flatbuffers/swift/Sources/FlatBuffers/Verifiable.swift

/*
 * Copyright 2021 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<T>(
    _ 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<T>(
    _ 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<Int32>.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<T>(
    _ 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<U>: 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<T>(
    _ 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<U, S>: 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<T>(
    _ 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<S>.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<UOffset>.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<S> 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<S.T>.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<UOffset>.size * count
      try completion(&verifier, _enum, offsetsRange.start + fieldIndex)
      count += 1
    }
  }
}
Implements verifier and code gen for swift (#6373) Updates test cases on linux Adhere to new protocol naming Adds fuzzing Adds documentation Adds support for string unions Updated fuzzer generated code 2021-05-14 17:59:28 +00:00			`/*`
			`* Copyright 2021 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.`
			`*/`

Adds full supposed for Wasm in the swift lib (#7328) Adds tests for wasm module & github action 2022-05-29 18:56:33 +00:00			`#if !os(WASI)`
Implements verifier and code gen for swift (#6373) Updates test cases on linux Adhere to new protocol naming Adds fuzzing Adds documentation Adds support for string unions Updated fuzzer generated code 2021-05-14 17:59:28 +00:00			`import Foundation`
Adds full supposed for Wasm in the swift lib (#7328) Adds tests for wasm module & github action 2022-05-29 18:56:33 +00:00			`#else`
			`import SwiftOverlayShims`
			`#endif`
Implements verifier and code gen for swift (#6373) Updates test cases on linux Adhere to new protocol naming Adds fuzzing Adds documentation Adds support for string unions Updated fuzzer generated code 2021-05-14 17:59:28 +00:00
			`/// 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<T>(`
			`_ 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<T>(`
			`_ 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<Int32>.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<T>(`
			`_ 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<U>: 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<T>(`
			`_ 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<U, S>: 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<T>(`
			`_ 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<S>.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<UOffset>.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<S> 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<S.T>.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<UOffset>.size * count`
			`try completion(&verifier, _enum, offsetsRange.start + fieldIndex)`
			`count += 1`
			`}`
			`}`
			`}`