libgcrypt-1.4.6/src/fips.c - nest-learning-thermostat/5.1.8/libgcrypt - Git at Google

 /* fips.c - FIPS mode management
  * Copyright (C) 2008  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, see <http://www.gnu.org/licenses/>.
  */

 #include <config.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <errno.h>
 #include <unistd.h>
 #include <string.h>
 #ifdef ENABLE_HMAC_BINARY_CHECK
 # include <dlfcn.h>
 #endif
 #ifdef HAVE_SYSLOG
 # include <syslog.h>
 #endif /*HAVE_SYSLOG*/

 #include "g10lib.h"
 #include "ath.h"
 #include "cipher-proto.h"
 #include "hmac256.h"


 /* The name of the file used to foce libgcrypt into fips mode. */
 #define FIPS_FORCE_FILE "/etc/gcrypt/fips_enabled"


 /* The states of the finite state machine used in fips mode.  */
 enum module_states
   {
     /* POWEROFF cannot be represented.  */
     STATE_POWERON  = 0,
     STATE_INIT,
     STATE_SELFTEST,
     STATE_OPERATIONAL,
     STATE_ERROR,
     STATE_FATALERROR,
     STATE_SHUTDOWN
   };


 /* Flag telling whether we are in fips mode.  It uses inverse logic so
    that fips mode is the default unless changed by the intialization
    code. To check whether fips mode is enabled, use the function
    fips_mode()! */
 static int no_fips_mode_required;

 /* Flag to indicate that we are in the enforced FIPS mode.  */
 static int enforced_fips_mode;

 /* If this flag is set, the application may no longer assume that the
    process is running in FIPS mode.  This flag is protected by the
    FSM_LOCK.  */
 static int inactive_fips_mode;

 /* This is the lock we use to protect the FSM.  */
 static ath_mutex_t fsm_lock = ATH_MUTEX_INITIALIZER;

 /* The current state of the FSM.  The whole state machinery is only
    used while in fips mode. Change this only while holding fsm_lock. */
 static enum module_states current_state;


 static void fips_new_state (enum module_states new_state);


 /* Convert lowercase hex digits; assumes valid hex digits. */
 #define loxtoi_1(p)   (*(p) <= '9'? (*(p)- '0'): (*(p)-'a'+10))
 #define loxtoi_2(p)   ((loxtoi_1(p) * 16) + loxtoi_1((p)+1))

 /* Returns true if P points to a lowercase hex digit. */
 #define loxdigit_p(p) !!strchr ("01234567890abcdef", *(p))


 /* Check whether the OS is in FIPS mode and record that in a module
    local variable.  If FORCE is passed as true, fips mode will be
    enabled anyway. Note: This function is not thread-safe and should
    be called before any threads are created.  This function may only
    be called once.  */
 void
 _gcry_initialize_fips_mode (int force)
 {
   static int done;
   gpg_error_t err;

   /* Make sure we are not accidently called twice.  */
   if (done)
     {
       if ( fips_mode () )
         {
           fips_new_state (STATE_FATALERROR);
           fips_noreturn ();
         }
       /* If not in fips mode an assert is sufficient.  */
       gcry_assert (!done);
     }
   done = 1;

   /* If the calling application explicitly requested fipsmode, do so.  */
   if (force)
     {
       gcry_assert (!no_fips_mode_required);
       goto leave;
     }

   /* For testing the system it is useful to override the system
      provided detection of the FIPS mode and force FIPS mode using a
      file.  The filename is hardwired so that there won't be any
      confusion on whether /etc/gcrypt/ or /usr/local/etc/gcrypt/ is
      actually used.  The file itself may be empty.  */
   if ( !access (FIPS_FORCE_FILE, F_OK) )
     {
       gcry_assert (!no_fips_mode_required);
       goto leave;
     }

   /* Checking based on /proc file properties.  */
   {
     static const char procfname[] = "/proc/sys/crypto/fips_enabled";
     FILE *fp;
     int saved_errno;

     fp = fopen (procfname, "r");
     if (fp)
       {
         char line[256];

         if (fgets (line, sizeof line, fp) && atoi (line))
           {
             /* System is in fips mode.  */
             fclose (fp);
             gcry_assert (!no_fips_mode_required);
             goto leave;
           }
         fclose (fp);
       }
     else if ((saved_errno = errno) != ENOENT
              && saved_errno != EACCES
              && !access ("/proc/version", F_OK) )
       {
         /* Problem reading the fips file despite that we have the proc
            file system.  We better stop right away. */
         log_info ("FATAL: error reading `%s' in libgcrypt: %s\n",
                   procfname, strerror (saved_errno));
 #ifdef HAVE_SYSLOG
         syslog (LOG_USER|LOG_ERR, "Libgcrypt error: "
                 "reading `%s' failed: %s - abort",
                 procfname, strerror (saved_errno));
 #endif /*HAVE_SYSLOG*/
         abort ();
       }
   }

   /* Fips not not requested, set flag.  */
   no_fips_mode_required = 1;

  leave:
   if (!no_fips_mode_required)
     {
       /* Yes, we are in FIPS mode.  */
       FILE *fp;

       /* Intitialize the lock to protect the FSM.  */
       err = ath_mutex_init (&fsm_lock);
       if (err)
         {
           /* If that fails we can't do anything but abort the
              process. We need to use log_info so that the FSM won't
              get involved.  */
           log_info ("FATAL: failed to create the FSM lock in libgcrypt: %s\n",
                      strerror (err));
 #ifdef HAVE_SYSLOG
           syslog (LOG_USER|LOG_ERR, "Libgcrypt error: "
                   "creating FSM lock failed: %s - abort",
                   strerror (err));
 #endif /*HAVE_SYSLOG*/
           abort ();
         }


