/* * Copyright 2023 Google Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #if !os(WASI) import Foundation #else import SwiftOverlayShims #endif /// `ByteBuffer` is the interface that stores the data for a `Flatbuffers` object /// it allows users to write and read data directly from memory thus the use of its /// functions should be used @frozen public struct ByteBuffer { /// Storage is a container that would hold the memory pointer to solve the issue of /// deallocating the memory that was held by (memory: UnsafeMutableRawPointer) @usableFromInline final class Storage { // This storage doesn't own the memory, therefore, we won't deallocate on deinit. private let unowned: Bool /// pointer to the start of the buffer object in memory var memory: UnsafeMutableRawPointer /// Capacity of UInt8 the buffer can hold var capacity: Int @usableFromInline init(count: Int, alignment: Int) { memory = UnsafeMutableRawPointer.allocate( byteCount: count, alignment: alignment) capacity = count unowned = false } @usableFromInline init(memory: UnsafeMutableRawPointer, capacity: Int, unowned: Bool) { self.memory = memory self.capacity = capacity self.unowned = unowned } deinit { if !unowned { memory.deallocate() } } @usableFromInline func copy(from ptr: UnsafeRawPointer, count: Int) { assert( !unowned, "copy should NOT be called on a buffer that is built by assumingMemoryBound") memory.copyMemory(from: ptr, byteCount: count) } @usableFromInline func initialize(for size: Int) { assert( !unowned, "initalize should NOT be called on a buffer that is built by assumingMemoryBound") memset(memory, 0, size) } /// Reallocates the buffer incase the object to be written doesnt fit in the current buffer /// - Parameter size: Size of the current object @usableFromInline func reallocate(_ size: Int, writerSize: Int, alignment: Int) { let currentWritingIndex = capacity &- writerSize while capacity <= writerSize &+ size { capacity = capacity << 1 } /// solution take from Apple-NIO capacity = capacity.convertToPowerofTwo let newData = UnsafeMutableRawPointer.allocate( byteCount: capacity, alignment: alignment) memset(newData, 0, capacity &- writerSize) memcpy( newData.advanced(by: capacity &- writerSize), memory.advanced(by: currentWritingIndex), writerSize) memory.deallocate() memory = newData } } @usableFromInline var _storage: Storage /// The size of the elements written to the buffer + their paddings private var _writerSize: Int = 0 /// Aliginment of the current memory being written to the buffer var alignment = 1 /// Current Index which is being used to write to the buffer, it is written from the end to the start of the buffer var writerIndex: Int { _storage.capacity &- _writerSize } /// Reader is the position of the current Writer Index (capacity - size) public var reader: Int { writerIndex } /// Current size of the buffer public var size: UOffset { UOffset(_writerSize) } /// Public Pointer to the buffer object in memory. This should NOT be modified for any reason public var memory: UnsafeMutableRawPointer { _storage.memory } /// Current capacity for the buffer public var capacity: Int { _storage.capacity } /// Constructor that creates a Flatbuffer object from a UInt8 /// - Parameter bytes: Array of UInt8 public init(bytes: [UInt8]) { var b = bytes _storage = Storage(count: bytes.count, alignment: alignment) _writerSize = _storage.capacity b.withUnsafeMutableBytes { bufferPointer in self._storage.copy(from: bufferPointer.baseAddress!, count: bytes.count) } } #if !os(WASI) /// Constructor that creates a Flatbuffer from the Swift Data type object /// - Parameter data: Swift data Object public init(data: Data) { var b = data _storage = Storage(count: data.count, alignment: alignment) _writerSize = _storage.capacity b.withUnsafeMutableBytes { bufferPointer in self._storage.copy(from: bufferPointer.baseAddress!, count: data.count) } } #endif /// Constructor that creates a Flatbuffer instance with a size /// - Parameter size: Length of the buffer init(initialSize size: Int) { let size = size.convertToPowerofTwo _storage = Storage(count: size, alignment: alignment) _storage.initialize(for: size) } #if swift(>=5.0) && !os(WASI) /// Constructor that creates a Flatbuffer object from a ContiguousBytes /// - Parameters: /// - contiguousBytes: Binary stripe to use as the buffer /// - count: amount of readable bytes public init( contiguousBytes: Bytes, count: Int) { _storage = Storage(count: count, alignment: alignment) _writerSize = _storage.capacity contiguousBytes.withUnsafeBytes { buf in _storage.copy(from: buf.baseAddress!, count: buf.count) } } #endif /// Constructor that creates a Flatbuffer from unsafe memory region without copying /// - Parameter assumingMemoryBound: The unsafe memory region /// - Parameter capacity: The size of the given memory region public init( assumingMemoryBound memory: UnsafeMutableRawPointer, capacity: Int) { _storage = Storage(memory: memory, capacity: capacity, unowned: true) _writerSize = capacity } /// Creates a copy of the buffer that's being built by calling sizedBuffer /// - Parameters: /// - memory: Current memory of the buffer /// - count: count of bytes init(memory: UnsafeMutableRawPointer, count: Int) { _storage = Storage(count: count, alignment: alignment) _storage.copy(from: memory, count: count) _writerSize = _storage.capacity } /// Creates a copy of the existing flatbuffer, by copying it to a different memory. /// - Parameters: /// - memory: Current memory of the buffer /// - count: count of bytes /// - removeBytes: Removes a number of bytes from the current size init( memory: UnsafeMutableRawPointer, count: Int, removing removeBytes: Int) { _storage = Storage(count: count, alignment: alignment) _storage.copy(from: memory, count: count) _writerSize = removeBytes } /// Fills the buffer with padding by adding to the writersize /// - Parameter padding: Amount of padding between two to be serialized objects @inline(__always) @usableFromInline mutating func fill(padding: Int) { assert(padding >= 0, "Fill should be larger than or equal to zero") ensureSpace(size: padding) _writerSize = _writerSize &+ (MemoryLayout.size &* padding) } /// Adds an array of type Scalar to the buffer memory /// - Parameter elements: An array of Scalars @inline(__always) @usableFromInline mutating func push(elements: [T]) { let size = elements.count &* MemoryLayout.size ensureSpace(size: size) elements.reversed().forEach { s in push(value: s, len: MemoryLayout.size(ofValue: s)) } } /// Adds an object of type NativeStruct into the buffer /// - Parameters: /// - value: Object that will be written to the buffer /// - size: size to subtract from the WriterIndex @usableFromInline @inline(__always) mutating func push(struct value: T, size: Int) { ensureSpace(size: size) var v = value memcpy(_storage.memory.advanced(by: writerIndex &- size), &v, size) _writerSize = _writerSize &+ size } /// Adds an object of type Scalar into the buffer /// - Parameters: /// - value: Object that will be written to the buffer /// - len: Offset to subtract from the WriterIndex @inline(__always) @usableFromInline mutating func push(value: T, len: Int) { ensureSpace(size: len) var v = value memcpy(_storage.memory.advanced(by: writerIndex &- len), &v, len) _writerSize = _writerSize &+ len } /// Adds a string to the buffer using swift.utf8 object /// - Parameter str: String that will be added to the buffer /// - Parameter len: length of the string @inline(__always) @usableFromInline mutating func push(string str: String, len: Int) { ensureSpace(size: len) if str.utf8 .withContiguousStorageIfAvailable({ self.push(bytes: $0, len: len) }) != nil { } else { let utf8View = str.utf8 for c in utf8View.reversed() { push(value: c, len: 1) } } } /// Writes a string to Bytebuffer using UTF8View /// - Parameters: /// - bytes: Pointer to the view /// - len: Size of string @usableFromInline @inline(__always) mutating func push( bytes: UnsafeBufferPointer, len: Int) -> Bool { memcpy( _storage.memory.advanced(by: writerIndex &- len), UnsafeRawPointer(bytes.baseAddress!), len) _writerSize = _writerSize &+ len return true } /// Write stores an object into the buffer directly or indirectly. /// /// Direct: ignores the capacity of buffer which would mean we are referring to the direct point in memory /// indirect: takes into respect the current capacity of the buffer (capacity - index), writing to the buffer from the end /// - Parameters: /// - value: Value that needs to be written to the buffer /// - index: index to write to /// - direct: Should take into consideration the capacity of the buffer @inline(__always) func write(value: T, index: Int, direct: Bool = false) { var index = index if !direct { index = _storage.capacity &- index } assert(index < _storage.capacity, "Write index is out of writing bound") assert(index >= 0, "Writer index should be above zero") _storage.memory.storeBytes(of: value, toByteOffset: index, as: T.self) } /// Makes sure that buffer