| /* Licensed to the Apache Software Foundation (ASF) under one or more |
| * contributor license agreements. See the NOTICE file distributed with |
| * this work for additional information regarding copyright ownership. |
| * The ASF licenses this file to You 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. |
| */ |
| |
| #ifndef APR_CRYPTO_H |
| #define APR_CRYPTO_H |
| |
| #include "apu.h" |
| #include "apr_pools.h" |
| #include "apr_tables.h" |
| #include "apu_errno.h" |
| |
| #ifdef __cplusplus |
| extern "C" { |
| #endif |
| |
| /** |
| * @file apr_crypto.h |
| * @brief APR-UTIL Crypto library |
| */ |
| /** |
| * @defgroup APR_Util_Crypto Crypto routines |
| * @ingroup APR_Util |
| * @{ |
| */ |
| |
| /** CA certificate type unknown */ |
| #define APR_CRYPTO_CA_TYPE_UNKNOWN 0 |
| /** binary DER encoded CA certificate */ |
| #define APR_CRYPTO_CA_TYPE_DER 1 |
| /** PEM encoded CA certificate */ |
| #define APR_CRYPTO_CA_TYPE_BASE64 2 |
| /** Netscape/Mozilla cert7.db CA certificate database */ |
| #define APR_CRYPTO_CA_TYPE_CERT7_DB 3 |
| /** Netscape/Mozilla secmod file */ |
| #define APR_CRYPTO_CA_TYPE_SECMOD 4 |
| /** Client certificate type unknown */ |
| #define APR_CRYPTO_CERT_TYPE_UNKNOWN 5 |
| /** binary DER encoded client certificate */ |
| #define APR_CRYPTO_CERT_TYPE_DER 6 |
| /** PEM encoded client certificate */ |
| #define APR_CRYPTO_CERT_TYPE_BASE64 7 |
| /** Netscape/Mozilla key3.db client certificate database */ |
| #define APR_CRYPTO_CERT_TYPE_KEY3_DB 8 |
| /** Netscape/Mozilla client certificate nickname */ |
| #define APR_CRYPTO_CERT_TYPE_NICKNAME 9 |
| /** Private key type unknown */ |
| #define APR_CRYPTO_KEY_TYPE_UNKNOWN 10 |
| /** binary DER encoded private key */ |
| #define APR_CRYPTO_KEY_TYPE_DER 11 |
| /** PEM encoded private key */ |
| #define APR_CRYPTO_KEY_TYPE_BASE64 12 |
| /** PKCS#12 encoded client certificate */ |
| #define APR_CRYPTO_CERT_TYPE_PFX 13 |
| /** PKCS#12 encoded private key */ |
| #define APR_CRYPTO_KEY_TYPE_PFX 14 |
| /** Openldap directory full of base64-encoded cert |
| * authorities with hashes in corresponding .0 directory |
| */ |
| #define APR_CRYPTO_CA_TYPE_CACERTDIR_BASE64 15 |
| /** CMS Key Database with private key and cert chain */ |
| #define APR_CRYPTO_CA_TYPE_CMS 16 |
| /** Symmetrical key */ |
| #define APR_CRYPTO_KEY_TYPE_SYM 17 |
| /** Netscape/Mozilla certificate database directory */ |
| #define APR_CRYPTO_CA_TYPE_DIR 18 |
| /** Crypto engine */ |
| #define APR_CRYPTO_ENGINE 101 |
| |
| #if APU_HAVE_CRYPTO |
| |
| #ifndef APU_CRYPTO_RECOMMENDED_DRIVER |
| #if APU_HAVE_OPENSSL |
| #define APU_CRYPTO_RECOMMENDED_DRIVER "openssl" |
| #else |
| #if APU_HAVE_NSS |
| #define APU_CRYPTO_RECOMMENDED_DRIVER "nss" |
| #else |
| #if APU_HAVE_MSCNG |
| #define APU_CRYPTO_RECOMMENDED_DRIVER "mscng" |
| #else |
| #if APU_HAVE_MSCAPI |
| #define APU_CRYPTO_RECOMMENDED_DRIVER "mscapi" |
| #else |
| #endif |
| #endif |
| #endif |
| #endif |
| #endif |
| |
| /** |
| * Symmetric Key types understood by the library. |
| * |
| * NOTE: It is expected that this list will grow over time. |
| * |
| * Interoperability Matrix: |
| * |
| * The matrix is based on the testcrypto.c unit test, which attempts to |
| * test whether a simple encrypt/decrypt will succeed, as well as testing |
| * whether an encrypted string by one library can be decrypted by the |
| * others. |
| * |
| * Some libraries will successfully encrypt and decrypt their own data, |
| * but won't decrypt data from another library. It is hoped that over |
| * time these anomalies will be found and fixed, but until then it is |
| * recommended that ciphers are chosen that interoperate across platform. |
| * |
