From eca49bb06a71980ef61d078904573f25890fc7f2 Mon Sep 17 00:00:00 2001 From: zautrix Date: Tue, 19 Oct 2004 20:16:14 +0000 Subject: Initial revision --- (limited to 'pwmanager/libcrypt/crypt/gcrypt.h') diff --git a/pwmanager/libcrypt/crypt/gcrypt.h b/pwmanager/libcrypt/crypt/gcrypt.h new file mode 100644 index 0000000..49ac53f --- a/dev/null +++ b/pwmanager/libcrypt/crypt/gcrypt.h @@ -0,0 +1,1497 @@ +/* gcrypt.h - GNU cryptographic library interface + * Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004 + * 2004 Free Software Foundation, Inc. + * + * This file is part of Libgcrypt. + * + * Libgcrypt is free software; you can redistribute it and/or modify + * it under the terms of the GNU Lesser General Public License as + * published by the Free Software Foundation; either version 2.1 of + * the License, or (at your option) any later version. + * + * Libgcrypt is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU Lesser General Public License for more details. + * + * You should have received a copy of the GNU Lesser General Public + * License along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA + */ + +#ifndef _GCRYPT_H +#define _GCRYPT_H + +#include +#include + +#include + +#include +#include + +/* This is required for error code compatibility. */ +#define _GCRY_ERR_SOURCE_DEFAULT GPG_ERR_SOURCE_GCRYPT + +#ifdef __cplusplus +extern "C" { +#if 0 /* keep Emacsens' auto-indent happy */ +} +#endif +#endif + +/* The version of this header should match the one of the library. It + should not be used by a program because gcry_check_version() should + return the same version. The purpose of this macro is to let + autoconf (using the AM_PATH_GCRYPT macro) check that this header + matches the installed library. Note: Do not edit the next line as + configure may fix the string here. */ +#define GCRYPT_VERSION "1.2.0" + +/* Internal: We can't use the convenience macros for the multi + precision integer functions when building this library. */ +#ifdef _GCRYPT_IN_LIBGCRYPT +#ifndef GCRYPT_NO_MPI_MACROS +#define GCRYPT_NO_MPI_MACROS 1 +#endif +#endif + +/* We want to use gcc attributes when possible. Warning: Don't use + these macros in your programs: As indicated by the leading + underscore they are subject to change without notice. */ +#ifdef __GNUC__ + +#define _GCRY_GCC_VERSION (__GNUC__ * 10000 \ + + __GNUC_MINOR__ * 100 \ + + __GNUC_PATCHLEVEL__) + +#if _GCRY_GCC_VERSION >= 30100 +#define _GCRY_GCC_ATTR_DEPRECATED __attribute__ ((__deprecated__)) +#endif + +#if _GCRY_GCC_VERSION >= 29600 +#define _GCRY_GCC_ATTR_PURE __attribute__ ((__pure__)) +#endif + +#if _GCRY_GCC_VERSION >= 300200 +#define _GCRY_GCC_ATTR_MALLOC __attribute__ ((__malloc__)) +#endif + +#endif /*__GNUC__*/ + +#ifndef _GCRY_GCC_ATTR_DEPRECATED +#define _GCRY_GCC_ATTR_DEPRECATED +#endif +#ifndef _GCRY_GCC_ATTR_PURE +#define _GCRY_GCC_ATTR_PURE +#endif +#ifndef _GCRY_GCC_ATTR_MALLOC +#define _GCRY_GCC_ATTR_MALLOC +#endif + +/* Wrappers for the libgpg-error library. */ + +typedef gpg_error_t gcry_error_t; +typedef gpg_err_code_t gcry_err_code_t; +typedef gpg_err_source_t gcry_err_source_t; + +static GPG_ERR_INLINE gcry_error_t +gcry_err_make (gcry_err_source_t source, gcry_err_code_t code) +{ + return gpg_err_make (source, code); +} + +/* The user can define GPG_ERR_SOURCE_DEFAULT before including this + file to specify a default source for gpg_error. */ +#ifndef GCRY_ERR_SOURCE_DEFAULT +#define GCRY_ERR_SOURCE_DEFAULT GPG_ERR_SOURCE_USER_1 +#endif + +static GPG_ERR_INLINE gcry_error_t +gcry_error (gcry_err_code_t code) +{ + return gcry_err_make (GCRY_ERR_SOURCE_DEFAULT, code); +} + +static GPG_ERR_INLINE gcry_err_code_t +gcry_err_code (gcry_error_t err) +{ + return gpg_err_code (err); +} + + +static GPG_ERR_INLINE gcry_err_source_t +gcry_err_source (gcry_error_t err) +{ + return gpg_err_source (err); +} + +/* Return a pointer to a string containing a description of the error + code in the error value ERR. */ +const char *gcry_strerror (gcry_error_t err); + +/* Return a pointer to a string containing a description of the error + source in the error value ERR. */ +const char *gcry_strsource (gcry_error_t err); + +/* Retrieve the error code for the system error ERR. This returns + GPG_ERR_UNKNOWN_ERRNO if the system error is not mapped (report + this). */ +gcry_err_code_t gcry_err_code_from_errno (int err); + +/* Retrieve the system error for the error code CODE. This returns 0 + if CODE is not a system error code. */ +int gcry_err_code_to_errno (gcry_err_code_t code); + +/* Return an error value with the error source SOURCE and the system + error ERR. */ +gcry_error_t gcry_err_make_from_errno (gcry_err_source_t source, int err); + +/* Return an error value with the system error ERR. */ +gcry_err_code_t gcry_error_from_errno (int err); + + +enum gcry_thread_option + { + GCRY_THREAD_OPTION_DEFAULT = 0, + GCRY_THREAD_OPTION_USER = 1, + GCRY_THREAD_OPTION_PTH = 2, + GCRY_THREAD_OPTION_PTHREAD = 3 + }; + +/* Wrapper for struct ath_ops. */ +struct gcry_thread_cbs +{ + enum gcry_thread_option option; + int (*init) (void); + int (*mutex_init) (void **priv); + int (*mutex_destroy) (void **priv); + int (*mutex_lock) (void **priv); + int (*mutex_unlock) (void **priv); + ssize_t (*read) (int fd, void *buf, size_t nbytes); + ssize_t (*write) (int fd, const void *buf, size_t nbytes); + ssize_t (*select) (int nfd, fd_set *rset, fd_set *wset, fd_set *eset, + struct timeval *timeout); + ssize_t (*waitpid) (pid_t pid, int *status, int options); + int (*accept) (int s, struct sockaddr *addr, socklen_t *length_ptr); + int (*connect) (int s, struct sockaddr *addr, socklen_t length); + int (*sendmsg) (int s, const struct msghdr *msg, int flags); + int (*recvmsg) (int s, struct msghdr *msg, int flags); +}; + +#define GCRY_THREAD_OPTION_PTH_IMPL \ +static int gcry_pth_init (void) \ +{ return (pth_init () == FALSE) ? errno : 0; } \ +static int gcry_pth_mutex_init (void **priv) \ +{ \ + int err = 0; \ + pth_mutex_t *lock = malloc (sizeof (pth_mutex_t)); \ + \ + if (!lock) \ + err = ENOMEM; \ + if (!err) \ + { \ + err = pth_mutex_init (lock); \ + if (err == FALSE) \ + err = errno; \ + else \ + err = 0; \ + if (err) \ + free (lock); \ + else \ + *priv = lock; \ + } \ + return err; \ +} \ +static int gcry_pth_mutex_destroy (void **lock) \ + { /* GNU Pth has no destructor function. */ free (*lock); return 0; } \ +static int gcry_pth_mutex_lock (void **lock) \ + { return ((pth_mutex_acquire (*lock, 0, NULL)) == FALSE) \ + ? errno : 0; } \ +static int gcry_pth_mutex_unlock (void **lock) \ + { return ((pth_mutex_release (*lock)) == FALSE) \ + ? errno : 0; } \ +static ssize_t gcry_pth_read (int fd, void *buf, size_t nbytes) \ + { return pth_read (fd, buf, nbytes); } \ +static ssize_t gcry_pth_write (int fd, const void *buf, size_t nbytes) \ + { return