has enouch space for each of the objects that will be written into it /// - Parameter size: size of object @discardableResult @usableFromInline @inline(__always) mutating func ensureSpace(size: Int) -> Int { if size &+ _writerSize > _storage.capacity { _storage.reallocate(size, writerSize: _writerSize, alignment: alignment) } assert(size < FlatBufferMaxSize, "Buffer can't grow beyond 2 Gigabytes") return size } /// pops the written VTable if it's already written into the buffer /// - Parameter size: size of the `VTable` @usableFromInline @inline(__always) mutating func pop(_ size: Int) { assert( (_writerSize &- size) > 0, "New size should NOT be a negative number") memset(_storage.memory.advanced(by: writerIndex), 0, _writerSize &- size) _writerSize = size } /// Clears the current size of the buffer @inline(__always) mutating public func clearSize() { _writerSize = 0 } /// Clears the current instance of the buffer, replacing it with new memory @inline(__always) mutating public func clear() { _writerSize = 0 alignment = 1 _storage.initialize(for: _storage.capacity) } /// Reads an object from the buffer /// - Parameters: /// - def: Type of the object /// - position: the index of the object in the buffer @inline(__always) public func read(def: T.Type, position: Int) -> T { _storage.memory.advanced(by: position).load(as: T.self) } /// Reads a slice from the memory assuming a type of T /// - Parameters: /// - index: index of the object to be read from the buffer /// - count: count of bytes in memory @inline(__always) public func readSlice( index: Int, count: Int) -> [T] { assert( index + count <= _storage.capacity, "Reading out of bounds is illegal") let start = _storage.memory.advanced(by: index) .assumingMemoryBound(to: T.self) let array = UnsafeBufferPointer(start: start, count: count) return Array(array) } #if !os(WASI) /// Reads a string from the buffer and encodes it to a swift string /// - Parameters: /// - index: index of the string in the buffer /// - count: length of the string /// - type: Encoding of the string @inline(__always) public func readString( at index: Int, count: Int, type: String.Encoding = .utf8) -> String? { assert( index + count <= _storage.capacity, "Reading out of bounds is illegal") let start = _storage.memory.advanced(by: index) .assumingMemoryBound(to: UInt8.self) let bufprt = UnsafeBufferPointer(start: start, count: count) return String(bytes: Array(bufprt), encoding: type) } #else /// Reads a string from the buffer and encodes it to a swift string /// - Parameters: /// - index: index of the string in the buffer /// - count: length of the string /// - type: Encoding of the string @inline(__always) public func readString( at index: Int, count: Int) -> String? { assert( index + count <= _storage.capacity, "Reading out of bounds is illegal") let start = _storage.memory.advanced(by: index) .assumingMemoryBound(to: UInt8.self) let bufprt = UnsafeBufferPointer(start: start, count: count) return String(cString: bufprt.baseAddress!) } #endif /// Creates a new Flatbuffer object that's duplicated from the current one /// - Parameter removeBytes: the amount of bytes to remove from the current Size @inline(__always) public func duplicate(removing removeBytes: Int = 0) -> ByteBuffer { assert(removeBytes > 0, "Can NOT remove negative bytes") assert( removeBytes < _storage.capacity, "Can NOT remove more bytes than the ones allocated") return ByteBuffer( memory: _storage.memory, count: _storage.capacity, removing: _writerSize &- removeBytes) } /// Returns the written bytes into the ``ByteBuffer`` public var underlyingBytes: [UInt8] { let cp = capacity &- writerIndex let start = memory.advanced(by: writerIndex) .bindMemory(to: UInt8.self, capacity: cp) let ptr = UnsafeBufferPointer(start: start, count: cp) return Array(ptr) } /// SkipPrefix Skips the first 4 bytes in case one of the following /// functions are called `getPrefixedSizeCheckedRoot` & `getPrefixedSizeRoot` /// which allows us to skip the first 4 bytes instead of recreating the buffer @discardableResult @usableFromInline @inline(__always) mutating func skipPrefix() -> Int32 { _writerSize = _writerSize &- MemoryLayout.size return read(def: Int32.self, position: 0) } } extension ByteBuffer: CustomDebugStringConvertible { public var debugDescription: String { """ buffer located at: \(_storage.memory), with capacity of \(_storage.capacity) { writerSize: \(_writerSize), readerSize: \(reader), writerIndex: \(writerIndex) } """ } }