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nwipe/src/gui.c
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/*
* gui.c: An ncurses GUI for nwipe.
*
* Copyright Darik Horn <dajhorn-dban@vanadac.com>.
*
* Modifications to original dwipe Copyright Andy Beverley <andy@andybev.com>
*
* This program is free software; you can redistribute it and/or modify it under
* the terms of the GNU General Public License as published by the Free Software
* Foundation, version 2.
*
* This program 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 General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*
*/
/* RATIONALE:
*
* This entire GUI is a non-portable task-specific thunk.
*
* The alternatives are, however, no better. The CDK is large and clumsy,
* and things like ncurses libmenu are not worth the storage overhead.
*
*/
#ifndef _DEFAULT_SOURCE
#define _DEFAULT_SOURCE
#endif
#include <time.h>
#ifndef _POSIX_SOURCE
#define _POSIX_SOURCE
#endif
#include <stdio.h>
#include <stdlib.h>
#include <ncurses.h>
#include <panel.h>
#include <stdint.h>
#include <libconfig.h>
#include <string.h>
#include <strings.h>
#include <sys/stat.h>
#include "nwipe.h"
#include "context.h"
#include "method.h"
#include "prng.h"
#include "options.h"
#include "gui.h"
#include "pass.h"
#include "logging.h"
#include "version.h"
#include "temperature.h"
#include "miscellaneous.h"
#include "hpa_dco.h"
#include "customers.h"
#include "conf.h"
#include "unistd.h"
#define NWIPE_GUI_PANE 8
/* Header window: width, height, x coordinate, y coordinate. */
#define NWIPE_GUI_HEADER_W COLS
#define NWIPE_GUI_HEADER_H 1
#define NWIPE_GUI_HEADER_X 0
#define NWIPE_GUI_HEADER_Y 0
/* Footer window: width, height, x coordinate, y coordinate. */
#define NWIPE_GUI_FOOTER_W COLS
#define NWIPE_GUI_FOOTER_H 1
#define NWIPE_GUI_FOOTER_X 0
#define NWIPE_GUI_FOOTER_Y ( LINES - 1 )
/* Options window: width, height, x coorindate, y coordinate. */
#define NWIPE_GUI_OPTIONS_W 44
#define NWIPE_GUI_OPTIONS_H 7
#define NWIPE_GUI_OPTIONS_Y 1
#define NWIPE_GUI_OPTIONS_X 0
/* Options fields, relative to their window. */
#define NWIPE_GUI_OPTIONS_TAB 10
#define NWIPE_GUI_OPTIONS_ENTROPY_Y 1
#define NWIPE_GUI_OPTIONS_ENTROPY_X 1
#define NWIPE_GUI_OPTIONS_PRNG_Y 2
#define NWIPE_GUI_OPTIONS_PRNG_X 1
#define NWIPE_GUI_OPTIONS_METHOD_Y 3
#define NWIPE_GUI_OPTIONS_METHOD_X 1
#define NWIPE_GUI_OPTIONS_VERIFY_Y 4
#define NWIPE_GUI_OPTIONS_VERIFY_X 1
#define NWIPE_GUI_OPTIONS_ROUNDS_Y 5
#define NWIPE_GUI_OPTIONS_ROUNDS_X 1
/* Stats window: width, height, x coordinate, y coordinate. */
#define NWIPE_GUI_STATS_W ( COLS - 44 )
#define NWIPE_GUI_STATS_H 7
#define NWIPE_GUI_STATS_Y 1
#define NWIPE_GUI_STATS_X 44
/* Stats fields, relative to their window. */
#define NWIPE_GUI_STATS_RUNTIME_Y 1
#define NWIPE_GUI_STATS_RUNTIME_X 1
#define NWIPE_GUI_STATS_ETA_Y 2
#define NWIPE_GUI_STATS_ETA_X 1
#define NWIPE_GUI_STATS_LOAD_Y 3
#define NWIPE_GUI_STATS_LOAD_X 1
#define NWIPE_GUI_STATS_THROUGHPUT_Y 4
#define NWIPE_GUI_STATS_THROUGHPUT_X 1
#define NWIPE_GUI_STATS_ERRORS_Y 5
#define NWIPE_GUI_STATS_ERRORS_X 1
#define NWIPE_GUI_STATS_TAB 16
/* Select window: width, height, x coordinate, y coordinate. */
#define NWIPE_GUI_MAIN_W COLS
#define NWIPE_GUI_MAIN_H ( LINES - NWIPE_GUI_MAIN_Y - 1 )
#define NWIPE_GUI_MAIN_Y 8
#define NWIPE_GUI_MAIN_X 0
#define SKIP_DEV_PREFIX 5
/* Window pointers. */
WINDOW* footer_window;
WINDOW* header_window;
WINDOW* main_window;
WINDOW* options_window;
WINDOW* stats_window;
PANEL* footer_panel;
PANEL* header_panel;
PANEL* main_panel;
PANEL* options_panel;
PANEL* stats_panel;
/* Options window title. */
const char* options_title = " Options ";
/* Statistics window title. */
const char* stats_title = " Statistics ";
/* Footer labels. */
const char* main_window_footer =
"S=Start m=Method p=PRNG v=Verify r=Rounds b=Blanking Space=Select c=Config CTRL+C=Quit";
const char* shredos_main_window_footer =
"S=Start m=Method p=PRNG v=Verify r=Rounds b=Blanking Space=Select f=Font size c=Config CTRL+C=Quit";
char** p_main_window_footer;
const char* main_window_footer_warning_lower_case_s = " WARNING: To start the wipe press SHIFT+S (uppercase S) ";
const char* main_window_footer_warning_no_blanking_with_ops2 =
" WARNING: Zero blanking is not allowed with ops2 method ";
const char* main_window_footer_warning_no_blanking_with_verify_only =
" WARNING: Zero blanking is not allowed with verify method ";
const char* main_window_footer_warning_no_drive_selected =
" No drives selected, use spacebar to select a drive, then press S to start ";
/* Oddly enough, placing extra quotes around the footer strings fixes corruption to the right
* of the footer message when the terminal is resized, a quirk in ncurses? - DO NOT REMOVE THE \" */
const char* selection_footer = "J=Down K=Up Space=Select Backspace=Cancel Ctrl+C=Quit";
const char* selection_footer_config = "J=Down K=Up Return=Select ESC|Backspace=back Ctrl+C=Quit";
const char* selection_footer_preview_prior_to_drive_selection =
"A=Accept & display drives J=Down K=Up Space=Select Backspace=Cancel Ctrl+C=Quit";
const char* selection_footer_add_customer = "S=Save J=Down K=Up Space=Select Backspace=Cancel Ctrl+C=Quit";
const char* selection_footer_add_customer_yes_no = "Save Customer Details Y/N";
char** p_end_wipe_footer; /* Contains a pointer to either end_wipe_footer or shredos_end_wipe_footer */
const char* end_wipe_footer = "B=[Toggle between dark\\blank\\blue screen] Ctrl+C=Quit";
const char* shredos_end_wipe_footer = "b=[Toggle dark\\blank\\blue screen] f=Font size Ctrl+C=Quit";
const char* rounds_footer = "Left=Erase Esc=Cancel Ctrl+C=Quit";
const char* selection_footer_text_entry = "Esc=Cancel Return=Submit Ctrl+C=Quit";
/* Keeps track of whether font is standard or double size (applicable to ShredOS only) */
int toggle_font_flag = 0;
/* The number of lines available in the terminal */
int stdscr_lines;
/* The number of columns available in the terminal */
int stdscr_cols;
/* The size of the terminal lines when previously checked */
int stdscr_lines_previous;
/* The size of the terminal columns when previously checked */
int stdscr_cols_previous;
int tft_saver = 0;
void nwipe_gui_title( WINDOW* w, const char* s )
{
/**
* Prints the string 's' centered on the first line of the window 'w'.
