int main( int argc, char * const argv[] )
#endif
{
libcstring_system_character_t acquiry_operating_system[ 32 ];
libcstring_system_character_t input_buffer[ EWFEXPORT_INPUT_BUFFER_SIZE ];
libcstring_system_character_t * const *argv_filenames = NULL;
liberror_error_t *error = NULL;
#if !defined( LIBSYSTEM_HAVE_GLOB )
libsystem_glob_t *glob = NULL;
#endif
libcstring_system_character_t *acquiry_software_version = NULL;
libcstring_system_character_t *log_filename = NULL;
libcstring_system_character_t *option_additional_digest_types = NULL;
libcstring_system_character_t *option_compression_level = NULL;
libcstring_system_character_t *option_format = NULL;
libcstring_system_character_t *option_header_codepage = NULL;
libcstring_system_character_t *option_maximum_segment_size = NULL;
libcstring_system_character_t *option_offset = NULL;
libcstring_system_character_t *option_process_buffer_size = NULL;
libcstring_system_character_t *option_sectors_per_chunk = NULL;
libcstring_system_character_t *option_size = NULL;
libcstring_system_character_t *option_target_filename = NULL;
libcstring_system_character_t *program = _LIBCSTRING_SYSTEM_STRING( "ewfexport" );
libcstring_system_character_t *request_string = NULL;
log_handle_t *log_handle = NULL;
libcstring_system_integer_t option = 0;
size64_t media_size = 0;
size_t string_length = 0;
uint8_t calculate_md5 = 1;
uint8_t print_status_information = 1;
uint8_t swap_byte_pairs = 0;
uint8_t verbose = 0;
uint8_t zero_chunk_on_error = 0;
int interactive_mode = 1;
int number_of_filenames = 0;
int result = 1;
libsystem_notify_set_stream(
stderr,
NULL );
libsystem_notify_set_verbose(
1 );
if( libsystem_initialize(
"ewftools",
&error ) != 1 )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Unable to initialize system values.\n" );
goto on_error;
}
#if defined( WINAPI ) && !defined( __CYGWIN__ )
#if defined( _MSC_VER )
if( _setmode(
_fileno(
stdout ),
_O_BINARY ) == -1 )
#else
if( setmode(
_fileno(
stdout ),
_O_BINARY ) == -1 )
#endif
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Unable to set stdout to binary mode.\n" );
usage_fprint(
stdout );
goto on_error;
}
#endif
while( ( option = libsystem_getopt(
argc,
argv,
_LIBCSTRING_SYSTEM_STRING( "A:b:B:c:d:f:hl:o:p:qsS:t:uvVw" ) ) ) != (libcstring_system_integer_t) -1 )
{
switch( option )
{
case (libcstring_system_integer_t) '?':
default:
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Invalid argument: %" PRIs_LIBCSTRING_SYSTEM ".\n",
argv[ optind - 1 ] );
usage_fprint(
stderr );
goto on_error;
case (libcstring_system_integer_t) 'A':
option_header_codepage = optarg;
break;
case (libcstring_system_integer_t) 'b':
option_sectors_per_chunk = optarg;
break;
case (libcstring_system_integer_t) 'B':
option_size = optarg;
break;
case (libcstring_system_integer_t) 'c':
option_compression_level = optarg;
break;
case (libcstring_system_integer_t) 'd':
option_additional_digest_types = optarg;
break;
case (libcstring_system_integer_t) 'f':
option_format = optarg;
break;
case (libcstring_system_integer_t) 'h':
ewfoutput_version_fprint(
stderr,
program );
usage_fprint(
stderr );
return( EXIT_SUCCESS );
case (libcstring_system_integer_t) 'l':
log_filename = optarg;
break;
case (libcstring_system_integer_t) 'o':
option_offset = optarg;
break;
case (libcstring_system_integer_t) 'p':
option_process_buffer_size = optarg;
break;
case (libcstring_system_integer_t) 'q':
print_status_information = 0;
break;
case (libcstring_system_integer_t) 's':
swap_byte_pairs = 1;
break;
case (libcstring_system_integer_t) 'S':
option_maximum_segment_size = optarg;
break;
case (libcstring_system_integer_t) 't':
option_target_filename = optarg;
break;
case (libcstring_system_integer_t) 'u':
interactive_mode = 0;
break;
case (libcstring_system_integer_t) 'v':
verbose = 1;
break;
case (libcstring_system_integer_t) 'V':
ewfoutput_version_fprint(
stderr,
program );
ewfoutput_copyright_fprint(
stderr );
return( EXIT_SUCCESS );
case (libcstring_system_integer_t) 'w':
zero_chunk_on_error = 1;
break;
}
}
if( optind == argc )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Missing EWF image file(s).\n" );
usage_fprint(
stderr );
goto on_error;
}
ewfoutput_version_fprint(
stderr,
program );
libsystem_notify_set_verbose(
verbose );
libewf_notify_set_verbose(
verbose );
libewf_notify_set_stream(
stderr,
NULL );
#if !defined( LIBSYSTEM_HAVE_GLOB )
if( libsystem_glob_initialize(
&glob,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to initialize glob.\n" );
goto on_error;
}
if( libsystem_glob_resolve(
glob,
&( argv[ optind ] ),
argc - optind,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to resolve glob.\n" );
goto on_error;
}
argv_filenames = glob->result;
number_of_filenames = glob->number_of_results;
#else
argv_filenames = &( argv[ optind ] );
number_of_filenames = argc - optind;
#endif
if( export_handle_initialize(
&ewfexport_export_handle,
calculate_md5,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to create export handle.\n" );
goto on_error;
}
if( libsystem_signal_attach(
ewfexport_signal_handler,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to attach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
result = export_handle_open_input(
ewfexport_export_handle,
argv_filenames,
number_of_filenames,
&error );
if( ewfexport_abort != 0 )
{
goto on_abort;
}
if( result != 1 )
{
fprintf(
stderr,
"Unable to open EWF file(s).\n" );
goto on_error;
}
#if !defined( LIBSYSTEM_HAVE_GLOB )
if( libsystem_glob_free(
&glob,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free glob.\n" );
goto on_error;
}
#endif
if( export_handle_get_input_media_size(
ewfexport_export_handle,
&media_size,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to retrieve input media size.\n" );
goto on_error;
}
if( option_header_codepage != NULL )
{
result = export_handle_set_header_codepage(
ewfexport_export_handle,