pth_write (fd, buf, nbytes); } \ +static ssize_t gcry_pth_select (int nfd, fd_set *rset, fd_set *wset, \ + fd_set *eset, struct timeval *timeout) \ + { return pth_select (nfd, rset, wset, eset, timeout); } \ +static ssize_t gcry_pth_waitpid (pid_t pid, int *status, int options) \ + { return pth_waitpid (pid, status, options); } \ +static int gcry_pth_accept (int s, struct sockaddr *addr, \ + socklen_t *length_ptr) \ + { return pth_accept (s, addr, length_ptr); } \ +static int gcry_pth_connect (int s, struct sockaddr *addr, socklen_t length) \ + { return pth_connect (s, addr, length); } \ + \ +/* FIXME: GNU Pth is missing pth_sendmsg and pth_recvmsg. */ \ +static struct gcry_thread_cbs gcry_threads_pth = { GCRY_THREAD_OPTION_PTH, \ + gcry_pth_init, gcry_pth_mutex_init, gcry_pth_mutex_destroy, \ + gcry_pth_mutex_lock, gcry_pth_mutex_unlock, gcry_pth_read, gcry_pth_write, \ + gcry_pth_select, gcry_pth_waitpid, gcry_pth_accept, gcry_pth_connect } + +#define GCRY_THREAD_OPTION_PTHREAD_IMPL \ +static int gcry_pthread_mutex_init (void **priv) \ +{ \ + int err = 0; \ + pthread_mutex_t *lock = malloc (sizeof (pthread_mutex_t)); \ + \ + if (!lock) \ + err = ENOMEM; \ + if (!err) \ + { \ + err = pthread_mutex_init (lock, NULL); \ + if (err) \ + free (lock); \ + else \ + *priv = lock; \ + } \ + return err; \ +} \ +static int gcry_pthread_mutex_destroy (void **lock) \ + { int err = pthread_mutex_destroy (*lock); free (*lock); return err; } \ +static int gcry_pthread_mutex_lock (void **lock) \ + { return pthread_mutex_lock (*lock); } \ +static int gcry_pthread_mutex_unlock (void **lock) \ + { return pthread_mutex_unlock (*lock); } \ + \ +static struct gcry_thread_cbs gcry_threads_pthread = \ +{ GCRY_THREAD_OPTION_PTHREAD, NULL, \ + gcry_pthread_mutex_init, gcry_pthread_mutex_destroy, \ + gcry_pthread_mutex_lock, gcry_pthread_mutex_unlock } + + +/* The data object used to hold a multi precision integer. */ +struct gcry_mpi; +typedef struct gcry_mpi *gcry_mpi_t; + +typedef struct gcry_mpi *GCRY_MPI _GCRY_GCC_ATTR_DEPRECATED; +typedef struct gcry_mpi *GcryMPI _GCRY_GCC_ATTR_DEPRECATED; + + + +/* Check that the library fulfills the version requirement. */ +const char *gcry_check_version (const char *req_version); + +/* Codes for function dispatchers. */ + +/* Codes used with the gcry_control function. */ +enum gcry_ctl_cmds + { + GCRYCTL_SET_KEY = 1, + GCRYCTL_SET_IV = 2, + GCRYCTL_CFB_SYNC = 3, + GCRYCTL_RESET = 4, /* e.g. for MDs */ + GCRYCTL_FINALIZE = 5, + GCRYCTL_GET_KEYLEN = 6, + GCRYCTL_GET_BLKLEN = 7, + GCRYCTL_TEST_ALGO = 8, + GCRYCTL_IS_SECURE = 9, + GCRYCTL_GET_ASNOID = 10, + GCRYCTL_ENABLE_ALGO = 11, + GCRYCTL_DISABLE_ALGO = 12, + GCRYCTL_DUMP_RANDOM_STATS = 13, + GCRYCTL_DUMP_SECMEM_STATS = 14, + GCRYCTL_GET_ALGO_NPKEY = 15, + GCRYCTL_GET_ALGO_NSKEY = 16, + GCRYCTL_GET_ALGO_NSIGN = 17, + GCRYCTL_GET_ALGO_NENCR = 18, + GCRYCTL_SET_VERBOSITY = 19, + GCRYCTL_SET_DEBUG_FLAGS = 20, + GCRYCTL_CLEAR_DEBUG_FLAGS = 21, + GCRYCTL_USE_SECURE_RNDPOOL= 22, + GCRYCTL_DUMP_MEMORY_STATS = 23, + GCRYCTL_INIT_SECMEM = 24, + GCRYCTL_TERM_SECMEM = 25, + GCRYCTL_DISABLE_SECMEM_WARN = 27, + GCRYCTL_SUSPEND_SECMEM_WARN = 28, + GCRYCTL_RESUME_SECMEM_WARN = 29, + GCRYCTL_DROP_PRIVS = 30, + GCRYCTL_ENABLE_M_GUARD = 31, + GCRYCTL_START_DUMP = 32, + GCRYCTL_STOP_DUMP = 33, + GCRYCTL_GET_ALGO_USAGE = 34, + GCRYCTL_IS_ALGO_ENABLED = 35, + GCRYCTL_DISABLE_INTERNAL_LOCKING = 36, + GCRYCTL_DISABLE_SECMEM = 37, + GCRYCTL_INITIALIZATION_FINISHED = 38, + GCRYCTL_INITIALIZATION_FINISHED_P = 39, + GCRYCTL_ANY_INITIALIZATION_P = 40, + GCRYCTL_SET_CBC_CTS = 41, + GCRYCTL_SET_CBC_MAC = 42, + GCRYCTL_SET_CTR = 43, + GCRYCTL_ENABLE_QUICK_RANDOM = 44, + GCRYCTL_SET_RANDOM_SEED_FILE = 45, + GCRYCTL_UPDATE_RANDOM_SEED_FILE = 46, + GCRYCTL_SET_THREAD_CBS = 47 + }; + +/* Perform various operations defined by CMD. */ +gcry_error_t gcry_control (enum gcry_ctl_cmds CMD, ...); + + +/* S-expression management. */ + +/* The object to represent an S-expression as used with the public key + functions. */ +struct gcry_sexp; +typedef struct gcry_sexp *gcry_sexp_t; + +typedef struct gcry_sexp *GCRY_SEXP _GCRY_GCC_ATTR_DEPRECATED; +typedef struct gcry_sexp *GcrySexp _GCRY_GCC_ATTR_DEPRECATED; + +/* The possible values for the S-expression format. */ +enum gcry_sexp_format + { + GCRYSEXP_FMT_DEFAULT = 0, + GCRYSEXP_FMT_CANON = 1, + GCRYSEXP_FMT_BASE64 = 2, + GCRYSEXP_FMT_ADVANCED = 3 + }; + +/* Create an new S-expression object from BUFFER of size LENGTH and + return it in RETSEXP. With AUTODETECT set to 0 the data in BUFFER + is expected to be in canonized format. */ +gcry_error_t gcry_sexp_new (gcry_sexp_t *retsexp, + const void *buffer, size_t length, + int autodetect); + + /* Same as gcry_sexp_new but allows to pass a FREEFNC which has the + effect to transfer ownership of BUFFER to the created object. */ +gcry_error_t gcry_sexp_create (gcry_sexp_t *retsexp, + void *buffer, size_t length, + int autodetect, void (*freefnc) (void *)); + +/* Scan BUFFER and return a new S-expression object in RETSEXP. This + function expects a printf like string in BUFFER. */ +gcry_error_t gcry_sexp_sscan (gcry_sexp_t *retsexp, size_t *erroff, + const char *buffer, size_t length); + +/* Same as gcry_sexp_sscan but expects a string in FORMAT and can thus + only be used for certain encodings. */ +gcry_error_t gcry_sexp_build (gcry_sexp_t *retsexp, size_t *erroff, + const char *format, ...); + +/* Like gcry_sexp_build, but uses an array instead of variable + function arguments. */ +gcry_error_t gcry_sexp_build_array (gcry_sexp_t *retsexp, size_t *erroff, + const char *format, void **arg_list); + +/* Release the S-expression object SEXP */ +void gcry_sexp_release (gcry_sexp_t sexp); + +/* Calculate the length of an canonized S-expresion in BUFFER and + check for a valid encoding. */ +size_t gcry_sexp_canon_len (const unsigned char *buffer, size_t length, + size_t *erroff, gcry_error_t *errcode); + +/* Copies the S-expression object SEXP into BUFFER using the format + specified in MODE. */ +size_t gcry_sexp_sprint (gcry_sexp_t sexp, int mode, char *buffer, + size_t maxlength); + +/* Dumps the S-expression object A in a aformat suitable for debugging + to Libgcrypt's logging stream. */ +void gcry_sexp_dump (const gcry_sexp_t a); + +gcry_sexp_t gcry_sexp_cons (const gcry_sexp_t a, const gcry_sexp_t b); +gcry_sexp_t gcry_sexp_alist (const gcry_sexp_t *array); +gcry_sexp_t gcry_sexp_vlist (const gcry_sexp_t a, ...); +gcry_sexp_t gcry_sexp_append (const gcry_sexp_t a, const gcry_sexp_t n); +gcry_sexp_t gcry_sexp_prepend (const gcry_sexp_t a, const gcry_sexp_t n); + +/* Scan the S-expression for a sublist with a type (the car of the + list) matching the string TOKEN. If TOKLEN is not 0, the token is + assumed to be raw memory of this length. The function returns a + newly