       /* If the FIPS force files exists, is readable and has a number
          != 0 on its first line, we enable the enforced fips mode.  */
       fp = fopen (FIPS_FORCE_FILE, "r");
       if (fp)
         {
           char line[256];

           if (fgets (line, sizeof line, fp) && atoi (line))
             enforced_fips_mode = 1;
           fclose (fp);
         }

       /* Now get us into the INIT state.  */
       fips_new_state (STATE_INIT);

     }
   return;
 }

 static void
 lock_fsm (void)
 {
   gpg_error_t err;

   err = ath_mutex_lock (&fsm_lock);
   if (err)
     {
       log_info ("FATAL: failed to acquire the FSM lock in libgrypt: %s\n",
                 strerror (err));
 #ifdef HAVE_SYSLOG
       syslog (LOG_USER|LOG_ERR, "Libgcrypt error: "
               "acquiring FSM lock failed: %s - abort",
               strerror (err));
 #endif /*HAVE_SYSLOG*/
       abort ();
     }
 }

 static void
 unlock_fsm (void)
 {
   gpg_error_t err;

   err = ath_mutex_unlock (&fsm_lock);
   if (err)
     {
       log_info ("FATAL: failed to release the FSM lock in libgrypt: %s\n",
                 strerror (err));
 #ifdef HAVE_SYSLOG
       syslog (LOG_USER|LOG_ERR, "Libgcrypt error: "
               "releasing FSM lock failed: %s - abort",
               strerror (err));
 #endif /*HAVE_SYSLOG*/
       abort ();
     }
 }


 /* This function returns true if fips mode is enabled.  This is
    independent of the fips required finite state machine and only used
    to enable fips specific code.  Please use the fips_mode macro
    instead of calling this function directly. */
 int
 _gcry_fips_mode (void)
 {
   /* No locking is required because we have the requirement that this
      variable is only initialized once with no other threads
      existing.  */
   return !no_fips_mode_required;
 }


 /* Return a flag telling whether we are in the enforced fips mode.  */
 int
 _gcry_enforced_fips_mode (void)
 {
   return enforced_fips_mode;
 }


 /* If we do not want to enforce the fips mode, we can set a flag so
    that the application may check whether it is still in fips mode.
    TEXT will be printed as part of a syslog message.  This function
    may only be be called if in fips mode. */
 void
 _gcry_inactivate_fips_mode (const char *text)
 {
   gcry_assert (_gcry_fips_mode ());

   if (_gcry_enforced_fips_mode () )
     {
       /* Get us into the error state. */
       fips_signal_error (text);
       return;
     }

   lock_fsm ();
   if (!inactive_fips_mode)
     {
       inactive_fips_mode = 1;
       unlock_fsm ();
 #ifdef HAVE_SYSLOG
       syslog (LOG_USER|LOG_WARNING, "Libgcrypt warning: "
               "%s - FIPS mode inactivated", text);
 #endif /*HAVE_SYSLOG*/
     }
   else
     unlock_fsm ();
 }


 /* Return the FIPS mode inactive flag.  If it is true the FIPS mode is
    not anymore active.  */
 int
 _gcry_is_fips_mode_inactive (void)
 {
   int flag;

   if (!_gcry_fips_mode ())
     return 0;
   lock_fsm ();
   flag = inactive_fips_mode;
   unlock_fsm ();
   return flag;
 }


 static const char *
 state2str (enum module_states state)
 {
   const char *s;

   switch (state)
     {
     case STATE_POWERON:     s = "Power-On"; break;
     case STATE_INIT:        s = "Init"; break;
     case STATE_SELFTEST:    s = "Self-Test"; break;
     case STATE_OPERATIONAL: s = "Operational"; break;
     case STATE_ERROR:       s = "Error"; break;
     case STATE_FATALERROR:  s = "Fatal-Error"; break;
     case STATE_SHUTDOWN:    s = "Shutdown"; break;
     default:                s = "?"; break;
     }
   return s;
 }


 /* Return true if the library is in the operational state.  */
 int
 _gcry_fips_is_operational (void)
 {
   int result;

   if (!fips_mode ())
     result = 1;
   else
     {
       lock_fsm ();
       if (current_state == STATE_INIT)
         {
           /* If we are still in the INIT state, we need to run the
              selftests so that the FSM can eventually get into
              operational state.  Given that we would need a 2-phase
              initialization of libgcrypt, but that has traditionally
              not been enforced, we use this on demand self-test
              checking.  Note that Proper applications would do the
              application specific libgcrypt initialization between a
              gcry_check_version() and gcry_control
              (GCRYCTL_INITIALIZATION_FINISHED) where the latter will
              run the selftests.  The drawback of these on-demand
              self-tests are a small chance that self-tests are
              performed by severeal threads; that is no problem because
              our FSM make sure that we won't oversee any error. */
           unlock_fsm ();
           _gcry_fips_run_selftests (0);
           lock_fsm ();
         }

       result = (current_state == STATE_OPERATIONAL);
       unlock_fsm ();
     }
   return result;
 }


 /* This is test on wether the library is in the operational state.  In
    contrast to _gcry_fips_is_operational this function won't do a
    state transition on the fly.  */
 int
 _gcry_fips_test_operational (void)
 {
   int result;

   if (!fips_mode ())
     result = 1;
   else
     {
       lock_fsm ();
       result = (current_state == STATE_OPERATIONAL);
       unlock_fsm ();
     }
   return result;
 }