option_header_codepage,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set header codepage.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"Unsupported header codepage defaulting to: ascii.\n" );
}
}
if( option_target_filename != NULL )
{
if( export_handle_set_string(
ewfexport_export_handle,
option_target_filename,
&( ewfexport_export_handle->target_filename ),
&( ewfexport_export_handle->target_filename_size ),
&error ) != 1 )
{
fprintf(
stderr,
"Unable to set target filename.\n" );
goto on_error;
}
}
else if( interactive_mode == 0 )
{
/* Make sure the target filename is set in unattended mode
*/
if( export_handle_set_string(
ewfexport_export_handle,
_LIBCSTRING_SYSTEM_STRING( "export" ),
&( ewfexport_export_handle->target_filename ),
&( ewfexport_export_handle->target_filename_size ),
&error ) != 1 )
{
fprintf(
stderr,
"Unable to set target filename.\n" );
goto on_error;
}
}
if( option_compression_level != NULL )
{
result = export_handle_set_compression_values(
ewfexport_export_handle,
option_compression_level,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set compression values.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"Unsupported compression level defaulting to: none.\n" );
}
}
if( option_format != NULL )
{
result = export_handle_set_format(
ewfexport_export_handle,
option_format,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set format.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"Unsupported output format defaulting to: raw.\n" );
}
}
if( option_sectors_per_chunk != NULL )
{
result = export_handle_set_sectors_per_chunk(
ewfexport_export_handle,
option_sectors_per_chunk,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set sectors per chunk.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"Unsupported sectors per chunk defaulting to: 64.\n" );
}
}
if( option_maximum_segment_size != NULL )
{
result = export_handle_set_maximum_segment_size(
ewfexport_export_handle,
option_maximum_segment_size,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set maximum segment size.\n" );
goto on_error;
}
if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_EWF )
{
if( ( result == 0 )
|| ( ewfexport_export_handle->maximum_segment_size < EWFCOMMON_MINIMUM_SEGMENT_FILE_SIZE )
|| ( ( ewfexport_export_handle->ewf_format == LIBEWF_FORMAT_ENCASE6 )
&& ( ewfexport_export_handle->maximum_segment_size >= (uint64_t) EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_64BIT ) )
|| ( ( ewfexport_export_handle->ewf_format != LIBEWF_FORMAT_ENCASE6 )
&& ( ewfexport_export_handle->maximum_segment_size >= (uint64_t) EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_32BIT ) ) )
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_DEFAULT_SEGMENT_FILE_SIZE;
fprintf(
stderr,
"Unsupported maximum segment size defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->maximum_segment_size );
}
}
else if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_RAW )
{
if( ( result == 0 )
|| ( ( ewfexport_export_handle->maximum_segment_size != 0 )
&& ( ewfexport_export_handle->maximum_segment_size >= (uint64_t) EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_64BIT ) ) )
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_DEFAULT_SEGMENT_FILE_SIZE;
fprintf(
stderr,
"Unsupported maximum segment size defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->maximum_segment_size );
}
}
}
if( option_offset != NULL )
{
string_length = libcstring_system_string_length(
option_offset );
if( libsystem_string_to_uint64(
option_offset,
string_length + 1,
&ewfexport_export_handle->export_offset,
&error ) != 1 )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
ewfexport_export_handle->export_offset = 0;
fprintf(
stderr,
"Unsupported export offset defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->export_offset );
}
}
if( option_size != NULL )
{
string_length = libcstring_system_string_length(
option_size );
if( libsystem_string_to_uint64(
option_size,
string_length + 1,
&ewfexport_export_handle->export_size,
&error ) != 1 )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
ewfexport_export_handle->export_size = 0;
fprintf(
stderr,
"Unsupported export size defaulting to: all bytes.\n" );
}
}
if( option_process_buffer_size != NULL )
{
result = export_handle_set_process_buffer_size(
ewfexport_export_handle,
option_process_buffer_size,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set process buffer size.\n" );
goto on_error;
}
else if( ( result == 0 )
|| ( ewfexport_export_handle->process_buffer_size > (size_t) SSIZE_MAX ) )
{
ewfexport_export_handle->process_buffer_size = 0;
fprintf(
stderr,
"Unsupported process buffer size defaulting to: chunk size.\n" );
}
}
if( option_additional_digest_types != NULL )
{
result = export_handle_set_additional_digest_types(
ewfexport_export_handle,
option_additional_digest_types,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set additional digest types.\n" );
goto on_error;
}
}
/* Initialize values
*/
if( ( ewfexport_export_handle->export_size == 0 )
|| ( ewfexport_export_handle->export_size > ( media_size - ewfexport_export_handle->export_offset ) ) )
{
ewfexport_export_handle->export_size = media_size - ewfexport_export_handle->export_offset;
}
/* Request the necessary case data
*/
if( interactive_mode != 0 )
{
if( libsystem_signal_detach(
&error ) != 1 )
{
fprintf(
stderr,
"Unable to detach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
fprintf(
stderr,
"Information for export required, please provide the necessary input\n" );
if( option_format == NULL )
{
result = export_handle_prompt_for_format(
ewfexport_export_handle,
_LIBCSTRING_SYSTEM_STRING( "Export to format" ),
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to determine format.\n" );
goto on_error;
}
}
if( option_target_filename == NULL )
{
if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_EWF )
{
request_string = _LIBCSTRING_SYSTEM_STRING( "Target path and filename without extension" );
}
else if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_FILES )
{
request_string = _LIBCSTRING_SYSTEM_STRING( "Target path" );
