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/** @file rhash.h LibRHash interface */
#ifndef RHASH_H
#define RHASH_H
#include <stdio.h>
#ifdef __cplusplus
extern "C" {
#endif
#ifndef RHASH_API
/**
* Modifier for LibRHash functions
*/
# define RHASH_API
#endif
/**
* Identifiers of supported hash functions.
* The rhash_init() function allows mixing several ids using
* binary OR, to calculate several hash functions for one message.
*/
enum rhash_ids
{
#if 0
RHASH_CRC32 = 0x01,
RHASH_MD4 = 0x02,
RHASH_MD5 = 0x04,
RHASH_SHA1 = 0x08,
RHASH_TIGER = 0x10,
RHASH_TTH = 0x20,
RHASH_BTIH = 0x40,
RHASH_ED2K = 0x80,
RHASH_AICH = 0x100,
RHASH_WHIRLPOOL = 0x200,
RHASH_RIPEMD160 = 0x400,
RHASH_GOST94 = 0x800,
RHASH_GOST94_CRYPTOPRO = 0x1000,
RHASH_HAS160 = 0x2000,
RHASH_GOST12_256 = 0x4000,
RHASH_GOST12_512 = 0x8000,
RHASH_SHA224 = 0x10000,
RHASH_SHA256 = 0x20000,
RHASH_SHA384 = 0x40000,
RHASH_SHA512 = 0x80000,
RHASH_EDONR256 = 0x0100000,
RHASH_EDONR512 = 0x0200000,
RHASH_SHA3_224 = 0x0400000,
RHASH_SHA3_256 = 0x0800000,
RHASH_SHA3_384 = 0x1000000,
RHASH_SHA3_512 = 0x2000000,
RHASH_CRC32C = 0x4000000,
RHASH_SNEFRU128 = 0x8000000,
RHASH_SNEFRU256 = 0x10000000,
/**
* The bit-mask containing all supported hashe functions.
*/
RHASH_ALL_HASHES = RHASH_CRC32 | RHASH_CRC32C | RHASH_MD4 | RHASH_MD5 |
RHASH_ED2K | RHASH_SHA1 |RHASH_TIGER | RHASH_TTH |
RHASH_GOST94 | RHASH_GOST94_CRYPTOPRO | RHASH_GOST12_256 | RHASH_GOST12_512 |
RHASH_BTIH | RHASH_AICH | RHASH_WHIRLPOOL | RHASH_RIPEMD160 |
RHASH_HAS160 | RHASH_SNEFRU128 | RHASH_SNEFRU256 |
RHASH_SHA224 | RHASH_SHA256 | RHASH_SHA384 | RHASH_SHA512 |
RHASH_SHA3_224 | RHASH_SHA3_256 | RHASH_SHA3_384 | RHASH_SHA3_512 |
RHASH_EDONR256 | RHASH_EDONR512,
RHASH_GOST = RHASH_GOST94, /* deprecated constant name */
RHASH_GOST_CRYPTOPRO = RHASH_GOST94_CRYPTOPRO, /* deprecated constant name */
/**
* The number of supported hash functions.
*/
RHASH_HASH_COUNT = 29
#else
RHASH_MD5 = 0x01,
RHASH_SHA1 = 0x02,
RHASH_SHA224 = 0x04,
RHASH_SHA256 = 0x08,
RHASH_SHA384 = 0x10,
RHASH_SHA512 = 0x20,
RHASH_SHA3_224 = 0x40,
RHASH_SHA3_256 = 0x80,
RHASH_SHA3_384 = 0x100,
RHASH_SHA3_512 = 0x200,
RHASH_ALL_HASHES =
RHASH_MD5 |
RHASH_SHA1 |
RHASH_SHA224 |
RHASH_SHA256 |
RHASH_SHA384 |
RHASH_SHA512 |
RHASH_SHA3_224 |
RHASH_SHA3_256 |
RHASH_SHA3_384 |
RHASH_SHA3_512,
RHASH_HASH_COUNT = 10
#endif
};
/**
* The rhash context structure contains contexts for several hash functions.
*/
typedef struct rhash_context
{
/**
* The size of the hashed message.
*/
unsigned long long msg_size;
/**
* The bit-mask containing identifiers of the hashes being calculated.
*/
unsigned hash_id;
} rhash_context;
#ifndef LIBRHASH_RHASH_CTX_DEFINED
#define LIBRHASH_RHASH_CTX_DEFINED
/**
* Hashing context.
