// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. const core = globalThis.Deno.core; const ops = core.ops; const primordials = globalThis.__bootstrap.primordials; const { ArrayBufferIsView, ArrayBufferPrototypeGetByteLength, ArrayPrototypeMap, ArrayPrototypeJoin, DataViewPrototypeGetByteLength, ObjectDefineProperty, ObjectPrototypeHasOwnProperty, ObjectPrototypeIsPrototypeOf, Number, NumberIsSafeInteger, TypedArrayPrototypeGetBuffer, TypedArrayPrototypeGetByteLength, TypedArrayPrototypeGetSymbolToStringTag, TypeError, Uint8Array, Int32Array, Uint32Array, BigInt64Array, BigUint64Array, Function, ReflectHas, PromisePrototypeThen, MathMax, MathCeil, SafeMap, SafeArrayIterator, SafeWeakMap, SymbolFor, } = primordials; import { pathFromURL } from "ext:deno_web/00_infra.js"; /** * @param {BufferSource} source * @returns {number} */ function getBufferSourceByteLength(source) { if (ArrayBufferIsView(source)) { if (TypedArrayPrototypeGetSymbolToStringTag(source) !== undefined) { // TypedArray return TypedArrayPrototypeGetByteLength(source); } else { // DataView return DataViewPrototypeGetByteLength(source); } } return ArrayBufferPrototypeGetByteLength(source); } const promiseIdSymbol = SymbolFor("Deno.core.internalPromiseId"); const U32_BUFFER = new Uint32Array(2); const U64_BUFFER = new BigUint64Array(TypedArrayPrototypeGetBuffer(U32_BUFFER)); const I64_BUFFER = new BigInt64Array(TypedArrayPrototypeGetBuffer(U32_BUFFER)); class UnsafePointerView { pointer; constructor(pointer) { this.pointer = pointer; } getBool(offset = 0) { return ops.op_ffi_read_bool( this.pointer, offset, ); } getUint8(offset = 0) { return ops.op_ffi_read_u8( this.pointer, offset, ); } getInt8(offset = 0) { return ops.op_ffi_read_i8( this.pointer, offset, ); } getUint16(offset = 0) { return ops.op_ffi_read_u16( this.pointer, offset, ); } getInt16(offset = 0) { return ops.op_ffi_read_i16( this.pointer, offset, ); } getUint32(offset = 0) { return ops.op_ffi_read_u32( this.pointer, offset, ); } getInt32(offset = 0) { return ops.op_ffi_read_i32( this.pointer, offset, ); } getBigUint64(offset = 0) { ops.op_ffi_read_u64( this.pointer, offset, U32_BUFFER, ); return U64_BUFFER[0]; } getBigInt64(offset = 0) { ops.op_ffi_read_i64( this.pointer, offset, U32_BUFFER, ); return I64_BUFFER[0]; } getFloat32(offset = 0) { return ops.op_ffi_read_f32( this.pointer, offset, ); } getFloat64(offset = 0) { return ops.op_ffi_read_f64( this.pointer, offset, ); } getPointer(offset = 0) { return ops.op_ffi_read_ptr( this.pointer, offset, ); } getCString(offset = 0) { return ops.op_ffi_cstr_read( this.pointer, offset, ); } static getCString(pointer, offset = 0) { return ops.op_ffi_cstr_read( pointer, offset, ); } getArrayBuffer(byteLength, offset = 0) { return ops.op_ffi_get_buf( this.pointer, offset, byteLength, ); } static getArrayBuffer(pointer, byteLength, offset = 0) { return ops.op_ffi_get_buf( pointer, offset, byteLength, ); } copyInto(destination, offset = 0) { ops.op_ffi_buf_copy_into( this.pointer, offset, destination, getBufferSourceByteLength(destination), ); } static copyInto(pointer, destination, offset = 0) { ops.op_ffi_buf_copy_into( pointer, offset, destination, getBufferSourceByteLength(destination), ); } } const OUT_BUFFER = new Uint32Array(2); const OUT_BUFFER_64 = new BigInt64Array( TypedArrayPrototypeGetBuffer(OUT_BUFFER), ); const POINTER_TO_BUFFER_WEAK_MAP = new SafeWeakMap(); class UnsafePointer { static create(value) { return ops.op_ffi_ptr_create(value); } static equals(a, b) { if (a === null || b === null) { return a === b; } return