}
else if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_RAW )
{
request_string = _LIBCSTRING_SYSTEM_STRING( "Target path and filename without extension or - for stdout" );
}
}
if( request_string != NULL )
{
do
{
result = export_handle_prompt_for_string(
ewfexport_export_handle,
request_string,
&( ewfexport_export_handle->target_filename ),
&( ewfexport_export_handle->target_filename_size ),
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to determine target.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stdout,
"Target is required, please try again or terminate using Ctrl^C.\n" );
}
}
while( result != 1 );
}
if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_EWF )
{
if( option_compression_level == NULL )
{
result = export_handle_prompt_for_compression_level(
ewfexport_export_handle,
_LIBCSTRING_SYSTEM_STRING( "Use compression" ),
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to determine compression level.\n" );
goto on_error;
}
}
if( option_maximum_segment_size == NULL )
{
result = export_handle_prompt_for_maximum_segment_size(
ewfexport_export_handle,
_LIBCSTRING_SYSTEM_STRING( "Evidence segment file size in bytes" ),
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to determine maximum segment size.\n" );
goto on_error;
}
if( ( ewfexport_export_handle->maximum_segment_size < EWFCOMMON_MINIMUM_SEGMENT_FILE_SIZE )
|| ( ( ewfexport_export_handle->ewf_format == LIBEWF_FORMAT_ENCASE6 )
&& ( ewfexport_export_handle->maximum_segment_size >= (uint64_t) EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_64BIT ) )
|| ( ( ewfexport_export_handle->ewf_format != LIBEWF_FORMAT_ENCASE6 )
&& ( ewfexport_export_handle->maximum_segment_size >= (uint64_t) EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_32BIT ) ) )
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_DEFAULT_SEGMENT_FILE_SIZE;
fprintf(
stderr,
"Unsupported maximum segment size defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->maximum_segment_size );
}
}
if( option_sectors_per_chunk == NULL )
{
result = export_handle_prompt_for_sectors_per_chunk(
ewfexport_export_handle,
_LIBCSTRING_SYSTEM_STRING( "The number of sectors to read at once" ),
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to determine sectors per chunk.\n" );
goto on_error;
}
}
}
else if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_RAW )
{
if( ( ewfexport_export_handle->target_filename != NULL )
&& ( ( ewfexport_export_handle->target_filename )[ 0 ] == (libcstring_system_character_t) '-' )
&& ( ( ewfexport_export_handle->target_filename )[ 1 ] == 0 ) )
{
/* No need for segment files when exporting to stdout */
}
else if( option_maximum_segment_size == NULL )
{
result = export_handle_prompt_for_maximum_segment_size(
ewfexport_export_handle,
_LIBCSTRING_SYSTEM_STRING( "Evidence segment file size in bytes (0 is unlimited)" ),
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to determine maximum segment size.\n" );
goto on_error;
}
if( ( ewfexport_export_handle->maximum_segment_size != 0 )
&& ( ewfexport_export_handle->maximum_segment_size >= (uint64_t) EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_64BIT ) )
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_DEFAULT_SEGMENT_FILE_SIZE;
fprintf(
stderr,
"Unsupported maximum segment size defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->maximum_segment_size );
}
}
}
if( ( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_EWF )
|| ( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_RAW ) )
{
if( option_offset == NULL )
{
if( ewfinput_get_size_variable(
stderr,
input_buffer,
EWFEXPORT_INPUT_BUFFER_SIZE,
_LIBCSTRING_SYSTEM_STRING( "Start export at offset" ),
0,
media_size,
ewfexport_export_handle->export_offset,
&( ewfexport_export_handle->export_offset ),
&error ) == -1 )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
ewfexport_export_handle->export_offset = 0;
fprintf(
stderr,
"Unable to determine export offset defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->export_offset );
}
}
if( option_size == NULL )
{
if( ewfinput_get_size_variable(
stderr,
input_buffer,
EWFEXPORT_INPUT_BUFFER_SIZE,
_LIBCSTRING_SYSTEM_STRING( "Number of bytes to export" ),
0,
media_size - ewfexport_export_handle->export_offset,
ewfexport_export_handle->export_size,
&( ewfexport_export_handle->export_size ),
&error ) == -1 )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
ewfexport_export_handle->export_size = media_size - ewfexport_export_handle->export_offset;
fprintf(
stderr,
"Unable to determine export size defaulting to: %" PRIu64 ".\n",
ewfexport_export_handle->export_size );
}
}
}
if( libsystem_signal_attach(
ewfexport_signal_handler,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to attach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
}
else
{
if( ewfexport_export_handle->maximum_segment_size == 0 )
{
if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_EWF )
{
if( ewfexport_export_handle->ewf_format == LIBEWF_FORMAT_ENCASE6 )
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_64BIT;
}
else
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_32BIT;
}
}
else if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_RAW )
{
ewfexport_export_handle->maximum_segment_size = EWFCOMMON_MAXIMUM_SEGMENT_FILE_SIZE_64BIT;
}
}
}
fprintf(
stderr,
"\n" );
if( log_filename != NULL )
{
if( log_handle_initialize(
&log_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to create log handle.\n" );
goto on_error;
}
if( log_handle_open(
log_handle,
log_filename,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to open log file: %" PRIs_LIBCSTRING_SYSTEM ".\n",
log_filename );
goto on_error;
}
}
if( ewfexport_export_handle->output_format == EXPORT_HANDLE_OUTPUT_FORMAT_FILES )
{
result = export_handle_export_single_files(
ewfexport_export_handle,
ewfexport_export_handle->target_filename,
print_status_information,
log_handle,
&error );
if( result != 1 )
{
fprintf(
stderr,