*/
typedef struct rhash_context* rhash;
#endif /* LIBRHASH_RHASH_CTX_DEFINED */
/**
* Type of a callback to be called periodically while hashing a file.
*/
typedef void (*rhash_callback_t)(void* data, unsigned long long offset);
/**
* Initialize static data of rhash algorithms
*/
RHASH_API void rhash_library_init(void);
/* HIGH-LEVEL LIBRHASH INTERFACE */
/**
* Compute a hash of the given message.
*
* @param hash_id id of hash sum to compute
* @param message the message to process
* @param length message length
* @param result buffer to receive binary hash string
* @return 0 on success, -1 on error
*/
RHASH_API int rhash_msg(unsigned hash_id, const void* message, size_t length, unsigned char* result);
/**
* Compute a single hash for given file.
*
* @param hash_id id of hash sum to compute
* @param filepath path to the file to hash
* @param result buffer to receive hash value with the lowest requested id
* @return 0 on success, -1 on error and errno is set
*/
RHASH_API int rhash_file(unsigned hash_id, const char* filepath, unsigned char* result);
#ifdef _WIN32
/**
* Compute a single hash for given file (Windows-specific function).
*
* @param hash_id id of hash sum to compute
* @param filepath path to the file to hash
* @param result buffer to receive hash value with the lowest requested id
* @return 0 on success, -1 on error, -1 on error and errno is set
*/
RHASH_API int rhash_wfile(unsigned hash_id, const wchar_t* filepath, unsigned char* result);
#endif
/* LOW-LEVEL LIBRHASH INTERFACE */
/**
* Allocate and initialize RHash context for calculating hash(es).
* After initializing rhash_update()/rhash_final() functions should be used.
* Then the context must be freed by calling rhash_free().
*
* @param hash_id union of bit flags, containing ids of hashes to calculate.
* @return initialized rhash context, NULL on error and errno is set
*/
RHASH_API rhash rhash_init(unsigned hash_id);
/**
* Calculate hashes of message.
* Can be called repeatedly with chunks of the message to be hashed.
*
* @param ctx the rhash context
* @param message message chunk
* @param length length of the message chunk
* @return 0 on success; On fail return -1 and set errno
*/
RHASH_API int rhash_update(rhash ctx, const void* message, size_t length);
/**
* Hash a file or stream. Multiple hashes can be computed.
* First, inintialize ctx parameter with rhash_init() before calling
* rhash_file_update(). Then use rhash_final() and rhash_print()
* to retrive hash values. Finaly call rhash_free() on ctx
* to free allocated memory or call rhash_reset() to reuse ctx.
*
* @param ctx rhash context
* @param fd descriptor of the file to hash
* @return 0 on success, -1 on error and errno is set
*/
RHASH_API int rhash_file_update(rhash ctx, FILE* fd);
/**
* Finalize hash calculation and optionally store the first hash.
*
* @param ctx the rhash context
* @param first_result optional buffer to store a calculated hash with the lowest available id
* @return 0 on success; On fail return -1 and set errno
*/
RHASH_API int rhash_final(rhash ctx, unsigned char* first_result);
/**
* Re-initialize RHash context to reuse it.
* Useful to speed up processing of many small messages.
*
* @param ctx context to reinitialize
*/
RHASH_API void rhash_reset(rhash ctx);
/**
* Free RHash context memory.
*
* @param ctx the context to free.
*/
RHASH_API void rhash_free(rhash ctx);
/**
* Set the callback function to be called from the
* rhash_file() and rhash_file_update() functions
* on processing every file block. The file block
* size is set internally by rhash and now is 8 KiB.
*
* @param ctx rhash context
* @param callback pointer to the callback function
* @param callback_data pointer to data passed to the callback
*/
RHASH_API void rhash_set_callback(rhash ctx, rhash_callback_t callback, void* callback_data);
/* INFORMATION FUNCTIONS */
/**
* Returns the number of supported hash algorithms.
*
* @return the number of supported hash functions
*/
RHASH_API int rhash_count(void); /* number of supported hashes */
/**
* Returns size of binary digest for given hash algorithm.
*
* @param hash_id the id of hash algorithm
* @return digest size in bytes
*/
RHASH_API int rhash_get_digest_size(unsigned hash_id); /* size of binary message digest */
/**
* Returns length of digest hash string in default output format.
*
* @param hash_id the id of hash algorithm
* @return the length of hash string
*/
RHASH_API int rhash_get_hash_length(unsigned hash_id); /* length of formatted hash string */
/**
* Detect default digest output format for given hash algorithm.