*/
/* The number of lines in the window. (Not used.) */
int wy;
(void) wy; /* flag wy not used to the compiler, to silence warning */
/* The number of columns in the window. */
int wx;
/* Get the window dimensions. */
getmaxyx( w, wy, wx );
/*Calculate available total margin */
int margin = ( wx - strlen( s ) );
if( margin < 0 )
{
margin = 0;
}
/* tft_saver = grey text on black mode */
if( tft_saver )
{
wattron( w, A_BOLD );
}
/* Print the title. */
mvwprintw( w, 0, margin / 2, "%s", s );
} /* nwipe_gui_title */
void nwipe_init_pairs( void )
{
if( has_colors() )
{
/* Initialize color capabilities. */
start_color();
if( can_change_color() )
{
/* Redefine cyan to gray. */
init_color( COLOR_CYAN, 128, 128, 128 );
}
/* If we are in tft saver mode set grey text on black background else
* Set white on blue as the emphasis color */
if( tft_saver )
{
init_pair( 1, COLOR_BLACK, COLOR_BLACK );
}
else
{
init_pair( 1, COLOR_WHITE, COLOR_BLUE );
}
/* Set gray (or cyan) on blue as the normal color. */
init_pair( 2, COLOR_CYAN, COLOR_BLUE );
/* Set red on blue as the hilite color. */
init_pair( 3, COLOR_RED, COLOR_BLUE );
/* If we are in tft saver mode set grey text on black background else
* Set white on blue as the emphasis color */
if( tft_saver )
{
init_pair( 4, COLOR_BLACK, COLOR_BLACK );
}
else
{
init_pair( 4, COLOR_BLUE, COLOR_WHITE );
}
/* Set white on green for success messages. */
init_pair( 5, COLOR_WHITE, COLOR_GREEN );
/* Set white on red for failure messages. */
init_pair( 6, COLOR_WHITE, COLOR_RED );
/* Set black on black for when hiding the display. */
init_pair( 7, COLOR_BLACK, COLOR_BLACK );
/* Set green on blue for reverse bold messages */
init_pair( 8, COLOR_GREEN, COLOR_WHITE );
/* Set green on blue for reverse bold error messages */
init_pair( 9, COLOR_RED, COLOR_WHITE );
/* Set black on yellow for warning messages */
init_pair( 10, COLOR_BLACK, COLOR_YELLOW );
/* Set black on blue for minimum temperature reached */
init_pair( 11, COLOR_BLACK, COLOR_BLUE );
/* Set blue on blue to make temperature invisible */
init_pair( 12, COLOR_BLUE, COLOR_BLUE );
/* Set magenta on blue */
init_pair( 13, COLOR_MAGENTA, COLOR_BLUE );
/* Set white on black for low critical temperature */
init_pair( 14, COLOR_WHITE, COLOR_BLACK );
/* Set the background style. */
wbkgdset( stdscr, COLOR_PAIR( 1 ) | ' ' );
}
}
void nwipe_gui_init( void )
{
/**
* Initializes the ncurses gui.
*/
/* Initialize the screen. */
initscr();
/* Disable TTY line buffering. */
cbreak();
/* Disable TTY echo. */
noecho();
/* Enable most special keys. */
keypad( stdscr, TRUE );
/* Initialiase pointer to default end_wipe_footer text */
if( access( "/usr/bin/shredos_toggle_font_size.sh", F_OK ) == 0 )
{
p_end_wipe_footer = (char**) &shredos_end_wipe_footer;
p_main_window_footer = (char**) &shredos_main_window_footer;
}
else
{
p_end_wipe_footer = (char**) &end_wipe_footer;
p_main_window_footer = (char**) &main_window_footer;
}
/* Create the text/background color pairs */
nwipe_init_pairs();
/* Clear the screen. */
wclear( stdscr );
/* Create the header window. */
nwipe_gui_create_header_window();
/* Create the footer window and panel */
nwipe_gui_create_footer_window( *p_main_window_footer );
/* Create the options window and panel */
nwipe_gui_create_options_window();
/* Create the stats window. */
nwipe_gui_create_stats_window();
/* Create a new main window and panel */
nwipe_gui_create_main_window();
update_panels();
doupdate();
/* Hide the cursor. */
curs_set( 0 );
} /* nwipe_gui_init */
void nwipe_gui_free( void )
{
/**
* Releases the ncurses gui.
*
*/
/* Free ncurses resources. */
if( del_panel( footer_panel ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting footer panel failed!." );
}
if( del_panel( header_panel ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting header panel failed!." );
}
if( del_panel( main_panel ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting main panel failed!." );
}
if( del_panel( options_panel ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting options panel failed!." );
}
if( del_panel( stats_panel ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting stats panel failed!." );
}
if( delwin( footer_window ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting footer window failed!." );
}
if( delwin( header_window ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting header window failed!." );
}
if( delwin( main_window ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting main window failed!." );
}
if( delwin( options_window ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting options window failed!." );
}
if( delwin( stats_window ) != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Deleting stats window failed!." );
}
if( endwin() != OK )
{
nwipe_log( NWIPE_LOG_ERROR, "Curses endwin() failed !" );
}
} /* nwipe_gui_free */
void nwipe_gui_create_main_window()
{
/* Create the main window. */
main_window = newwin( NWIPE_GUI_MAIN_H, NWIPE_GUI_MAIN_W, NWIPE_GUI_MAIN_Y, NWIPE_GUI_MAIN_X );
main_panel = new_panel( main_window );
if( has_colors() )
{
/* Set the background style. */
wbkgdset( main_window, COLOR_PAIR( 1 ) | ' ' );
/* Apply the color change. */
wattron( main_window, COLOR_PAIR( 1 ) );
/* In tft saver mode we toggle the intensity bit which gives us grey text */
if( tft_saver )
{
wattron( main_window, A_BOLD );
}
else
{
wattroff( main_window, A_BOLD );
}
}
/* Clear the main window. */
werase( main_window );
/* Add a border. */
box( main_window, 0, 0 );
/* refresh main window */
wnoutrefresh( main_window );
} /* nwipe_gui_create_main_window */
void nwipe_gui_create_header_window()
{
char anon_label[] = " (ANONYMIZED)";
char bannerplus[80];
/* Create the header window. */
header_window = newwin( NWIPE_GUI_HEADER_H, NWIPE_GUI_HEADER_W, NWIPE_GUI_HEADER_Y, NWIPE_GUI_HEADER_X );
header_panel = new_panel( header_window );
if( has_colors() )
{
/* Set the background style of the header window. */
wbkgdset( header_window, COLOR_PAIR( 4 ) | ' ' );
if( tft_saver )
{
wattron( main_window, A_BOLD );
}
}
/* Clear the header window. */
werase( header_window );
/* If in anonymized mode modify the title banner to reflect this */
strcpy( bannerplus, banner );
if( nwipe_options.quiet )
{
strcat( bannerplus, anon_label );
}
/* Print the product banner. */
nwipe_gui_title( header_window, bannerplus );
/* Refresh the header window */
wnoutrefresh( header_window );
} /* nwipe_gui_create_header_window */
void nwipe_gui_create_footer_window( const char* footer_text )
