// Copyright 2019 Contributors to the Parsec project.
// SPDX-License-Identifier: Apache-2.0
//! # Request and response definitions
//!
//! A `Request` is what is sent to the service to execute one operation. A `Response` is what the
//! service returns.
use num_derive::FromPrimitive;

mod response_status;

pub mod utils;
pub mod common;
pub mod request;
pub mod response;
#[cfg(feature = "fuzz")]
use arbitrary::Arbitrary;
pub use request::Request;
pub use response::Response;
pub use response_status::{ResponseStatus, Result};
use std::convert::TryFrom;
use std::fmt;

/// Listing of provider types and their associated codes.
///
/// Passed in headers as `provider`.
#[cfg_attr(feature = "fuzz", derive(Arbitrary))]
#[derive(FromPrimitive, PartialEq, Eq, Hash, Copy, Clone, Debug)]
#[repr(u8)]
pub enum ProviderId {
    /// Provider to use for core Parsec operations.
    Core = 0,
    /// Provider using Mbed Crypto software library.
    MbedCrypto = 1,
    /// Provider using a PKCS 11 compatible library.
    Pkcs11 = 2,
    /// Provider using a TSS 2.0 Enhanced System API library.
    Tpm = 3,
    /// Provider using the crypto Trusted Service running in TrustZone
    TrustedService = 4,
    /// Provider using the MicrochipTech cryptodevice ATECCx08 via CryptoAuthentication Library
    CryptoAuthLib = 5,
}

impl fmt::Display for ProviderId {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        match self {
            ProviderId::Core => write!(f, "Core provider"),
            ProviderId::MbedCrypto => write!(f, "Mbed Crypto provider"),
            ProviderId::Pkcs11 => write!(f, "PKCS #11 provider"),
            ProviderId::Tpm => write!(f, "TPM provider"),
            ProviderId::TrustedService => write!(f, "Trusted Service provider"),
            ProviderId::CryptoAuthLib => write!(f, "CryptoAuthentication Library provider"),
        }
    }
}

impl TryFrom<u8> for ProviderId {
    type Error = ResponseStatus;

    fn try_from(provider_id: u8) -> ::std::result::Result<Self, Self::Error> {
        match num::FromPrimitive::from_u8(provider_id) {
            Some(provider_id) => Ok(provider_id),
            None => Err(ResponseStatus::ProviderDoesNotExist),
        }
    }
}

/// Listing of body encoding types and their associated codes.
///
/// Passed in headers as `content_type` and `accept_type`.
#[cfg_attr(feature = "fuzz", derive(Arbitrary))]
#[derive(FromPrimitive, Copy, Clone, Debug, PartialEq, Eq)]
#[repr(u8)]
pub enum BodyType {
    /// Protobuf format for operations.
    Protobuf = 0,
}

/// Listing of available operations and their associated opcode.
///
/// Passed in headers as `opcode`. Check the
/// [Operations](https://parallaxsecond.github.io/parsec-book/parsec_client/operations/index.html)
/// page of the book for more information.
#[cfg_attr(feature = "fuzz", derive(Arbitrary))]
#[derive(FromPrimitive, Copy, Clone, PartialEq, Debug, Hash, Eq)]
#[repr(u32)]
pub enum Opcode {
    /// Ping operation
    Ping = 0x0001,
    /// PsaGenerateKey operation
    PsaGenerateKey = 0x0002,
    /// PsaDestroyKey operation
    PsaDestroyKey = 0x0003,
    /// PsaSignHash operation
    PsaSignHash = 0x0004,
    /// PsaVerifyHash operation
    PsaVerifyHash = 0x0005,
    /// PsaImportKey operation
    PsaImportKey = 0x0006,
    /// PsaExportPublicKey operation
    PsaExportPublicKey = 0x0007,
    /// ListProviders operation
    ListProviders = 0x0008,
    /// ListOpcodes operation
    ListOpcodes = 0x0009,
    /// PsaAsymmetricEncrypt operation
    PsaAsymmetricEncrypt = 0x000A,
    /// PsaAsymmetricDecrypt operation
    PsaAsymmetricDecrypt = 0x000B,
    /// PsaExportKey operation
    PsaExportKey = 0x000C,
    /// PsaGenerateRandom operation
    PsaGenerateRandom = 0x000D,
    /// ListAuthenticators operation
    ListAuthenticators = 0x000E,
    /// PsaHashCompute operation
    PsaHashCompute = 0x000F,
    /// PsaHashCompare operation
    PsaHashCompare = 0x0010,
    /// PsaAeadEncrypt
    PsaAeadEncrypt = 0x0011,
    /// PsaAeadDecrypt
    PsaAeadDecrypt = 0x0012,
    /// PsaRawKeyAgreement operation
    PsaRawKeyAgreement = 0x0013,
    /// PsaCipherEncrypt
    PsaCipherEncrypt = 0x0014,
    /// PsaCipherDecrypt
    PsaCipherDecrypt = 0x0015,
    /// PsaSignMessage operation
    PsaSignMessage = 0x0018,
    /// PsaVerifyMessage operation
    PsaVerifyMessage = 0x0019,
    /// ListKeys operation
    ListKeys = 0x001A,
    /// ListClients operation (admin operation)
    ListClients = 0x001B,
    /// DeleteClient operation (admin operation)
    DeleteClient = 0x001C,
    /// AttestKey operation
    AttestKey = 0x001E,
    /// PrepareKeyAttestation operation
    PrepareKeyAttestation = 0x001F,
    /// CanDoCrypto operation
    CanDoCrypto = 0x0020,
}

