Device interface library for multiple platforms including Mbed.

Dependents:   DeepCover Embedded Security in IoT MaximInterface MAXREFDES155#

Maxim Interface is a library framework focused on providing flexible and expressive hardware interfaces. Both communication interfaces such as I2C and 1-Wire and device interfaces such as DS18B20 are supported. Modern C++ concepts are used extensively while keeping compatibility with C++98/C++03 and requiring no external dependencies. The embedded-friendly design does not depend on exceptions or RTTI.

The full version of the project is hosted on GitLab: https://gitlab.com/iabenz/MaximInterface

MaximInterfaceCore/Ecc256.hpp

Committer:
IanBenzMaxim
Date:
2020-05-29
Revision:
12:7eb41621ba22
Parent:
8:5ea891c7d1a1

File content as of revision 12:7eb41621ba22:

/*******************************************************************************
* Copyright (C) Maxim Integrated Products, Inc., All Rights Reserved.
*
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* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
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* in all copies or substantial portions of the Software.
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* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* OTHER DEALINGS IN THE SOFTWARE.
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* Products, Inc. Branding Policy.
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*******************************************************************************/

#ifndef MaximInterfaceCore_Ecc256_hpp
#define MaximInterfaceCore_Ecc256_hpp

#include <stdint.h>
#include "Algorithm.hpp"
#include "array_span.hpp"
#include "Config.hpp"
#include "ManId.hpp"
#include "RomId.hpp"
#include "Unconstructible.hpp"

namespace MaximInterfaceCore {
namespace Ecc256 {

typedef array_span<uint_least8_t, 32> Scalar;

struct Point : Unconstructible {
  struct const_span {
    Scalar::const_span x;
    Scalar::const_span y;
  };

  struct span {
    Scalar::span x;
    Scalar::span y;

    operator const_span() const {
      const const_span sp = {x, y};
      return sp;
    }
  };

  struct array {
    Scalar::array x;
    Scalar::array y;

    operator span() {
      const span sp = {x, y};
      return sp;
    }

    operator const_span() const {
      const const_span sp = {x, y};
      return sp;
    }
  };
};

MaximInterfaceCore_EXPORT void copy(Point::const_span src, Point::span dst);

MaximInterfaceCore_EXPORT bool equal(Point::const_span lhs,
                                     Point::const_span rhs);

typedef Scalar PrivateKey;
typedef Point PublicKey;

struct KeyPair : Unconstructible {
  struct const_span {
    PrivateKey::const_span privateKey;
    PublicKey::const_span publicKey;
  };

  struct span {
    PrivateKey::span privateKey;
    PublicKey::span publicKey;

    operator const_span() const {
      const const_span sp = {privateKey, publicKey};
      return sp;
    }
  };

  struct array {
    PrivateKey::array privateKey;
    PublicKey::array publicKey;

    operator span() {
      const span sp = {privateKey, publicKey};
      return sp;
    }

    operator const_span() const {
      const const_span sp = {privateKey, publicKey};
      return sp;
    }
  };
};

MaximInterfaceCore_EXPORT void copy(KeyPair::const_span src, KeyPair::span dst);

MaximInterfaceCore_EXPORT bool equal(KeyPair::const_span lhs,
                                     KeyPair::const_span rhs);

struct Signature : Unconstructible {
  struct const_span {
    Scalar::const_span r;
    Scalar::const_span s;
  };

  struct span {
    Scalar::span r;
    Scalar::span s;

    operator const_span() const {
      const const_span sp = {r, s};
      return sp;
    }
  };

  struct array {
    Scalar::array r;
    Scalar::array s;

    operator span() {
      const span sp = {r, s};
      return sp;
    }

    operator const_span() const {
      const const_span sp = {r, s};
      return sp;
    }
  };
};

MaximInterfaceCore_EXPORT void copy(Signature::const_span src,
                                    Signature::span dst);

MaximInterfaceCore_EXPORT bool equal(Signature::const_span lhs,
                                     Signature::const_span rhs);

/// Data used to create a device key certificate for ECC-256 authenticators.
class CertificateData {
public:
  typedef array_span<uint_least8_t,
                     2 * Scalar::size + RomId::size + ManId::size>
      Result;

  CertificateData() : result_() {}

  /// Formatted data result.
  Result::const_span result() const { return result_; }

  /// @name Public Key
  /// @brief Public key of the device.
  /// @{

  /// Get mutable Public Key.
  MaximInterfaceCore_EXPORT PublicKey::span publicKey();

  /// Get immutable Public Key.
  PublicKey::const_span publicKey() const {
    return const_cast<CertificateData &>(*this).publicKey();
  }

  /// Set Public Key.
  CertificateData & setPublicKey(PublicKey::const_span publicKey) {
    copy(publicKey, this->publicKey());
    return *this;
  }

  /// @}

  /// @name ROM ID
  /// @brief 1-Wire ROM ID of the device.
  /// @{

  /// Get mutable ROM ID.
  RomId::span romId() {
    return make_span(result_).subspan<romIdIdx, RomId::size>();
  }

  /// Get immutable ROM ID.
  RomId::const_span romId() const {
    return const_cast<CertificateData &>(*this).romId();
  }

  /// Set ROM ID.
  CertificateData & setRomId(RomId::const_span romId) {
    copy(romId, this->romId());
    return *this;
  }

  /// @}

  /// @name MAN ID
  /// @brief Manufacturer ID of the device.
  /// @{

  /// Get mutable MAN ID.
  ManId::span manId() {
    return make_span(result_).subspan<manIdIdx, ManId::size>();
  }

  /// Get immutable MAN ID.
  ManId::const_span manId() const {
    return const_cast<CertificateData &>(*this).manId();
  }

  /// Set MAN ID.
  CertificateData & setManId(ManId::const_span manId) {
    copy(manId, this->manId());
    return *this;
  }

  /// @}

private:
  static const size_t publicKeyIdx = 0;
  static const size_t romIdIdx = publicKeyIdx + 2 * Scalar::size;
  static const size_t manIdIdx = romIdIdx + RomId::size;

  Result::array result_;
};

} // namespace Ecc256
} // namespace MaximInterfaceCore

#endif