{
/* Create the footer window. */
footer_window = newwin( NWIPE_GUI_FOOTER_H, NWIPE_GUI_FOOTER_W, NWIPE_GUI_FOOTER_Y, NWIPE_GUI_FOOTER_X );
footer_panel = new_panel( footer_window );
if( has_colors() )
{
/* Set the background style of the footer window. */
wbkgdset( footer_window, COLOR_PAIR( 4 ) | ' ' );
}
/* Erase the footer window. */
werase( footer_window );
/* Add help text to the footer */
nwipe_gui_title( footer_window, footer_text );
/* Refresh the footer window */
wnoutrefresh( footer_window );
} /* nwipe_gui_create_footer_window */
void nwipe_gui_amend_footer_window( const char* footer_text )
{
/* Clear the footer window. */
werase( footer_window );
/* Add help text to the footer */
nwipe_gui_title( footer_window, footer_text );
/* Refresh the footer window */
wnoutrefresh( footer_window );
} /* nwipe_gui_amend_footer_window */
void nwipe_gui_create_options_window()
{
/* Create the options window. */
options_window = newwin( NWIPE_GUI_OPTIONS_H, NWIPE_GUI_OPTIONS_W, NWIPE_GUI_OPTIONS_Y, NWIPE_GUI_OPTIONS_X );
options_panel = new_panel( options_window );
if( has_colors() )
{
/* Set the background style of the options window. */
wbkgdset( options_window, COLOR_PAIR( 1 ) | ' ' );
/* Apply the color change to the options window. */
wattron( options_window, COLOR_PAIR( 1 ) );
if( tft_saver )
{
wattron( options_window, A_BOLD );
}
}
/* Clear the options window. */
werase( options_window );
/* Add a border. */
box( options_window, 0, 0 );
} /* nwipe_gui_create_options_window */
void nwipe_gui_create_stats_window()
{
/* Create the stats window. */
stats_window = newwin( NWIPE_GUI_STATS_H, NWIPE_GUI_STATS_W, NWIPE_GUI_STATS_Y, NWIPE_GUI_STATS_X );
stats_panel = new_panel( stats_window );
if( has_colors() )
{
/* Set the background style of the stats window. */
wbkgdset( stats_window, COLOR_PAIR( 1 ) | ' ' );
/* Apply the color change to the stats window. */
wattron( stats_window, COLOR_PAIR( 1 ) );
if( tft_saver )
{
wattron( stats_window, A_BOLD );
}
}
/* Clear the new window. */
werase( stats_window );
/* Add a border. */
box( stats_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( stats_window, stats_title );
/* Print field labels. */
mvwprintw( stats_window, NWIPE_GUI_STATS_RUNTIME_Y, NWIPE_GUI_STATS_RUNTIME_X, "Runtime: " );
mvwprintw( stats_window, NWIPE_GUI_STATS_ETA_Y, NWIPE_GUI_STATS_ETA_X, "Remaining: " );
mvwprintw( stats_window, NWIPE_GUI_STATS_LOAD_Y, NWIPE_GUI_STATS_LOAD_X, "Load Averages: " );
mvwprintw( stats_window, NWIPE_GUI_STATS_THROUGHPUT_Y, NWIPE_GUI_STATS_THROUGHPUT_X, "Throughput: " );
mvwprintw( stats_window, NWIPE_GUI_STATS_ERRORS_Y, NWIPE_GUI_STATS_ERRORS_X, "Errors: " );
} /* nwipe_gui_create_stats_window */
void nwipe_gui_create_all_windows_on_terminal_resize( int force_creation, const char* footer_text )
{
/* Get the terminal size */
getmaxyx( stdscr, stdscr_lines, stdscr_cols );
/* If the user has resized the terminal then recreate the windows and panels */
if( stdscr_cols_previous != stdscr_cols || stdscr_lines_previous != stdscr_lines || force_creation == 1 )
{
/* Save the revised terminal size so we check whether the user has resized next time */
stdscr_lines_previous = stdscr_lines;
stdscr_cols_previous = stdscr_cols;
/* Clear the screen. */
wclear( stdscr );
/* Create a new header window and panel due to terminal size having changed */
nwipe_gui_create_header_window();
/* Create a new main window and panel due to terminal size having changed */
nwipe_gui_create_main_window();
/* Create a new footer window and panel due to terminal size having changed */
nwipe_gui_create_footer_window( footer_text );
/* Create a new options window and panel due to terminal size having changed */
nwipe_gui_create_options_window();
/* Create a new stats window and panel due to terminal size having changed */
nwipe_gui_create_stats_window();
/* Update the options window. */
nwipe_gui_options();
update_panels();
doupdate();
}
}
void nwipe_gui_select( int count, nwipe_context_t** c )
{
extern int terminate_signal;
/* Widget labels. */
const char* select_title = " Disks and Partitions ";
/* The number of lines available in the window. */
int wlines;
/* The number of columns available in the window. */
int wcols;
/* The number of selection elements that we can show in the window. */
int slots;
/* The index of the element that is visible in the first slot. */
int offset = 0;
/* The selection focus. */
int focus = 0;
/* A generic loop variable. */
int i = 0;
/* User input buffer. */
int keystroke;
/* The current working line. */
int yy;
/* Flag, Valid key hit = 1, anything else = 0 */
int validkeyhit;
/* Counts number of drives and partitions that have been selected */
int number_of_selected_contexts = 0;
/* Control A toggle status -1=indefined, 0=all drives delected, 1=all drives selected */
int select_all_toggle_status = -1;
/* This is a flag used to exit this function once drives are selected and S is pressed 0=do not start wipe, 1=start
* wipe */
int startwipe = 0;
/* Get the terminal size */
getmaxyx( stdscr, stdscr_lines, stdscr_cols );
/* Save the terminal size so we check whether the user has resized */
stdscr_lines_previous = stdscr_lines;
stdscr_cols_previous = stdscr_cols;
time_t temperature_check_time = time( NULL );
/* Used in the selection loop to trap a failure of the timeout(), getch() mechanism to block for the designated
* period */
int iteration_counter;
/* Used in the selection loop to trap a failure of the timeout(), getch() mechanism to block for the designated
* period */
int expected_iterations;
time_t previous_iteration_timestamp;
do
{
nwipe_gui_create_all_windows_on_terminal_resize( 0, *p_main_window_footer );
/* There is one slot per line. */
getmaxyx( main_window, wlines, wcols );
/* Less two lines for the box and two lines for padding. */
slots = wlines - 4;
if( slots < 0 )
{
slots = 0;
}
/* The code here adjusts the offset value, required when the terminal is resized vertically */
if( slots > count )
{
offset = 0;
}
else
{
if( focus >= count )
{
/* The focus is already at the last element. */
focus = count - 1;
}
if( focus < 0 )
{
/* The focus is already at the last element. */
focus = 0;
}
}
if( count >= slots && slots > 0 )
{
offset = focus + 1 - slots;
if( offset < 0 )
{
offset = 0;
}
}
/* Clear the main window, necessary when switching selections such as method etc */
werase( main_window );
/* Refresh main window */
wnoutrefresh( main_window );
/* If the user selected an option the footer text would have changed.
