// Copyright 2016 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. // Used for encoding f32 and double constants to bits. let __buffer = new ArrayBuffer(8); let byte_view = new Int8Array(__buffer); let f32_view = new Float32Array(__buffer); let f64_view = new Float64Array(__buffer); class Binary extends Array { emit_u8(val) { this.push(val); } emit_u16(val) { this.push(val & 0xff); this.push((val >> 8) & 0xff); } emit_u32(val) { this.push(val & 0xff); this.push((val >> 8) & 0xff); this.push((val >> 16) & 0xff); this.push((val >> 24) & 0xff); } emit_u32v(val) { while (true) { let v = val & 0xff; val = val >>> 7; if (val == 0) { this.push(v); break; } this.push(v | 0x80); } } emit_bytes(data) { for (let i = 0; i < data.length; i++) { this.push(data[i] & 0xff); } } emit_string(string) { // When testing illegal names, we pass a byte array directly. if (string instanceof Array) { this.emit_u32v(string.length); this.emit_bytes(string); return; } // This is the hacky way to convert a JavaScript string to a UTF8 encoded // string only containing single-byte characters. let string_utf8 = unescape(encodeURIComponent(string)); this.emit_u32v(string_utf8.length); for (let i = 0; i < string_utf8.length; i++) { this.emit_u8(string_utf8.charCodeAt(i)); } } emit_header() { this.push(kWasmH0, kWasmH1, kWasmH2, kWasmH3, kWasmV0, kWasmV1, kWasmV2, kWasmV3); } emit_section(section_code, content_generator) { // Emit section name. this.emit_u8(section_code); // Emit the section to a temporary buffer: its full length isn't know yet. let section = new Binary; content_generator(section); // Emit section length. this.emit_u32v(section.length); // Copy the temporary buffer. this.push(...section); } } class WasmFunctionBuilder { constructor(module, name, type_index) { this.module = module; this.name = name; this.type_index = type_index; this.body = []; } exportAs(name) { this.module.addExport(name, this.index); return this; } exportFunc() { this.exportAs(this.name); return this; } addBody(body) { this.body = body; return this; } addLocals(locals) { this.locals = locals; return this; } end() { return this.module; } } class WasmGlobalBuilder { constructor(module, type, mutable) { this.module = module; this.type = type; this.mutable = mutable; this.init = 0; } exportAs(name) { this.module.exports.push({name: name, kind: kExternalGlobal, index: this.index}); return this; } } class WasmModuleBuilder { constructor() { this.types = []; this.imports = []; this.exports = []; this.globals = []; this.functions = []; this.function_table = []; this.function_table_length = 0; this.function_table_inits = []; this.segments = []; this.explicit = []; this.num_imported_funcs = 0; this.num_imported_globals = 0; return this; } addStart(start_index) { this.start_index = start_index; return this; } addMemory(min, max, exp) { this.memory = {min: min, max: max, exp: exp}; return this; } addExplicitSection(bytes) { this.explicit.push(bytes); return this; } addType(type) { // TODO: canonicalize types? this.types.push(type); return this.types.length - 1; } addGlobal(local_type, mutable) { let glob = new WasmGlobalBuilder(this, local_type, mutable); glob.index = this.globals.length + this.num_imported_globals; this.globals.push(glob); return glob; } addFunction(name, type) { let type_index = (typeof type) == "number" ? type : this.addType(type); let func = new WasmFunctionBuilder(this, name, type_index); func.index = this.functions.length + this.num_imported_funcs; this.functions.push(func); return func; } addImportWithModule(module, name, type) { let type_index = (typeof type) == "number" ? type : this.addType(type); this.imports.push({module: module, name: name, kind: kExternalFunction, type: type_index}); return this.num_imported_funcs++; } addImport(name, type) { return this.addImportWithModule(name, undefined, type); } addImportedGlobal(module, name, type) { let o = {module: module, name: name, kind: kExternalGlobal, type: type, mutable: false} this.imports.push(o); return this.num_imported_globals++; } addImportedMemory(module, name, initial = 0, maximum) { let o = {module: module, name: name, kind: kExternalMemory, initial: initial, maximum: maximum}; this.imports.push(o); return this; } addImportedTable(module, name, initial, maximum) { let o = {module: module, name: name, kind: kExternalTable, initial: initial, maximum: maximum}; this.imports.push(o); } addExport(name, index) { this.exports.push({name: name, kind: kExternalFunction, index: index}); return