/* * 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 /// Verifiable is a protocol all swift flatbuffers object should conform to, /// since swift is similar to `cpp` and `rust` where the data is read directly /// from `unsafeMemory` thus the need to verify if the buffer received is a valid one public protocol Verifiable { /// Verifies that the current value is which the bounds of the buffer, and if /// the current `Value` is aligned properly /// - Parameters: /// - verifier: Verifier that hosts the buffer /// - position: Current position within the buffer /// - type: The type of the object to be verified /// - Throws: Errors coming from `inBuffer` function static func verify( _ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable } extension Verifiable { /// Verifies if the current range to be read is within the bounds of the buffer, /// and if the range is properly aligned /// - Parameters: /// - verifier: Verifier that hosts the buffer /// - position: Current position within the buffer /// - type: The type of the object to be verified /// - Throws: Erros thrown from `isAligned` & `rangeInBuffer` /// - Returns: a tuple of the start position and the count of objects within the range @discardableResult public static func verifyRange( _ verifier: inout Verifier, at position: Int, of type: T.Type) throws -> (start: Int, count: Int) { let len: UOffset = try verifier.getValue(at: position) let intLen = Int(len) let start = Int(clamping: (position &+ MemoryLayout.size).magnitude) try verifier.isAligned(position: start, type: type.self) try verifier.rangeInBuffer(position: start, size: intLen) return (start, intLen) } } extension Verifiable where Self: Scalar { /// Verifies that the current value is which the bounds of the buffer, and if /// the current `Value` is aligned properly /// - Parameters: /// - verifier: Verifier that hosts the buffer /// - position: Current position within the buffer /// - type: The type of the object to be verified /// - Throws: Errors coming from `inBuffer` function public static func verify( _ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable { try verifier.inBuffer(position: position, of: type.self) } } // MARK: - ForwardOffset /// ForwardOffset is a container to wrap around the Generic type to be verified /// from the flatbuffers object. public enum ForwardOffset: Verifiable where U: Verifiable { /// Verifies that the current value is which the bounds of the buffer, and if /// the current `Value` is aligned properly /// - Parameters: /// - verifier: Verifier that hosts the buffer /// - position: Current position within the buffer /// - type: The type of the object to be verified /// - Throws: Errors coming from `inBuffer` function public static func verify( _ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable { let offset: UOffset = try verifier.getValue(at: position) let nextOffset = Int(clamping: (Int(offset) &+ position).magnitude) try U.verify(&verifier, at: nextOffset, of: U.self) } } // MARK: - Vector /// Vector is a container to wrap around the Generic type to be verified /// from the flatbuffers object. public enum Vector: Verifiable where U: Verifiable, S: Verifiable { /// Verifies that the current value is which the bounds of the buffer, and if /// the current `Value` is aligned properly /// - Parameters: /// - verifier: Verifier that hosts the buffer /// - position: Current position within the buffer /// - type: The type of the object to be verified /// - Throws: Errors coming from `inBuffer` function public static func verify( _ verifier: inout Verifier, at position: Int, of type: T.Type) throws where T: Verifiable { /// checks if the next verification type S is equal to U of type forwardOffset /// This had to be done since I couldnt find a solution for duplicate call functions /// A fix will be appreciated if U.self is ForwardOffset.Type { let range = try verifyRange(&verifier, at: position, of: UOffset.self) for index in stride( from: range.start, to: Int(clamping: range.start &+ range.count), by: MemoryLayout.size) { try U.verify(&verifier, at: index, of: U.self) } } else { try S.verifyRange(&verifier, at: position, of: S.self) } } } // MARK: - UnionVector /// UnionVector is a container to wrap around the Generic type to be verified /// from the flatbuffers object. public enum UnionVector where S: UnionEnum { /// Completion handler for the function Verify, that passes the verifier /// enum type and position of union field public typealias Completion = (inout Verifier, S, Int) throws -> Void /// Verifies if the current range to be read is within the bounds of the buffer, /// and if the range is properly aligned. It also verifies if the union type is a /// *valid/supported* union type. /// - Parameters: /// - verifier: Verifier that hosts the buffer /// - keyPosition: Current union key position within the buffer /// - fieldPosition: Current union field position within the buffer /// - unionKeyName: Name of key to written if error is presented /// - fieldName: Name of field to written if error is presented /// - completion: Completion is a handler that WILL be called in the generated /// code to verify the actual objects /// - Throws: FlatbuffersErrors public static func verify( _ verifier: inout Verifier, keyPosition: Int, fieldPosition: Int, unionKeyName: String, fieldName: String, completion: @escaping Completion) throws { /// Get offset for union key vectors and offset vectors let keyOffset: UOffset = try verifier.getValue(at: keyPosition) let fieldOffset: UOffset = try verifier.getValue(at: fieldPosition) /// Check if values are within the buffer, returns the start position of vectors, and vector counts /// Using &+ is safe since we already verified that the value is within the buffer, where the max is /// going to be 2Gib and swift supports Int64 by default let keysRange = try S.T.verifyRange( &verifier, at: Int(keyOffset) &+ keyPosition, of: S.T.self) let offsetsRange = try UOffset.verifyRange( &verifier, at: Int(fieldOffset) &+ fieldPosition, of: UOffset.self) guard keysRange.count == offsetsRange.count else { throw FlatbuffersErrors.unionVectorSize( keyVectorSize: keysRange.count, fieldVectorSize: offsetsRange.count, unionKeyName: unionKeyName, fieldName: fieldName) } var count = 0 /// Iterate over the vector of keys and offsets. while count < keysRange.count { /// index of readable enum value in array let keysIndex = MemoryLayout.size * count guard let _enum = try S.init(value: verifier._buffer.read( def: S.T.self, position: keysRange.start + keysIndex)) else { throw FlatbuffersErrors.unknownUnionCase } /// index of readable offset value in array let fieldIndex = MemoryLayout.size * count try completion(&verifier, _enum, offsetsRange.start + fieldIndex) count += 1 } } }