* Here we set it back to the main key help text */
nwipe_gui_create_footer_window( *p_main_window_footer );
/* Refresh the stats window */
wnoutrefresh( stats_window );
/* Refresh the options window */
wnoutrefresh( options_window );
/* Update the options window. */
nwipe_gui_options();
/* Initialize the line offset. */
yy = 2;
for( i = 0; i < slots && i < count; i++ )
{
/* Move to the next line. */
mvwprintw( main_window, yy++, 1, " " );
if( i + offset == focus )
{
if( c[focus]->select == NWIPE_SELECT_TRUE || c[focus]->select == NWIPE_SELECT_FALSE )
{
/* Print the 'enabled' cursor. */
waddch( main_window, ACS_RARROW );
}
else
{
/* Print the 'disabled' cursor. */
waddch( main_window, ACS_DIAMOND );
}
}
else
{
/* Print whitespace. */
waddch( main_window, ' ' );
}
/* In the event for the offset value somehow becoming invalid, this if statement will prevent a segfault
* and the else part will log the out of bounds values for debugging */
if( i + offset >= 0 && i + offset < count )
{
switch( c[i + offset]->select )
{
case NWIPE_SELECT_TRUE:
if( nwipe_options.method == &nwipe_verify_zero || nwipe_options.method == &nwipe_verify_one )
{
wprintw( main_window,
"[vrfy] %s %s ",
c[i + offset]->gui_device_name,
c[i + offset]->device_type_str );
}
else
{
wprintw( main_window,
"[wipe] %s %s ",
c[i + offset]->gui_device_name,
c[i + offset]->device_type_str );
}
break;
case NWIPE_SELECT_FALSE:
/* Print an element that is not selected. */
wprintw( main_window,
"[ ] %s %s ",
c[i + offset]->gui_device_name,
c[i + offset]->device_type_str );
break;
case NWIPE_SELECT_TRUE_PARENT:
/* This element will be wiped when its parent is wiped. */
wprintw( main_window,
"[****] %s %s ",
c[i + offset]->gui_device_name,
c[i + offset]->device_type_str );
break;
case NWIPE_SELECT_FALSE_CHILD:
/* We can't wipe this element because it has a child that is being wiped. */
wprintw( main_window,
"[----] %s %s ",
c[i + offset]->gui_device_name,
c[i + offset]->device_type_str );
break;
case NWIPE_SELECT_DISABLED:
/* We don't know how to wipe this device. (Iomega Zip drives.) */
wprintw( main_window, "[????] %s ", "Unrecognized Device" );
break;
default:
/* TODO: Handle the sanity error. */
break;
} /* switch select */
wprintw( main_window, "[%s] ", c[i + offset]->device_size_text );
/* Read the drive temperature values */
// nwipe_update_temperature( c[i + offset] );
/* print the temperature */
wprintw_temperature( c[i + offset] );
switch( c[i + offset]->HPA_status )
{
case HPA_ENABLED:
wprintw( main_window, " " );
wattron( main_window, COLOR_PAIR( 9 ) );
wprintw( main_window, "[HS? YES]" );
wattroff( main_window, COLOR_PAIR( 9 ) );
break;
case HPA_DISABLED:
wprintw( main_window, " " );
wprintw( main_window, "[HS? NO ]" );
break;
case HPA_UNKNOWN:
wprintw( main_window, " " );
wprintw( main_window, "[HS? ???]" );
break;
default:
wprintw( main_window, " " );
wprintw( main_window, "[HS? N/A]" );
break;
}
/* print the drive model and serial number */
wprintw( main_window, " %s/%s", c[i + offset]->device_model, c[i + offset]->device_serial_no );
if( c[i + offset]->HPA_toggle_time + 1 < time( NULL ) )
{
switch( c[i + offset]->HPA_display_toggle_state )
{
case 0:
c[i + offset]->HPA_display_toggle_state = 1;
break;
case 1:
c[i + offset]->HPA_display_toggle_state = 0;
break;
}
c[i + offset]->HPA_toggle_time = time( NULL );
}
}
else
{
nwipe_log( NWIPE_LOG_DEBUG,
"GUI.c,nwipe_gui_select(), scroll, array index out of bounds, i=%u, count=%u, slots=%u, "
"focus=%u, offset=%u",
i,
count,
slots,
focus,
offset );
}
} /* for */
if( offset > 0 )
{
mvwprintw( main_window, 1, wcols - 8, " More " );
waddch( main_window, ACS_UARROW );
}
if( count - offset > slots )
{
mvwprintw( main_window, wlines - 2, wcols - 8, " More " );
waddch( main_window, ACS_DARROW );
}
/* Draw a border around the menu window. */
box( main_window, 0, 0 );
/* Print a title. */
nwipe_gui_title( main_window, select_title );
/* Refresh the window. */
wnoutrefresh( main_window );
/* Output to physical screen */
doupdate();
/* Initialise the iteration counter */
iteration_counter = 0;
previous_iteration_timestamp = time( NULL );
/* Calculate Maximum allowed iterations per second */
expected_iterations = ( 1000 / GETCH_BLOCK_MS ) * 8;
do
{
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
validkeyhit = 0;
timeout( GETCH_BLOCK_MS ); // block getch() for ideally about 250ms.
keystroke = getch(); // Get user input.
timeout( -1 ); // Switch back to blocking mode.
/* To avoid 100% CPU usage, check for a runaway condition caused by the "keystroke = getch(); (above), from
* immediately returning an error condition. We check for an error condition because getch() returns a ERR
* value when the timeout value "timeout( 250 );" expires as well as when a real error occurs. We can't
* differentiate from normal operation and a failure of the getch function to block for the specified period
* of timeout. So here we check the while loop hasn't exceeded the number of expected iterations per second
* ie. a timeout(250) block value of 250ms means we should not see any more than (1000/250) = 4 iterations.
* We increase this to 32 iterations to allow a little tolerance. Why is this necessary? It's been found
* that in KDE konsole and other terminals based on the QT terminal engine exiting the terminal without
* first exiting nwipe results in nwipe remaining running but detached from any interface which causes
* getch to fail and its associated timeout. So the CPU or CPU core rises to 100%. Here we detect that
* failure and exit nwipe gracefully with the appropriate error. This does not affect use of tmux for
* attaching or detaching from a running nwipe session when sitting at the selection screen. All other
* terminals correctly terminate nwipe when the terminal itself is exited.
*/
iteration_counter++;
if( previous_iteration_timestamp == time( NULL ) )
{
if( iteration_counter > expected_iterations )
{
nwipe_log( NWIPE_LOG_ERROR,
"GUI.c,nwipe_gui_select(), loop runaway, did you close the terminal without exiting "
"nwipe? Exiting nwipe now." );
/* Issue signal to nwipe to exit immediately but gracefully */
terminate_signal = 1;
}
}
else
{
/* new second, so reset counter */
iteration_counter = 0;
previous_iteration_timestamp = time( NULL );
}
/* We don't necessarily use all of these. For future reference these are some CTRL+key values
* ^A - 1, ^B - 2, ^D - 4, ^E - 5, ^F - 6, ^G - 7, ^H - 8, ^I - 9, ^K - 11, ^L - 12, ^N - 14,
* ^O - 15, ^P - 16, ^R - 18, ^T - 20, ^U - 21, ^V - 22, ^W - 23, ^X - 24, ^Y - 25
* Use nwipe_log( NWIPE_LOG_DEBUG, "Key Name: %s - %u", keyname(keystroke),keystroke) to
* figure out what code is returned by what ever key combination */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
validkeyhit = 1;
/* Increment the focus. */
focus += 1;
if( focus >= count )
{
/* The focus is already at the last element. */
focus = count - 1;
break;
}
if( focus - offset >= slots )
{
/* The next element is offscreen. Scroll down. */
offset += 1;
break;
}
break;
case KEY_UP:
case 'k':
case 'K':
validkeyhit = 1;
/* Decrement the focus. */
focus -= 1;
if( focus < 0 )
{
/* The focus is already at the last element. */
focus = 0;
break;
}
if( focus < offset )
{
/* The next element is offscreen. Scroll up. */
offset -= 1;
break;
}
break;
case KEY_ENTER:
case 10:
case ' ':
validkeyhit = 1;
/* TODO: This block should be made into a function. */
if( c[focus]->select == NWIPE_SELECT_TRUE )
{
/* Reverse the selection of this element. */
c[focus]->select = NWIPE_SELECT_FALSE;
if( c[focus]->device_part == 0 )
{
/* Sub-deselect all partitions and slices within this disk. */
for( i = 0; i < count; i++ )
{
if( c[i]->device_type == c[focus]->device_type
&& c[i]->device_host == c[focus]->device_host
&& c[i]->device_bus == c[focus]->device_bus