| * An X below means the test passes, it does not necessarily mean that |
| * encryption performed is correct or secure. Applications should stick |
| * to ciphers that pass the interoperablity tests on the right hand side |
| * of the table. |
| * |
| * Aligned data is data whose length is a multiple of the block size for |
| * the chosen cipher. Padded data is data that is not aligned by block |
| * size and must be padded by the crypto library. |
| * |
| * OpenSSL NSS Interop |
| * Align Pad Align Pad Align Pad |
| * 3DES_192/CBC X X X X X X |
| * 3DES_192/ECB X X |
| * AES_256/CBC X X X X X X |
| * AES_256/ECB X X X X |
| * AES_192/CBC X X X X |
| * AES_192/ECB X X X |
| * AES_128/CBC X X X X |
| * AES_128/ECB X X X |
| * |
| * Conclusion: for padded data, use 3DES_192/CBC or AES_256/CBC. For |
| * aligned data, use 3DES_192/CBC, AES_256/CBC or AES_256/ECB. |
| */ |
| |
| typedef enum { |
| KEY_NONE, KEY_3DES_192, /** 192 bit (3-Key) 3DES */ |
| KEY_AES_128, /** 128 bit AES */ |
| KEY_AES_192, /** 192 bit AES */ |
| KEY_AES_256 |
| /** 256 bit AES */ |
| } apr_crypto_block_key_type_e; |
| |
| typedef enum { |
| MODE_NONE, /** An error condition */ |
| MODE_ECB, /** Electronic Code Book */ |
| MODE_CBC |
| /** Cipher Block Chaining */ |
| } apr_crypto_block_key_mode_e; |
| |
| /** |
| * Certificate and private key structure. |
| * |
| * The various crypto backends expect certificates and keys in a wide |
| * array of formats. This structure is analogous to apr_ldap_opt_tls_cert_t |
| * from the LDAP interface. Ultimately that interface should be meshed with |
| * this one. |
| * @param type Type of certificate APR_CRYPTO_*_TYPE_* |
| * @param path Path, file or nickname of the certificate |
| * @param password Optional password, can be NULL |
| */ |
| typedef struct apr_crypto_param_t { |
| int type; |
| const char *path; |
| const char *password; |
| } apr_crypto_param_t; |
| |
| /* These are opaque structs. Instantiation is up to each backend */ |
| typedef struct apr_crypto_driver_t apr_crypto_driver_t; |
| typedef struct apr_crypto_config_t apr_crypto_config_t; |
| typedef struct apr_crypto_key_t apr_crypto_key_t; |
| typedef struct apr_crypto_block_t apr_crypto_block_t; |
| |
| /** |
| * Public factory API, common to all backends. |
| */ |
| typedef struct apr_crypto_t { |
| apr_pool_t *pool; |
| apu_err_t *result; |
| apr_array_header_t *keys; |
| apr_crypto_config_t *config; |
| } apr_crypto_t; |
| |
| /** |
| * @brief Perform once-only initialisation. Call once only. |
| * |
| * @param pool - pool to register any shutdown cleanups, etc |
| * @return APR_NOTIMPL in case of no crypto support. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_init(apr_pool_t *pool, |
| const apr_array_header_t *params); |
| |
| /** |
| * @brief Get the driver struct for a name |
| * |
| * @param pool - (process) pool to register cleanup |
| * @param name - driver name |
| * @param driver - pointer to driver struct. |
| * @return APR_SUCCESS for success |
| * @return APR_ENOTIMPL for no driver (when DSO not enabled) |
| * @return APR_EDSOOPEN if DSO driver file can't be opened |
| * @return APR_ESYMNOTFOUND if the driver file doesn't contain a driver |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_get_driver(apr_pool_t *pool, const char *name, |
| const apr_crypto_driver_t **driver, const apr_array_header_t *params, |
| const apu_err_t **result); |
| |
| /** |
| * @brief Return the name of the driver. |
| * |
| * @param driver - The driver in use. |
| * @return The name of the driver. |
| */ |
| APU_DECLARE(const char *)apr_crypto_driver_name (const apr_crypto_driver_t *driver); |
| |
| /** |
| * @brief Get the result of the last operation on a factory. If the result |