 /* This is a test on whether the library is in the error or
    operational state. */
 int
 _gcry_fips_test_error_or_operational (void)
 {
   int result;

   if (!fips_mode ())
     result = 1;
   else
     {
       lock_fsm ();
       result = (current_state == STATE_OPERATIONAL
                 || current_state == STATE_ERROR);
       unlock_fsm ();
     }
   return result;
 }


 static void
 reporter (const char *domain, int algo, const char *what, const char *errtxt)
 {
   if (!errtxt && !_gcry_log_verbosity (2))
     return;

   log_info ("libgcrypt selftest: %s %s%s (%d): %s%s%s%s\n",
             !strcmp (domain, "hmac")? "digest":domain,
             !strcmp (domain, "hmac")? "HMAC-":"",
             !strcmp (domain, "cipher")? _gcry_cipher_algo_name (algo) :
             !strcmp (domain, "digest")? _gcry_md_algo_name (algo) :
             !strcmp (domain, "hmac")?   _gcry_md_algo_name (algo) :
             !strcmp (domain, "pubkey")? _gcry_pk_algo_name (algo) : "",
             algo, errtxt? errtxt:"Okay",
             what?" (":"", what? what:"", what?")":"");
 }

 /* Run self-tests for all required cipher algorithms.  Return 0 on
    success. */
 static int
 run_cipher_selftests (int extended)
 {
   static int algos[] =
     {
       GCRY_CIPHER_3DES,
       GCRY_CIPHER_AES128,
       GCRY_CIPHER_AES192,
       GCRY_CIPHER_AES256,
       0
     };
   int idx;
   gpg_error_t err;
   int anyerr = 0;

   for (idx=0; algos[idx]; idx++)
     {
       err = _gcry_cipher_selftest (algos[idx], extended, reporter);
       reporter ("cipher", algos[idx], NULL,
                 err? gpg_strerror (err):NULL);
       if (err)
         anyerr = 1;
     }
   return anyerr;
 }


 /* Run self-tests for all required hash algorithms.  Return 0 on
    success. */
 static int
 run_digest_selftests (int extended)
 {
   static int algos[] =
     {
       GCRY_MD_SHA1,
       GCRY_MD_SHA224,
       GCRY_MD_SHA256,
       GCRY_MD_SHA384,
       GCRY_MD_SHA512,
       0
     };
   int idx;
   gpg_error_t err;
   int anyerr = 0;

   for (idx=0; algos[idx]; idx++)
     {
       err = _gcry_md_selftest (algos[idx], extended, reporter);
       reporter ("digest", algos[idx], NULL,
                 err? gpg_strerror (err):NULL);
       if (err)
         anyerr = 1;
     }
   return anyerr;
 }


 /* Run self-tests for all HMAC algorithms.  Return 0 on success. */
 static int
 run_hmac_selftests (int extended)
 {
   static int algos[] =
     {
       GCRY_MD_SHA1,
       GCRY_MD_SHA224,
       GCRY_MD_SHA256,
       GCRY_MD_SHA384,
       GCRY_MD_SHA512,
       0
     };
   int idx;
   gpg_error_t err;
   int anyerr = 0;

   for (idx=0; algos[idx]; idx++)
     {
       err = _gcry_hmac_selftest (algos[idx], extended, reporter);
       reporter ("hmac", algos[idx], NULL,
                 err? gpg_strerror (err):NULL);
       if (err)
         anyerr = 1;
     }
   return anyerr;
 }


 /* Run self-tests for all required public key algorithms.  Return 0 on
    success. */
 static int
 run_pubkey_selftests (int extended)
 {
   static int algos[] =
     {
       GCRY_PK_RSA,
       GCRY_PK_DSA,
       /* GCRY_PK_ECDSA is not enabled in fips mode.  */
       0
     };
   int idx;
   gpg_error_t err;
   int anyerr = 0;

   for (idx=0; algos[idx]; idx++)
     {
       err = _gcry_pk_selftest (algos[idx], extended, reporter);
       reporter ("pubkey", algos[idx], NULL,
                 err? gpg_strerror (err):NULL);
       if (err)
         anyerr = 1;
     }
   return anyerr;
 }


 /* Run self-tests for the random number generator.  Returns 0 on
    success. */
 static int
 run_random_selftests (void)
 {
   gpg_error_t err;

   err = _gcry_random_selftest (reporter);
   reporter ("random", 0, NULL, err? gpg_strerror (err):NULL);

   return !!err;
 }

 /* Run an integrity check on the binary.  Returns 0 on success.  */
 static int
 check_binary_integrity (void)
 {
 #ifdef ENABLE_HMAC_BINARY_CHECK
   gpg_error_t err;
   Dl_info info;
   unsigned char digest[32];
   int dlen;
   char *fname = NULL;
   const char key[] = "What am I, a doctor or a moonshuttle conductor?";

   if (!dladdr ("gcry_check_version", &info))
     err = gpg_error_from_syserror ();
   else
     {
       dlen = _gcry_hmac256_file (digest, sizeof digest, info.dli_fname,
                                  key, strlen (key));
       if (dlen < 0)
         err = gpg_error_from_syserror ();
       else if (dlen != 32)
         err = gpg_error (GPG_ERR_INTERNAL);
       else
         {
           fname = gcry_malloc (strlen (info.dli_fname) + 1 + 5 + 1 );
           if (!fname)
             err = gpg_error_from_syserror ();
           else
             {
               FILE *fp;
               char *p;

               /* Prefix the basename with a dot.  */
               strcpy (fname, info.dli_fname);
               p = strrchr (fname, '/');
               if (p)
                 p++;
               else
                 p = fname;
               memmove (p+1, p, strlen (p)+1);
               *p = '.';
               strcat (fname, ".hmac");

               /* Open the file.  */
               fp = fopen (fname, "r");
               if (!fp)
                 err = gpg_error_from_syserror ();
               else
                 {
                   /* A buffer of 64 bytes plus one for a LF and one to
                      detect garbage.  */
                   unsigned char buffer[64+1+1];
                   const unsigned char *s;
                   int n;