this; } addExportOfKind(name, kind, index) { this.exports.push({name: name, kind: kind, index: index}); return this; } addDataSegment(addr, data, is_global = false) { this.segments.push({addr: addr, data: data, is_global: is_global}); return this.segments.length - 1; } exportMemoryAs(name) { this.exports.push({name: name, kind: kExternalMemory, index: 0}); } addFunctionTableInit(base, is_global, array) { this.function_table_inits.push({base: base, is_global: is_global, array: array}); if (!is_global) { var length = base + array.length; if (length > this.function_table_length) { this.function_table_length = length; } } return this; } appendToTable(array) { return this.addFunctionTableInit(this.function_table.length, false, array); } setFunctionTableLength(length) { this.function_table_length = length; return this; } toArray(debug = false) { let binary = new Binary; let wasm = this; // Add header binary.emit_header(); // Add type section if (wasm.types.length > 0) { if (debug) print("emitting types @ " + binary.length); binary.emit_section(kTypeSectionCode, section => { section.emit_u32v(wasm.types.length); for (let type of wasm.types) { section.emit_u8(kWasmFunctionTypeForm); section.emit_u32v(type.params.length); for (let param of type.params) { section.emit_u8(param); } section.emit_u32v(type.results.length); for (let result of type.results) { section.emit_u8(result); } } }); } // Add imports section if (wasm.imports.length > 0) { if (debug) print("emitting imports @ " + binary.length); binary.emit_section(kImportSectionCode, section => { section.emit_u32v(wasm.imports.length); for (let imp of wasm.imports) { section.emit_string(imp.module); section.emit_string(imp.name || ''); section.emit_u8(imp.kind); if (imp.kind == kExternalFunction) { section.emit_u32v(imp.type); } else if (imp.kind == kExternalGlobal) { section.emit_u32v(imp.type); section.emit_u8(imp.mutable); } else if (imp.kind == kExternalMemory) { var has_max = (typeof imp.maximum) != "undefined"; section.emit_u8(has_max ? 1 : 0); // flags section.emit_u32v(imp.initial); // initial if (has_max) section.emit_u32v(imp.maximum); // maximum } else if (imp.kind == kExternalTable) { section.emit_u8(kWasmAnyFunctionTypeForm); var has_max = (typeof imp.maximum) != "undefined"; section.emit_u8(has_max ? 1 : 0); // flags section.emit_u32v(imp.initial); // initial if (has_max) section.emit_u32v(imp.maximum); // maximum } else { throw new Error("unknown/unsupported import kind " + imp.kind); } } }); } // Add functions declarations let has_names = false; let names = false; if (wasm.functions.length > 0) { if (debug) print("emitting function decls @ " + binary.length); binary.emit_section(kFunctionSectionCode, section => { section.emit_u32v(wasm.functions.length); for (let func of wasm.functions) { has_names = has_names || (func.name != undefined && func.name.length > 0); section.emit_u32v(func.type_index); } }); } // Add function_table. if (wasm.function_table_length > 0) { if (debug) print("emitting table @ " + binary.length); binary.emit_section(kTableSectionCode, section => { section.emit_u8(1); // one table entry section.emit_u8(kWasmAnyFunctionTypeForm); section.emit_u8(1); section.emit_u32v(wasm.function_table_length); section.emit_u32v(wasm.function_table_length); }); } // Add memory section if (wasm.memory != undefined) { if (debug) print("emitting memory @ " + binary.length); binary.emit_section(kMemorySectionCode, section => { section.emit_u8(1); // one memory entry section.emit_u32v(kResizableMaximumFlag); section.emit_u32v(wasm.memory.min); section.emit_u32v(wasm.memory.max); }); } // Add global section. if (wasm.globals.length > 0) { if (debug) print ("emitting globals @ " + binary.length); binary.emit_section(kGlobalSectionCode, section => { section.emit_u32v(wasm.globals.length); for (let global of wasm.globals) { section.emit_u8(global.type); section.emit_u8(global.mutable); if ((typeof global.init_index) == "undefined") { // Emit a constant initializer. switch (global.type) { case kAstI32: section.emit_u8(kExprI32Const); section.emit_u32v(global.init); break; case kAstI64: section.emit_u8(kExprI64Const); section.emit_u8(global.init); break; case kAstF32: section.emit_u8(kExprF32Const); f32_view[0] = global.init; section.emit_u8(byte_view[0]); section.emit_u8(byte_view[1]); section.emit_u8(byte_view[2]); section.emit_u8(byte_view[3]); break; case kAstF64: section.emit_u8(kExprF64Const); f64_view[0] = global.init; section.emit_u8(byte_view[0]); section.emit_u8(byte_view[1]); section.emit_u8(byte_view[2]); section.emit_u8(byte_view[3]); section.emit_u8(byte_view[4]); section.emit_u8(byte_view[5]); section.emit_u8(byte_view[6]); section.emit_u8(byte_view[7]); break; } } else { // Emit a global-index initializer. section.emit_u8(kExprGetGlobal); section.emit_u32v(global.init_index); } section.emit_u8(kExprEnd); // end of init expression } }); } // Add export table. var mem_export = (wasm.memory != undefined && wasm.memory.exp); var exports_count = wasm.exports.length + (mem_export ? 