ops.op_ffi_ptr_equals(a, b); } static of(value) { if (ObjectPrototypeIsPrototypeOf(UnsafeCallbackPrototype, value)) { return value.pointer; } const pointer = ops.op_ffi_ptr_of(value); if (pointer) { POINTER_TO_BUFFER_WEAK_MAP.set(pointer, value); } return pointer; } static offset(value, offset) { return ops.op_ffi_ptr_offset(value, offset); } static value(value) { if (ObjectPrototypeIsPrototypeOf(UnsafeCallbackPrototype, value)) { value = value.pointer; } ops.op_ffi_ptr_value(value, OUT_BUFFER); const result = OUT_BUFFER[0] + 2 ** 32 * OUT_BUFFER[1]; if (NumberIsSafeInteger(result)) { return result; } return OUT_BUFFER_64[0]; } } class UnsafeFnPointer { pointer; definition; #structSize; constructor(pointer, definition) { this.pointer = pointer; this.definition = definition; this.#structSize = isStruct(definition.result) ? getTypeSizeAndAlignment(definition.result)[0] : null; } call(...parameters) { if (this.definition.nonblocking) { if (this.#structSize === null) { return core.opAsync( "op_ffi_call_ptr_nonblocking", this.pointer, this.definition, parameters, ); } else { const buffer = new Uint8Array(this.#structSize); return PromisePrototypeThen( core.opAsync( "op_ffi_call_ptr_nonblocking", this.pointer, this.definition, parameters, buffer, ), () => buffer, ); } } else { if (this.#structSize === null) { return ops.op_ffi_call_ptr( this.pointer, this.definition, parameters, ); } else { const buffer = new Uint8Array(this.#structSize); ops.op_ffi_call_ptr( this.pointer, this.definition, parameters, buffer, ); return buffer; } } } } function isReturnedAsBigInt(type) { return type === "u64" || type === "i64" || type === "usize" || type === "isize"; } function isI64(type) { return type === "i64" || type === "isize"; } function isStruct(type) { return typeof type === "object" && type !== null && typeof type.struct === "object"; } function getTypeSizeAndAlignment(type, cache = new SafeMap()) { if (isStruct(type)) { const cached = cache.get(type); if (cached !== undefined) { if (cached === null) { throw new TypeError("Recursive struct definition"); } return cached; } cache.set(type, null); let size = 0; let alignment = 1; for (const field of new SafeArrayIterator(type.struct)) { const { 0: fieldSize, 1: fieldAlign } = getTypeSizeAndAlignment( field, cache, ); alignment = MathMax(alignment, fieldAlign); size = MathCeil(size / fieldAlign) * fieldAlign; size += fieldSize; } size = MathCeil(size / alignment) * alignment; const result = [size, alignment]; cache.set(type, result); return result; } switch (type) { case "bool": case "u8": case "i8": return [1, 1]; case "u16": case "i16": return [2, 2]; case "u32": case "i32": case "f32": return [4, 4]; case "u64": case "i64": case "f64": case "pointer": case "buffer": case "function": case "usize": case "isize": return [8, 8]; default: throw new TypeError(`Unsupported type: ${type}`); } } class UnsafeCallback { #refcount; // Internal promise only meant to keep Deno from exiting #refpromise; #rid; definition; callback; pointer; constructor(definition, callback) { if (definition.nonblocking) { throw new TypeError( "Invalid UnsafeCallback, cannot be nonblocking", ); } const { 0: rid, 1: pointer } = ops.op_ffi_unsafe_callback_create( definition, callback, ); this.#refcount = 0; this.#rid = rid; this.pointer = pointer; this.definition = definition; this.callback = callback; } static threadSafe(definition, callback) { const unsafeCallback = new UnsafeCallback(definition, callback); unsafeCallback.ref(); return unsafeCallback; } ref() { if (this.#refcount++ === 0) { if (this.#refpromise) { // Re-refing core.refOp(this.