"Unable to export single files.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
}
else
{
if( export_handle_open_output(
ewfexport_export_handle,
ewfexport_export_handle->target_filename,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to open output.\n" );
goto on_error;
}
if( platform_get_operating_system(
acquiry_operating_system,
32,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to determine operating system.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
acquiry_operating_system[ 0 ] = 0;
}
acquiry_software_version = _LIBCSTRING_SYSTEM_STRING( LIBEWF_VERSION_STRING );
if( export_handle_set_output_values(
ewfexport_export_handle,
acquiry_operating_system,
program,
acquiry_software_version,
zero_chunk_on_error,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to set output values.\n" );
goto on_error;
}
result = export_handle_export_input(
ewfexport_export_handle,
swap_byte_pairs,
print_status_information,
log_handle,
&error );
if( result != 1 )
{
fprintf(
stderr,
"Unable to export input.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
}
if( log_handle != NULL )
{
if( log_handle_close(
log_handle,
&error ) != 0 )
{
fprintf(
stderr,
"Unable to close log file: %" PRIs_LIBCSTRING_SYSTEM ".\n",
log_filename );
goto on_error;
}
if( log_handle_free(
&log_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free log handle.\n" );
goto on_error;
}
}
on_abort:
if( export_handle_close(
ewfexport_export_handle,
&error ) != 0 )
{
fprintf(
stderr,
"Unable to close export handle.\n" );
goto on_error;
}
if( libsystem_signal_detach(
&error ) != 1 )
{
fprintf(
stderr,
"Unable to detach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( export_handle_free(
&ewfexport_export_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free export handle.\n" );
goto on_error;
}
if( ewfexport_abort != 0 )
{
fprintf(
stdout,
"%" PRIs_LIBCSTRING_SYSTEM ": ABORTED\n",
program );
return( EXIT_FAILURE );
}
if( result != 1 )
{
fprintf(
stdout,
"%" PRIs_LIBCSTRING_SYSTEM ": FAILURE\n",
program );
return( EXIT_FAILURE );
}
fprintf(
stdout,
"%" PRIs_LIBCSTRING_SYSTEM ": SUCCESS\n",
program );
return( EXIT_SUCCESS );
on_error:
if( error != NULL )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( log_handle != NULL )
{
log_handle_close(
log_handle,
NULL );
log_handle_free(
&log_handle,
NULL );
}
if( ewfexport_export_handle != NULL )
{
export_handle_close(
ewfexport_export_handle,
NULL );
export_handle_free(
&ewfexport_export_handle,
NULL );
}
#if !defined( LIBSYSTEM_HAVE_GLOB )
if( glob != NULL )
{
libsystem_glob_free(
&glob,
NULL );
}
#endif
return( EXIT_FAILURE );
}
int main( int argc, char * const argv[] )
#endif
{
libesedb_error_t *error = NULL;
libcstring_system_character_t *source = NULL;
char *program = "esedbinfo";
libcstring_system_integer_t option = 0;
int verbose = 0;
libsystem_notify_set_stream(
stderr,
NULL );
libsystem_notify_set_verbose(
1 );
if( libsystem_initialize(
"esedbtools",
_IONBF,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to initialize system values.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
return( EXIT_FAILURE );
}
esedboutput_version_fprint(
stdout,
program );
while( ( option = libsystem_getopt(
argc,
argv,
_LIBCSTRING_SYSTEM_STRING( "hvV" ) ) ) != (libcstring_system_integer_t) -1 )
{
switch( option )
{
case (libcstring_system_integer_t) '?':
default:
fprintf(
stderr,
"Invalid argument: %" PRIs_LIBCSTRING_SYSTEM "\n",
argv[ optind - 1 ] );
usage_fprint(
stdout );
return( EXIT_FAILURE );
case (libcstring_system_integer_t) 'h':
usage_fprint(
stdout );
return( EXIT_SUCCESS );
case (libcstring_system_integer_t) 'v':
verbose = 1;
break;
case (libcstring_system_integer_t) 'V':
esedboutput_copyright_fprint(
stdout );
return( EXIT_SUCCESS );
}
}
if( optind == argc )
{
fprintf(
stderr,
"Missing source file.\n" );
usage_fprint(
stdout );
return( EXIT_FAILURE );
}
source = argv[ optind ];
libsystem_notify_set_verbose(
verbose );
libesedb_notify_set_stream(
stderr,
NULL );
libesedb_notify_set_verbose(
verbose );
if( info_handle_initialize(
&esedbinfo_info_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to initialize info handle.\n" );
goto on_error;
}
if( info_handle_open(
esedbinfo_info_handle,
source,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to open: %" PRIs_LIBCSTRING_SYSTEM ".\n",
source );
goto on_error;
}
if( info_handle_file_fprint(
esedbinfo_info_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to print file information.\n" );
goto on_error;
}
if( info_handle_close(
esedbinfo_info_handle,
&error ) != 0 )
{
fprintf(
stderr,
"Unable to close info handle.\n" );
goto on_error;
}
if( info_handle_free(
&esedbinfo_info_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free info handle.\n" );
goto on_error;
}
return( EXIT_SUCCESS );
on_error:
if( error != NULL )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( esedbinfo_info_handle != NULL )
{
info_handle_free(
&esedbinfo_info_handle,
NULL );
}
return( EXIT_FAILURE );
}
int main( int argc, char * const argv[] )
#endif
{
libcstring_system_character_t *target_filename = NULL;
liberror_error_t *error = NULL;
libewf_handle_t *handle = NULL;
libcstring_system_integer_t option = 0;
off64_t read_offset = 0;
size64_t media_size = 0;
size64_t read_size = 0;
size32_t chunk_size = 0;
size_t delta_segment_filename_length = 0;
while( ( option = libsystem_getopt(
argc,
argv,
_LIBCSTRING_SYSTEM_STRING( "t:" ) ) ) != (libcstring_system_integer_t) -1 )
{
switch( option )
{
case (libcstring_system_integer_t) '?':
default:
fprintf(
stderr,
"Invalid argument: %" PRIs_LIBCSTRING_SYSTEM ".\n",
argv[ optind - 1 ] );
return( EXIT_FAILURE );
case (libcstring_system_integer_t) 't':
target_filename = optarg;
break;
}
}
if( optind == argc )
{
fprintf(
stderr,
"Missing EWF image filename(s).\n" );
return( EXIT_FAILURE );
}
/* Initialization
*/
if( libewf_handle_initialize(
&handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to create handle.\n" );
goto on_error;
}
/*
