diff --git a/src/gui.c b/src/gui.c index d8c6226..d5450ed 100644 --- a/src/gui.c +++ b/src/gui.c @@ -826,21 +826,9 @@ void nwipe_gui_select( int count, nwipe_context_t** c ) wprintw( main_window, "[%s] ", c[i + offset]->device_size_text ); - // NOTE temporary timing code - clock_t t; - t = clock(); - /* Read the drive temperature values */ nwipe_update_temperature( c[i + offset] ); - // NOTE temporary timing code - t = clock() - t; - double time_taken = ( (double) t ) / CLOCKS_PER_SEC; // in seconds - nwipe_log( NWIPE_LOG_INFO, - "nwipe_update_temperature() took %f seconds for %s", - time_taken, - c[i + offset]->device_name ); - /* print the temperature */ wprintw_temperature( c[i + offset] ); @@ -849,7 +837,7 @@ void nwipe_gui_select( int count, nwipe_context_t** c ) case HPA_ENABLED: wprintw( main_window, " " ); wattron( main_window, COLOR_PAIR( 9 ) ); - wprintw( main_window, "[HS? YES!]" ); + wprintw( main_window, "[HS? YES]" ); wattroff( main_window, COLOR_PAIR( 9 ) ); break; @@ -7026,65 +7014,39 @@ void wprintw_temperature( nwipe_context_t* c ) } } - /* if drive temperature has exceeded the critical temperature if available + /* if drive temperature has exceeded the max temperature if available */ - if( ( local_temp1_input >= temp_highest_limit ) && ( local_temp1_input != NO_TEMPERATURE_DATA ) - && ( temp_highest_limit != NO_TEMPERATURE_DATA ) ) + if( ( local_temp1_input >= temp_high_limit ) && ( local_temp1_input != NO_TEMPERATURE_DATA ) + && ( temp_high_limit != NO_TEMPERATURE_DATA ) ) { - /* white on red */ - wattron( main_window, COLOR_PAIR( 6 ) ); + /* red on blue */ + wattron( main_window, COLOR_PAIR( 3 ) ); wprintw( main_window, "[%dC]", local_temp1_input ); - wattroff( main_window, COLOR_PAIR( 6 ) ); + wattroff( main_window, COLOR_PAIR( 3 ) ); } else { - /* if drive temperature has exceeded the max temperature if available + /* if drive temperature is below the low temperature limit if available */ - if( ( local_temp1_input >= temp_high_limit ) && ( local_temp1_input <= temp_highest_limit ) - && ( local_temp1_input != NO_TEMPERATURE_DATA ) && ( temp_high_limit != NO_TEMPERATURE_DATA ) ) + if( ( local_temp1_input <= temp_lowest_limit ) && ( temp_lowest_limit != NO_TEMPERATURE_DATA ) + && ( local_temp1_input != NO_TEMPERATURE_DATA ) ) { - /* red on blue */ - wattron( main_window, COLOR_PAIR( 3 ) ); + /* white on black */ + wattron( main_window, COLOR_PAIR( 14 ) ); wprintw( main_window, "[%dC]", local_temp1_input ); - wattroff( main_window, COLOR_PAIR( 3 ) ); + wattroff( main_window, COLOR_PAIR( 14 ) ); } else { - /* if drive temperature is below the lowest critical temperature and the critical value is present - */ - if( ( local_temp1_input <= temp_lowest_limit ) && ( temp_lowest_limit != NO_TEMPERATURE_DATA ) - && ( local_temp1_input != NO_TEMPERATURE_DATA ) ) + if( local_temp1_input != NO_TEMPERATURE_DATA ) { - /* white on black */ - wattron( main_window, COLOR_PAIR( 14 ) ); + /* Default white on blue */ wprintw( main_window, "[%dC]", local_temp1_input ); - wattroff( main_window, COLOR_PAIR( 14 ) ); } else { - /* if drive temperature is below the minimum but above the lowest temperature and the value is present - */ - if( ( ( local_temp1_input <= temp_low_limit ) && ( local_temp1_input >= temp_lowest_limit ) - && ( local_temp1_input != NO_TEMPERATURE_DATA ) && ( temp_low_limit != NO_TEMPERATURE_DATA ) ) ) - { - /* black on blue */ - wattron( main_window, COLOR_PAIR( 11 ) ); - wprintw( main_window, "[%dC]", local_temp1_input ); - wattroff( main_window, COLOR_PAIR( 11 ) ); - } - else - { - if( local_temp1_input != NO_TEMPERATURE_DATA ) - { - /* Default white on blue */ - wprintw( main_window, "[%dC]", local_temp1_input ); - } - else - { - /* Default white on blue */ - wprintw( main_window, "[--C]" ); - } - } + /* Default white on blue */ + wprintw( main_window, "[--C]" ); } } }