                   /* The HMAC files consists of lowercase hex digits
                      only with an optional trailing linefeed.  Fail if
                      there is any garbage.  */
                   err = gpg_error (GPG_ERR_SELFTEST_FAILED);
                   n = fread (buffer, 1, sizeof buffer, fp);
                   if (n == 64 || (n == 65 && buffer[64] == '\n'))
                     {
                       buffer[64] = 0;
                       for (n=0, s= buffer;
                            n < 32 && loxdigit_p (s) && loxdigit_p (s+1);
                            n++, s += 2)
                         buffer[n] = loxtoi_2 (s);
                       if ( n == 32 && !memcmp (digest, buffer, 32) )
                         err = 0;
                     }
                   fclose (fp);
                 }
             }
         }
     }
   reporter ("binary", 0, fname, err? gpg_strerror (err):NULL);
 #ifdef HAVE_SYSLOG
   if (err)
     syslog (LOG_USER|LOG_ERR, "Libgcrypt error: "
             "integrity check using `%s' failed: %s",
             fname? fname:"[?]", gpg_strerror (err));
 #endif /*HAVE_SYSLOG*/
   gcry_free (fname);
   return !!err;
 #else
   return 0;
 #endif
 }


 /* Run the self-tests.  If EXTENDED is true, extended versions of the
    selftest are run, that is more tests than required by FIPS.  */
 gpg_err_code_t
 _gcry_fips_run_selftests (int extended)
 {
   enum module_states result = STATE_ERROR;
   gcry_err_code_t ec = GPG_ERR_SELFTEST_FAILED;

   if (fips_mode ())
     fips_new_state (STATE_SELFTEST);

   if (run_cipher_selftests (extended))
     goto leave;

   if (run_digest_selftests (extended))
     goto leave;

   if (run_hmac_selftests (extended))
     goto leave;

   /* Run random tests before the pubkey tests because the latter
      require random.  */
   if (run_random_selftests ())
     goto leave;

   if (run_pubkey_selftests (extended))
     goto leave;

   /* Now check the integrity of the binary.  We do this this after
      having checked the HMAC code.  */
   if (check_binary_integrity ())
     goto leave;

   /* All selftests passed.  */
   result = STATE_OPERATIONAL;
   ec = 0;

  leave:
   if (fips_mode ())
     fips_new_state (result);

   return ec;
 }


 /* This function is used to tell the FSM about errors in the library.
    The FSM will be put into an error state.  This function should not
    be called directly but by one of the macros

      fips_signal_error (description)
      fips_signal_fatal_error (description)

    where DESCRIPTION is a string describing the error. */
 void
 _gcry_fips_signal_error (const char *srcfile, int srcline, const char *srcfunc,
                          int is_fatal, const char *description)
 {
   if (!fips_mode ())
     return;  /* Not required.  */

   /* Set new state before printing an error.  */
   fips_new_state (is_fatal? STATE_FATALERROR : STATE_ERROR);

   /* Print error.  */
   log_info ("%serror in libgcrypt, file %s, line %d%s%s: %s\n",
             is_fatal? "fatal ":"",
             srcfile, srcline,
             srcfunc? ", function ":"", srcfunc? srcfunc:"",
             description? description : "no description available");
 #ifdef HAVE_SYSLOG
   syslog (LOG_USER|LOG_ERR, "Libgcrypt error: "
           "%serror in file %s, line %d%s%s: %s",
           is_fatal? "fatal ":"",
           srcfile, srcline,
           srcfunc? ", function ":"", srcfunc? srcfunc:"",
           description? description : "no description available");
 #endif /*HAVE_SYSLOG*/
 }


 /* Perform a state transition to NEW_STATE.  If this is an invalid
    transition, the module will go into a fatal error state. */
 static void
 fips_new_state (enum module_states new_state)
 {
   int ok = 0;
   enum module_states last_state;

   lock_fsm ();

   last_state = current_state;
   switch (current_state)
     {
     case STATE_POWERON:
       if (new_state == STATE_INIT
           || new_state == STATE_ERROR
           || new_state == STATE_FATALERROR)
         ok = 1;
       break;

     case STATE_INIT:
       if (new_state == STATE_SELFTEST
           || new_state == STATE_ERROR
           || new_state == STATE_FATALERROR)
         ok = 1;
       break;

     case STATE_SELFTEST:
       if (new_state == STATE_OPERATIONAL
           || new_state == STATE_ERROR
           || new_state == STATE_FATALERROR)
         ok = 1;
       break;

     case STATE_OPERATIONAL:
       if (new_state == STATE_SHUTDOWN
           || new_state == STATE_SELFTEST
           || new_state == STATE_ERROR
           || new_state == STATE_FATALERROR)
         ok = 1;
       break;

     case STATE_ERROR:
       if (new_state == STATE_SHUTDOWN
           || new_state == STATE_ERROR
           || new_state == STATE_FATALERROR
           || new_state == STATE_SELFTEST)
         ok = 1;
       break;

     case STATE_FATALERROR:
       if (new_state == STATE_SHUTDOWN )
         ok = 1;
       break;

     case STATE_SHUTDOWN:
       /* We won't see any transition *from* Shutdown because the only
          allowed new state is Power-Off and that one can't be
          represented.  */
       break;

     }

   if (ok)
     {
       current_state = new_state;
     }

   unlock_fsm ();

   if (!ok || _gcry_log_verbosity (2))
     log_info ("libgcrypt state transition %s => %s %s\n",
               state2str (last_state), state2str (new_state),
               ok? "granted":"denied");

   if (!ok)
     {
       /* Invalid state transition.  Halting library. */
 #ifdef HAVE_SYSLOG
       syslog (LOG_USER|LOG_ERR,
               "Libgcrypt error: invalid state transition %s => %s",
               state2str (last_state), state2str (new_state));
 #endif /*HAVE_SYSLOG*/
       fips_noreturn ();
     }
   else if (new_state == STATE_ERROR || new_state == STATE_FATALERROR)
     {
 #ifdef HAVE_SYSLOG
       syslog (LOG_USER|LOG_WARNING,
               "Libgcrypt notice: state transition %s => %s",
               state2str (last_state), state2str (new_state));
 #endif /*HAVE_SYSLOG*/
     }
 }