&& c[i]->device_target == c[focus]->device_target
&& c[i]->device_lun == c[focus]->device_lun && c[i]->device_part > 0 )
{
c[i]->select = NWIPE_SELECT_FALSE;
}
} /* for all contexts */
} /* if sub-deselect */
else
{
/* The number of selected partitions or slices within this disk. */
int j = 0;
for( i = 0; i < count; i++ )
{
if( c[i]->device_type == c[focus]->device_type
&& c[i]->device_host == c[focus]->device_host
&& c[i]->device_bus == c[focus]->device_bus
&& c[i]->device_target == c[focus]->device_target
&& c[i]->device_lun == c[focus]->device_lun && c[i]->device_part > 0
&& c[i]->select == NWIPE_SELECT_TRUE )
{
/* Increment the counter. */
j += 1;
}
} /* for all contexts */
if( j == 0 )
{
/* Find the parent disk of this partition or slice. */
for( i = 0; i < count; i++ )
{
if( c[i]->device_type == c[focus]->device_type
&& c[i]->device_host == c[focus]->device_host
&& c[i]->device_bus == c[focus]->device_bus
&& c[i]->device_target == c[focus]->device_target
&& c[i]->device_lun == c[focus]->device_lun && c[i]->device_part == 0 )
{
/* Enable the disk element. */
c[i]->select = NWIPE_SELECT_FALSE;
}
} /* for all contexts */
} /* if */
} /* else super-enable */
break;
} /* if NWIPE_SELECT_TRUE */
if( c[focus]->select == NWIPE_SELECT_FALSE )
{
/* Reverse the selection. */
c[focus]->select = NWIPE_SELECT_TRUE;
if( c[focus]->device_part == 0 )
{
/* Sub-select all partitions and slices within this disk. */
for( i = 0; i < count; i++ )
{
if( c[i]->device_type == c[focus]->device_type
&& c[i]->device_host == c[focus]->device_host
&& c[i]->device_bus == c[focus]->device_bus
&& c[i]->device_target == c[focus]->device_target
&& c[i]->device_lun == c[focus]->device_lun && c[i]->device_part > 0 )
{
c[i]->select = NWIPE_SELECT_TRUE_PARENT;
}
} /* for */
} /* if sub-select */
else
{
/* ASSERT: ( c[focus]->device_part > 0 ) */
/* Super-deselect the disk that contains this device. */
for( i = 0; i < count; i++ )
{
if( c[i]->device_type == c[focus]->device_type
&& c[i]->device_host == c[focus]->device_host
&& c[i]->device_bus == c[focus]->device_bus
&& c[i]->device_target == c[focus]->device_target
&& c[i]->device_lun == c[focus]->device_lun && c[i]->device_part == 0 )
{
c[i]->select = NWIPE_SELECT_FALSE_CHILD;
}
}
} /* else super-deselect */
break;
} /* if NWIPE_SELECT_FALSE */
/* TODO: Explain to the user why they can't change this. */
break;
case 'm':
case 'M':
validkeyhit = 1;
/* Run the method dialog. */
nwipe_gui_method();
break;
case 'p':
case 'P':
validkeyhit = 1;
/* Run the PRNG dialog. */
nwipe_gui_prng();
break;
case 'r':
case 'R':
validkeyhit = 1;
/* Run the rounds dialog. */
nwipe_gui_rounds();
break;
case 'v':
case 'V':
validkeyhit = 1;
/* Run the option dialog. */
nwipe_gui_verify();
break;
case 'b':
case 'B':
validkeyhit = 1;
if( nwipe_options.method == &nwipe_ops2 )
{
/* Warn the user about that zero blanking with the ops2 method is not allowed */
wattron( footer_window, COLOR_PAIR( 10 ) );
nwipe_gui_amend_footer_window( main_window_footer_warning_no_blanking_with_ops2 );
doupdate();
sleep( 3 );
wattroff( footer_window, COLOR_PAIR( 10 ) );
/* After the delay return footer text back to key help */
nwipe_gui_amend_footer_window( *p_main_window_footer );
doupdate();
break;
}
if( nwipe_options.method == &nwipe_verify_zero || nwipe_options.method == &nwipe_verify_one )
{
/* Warn the user about that zero blanking with the ops2 method is not allowed */
wattron( footer_window, COLOR_PAIR( 10 ) );
nwipe_gui_amend_footer_window( main_window_footer_warning_no_blanking_with_verify_only );
doupdate();
sleep( 3 );
wattroff( footer_window, COLOR_PAIR( 10 ) );
/* After the delay return footer text back to key help */
nwipe_gui_amend_footer_window( *p_main_window_footer );
doupdate();
break;
}
/* Run the noblank dialog. */
nwipe_gui_noblank();
break;
case 'c':
case 'C':
/* main configuration menu */
validkeyhit = 1;
/* Run the configuration dialog */
nwipe_gui_config();
break;
case 'S':
/* User wants to start the wipe */
validkeyhit = 1;
/* Have any drives have been selected ? */
number_of_selected_contexts = 0;
for( i = 0; i < count; i++ )
{
if( c[i]->select == NWIPE_SELECT_TRUE )
{
number_of_selected_contexts += 1;
}
}
/* if no drives have been selected, print a warning on the footer */
if( number_of_selected_contexts == 0 )
{
wattron( footer_window, COLOR_PAIR( 10 ) );
nwipe_gui_amend_footer_window( main_window_footer_warning_no_drive_selected );
doupdate();
sleep( 3 );
wattroff( footer_window, COLOR_PAIR( 10 ) );
/* After the delay return footer text back to key help */
nwipe_gui_amend_footer_window( *p_main_window_footer );
doupdate();
/* Remove any repeated S key strokes, without this the gui would hang
* for a period of time, i.e sleep above x number of repeated 's' keystrokes
* which could run into minutes */
do
{
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get user input.
timeout( -1 ); // Switch back to blocking mode.
} while( keystroke == 'S' );
/* Remove the S from keystroke, which allows us to stay within the selection menu loop */
keystroke = 0;
}
else
{
startwipe = 1;
}
break;
case 's':
/* user has mistakenly hit the lower case 's' instead of capital 'S' */
validkeyhit = 1;
/* Warn the user about their mistake */
wattron( footer_window, COLOR_PAIR( 10 ) );
nwipe_gui_amend_footer_window( main_window_footer_warning_lower_case_s );
doupdate();
sleep( 3 );
wattroff( footer_window, COLOR_PAIR( 10 ) );
/* After the delay return footer text back to key help */
nwipe_gui_amend_footer_window( *p_main_window_footer );
doupdate();
/* Remove any repeated s key strokes, without this the gui would hang
* for a period of time, i.e sleep above x number of repeated 's' keystrokes
* which could run into minutes */
do
{
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get user input.
timeout( -1 ); // Switch back to blocking mode.
} while( keystroke == 's' );
break;
case 1:
/* Ctrl A - Toggle select/deselect all drives */
validkeyhit = 1;
if( select_all_toggle_status == -1 || select_all_toggle_status == 0 )
{
for( i = 0; i < count; i++ )
{
c[i]->select = NWIPE_SELECT_TRUE;
}
select_all_toggle_status = 1;
}
else
{
if( select_all_toggle_status == 1 )
{
for( i = 0; i < count; i++ )
{
c[i]->select = NWIPE_SELECT_FALSE;
}
select_all_toggle_status = 0;
}
else
{
nwipe_log(
NWIPE_LOG_ERROR,
"gui.c:nwipe_gui_select(), Invalid value in variable select_all_toggle_status = %d",
select_all_toggle_status );
}
}
break;
case 'f':
/* The f key is only meaningful for ShredOS, it toggles the fontsize */
if( access( "/usr/bin/shredos_toggle_font_size.sh", F_OK ) == 0 )
{
if( system( "/usr/bin/shredos_toggle_font_size.sh > /dev/null 2>&1" ) == 0 )
{
nwipe_log( NWIPE_LOG_INFO, "Toggle font size" );
}
}
break;
} /* keystroke switch */
/* Check the terminal size, if the user has changed it the while loop checks for
* this change and exits the valid key hit loop so the windows can be updated */
getmaxyx( stdscr, stdscr_lines, stdscr_cols );
/* Update the selection window every 1 second specifically
* so that the drive temperatures are updated and also the line toggle that
* occurs with the HPA status and the drive size & temperature.
*/
if( time( NULL ) > ( temperature_check_time + 1 ) )
{
temperature_check_time = time( NULL );
validkeyhit = 1;
}
} /* key hit loop */
while( validkeyhit == 0 && terminate_signal != 1 && stdscr_cols_previous == stdscr_cols
&& stdscr_lines_previous == stdscr_lines );
} while( startwipe == 0 && terminate_signal != 1 );
if( startwipe == 1 )
{
/* If user has pressed S to start wipe change status line */
werase( footer_window );
nwipe_gui_title( footer_window, *p_end_wipe_footer );
wnoutrefresh( footer_window );
}
} /* nwipe_gui_select */
void nwipe_gui_options( void )
{
/**
* Updates the options window.