allocated S-expression consisting of the found sublist or + `NULL' when not found. */ +gcry_sexp_t gcry_sexp_find_token (gcry_sexp_t list, + const char *tok, size_t toklen); +/* Return the length of the LIST. For a valid S-expression this + should be at least 1. */ +int gcry_sexp_length (const gcry_sexp_t list); + +/* Create and return a new S-expression from the element with index + NUMBER in LIST. Note that the first element has the index 0. If + there is no such element, `NULL' is returned. */ +gcry_sexp_t gcry_sexp_nth (const gcry_sexp_t list, int number); + +/* Create and return a new S-expression from the first element in + LIST; this called the "type" and should always exist and be a + string. `NULL' is returned in case of a problem. */ +gcry_sexp_t gcry_sexp_car (const gcry_sexp_t list); + +/* Create and return a new list form all elements except for the first + one. Note, that this function may return an invalid S-expression + because it is not guaranteed, that the type exists and is a string. + However, for parsing a complex S-expression it might be useful for + intermediate lists. Returns `NULL' on error. */ +gcry_sexp_t gcry_sexp_cdr (const gcry_sexp_t list); + +gcry_sexp_t gcry_sexp_cadr (const gcry_sexp_t list); + + +/* This function is used to get data from a LIST. A pointer to the + actual data with index NUMBER is returned and the length of this + data will be stored to DATALEN. If there is no data at the given + index or the index represents another list, `NULL' is returned. + *Note:* The returned pointer is valid as long as LIST is not + modified or released. */ +const char *gcry_sexp_nth_data (const gcry_sexp_t list, int number, + size_t *datalen); + +/* This function is used to get and convert data from a LIST. This + data is assumed to be an MPI stored in the format described by + MPIFMT and returned as a standard Libgcrypt MPI. The caller must + release this returned value using `gcry_mpi_release'. If there is + no data at the given index, the index represents a list or the + value can't be converted to an MPI, `NULL' is returned. */ +gcry_mpi_t gcry_sexp_nth_mpi (gcry_sexp_t list, int number, int mpifmt); + + + +/******************************************* + * * + * multi precision integer functions * + * * + *******************************************/ + +/* Different formats of external big integer representation. */ +enum gcry_mpi_format + { + GCRYMPI_FMT_NONE= 0, + GCRYMPI_FMT_STD = 1, /* twos complement stored without length */ + GCRYMPI_FMT_PGP = 2, /* As used by OpenPGP (only defined as unsigned)*/ + GCRYMPI_FMT_SSH = 3, /* As used by SSH (same as 1 but with length)*/ + GCRYMPI_FMT_HEX = 4, /* hex format */ + GCRYMPI_FMT_USG = 5 /* like STD but this is an unsigned one */ + }; + +/* Flags used for creating big integers. */ +enum gcry_mpi_flag + { + GCRYMPI_FLAG_SECURE = 1, /* Allocate the number in "secure" memory. */ + GCRYMPI_FLAG_OPAQUE = 2 /* The number is not a real one but just a + way to store some bytes. This is + useful for encrypted big integers. */ + }; + + +/* Allocate a new big integer object, initialize it with 0 and + initially allocate memory for a number of at least NBITS. */ +gcry_mpi_t gcry_mpi_new (unsigned int nbits); + +/* Same as gcry_mpi_new() but allocate in "secure" memory. */ +gcry_mpi_t gcry_mpi_snew (unsigned int nbits); + +/* Release the number A and free all associated resources. */ +void gcry_mpi_release (gcry_mpi_t a); + +/* Create a new number with the same value as A. */ +gcry_mpi_t gcry_mpi_copy (const gcry_mpi_t a); + +/* Store the big integer value U in W. */ +gcry_mpi_t gcry_mpi_set (gcry_mpi_t w, const gcry_mpi_t u); + +/* Store the unsigned integer value U in W. */ +gcry_mpi_t gcry_mpi_set_ui (gcry_mpi_t w, unsigned long u); + +/* Swap the values of A and B. */ +void gcry_mpi_swap (gcry_mpi_t a, gcry_mpi_t b); + +/* Compare the big integer number U and V returning 0 for equality, a + positive value for U > V and a negative for U < V. */ +int gcry_mpi_cmp (const gcry_mpi_t u, const gcry_mpi_t v); + +/* Compare the big integer number U with the unsigned integer V + returning 0 for equality, a positive value for U > V and a negative + for U < V. */ +int gcry_mpi_cmp_ui (const gcry_mpi_t u, unsigned long v); + +/* Convert the external representation of an integer stored in BUFFER + with a length of BUFLEN into a newly create MPI returned in + RET_MPI. If NSCANNED is not NULL, it will receive the number of + bytes actually scanned after a successful operation. */ +gcry_error_t gcry_mpi_scan (gcry_mpi_t *ret_mpi, enum gcry_mpi_format format, + const unsigned char *buffer, size_t buflen, + size_t *nscanned); + +/* Convert the big integer A into the external representation + described by FORMAT and store it in the provided BUFFER which has + been allocated by the user with a size of BUFLEN bytes. NWRITTEN + receives the actual length of the external representation unless it + has been passed as NULL. */ +gcry_error_t gcry_mpi_print (enum gcry_mpi_format format, + unsigned char *buffer, size_t buflen, + size_t *nwritten, + const gcry_mpi_t a); + +/* Convert the big integer A int the external representation described + by FORMAT and store it in a newly allocated buffer which address + will be put into BUFFER. NWRITTEN receives the actual lengths of the + external representation. */ +gcry_error_t gcry_mpi_aprint (enum gcry_mpi_format format, + unsigned char **buffer, size_t *nwritten, + const gcry_mpi_t a); + +/* Dump the value of A in a format suitable for debugging to + Libgcrypt's logging stream. Note that one leading space but no + trailing space or linefeed will be printed. It is okay to pass + NULL for A. */ +void gcry_mpi_dump (const gcry_mpi_t a); + + +/* W = U + V. */ +void gcry_mpi_add (gcry_mpi_t w, gcry_mpi_t u, gcry_mpi_t v); + +/* W = U + V. V is an unsigned integer. */ +void gcry_mpi_add_ui (gcry_mpi_t w, gcry_mpi_t u, unsigned long v); + +/* W = U + V mod M. */ +void gcry_mpi_addm (gcry_mpi_t w, gcry_mpi_t u, gcry_mpi_t v, gcry_mpi_t m); + +/* W = U - V. */ +void gcry_mpi_sub (gcry_mpi_t w, gcry_mpi_t u, gcry_mpi_t v); + +/* W = U - V. V is an unsigned integer. */ +void gcry_mpi_sub_ui (gcry_mpi_t w, gcry_mpi_t u, unsigned long v ); + +/* W = U - V mod M */ +void gcry_mpi_subm (gcry_mpi_t w, gcry_mpi_t u, gcry_mpi_t v, gcry_mpi_t m); + +/* W = U * V. */ +void gcry_mpi_mul (gcry_mpi_t w, gcry_mpi_t u, gcry_mpi_t v); + +/* W = U * V. V is an unsigned integer. */ +void gcry_mpi_mul_ui (gcry_mpi_t w, gcry_mpi_t u, unsigned long v ); + +/* W = U * V mod M. */ +void gcry_mpi_mulm (gcry_mpi_t w, gcry_mpi_t u, gcry_mpi_t v, gcry_mpi_t m); + +/* W = U * (2 ^ CNT). */ +void gcry_mpi_mul_2exp (gcry_mpi_t w, gcry_mpi_t u, unsigned long cnt); + +/* Q = DIVIDEND / DIVISOR, R = DIVIDEND % DIVISOR, + Q or R may be passed as