 /* This function should be called to ensure that the execution shall
    not continue. */
 void
 _gcry_fips_noreturn (void)
 {
 #ifdef HAVE_SYSLOG
   syslog (LOG_USER|LOG_ERR, "Libgcrypt terminated the application");
 #endif /*HAVE_SYSLOG*/
   fflush (NULL);
   abort ();
   /*NOTREACHED*/
 }
	/* fips.c - FIPS mode management
	* Copyright (C) 2008 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, see <http://www.gnu.org/licenses/>.
	*/

	#include <config.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <errno.h>
	#include <unistd.h>
	#include <string.h>
	#ifdef ENABLE_HMAC_BINARY_CHECK
	# include <dlfcn.h>
	#endif
	#ifdef HAVE_SYSLOG
	# include <syslog.h>
	#endif /HAVE_SYSLOG/

	#include "g10lib.h"
	#include "ath.h"
	#include "cipher-proto.h"
	#include "hmac256.h"


	/* The name of the file used to foce libgcrypt into fips mode. */
	#define FIPS_FORCE_FILE "/etc/gcrypt/fips_enabled"


	/* The states of the finite state machine used in fips mode. */
	enum module_states
	{
	/* POWEROFF cannot be represented. */
	STATE_POWERON = 0,
	STATE_INIT,
	STATE_SELFTEST,
	STATE_OPERATIONAL,
	STATE_ERROR,
	STATE_FATALERROR,
	STATE_SHUTDOWN
	};


	/* Flag telling whether we are in fips mode. It uses inverse logic so
	that fips mode is the default unless changed by the intialization
	code. To check whether fips mode is enabled, use the function
	fips_mode()! */
	static int no_fips_mode_required;

	/* Flag to indicate that we are in the enforced FIPS mode. */
	static int enforced_fips_mode;

	/* If this flag is set, the application may no longer assume that the
	process is running in FIPS mode. This flag is protected by the
	FSM_LOCK. */
	static int inactive_fips_mode;

	/* This is the lock we use to protect the FSM. */
	static ath_mutex_t fsm_lock = ATH_MUTEX_INITIALIZER;

	/* The current state of the FSM. The whole state machinery is only
	used while in fips mode. Change this only while holding fsm_lock. */
	static enum module_states current_state;





	static void fips_new_state (enum module_states new_state);



	/* Convert lowercase hex digits; assumes valid hex digits. */
	#define loxtoi_1(p) ((p) <= '9'? ((p)- '0'): (*(p)-'a'+10))
	#define loxtoi_2(p) ((loxtoi_1(p) * 16) + loxtoi_1((p)+1))

	/* Returns true if P points to a lowercase hex digit. */
	#define loxdigit_p(p) !!strchr ("01234567890abcdef", *(p))



	/* Check whether the OS is in FIPS mode and record that in a module
	local variable. If FORCE is passed as true, fips mode will be
	enabled anyway. Note: This function is not thread-safe and should
	be called before any threads are created. This function may only
	be called once. */
	void
	_gcry_initialize_fips_mode (int force)
	{
	static int done;
	gpg_error_t err;

	/* Make sure we are not accidently called twice. */
	if (done)
	{
	if ( fips_mode () )
	{
	fips_new_state (STATE_FATALERROR);
	fips_noreturn ();
	}
	/* If not in fips mode an assert is sufficient. */
	gcry_assert (!done);
	}
	done = 1;

	/* If the calling application explicitly requested fipsmode, do so. */
	if (force)
	{
	gcry_assert (!no_fips_mode_required);
	goto leave;
	}

	/* For testing the system it is useful to override the system
	provided detection of the FIPS mode and force FIPS mode using a
	file. The filename is hardwired so that there won't be any
	confusion on whether /etc/gcrypt/ or /usr/local/etc/gcrypt/ is
	actually used. The file itself may be empty. */
	if ( !access (FIPS_FORCE_FILE, F_OK) )
	{
	gcry_assert (!no_fips_mode_required);
	goto leave;
	}

	/* Checking based on /proc file properties. */
	{
	static const char procfname[] = "/proc/sys/crypto/fips_enabled";
	FILE *fp;
	int saved_errno;

	fp = fopen (procfname, "r");
	if (fp)
	{
	char line[256];

	if (fgets (line, sizeof line, fp) && atoi (line))
	{
	/* System is in fips mode. */
	fclose (fp);
	gcry_assert (!no_fips_mode_required);
	goto leave;
	}
	fclose (fp);
	}
	else if ((saved_errno = errno) != ENOENT
	&& saved_errno != EACCES
	&& !access ("/proc/version", F_OK) )
	{
	/* Problem reading the fips file despite that we have the proc
	file system. We better stop right away. */
	log_info ("FATAL: error reading `%s' in libgcrypt: %s\n",
	procfname, strerror (saved_errno));
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt error: "
	"reading `%s' failed: %s - abort",
	procfname, strerror (saved_errno));
	#endif /HAVE_SYSLOG/
	abort ();
	}
	}

	/* Fips not not requested, set flag. */
	no_fips_mode_required = 1;

	leave:
	if (!no_fips_mode_required)
	{
	/* Yes, we are in FIPS mode. */
	FILE *fp;

	/* Intitialize the lock to protect the FSM. */
	err = ath_mutex_init (&fsm_lock);
	if (err)
	{
	/* If that fails we can't do anything but abort the
	process. We need to use log_info so that the FSM won't
	get involved. */
	log_info ("FATAL: failed to create the FSM lock in libgcrypt: %s\n",
	strerror (err));
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt error: "
	"creating FSM lock failed: %s - abort",
	strerror (err));
	#endif /HAVE_SYSLOG/
	abort ();
	}