*
* @modifies options_window
*
*/
/* Erase the window. */
werase( options_window );
mvwprintw(
options_window, NWIPE_GUI_OPTIONS_ENTROPY_Y, NWIPE_GUI_OPTIONS_ENTROPY_X, "Entropy: Linux Kernel (urandom)" );
mvwprintw(
options_window, NWIPE_GUI_OPTIONS_PRNG_Y, NWIPE_GUI_OPTIONS_PRNG_X, "PRNG: %s", nwipe_options.prng->label );
mvwprintw( options_window,
NWIPE_GUI_OPTIONS_METHOD_Y,
NWIPE_GUI_OPTIONS_METHOD_X,
"Method: %s",
nwipe_method_label( nwipe_options.method ) );
mvwprintw( options_window, NWIPE_GUI_OPTIONS_VERIFY_Y, NWIPE_GUI_OPTIONS_VERIFY_X, "Verify: " );
switch( nwipe_options.verify )
{
case NWIPE_VERIFY_NONE:
wprintw( options_window, "Off" );
break;
case NWIPE_VERIFY_LAST:
wprintw( options_window, "Last Pass" );
break;
case NWIPE_VERIFY_ALL:
wprintw( options_window, "All Passes" );
break;
default:
wprintw( options_window, "Unknown %i", nwipe_options.verify );
} /* switch verify */
mvwprintw( options_window, NWIPE_GUI_OPTIONS_ROUNDS_Y, NWIPE_GUI_OPTIONS_ROUNDS_X, "Rounds: " );
/* Disable blanking for ops2 and verify methods */
if( nwipe_options.method == &nwipe_ops2 || nwipe_options.method == &nwipe_verify_zero
|| nwipe_options.method == &nwipe_verify_one )
{
nwipe_options.noblank = 1;
}
if( nwipe_options.noblank )
{
wprintw( options_window, "%i (no final blanking pass)", nwipe_options.rounds );
}
else
{
wprintw( options_window, "%i (plus blanking pass)", nwipe_options.rounds );
}
/* Add a border. */
box( options_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( options_window, options_title );
/* Refresh the window. */
// wrefresh( options_window );
wnoutrefresh( options_window );
} /* nwipe_gui_options */
void nwipe_gui_rounds( void )
{
/**
* Allows the user to change the rounds option.
*
* @modifies nwipe_options.rounds
* @modifies main_window
*
*/
/* Set the initial focus. */
int focus = nwipe_options.rounds;
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
extern int terminate_signal;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, rounds_footer );
wrefresh( footer_window );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Rounds " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "This is the number of times to run the wipe method on each device." );
yy++;
if( focus > 0 )
{
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, "> %i", focus );
}
else
{
mvwprintw( main_window, yy++, tab1, "The number of rounds must be a non-negative integer." );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, "> " );
}
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
if( focus < 100000000 )
{
/* Left shift, base ten. */
focus *= 10;
/* This assumes ASCII input, where the zero character is 0x30. */
focus += keystroke - 48;
}
break;
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
/* Right shift, base ten. */
focus /= 10;
break;
} /* switch keystroke */
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
if( focus > 0 )
{
/* Set the number of rounds. */
nwipe_options.rounds = focus;
}
} /* nwipe_guid_rounds */
void nwipe_gui_prng( void )
{
/**
* Allows the user to change the PRNG.
*
* @modifies nwipe_options.prng
* @modifies main_window
*
*/
extern nwipe_prng_t nwipe_twister;
extern nwipe_prng_t nwipe_isaac;
extern nwipe_prng_t nwipe_isaac64;
extern nwipe_prng_t nwipe_aes_ctr_prng;
extern nwipe_prng_t nwipe_xoroshiro256_prng;
extern nwipe_prng_t nwipe_add_lagg_fibonacci_prng;
extern int terminate_signal;
/* The number of implemented PRNGs. */
const int count = 5;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 30;
/* Set the initial focus. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer );
wrefresh( footer_window );
if( nwipe_options.prng == &nwipe_twister )
{
focus = 0;
}
if( nwipe_options.prng == &nwipe_isaac )
{
focus = 1;
}
if( nwipe_options.prng == &nwipe_isaac64 )
{
focus = 2;
}
if( nwipe_options.prng == &nwipe_add_lagg_fibonacci_prng )
{
focus = 3;
}
if( nwipe_options.prng == &nwipe_xoroshiro256_prng )
{
focus = 4;
}
do
{
/* Clear the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer );
/* Initialize the working row. */
yy = 3;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s", nwipe_twister.label );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_isaac.label );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_isaac64.label );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_add_lagg_fibonacci_prng.label );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_xoroshiro256_prng.label );
yy++;
/* Print the cursor. */
mvwaddch( main_window, 3 + focus, tab1, ACS_RARROW );
switch( focus )
{
case 0:
mvwprintw( main_window,
yy++,
tab1,
"The Mersenne Twister, by Makoto Matsumoto and Takuji Nishimura, is a " );
mvwprintw( main_window,
yy++,
tab1,
"generalized feedback shift register PRNG that is uniform and " );
mvwprintw( main_window,
yy++,
tab1,
"equidistributed in 623-dimensions with a proven period of 2^19937-1. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
mvwprintw( main_window,
yy++,
tab1,
"This implementation passes the Marsaglia Diehard test suite. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
break;
case 1:
mvwprintw( main_window,
yy++,
tab1,
"ISAAC, by Bob Jenkins, is a PRNG derived from RC4 with a minimum period of " );
mvwprintw( main_window,
yy++,
tab1,
"2^40 and an expected period of 2^8295. It is difficult to recover the " );
mvwprintw( main_window,
yy++,
tab1,
"initial PRNG state by cryptanalysis of the ISAAC stream. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
mvwprintw( main_window,
yy++,
tab1,
"Performs best on a 32-bit CPU. Use ISAAC-64 if this system has a 64-bit CPU. " );
break;
case 2:
mvwprintw( main_window,
yy++,
tab1,
"ISAAC-64, by Bob Jenkins, is like 32-bit ISAAC, but with a minimum period of " );
mvwprintw( main_window,
yy++,
tab1,
"2^77 and an expected period of 2^16583. It is difficult to recover the " );
mvwprintw( main_window,
yy++,
tab1,
"initial PRNG state by cryptanalysis of the ISAAC-64 stream. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
mvwprintw( main_window,
yy++,
tab1,
"Performs best on a 64-bit CPU. Use ISAAC if this system has a 32-bit CPU. " );
break;
case 3:
mvwprintw( main_window,
yy++,
tab1,
"ALFG (Additive Lagged Fibonacci Generator), is a class of PRNGs utilizing " );
mvwprintw( main_window,
yy++,
tab1,
"the Fibonacci sequence with additive operations between lagged values. While " );
mvwprintw( main_window,
yy++,
tab1,
"they offer a good balance between speed and randomness, it's important to note" );
mvwprintw( main_window,
yy++,
tab1,
"that they provide lower levels of security, making them less suitable for " );
mvwprintw( main_window,
yy++,
tab1,
"cryptographic applications. Their periodicity depends on the choice of lags " );
mvwprintw( main_window,
yy++,
tab1,
"and arithmetic operations, potentially achieving large values, often 2^N or " );
mvwprintw( main_window,
yy++,
tab1,
"higher, where N is the bit length of the states. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
mvwprintw( main_window,
yy++,
tab1,
"Efficient on CPUs of any bit width, particularly suited for non-cryptographic " );
mvwprintw( main_window,
yy++,
tab1,
"applications requiring long sequences with a good speed-randomness trade-off. " );
break;
case 4:
mvwprintw( main_window,
yy++,
tab1,
"XORoshiro256**, originally designed by David Blackman and Sebastiano Vigna " );
mvwprintw( main_window,
yy++,
tab1,
"for 128 bits, was adapted to 256 bits by Fabian Druschke. This adaptation " );
mvwprintw( main_window,
yy++,
tab1,
"enhances its capability for fast, high-quality generation of pseudo-random " );
mvwprintw( main_window,
yy++,
tab1,
"numbers with a state size of 256 bits. It boasts an extremely long period " );
mvwprintw( main_window,
yy++,
tab1,
"of 2^256-1 without sacrificing performance, suitable for a wide range of " );
mvwprintw( main_window,
yy++,
tab1,
"applications. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
mvwprintw( main_window,
yy++,
tab1,
"The simple arithmetic operations (shifts, rotations, and XORs) of " );
mvwprintw( main_window,
yy++,
tab1,
"XORoshiro256** ensure low computational complexity. This, combined with " );
mvwprintw( main_window,
yy++,
tab1,
"the adaptation for 256 bits by Fabian Druschke, allows efficient use " );
mvwprintw( main_window,
yy++,
tab1,
"especially for legacy systems, due to its efficiency and minimal demands. " );
break;
}
/* switch */
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Pseudo Random Number Generator " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
focus += 1;
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
focus -= 1;
}
break;
case KEY_ENTER:
case ' ':
case 10:
if( focus == 0 )
{
nwipe_options.prng = &nwipe_twister;
}
if( focus == 1 )
{
nwipe_options.prng = &nwipe_isaac;
}
if( focus == 2 )
{
nwipe_options.prng = &nwipe_isaac64;
}
if( focus == 3 )
{
nwipe_options.prng = &nwipe_add_lagg_fibonacci_prng;
}
if( focus == 4 )
{
nwipe_options.prng = &nwipe_xoroshiro256_prng;
}
return;
case KEY_BACKSPACE:
case KEY_BREAK:
return;
} /* switch */
} while( terminate_signal != 1 );
} /* nwipe_gui_prng */
void nwipe_gui_verify( void )
{
/**
* Allows the user to change the verification option.