NULL. ROUND should be negative or 0. */ +void gcry_mpi_div (gcry_mpi_t q, gcry_mpi_t r, + gcry_mpi_t dividend, gcry_mpi_t divisor, int round); + +/* R = DIVIDEND % DIVISOR */ +void gcry_mpi_mod (gcry_mpi_t r, gcry_mpi_t dividend, gcry_mpi_t divisor); + +/* W = B ^ E mod M. */ +void gcry_mpi_powm (gcry_mpi_t w, + const gcry_mpi_t b, const gcry_mpi_t e, + const gcry_mpi_t m); + +/* Set G to the greatest common divisor of A and B. + Return true if the G is 1. */ +int gcry_mpi_gcd (gcry_mpi_t g, gcry_mpi_t a, gcry_mpi_t b); + +/* Set X to the multiplicative inverse of A mod M. + Return true if the value exists. */ +int gcry_mpi_invm (gcry_mpi_t x, gcry_mpi_t a, gcry_mpi_t m); + + +/* Return the number of bits required to represent A. */ +unsigned int gcry_mpi_get_nbits (gcry_mpi_t a); + +/* Return true when bit number N (counting from 0) is set in A. */ +int gcry_mpi_test_bit (gcry_mpi_t a, unsigned int n); + +/* Set bit number N in A. */ +void gcry_mpi_set_bit (gcry_mpi_t a, unsigned int n); + +/* Clear bit number N in A. */ +void gcry_mpi_clear_bit (gcry_mpi_t a, unsigned int n); + +/* Set bit number N in A and clear all bits greater than N. */ +void gcry_mpi_set_highbit (gcry_mpi_t a, unsigned int n); + +/* Clear bit number N in A and all bits greater than N. */ +void gcry_mpi_clear_highbit (gcry_mpi_t a, unsigned int n); + +/* Shift the value of A by N bits to the right and store the result in X. */ +void gcry_mpi_rshift (gcry_mpi_t x, gcry_mpi_t a, unsigned int n); + +/* Store NBITS of the value P points to in A and mark A as an opaque + value. WARNING: Never use an opaque MPI for anything thing else then + gcry_mpi_release, gcry_mpi_get_opaque. */ +gcry_mpi_t gcry_mpi_set_opaque (gcry_mpi_t a, void *p, unsigned int nbits); + +/* Return a pointer to an opaque value stored in A and return its size + in NBITS. Note that the returned pointer is still owned by A and + that the function should never be used for an non-opaque MPI. */ +void *gcry_mpi_get_opaque (gcry_mpi_t a, unsigned int *nbits); + +/* Set the FLAG for the big integer A. Currently only the flag + GCRYMPI_FLAG_SECURE is allowed to convert A into an big intger + stored in "secure" memory. */ +void gcry_mpi_set_flag (gcry_mpi_t a, enum gcry_mpi_flag flag); + +/* Clear FLAG for the big integer A. Note that this function is + currently useless as no flags are allowed. */ +void gcry_mpi_clear_flag (gcry_mpi_t a, enum gcry_mpi_flag flag); + +/* Return true when the FLAG is set for A. */ +int gcry_mpi_get_flag (gcry_mpi_t a, enum gcry_mpi_flag flag); + +/* Unless the GCRYPT_NO_MPI_MACROS is used, provide a couple of + convenience macors for the big integer functions. */ +#ifndef GCRYPT_NO_MPI_MACROS +#define mpi_new(n) gcry_mpi_new( (n) ) +#define mpi_secure_new( n ) gcry_mpi_snew( (n) ) +#define mpi_release(a) \ + do \ + { \ + gcry_mpi_release ((a)); \ + (a) = NULL; \ + } \ + while (0) + +#define mpi_copy( a ) gcry_mpi_copy( (a) ) +#define mpi_set( w, u) gcry_mpi_set( (w), (u) ) +#define mpi_set_ui( w, u) gcry_mpi_set_ui( (w), (u) ) +#define mpi_cmp( u, v ) gcry_mpi_cmp( (u), (v) ) +#define mpi_cmp_ui( u, v ) gcry_mpi_cmp_ui( (u), (v) ) + +#define mpi_add_ui(w,u,v) gcry_mpi_add_ui((w),(u),(v)) +#define mpi_add(w,u,v) gcry_mpi_add ((w),(u),(v)) +#define mpi_addm(w,u,v,m) gcry_mpi_addm ((w),(u),(v),(m)) +#define mpi_sub_ui(w,u,v) gcry_mpi_sub_ui ((w),(u),(v)) +#define mpi_sub(w,u,v) gcry_mpi_sub ((w),(u),(v)) +#define mpi_subm(w,u,v,m) gcry_mpi_subm ((w),(u),(v),(m)) +#define mpi_mul_ui(w,u,v) gcry_mpi_mul_ui ((w),(u),(v)) +#define mpi_mul_2exp(w,u,v) gcry_mpi_mul_2exp ((w),(u),(v)) +#define mpi_mul(w,u,v) gcry_mpi_mul ((w),(u),(v)) +#define mpi_mulm(w,u,v,m) gcry_mpi_mulm ((w),(u),(v),(m)) +#define mpi_powm(w,b,e,m) gcry_mpi_powm ( (w), (b), (e), (m) ) +#define mpi_tdiv(q,r,a,m) gcry_mpi_div ( (q), (r), (a), (m), 0) +#define mpi_fdiv(q,r,a,m) gcry_mpi_div ( (q), (r), (a), (m), -1) +#define mpi_mod(r,a,m) gcry_mpi_mod ((r), (a), (m)) +#define mpi_gcd(g,a,b) gcry_mpi_gcd ( (g), (a), (b) ) +#define mpi_invm(g,a,b) gcry_mpi_invm ( (g), (a), (b) ) + +#define mpi_get_nbits(a) gcry_mpi_get_nbits ((a)) +#define mpi_test_bit(a,b) gcry_mpi_test_bit ((a),(b)) +#define mpi_set_bit(a,b) gcry_mpi_set_bit ((a),(b)) +#define mpi_set_highbit(a,b) gcry_mpi_set_highbit ((a),(b)) +#define mpi_clear_bit(a,b) gcry_mpi_clear_bit ((a),(b)) +#define mpi_clear_highbit(a,b) gcry_mpi_clear_highbit ((a),(b)) +#define mpi_rshift(a,b,c) gcry_mpi_rshift ((a),(b),(c)) + +#define mpi_set_opaque(a,b,c) gcry_mpi_set_opaque( (a), (b), (c) ) +#define mpi_get_opaque(a,b) gcry_mpi_get_opaque( (a), (b) ) +#endif /* GCRYPT_NO_MPI_MACROS */ + + + +/************************************ + * * + * symmetric cipher functions * + * * + ************************************/ + +/* The data object used to hold a handle to an encryption object. */ +struct gcry_cipher_handle; +typedef struct gcry_cipher_handle *gcry_cipher_hd_t; + +typedef struct gcry_cipher_handle *GCRY_CIPHER_HD _GCRY_GCC_ATTR_DEPRECATED; +typedef struct gcry_cipher_handle *GcryCipherHd _GCRY_GCC_ATTR_DEPRECATED; + +/* All symmetric encryption algorithms are identified by their IDs. + More IDs may be registered at runtime. */ +enum gcry_cipher_algos + { + GCRY_CIPHER_NONE = 0, + GCRY_CIPHER_IDEA = 1, + GCRY_CIPHER_3DES = 2, + GCRY_CIPHER_CAST5 = 3, + GCRY_CIPHER_BLOWFISH = 4, + GCRY_CIPHER_SAFER_SK128 = 5, + GCRY_CIPHER_DES_SK = 6, + GCRY_CIPHER_AES = 7, + GCRY_CIPHER_AES192 = 8, + GCRY_CIPHER_AES256 = 9, + GCRY_CIPHER_TWOFISH = 10, + + /* Other cipher numbers are above 300 for OpenPGP reasons. */ + GCRY_CIPHER_ARCFOUR = 301, /* Fully compatible with RSA's RC4 (tm). */ + GCRY_CIPHER_DES = 302, /* Yes, this is single key 56 bit DES. */ + GCRY_CIPHER_TWOFISH128 = 303, + GCRY_CIPHER_SERPENT128 = 304, + GCRY_CIPHER_SERPENT192 = 305, + GCRY_CIPHER_SERPENT256 = 306, + GCRY_CIPHER_RFC2268_40 = 307, /* Ron's Cipher 2 (40 bit). */ + GCRY_CIPHER_RFC2268_128 = 308, /* Ron's Cipher 2 (128 bit). */ + }; + +/* The Rijndael algorithm is basically AES, so provide some macros. */ +#define GCRY_CIPHER_AES128 GCRY_CIPHER_AES +#define GCRY_CIPHER_RIJNDAEL GCRY_CIPHER_AES +#define GCRY_CIPHER_RIJNDAEL128 GCRY_CIPHER_AES128 +#define GCRY_CIPHER_RIJNDAEL192 GCRY_CIPHER_AES192 +#define GCRY_CIPHER_RIJNDAEL256 GCRY_CIPHER_AES256 + +/* The supported encryption modes. Note that not all of them are + supported for each algorithm. */ +enum gcry_cipher_modes + { + GCRY_CIPHER_MODE_NONE = 0, /* Not yet specified. */ + GCRY_CIPHER_MODE_ECB = 1, /* Electronic codebook. */ + GCRY_CIPHER_MODE_CFB = 2, /* Cipher feedback. */ + GCRY_CIPHER_MODE_CBC = 3, /* Cipher block chaining. */ + GCRY_CIPHER_MODE_STREAM = 4, /* Used with stream ciphers. */ + GCRY_CIPHER_MODE_OFB = 5, /* Outer feedback. */ + GCRY_CIPHER_MODE_CTR = 6 /* Counter. */ + }; + +/* Flags