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 * ModExp / RSA (with/without KM) plugin API
 * The application will load a dynamic library which
 * exports entrypoint(s) defined in this file.
 * This set of entrypoints provides only a multithreaded,
 * synchronous-within-each-thread, facility.
 * This file is Copyright 1998-2000 nCipher Corporation Limited.
 * Redistribution and use in source and binary forms, with opr without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the copyright notice,
 *    this list of conditions, and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above
 *    copyright notice, this list of conditions, and the following
 *    disclaimer, in the documentation and/or other materials provided
 *    with the distribution
 * damages arising directly or indirectly from this file, its use or
 * this licence.  Without prejudice to the generality of the
 * foregoing: all liability shall be excluded for direct, indirect,
 * special, incidental, consequential or other damages or any loss of
 * profits, business, revenue goodwill or anticipated savings;
 * liability shall be excluded even if nCipher or anyone else has been
 * advised of the possibility of damage.  In any event, if the
 * exclusion of liability is not effective, the liability of nCipher
 * or any author or distributor shall be limited to the lesser of the
 * price paid and 1,000 pounds sterling. This licence only fails to
 * exclude or limit liability for death or personal injury arising out
 * of negligence, and only to the extent that such an exclusion or
 * limitation is not effective.
 * limited to, any implied warranties of merchantability, fitness for
 * a particular purpose, satisfactory quality, and/or non-infringement
 * of any third party rights.
 * US Government use: This software and documentation is Commercial
 * Computer Software and Computer Software Documentation, as defined in
 * sub-paragraphs (a)(1) and (a)(5) of DFAR 252.227-7014, "Rights in
 * Noncommercial Computer Software and Noncommercial Computer Software
 * Documentation."  Use, duplication or disclosure by the Government is
 * subject to the terms and conditions specified here.
 * By using or distributing this file you will be accepting these
 * terms and conditions, including the limitation of liability and
 * lack of warranty.  If you do not wish to accept these terms and
 * conditions, DO NOT USE THE FILE.
 * The actual dynamically loadable plugin, and the library files for
 * static linking, which are also provided in some distributions, are
 * not covered by the licence described above.  You should have
 * received a separate licence with terms and conditions for these
 * library files; if you received the library files without a licence,
 * please contact nCipher.
 * $Id: hwcryptohook.h,v 1.1 2002/10/11 17:10:59 levitte Exp $


#include <sys/types.h>
#include <stdio.h>




/* These structs are defined by the application and opaque to the
 * crypto plugin.  The application may define these as it sees fit.
 * Default declarations are provided here, but the application may
 * to prevent these declarations, and instead provide its own
 * declarations of these types.  (Pointers to them must still be
 * ordinary pointers to structs or unions, or the resulting combined
 * program will have a type inconsistency.)
typedef struct HWCryptoHook_MutexValue HWCryptoHook_Mutex;
typedef struct HWCryptoHook_CondVarValue HWCryptoHook_CondVar;
typedef struct HWCryptoHook_PassphraseContextValue HWCryptoHook_PassphraseContext;
typedef struct HWCryptoHook_CallerContextValue HWCryptoHook_CallerContext;


/* These next two structs are opaque to the application.  The crypto
 * plugin will return pointers to them; the caller simply manipulates
 * the pointers.
typedef struct HWCryptoHook_Context *HWCryptoHook_ContextHandle;
typedef struct HWCryptoHook_RSAKey *HWCryptoHook_RSAKeyHandle;

00110 typedef struct {
  char *buf;
  size_t size;
} HWCryptoHook_ErrMsgBuf;
/* Used for error reporting.  When a HWCryptoHook function fails it
 * will return a sentinel value (0 for pointer-valued functions, or a
 * negative number, usually HWCRYPTOHOOK_ERROR_FAILED, for
 * integer-valued ones).  It will, if an ErrMsgBuf is passed, also put
 * an error message there.
 * size is the size of the buffer, and will not be modified.  If you
 * pass 0 for size you must pass 0 for buf, and nothing will be
 * recorded (just as if you passed 0 for the struct pointer).
 * Messages written to the buffer will always be null-terminated, even
 * when truncated to fit within size bytes.
 * The contents of the buffer are not defined if there is no error.