*
* @modifies nwipe_options.verify
* @modifies main_window
*
*/
extern int terminate_signal;
/* The number of definitions in the nwipe_verify_t enumeration. */
const int count = 3;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 30;
/* Set the initial focus. */
int focus = nwipe_options.verify;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer );
wrefresh( footer_window );
do
{
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer );
/* Clear the main window. */
werase( main_window );
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " Verification Off " );
mvwprintw( main_window, yy++, tab1, " Verify Last Pass " );
mvwprintw( main_window, yy++, tab1, " Verify All Passes " );
mvwprintw( main_window, yy++, tab1, " " );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
switch( focus )
{
case 0:
mvwprintw( main_window,
yy++,
tab1,
"Do not verify passes. The wipe will be a write-only operation. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
break;
case 1:
mvwprintw( main_window,
yy++,
tab1,
"Check whether the device is actually empty after the last pass fills the " );
mvwprintw( main_window,
yy++,
tab1,
"device with zeros. " );
break;
case 2:
mvwprintw( main_window,
yy++,
tab1,
"After every pass, read back the pattern and check whether it is correct. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
mvwprintw( main_window,
yy++,
tab1,
"This program writes the entire length of the device before it reads back " );
mvwprintw( main_window,
yy++,
tab1,
"for verification, even for random pattern passes, to better ensure that " );
mvwprintw( main_window,
yy++,
tab1,
"hardware caches are actually flushed. " );
break;
} /* switch */
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Verification Mode " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
focus += 1;
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
focus -= 1;
}
break;
case KEY_ENTER:
case ' ':
case 10:
if( focus >= 0 && focus < count )
{
nwipe_options.verify = focus;
}
return;
case KEY_BACKSPACE:
case KEY_BREAK:
return;
} /* switch */
} while( terminate_signal != 1 );
} /* nwipe_gui_verify */
void nwipe_gui_noblank( void )
{
/**
* Allows the user to change the verification option.
*
* @modifies nwipe_options.noblank
* @modifies main_window
*
*/
extern int terminate_signal;
/* The number of options available. */
const int count = 2;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 40;
/* Set the initial focus. */
int focus = nwipe_options.noblank;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer );
wrefresh( footer_window );
do
{
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer );
/* Clear the main window. */
werase( main_window );
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " Perform a final blanking pass " );
mvwprintw( main_window, yy++, tab1, " Do not perform final blanking pass " );
mvwprintw( main_window, yy++, tab1, " " );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
switch( focus )
{
case 0:
mvwprintw( main_window,
yy++,
tab1,
"Perform a final blanking pass after the wipe, leaving disk with only zeros. " );
mvwprintw( main_window,
yy++,
tab1,
"Note that the RCMP TSSIT OPS-II method never blanks the device regardless " );
mvwprintw( main_window,
yy++,
tab1,
"of this setting. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
break;
case 1:
mvwprintw( main_window,
yy++,
tab1,
"Do not perform a final blanking pass. Leave data as per final wiping pass. " );
mvwprintw( main_window,
yy++,
tab1,
"Note that the RCMP TSSIT OPS-II method never blanks the device regardless " );
mvwprintw( main_window,
yy++,
tab1,
"of this setting. " );
mvwprintw( main_window,
yy++,
tab1,
" " );
break;
} /* switch */
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Final Blanking Pass " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
focus += 1;
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
focus -= 1;
}
break;
case KEY_ENTER:
case ' ':
case 10:
if( focus >= 0 && focus < count )
{
nwipe_options.noblank = focus;
}
return;
case KEY_BACKSPACE:
case KEY_BREAK:
return;
} /* switch */
}
while( terminate_signal != 1 );
} /* nwipe_gui_noblank */
void nwipe_gui_method( void )
{
/**
* Allows the user to change the wipe method.