| * is NULL, the operation was successful. |
| * @param driver - driver to use |
| * @param factory - factory pointer will be written here |
| * @param result - the result structure |
| * @return APR_SUCCESS for success |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_error(const apr_crypto_t *f, |
| const apu_err_t **result); |
| |
| /** |
| * @brief Create a context for supporting encryption. Keys, certificates, |
| * algorithms and other parameters will be set per context. More than |
| * one context can be created at one time. A cleanup will be automatically |
| * registered with the given pool to guarantee a graceful shutdown. |
| * @param driver - driver to use |
| * @param pool - process pool |
| * @param params - array of key parameters |
| * @param factory - factory pointer will be written here |
| * @return APR_ENOENGINE when the engine specified does not exist. APR_EINITENGINE |
| * if the engine cannot be initialised. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_factory(const apr_crypto_driver_t *driver, |
| apr_pool_t *pool, const apr_array_header_t *params, apr_crypto_t **f); |
| |
| /** |
| * @brief Create a key from the given passphrase. By default, the PBKDF2 |
| * algorithm is used to generate the key from the passphrase. It is expected |
| * that the same pass phrase will generate the same key, regardless of the |
| * backend crypto platform used. The key is cleaned up when the context |
| * is cleaned, and may be reused with multiple encryption or decryption |
| * operations. |
| * @note If *key is NULL, a apr_crypto_key_t will be created from a pool. If |
| * *key is not NULL, *key must point at a previously created structure. |
| * @param driver - driver to use |
| * @param p The pool to use. |
| * @param f The context to use. |
| * @param pass The passphrase to use. |
| * @param passLen The passphrase length in bytes |
| * @param salt The salt to use. |
| * @param saltLen The salt length in bytes |
| * @param type 3DES_192, AES_128, AES_192, AES_256. |
| * @param mode Electronic Code Book / Cipher Block Chaining. |
| * @param doPad Pad if necessary. |
| * @param key The key returned, see note. |
| * @param ivSize The size of the initialisation vector will be returned, based |
| * on whether an IV is relevant for this type of crypto. |
| * @return Returns APR_ENOKEY if the pass phrase is missing or empty, or if a backend |
| * error occurred while generating the key. APR_ENOCIPHER if the type or mode |
| * is not supported by the particular backend. APR_EKEYTYPE if the key type is |
| * not known. APR_EPADDING if padding was requested but is not supported. |
| * APR_ENOTIMPL if not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_passphrase(const apr_crypto_driver_t *driver, |
| apr_pool_t *p, const apr_crypto_t *f, const char *pass, |
| apr_size_t passLen, const unsigned char * salt, apr_size_t saltLen, |
| const apr_crypto_block_key_type_e type, |
| const apr_crypto_block_key_mode_e mode, const int doPad, |
| const int iterations, apr_crypto_key_t **key, apr_size_t *ivSize); |
| |
| /** |
| * @brief Initialise a context for encrypting arbitrary data using the given key. |
| * @note If *ctx is NULL, a apr_crypto_block_t will be created from a pool. If |
| * *ctx is not NULL, *ctx must point at a previously created structure. |
| * @param driver - driver to use |
| * @param p The pool to use. |
| * @param f The block factory to use. |
| * @param key The key structure to use. |
| * @param iv Optional initialisation vector. If the buffer pointed to is NULL, |
| * an IV will be created at random, in space allocated from the pool. |
| * If the buffer pointed to is not NULL, the IV in the buffer will be |