00129 typedef struct HWCryptoHook_MPIStruct {
  unsigned char *buf;
  size_t size;
} HWCryptoHook_MPI;
/* When one of these is returned, a pointer is passed to the function.
 * At call, size is the space available.  Afterwards it is updated to
 * be set to the actual length (which may be more than the space available,
 * if there was not enough room and the result was truncated).
 * buf (the pointer) is not updated.
 * size is in bytes and may be zero at call or return, but must be a
 * multiple of the limb size.  Zero limbs at the MS end are not
 * permitted.

#define HWCryptoHook_InitFlags_FallbackModExp    0x0002UL
#define HWCryptoHook_InitFlags_FallbackRSAImmed  0x0004UL
/* Enable requesting fallback to software in case of problems with the
 * hardware support.  This indicates to the crypto provider that the
 * application is prepared to fall back to software operation if the
 * ModExp* or RSAImmed* functions return HWCRYPTOHOOK_ERROR_FALLBACK.
 * Without this flag those calls will never return
 * HWCRYPTOHOOK_ERROR_FALLBACK.  The flag will also cause the crypto
 * provider to avoid repeatedly attempting to contact dead hardware
 * within a short interval, if appropriate.

#define HWCryptoHook_InitFlags_SimpleForkCheck   0x0010UL
/* Without _SimpleForkCheck the library is allowed to assume that the
 * application will not fork and call the library in the child(ren).
 * When it is specified, this is allowed.  However, after a fork
 * neither parent nor child may unload any loaded keys or call
 * _Finish.  Instead, they should call exit (or die with a signal)
 * without calling _Finish.  After all the children have died the
 * parent may unload keys or call _Finish.
 * This flag only has any effect on UN*X platforms.

00169 typedef struct {
  unsigned long flags;
  void *logstream; /* usually a FILE*.  See below. */

  size_t limbsize; /* bignum format - size of radix type, must be power of 2 */
  int mslimbfirst; /* 0 or 1 */
  int msbytefirst; /* 0 or 1; -1 = native */

  /* All the callback functions should return 0 on success, or a
   * nonzero integer (whose value will be visible in the error message
   * put in the buffer passed to the call).
   * If a callback is not available pass a null function pointer.
   * The callbacks may not call down again into the crypto plugin.
  /* For thread-safety.  Set everything to 0 if you promise only to be
   * singlethreaded.  maxsimultaneous is the number of calls to
   * ModExp[Crt]/RSAImmed{Priv,Pub}/RSA.  If you don't know what to
   * put there then say 0 and the hook library will use a default.
   * maxmutexes is a small limit on the number of simultaneous mutexes
   * which will be requested by the library.  If there is no small
   * limit, set it to 0.  If the crypto plugin cannot create the
   * advertised number of mutexes the calls to its functions may fail.
   * If a low number of mutexes is advertised the plugin will try to
   * do the best it can.  Making larger numbers of mutexes available
   * may improve performance and parallelism by reducing contention
   * over critical sections.  Unavailability of any mutexes, implying
   * single-threaded operation, should be indicated by the setting
   * mutex_init et al to 0.
  int maxmutexes;
  int maxsimultaneous;
  size_t mutexsize;
  int (*mutex_init)(HWCryptoHook_Mutex*, HWCryptoHook_CallerContext *cactx);
  int (*mutex_acquire)(HWCryptoHook_Mutex*);
  void (*mutex_release)(HWCryptoHook_Mutex*);
  void (*mutex_destroy)(HWCryptoHook_Mutex*);

