//  CryptoSwift
//
//  Copyright (C) 2014-2018 Marcin Krzyżanowski <marcin@krzyzanowskim.com>
//  This software is provided 'as-is', without any express or implied warranty.
//
//  In no event will the authors be held liable for any damages arising from the use of this software.
//
//  Permission is granted to anyone to use this software for any purpose,including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions:
//
//  - The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation is required.
//  - Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
//  - This notice may not be removed or altered from any source or binary distribution.
//

public class BlockDecryptor: Cryptor, Updatable {
  private let blockSize: Int
  private let padding: Padding
  private var worker: CipherModeWorker
  private var accumulated = Array<UInt8>()

  init(blockSize: Int, padding: Padding, _ worker: CipherModeWorker) throws {
    self.blockSize = blockSize
    self.padding = padding
    self.worker = worker
  }

  public func update(withBytes bytes: ArraySlice<UInt8>, isLast: Bool = false) throws -> Array<UInt8> {
    self.accumulated += bytes

    // If a worker (eg GCM) can combine ciphertext + tag
    // we need to remove tag from the ciphertext.
    if !isLast && self.accumulated.count < self.blockSize + self.worker.additionalBufferSize {
      return []
    }

    let accumulatedWithoutSuffix: Array<UInt8>
    if self.worker.additionalBufferSize > 0 {
      // FIXME: how slow is that?
      accumulatedWithoutSuffix = Array(self.accumulated.prefix(self.accumulated.count - self.worker.additionalBufferSize))
    } else {
      accumulatedWithoutSuffix = self.accumulated
    }

    var processedBytesCount = 0
    var plaintext = Array<UInt8>(reserveCapacity: accumulatedWithoutSuffix.count)
    // Processing in a block-size manner. It's good for block modes, but bad for stream modes.
    for var chunk in accumulatedWithoutSuffix.batched(by: self.blockSize) {
      if isLast || (accumulatedWithoutSuffix.count - processedBytesCount) >= blockSize {
        let isLastChunk = processedBytesCount + chunk.count == accumulatedWithoutSuffix.count

        if isLast, isLastChunk, var finalizingWorker = worker as? FinalizingDecryptModeWorker {
          chunk = try finalizingWorker.willDecryptLast(bytes: chunk + accumulated.suffix(worker.additionalBufferSize)) // tag size
        }

        if !chunk.isEmpty {
          plaintext += worker.decrypt(block: chunk)
        }

        if isLast, isLastChunk, var finalizingWorker = worker as? FinalizingDecryptModeWorker {
          plaintext = Array(try finalizingWorker.didDecryptLast(bytes: plaintext.slice))
        }

        processedBytesCount += chunk.count
      }
    }
    accumulated.removeFirst(processedBytesCount) // super-slow

    if isLast {
      plaintext = self.padding.remove(from: plaintext, blockSize: self.blockSize)
    }

    return plaintext
  }

  public func seek(to position: Int) throws {
    guard var worker = self.worker as? SeekableModeWorker else {
      fatalError("Not supported")
    }

    try worker.seek(to: position)
    self.worker = worker

    accumulated = []
  }
}