#if defined( HAVE_DEBUG_OUTPUT )
libewf_notify_set_verbose(
1 );
libewf_notify_set_stream(
stderr,
NULL );
#endif
*/
#if defined( LIBCSTRING_HAVE_WIDE_SYSTEM_CHARACTER )
if( libewf_handle_open_wide(
handle,
&( argv[ optind ] ),
argc - optind,
LIBEWF_OPEN_READ_WRITE,
&error ) != 1 )
#else
if( libewf_handle_open(
handle,
&( argv[ optind ] ),
argc - optind,
LIBEWF_OPEN_READ_WRITE,
&error ) != 1 )
#endif
{
fprintf(
stderr,
"Unable to open file(s).\n" );
goto on_error;
}
if( target_filename != NULL )
{
delta_segment_filename_length = libcstring_system_string_length(
target_filename );
#if defined( LIBCSTRING_HAVE_WIDE_SYSTEM_CHARACTER )
if( libewf_handle_set_delta_segment_filename_wide(
handle,
target_filename,
delta_segment_filename_length,
&error ) != 1 )
#else
if( libewf_handle_set_delta_segment_filename(
handle,
target_filename,
delta_segment_filename_length,
&error ) != 1 )
#endif
{
fprintf(
stderr,
"Unable to set delta segment filename.\n" );
goto on_error;
}
}
if( libewf_handle_get_media_size(
handle,
&media_size,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to retrieve media size.\n" );
goto on_error;
}
if( media_size > (size64_t) INT64_MAX )
{
fprintf(
stderr,
"Media size exceeds maximum.\n" );
goto on_error;
}
if( libewf_handle_get_chunk_size(
handle,
&chunk_size,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to retrieve chunk size.\n" );
goto on_error;
}
if( chunk_size == 0 )
{
fprintf(
stderr,
"Invalid chunk size.\n" );
goto on_error;
}
fprintf(
stdout,
"Media size: %" PRIu64 " bytes\n",
media_size );
/* Case 0: test full read
*/
/* Test: offset: 0 size: <media_size>
* Expected result: offset: 0 size: <media_size>
*/
read_offset = 0;
read_size = media_size;
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
/* Case 1: test random read
*/
/* Test: offset: <media_size / 7> size: <media_size / 2>
* Expected result: offset: <media_size / 7> size: <media_size / 2>
*/
read_offset = (off64_t) ( media_size / 7 );
read_size = media_size / 2;
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
/* Case 2: test read buffer beyond media size
*/
if( media_size < 1024 )
{
/* Test: offset: <media_size - 1024> size: 4096
* Expected result: offset: -1 size: <undetermined>
*/
read_offset = (off64_t) ( media_size - 1024 );
read_size = 4096;
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
-1,
(size64_t) -1 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
-1,
(size64_t) -1 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
}
else
{
/* Test: offset: <media_size - 1024> size: 4096
* Expected result: offset: <media_size - 1024> size: 1024
*/
read_offset = (off64_t) ( media_size - 1024 );
read_size = 4096;
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
read_offset,
1024 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
if( ewf_test_read_write_buffer_at_offset(
handle,
read_offset,
SEEK_SET,
read_size,
read_offset,
1024 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write buffer.\n" );
goto on_error;
}
}
fprintf(
stdout,
"\nChunk size: %" PRIu32 " bytes\n",
chunk_size );
/* Case 0: test full read
*/
/* Test: offset: 0 size: <media_size>
* Expected result: offset: 0 size: <media_size>
*/
read_offset = 0;
read_size = media_size;
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
/* Case 1: test random read
*/
/* Test: offset: <( ( media_size / 7 ) / chunk_size ) * chunk_size> size: <( ( ( media_size / 2 ) / chunk_size ) + 1 ) * chunk_size>
* Expected result: offset: <( ( media_size / 7 ) / chunk_size ) * chunk_size> size: <( ( ( media_size / 2 ) / chunk_size ) + 1 ) * chunk_size>
*/
read_offset = (off64_t) ( ( media_size / 7 ) / chunk_size ) * chunk_size;
read_size = ( ( ( media_size / 2 ) / chunk_size ) + 1 ) * chunk_size;
if( media_size == 0 )
{
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
read_offset,
0 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
read_offset,
0 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
}
else
{
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
read_offset,
read_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
}
/* Case 2: test read chunk beyond media size
*/
if( media_size < 1024 )
{
/* Test: offset: <media_size - 1024> size: chunk_size
* Expected result: offset: -1 size: <undetermined>
*/
read_offset = (off64_t) ( media_size - 1024 );
read_size = chunk_size;
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
-1,
(size64_t) -1 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
-1,
(size64_t) -1 ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
}
else
{
/* Test: offset: <media_size - 1024> size: chunk_size
* Expected result: offset: <media_size - 1024> size: chunk size or media_size % chunk_size
*/
read_offset = (off64_t) ( media_size - 1024 );
read_size = chunk_size;
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
(off64_t) ( media_size - 1024 ),
( ( media_size % chunk_size ) == 0 ) ? chunk_size : media_size % chunk_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
if( ewf_test_read_write_chunk_at_offset(
handle,
chunk_size,
read_offset,
SEEK_SET,
read_size,
(off64_t) ( media_size - 1024 ),
( ( media_size % chunk_size ) == 0 ) ? chunk_size : media_size % chunk_size ) != 1 )
{
fprintf(
stderr,
"Unable to test read/write chunk.\n" );
goto on_error;
}
}
/* Clean up
*/
if( libewf_handle_close(
handle,
&error ) != 0 )
{
fprintf(
stderr,
"Unable to close file(s).\n" );
goto on_error;
}
if( libewf_handle_free(
&handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free handle.\n" );
goto on_error;
}
return( EXIT_SUCCESS );
on_error:
if( error != NULL )
{
libewf_error_backtrace_fprint(
error,
stderr );
libewf_error_free(
&error );
}
if( handle != NULL )
{
libewf_handle_close(
handle,
NULL );
libewf_handle_free(
&handle,
NULL );
}
return( EXIT_FAILURE );
}
int main( int argc, char * const argv[] )
#endif
{
libcstring_system_character_t * const *argv_filenames = NULL;
#if !defined( LIBSYSTEM_HAVE_GLOB )
libsystem_glob_t *glob = NULL;
#endif
liberror_error_t *error = NULL;