  /* For greater efficiency, can use condition vars internally for
   * synchronisation.  In this case maxsimultaneous is ignored, but
   * the other mutex stuff must be available.  In singlethreaded
   * programs, set everything to 0.
  size_t condvarsize;
  int (*condvar_init)(HWCryptoHook_CondVar*, HWCryptoHook_CallerContext *cactx);
  int (*condvar_wait)(HWCryptoHook_CondVar*, HWCryptoHook_Mutex*);
  void (*condvar_signal)(HWCryptoHook_CondVar*);
  void (*condvar_broadcast)(HWCryptoHook_CondVar*);
  void (*condvar_destroy)(HWCryptoHook_CondVar*);
  /* The semantics of acquiring and releasing mutexes and broadcasting
   * and waiting on condition variables are expected to be those from
   * POSIX threads (pthreads).  The mutexes may be (in pthread-speak)
   * fast mutexes, recursive mutexes, or nonrecursive ones.
   * The _release/_signal/_broadcast and _destroy functions must
   * always succeed when given a valid argument; if they are given an
   * invalid argument then the program (crypto plugin + application)
   * has an internal error, and they should abort the program.

  int (*getpassphrase)(const char *prompt_info,
                       int *len_io, char *buf,
                       HWCryptoHook_PassphraseContext *ppctx,
                       HWCryptoHook_CallerContext *cactx);
  /* Passphrases and the prompt_info, if they contain high-bit-set
   * characters, are UTF-8.  The prompt_info may be a null pointer if
   * no prompt information is available (it should not be an empty
   * string).  It will not contain text like `enter passphrase';
   * instead it might say something like `Operator Card for John
   * Smith' or `SmartCard in nFast Module #1, Slot #1'.
   * buf points to a buffer in which to return the passphrase; on
   * entry *len_io is the length of the buffer.  It should be updated
   * by the callback.  The returned passphrase should not be
   * null-terminated by the callback.
  int (*getphystoken)(const char *prompt_info,
                      const char *wrong_info,
                      HWCryptoHook_PassphraseContext *ppctx,
                      HWCryptoHook_CallerContext *cactx);
  /* Requests that the human user physically insert a different
   * smartcard, DataKey, etc.  The plugin should check whether the
   * currently inserted token(s) are appropriate, and if they are it
   * should not make this call.
   * prompt_info is as before.  wrong_info is a description of the
   * currently inserted token(s) so that the user is told what
   * something is.  wrong_info, like prompt_info, may be null, but
   * should not be an empty string.  Its contents should be
   * syntactically similar to that of prompt_info. 
  /* Note that a single LoadKey operation might cause several calls to
   * getpassphrase and/or requestphystoken.  If requestphystoken is
   * not provided (ie, a null pointer is passed) then the plugin may
   * not support loading keys for which authorisation by several cards
   * is required.  If getpassphrase is not provided then cards with
   * passphrases may not be supported.
   * getpassphrase and getphystoken do not need to check that the
   * passphrase has been entered correctly or the correct token
   * inserted; the crypto plugin will do that.  If this is not the
   * case then the crypto plugin is responsible for calling these
   * routines again as appropriate until the correct token(s) and
   * passphrase(s) are supplied as required, or until any retry limits
   * implemented by the crypto plugin are reached.
   * In either case, the application must allow the user to say `no'
   * or `cancel' to indicate that they do not know the passphrase or
   * have the appropriate token; this should cause the callback to
   * return nonzero indicating error.