	/* If the FIPS force files exists, is readable and has a number
	!= 0 on its first line, we enable the enforced fips mode. */
	fp = fopen (FIPS_FORCE_FILE, "r");
	if (fp)
	{
	char line[256];

	if (fgets (line, sizeof line, fp) && atoi (line))
	enforced_fips_mode = 1;
	fclose (fp);
	}

	/* Now get us into the INIT state. */
	fips_new_state (STATE_INIT);

	}
	return;
	}

	static void
	lock_fsm (void)
	{
	gpg_error_t err;

	err = ath_mutex_lock (&fsm_lock);
	if (err)
	{
	log_info ("FATAL: failed to acquire the FSM lock in libgrypt: %s\n",
	strerror (err));
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt error: "
	"acquiring FSM lock failed: %s - abort",
	strerror (err));
	#endif /HAVE_SYSLOG/
	abort ();
	}
	}

	static void
	unlock_fsm (void)
	{
	gpg_error_t err;

	err = ath_mutex_unlock (&fsm_lock);
	if (err)
	{
	log_info ("FATAL: failed to release the FSM lock in libgrypt: %s\n",
	strerror (err));
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt error: "
	"releasing FSM lock failed: %s - abort",
	strerror (err));
	#endif /HAVE_SYSLOG/
	abort ();
	}
	}


	/* This function returns true if fips mode is enabled. This is
	independent of the fips required finite state machine and only used
	to enable fips specific code. Please use the fips_mode macro
	instead of calling this function directly. */
	int
	_gcry_fips_mode (void)
	{
	/* No locking is required because we have the requirement that this
	variable is only initialized once with no other threads
	existing. */
	return !no_fips_mode_required;
	}


	/* Return a flag telling whether we are in the enforced fips mode. */
	int
	_gcry_enforced_fips_mode (void)
	{
	return enforced_fips_mode;
	}


	/* If we do not want to enforce the fips mode, we can set a flag so
	that the application may check whether it is still in fips mode.
	TEXT will be printed as part of a syslog message. This function
	may only be be called if in fips mode. */
	void
	_gcry_inactivate_fips_mode (const char *text)
	{
	gcry_assert (_gcry_fips_mode ());

	if (_gcry_enforced_fips_mode () )
	{
	/* Get us into the error state. */
	fips_signal_error (text);
	return;
	}

	lock_fsm ();
	if (!inactive_fips_mode)
	{
	inactive_fips_mode = 1;
	unlock_fsm ();
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_WARNING, "Libgcrypt warning: "
	"%s - FIPS mode inactivated", text);
	#endif /HAVE_SYSLOG/
	}
	else
	unlock_fsm ();
	}


	/* Return the FIPS mode inactive flag. If it is true the FIPS mode is
	not anymore active. */
	int
	_gcry_is_fips_mode_inactive (void)
	{
	int flag;

	if (!_gcry_fips_mode ())
	return 0;
	lock_fsm ();
	flag = inactive_fips_mode;
	unlock_fsm ();
	return flag;
	}



	static const char *
	state2str (enum module_states state)
	{
	const char *s;

	switch (state)
	{
	case STATE_POWERON: s = "Power-On"; break;
	case STATE_INIT: s = "Init"; break;
	case STATE_SELFTEST: s = "Self-Test"; break;
	case STATE_OPERATIONAL: s = "Operational"; break;
	case STATE_ERROR: s = "Error"; break;
	case STATE_FATALERROR: s = "Fatal-Error"; break;
	case STATE_SHUTDOWN: s = "Shutdown"; break;
	default: s = "?"; break;
	}
	return s;
	}


	/* Return true if the library is in the operational state. */
	int
	_gcry_fips_is_operational (void)
	{
	int result;

	if (!fips_mode ())
	result = 1;
	else
	{
	lock_fsm ();
	if (current_state == STATE_INIT)
	{
	/* If we are still in the INIT state, we need to run the
	selftests so that the FSM can eventually get into
	operational state. Given that we would need a 2-phase
	initialization of libgcrypt, but that has traditionally
	not been enforced, we use this on demand self-test
	checking. Note that Proper applications would do the
	application specific libgcrypt initialization between a
	gcry_check_version() and gcry_control
	(GCRYCTL_INITIALIZATION_FINISHED) where the latter will
	run the selftests. The drawback of these on-demand
	self-tests are a small chance that self-tests are
	performed by severeal threads; that is no problem because
	our FSM make sure that we won't oversee any error. */
	unlock_fsm ();
	_gcry_fips_run_selftests (0);
	lock_fsm ();
	}

	result = (current_state == STATE_OPERATIONAL);
	unlock_fsm ();
	}
	return result;
	}


	/* This is test on wether the library is in the operational state. In
	contrast to _gcry_fips_is_operational this function won't do a
	state transition on the fly. */
	int
	_gcry_fips_test_operational (void)
	{
	int result;

	if (!fips_mode ())
	result = 1;
	else
	{
	lock_fsm ();
	result = (current_state == STATE_OPERATIONAL);
	unlock_fsm ();
	}
	return result;
	}


	/* This is a test on whether the library is in the error or
	operational state. */
	int
	_gcry_fips_test_error_or_operational (void)
	{
	int result;

	if (!fips_mode ())
	result = 1;
	else
	{
	lock_fsm ();
	result = (current_state == STATE_OPERATIONAL
	\|\| current_state == STATE_ERROR);
	unlock_fsm ();
	}
	return result;
	}


	static void
	reporter (const char domain, int algo, const char what, const char *errtxt)
	{
	if (!errtxt && !_gcry_log_verbosity (2))
	return;

	log_info ("libgcrypt selftest: %s %s%s (%d): %s%s%s%s\n",
	!strcmp (domain, "hmac")? "digest":domain,
	!strcmp (domain, "hmac")? "HMAC-":"",
	!strcmp (domain, "cipher")? _gcry_cipher_algo_name (algo) :
	!strcmp (domain, "digest")? _gcry_md_algo_name (algo) :
	!strcmp (domain, "hmac")? _gcry_md_algo_name (algo) :
	!strcmp (domain, "pubkey")? _gcry_pk_algo_name (algo) : "",
	algo, errtxt? errtxt:"Okay",
	what?" (":"", what? what:"", what?")":"");
	}