1 : 0); if (exports_count > 0) { if (debug) print("emitting exports @ " + binary.length); binary.emit_section(kExportSectionCode, section => { section.emit_u32v(exports_count); for (let exp of wasm.exports) { section.emit_string(exp.name); section.emit_u8(exp.kind); section.emit_u32v(exp.index); } if (mem_export) { section.emit_string("memory"); section.emit_u8(kExternalMemory); section.emit_u8(0); } }); } // Add start function section. if (wasm.start_index != undefined) { if (debug) print("emitting start function @ " + binary.length); binary.emit_section(kStartSectionCode, section => { section.emit_u32v(wasm.start_index); }); } // Add table elements. if (wasm.function_table_inits.length > 0) { if (debug) print("emitting table @ " + binary.length); binary.emit_section(kElementSectionCode, section => { var inits = wasm.function_table_inits; section.emit_u32v(inits.length); section.emit_u8(0); // table index for (let init of inits) { if (init.is_global) { section.emit_u8(kExprGetGlobal); } else { section.emit_u8(kExprI32Const); } section.emit_u32v(init.base); section.emit_u8(kExprEnd); section.emit_u32v(init.array.length); for (let index of init.array) { section.emit_u32v(index); } } }); } // Add function bodies. if (wasm.functions.length > 0) { // emit function bodies if (debug) print("emitting code @ " + binary.length); binary.emit_section(kCodeSectionCode, section => { section.emit_u32v(wasm.functions.length); for (let func of wasm.functions) { // Function body length will be patched later. let local_decls = []; let l = func.locals; if (l != undefined) { let local_decls_count = 0; if (l.i32_count > 0) { local_decls.push({count: l.i32_count, type: kAstI32}); } if (l.i64_count > 0) { local_decls.push({count: l.i64_count, type: kAstI64}); } if (l.f32_count > 0) { local_decls.push({count: l.f32_count, type: kAstF32}); } if (l.f64_count > 0) { local_decls.push({count: l.f64_count, type: kAstF64}); } } let header = new Binary; header.emit_u32v(local_decls.length); for (let decl of local_decls) { header.emit_u32v(decl.count); header.emit_u8(decl.type); } section.emit_u32v(header.length + func.body.length); section.emit_bytes(header); section.emit_bytes(func.body); } }); } // Add data segments. if (wasm.segments.length > 0) { if (debug) print("emitting data segments @ " + binary.length); binary.emit_section(kDataSectionCode, section => { section.emit_u32v(wasm.segments.length); for (let seg of wasm.segments) { section.emit_u8(0); // linear memory index 0 if (seg.is_global) { // initializer is a global variable section.emit_u8(kExprGetGlobal); section.emit_u32v(seg.addr); } else { // initializer is a constant section.emit_u8(kExprI32Const); section.emit_u32v(seg.addr); } section.emit_u8(kExprEnd); section.emit_u32v(seg.data.length); section.emit_bytes(seg.data); } }); } // Add any explicitly added sections for (let exp of wasm.explicit) { if (debug) print("emitting explicit @ " + binary.length); binary.emit_bytes(exp); } // Add function names. if (has_names) { if (debug) print("emitting names @ " + binary.length); binary.emit_section(kUnknownSectionCode, section => { section.emit_string("name"); var count = wasm.functions.length + wasm.num_imported_funcs; section.emit_u32v(count); for (var i = 0; i < wasm.num_imported_funcs; i++) { section.emit_u8(0); // empty string section.emit_u8(0); // local names count == 0 } for (let func of wasm.functions) { var name = func.name == undefined ? "" : func.name; section.emit_string(name); section.emit_u8(0); // local names count == 0 } }); } return binary; } toBuffer(debug = false) { let bytes = this.toArray(debug); let buffer = new ArrayBuffer(bytes.length); let view = new Uint8Array(buffer); for (let i = 0; i < bytes.length; i++) { let val = bytes[i]; if ((typeof val) == "string") val = val.charCodeAt(0); view[i] = val | 0; } return buffer; } instantiate(...args) { let module = new WebAssembly.Module(this.toBuffer()); let instance = new WebAssembly.Instance(module, ...args); return instance; } }