libcstring_system_character_t *option_date_format = NULL;
libcstring_system_character_t *option_header_codepage = NULL;
libcstring_system_character_t *option_output_format = NULL;
libcstring_system_character_t *program = _LIBCSTRING_SYSTEM_STRING( "ewfinfo" );
libcstring_system_integer_t option = 0;
uint8_t verbose = 0;
char info_option = 'a';
int number_of_filenames = 0;
int print_header = 1;
int result = 0;
libsystem_notify_set_stream(
stderr,
NULL );
libsystem_notify_set_verbose(
1 );
if( libsystem_initialize(
"ewftools",
_IONBF,
&error ) != 1 )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Unable to initialize system values.\n" );
goto on_error;
}
while( ( option = libsystem_getopt(
argc,
argv,
_LIBCSTRING_SYSTEM_STRING( "A:d:ef:himvV" ) ) ) != (libcstring_system_integer_t) -1 )
{
switch( option )
{
case (libcstring_system_integer_t) '?':
default:
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Invalid argument: %" PRIs_LIBCSTRING_SYSTEM "\n",
argv[ optind - 1 ] );
usage_fprint(
stdout );
goto on_error;
case (libcstring_system_integer_t) 'A':
option_header_codepage = optarg;
break;
case (libcstring_system_integer_t) 'd':
option_date_format = optarg;
break;
case (libcstring_system_integer_t) 'e':
if( info_option != 'a' )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Conflicting options: %" PRIc_LIBCSTRING_SYSTEM " and %c\n",
option,
info_option );
usage_fprint(
stdout );
goto on_error;
}
info_option = 'e';
break;
case (libcstring_system_integer_t) 'f':
option_output_format = optarg;
break;
case (libcstring_system_integer_t) 'h':
ewfoutput_version_fprint(
stdout,
program );
usage_fprint(
stdout );
return( EXIT_SUCCESS );
case (libcstring_system_integer_t) 'i':
if( info_option != 'a' )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Conflicting options: %" PRIc_LIBCSTRING_SYSTEM " and %c\n",
option,
info_option );
usage_fprint(
stdout );
goto on_error;
}
info_option = 'i';
break;
case (libcstring_system_integer_t) 'm':
if( info_option != 'a' )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Conflicting options: %" PRIc_LIBCSTRING_SYSTEM " and %c\n",
option,
info_option );
usage_fprint(
stdout );
goto on_error;
}
info_option = 'm';
break;
case (libcstring_system_integer_t) 'v':
verbose = 1;
break;
case (libcstring_system_integer_t) 'V':
ewfoutput_version_fprint(
stdout,
program );
ewfoutput_copyright_fprint(
stdout );
return( EXIT_SUCCESS );
}
}
if( optind == argc )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Missing EWF image file(s).\n" );
usage_fprint(
stdout );
goto on_error;
}
libsystem_notify_set_verbose(
verbose );
libewf_notify_set_verbose(
verbose );
libewf_notify_set_stream(
stderr,
NULL );
if( info_handle_initialize(
&ewfinfo_info_handle,
&error ) != 1 )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Unable to create info handle.\n" );
goto on_error;
}
if( option_output_format != NULL )
{
result = info_handle_set_output_format(
ewfinfo_info_handle,
option_output_format,
&error );
if( result == -1 )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Unable to set output format.\n" );
goto on_error;
}
else if( result == 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
fprintf(
stderr,
"Unsupported output format defaulting to: text.\n" );
}
}
if( ewfinfo_info_handle->output_format == INFO_HANDLE_OUTPUT_FORMAT_DFXML )
{
if( info_handle_dfxml_header_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
ewfoutput_version_fprint(
stderr,
program );
fprintf(
stderr,
"Unable to print header.\n" );
goto on_error;
}
}
else if( ewfinfo_info_handle->output_format == INFO_HANDLE_OUTPUT_FORMAT_TEXT )
{
ewfoutput_version_fprint(
stdout,
program );
print_header = 0;
}
if( ( option_output_format == NULL )
&& ( option_date_format != NULL ) )
{
result = info_handle_set_date_format(
ewfinfo_info_handle,
option_date_format,
&error );
if( result == -1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to set date format.\n" );
goto on_error;
}
else if( result == 0 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unsupported date format defaulting to: ctime.\n" );
}
}
if( option_header_codepage != NULL )
{
result = info_handle_set_header_codepage(
ewfinfo_info_handle,
option_header_codepage,
&error );
if( result == -1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to set header codepage in info handle.\n" );
goto on_error;
}
else if( result == 0 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unsupported header codepage defaulting to: ascii.\n" );
}
}
#if !defined( LIBSYSTEM_HAVE_GLOB )
if( libsystem_glob_initialize(
&glob,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to initialize glob.\n" );
goto on_error;
}
if( libsystem_glob_resolve(
glob,
&( argv[ optind ] ),
argc - optind,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to resolve glob.\n" );
goto on_error;
}
argv_filenames = glob->result;
number_of_filenames = glob->number_of_results;
#else
argv_filenames = &( argv[ optind ] );
number_of_filenames = argc - optind;
#endif
if( libsystem_signal_attach(
ewfinfo_signal_handler,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to attach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
result = info_handle_open_input(
ewfinfo_info_handle,
argv_filenames,
number_of_filenames,
&error );
if( ewfinfo_abort != 0 )
{
goto on_abort;
}
if( result != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to open EWF file(s).\n" );
goto on_error;
}
#if !defined( LIBSYSTEM_HAVE_GLOB )
if( libsystem_glob_free(
&glob,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to free glob.\n" );
goto on_error;
}
#endif
if( ( info_option == 'a' )
|| ( info_option == 'i' ) )
{
if( info_handle_header_values_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print header values.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
}
if( ( info_option == 'a' )
|| ( info_option == 'm' ) )
{