used with the open function. */ +enum gcry_cipher_flags + { + GCRY_CIPHER_SECURE = 1, /* Allocate in secure memory. */ + GCRY_CIPHER_ENABLE_SYNC = 2, /* Enable CFB sync mode. */ + GCRY_CIPHER_CBC_CTS = 4, /* Enable CBC cipher text stealing (CTS). */ + GCRY_CIPHER_CBC_MAC = 8 /* Enable CBC message auth. code (MAC). */ + }; + + +/* Create a handle for algorithm ALGO to be used in MODE. FLAGS may + be given as an bitwise OR of the gcry_cipher_flags values. */ +gcry_error_t gcry_cipher_open (gcry_cipher_hd_t *handle, + int algo, int mode, unsigned int flags); + +/* Close the cioher handle H and release all resource. */ +void gcry_cipher_close (gcry_cipher_hd_t h); + +/* Perform various operations on the cipher object H. */ +gcry_error_t gcry_cipher_ctl (gcry_cipher_hd_t h, int cmd, void *buffer, + size_t buflen); + +/* Retrieve various information about the cipher object H. */ +gcry_error_t gcry_cipher_info (gcry_cipher_hd_t h, int what, void *buffer, + size_t *nbytes); + +/* Retrieve various information about the cipher algorithm ALGO. */ +gcry_error_t gcry_cipher_algo_info (int algo, int what, void *buffer, + size_t *nbytes); + +/* Map the cipher algorithm id ALGO to a string representation of that + algorithm name. For unknown algorithms this functions returns an + empty string. */ +const char *gcry_cipher_algo_name (int algo) _GCRY_GCC_ATTR_PURE; + +/* Map the algorithm name NAME to an cipher algorithm ID. Return 0 if + the algorithm name is not known. */ +int gcry_cipher_map_name (const char *name) _GCRY_GCC_ATTR_PURE; + +/* Given an ASN.1 object identifier in standard IETF dotted decimal + format in STRING, return the encryption mode associated with that + OID or 0 if not known or applicable. */ +int gcry_cipher_mode_from_oid (const char *string) _GCRY_GCC_ATTR_PURE; + +/* Encrypt the plaintext of size INLEN in IN using the cipher handle H + into the buffer OUT which has an allocated length of OUTSIZE. For + most algorithms it is possible to pass NULL for in and 0 for INLEN + and do a in-place decryption of the data provided in OUT. */ +gcry_error_t gcry_cipher_encrypt (gcry_cipher_hd_t h, + unsigned char *out, size_t outsize, + const unsigned char *in, size_t inlen); + +/* The counterpart to gcry_cipher_encrypt. */ +gcry_error_t gcry_cipher_decrypt (gcry_cipher_hd_t h, + unsigned char *out, size_t outsize, + const unsigned char *in, size_t inlen); + +/* Set key K of length L for the cipher handle H. (We have to cast + away a const char* here - this catch-all ctl function was probably + not the best choice) */ +#define gcry_cipher_setkey(h,k,l) gcry_cipher_ctl( (h), GCRYCTL_SET_KEY, \ + (char*)(k), (l) ) + +/* Set initialization vector K of length L for the cipher handle H. */ +#define gcry_cipher_setiv(h,k,l) gcry_cipher_ctl( (h), GCRYCTL_SET_IV, \ + (char*)(k), (l) ) + +/* Reset the handle to the state after open. */ +#define gcry_cipher_reset(h) gcry_cipher_ctl ((h), GCRYCTL_RESET, NULL, 0) + +/* Perform the the OpenPGP sync operation if this is enabled for the + cipher handle H. */ +#define gcry_cipher_sync(h) gcry_cipher_ctl( (h), GCRYCTL_CFB_SYNC, \ + NULL, 0 ) + +/* Enable or disable CTS in future calls to gcry_encrypt(). CBC mode only. */ +#define gcry_cipher_cts(h,on) gcry_cipher_ctl( (h), GCRYCTL_SET_CBC_CTS, \ + NULL, on ) + +/* Set counter for CTR mode. (K,L) must denote a buffer of block size + length, or (NULL,0) to set the CTR to the all-zero block. */ +#define gcry_cipher_setctr(h,k,l) gcry_cipher_ctl( (h), GCRYCTL_SET_CTR, \ + (char*)(k), (l) ) + +/* Retrieved the key length used with algorithm A. */ +size_t gcry_cipher_get_algo_keylen (int algo); + +/* Retrieve the block length used with algorithm A. */ +size_t gcry_cipher_get_algo_blklen (int algo); + +/* Return 0 if the algorithm A is available for use. */ +#define gcry_cipher_test_algo(a) \ + gcry_cipher_algo_info( (a), GCRYCTL_TEST_ALGO, NULL, NULL ) + +/* Get a list consisting of the IDs of the loaded cipher modules. If + LIST is zero, write the number of loaded cipher modules to + LIST_LENGTH and return. If LIST is non-zero, the first + *LIST_LENGTH algorithm IDs are stored in LIST, which must be of + according size. In case there are less cipher modules than + *LIST_LENGTH, *LIST_LENGTH is updated to the correct number. */ +gcry_error_t gcry_cipher_list (int *list, int *list_length); + + +/************************************ + * * + * asymmetric cipher functions * + * * + ************************************/ + +/* The algorithms and their IDs we support. */ +enum gcry_pk_algos + { + GCRY_PK_RSA = 1, + GCRY_PK_RSA_E = 2, /* deprecated */ + GCRY_PK_RSA_S = 3, /* deprecated */ + GCRY_PK_ELG_E = 16, /* use only for OpenPGP */ + GCRY_PK_DSA = 17, + GCRY_PK_ELG = 20 + }; + +/* Flags describing usage capabilities of a PK algorithm. */ +#define GCRY_PK_USAGE_SIGN 1 +#define GCRY_PK_USAGE_ENCR 2 + +/* Encrypt the DATA using the public key PKEY and store the result as + a newly created S-expression at RESULT. */ +gcry_error_t gcry_pk_encrypt (gcry_sexp_t *result, + gcry_sexp_t data, gcry_sexp_t pkey); + +/* Decrypt the DATA using the private key SKEY and store the result as + a newly created S-expression at RESULT. */ +gcry_error_t gcry_pk_decrypt (gcry_sexp_t *result, + gcry_sexp_t data, gcry_sexp_t skey); + +/* Sign the DATA using the private key SKEY and store the result as + a newly created S-expression at RESULT. */ +gcry_error_t gcry_pk_sign (gcry_sexp_t *result, + gcry_sexp_t data, gcry_sexp_t skey); + +/* Check the signature SIGVAL on DATA using the public key PKEY. */ +gcry_error_t gcry_pk_verify (gcry_sexp_t sigval, + gcry_sexp_t data, gcry_sexp_t pkey); + +/* Check that private KEY is sane. */ +gcry_error_t gcry_pk_testkey (gcry_sexp_t key); + +/* Generate a new key pair according to the parameters given in + S_PARMS. The new key pair is returned in as an S-expression in + R_KEY. */ +gcry_error_t gcry_pk_genkey (gcry_sexp_t *r_key, gcry_sexp_t s_parms); + +/* Catch all function for miscellaneous operations. */ +gcry_error_t gcry_pk_ctl (int cmd, void *buffer, size_t buflen); + +/* Retrieve information about the public key algorithm ALGO. */ +gcry_error_t gcry_pk_algo_info (int algo, int what, + void *buffer, size_t *nbytes); + +/* Map the public key algorithm id ALGO to a string representation of the + algorithm name. For unknown algorithms this functions returns an + empty string. */ +const char *gcry_pk_algo_name (int algo) _GCRY_GCC_ATTR_PURE; + +/* Map the algorithm NAME to a public key algorithm Id. Return 0 if + the algorithm name is not known. */ +int gcry_pk_map_name (const char* name) _GCRY_GCC_ATTR_PURE; + +/* Return what is commonly referred as the key length for the given + public or private KEY. */ +unsigned int gcry_pk_get_nbits (gcry_sexp_t key) _GCRY_GCC_ATTR_PURE; + +/* Please note that