impl Opcode {
    /// Check if an opcode is one of a Core operation
    pub fn is_core(&self) -> bool {
        // match to ensure exhaustivity when a new opcode is added
        match self {
            Opcode::Ping
            | Opcode::ListProviders
            | Opcode::ListOpcodes
            | Opcode::ListAuthenticators
            | Opcode::ListKeys
            | Opcode::ListClients
            | Opcode::DeleteClient => true,
            Opcode::PsaGenerateKey
            | Opcode::PsaDestroyKey
            | Opcode::PsaSignHash
            | Opcode::PsaVerifyHash
            | Opcode::PsaSignMessage
            | Opcode::PsaVerifyMessage
            | Opcode::PsaImportKey
            | Opcode::PsaExportPublicKey
            | Opcode::PsaAsymmetricEncrypt
            | Opcode::PsaAsymmetricDecrypt
            | Opcode::PsaExportKey
            | Opcode::PsaGenerateRandom
            | Opcode::PsaHashCompute
            | Opcode::PsaHashCompare
            | Opcode::PsaAeadEncrypt
            | Opcode::PsaAeadDecrypt
            | Opcode::PsaCipherEncrypt
            | Opcode::PsaCipherDecrypt
            | Opcode::PsaRawKeyAgreement
            | Opcode::CanDoCrypto
            | Opcode::AttestKey
            | Opcode::PrepareKeyAttestation => false,
        }
    }

    /// Check if an opcode is an admin operation
    pub fn is_admin(&self) -> bool {
        // match to ensure exhaustivity when a new opcode is added
        match self {
            Opcode::ListClients | Opcode::DeleteClient => true,
            Opcode::Ping
            | Opcode::ListProviders
            | Opcode::ListOpcodes
            | Opcode::ListAuthenticators
            | Opcode::ListKeys
            | Opcode::PsaGenerateKey
            | Opcode::PsaDestroyKey
            | Opcode::PsaSignHash
            | Opcode::PsaVerifyHash
            | Opcode::PsaSignMessage
            | Opcode::PsaVerifyMessage
            | Opcode::PsaImportKey
            | Opcode::PsaExportPublicKey
            | Opcode::PsaAsymmetricEncrypt
            | Opcode::PsaAsymmetricDecrypt
            | Opcode::PsaExportKey
            | Opcode::PsaGenerateRandom
            | Opcode::PsaHashCompute
            | Opcode::PsaHashCompare
            | Opcode::PsaAeadEncrypt
            | Opcode::PsaAeadDecrypt
            | Opcode::PsaCipherEncrypt
            | Opcode::PsaCipherDecrypt
            | Opcode::PsaRawKeyAgreement
            | Opcode::CanDoCrypto
            | Opcode::AttestKey
            | Opcode::PrepareKeyAttestation => false,
        }
    }

    /// Check if an opcode is one of a PSA Crypto operation
    pub fn is_crypto(&self) -> bool {
        !self.is_core()
    }
}

/// Listing of available authentication methods.
///
/// Passed in headers as `auth_type`.
#[cfg_attr(feature = "fuzz", derive(Arbitrary))]
#[derive(FromPrimitive, PartialEq, Eq, Hash, Copy, Clone, Debug)]
#[repr(u8)]
pub enum AuthType {
    /// No authentication
    NoAuth = 0,
    /// Direct authentication
    Direct = 1,
    /// JSON Web Tokens (JWT) authentication (not currently supported)
    Jwt = 2,
    /// Unix peer credentials authentication
    UnixPeerCredentials = 3,
    /// Authentication verifying a JWT SPIFFE Verifiable Identity Document
    JwtSvid = 4,
}

impl fmt::Display for AuthType {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        match self {
            AuthType::NoAuth => write!(f, "No authentication"),
            AuthType::Direct => write!(f, "Direct authentication"),
            AuthType::Jwt => write!(f, "JSON Web Tokens authentication"),
            AuthType::UnixPeerCredentials => write!(f, "Unix Peer Credentials authentication"),
            AuthType::JwtSvid => {
                write!(f, "JWT SPIFFE Verifiable Identity Document authentication")
            }
        }
    }
}

#[test]
fn check_opcode_nature() {
    assert!(Opcode::ListKeys.is_core());
    assert!(!Opcode::ListKeys.is_crypto());
    assert!(Opcode::PsaGenerateKey.is_crypto());
    assert!(Opcode::ListClients.is_admin());
    assert!(!Opcode::PsaGenerateKey.is_admin());
}