	/* Run self-tests for all required cipher algorithms. Return 0 on
	success. */
	static int
	run_cipher_selftests (int extended)
	{
	static int algos[] =
	{
	GCRY_CIPHER_3DES,
	GCRY_CIPHER_AES128,
	GCRY_CIPHER_AES192,
	GCRY_CIPHER_AES256,
	0
	};
	int idx;
	gpg_error_t err;
	int anyerr = 0;

	for (idx=0; algos[idx]; idx++)
	{
	err = _gcry_cipher_selftest (algos[idx], extended, reporter);
	reporter ("cipher", algos[idx], NULL,
	err? gpg_strerror (err):NULL);
	if (err)
	anyerr = 1;
	}
	return anyerr;
	}


	/* Run self-tests for all required hash algorithms. Return 0 on
	success. */
	static int
	run_digest_selftests (int extended)
	{
	static int algos[] =
	{
	GCRY_MD_SHA1,
	GCRY_MD_SHA224,
	GCRY_MD_SHA256,
	GCRY_MD_SHA384,
	GCRY_MD_SHA512,
	0
	};
	int idx;
	gpg_error_t err;
	int anyerr = 0;

	for (idx=0; algos[idx]; idx++)
	{
	err = _gcry_md_selftest (algos[idx], extended, reporter);
	reporter ("digest", algos[idx], NULL,
	err? gpg_strerror (err):NULL);
	if (err)
	anyerr = 1;
	}
	return anyerr;
	}


	/* Run self-tests for all HMAC algorithms. Return 0 on success. */
	static int
	run_hmac_selftests (int extended)
	{
	static int algos[] =
	{
	GCRY_MD_SHA1,
	GCRY_MD_SHA224,
	GCRY_MD_SHA256,
	GCRY_MD_SHA384,
	GCRY_MD_SHA512,
	0
	};
	int idx;
	gpg_error_t err;
	int anyerr = 0;

	for (idx=0; algos[idx]; idx++)
	{
	err = _gcry_hmac_selftest (algos[idx], extended, reporter);
	reporter ("hmac", algos[idx], NULL,
	err? gpg_strerror (err):NULL);
	if (err)
	anyerr = 1;
	}
	return anyerr;
	}


	/* Run self-tests for all required public key algorithms. Return 0 on
	success. */
	static int
	run_pubkey_selftests (int extended)
	{
	static int algos[] =
	{
	GCRY_PK_RSA,
	GCRY_PK_DSA,
	/* GCRY_PK_ECDSA is not enabled in fips mode. */
	0
	};
	int idx;
	gpg_error_t err;
	int anyerr = 0;

	for (idx=0; algos[idx]; idx++)
	{
	err = _gcry_pk_selftest (algos[idx], extended, reporter);
	reporter ("pubkey", algos[idx], NULL,
	err? gpg_strerror (err):NULL);
	if (err)
	anyerr = 1;
	}
	return anyerr;
	}


	/* Run self-tests for the random number generator. Returns 0 on
	success. */
	static int
	run_random_selftests (void)
	{
	gpg_error_t err;

	err = _gcry_random_selftest (reporter);
	reporter ("random", 0, NULL, err? gpg_strerror (err):NULL);

	return !!err;
	}

	/* Run an integrity check on the binary. Returns 0 on success. */
	static int
	check_binary_integrity (void)
	{
	#ifdef ENABLE_HMAC_BINARY_CHECK
	gpg_error_t err;
	Dl_info info;
	unsigned char digest[32];
	int dlen;
	char *fname = NULL;
	const char key[] = "What am I, a doctor or a moonshuttle conductor?";

	if (!dladdr ("gcry_check_version", &info))
	err = gpg_error_from_syserror ();
	else
	{
	dlen = _gcry_hmac256_file (digest, sizeof digest, info.dli_fname,
	key, strlen (key));
	if (dlen < 0)
	err = gpg_error_from_syserror ();
	else if (dlen != 32)
	err = gpg_error (GPG_ERR_INTERNAL);
	else
	{
	fname = gcry_malloc (strlen (info.dli_fname) + 1 + 5 + 1 );
	if (!fname)
	err = gpg_error_from_syserror ();
	else
	{
	FILE *fp;
	char *p;

	/* Prefix the basename with a dot. */
	strcpy (fname, info.dli_fname);
	p = strrchr (fname, '/');
	if (p)
	p++;
	else
	p = fname;
	memmove (p+1, p, strlen (p)+1);
	*p = '.';
	strcat (fname, ".hmac");

	/* Open the file. */
	fp = fopen (fname, "r");
	if (!fp)
	err = gpg_error_from_syserror ();
	else
	{
	/* A buffer of 64 bytes plus one for a LF and one to
	detect garbage. */
	unsigned char buffer[64+1+1];
	const unsigned char *s;
	int n;

