414 lines
13 KiB
C++
414 lines
13 KiB
C++
/*
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Copyright 2021 Grégory Soutadé
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This file is part of libgourou.
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libgourou is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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libgourou is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with libgourou. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef _DRMPROCESSORCLIENT_H_
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#define _DRMPROCESSORCLIENT_H_
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#include <string>
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#include <bytearray.h>
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namespace gourou
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{
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/**
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* @brief All fucntions that must be implemented by a client
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* This allow libgourou to have only few external libraries dependencies
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* and improve code portability
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*/
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class DigestInterface
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{
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public:
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/**
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* @brief Create a digest handler
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*
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* @param digestName Digest name to instanciate
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*/
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virtual void* createDigest(const std::string& digestName) = 0;
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/**
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* @brief Update digest engine with new data
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*
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* @param handler Digest handler
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* @param data Data to digest
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* @param length Length of data
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*
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* @return OK/KO
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*/
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virtual int digestUpdate(void* handler, unsigned char* data, unsigned int length) = 0;
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/**
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* @brief Finalize digest with remained buffered data and destroy handler
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*
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* @param handler Digest handler
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* @param digestOut Digest result (buffer must be pre allocated with right size)
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*
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* @return OK/KO
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*/
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virtual int digestFinalize(void* handler, unsigned char* digestOut) = 0;
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/**
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* @brief Global digest function
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*
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* @param digestName Digest name to instanciate
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* @param data Data to digest
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* @param length Length of data
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* @param digestOut Digest result (buffer must be pre allocated with right size)
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*
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* @return OK/KO
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*/
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virtual int digest(const std::string& digestName, unsigned char* data, unsigned int length, unsigned char* digestOut) = 0;
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};
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class RandomInterface
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{
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public:
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/**
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* @brief Generate random bytes
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*
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* @param bytesOut Buffer to fill with random bytes
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* @param length Length of bytesOut
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*/
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virtual void randBytes(unsigned char* bytesOut, unsigned int length) = 0;
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};
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class HTTPInterface
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{
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public:
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/**
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* @brief Send HTTP (GET or POST) request
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*
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* @param URL HTTP URL
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* @param POSTData POST data if needed, if not set, a GET request is done
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* @param contentType Optional content type of POST Data
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* @param responseHeaders Optional Response headers of HTTP request
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* @param fd Optional file descriptor to write request result
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*
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* @return data of HTTP response
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*/
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virtual std::string sendHTTPRequest(const std::string& URL, const std::string& POSTData=std::string(""), const std::string& contentType=std::string(""), std::map<std::string, std::string>* responseHeaders=0, int fd=0) = 0;
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};
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class RSAInterface
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{
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public:
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enum RSA_KEY_TYPE {
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RSA_KEY_PKCS12 = 0,
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RSA_KEY_X509
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};
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/**
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* @brief Encrypt data with RSA private key. Data is padded using PKCS1.5
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*
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* @param RSAKey RSA key in binary form
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* @param RSAKeyLength RSA key length
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* @param keyType Key type
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* @param password Optional password for RSA PKCS12 certificate
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* @param data Data to encrypt
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* @param dataLength Data length
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* @param res Encryption result (pre allocated buffer)
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*/
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virtual void RSAPrivateEncrypt(const unsigned char* RSAKey, unsigned int RSAKeyLength,
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const RSA_KEY_TYPE keyType, const std::string& password,
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const unsigned char* data, unsigned dataLength,
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unsigned char* res) = 0;
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/**
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* @brief Decrypt data with RSA private key. Data is padded using PKCS1.5
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*
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* @param RSAKey RSA key in binary form
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* @param RSAKeyLength RSA key length
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* @param keyType Key type
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* @param password Optional password for RSA PKCS12 certificate
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* @param data Data to encrypt
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* @param dataLength Data length
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* @param res Encryption result (pre allocated buffer)
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*/
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virtual void RSAPrivateDecrypt(const unsigned char* RSAKey, unsigned int RSAKeyLength,
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const RSA_KEY_TYPE keyType, const std::string& password,
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const unsigned char* data, unsigned dataLength,
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unsigned char* res) = 0;
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/**
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* @brief Encrypt data with RSA public key. Data is padded using PKCS1.5
