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denoland-deno/ext/ffi/00_ffi.js

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
import { core, primordials } from "ext:core/mod.js";
const {
isArrayBuffer,
isDataView,
isTypedArray,
} = core;
import {
op_ffi_buf_copy_into,
op_ffi_call_nonblocking,
op_ffi_call_ptr,
op_ffi_call_ptr_nonblocking,
op_ffi_cstr_read,
op_ffi_get_buf,
op_ffi_get_static,
op_ffi_load,
op_ffi_ptr_create,
op_ffi_ptr_equals,
op_ffi_ptr_of,
op_ffi_ptr_of_exact,
op_ffi_ptr_offset,
op_ffi_ptr_value,
op_ffi_read_bool,
op_ffi_read_f32,
op_ffi_read_f64,
op_ffi_read_i16,
op_ffi_read_i32,
op_ffi_read_i64,
op_ffi_read_i8,
op_ffi_read_ptr,
op_ffi_read_u16,
op_ffi_read_u32,
op_ffi_read_u64,
op_ffi_read_u8,
op_ffi_unsafe_callback_close,
op_ffi_unsafe_callback_create,
op_ffi_unsafe_callback_ref,
} from "ext:core/ops";
const {
ArrayBufferIsView,
ArrayBufferPrototypeGetByteLength,
ArrayPrototypeMap,
ArrayPrototypeJoin,
DataViewPrototypeGetByteLength,
ObjectDefineProperty,
ObjectHasOwn,
ObjectPrototypeIsPrototypeOf,
Number,
NumberIsSafeInteger,
TypedArrayPrototypeGetBuffer,
TypedArrayPrototypeGetByteLength,
TypeError,
Uint8Array,
Int32Array,
Uint32Array,
BigInt64Array,
BigUint64Array,
Function,
ReflectHas,
PromisePrototypeThen,
MathMax,
MathCeil,
SafeMap,
SafeArrayIterator,
SafeWeakMap,
} = primordials;
import { pathFromURL } from "ext:deno_web/00_infra.js";
/**
* @param {BufferSource} source
* @returns {number}
*/
function getBufferSourceByteLength(source) {
if (isTypedArray(source)) {
return TypedArrayPrototypeGetByteLength(source);
} else if (isDataView(source)) {
return DataViewPrototypeGetByteLength(source);
}
return ArrayBufferPrototypeGetByteLength(source);
}
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 op_ffi_read_bool(
this.pointer,
offset,
);
}
getUint8(offset = 0) {
return op_ffi_read_u8(
this.pointer,
offset,
);
}
getInt8(offset = 0) {
return op_ffi_read_i8(
this.pointer,
offset,
);
}
getUint16(offset = 0) {
return op_ffi_read_u16(
this.pointer,
offset,
);
}
getInt16(offset = 0) {
return op_ffi_read_i16(
this.pointer,
offset,
);
}
getUint32(offset = 0) {
return op_ffi_read_u32(
this.pointer,
offset,
);
}
getInt32(offset = 0) {
return op_ffi_read_i32(
this.pointer,
offset,
);
}
getBigUint64(offset = 0) {
op_ffi_read_u64(
this.pointer,
offset,
U32_BUFFER,
);
return U64_BUFFER[0];
}
getBigInt64(offset = 0) {
op_ffi_read_i64(
this.pointer,
offset,
U32_BUFFER,
);
return I64_BUFFER[0];
}
getFloat32(offset = 0) {
return op_ffi_read_f32(
this.pointer,
offset,
);
}
getFloat64(offset = 0) {
return op_ffi_read_f64(
this.pointer,
offset,
);
}
getPointer(offset = 0) {
return op_ffi_read_ptr(
this.pointer,
offset,
);
}
getCString(offset = 0) {
return op_ffi_cstr_read(
this.pointer,
offset,
);
}
static getCString(pointer, offset = 0) {
return op_ffi_cstr_read(
pointer,
offset,
);
}
getArrayBuffer(byteLength, offset = 0) {
return op_ffi_get_buf(
this.pointer,
offset,
byteLength,
);
}
static getArrayBuffer(pointer, byteLength, offset = 0) {
return op_ffi_get_buf(
pointer,
offset,
byteLength,
);
}
copyInto(destination, offset = 0) {
op_ffi_buf_copy_into(
this.pointer,
offset,
destination,
getBufferSourceByteLength(destination),
);
}
static copyInto(pointer, destination, offset = 0) {
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 op_ffi_ptr_create(value);
}
static equals(a, b) {
if (a === null || b === null) {
return a === b;
}
return op_ffi_ptr_equals(a, b);
}
static of(value) {
if (ObjectPrototypeIsPrototypeOf(UnsafeCallbackPrototype, value)) {
return value.pointer;
}
let pointer;
if (ArrayBufferIsView(value)) {
if (value.length === 0) {
pointer = op_ffi_ptr_of_exact(value);
} else {
pointer = op_ffi_ptr_of(value);
}
} else if (isArrayBuffer(value)) {
if (value.length === 0) {
pointer = op_ffi_ptr_of_exact(new Uint8Array(value));
} else {
pointer = op_ffi_ptr_of(new Uint8Array(value));
}
} else {
throw new TypeError(
"Expected ArrayBuffer, ArrayBufferView or UnsafeCallbackPrototype",
);
}
if (pointer) {
POINTER_TO_BUFFER_WEAK_MAP.set(pointer, value);
}
return pointer;
}
static offset(value, offset) {
return op_ffi_ptr_offset(value, offset);
}
static value(value) {
if (ObjectPrototypeIsPrototypeOf(UnsafeCallbackPrototype, value)) {
value = value.pointer;
}
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 op_ffi_call_ptr_nonblocking(
this.pointer,
this.definition,
parameters,
);
} else {
const buffer = new Uint8Array(this.#structSize);
return PromisePrototypeThen(
op_ffi_call_ptr_nonblocking(
this.pointer,
this.definition,
parameters,
buffer,
),
() => buffer,
);
}
} else {
if (this.#structSize === null) {
return op_ffi_call_ptr(
this.pointer,
this.definition,
parameters,
);
} else {
const buffer = new Uint8Array(this.#structSize);
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 } = 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.refOpPromise(this.#refpromise);
} else {
this.#refpromise = 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.unrefOpPromise(this.#refpromise);
}
return this.#refcount;
}
close() {
this.#refcount = 0;
op_ffi_unsafe_callback_close(this.#rid);
}
}
const UnsafeCallbackPrototype = UnsafeCallback.prototype;
class DynamicLibrary {
#rid;
symbols = {};
constructor(path, symbols) {
({ 0: this.#rid, 1: this.symbols } = op_ffi_load({ path, symbols }));
for (const symbol in symbols) {
if (!ObjectHasOwn(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 = 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 = op_ffi_call_nonblocking(
this.#rid,
symbol,
parameters,
buffer,
);
return PromisePrototypeThen(
ret,
() => buffer,
);
} else {
return 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,
};