	/* The HMAC files consists of lowercase hex digits
	only with an optional trailing linefeed. Fail if
	there is any garbage. */
	err = gpg_error (GPG_ERR_SELFTEST_FAILED);
	n = fread (buffer, 1, sizeof buffer, fp);
	if (n == 64 \|\| (n == 65 && buffer[64] == '\n'))
	{
	buffer[64] = 0;
	for (n=0, s= buffer;
	n < 32 && loxdigit_p (s) && loxdigit_p (s+1);
	n++, s += 2)
	buffer[n] = loxtoi_2 (s);
	if ( n == 32 && !memcmp (digest, buffer, 32) )
	err = 0;
	}
	fclose (fp);
	}
	}
	}
	}
	reporter ("binary", 0, fname, err? gpg_strerror (err):NULL);
	#ifdef HAVE_SYSLOG
	if (err)
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt error: "
	"integrity check using `%s' failed: %s",
	fname? fname:"[?]", gpg_strerror (err));
	#endif /HAVE_SYSLOG/
	gcry_free (fname);
	return !!err;
	#else
	return 0;
	#endif
	}


	/* Run the self-tests. If EXTENDED is true, extended versions of the
	selftest are run, that is more tests than required by FIPS. */
	gpg_err_code_t
	_gcry_fips_run_selftests (int extended)
	{
	enum module_states result = STATE_ERROR;
	gcry_err_code_t ec = GPG_ERR_SELFTEST_FAILED;

	if (fips_mode ())
	fips_new_state (STATE_SELFTEST);

	if (run_cipher_selftests (extended))
	goto leave;

	if (run_digest_selftests (extended))
	goto leave;

	if (run_hmac_selftests (extended))
	goto leave;

	/* Run random tests before the pubkey tests because the latter
	require random. */
	if (run_random_selftests ())
	goto leave;

	if (run_pubkey_selftests (extended))
	goto leave;

	/* Now check the integrity of the binary. We do this this after
	having checked the HMAC code. */
	if (check_binary_integrity ())
	goto leave;

	/* All selftests passed. */
	result = STATE_OPERATIONAL;
	ec = 0;

	leave:
	if (fips_mode ())
	fips_new_state (result);

	return ec;
	}


	/* This function is used to tell the FSM about errors in the library.
	The FSM will be put into an error state. This function should not
	be called directly but by one of the macros

	fips_signal_error (description)
	fips_signal_fatal_error (description)

	where DESCRIPTION is a string describing the error. */
	void
	_gcry_fips_signal_error (const char srcfile, int srcline, const char srcfunc,
	int is_fatal, const char *description)
	{
	if (!fips_mode ())
	return; /* Not required. */

	/* Set new state before printing an error. */
	fips_new_state (is_fatal? STATE_FATALERROR : STATE_ERROR);

	/* Print error. */
	log_info ("%serror in libgcrypt, file %s, line %d%s%s: %s\n",
	is_fatal? "fatal ":"",
	srcfile, srcline,
	srcfunc? ", function ":"", srcfunc? srcfunc:"",
	description? description : "no description available");
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt error: "
	"%serror in file %s, line %d%s%s: %s",
	is_fatal? "fatal ":"",
	srcfile, srcline,
	srcfunc? ", function ":"", srcfunc? srcfunc:"",
	description? description : "no description available");
	#endif /HAVE_SYSLOG/
	}


	/* Perform a state transition to NEW_STATE. If this is an invalid
	transition, the module will go into a fatal error state. */
	static void
	fips_new_state (enum module_states new_state)
	{
	int ok = 0;
	enum module_states last_state;

	lock_fsm ();

	last_state = current_state;
	switch (current_state)
	{
	case STATE_POWERON:
	if (new_state == STATE_INIT
	\|\| new_state == STATE_ERROR
	\|\| new_state == STATE_FATALERROR)
	ok = 1;
	break;

	case STATE_INIT:
	if (new_state == STATE_SELFTEST
	\|\| new_state == STATE_ERROR
	\|\| new_state == STATE_FATALERROR)
	ok = 1;
	break;

	case STATE_SELFTEST:
	if (new_state == STATE_OPERATIONAL
	\|\| new_state == STATE_ERROR
	\|\| new_state == STATE_FATALERROR)
	ok = 1;
	break;

	case STATE_OPERATIONAL:
	if (new_state == STATE_SHUTDOWN
	\|\| new_state == STATE_SELFTEST
	\|\| new_state == STATE_ERROR
	\|\| new_state == STATE_FATALERROR)
	ok = 1;
	break;

	case STATE_ERROR:
	if (new_state == STATE_SHUTDOWN
	\|\| new_state == STATE_ERROR
	\|\| new_state == STATE_FATALERROR
	\|\| new_state == STATE_SELFTEST)
	ok = 1;
	break;

	case STATE_FATALERROR:
	if (new_state == STATE_SHUTDOWN )
	ok = 1;
	break;

	case STATE_SHUTDOWN:
	/* We won't see any transition from Shutdown because the only
	allowed new state is Power-Off and that one can't be
	represented. */
	break;

	}

	if (ok)
	{
	current_state = new_state;
	}

	unlock_fsm ();

	if (!ok \|\| _gcry_log_verbosity (2))
	log_info ("libgcrypt state transition %s => %s %s\n",
	state2str (last_state), state2str (new_state),
	ok? "granted":"denied");

	if (!ok)
	{
	/* Invalid state transition. Halting library. */
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR,
	"Libgcrypt error: invalid state transition %s => %s",
	state2str (last_state), state2str (new_state));
	#endif /HAVE_SYSLOG/
	fips_noreturn ();
	}
	else if (new_state == STATE_ERROR \|\| new_state == STATE_FATALERROR)
	{
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_WARNING,
	"Libgcrypt notice: state transition %s => %s",
	state2str (last_state), state2str (new_state));
	#endif /HAVE_SYSLOG/
	}
	}




	/* This function should be called to ensure that the execution shall
	not continue. */
	void
	_gcry_fips_noreturn (void)
	{
	#ifdef HAVE_SYSLOG
	syslog (LOG_USER\|LOG_ERR, "Libgcrypt terminated the application");
	#endif /HAVE_SYSLOG/
	fflush (NULL);
	abort ();
	/NOTREACHED/
	}