(mem_init_len/2), 0xFFFFFF00); // We arithmetically overflow the segment limit but not the memory limit mem_init(1, "", "", PAGESIZE, 0xFFFFFFFC); // memory.copy: out of bounds of the memory for the source or target, and should // not perform at all. Major cases: // // - non-overlapping regions // - overlapping regions with src >= dest // - overlapping regions with src == dest // - overlapping regions with src < dest // - arithmetic overflow on src addresses // - arithmetic overflow on target addresses // // for each of those, // // - src address oob // - target address oob // - both oob function mem_copy(min, max, shared, srcOffs, targetOffs, len) { if (shared == "shared" && !sharedMemoryEnabled()) return; let ins = wasmEvalText( `(module (memory (export "mem") ${min} ${max} ${shared}) (func (export "run") (param $targetOffs i32) (param $srcOffs i32) (param $len i32) (memory.copy (local.get $targetOffs) (local.get $srcOffs) (local.get $len))))`); let v = new Uint8Array(ins.exports.mem.buffer); let copyDown = srcOffs < targetOffs; let targetAvail = v.length - targetOffs; let srcAvail = v.length - srcOffs; let srcLim = srcOffs + Math.min(len, targetAvail, srcAvail); for (let i=srcOffs, j=0; i < srcLim; i++, j++) v[i] = j; assertErrorMessage(() => ins.exports.run(targetOffs, srcOffs, len), WebAssembly.RuntimeError, /index out of bounds/); for (var i=0, s=0; i < v.length; i++ ) { if (i >= srcOffs && i < srcLim) { assertEq(v[i], (s++) & 0xFF); continue; } assertEq(v[i], 0); } } // OOB target address, nonoverlapping mem_copy(1, 1, "", 0, PAGESIZE-20, 40); mem_copy(1, 1, "", 0, PAGESIZE-21, 39); mem_copy(2, 4, "shared", 0, 2*PAGESIZE-20, 40); mem_copy(2, 4, "shared", 0, 2*PAGESIZE-21, 39); // OOB source address, nonoverlapping mem_copy(1, 1, "", PAGESIZE-20, 0, 40); mem_copy(1, 1, "", PAGESIZE-21, 0, 39); mem_copy(2, 4, "shared", 2*PAGESIZE-20, 0, 40); mem_copy(2, 4, "shared", 2*PAGESIZE-21, 0, 39); // OOB target address, overlapping, src < target mem_copy(1, 1, "", PAGESIZE-50, PAGESIZE-20, 40); // OOB source address, overlapping, target < src mem_copy(1, 1, "", PAGESIZE-20, PAGESIZE-50, 40); // OOB both, overlapping, including target == src mem_copy(1, 1, "", PAGESIZE-30, PAGESIZE-20, 40); mem_copy(1, 1, "", PAGESIZE-20, PAGESIZE-30, 40); mem_copy(1, 1, "", PAGESIZE-20, PAGESIZE-20, 40); // Arithmetic overflow on source address. mem_copy(1, "", "", PAGESIZE-20, 0, 0xFFFFF000); // Arithmetic overflow on target adddress is an overlapping case. mem_copy(1, 1, "", PAGESIZE-0x1000, PAGESIZE-20, 0xFFFFFF00);