| * used. |
| * @param ctx The block context returned, see note. |
| * @param blockSize The block size of the cipher. |
| * @return Returns APR_ENOIV if an initialisation vector is required but not specified. |
| * Returns APR_EINIT if the backend failed to initialise the context. Returns |
| * APR_ENOTIMPL if not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_encrypt_init( |
| const apr_crypto_driver_t *driver, apr_pool_t *p, |
| const apr_crypto_t *f, const apr_crypto_key_t *key, |
| const unsigned char **iv, apr_crypto_block_t **ctx, |
| apr_size_t *blockSize); |
| |
| /** |
| * @brief Encrypt data provided by in, write it to out. |
| * @note The number of bytes written will be written to outlen. If |
| * out is NULL, outlen will contain the maximum size of the |
| * buffer needed to hold the data, including any data |
| * generated by apr_crypto_block_encrypt_finish below. If *out points |
| * to NULL, a buffer sufficiently large will be created from |
| * the pool provided. If *out points to a not-NULL value, this |
| * value will be used as a buffer instead. |
| * @param driver - driver to use |
| * @param ctx The block context to use. |
| * @param out Address of a buffer to which data will be written, |
| * see note. |
| * @param outlen Length of the output will be written here. |
| * @param in Address of the buffer to read. |
| * @param inlen Length of the buffer to read. |
| * @return APR_ECRYPT if an error occurred. Returns APR_ENOTIMPL if |
| * not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_encrypt( |
| const apr_crypto_driver_t *driver, apr_crypto_block_t *ctx, |
| unsigned char **out, apr_size_t *outlen, const unsigned char *in, |
| apr_size_t inlen); |
| |
| /** |
| * @brief Encrypt final data block, write it to out. |
| * @note If necessary the final block will be written out after being |
| * padded. Typically the final block will be written to the |
| * same buffer used by apr_crypto_block_encrypt, offset by the |
| * number of bytes returned as actually written by the |
| * apr_crypto_block_encrypt() call. After this call, the context |
| * is cleaned and can be reused by apr_crypto_block_encrypt_init(). |
| * @param driver - driver to use |
| * @param ctx The block context to use. |
| * @param out Address of a buffer to which data will be written. This |
| * buffer must already exist, and is usually the same |
| * buffer used by apr_evp_crypt(). See note. |
| * @param outlen Length of the output will be written here. |
| * @return APR_ECRYPT if an error occurred. |
| * @return APR_EPADDING if padding was enabled and the block was incorrectly |
| * formatted. |
| * @return APR_ENOTIMPL if not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_encrypt_finish( |
| const apr_crypto_driver_t *driver, apr_crypto_block_t *ctx, |
| unsigned char *out, apr_size_t *outlen); |
| |
| /** |
| * @brief Initialise a context for decrypting arbitrary data using the given key. |
| * @note If *ctx is NULL, a apr_crypto_block_t will be created from a pool. If |
| * *ctx is not NULL, *ctx must point at a previously created structure. |
| * @param driver - driver to use |
| * @param p The pool to use. |
| * @param f The block factory to use. |
| * @param key The key structure to use. |
| * @param iv Optional initialisation vector. |
| * @param ctx The block context returned, see note. |
| * @param blockSize The block size of the cipher. |
| * @return Returns APR_ENOIV if an initialisation vector is required but not specified. |
| * Returns APR_EINIT if the backend failed to initialise the context. Returns |
| * APR_ENOTIMPL if not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_decrypt_init( |
| const apr_crypto_driver_t *driver, apr_pool_t *p, |
