const {wasm2json, json2wasm} = require('wasm-json-toolkit') const annotations = require('primea-annotations') const wasmMetering = require('wasm-metering') const ReferanceMap = require('reference-map') const injectGlobals = require('./injectGlobals.js') const typeCheckWrapper = require('./typeCheckWrapper.js') const {Message, FunctionRef, ModuleRef, DEFAULTS} = require('primea-objects') const nativeTypes = new Set(['i32', 'i64', 'f32', 'f64']) const FUNC_INDEX_OFFSET = 1 function fromMetaJSON (json, id) { const exports = {} for (const ex in json.exports) { const type = json.types[json.indexes[json.exports[ex].toString()]].params exports[ex] = type } return new ModuleRef(exports, id) } function generateWrapper (funcRef, container) { // check if the wrapper has been generated if (funcRef.wrapper) { return funcRef.wrapper } let wrapper = typeCheckWrapper(funcRef.params) const wasm = json2wasm(wrapper) const mod = WebAssembly.Module(wasm) const self = funcRef wrapper = WebAssembly.Instance(mod, { 'env': { 'checkTypes': function () { const args = [...arguments] const checkedArgs = [] while (args.length) { const type = annotations.LANGUAGE_TYPES_BIN[args.shift()] let arg = args.shift() if (!nativeTypes.has(type)) { arg = container.refs.get(arg, type) checkedArgs.push(arg) } else if (type === 'i64') { checkedArgs.push(arg) checkedArgs.push(args.shift()) } else { checkedArgs.push(arg) } } const message = new Message({ funcRef: self, funcArguments: checkedArgs }) container.actor.send(message) } } }) // cache the wrapper funcRef.wrapper = wrapper wrapper.exports.check.object = funcRef return wrapper } module.exports = class WasmContainer { constructor (actor) { this.actor = actor this.refs = new ReferanceMap() } static createModule (wasm, id) { if (!WebAssembly.validate(wasm)) { throw new Error('invalid wasm binary') } let moduleJSON = wasm2json(wasm) const json = annotations.mergeTypeSections(moduleJSON) moduleJSON = wasmMetering.meterJSON(moduleJSON, { meterType: 'i32' }) // initialize the globals if (json.persist.length) { moduleJSON = injectGlobals(moduleJSON, json.persist) } // recompile the wasm wasm = json2wasm(moduleJSON) const modRef = fromMetaJSON(json, id) return { wasm, json, modRef } } static onCreation (unverifiedWasm, id, tree) { const {modRef} = this.createModule(unverifiedWasm, id) return modRef } getInterface (funcRef) { const self = this return { func: { externalize: index => { const func = self.instance.exports.table.get(index) const object = func.object if (object) { // externalize a pervously internalized function return self.refs.add(object) } else { const params = self.json.types[self.json.indexes[func.name - FUNC_INDEX_OFFSET]].params const ref = new FunctionRef({ identifier: [true, func.tableIndex], params, actorID: self.actor.id }) return self.refs.add(ref, 'func') } }, internalize: (index, ref) => { const funcRef = self.refs.get(ref, 'func') const wrapper = generateWrapper(funcRef, self) self.instance.exports.table.set(index, wrapper.exports.check) }, get_gas_budget: (funcRef) => { const func = self.refs.get(funcRef, 'func') return func.gas }, set_gas_budget: (funcRef, amount) => { const func = self.refs.get(funcRef, 'func') func.gas = amount } }, link: { wrap: ref => { const obj = self.refs.get(ref) const link = {'/': obj} return self.refs.add(link, 'link') }, unwrap: async (ref, cb) => { const obj = self.refs.get(ref, 'link') const promise = self.actor.tree.dataStore.get(obj) await self._opsQueue.push(promise) } }, module: { new: dataRef => { const bin = self.refs.get(dataRef, 'data') const {module} = self.actor.createActor(WasmContainer.typeId, bin) return self.refs.add(module, 'mod') }, export: (modRef, dataRef) => { const mod = self.refs.get(modRef, 'mod') let name = self.refs.get(dataRef, 'data') name = Buffer.from(name).toString() const funcRef = mod.getFuncRef(name) return self.refs.add(funcRef, 'func') }, self: () => { return