keygrip is still experimental and should not be + used without contacting the author. */ +unsigned char *gcry_pk_get_keygrip (gcry_sexp_t key, unsigned char *array); + +/* Return 0 if the public key algorithm A is available for use. */ +#define gcry_pk_test_algo(a) \ + gcry_pk_algo_info( (a), GCRYCTL_TEST_ALGO, NULL, NULL ) + +/* Get a list consisting of the IDs of the loaded pubkey modules. If + LIST is zero, write the number of loaded pubkey modules to + LIST_LENGTH and return. If LIST is non-zero, the first + *LIST_LENGTH algorithm IDs are stored in LIST, which must be of + according size. In case there are less pubkey modules than + *LIST_LENGTH, *LIST_LENGTH is updated to the correct number. */ +gcry_error_t gcry_pk_list (int *list, int *list_length); + +/* Alternative interface for asymetric cryptography. */ + +/* The algorithm IDs. */ +typedef enum gcry_ac_id + { + GCRY_AC_RSA = 1, + GCRY_AC_DSA = 17, + GCRY_AC_ELG = 20, + GCRY_AC_ELG_E = 16, + } +gcry_ac_id_t; + +/* Key types. */ +typedef enum gcry_ac_key_type + { + GCRY_AC_KEY_SECRET, + GCRY_AC_KEY_PUBLIC, + } +gcry_ac_key_type_t; + +/* AC data. */ +#define GCRY_AC_FLAG_DEALLOC (1 << 0) +#define GCRY_AC_FLAG_COPY (1 << 1) +#define GCRY_AC_FLAG_NO_BLINDING (1 << 2) + +/* This type represents a `data set'. */ +typedef struct gcry_ac_data *gcry_ac_data_t; + +/* This type represents a single `key', either a secret one or a + public one. */ +typedef struct gcry_ac_key *gcry_ac_key_t; + +/* This type represents a `key pair' containing a secret and a public + key. */ +typedef struct gcry_ac_key_pair *gcry_ac_key_pair_t; + +/* This type represents a `handle' that is needed by functions + performing cryptographic operations. */ +typedef struct gcry_ac_handle *gcry_ac_handle_t; + +/* The caller of gcry_ac_key_pair_generate can provide one of these + structures in order to influence the key generation process in an + algorithm-specific way. */ +typedef struct gcry_ac_key_spec_rsa +{ + gcry_mpi_t e; /* E to use. */ +} gcry_ac_key_spec_rsa_t; + +/* Returns a new, empty data set in DATA. */ +gcry_error_t gcry_ac_data_new (gcry_ac_data_t *data); + +/* Destroy the data set DATA. */ +void gcry_ac_data_destroy (gcry_ac_data_t data); + +/* Create a copy of the data set DATA and store it in DATA_CP. */ +gcry_error_t gcry_ac_data_copy (gcry_ac_data_t *data_cp, + gcry_ac_data_t data); + +/* Return the number of named MPI values inside of the data set + DATA. */ +unsigned int gcry_ac_data_length (gcry_ac_data_t data); + +/* Destroy any values contained in the data set DATA. */ +void gcry_ac_data_clear (gcry_ac_data_t data); + +/* Add the value MPI to DATA with the label NAME. If FLAGS contains + GCRY_AC_FLAG_DATA_COPY, the data set will contain copies of NAME + and MPI. If FLAGS contains GCRY_AC_FLAG_DATA_DEALLOC or + GCRY_AC_FLAG_DATA_COPY, the values contained in the data set will + be deallocated when they are to be removed from the data set. */ +gcry_error_t gcry_ac_data_set (gcry_ac_data_t data, unsigned int flags, + const char *name, gcry_mpi_t mpi); + +/* Store the value labelled with NAME found in DATA in MPI. If FLAGS + contains GCRY_AC_FLAG_COPY, store a copy of the MPI value contained + in the data set. MPI may be NULL. */ +gcry_error_t gcry_ac_data_get_name (gcry_ac_data_t data, unsigned int flags, + const char *name, gcry_mpi_t *mpi); + +/* Stores in NAME and MPI the named MPI value contained in the data + set DATA with the index IDX. If FLAGS contains GCRY_AC_FLAG_COPY, + store copies of the values contained in the data set. NAME or MPI + may be NULL. */ +gcry_error_t gcry_ac_data_get_index (gcry_ac_data_t data, unsigned int flags, + unsigned int idx, + const char **name, gcry_mpi_t *mpi); + +/* Create a new ac handle. */ +gcry_error_t gcry_ac_open (gcry_ac_handle_t *handle, + gcry_ac_id_t algorithm, unsigned int flags); + +/* Destroy an ac handle. */ +void gcry_ac_close (gcry_ac_handle_t handle); + +/* Initialize a key from a given data set. */ +gcry_error_t gcry_ac_key_init (gcry_ac_key_t *key, gcry_ac_handle_t handle, + gcry_ac_key_type_t type, gcry_ac_data_t data); + +/* Generates a new key pair via the handle HANDLE of NBITS bits and + stores it in KEY_PAIR. In case non-standard settings are wanted, a + pointer to a structure of type gcry_ac_key_spec__t, + matching the selected algorithm, can be given as KEY_SPEC. + MISC_DATA is not used yet. */ +gcry_error_t gcry_ac_key_pair_generate (gcry_ac_handle_t handle, + unsigned int nbits, void *spec, + gcry_ac_key_pair_t *key_pair, + gcry_mpi_t **misc_data); + +/* Returns the key of type WHICH out of the key pair KEY_PAIR. */ +gcry_ac_key_t gcry_ac_key_pair_extract (gcry_ac_key_pair_t key_pair, + gcry_ac_key_type_t which); + +/* Returns the data set contained in the key KEY. */ +gcry_ac_data_t gcry_ac_key_data_get (gcry_ac_key_t key); + +/* Verifies that the key KEY is sane via HANDLE. */ +gcry_error_t gcry_ac_key_test (gcry_ac_handle_t handle, gcry_ac_key_t key); + +/* Stores the number of bits of the key KEY in NBITS via HANDLE. */ +gcry_error_t gcry_ac_key_get_nbits (gcry_ac_handle_t handle, + gcry_ac_key_t key, unsigned int *nbits); + +/* Writes the 20 byte long key grip of the key KEY to KEY_GRIP via + HANDLE. */ +gcry_error_t gcry_ac_key_get_grip (gcry_ac_handle_t handle, gcry_ac_key_t key, + unsigned char *key_grip); + +/* Destroy a key. */ +void gcry_ac_key_destroy (gcry_ac_key_t key); + +/* Destroy a key pair. */ +void gcry_ac_key_pair_destroy (gcry_ac_key_pair_t key_pair); + +/* Encrypt the plain text MPI value DATA_PLAIN with the key KEY under + the control of the flags FLAGS and store the resulting data set + into DATA_ENCRYPTED. */ +gcry_error_t gcry_ac_data_encrypt (gcry_ac_handle_t handle, + unsigned int flags, + gcry_ac_key_t key, + gcry_mpi_t data_plain, + gcry_ac_data_t *data_encrypted); + +/* Decrypt the decrypted data contained in the data set DATA_ENCRYPTED + with the key KEY under the control of the flags FLAGS and store the + resulting plain text MPI value in DATA_PLAIN. */ +gcry_error_t gcry_ac_data_decrypt (gcry_ac_handle_t handle, + unsigned int flags, + gcry_ac_key_t key, + gcry_mpi_t *data_plain, + gcry_ac_data_t data_encrypted); + +/* Sign the data contained in DATA with the key KEY and store the + resulting signature in the data set DATA_SIGNATURE. */ +gcry_error_t gcry_ac_data_sign (gcry_ac_handle_t handle, + gcry_ac_key_t key, + gcry_mpi_t data, + gcry_ac_data_t *data_signature); + +/* Verify that the signature contained in the data set DATA_SIGNATURE + is indeed the result of signing the data contained in DATA with the + secret key belonging to the public key KEY. */ +gcry_error_t gcry_ac_data_verify (gcry_ac_handle_t handle, + gcry_ac_key_t key, + gcry_mpi_t data, + gcry_ac_data_t data_signature); + +/* Store the textual representation of the algorithm