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*
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* @param RSAKey RSA key in binary form
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* @param RSAKeyLength RSA key length
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* @param keyType Key type
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* @param password Optional password for RSA PKCS12 certificate
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* @param data Data to encrypt
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* @param dataLength Data length
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* @param res Encryption result (pre allocated buffer)
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*/
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virtual void RSAPublicEncrypt(const unsigned char* RSAKey, unsigned int RSAKeyLength,
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const RSA_KEY_TYPE keyType,
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const unsigned char* data, unsigned dataLength,
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unsigned char* res) = 0;
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/**
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* @brief Generate RSA key. Expnonent is fixed (65537 / 0x10001)
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*
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* @param keyLengthBits Length of key (in bits) to generate
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*
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* @return generatedKey
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*/
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virtual void* generateRSAKey(int keyLengthBits) = 0;
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/**
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* @brief Destroy key previously generated
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*
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* @param handler Key to destroy
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*/
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virtual void destroyRSAHandler(void* handler) = 0;
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/**
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* @brief Extract public key (big number) from RSA handler
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*
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* @param handler RSA handler (generated key)
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* @param keyOut Pre allocated buffer (if *keyOut != 0). If *keyOut is 0, memory is internally allocated (must be freed)
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* @param keyOutLength Length of result
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*/
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virtual void extractRSAPublicKey(void* handler, unsigned char** keyOut, unsigned int* keyOutLength) = 0;
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/**
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* @brief Extract private key (big number) from RSA handler
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*
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* @param handler RSA handler (generated key)
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* @param keyOut Pre allocated buffer (if *keyOut != 0). If *keyOut is 0, memory is internally allocated (must be freed)
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* @param keyOutLength Length of result
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*/
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virtual void extractRSAPrivateKey(void* handler, unsigned char** keyOut, unsigned int* keyOutLength) = 0;
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/**
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* @brief Extract certificate from PKCS12 blob
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*
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* @param RSAKey RSA key in binary form
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* @param RSAKeyLength RSA key length
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* @param keyType Key type
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* @param password Optional password for RSA PKCS12 certificate
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* @param certOut Result certificate
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* @param certOutLength Result certificate length
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*/
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virtual void extractCertificate(const unsigned char* RSAKey, unsigned int RSAKeyLength,
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const RSA_KEY_TYPE keyType, const std::string& password,
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unsigned char** certOut, unsigned int* certOutLength) = 0;
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};
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class CryptoInterface
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{
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public:
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enum CRYPTO_ALGO {
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ALGO_AES=0,
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ALGO_RC4
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};
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enum CHAINING_MODE {
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CHAIN_ECB=0,
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CHAIN_CBC
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};
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/**
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* @brief Do encryption. If length of data is not multiple of block size, PKCS#5 padding is done
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*
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* @param algo Algorithm to use
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* @param chaining Chaining mode
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* @param key AES key
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* @param keyLength AES key length
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* @param iv IV key
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* @param ivLength IV key length
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* @param dataIn Data to encrypt
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* @param dataInLength Data length
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* @param dataOut Encrypted data
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* @param dataOutLength Length of encrypted data
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*/
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virtual void Encrypt(CRYPTO_ALGO algo, CHAINING_MODE chaining,
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const unsigned char* key, unsigned int keyLength,
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const unsigned char* iv, unsigned int ivLength,
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const unsigned char* dataIn, unsigned int dataInLength,
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unsigned char* dataOut, unsigned int* dataOutLength) = 0;
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/**
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* @brief Init encryption
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*
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* @param chaining Chaining mode
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* @param key Key
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* @param keyLength Key length
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* @param iv Optional IV key
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* @param ivLength Optional IV key length
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*
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* @return AES handler
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*/
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virtual void* EncryptInit(CRYPTO_ALGO algo, CHAINING_MODE chaining,
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const unsigned char* key, unsigned int keyLength,
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const unsigned char* iv=0, unsigned int ivLength=0) = 0;
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/**
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* @brief Encrypt data
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*
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* @param handler Crypto handler
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* @param dataIn Data to encrypt
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* @param dataInLength Data length
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* @param dataOut Encrypted data
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* @param dataOutLength Length of encrypted data
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*/
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virtual void EncryptUpdate(void* handler, const unsigned char* dataIn, unsigned int dataInLength,
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unsigned char* dataOut, unsigned int* dataOutLength) = 0;
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/**
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* @brief Finalizeencryption (pad and encrypt last block if needed)
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* Destroy handler at the end
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*
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* @param handler Crypto handler
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* @param dataOut Last block of encrypted data
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* @param dataOutLength Length of encrypted data