| const apr_crypto_t *f, const apr_crypto_key_t *key, |
| const unsigned char *iv, apr_crypto_block_t **ctx, |
| apr_size_t *blockSize); |
| |
| /** |
| * @brief Decrypt data provided by in, write it to out. |
| * @note The number of bytes written will be written to outlen. If |
| * out is NULL, outlen will contain the maximum size of the |
| * buffer needed to hold the data, including any data |
| * generated by apr_crypto_block_decrypt_finish below. If *out points |
| * to NULL, a buffer sufficiently large will be created from |
| * the pool provided. If *out points to a not-NULL value, this |
| * value will be used as a buffer instead. |
| * @param driver - driver to use |
| * @param ctx The block context to use. |
| * @param out Address of a buffer to which data will be written, |
| * see note. |
| * @param outlen Length of the output will be written here. |
| * @param in Address of the buffer to read. |
| * @param inlen Length of the buffer to read. |
| * @return APR_ECRYPT if an error occurred. Returns APR_ENOTIMPL if |
| * not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_decrypt( |
| const apr_crypto_driver_t *driver, apr_crypto_block_t *ctx, |
| unsigned char **out, apr_size_t *outlen, const unsigned char *in, |
| apr_size_t inlen); |
| |
| /** |
| * @brief Decrypt final data block, write it to out. |
| * @note If necessary the final block will be written out after being |
| * padded. Typically the final block will be written to the |
| * same buffer used by apr_crypto_block_decrypt, offset by the |
| * number of bytes returned as actually written by the |
| * apr_crypto_block_decrypt() call. After this call, the context |
| * is cleaned and can be reused by apr_crypto_block_decrypt_init(). |
| * @param driver - driver to use |
| * @param ctx The block context to use. |
| * @param out Address of a buffer to which data will be written. This |
| * buffer must already exist, and is usually the same |
| * buffer used by apr_evp_crypt(). See note. |
| * @param outlen Length of the output will be written here. |
| * @return APR_ECRYPT if an error occurred. |
| * @return APR_EPADDING if padding was enabled and the block was incorrectly |
| * formatted. |
| * @return APR_ENOTIMPL if not implemented. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_decrypt_finish( |
| const apr_crypto_driver_t *driver, apr_crypto_block_t *ctx, |
| unsigned char *out, apr_size_t *outlen); |
| |
| /** |
| * @brief Clean encryption / decryption context. |
| * @note After cleanup, a context is free to be reused if necessary. |
| * @param driver - driver to use |
| * @param ctx The block context to use. |
| * @return Returns APR_ENOTIMPL if not supported. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_block_cleanup( |
| const apr_crypto_driver_t *driver, apr_crypto_block_t *ctx); |
| |
| /** |
| * @brief Clean encryption / decryption factory. |
| * @note After cleanup, a factory is free to be reused if necessary. |
| * @param driver - driver to use |
| * @param f The factory to use. |
| * @return Returns APR_ENOTIMPL if not supported. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_cleanup(const apr_crypto_driver_t *driver, |
| apr_crypto_t *f); |
| |
| /** |
| * @brief Shutdown the crypto library. |
| * @note After shutdown, it is expected that the init function can be called again. |
| * @param driver - driver to use |
| * @param p The pool to use. |
| * @return Returns APR_ENOTIMPL if not supported. |
| */ |
| APU_DECLARE(apr_status_t) apr_crypto_shutdown(const apr_crypto_driver_t *driver, |
| apr_pool_t *p); |
| |
| #endif /* APU_HAVE_CRYPTO */ |
| |
| /** @} */ |
| |
| #ifdef __cplusplus |
| } |
| #endif |
| |
| #endif |