/* misc.c * Copyright (C) 1999, 2001, 2002, 2003, 2007, * 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 . */ #include #include #include #include #include #include #include #include "g10lib.h" #include "secmem.h" #include "mpi.h" static int verbosity_level = 0; static void (*fatal_error_handler)(void*,int, const char*) = NULL; static void *fatal_error_handler_value = 0; static void (*log_handler)(void*,int, const char*, va_list) = NULL; static void *log_handler_value = 0; static const char *(*user_gettext_handler)( const char * ) = NULL; void _gcry_set_gettext_handler (const char *(*f)(const char*)) { user_gettext_handler = f; } const char * _gcry_gettext( const char *key ) { if( user_gettext_handler ) return user_gettext_handler( key ); /* FIXME: switch the domain to gnupg and restore later */ return key; } void _gcry_set_fatalerror_handler( void (*fnc)(void*,int, const char*), void *value) { fatal_error_handler_value = value; fatal_error_handler = fnc; } static void write2stderr( const char *s ) { /* Dummy variable to silence gcc warning. */ int res = write( 2, s, strlen(s) ); (void) res; } /* * This function is called for fatal errors. A caller might want to * set his own handler because this function simply calls abort(). */ void _gcry_fatal_error (int rc, const char *text) { if ( !text ) /* get a default text */ text = gpg_strerror (rc); if (fatal_error_handler && !fips_mode () ) fatal_error_handler (fatal_error_handler_value, rc, text); fips_signal_fatal_error (text); write2stderr("\nFatal error: "); write2stderr(text); write2stderr("\n"); _gcry_secmem_term (); abort (); } void _gcry_set_log_handler (void (*f)(void*,int, const char*, va_list), void *opaque) { log_handler = f; log_handler_value = opaque; } void _gcry_set_log_verbosity( int level ) { verbosity_level = level; } int _gcry_log_verbosity( int level ) { return verbosity_level >= level; } /**************** * This is our log function which prints all log messages to stderr or * using the function defined with gcry_set_log_handler(). */ void _gcry_logv( int level, const char *fmt, va_list arg_ptr ) { if (log_handler) log_handler (log_handler_value, level, fmt, arg_ptr); else { switch (level) { case GCRY_LOG_CONT: break; case GCRY_LOG_INFO: break; case GCRY_LOG_WARN: break; case GCRY_LOG_ERROR: break; case GCRY_LOG_FATAL: fputs("Fatal: ",stderr ); break; case GCRY_LOG_BUG: fputs("Ohhhh jeeee: ", stderr); break; case GCRY_LOG_DEBUG: fputs("DBG: ", stderr ); break; default: fprintf(stderr,"[Unknown log level %d]: ", level ); break; } vfprintf(stderr,fmt,arg_ptr) ; } if ( level == GCRY_LOG_FATAL || level == GCRY_LOG_BUG ) { fips_signal_fatal_error ("internal error (fatal or bug)"); _gcry_secmem_term (); abort (); } } void _gcry_log( int level, const char *fmt, ... ) { va_list arg_ptr ; va_start( arg_ptr, fmt ) ; _gcry_logv( level, fmt, arg_ptr ); va_end(arg_ptr); } #if defined(JNLIB_GCC_M_FUNCTION) || __STDC_VERSION__ >= 199901L void _gcry_bug( const char *file, int line, const char *func ) { _gcry_log( GCRY_LOG_BUG, ("... this is a bug (%s:%d:%s)\n"), file, line, func ); abort(); /* never called, but it makes the compiler happy */ } void _gcry_assert_failed (const char *expr, const char *file, int line, const char *func) { _gcry_log (GCRY_LOG_BUG, ("Assertion `%s' failed (%s:%d:%s)\n"), expr, file, line, func ); abort(); /* Never called, but it makes the compiler happy. */ } #else void _gcry_bug( const char *file, int line ) { _gcry_log( GCRY_LOG_BUG, _("you found a bug ... (%s:%d)\n"), file, line); abort(); /* never called, but it makes the compiler happy */ } void _gcry_assert_failed (const char *expr, const char *file, int line) { _gcry_log (GCRY_LOG_BUG, ("Assertion `%s' failed (%s:%d)\n"), expr, file, line); abort(); /* Never called, but it makes the compiler happy. */ } #endif void _gcry_log_info( const char *fmt, ... ) { va_list arg_ptr ; va_start( arg_ptr, fmt ) ; _gcry_logv( GCRY_LOG_INFO, fmt, arg_ptr ); va_end(arg_ptr); } int _gcry_log_info_with_dummy_fp (FILE *fp, const char *fmt, ... ) { va_list arg_ptr; (void)fp; va_start( arg_ptr, fmt ) ; _gcry_logv( GCRY_LOG_INFO, fmt, arg_ptr ); va_end(arg_ptr); return 0; } void _gcry_log_error( const char *fmt, ... ) { va_list arg_ptr ; va_start( arg_ptr, fmt ) ; _gcry_logv( GCRY_LOG_ERROR, fmt, arg_ptr ); va_end(arg_ptr); } void _gcry_log_fatal( const char *fmt, ... ) { va_list arg_ptr ; va_start( arg_ptr, fmt ) ; _gcry_logv( GCRY_LOG_FATAL, fmt, arg_ptr ); va_end(arg_ptr); abort(); /* never called, but it makes the compiler happy */ } void _gcry_log_bug( const char *fmt, ... ) { va_list arg_ptr ; va_start( arg_ptr, fmt ) ; _gcry_logv( GCRY_LOG_BUG, fmt, arg_ptr ); va_end(arg_ptr); abort(); /* never called, but it makes the compiler happy */ } void _gcry_log_debug( const char *fmt, ... ) { va_list arg_ptr ; va_start( arg_ptr, fmt ) ; _gcry_logv( GCRY_LOG_DEBUG, fmt, arg_ptr ); va_end(arg_ptr); } void _gcry_log_printf (const char *fmt, ...) { va_list arg_ptr; if (fmt) { va_start( arg_ptr, fmt ) ; _gcry_logv (GCRY_LOG_CONT, fmt, arg_ptr); va_end(arg_ptr); } } /* Helper for _gcry_log_printhex and _gcry_log_printmpi. */ static void do_printhex (const char *text, const char *text2, const void *buffer, size_t length) { int wrap = 0; int cnt = 0; if (text && *text) { wrap = 1; log_debug ("%s:%s", text, text2); if (text2[1] == '[' && length && buffer) { /* Start with a new line so that we get nice output for opaque MPIS: "value: [31 bit]" " 01020300" */ log_printf ("\n"); text2 = " "; log_debug ("%*s ", (int)strlen(text), ""); } } if (length) { const unsigned char *p = buffer; for (; length--; p++) { log_printf ("%02x", *p); if (wrap && ++cnt == 32 && length) { cnt = 0; log_printf (" \\\n"); log_debug ("%*s %*s", (int)strlen(text), "", (int)strlen(text2), ""); } } } if (text) log_printf ("\n"); } /* Print a hexdump of BUFFER. With TEXT of NULL print just the raw dump without any wrappping, with TEXT an empty string, print a trailing linefeed, otherwise print an entire debug line. */ void _gcry_log_printhex (const char *text, const void *buffer, size_t length) { do_printhex (text, " ", buffer, length); } /* Print MPI in hex notation. To make clear that the output is an MPI a sign is always printed. With TEXT of NULL print just the raw dump without any wrapping, with TEXT an empty string, print a trailing linefeed, otherwise print an entire debug line. */ void _gcry_log_printmpi (const char *text, gcry_mpi_t mpi) { unsigned char *rawmpi; unsigned int rawmpilen; int sign; if (!mpi) do_printhex (text? text:" ", " (null)", NULL, 0); else if (mpi_is_opaque (mpi)) { unsigned int nbits; const unsigned char *p; char prefix[30]; p = mpi_get_opaque (mpi, &nbits); _snprintf (prefix, sizeof prefix, " [%u bit]", nbits); do_printhex (text? text:" ", prefix, p, (nbits+7)/8); } else { rawmpi = _gcry_mpi_get_buffer (mpi, 0, &rawmpilen, &sign); if (!rawmpi) do_printhex (text? text:" ", " [out of core]", NULL, 0); else { if (!rawmpilen) do_printhex (text, sign? "-":"+", "", 1); else do_printhex (text, sign? "-":"+", rawmpi, rawmpilen); xfree (rawmpi); } } } static int count_closing_parens (const char *p) { int count = 0; for (; *p; p++) if (*p == ')') count++; else if (!strchr ("\n \t", *p)) return 0; return count; } /* Print SEXP in human readabale format. With TEXT of NULL print just the raw dump without any wrappping, with TEXT an empty string, print a trailing linefeed, otherwise print the full debug output. */ void _gcry_log_printsxp (const char *text, gcry_sexp_t sexp) { int with_lf = 0; if (text && *text) { if ((with_lf = !!strchr (text, '\n'))) log_debug ("%s", text); else log_debug ("%s: ", text); } if (sexp) { int any = 0; int n_closing; char *buf, *pend; const char *p; size_t size; size = sexp_sprint (sexp, GCRYSEXP_FMT_ADVANCED, NULL, 0); p = buf = xmalloc (size); sexp_sprint (sexp, GCRYSEXP_FMT_ADVANCED, buf, size); do { if (any && !with_lf) log_debug ("%*s ", (int)strlen(text), ""); else any = 1; pend = strchr (p, '\n'); size = pend? (pend - p) : strlen (p); if (with_lf) log_debug ("%.*s", (int)size, p); else log_printf ("%.*s", (int)size, p); if (pend) p = pend + 1; else p += size; n_closing = count_closing_parens (p); if (n_closing) { while (n_closing--) log_printf (")"); p = ""; } log_printf ("\n"); } while (*p); xfree (buf); } else if (text) log_printf ("\n"); } void __gcry_burn_stack (unsigned int bytes) { #ifdef HAVE_VLA /* (bytes == 0 ? 1 : bytes) == (!bytes + bytes) */ unsigned int buflen = ((!bytes + bytes) + 63) & ~63; volatile char buf[buflen]; wipememory (buf, sizeof buf); #else volatile char buf[64]; wipememory (buf, sizeof buf); if (bytes > sizeof buf) _gcry_burn_stack (bytes - sizeof buf); #endif } #ifndef HAVE_GCC_ASM_VOLATILE_MEMORY void __gcry_burn_stack_dummy (void) { } #endif void _gcry_divide_by_zero (void) { gpg_err_set_errno (EDOM); _gcry_fatal_error (gpg_err_code_from_errno (errno), "divide by zero"); }