whose id is given + in ALGORITHM in NAME. */ +gcry_error_t gcry_ac_id_to_name (gcry_ac_id_t algorithm, + const char **name); + +/* Store the numeric ID of the algorithm whose textual representation + is contained in NAME in ALGORITHM. */ +gcry_error_t gcry_ac_name_to_id (const char *name, + gcry_ac_id_t *algorithm); + + + +/************************************ + * * + * cryptograhic hash functions * + * * + ************************************/ + +/* Algorithm IDs for the hash functions we know about. Not all of them + are implemnted. */ +enum gcry_md_algos + { + GCRY_MD_NONE = 0, + GCRY_MD_MD5 = 1, + GCRY_MD_SHA1 = 2, + GCRY_MD_RMD160 = 3, + GCRY_MD_MD2 = 5, + GCRY_MD_TIGER = 6, /* TIGER/192. */ + GCRY_MD_HAVAL = 7, /* HAVAL, 5 pass, 160 bit. */ + GCRY_MD_SHA256 = 8, + GCRY_MD_SHA384 = 9, + GCRY_MD_SHA512 = 10, + GCRY_MD_MD4 = 301, + GCRY_MD_CRC32 = 302, + GCRY_MD_CRC32_RFC1510 = 303, + GCRY_MD_CRC24_RFC2440 = 304 + }; + +/* Flags used with the open function. */ +enum gcry_md_flags + { + GCRY_MD_FLAG_SECURE = 1, /* Allocate all buffers in "secure" + memory. */ + GCRY_MD_FLAG_HMAC = 2 /* Make an HMAC out of this + algorithm. */ + }; + +/* Forward declaration. */ +struct gcry_md_context; + +/* This object is used to hold a handle to a message digest object. + This structure is private - only to be used by the public gcry_md_* + macros. */ +typedef struct gcry_md_handle +{ + /* Actual context. */ + struct gcry_md_context *ctx; + + /* Buffer management. */ + int bufpos; + int bufsize; + unsigned char buf[1]; +} *gcry_md_hd_t; + +/* Compatibility types, do not use them. */ +typedef struct gcry_md_handle *GCRY_MD_HD _GCRY_GCC_ATTR_DEPRECATED; +typedef struct gcry_md_handle *GcryMDHd _GCRY_GCC_ATTR_DEPRECATED; + +/* Create a message digest object for algorithm ALGO. FLAGS may be + given as an bitwise OR of the gcry_md_flags values. ALGO may be + given as 0 if the algorithms to be used are later set using + gcry_md_enable. */ +gcry_error_t gcry_md_open (gcry_md_hd_t *h, int algo, unsigned int flags); + +/* Release the message digest object HD. */ +void gcry_md_close (gcry_md_hd_t hd); + +/* Add the message digest algorithm ALGO to the digest object HD. */ +gcry_error_t gcry_md_enable (gcry_md_hd_t hd, int algo); + +/* Create a new digest object as an exact copy of the object HD. */ +gcry_error_t gcry_md_copy (gcry_md_hd_t *bhd, gcry_md_hd_t ahd); + +/* Reset the digest object HD to its initial state. */ +void gcry_md_reset (gcry_md_hd_t hd); + +/* Perform various operations on the digets object HD. */ +gcry_error_t gcry_md_ctl (gcry_md_hd_t hd, int cmd, unsigned char *buffer, + size_t buflen); + +/* Pass LENGTH bytes of data in BUFFER to the digest object HD so that + it can update the digest values. This is the actual hash + function. */ +void gcry_md_write (gcry_md_hd_t hd, const void *buffer, size_t length); + +/* Read out the final digest from HD return the digest value for + algorithm ALGO. */ +unsigned char *gcry_md_read (gcry_md_hd_t hd, int algo); + +/* Convenience function to calculate the hash from the data in BUFFER + of size LENGTH using the algorithm ALGO avoiding the creating of a + hash object. The hash is returned in the caller provided buffer + DIGEST which must be large enough to hold the digest of the given + algorithm. */ +void gcry_md_hash_buffer (int algo, void *digest, + const void *buffer, size_t length); + +/* Retrieve the algorithm used with HD. This does not work reliable + if more than one algorithm is enabled in HD. */ +int gcry_md_get_algo (gcry_md_hd_t hd); + +/* Retrieve the length in bytes of the digest yielded by algorithm + ALGO. */ +unsigned int gcry_md_get_algo_dlen (int algo); + +/* Return true if the the algorithm ALGO is enabled in the digest + object A. */ +int gcry_md_is_enabled (gcry_md_hd_t a, int algo); + +/* Return true if the digest object A is allocated in "secure" memory. */ +int gcry_md_is_secure (gcry_md_hd_t a); + +/* Retrieve various information about the object H. */ +gcry_error_t gcry_md_info (gcry_md_hd_t h, int what, void *buffer, + size_t *nbytes); + +/* Retrieve various information about the algorithm ALGO. */ +gcry_error_t gcry_md_algo_info (int algo, int what, void *buffer, + size_t *nbytes); + +/* Map the digest algorithm id ALGO to a string representation of the + algorithm name. For unknown algorithms this functions returns an + empty string. */ +const char *gcry_md_algo_name (int algo) _GCRY_GCC_ATTR_PURE; + +/* Map the algorithm NAME to a digest algorithm Id. Return 0 if + the algorithm name is not known. */ +int gcry_md_map_name (const char* name) _GCRY_GCC_ATTR_PURE; + +/* For use with the HMAC feature, the set MAC key to the KEY of + KEYLEN. */ +gcry_error_t gcry_md_setkey (gcry_md_hd_t hd, const void *key, size_t keylen); + +/* Update the hash(s) of H with the character C. This is a buffered + version of the gcry_md_write function. */ +#define gcry_md_putc(h,c) \ + do { \ + gcry_md_hd_t h__ = (h); \ + if( (h__)->bufpos == (h__)->bufsize ) \ + gcry_md_write( (h__), NULL, 0 ); \ + (h__)->buf[(h__)->bufpos++] = (c) & 0xff; \ + } while(0) + +/* Finalize the digest calculation. This is not really needed because + gcry_md_read() does this implicitly. */ +#define gcry_md_final(a) \ + gcry_md_ctl ((a), GCRYCTL_FINALIZE, NULL, 0) + +/* Return 0 if the algorithm A is available for use. */ +#define gcry_md_test_algo(a) \ + gcry_md_algo_info( (a), GCRYCTL_TEST_ALGO, NULL, NULL ) + +/* Return an DER encoded ASN.1 OID for the algorithm A in buffer B. N + must point to size_t variable with the available size of buffer B. + After return it will receive the actual size of the returned + OID. */ +#define gcry_md_get_asnoid(a,b,n) \ + gcry_md_algo_info((a), GCRYCTL_GET_ASNOID, (b), (n)) + +/* Enable debugging for digets object A; i.e. create files named + dbgmd-. while hashing. B is a string used as the suffix + for the filename. */ +#define gcry_md_start_debug(a,b) \ + gcry_md_ctl( (a), GCRYCTL_START_DUMP, (b), 0 ) + +/* Disable the debugging of A. */ +#define gcry_md_stop_debug(a,b) \ + gcry_md_ctl( (a), GCRYCTL_STOP_DUMP, (b), 0 ) + +/* Get a list consisting of the IDs of the loaded message digest + modules. If LIST is zero, write the number of loaded message + digest modules to LIST_LENGTH and return. If LIST is non-zero, the + first *LIST_LENGTH algorithm IDs are stored in LIST, which must be + of according size. In case there are less message digest modules + than *LIST_LENGTH, *LIST_LENGTH is updated to the correct + number. */ +gcry_error_t gcry_md_list (int *list, int *list_length); + + +/************************************ + * * + * random generating functions * + * * + ************************************/ + +/* The possible values for the random quality. The rule of thumb is + to use STRONG for session keys and VERY_STRONG for