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*/
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virtual void EncryptFinalize(void* handler, unsigned char* dataOut, unsigned int* dataOutLength) = 0;
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/**
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* @brief Do decryption. If length of data is not multiple of block size, PKCS#5 padding is done
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*
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* @param algo Algorithm to use
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* @param chaining Chaining mode
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* @param key AES key
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* @param keyLength AES key length
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* @param iv IV key
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* @param ivLength IV key length
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* @param dataIn Data to encrypt
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* @param dataInLength Data length
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* @param dataOut Encrypted data
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* @param dataOutLength Length of encrypted data
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*/
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virtual void Decrypt(CRYPTO_ALGO algo, CHAINING_MODE chaining,
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const unsigned char* key, unsigned int keyLength,
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const unsigned char* iv, unsigned int ivLength,
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const unsigned char* dataIn, unsigned int dataInLength,
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unsigned char* dataOut, unsigned int* dataOutLength) = 0;
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/**
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* @brief Init decryption
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*
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* @param chaining Chaining mode
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* @param key Key
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* @param keyLength Key length
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* @param iv IV key
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* @param ivLength IV key length
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*
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* @return AES handler
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*/
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virtual void* DecryptInit(CRYPTO_ALGO algo, CHAINING_MODE chaining,
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const unsigned char* key, unsigned int keyLength,
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const unsigned char* iv=0, unsigned int ivLength=0) = 0;
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/**
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* @brief Decrypt data
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*
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* @param handler Crypto handler
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* @param dataIn Data to decrypt
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* @param dataInLength Data length
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* @param dataOut Decrypted data
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* @param dataOutLength Length of decrypted data
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*/
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virtual void DecryptUpdate(void* handler, const unsigned char* dataIn, unsigned int dataInLength,
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unsigned char* dataOut, unsigned int* dataOutLength) = 0;
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/**
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* @brief Finalize decryption (decrypt last block and remove padding if it is set).
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* Destroy handler at the end
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*
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* @param handler Crypto handler
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* @param dataOut Last block decrypted data
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* @param dataOutLength Length of decrypted data
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*/
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virtual void DecryptFinalize(void* handler, unsigned char* dataOut, unsigned int* dataOutLength) = 0;
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};
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class ZIPInterface
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{
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public:
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/**
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* @brief Open a zip file and return an handler
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*
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* @param path Path of zip file
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*
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* @return ZIP file handler
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*/
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virtual void* zipOpen(const std::string& path) = 0;
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/**
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* @brief Read zip internal file
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*
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* @param handler ZIP file handler
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* @param path Internal path inside zip file
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* @param result Result buffer
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* @param decompress If false, don't decompress read data
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*/
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virtual void zipReadFile(void* handler, const std::string& path, ByteArray& result, bool decompress=true) = 0;
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/**
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* @brief Write zip internal file
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*
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* @param handler ZIP file handler
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* @param path Internal path inside zip file
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* @param content File content
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*/
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virtual void zipWriteFile(void* handler, const std::string& path, ByteArray& content) = 0;
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/**
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* @brief Delete zip internal file
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*
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* @param handler ZIP file handler
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* @param path Internal path inside zip file
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*/
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virtual void zipDeleteFile(void* handler, const std::string& path) = 0;
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/**
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* @brief Close ZIP file handler
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*
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* @param handler ZIP file handler
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*/
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virtual void zipClose(void* handler) = 0;
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/**
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* @brief Inflate algorithm
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*
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* @param data Data to inflate
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* @param result Zipped data
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* @param wbits Window bits value for libz
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*/
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virtual void inflate(gourou::ByteArray& data, gourou::ByteArray& result,
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int wbits=-15) = 0;
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/**
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* @brief Deflate algorithm
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*
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* @param data Data to deflate
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* @param result Unzipped data
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* @param wbits Window bits value for libz
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* @param compressionLevel Compression level for libz
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*/
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virtual void deflate(gourou::ByteArray& data, gourou::ByteArray& result,
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int wbits=-15, int compressionLevel=8) = 0;
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};
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class DRMProcessorClient: public DigestInterface, public RandomInterface, public HTTPInterface, \
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public RSAInterface, public CryptoInterface, public ZIPInterface
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{};
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}
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#endif
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