*
* @param hash_id the id of hash algorithm
* @return 1 for base32 format, 0 for hexadecimal
*/
RHASH_API int rhash_is_base32(unsigned hash_id); /* default digest output format */
/**
* Returns a name of given hash algorithm.
*
* @param hash_id the id of hash algorithm
* @return algorithm name
*/
RHASH_API const char* rhash_get_name(unsigned hash_id); /* get hash function name */
/**
* Returns a name part of magnet urn of the given hash algorithm.
* Such magnet_name is used to generate a magnet link of the form
* urn:&lt;magnet_name&gt;=&lt;hash_value&gt;.
*
* @param hash_id the id of hash algorithm
* @return name
*/
RHASH_API const char* rhash_get_magnet_name(unsigned hash_id); /* get name part of magnet urn */
/* HASH SUM OUTPUT INTERFACE */
#if 0
/**
* Flags for printing a hash sum.
*/
enum rhash_print_sum_flags
{
/*
* Print in a default format
*/
RHPR_DEFAULT = 0x0,
/*
* Output as binary message digest
*/
RHPR_RAW = 0x1,
/*
* Print as a hexadecimal string
*/
RHPR_HEX = 0x2,
/*
* Print as a base32-encoded string
*/
RHPR_BASE32 = 0x3,
/*
* Print as a base64-encoded string
*/
RHPR_BASE64 = 0x4,
/*
* Print as an uppercase string. Can be used
* for base32 or hexadecimal format only.
*/
RHPR_UPPERCASE = 0x8,
/*
* Reverse hash bytes. Can be used for GOST hash.
*/
RHPR_REVERSE = 0x10,
/*
* Don't print 'magnet:?' prefix in rhash_print_magnet
*/
RHPR_NO_MAGNET = 0x20,
/*
* Print file size in rhash_print_magnet
*/
RHPR_FILESIZE = 0x40,
/*
* Print as URL-encoded string
*/
RHPR_URLENCODE = 0x80
};
#endif
/**
* Print a text presentation of a given hash sum to the specified buffer.
*
* @param output a buffer to print the hash to
* @param bytes a hash sum to print
* @param size a size of hash sum in bytes
* @param flags a bit-mask controlling how to format the hash sum,
* can be a mix of the flags: RHPR_RAW, RHPR_HEX, RHPR_BASE32,
* RHPR_BASE64, RHPR_URLENCODE, RHPR_UPPERCASE, RHPR_REVERSE
* @return the number of written characters
*/
RHASH_API size_t rhash_print_bytes(char* output,
const unsigned char* bytes, size_t size, int flags);
/**
* Print text presentation of a hash sum with given hash_id to the specified
* output buffer. If the hash_id is zero, then print the hash sum with
* the lowest id stored in the hash context.
* The function call fails if the context doesn't include a hash with the
* given hash_id.
*
* @param output a buffer to print the hash to
* @param ctx algorithms state
* @param hash_id id of the hash sum to print or 0 to print the first hash
* saved in the context.
* @param flags a bitmask controlling how to print the hash. Can contain flags
* RHPR_UPPERCASE, RHPR_HEX, RHPR_BASE32, RHPR_BASE64, etc.
* @return the number of written characters on success or 0 on fail
*/
RHASH_API size_t rhash_print(char* output, rhash ctx, unsigned hash_id,
int flags);
/**
* Print magnet link with given filepath and calculated hash sums into the
* output buffer. The hash_mask can limit which hash values will be printed.
* The function returns the size of the required buffer.
* If output is NULL the .
*
* @param output a string buffer to receive the magnet link or NULL
* @param filepath the file path to be printed or NULL
* @param context algorithms state
* @param hash_mask bit mask of the hash sums to add to the link
* @param flags can be combination of bits RHPR_UPPERCASE, RHPR_NO_MAGNET,
* RHPR_FILESIZE
* @return number of written characters, including terminating '\0' on success, 0 on fail
*/
RHASH_API size_t rhash_print_magnet(char* output, const char* filepath,
rhash context, unsigned hash_mask, int flags);
/* MESSAGE API */
/**
* The type of an unsigned integer large enough to hold a pointer.
*/
#if defined(UINTPTR_MAX)
typedef uintptr_t rhash_uptr_t;
#elif defined(_LP64) || defined(__LP64__) || defined(__x86_64) || \
defined(__x86_64__) || defined(_M_AMD64) || defined(_M_X64)
typedef unsigned long long rhash_uptr_t;
#else
typedef unsigned long rhash_uptr_t;
#endif
/**
* The value returned by rhash_transmit on error.