key material. + WEAK is currently an alias for STRONG and should not be used + anymore - use gcry_create_nonce instead. */ +typedef enum gcry_random_level + { + GCRY_WEAK_RANDOM = 0, + GCRY_STRONG_RANDOM = 1, + GCRY_VERY_STRONG_RANDOM = 2 + } +gcry_random_level_t; + +/* Fill BUFFER with LENGTH bytes of random, using random numbers of + quality LEVEL. */ +void gcry_randomize (unsigned char *buffer, size_t length, + enum gcry_random_level level); + +/* Add the external random from BUFFER with LENGTH bytes into the + pool. QUALITY should either be -1 for unknown or in the range of 0 + to 100 */ +gcry_error_t gcry_random_add_bytes (const void *buffer, size_t length, + int quality); + +/* Return NBYTES of allocated random using a random numbers of quality + LEVEL. */ +void *gcry_random_bytes (size_t nbytes, enum gcry_random_level level) + _GCRY_GCC_ATTR_MALLOC; + +/* Return NBYTES of allocated random using a random numbers of quality + LEVEL. The random numbers are created returned in "secure" + memory. */ +void *gcry_random_bytes_secure (size_t nbytes, enum gcry_random_level level) + _GCRY_GCC_ATTR_MALLOC; + + +/* Set the big integer W to a random value of NBITS using a random + generator with quality LEVEL. */ +void gcry_mpi_randomize (gcry_mpi_t w, + unsigned int nbits, enum gcry_random_level level); + + +/* Create an unpredicable nonce of LENGTH bytes in BUFFER. */ +void gcry_create_nonce (unsigned char *buffer, size_t length); + + + +/* Prime interface. */ + +/* Mode values passed to a gcry_prime_check_func_t. */ +#define GCRY_PRIME_CHECK_AT_FINISH 0 +#define GCRY_PRIME_CHECK_AT_GOT_PRIME 1 +#define GCRY_PRIME_CHECK_AT_MAYBE_PRIME 2 + +/* The function should return 1 if the operation shall continue, 0 to + reject the prime candidate. */ +typedef int (*gcry_prime_check_func_t) (void *arg, int mode, + gcry_mpi_t candidate); + +/* Flags for gcry_prime_generate(): */ + +/* Allocate prime numbers and factors in secure memory. */ +#define GCRY_PRIME_FLAG_SECRET (1 << 0) + +/* Make sure that at least one prime factor is of size + `FACTOR_BITS'. */ +#define GCRY_PRIME_FLAG_SPECIAL_FACTOR (1 << 1) + +/* Generate a new prime number of PRIME_BITS bits and store it in + PRIME. If FACTOR_BITS is non-zero, one of the prime factors of + (prime - 1) / 2 must be FACTOR_BITS bits long. If FACTORS is + non-zero, allocate a new, NULL-terminated array holding the prime + factors and store it in FACTORS. FLAGS might be used to influence + the prime number generation process. */ +gcry_error_t gcry_prime_generate (gcry_mpi_t *prime, + unsigned int prime_bits, + unsigned int factor_bits, + gcry_mpi_t **factors, + gcry_prime_check_func_t cb_func, + void *cb_arg, + gcry_random_level_t random_level, + unsigned int flags); + +/* Find a generator for PRIME where the factorization of (prime-1) is + in the NULL terminated array FACTORS. Return the generator as a + newly allocated MPI in R_G. If START_G is not NULL, use this as + teh start for the search. */ +gcry_error_t gcry_prime_group_generator (gcry_mpi_t *r_g, + gcry_mpi_t prime, gcry_mpi_t *factors, + gcry_mpi_t start_g); + + +/* Convenience function to release the FACTORS array. */ +void gcry_prime_release_factors (gcry_mpi_t *factors); + + +/* Check wether the number X is prime. */ +gcry_error_t gcry_prime_check (gcry_mpi_t x, unsigned int flags); + + + +/************************************ + * * + * miscellaneous stuff * + * * + ************************************/ + +/* Log levels used by the internal logging facility. */ +enum gcry_log_levels + { + GCRY_LOG_CONT = 0, /* continue the last log line */ + GCRY_LOG_INFO = 10, + GCRY_LOG_WARN = 20, + GCRY_LOG_ERROR = 30, + GCRY_LOG_FATAL = 40, + GCRY_LOG_BUG = 50, + GCRY_LOG_DEBUG = 100 + }; + +/* Type for progress handlers. */ +typedef void (*gcry_handler_progress_t) (void *, const char *, int, int, int); + +/* Type for memory allocation handlers. */ +typedef void *(*gcry_handler_alloc_t) (size_t n); + +/* Type for secure memory check handlers. */ +typedef int (*gcry_handler_secure_check_t) (const void *); + +/* Type for memory reallocation handlers. */ +typedef void *(*gcry_handler_realloc_t) (void *p, size_t n); + +/* Type for memory free handlers. */ +typedef void (*gcry_handler_free_t) (void *); + +/* Type for out-of-memory handlers. */ +typedef int (*gcry_handler_no_mem_t) (void *, size_t, unsigned int); + +/* Type for fatal error handlers. */ +typedef void (*gcry_handler_error_t) (void *, int, const char *); + +/* Type for logging handlers. */ +typedef void (*gcry_handler_log_t) (void *, int, const char *, va_list); + +/* Certain operations can provide progress information. This function + is used to register a handler for retrieving these information. */ +void gcry_set_progress_handler (gcry_handler_progress_t cb, void *cb_data); + + +/* Register a custom memory allocation functions. */ +void gcry_set_allocation_handler ( + gcry_handler_alloc_t func_alloc, + gcry_handler_alloc_t func_alloc_secure, + gcry_handler_secure_check_t func_secure_check, + gcry_handler_realloc_t func_realloc, + gcry_handler_free_t func_free); + +/* Register a function used instead of the internal out of memory + handler. */ +void gcry_set_outofcore_handler (gcry_handler_no_mem_t h, void *opaque); + +/* Register a function used instead of the internal fatal error + handler. */ +void gcry_set_fatalerror_handler (gcry_handler_error_t fnc, void *opaque); + +/* Register a function used instead of the internal logging + facility. */ +void gcry_set_log_handler (gcry_handler_log_t f, void *opaque); + +/* Reserved for future use. */ +void gcry_set_gettext_handler (const char *(*f)(const char*)); + +/* Libgcrypt uses its own memory allocation. It is important to use + gcry_free () to release memory allocated by libgcrypt. */ +void *gcry_malloc (size_t n) _GCRY_GCC_ATTR_MALLOC; +void *gcry_calloc (size_t n, size_t m) _GCRY_GCC_ATTR_MALLOC; +void *gcry_malloc_secure (size_t n) _GCRY_GCC_ATTR_MALLOC; +void *gcry_calloc_secure (size_t n, size_t m) _GCRY_GCC_ATTR_MALLOC; +void *gcry_realloc (void *a, size_t n); +char *gcry_strdup (const char *string) _GCRY_GCC_ATTR_MALLOC; +void *gcry_xmalloc (size_t n) _GCRY_GCC_ATTR_MALLOC; +void *gcry_xcalloc (size_t n, size_t m) _GCRY_GCC_ATTR_MALLOC; +void *gcry_xmalloc_secure (size_t n) _GCRY_GCC_ATTR_MALLOC; +void *gcry_xcalloc_secure (size_t n, size_t m) _GCRY_GCC_ATTR_MALLOC; +void *gcry_xrealloc (void *a, size_t n); +char *gcry_xstrdup (const char * a) _GCRY_GCC_ATTR_MALLOC; +void gcry_free (void *a); + +/* Return true if A is allocated in "secure" memory. */ +int gcry_is_secure (const void *a) _GCRY_GCC_ATTR_PURE; + +/* Include support for Libgcrypt modules. */ +#include + +#if 0 /* keep Emacsens' auto-indent happy */ +{ +#endif +#ifdef __cplusplus +} +#endif +#endif /* _GCRYPT_H */ -- cgit v0.9.0.2