self.refs.add(this.modSelf, 'mod') } }, memory: { externalize: (index, length) => { const data = Buffer.from(this.get8Memory(index, length)) return self.refs.add(data, 'data') }, internalize: (dataRef, srcOffset, sinkOffset, length) => { let data = self.refs.get(dataRef, 'data') data = data.subarray(srcOffset, length) const mem = self.get8Memory(sinkOffset, data.length) mem.set(data) }, length (dataRef) { let data = self.refs.get(dataRef, 'data') return data.length } }, elem: { externalize: (index, length) => { const mem = Buffer.from(this.get8Memory(index, length * 4)) const objects = [] while (length--) { const ref = mem.readUInt32LE(length * 4) const obj = self.refs.get(ref) objects.unshift(obj) } return this.refs.add(objects, 'elem') }, internalize: (elemRef, srcOffset, sinkOffset, length) => { let table = self.refs.get(elemRef, 'elem') const buf = table.slice(srcOffset, srcOffset + length).map(obj => self.refs.add(obj)) const mem = self.get32Memory(sinkOffset, length) mem.set(buf) }, length (elemRef) { let elem = self.refs.get(elemRef, 'elem') return elem.length } }, metering: { usegas: amount => { self.actor.incrementTicks(amount) funcRef.gas -= amount // if (funcRef.gas < 0) { // throw new Error('out of gas! :(') // } } } } } async onMessage (message) { const funcRef = message.funcRef const intef = this.getInterface(funcRef) this.instance = WebAssembly.Instance(this.mod, intef) // map table indexes const table = this.instance.exports.table if (table) { let length = table.length while (length--) { const func = table.get(length) if (func) { func.tableIndex = length } } } // import references let index = 0 const args = [] message.funcRef.params.forEach(type => { const arg = message.funcArguments[index] if (nativeTypes.has(type)) { args.push(arg) if (type === 'i64') { args.push(message.funcArguments[++index]) } } else { args.push(this.refs.add(arg, type)) } index++ }) // setup globals let numOfGlobals = this.json.persist.length if (numOfGlobals) { const refs = [] while (numOfGlobals--) { const obj = this.actor.storage[numOfGlobals] || DEFAULTS[this.json.persist[numOfGlobals].type] refs.push(this.refs.add(obj, this.json.persist[numOfGlobals].type)) } this.instance.exports.setter_globals(...refs) } try { // call entrypoint function let wasmFunc if (funcRef.identifier[0]) { wasmFunc = this.instance.exports.table.get(funcRef.identifier[1]) } else { wasmFunc = this.instance.exports[funcRef.identifier[1]] } const wrapper = generateWrapper(funcRef) wrapper.exports.table.set(0, wasmFunc) wrapper.exports.invoke(...args) await this.onDone() } catch (e) { console.log(e) } // store globals numOfGlobals = this.json.persist.length if (numOfGlobals) { const storage = [] this.instance.exports.getter_globals() const mem = this.get32Memory(0, numOfGlobals) while (numOfGlobals--) { const ref = mem[numOfGlobals] storage.push(this.refs.get(ref, this.json.persist[numOfGlobals].type)) } this.actor.storage = storage } this.refs.clear() } /** * returns a promise that resolves when the wasm instance is done running * @returns {Promise} */ async onDone () { let prevOps while (prevOps !== this._opsQueue) { prevOps = this._opsQueue await prevOps } } /** * Pushed an async operation to the a promise queue that * @returns {Promise} the returned promise resolves in the order the intail * operation was pushed to the queue */ pushOpsQueue (promise) { this._opsQueue = Promise.all([this._opsQueue, promise]) return this._opsQueue } async onStartup () { const code = this.actor.code const {json, wasm, modRef} = WasmContainer.createModule(code, this.actor.id) this.mod = WebAssembly.Module(wasm) this.json = json this.modSelf = modRef } get8Memory (offset, length) { return new Uint8Array(this.instance.exports.memory.buffer, offset, length) } get32Memory (offset, length) { return new Uint32Array(this.instance.exports.memory.buffer, offset, length) } static get typeId () { return 9 } }