  void (*logmessage)(void *logstream, const char *message);
  /* A log message will be generated at least every time something goes
   * wrong and an ErrMsgBuf is filled in (or would be if one was
   * provided).  Other diagnostic information may be written there too,
   * including more detailed reasons for errors which are reported in an
   * ErrMsgBuf.
   * When a log message is generated, this callback is called.  It
   * should write a message to the relevant logging arrangements.
   * The message string passed will be null-terminated and may be of arbitrary
   * length.  It will not be prefixed by the time and date, nor by the
   * name of the library that is generating it - if this is required,
   * the logmessage callback must do it.  The message will not have a
   * trailing newline (though it may contain internal newlines).
   * If a null pointer is passed for logmessage a default function is
   * used.  The default function treats logstream as a FILE* which has
   * been converted to a void*.  If logstream is 0 it does nothing.
   * Otherwise it prepends the date and time and library name and
   * writes the message to logstream.  Each line will be prefixed by a
   * descriptive string containing the date, time and identity of the
   * crypto plugin.  Errors on the logstream are not reported
   * anywhere, and the default function doesn't flush the stream, so
   * the application must set the buffering how it wants it.
   * The crypto plugin may also provide a facility to have copies of
   * log messages sent elsewhere, and or for adjusting the verbosity
   * of the log messages; any such facilities will be configured by
   * external means.

} HWCryptoHook_InitInfo;

HWCryptoHook_ContextHandle HWCryptoHook_Init_t(const HWCryptoHook_InitInfo *initinfo,
                                               size_t initinfosize,
                                               const HWCryptoHook_ErrMsgBuf *errors,
                                               HWCryptoHook_CallerContext *cactx);
extern HWCryptoHook_Init_t HWCryptoHook_Init;

/* Caller should set initinfosize to the size of the HWCryptoHook struct,
 * so it can be extended later.
 * On success, a message for display or logging by the server,
 * including the name and version number of the plugin, will be filled
 * in into *errors; on failure *errors is used for error handling, as
 * usual.

/* All these functions return 0 on success, HWCRYPTOHOOK_ERROR_FAILED
 * on most failures.  HWCRYPTOHOOK_ERROR_MPISIZE means at least one of
 * the output MPI buffer(s) was too small; the sizes of all have been
 * set to the desired size (and for those where the buffer was large
 * enough, the value may have been copied in), and no error message
 * has been recorded.
 * You may pass 0 for the errors struct.  In any case, unless you set
 * _NoStderr at init time then messages may be reported to stderr.

/* The RSAImmed* functions (and key managed RSA) only work with
 * modules which have an RSA patent licence - currently that means KM
 * units; the ModExp* ones work with all modules, so you need a patent
 * licence in the software in the US.  They are otherwise identical.

void HWCryptoHook_Finish_t(HWCryptoHook_ContextHandle hwctx);
extern HWCryptoHook_Finish_t HWCryptoHook_Finish;
/* You must not have any calls going or keys loaded when you call this. */

int HWCryptoHook_RandomBytes_t(HWCryptoHook_ContextHandle hwctx,
                               unsigned char *buf, size_t len,
                               const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_RandomBytes_t HWCryptoHook_RandomBytes;

int HWCryptoHook_ModExp_t(HWCryptoHook_ContextHandle hwctx,
                          HWCryptoHook_MPI a,
                          HWCryptoHook_MPI p,
                          HWCryptoHook_MPI n,
                          HWCryptoHook_MPI *r,
                          const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_ModExp_t HWCryptoHook_ModExp;

int HWCryptoHook_RSAImmedPub_t(HWCryptoHook_ContextHandle hwctx,
                               HWCryptoHook_MPI m,
                               HWCryptoHook_MPI e,
                               HWCryptoHook_MPI n,
                               HWCryptoHook_MPI *r,
                               const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_RSAImmedPub_t HWCryptoHook_RSAImmedPub;

int HWCryptoHook_ModExpCRT_t(HWCryptoHook_ContextHandle hwctx,
                             HWCryptoHook_MPI a,
                             HWCryptoHook_MPI p,
                             HWCryptoHook_MPI q,
                             HWCryptoHook_MPI dmp1,
                             HWCryptoHook_MPI dmq1,
                             HWCryptoHook_MPI iqmp,
                             HWCryptoHook_MPI *r,
                             const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_ModExpCRT_t HWCryptoHook_ModExpCRT;

int HWCryptoHook_RSAImmedPriv_t(HWCryptoHook_ContextHandle hwctx,
                                HWCryptoHook_MPI m,
                                HWCryptoHook_MPI p,
                                HWCryptoHook_MPI q,
                                HWCryptoHook_MPI dmp1,
                                HWCryptoHook_MPI dmq1,
                                HWCryptoHook_MPI iqmp,
                                HWCryptoHook_MPI *r,
                                const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_RSAImmedPriv_t HWCryptoHook_RSAImmedPriv;