if( info_handle_media_information_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print media information.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( info_handle_hash_values_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print hash values.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( info_handle_sessions_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print sessions.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( info_handle_tracks_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print tracks.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
}
if( ( info_option == 'a' )
|| ( info_option == 'e' ) )
{
if( info_handle_acquiry_errors_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print acquiry errors.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
}
if( info_handle_single_files_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print single files.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( ewfinfo_info_handle->output_format == INFO_HANDLE_OUTPUT_FORMAT_DFXML )
{
if( info_handle_dfxml_footer_fprint(
ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to print footer.\n" );
goto on_error;
}
}
on_abort:
if( info_handle_close(
ewfinfo_info_handle,
&error ) != 0 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to close info handle.\n" );
goto on_error;
}
if( libsystem_signal_detach(
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to detach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( info_handle_free(
&ewfinfo_info_handle,
&error ) != 1 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stderr,
"Unable to free info handle.\n" );
goto on_error;
}
if( ewfinfo_abort != 0 )
{
if( print_header != 0 )
{
ewfoutput_version_fprint(
stderr,
program );
print_header = 0;
}
fprintf(
stdout,
"%" PRIs_LIBCSTRING_SYSTEM ": ABORTED\n",
program );
return( EXIT_FAILURE );
}
return( EXIT_SUCCESS );
on_error:
if( error != NULL )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( ewfinfo_info_handle != NULL )
{
info_handle_free(
&ewfinfo_info_handle,
NULL );
}
#if !defined( LIBSYSTEM_HAVE_GLOB )
if( glob != NULL )
{
libsystem_glob_free(
&glob,
NULL );
}
#endif
return( EXIT_FAILURE );
}
int main( int argc, char * const argv[] )
#endif
{
libcstring_system_character_t *option_chunk_size = NULL;
libcstring_system_character_t *option_compression_level = NULL;
libcstring_system_character_t *option_maximum_segment_size = NULL;
libcstring_system_character_t *option_media_size = NULL;
liberror_error_t *error = NULL;
libcstring_system_integer_t option = 0;
size64_t chunk_size = 0;
size64_t maximum_segment_size = 0;
size64_t media_size = 0;
size_t string_length = 0;
uint8_t compression_flags = 0;
int8_t compression_level = LIBEWF_COMPRESSION_NONE;
while( ( option = libsystem_getopt(
argc,
argv,
_LIBCSTRING_SYSTEM_STRING( "b:B:c:S:" ) ) ) != (libcstring_system_integer_t) -1 )
{
switch( option )
{
case (libcstring_system_integer_t) '?':
default:
fprintf(
stderr,
"Invalid argument: %" PRIs_LIBCSTRING_SYSTEM ".\n",
argv[ optind - 1 ] );
return( EXIT_FAILURE );
case (libcstring_system_integer_t) 'b':
option_chunk_size = optarg;
break;
case (libcstring_system_integer_t) 'c':
option_compression_level = optarg;
break;
case (libcstring_system_integer_t) 'B':
option_media_size = optarg;
break;
case (libcstring_system_integer_t) 'S':
option_maximum_segment_size = optarg;
break;
}
}
if( optind == argc )
{
fprintf(
stderr,
"Missing EWF image filename.\n" );
return( EXIT_FAILURE );
}
if( option_chunk_size != NULL )
{
string_length = libcstring_system_string_length(
option_chunk_size );
if( libsystem_string_decimal_copy_to_64_bit(
option_chunk_size,
string_length + 1,
&chunk_size,
&error ) != 1 )
{
fprintf(
stderr,
"Unsupported chunk size.\n" );
goto on_error;
}
}
if( option_compression_level != NULL )
{
string_length = libcstring_system_string_length(
option_compression_level );
if( string_length != 1 )
{
fprintf(
stderr,
"Unsupported compression level.\n" );
goto on_error;
}
if( option_compression_level[ 0 ] == (libcstring_system_character_t) 'n' )
{
compression_level = LIBEWF_COMPRESSION_NONE;
compression_flags = 0;
}
else if( option_compression_level[ 0 ] == (libcstring_system_character_t) 'e' )
{
compression_level = LIBEWF_COMPRESSION_NONE;
compression_flags = LIBEWF_FLAG_COMPRESS_EMPTY_BLOCK;
}
else if( option_compression_level[ 0 ] == (libcstring_system_character_t) 'f' )
{
compression_level = LIBEWF_COMPRESSION_FAST;
compression_flags = 0;
}
else if( option_compression_level[ 0 ] == (libcstring_system_character_t) 'b' )
{
compression_level = LIBEWF_COMPRESSION_BEST;
compression_flags = 0;
}
else
{
fprintf(
stderr,
"Unsupported compression level.\n" );
goto on_error;
}
}
if( option_maximum_segment_size != NULL )
{
string_length = libcstring_system_string_length(
option_maximum_segment_size );
if( libsystem_string_decimal_copy_to_64_bit(
option_maximum_segment_size,
string_length + 1,
&maximum_segment_size,
&error ) != 1 )
{
fprintf(
stderr,
"Unsupported maximum segment size.\n" );
goto on_error;
}
}
if( option_media_size != NULL )
{
string_length = libcstring_system_string_length(
option_media_size );
if( libsystem_string_decimal_copy_to_64_bit(
option_media_size,
string_length + 1,
&media_size,
&error ) != 1 )
{
fprintf(
stderr,
"Unsupported media size.\n" );
goto on_error;
}
}
if( ewf_test_write_chunk(
argv[ optind ],
media_size,
maximum_segment_size,
compression_level,
compression_flags,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to test write.\n" );
goto on_error;
}
return( EXIT_SUCCESS );
on_error:
if( error != NULL )
{
libewf_error_backtrace_fprint(
error,
stderr );
libewf_error_free(
&error );
}
return( EXIT_FAILURE );
}
int main( int argc, char * const argv[] )
#endif
{
libcstring_system_character_t *log_filename = NULL;
libcstring_system_character_t *option_ascii_codepage = NULL;
libcstring_system_character_t *option_export_mode = NULL;
libcstring_system_character_t *option_table_name = NULL;
libcstring_system_character_t *option_target_path = NULL;
libcstring_system_character_t *path_separator = NULL;