*/
#define RHASH_ERROR ((rhash_uptr_t)-1)
/**
* Convert a pointer to rhash_uptr_t.
*/
#define RHASH_STR2UPTR(str) ((rhash_uptr_t)(char*)(str))
/**
* Convert a rhash_uptr_t to a void* pointer.
*/
#define RHASH_UPTR2PVOID(u) ((void*)((u) + 0))
/**
* Process a rhash message.
*
* @param msg_id message identifier
* @param dst message destination (can be NULL for generic messages)
* @param ldata data depending on message
* @param rdata data depending on message
* @return message-specific data
*/
RHASH_API rhash_uptr_t rhash_transmit(
unsigned msg_id, void* dst, rhash_uptr_t ldata, rhash_uptr_t rdata);
/* rhash message constants */
#define RMSG_GET_CONTEXT 1
#define RMSG_CANCEL 2
#define RMSG_IS_CANCELED 3
#define RMSG_GET_FINALIZED 4
#define RMSG_SET_AUTOFINAL 5
#define RMSG_SET_OPENSSL_MASK 10
#define RMSG_GET_OPENSSL_MASK 11
#define RMSG_GET_OPENSSL_SUPPORTED_MASK 12
#define RMSG_GET_OPENSSL_AVAILABLE_MASK 13
/* HELPER MACROS */
/**
* Get a pointer to context of the specified hash function.
*/
#define rhash_get_context_ptr(ctx, hash_id) RHASH_UPTR2PVOID(rhash_transmit(RMSG_GET_CONTEXT, ctx, hash_id, 0))
/**
* Cancel hash calculation of a file.
*/
#define rhash_cancel(ctx) rhash_transmit(RMSG_CANCEL, ctx, 0, 0)
/**
* Return non-zero if hash calculation was canceled, zero otherwise.
*/
#define rhash_is_canceled(ctx) rhash_transmit(RMSG_IS_CANCELED, ctx, 0, 0)
/**
* Return non-zero if rhash_final was called for rhash_context.
*/
#define rhash_get_finalized(ctx) rhash_transmit(RMSG_GET_FINALIZED, ctx, 0, 0)
/**
* Turn on/off the auto-final flag for the given rhash_context. By default
* auto-final is on, which means rhash_final is called automatically, if
* needed when a hash value is retrieved by rhash_print call.
*/
#define rhash_set_autofinal(ctx, on) rhash_transmit(RMSG_SET_AUTOFINAL, ctx, on, 0)
/**
* Set the bit-mask of hash algorithms to be calculated by OpenSSL library.
* The call rhash_set_openssl_mask(0) made before rhash_library_init(),
* turns off loading of the OpenSSL dynamic library.
* This call works if the LibRHash was compiled with OpenSSL support.
*/
#define rhash_set_openssl_mask(mask) rhash_transmit(RMSG_SET_OPENSSL_MASK, NULL, mask, 0)
/**
* Return current bit-mask of hash algorithms selected to be calculated by OpenSSL
* library. Return RHASH_ERROR if LibRHash is compiled without OpenSSL support.
*/
#define rhash_get_openssl_mask() rhash_transmit(RMSG_GET_OPENSSL_MASK, NULL, 0, 0)
/**
* Return the bit-mask of algorithms that can be provided by the OpenSSL plugin,
* if the library is compiled with OpenSSL support, 0 otherwise. This bit-mask is
* a constant value computed at compile-time.
*/
#define rhash_get_openssl_supported_mask() rhash_transmit(RMSG_GET_OPENSSL_SUPPORTED_MASK, NULL, 0, 0)
/**
* Return the bit-mask of algorithms that are successfully loaded from
* OpenSSL library. If the library is not loaded or not supported by LibRHash,
* then return 0.
*/
#define rhash_get_openssl_available_mask() rhash_transmit(RMSG_GET_OPENSSL_AVAILABLE_MASK, NULL, 0, 0)
/**
* Return non-zero if LibRHash hash been compiled with OpenSSL support,
* and zero otherwise.
*/
#define rhash_is_openssl_supported() (rhash_get_openssl_mask() != RHASH_ERROR)
/**
* Legacy macro. The bit mask of hash algorithms implemented by OpenSSL.
*/
# define RHASH_OPENSSL_SUPPORTED_HASHES (rhash_get_openssl_supported_mask())
#ifdef __cplusplus
} /* extern "C" */
#endif /* __cplusplus */
#endif /* RHASH_H */