/* The RSAImmed* and ModExp* functions may return E_FAILED or
 * E_FALLBACK for failure.
 * E_FAILED means the failure is permanent and definite and there
 *    should be no attempt to fall back to software.  (Eg, for some
 *    applications, which support only the acceleration-only
 *    functions, the `key material' may actually be an encoded key
 *    identifier, and doing the operation in software would give wrong
 *    answers.)
 * E_FALLBACK means that doing the computation in software would seem
 *    reasonable.  If an application pays attention to this and is
 *    able to fall back, it should also set the Fallback init flags.

int HWCryptoHook_RSALoadKey_t(HWCryptoHook_ContextHandle hwctx,
                              const char *key_ident,
                              HWCryptoHook_RSAKeyHandle *keyhandle_r,
                              const HWCryptoHook_ErrMsgBuf *errors,
                              HWCryptoHook_PassphraseContext *ppctx);
extern HWCryptoHook_RSALoadKey_t HWCryptoHook_RSALoadKey;
/* The key_ident is a null-terminated string configured by the
 * user via the application's usual configuration mechanisms.
 * It is provided to the user by the crypto provider's key management
 * system.  The user must be able to enter at least any string of between
 * 1 and 1023 characters inclusive, consisting of printable 7-bit
 * ASCII characters.  The provider should avoid using
 * any characters except alphanumerics and the punctuation
 * characters  _ - + . / @ ~  (the user is expected to be able
 * to enter these without quoting).  The string may be case-sensitive.
 * The application may allow the user to enter other NULL-terminated strings,
 * and the provider must cope (returning an error if the string is not
 * valid).
 * If the key does not exist, no error is recorded and 0 is returned;
 * keyhandle_r will be set to 0 instead of to a key handle.

int HWCryptoHook_RSAGetPublicKey_t(HWCryptoHook_RSAKeyHandle k,
                                   HWCryptoHook_MPI *n,
                                   HWCryptoHook_MPI *e,
                                   const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_RSAGetPublicKey_t HWCryptoHook_RSAGetPublicKey;
/* The crypto plugin will not store certificates.
 * Although this function for acquiring the public key value is
 * provided, it is not the purpose of this API to deal fully with the
 * handling of the public key.
 * It is expected that the crypto supplier's key generation program
 * will provide general facilities for producing X.509
 * self-certificates and certificate requests in PEM format.  These
 * will be given to the user so that they can configure them in the
 * application, send them to CAs, or whatever.
 * In case this kind of certificate handling is not appropriate, the
 * crypto supplier's key generation program should be able to be
 * configured not to generate such a self-certificate or certificate
 * request.  Then the application will need to do all of this, and
 * will need to store and handle the public key and certificates
 * itself.

int HWCryptoHook_RSAUnloadKey_t(HWCryptoHook_RSAKeyHandle k,
                                const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_RSAUnloadKey_t HWCryptoHook_RSAUnloadKey;
/* Might fail due to locking problems, or other serious internal problems. */

int HWCryptoHook_RSA_t(HWCryptoHook_MPI m,
                       HWCryptoHook_RSAKeyHandle k,
                       HWCryptoHook_MPI *r,
                       const HWCryptoHook_ErrMsgBuf *errors);
extern HWCryptoHook_RSA_t HWCryptoHook_RSA;
/* RSA private key operation (sign or decrypt) - raw, unpadded. */


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