libcstring_system_character_t *source = NULL;
liberror_error_t *error = NULL;
log_handle_t *log_handle = NULL;
char *program = "esedbexport";
size_t source_length = 0;
size_t option_table_name_length = 0;
libcstring_system_integer_t option = 0;
int result = 0;
int verbose = 0;
libsystem_notify_set_stream(
stderr,
NULL );
libsystem_notify_set_verbose(
1 );
if( libsystem_initialize(
"esedbtools",
_IONBF,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to initialize system values.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
return( EXIT_FAILURE );
}
esedboutput_version_fprint(
stdout,
program );
while( ( option = libsystem_getopt(
argc,
argv,
_LIBCSTRING_SYSTEM_STRING( "c:hl:m:t:T:vV" ) ) ) != (libcstring_system_integer_t) -1 )
{
switch( option )
{
case (libcstring_system_integer_t) '?':
default:
fprintf(
stderr,
"Invalid argument: %" PRIs_LIBCSTRING_SYSTEM "\n",
argv[ optind - 1 ] );
usage_fprint(
stdout );
return( EXIT_FAILURE );
case (libcstring_system_integer_t) 'c':
option_ascii_codepage = optarg;
break;
case (libcstring_system_integer_t) 'h':
usage_fprint(
stdout );
return( EXIT_SUCCESS );
case (libcstring_system_integer_t) 'l':
log_filename = optarg;
break;
case (libcstring_system_integer_t) 'm':
option_export_mode = optarg;
break;
case (libcstring_system_integer_t) 't':
option_target_path = optarg;
break;
case (libcstring_system_integer_t) 'T':
option_table_name = optarg;
break;
case (libcstring_system_integer_t) 'v':
verbose = 1;
break;
case (libcstring_system_integer_t) 'V':
esedboutput_copyright_fprint(
stdout );
return( EXIT_SUCCESS );
}
}
if( optind == argc )
{
fprintf(
stderr,
"Missing source file.\n" );
usage_fprint(
stdout );
return( EXIT_FAILURE );
}
source = argv[ optind ];
if( option_target_path == NULL )
{
source_length = libcstring_system_string_length(
source );
path_separator = libcstring_system_string_search_character_reverse(
source,
(libcstring_system_character_t) LIBSYSTEM_PATH_SEPARATOR,
source_length );
if( path_separator == NULL )
{
path_separator = source;
}
else
{
path_separator++;
}
option_target_path = path_separator;
}
if( option_table_name != NULL )
{
option_table_name_length = libcstring_system_string_length(
option_table_name );
}
libsystem_notify_set_verbose(
verbose );
libesedb_notify_set_stream(
stderr,
NULL );
libesedb_notify_set_verbose(
verbose );
if( log_handle_initialize(
&log_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to initialize log handle.\n" );
goto on_error;
}
if( export_handle_initialize(
&esedbexport_export_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to initialize export handle.\n" );
goto on_error;
}
/* TODO
esedbexport_export_handle->print_status_information = print_status_information;
*/
if( option_export_mode != NULL )
{
result = export_handle_set_export_mode(
esedbexport_export_handle,
option_export_mode,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set export mode.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"Unsupported export mode defaulting to: tables.\n" );
}
}
if( option_ascii_codepage != NULL )
{
result = export_handle_set_ascii_codepage(
esedbexport_export_handle,
option_ascii_codepage,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to set ASCII codepage in export handle.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"Unsupported ASCII codepage defaulting to: windows-1252.\n" );
}
}
if( export_handle_set_target_path(
esedbexport_export_handle,
option_target_path,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to set target path.\n" );
goto on_error;
}
result = export_handle_create_items_export_path(
esedbexport_export_handle,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to create items export path.\n" );
goto on_error;
}
else if( result == 0 )
{
fprintf(
stderr,
"%" PRIs_LIBCSTRING_SYSTEM " already exists.\n",
esedbexport_export_handle->items_export_path );
goto on_error;
}
if( log_handle_open(
log_handle,
log_filename,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to open log file: %" PRIs_LIBCSTRING_SYSTEM ".\n",
log_filename );
goto on_error;
}
fprintf(
stdout,
"Opening file.\n" );
#ifdef TODO_SIGNAL_ABORT
if( libsystem_signal_attach(
esedbexport_signal_handler,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to attach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
#endif
if( export_handle_open(
esedbexport_export_handle,
source,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to open: %" PRIs_LIBCSTRING_SYSTEM ".\n",
source );
goto on_error;
}
/* TODO
fprintf(
stdout,
"Exporting aliases.\n" );
*/
result = export_handle_export_file(
esedbexport_export_handle,
option_table_name,
option_table_name_length,
log_handle,
&error );
if( result == -1 )
{
fprintf(
stderr,
"Unable to export file.\n" );
goto on_error;
}
#ifdef TODO_SIGNAL_ABORT
if( libsystem_signal_detach(
&error ) != 1 )
{
fprintf(
stderr,
"Unable to detach signal handler.\n" );
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
#endif
if( export_handle_close(
esedbexport_export_handle,
&error ) != 0 )
{
fprintf(
stderr,
"Unable to close export handle.\n" );
goto on_error;
}
if( export_handle_free(
&esedbexport_export_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free export handle.\n" );
goto on_error;
}
if( log_handle_close(
log_handle,
&error ) != 0 )
{
fprintf(
stderr,
"Unable to close log handle.\n" );
goto on_error;
}
if( log_handle_free(
&log_handle,
&error ) != 1 )
{
fprintf(
stderr,
"Unable to free log handle.\n" );
goto on_error;
}
if( esedbexport_abort != 0 )
{
fprintf(
stdout,
"Export aborted.\n" );
return( EXIT_FAILURE );
}
/* TODO export FAILED ? */
fprintf(
stdout,
"Export completed.\n" );
return( EXIT_SUCCESS );
on_error:
if( error != NULL )
{
libsystem_notify_print_error_backtrace(
error );
liberror_error_free(
&error );
}
if( esedbexport_export_handle != NULL )
{
export_handle_free(
&esedbexport_export_handle,
NULL );
}
if( log_handle != NULL )
{
log_handle_free(
&log_handle,
NULL );
}
return( EXIT_FAILURE );
}