#refpromise[promiseIdSymbol]); } else { this.#refpromise = core.opAsync( "op_ffi_unsafe_callback_ref", this.#rid, ); } } return this.#refcount; } unref() { // Only decrement refcount if it is positive, and only // unref the callback if refcount reaches zero. if (this.#refcount > 0 && --this.#refcount === 0) { core.unrefOp(this.#refpromise[promiseIdSymbol]); } return this.#refcount; } close() { this.#refcount = 0; core.close(this.#rid); } } const UnsafeCallbackPrototype = UnsafeCallback.prototype; class DynamicLibrary { #rid; symbols = {}; constructor(path, symbols) { ({ 0: this.#rid, 1: this.symbols } = ops.op_ffi_load({ path, symbols })); for (const symbol in symbols) { if (!ObjectPrototypeHasOwnProperty(symbols, symbol)) { continue; } // Symbol was marked as optional, and not found. // In that case, we set its value to null in Rust-side. if (symbols[symbol] === null) { continue; } if (ReflectHas(symbols[symbol], "type")) { const type = symbols[symbol].type; if (type === "void") { throw new TypeError( "Foreign symbol of type 'void' is not supported.", ); } const name = symbols[symbol].name || symbol; const value = ops.op_ffi_get_static( this.#rid, name, type, symbols[symbol].optional, ); ObjectDefineProperty( this.symbols, symbol, { configurable: false, enumerable: true, value, writable: false, }, ); continue; } const resultType = symbols[symbol].result; const isStructResult = isStruct(resultType); const structSize = isStructResult ? getTypeSizeAndAlignment(resultType)[0] : 0; const needsUnpacking = isReturnedAsBigInt(resultType); const isNonBlocking = symbols[symbol].nonblocking; if (isNonBlocking) { ObjectDefineProperty( this.symbols, symbol, { configurable: false, enumerable: true, value: (...parameters) => { if (isStructResult) { const buffer = new Uint8Array(structSize); const ret = core.opAsync( "op_ffi_call_nonblocking", this.#rid, symbol, parameters, buffer, ); return PromisePrototypeThen( ret, () => buffer, ); } else { return core.opAsync( "op_ffi_call_nonblocking", this.#rid, symbol, parameters, ); } }, writable: false, }, ); } if (needsUnpacking && !isNonBlocking) { const call = this.symbols[symbol]; const parameters = symbols[symbol].parameters; const vi = new Int32Array(2); const vui = new Uint32Array(TypedArrayPrototypeGetBuffer(vi)); const b = new BigInt64Array(TypedArrayPrototypeGetBuffer(vi)); const params = ArrayPrototypeJoin( ArrayPrototypeMap(parameters, (_, index) => `p${index}`), ", ", ); // Make sure V8 has no excuse to not optimize this function. this.symbols[symbol] = new Function( "vi", "vui", "b", "call", "NumberIsSafeInteger", "Number", `return function (${params}) { call(${params}${parameters.length > 0 ? ", " : ""}vi); ${ isI64(resultType) ? `const n1 = Number(b[0])` : `const n1 = vui[0] + 2 ** 32 * vui[1]` // Faster path for u64 }; if (NumberIsSafeInteger(n1)) return n1; return b[0]; }`, )(vi, vui, b, call, NumberIsSafeInteger, Number); } else if (isStructResult && !isNonBlocking) { const call = this.symbols[symbol]; const parameters = symbols[symbol].parameters; const params = ArrayPrototypeJoin( ArrayPrototypeMap(parameters, (_, index) => `p${index}`), ", ", ); this.symbols[symbol] = new Function( "call", `return function (${params}) { const buffer = new Uint8Array(${structSize}); call(${params}${parameters.length > 0 ? ", " : ""}buffer); return buffer; }`, )(call); } } } close() { core.close(this.#rid); } } function dlopen(path, symbols) { return new DynamicLibrary(pathFromURL(path), symbols); } export { dlopen, UnsafeCallback, UnsafeFnPointer, UnsafePointer, UnsafePointerView, };