*
* @modifies nwipe_options.method
* @modifies main_window
*
*/
extern int terminate_signal;
/* The number of implemented methods. */
const int count = 12;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 30;
/* The currently selected method. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer );
wrefresh( footer_window );
if( nwipe_options.method == &nwipe_zero )
{
focus = 0;
}
if( nwipe_options.method == &nwipe_one )
{
focus = 1;
}
if( nwipe_options.method == &nwipe_ops2 )
{
focus = 2;
}
if( nwipe_options.method == &nwipe_dodshort )
{
focus = 3;
}
if( nwipe_options.method == &nwipe_dod522022m )
{
focus = 4;
}
if( nwipe_options.method == &nwipe_gutmann )
{
focus = 5;
}
if( nwipe_options.method == &nwipe_random )
{
focus = 6;
}
if( nwipe_options.method == &nwipe_verify_zero )
{
focus = 7;
}
if( nwipe_options.method == &nwipe_verify_one )
{
focus = 8;
}
if( nwipe_options.method == &nwipe_is5enh )
{
focus = 9;
}
if( nwipe_options.method == &nwipe_bruce7 )
{
focus = 10;
}
if( nwipe_options.method == &nwipe_bmb )
{
focus = 11;
}
do
{
/* Clear the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer );
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_zero ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_one ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_ops2 ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_dodshort ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_dod522022m ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_gutmann ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_random ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_verify_zero ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_verify_one ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_is5enh ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_bruce7 ) );
mvwprintw( main_window, yy++, tab1, " %s", nwipe_method_label( &nwipe_bmb ) );
mvwprintw( main_window, yy++, tab1, " " );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
switch( focus )
{
case 0:
mvwprintw( main_window, 2, tab2, "Security Level: high (1 pass)" );
mvwprintw( main_window, 4, tab2, "This method fills the device with zeros. Note " );
mvwprintw( main_window, 5, tab2, "that the rounds option does not apply to this " );
mvwprintw( main_window, 6, tab2, "method. This method always runs one round. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "There is no publicly available evidence that " );
mvwprintw( main_window, 9, tab2, "data can be recovered from a modern traditional " );
mvwprintw( main_window, 10, tab2, "hard drive (HDD) that has been zero wiped, " );
mvwprintw( main_window, 11, tab2, "however a wipe that includes a PRNG may be " );
mvwprintw( main_window, 12, tab2, "preferable. " );
break;
case 1:
mvwprintw( main_window, 2, tab2, "Security Level: high (1 pass)" );
mvwprintw( main_window, 4, tab2, "This method fills the device with ones. Note that " );
mvwprintw( main_window, 5, tab2, "the rounds option does not apply to this method. " );
mvwprintw( main_window, 6, tab2, "This method always runs one round. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "This method might be used when wiping a solid " );
mvwprintw( main_window, 9, tab2, "state drive if an additional level of security is " );
mvwprintw( main_window, 10, tab2, "required beyond using the drives internal secure " );
mvwprintw( main_window, 11, tab2, "erase features. Alternatively PRNG may be " );
mvwprintw( main_window, 12, tab2, "preferable. " );
break;
case 2:
mvwprintw( main_window, 2, tab2, "Security Level: higher (8 passes)" );
mvwprintw( main_window, 4, tab2, "The Royal Canadian Mounted Police Technical " );
mvwprintw( main_window, 5, tab2, "Security Standard for Information Technology. " );
mvwprintw( main_window, 6, tab2, "Appendix OPS-II: Media Sanitization. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "This implementation, with regards to paragraph 2 " );
mvwprintw( main_window, 9, tab2, "section A of the standard, uses a pattern that is " );
mvwprintw( main_window, 10, tab2, "one random byte and that is changed each round. " );
break;
case 3:
mvwprintw( main_window, 2, tab2, "Security Level: higher (3 passes)" );
mvwprintw( main_window, 4, tab2, "The US Department of Defense 5220.22-M short wipe." );
mvwprintw( main_window, 5, tab2, "This method is composed of passes 1, 2 & 7 from " );
mvwprintw( main_window, 6, tab2, "the standard DoD 5220.22-M wipe. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "Pass 1: A random character. " );
mvwprintw( main_window, 9, tab2, "Pass 2: The bitwise complement of pass 1. " );
mvwprintw( main_window, 10, tab2, "Pass 3: A random number generated data stream. " );
break;
case 4:
mvwprintw( main_window, 2, tab2, "Security Level: higher (7 passes)" );
mvwprintw( main_window, 3, tab2, "The American Department of Defense 5220.22-M " );
mvwprintw( main_window, 4, tab2, "standard wipe. " );
mvwprintw( main_window, 5, tab2, " " );
mvwprintw( main_window, 6, tab2, "Pass 1: A random character. " );
mvwprintw( main_window, 7, tab2, "Pass 2: The bitwise complement of pass 1. " );
mvwprintw( main_window, 8, tab2, "Pass 3: A random number generated data stream. " );
mvwprintw( main_window, 9, tab2, "Pass 4: A random character. " );
mvwprintw( main_window, 10, tab2, "Pass 5: A random character. " );
mvwprintw( main_window, 11, tab2, "Pass 6: The bitwise complement of pass 5. " );
mvwprintw( main_window, 12, tab2, "Pass 7: A random number generated data stream. " );
break;
case 5:
mvwprintw( main_window, 2, tab2, "Security Level: Paranoid ! (35 passes) " );
mvwprintw( main_window, 3, tab2, "Don't waste your time with this on a modern drive!" );
mvwprintw( main_window, 5, tab2, "This is the method described by Peter Gutmann in " );
mvwprintw( main_window, 6, tab2, "the paper entitled \"Secure Deletion of Data from " );
mvwprintw( main_window, 7, tab2, "Magnetic and Solid-State Memory\", however not " );
mvwprintw( main_window, 8, tab2, "relevant in regards to modern hard disk drives. " );
break;
case 6:
mvwprintw( main_window, 2, tab2, "Security Level: Depends on Rounds" );
mvwprintw( main_window, 4, tab2, "This method fills the device with a stream from " );
mvwprintw( main_window, 5, tab2, "the PRNG. It is probably the best method to use " );
mvwprintw( main_window, 6, tab2, "on modern hard disk drives due to variation in " );
mvwprintw( main_window, 7, tab2, "encoding methods. " );
mvwprintw( main_window, 8, tab2, " " );
mvwprintw( main_window, 9, tab2, "This method has a high security level with 1 " );
mvwprintw( main_window, 10, tab2, "round and an increasingly higher security level " );
mvwprintw( main_window, 11, tab2, "as rounds are increased. " );
break;
case 7:
mvwprintw( main_window, 2, tab2, "Security Level: Not applicable" );
mvwprintw( main_window, 4, tab2, "This method only reads the device and checks " );
mvwprintw( main_window, 5, tab2, "that it is all zeros (0x00). " );
break;
case 8:
mvwprintw( main_window, 2, tab2, "Security Level: Not applicable" );
mvwprintw( main_window, 4, tab2, "This method only reads the device and checks " );
mvwprintw( main_window, 5, tab2, "that it is all ones (0xFF). " );
break;
case 9:
mvwprintw( main_window, 2, tab2, "Security Level: higher (3 passes)" );
mvwprintw( main_window, 4, tab2, "U.K. HMG IA/IS 5 (Infosec Standard 5): Secure " );
mvwprintw( main_window, 5, tab2, "Sanitisation of Protectively Marked Information " );
mvwprintw( main_window, 6, tab2, "or Sensitive Information. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "Pass 1 : Zeros (0x00). " );
mvwprintw( main_window, 9, tab2, "Pass 2 : Ones (0xFF). " );
mvwprintw( main_window, 10, tab2, "Pass 3 : A random number generated data stream. " );
mvwprintw( main_window, 11, tab2, "Pass 4 : Last Pass Verification of PRNG stream " );
break;
case 10:
mvwprintw( main_window, 2, tab2, "Security Level: very high (7 passes)" );
mvwprintw( main_window, 4, tab2, "Bruce Schneier 7-Pass Wiping Method: " );
mvwprintw( main_window, 5, tab2, "A secure erasure technique developed by the " );
mvwprintw( main_window, 6, tab2, "renowned cryptographer Bruce Schneier. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "This method first overwrites the device with " );
mvwprintw( main_window, 9, tab2, "ones (0xFF), followed by zeros (0x00). Then, " );
mvwprintw( main_window, 10, tab2, "it performs five additional passes of PRNG- " );
mvwprintw( main_window, 11, tab2, "generated random data to maximize security. " );
break;
case 11:
mvwprintw( main_window, 2, tab2, "Security Level: very high (6 passes)" );
mvwprintw( main_window, 4, tab2, "BMB21-2019 Chinese State Secrets Bureau standard " );
mvwprintw( main_window, 5, tab2, "Technical Requirement for Data Sanitization of " );
mvwprintw( main_window, 6, tab2, "Storage Media Involving State Secrets. " );
mvwprintw( main_window, 7, tab2, " " );
mvwprintw( main_window, 8, tab2, "Pass 1 : Ones (0xFF). " );
mvwprintw( main_window, 9, tab2, "Pass 2 : Zeros (0x00). " );
mvwprintw( main_window, 10, tab2, "Pass 3 : A random number generated data stream. " );
mvwprintw( main_window, 11, tab2, "Pass 4 : A random number generated data stream. " );
mvwprintw( main_window, 12, tab2, "Pass 5 : A random number generated data stream. " );
mvwprintw( main_window, 13, tab2, "Pass 6 : Ones (0xFF). " );
break;
} /* switch */
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Wipe Method " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); /* block getch() for 250ms */
keystroke = getch(); /* Get a keystroke. */
timeout( -1 ); /* Switch back to blocking mode */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
focus += 1;
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
focus -= 1;
}
break;
case KEY_BACKSPACE:
case KEY_BREAK:
return;
} /* switch */
} while( keystroke != KEY_ENTER && keystroke != ' ' && keystroke != 10 && terminate_signal != 1 );
switch( focus )
{
case 0:
nwipe_options.method = &nwipe_zero;
break;
case 1:
nwipe_options.method = &nwipe_one;
break;
case 2:
nwipe_options.method = &nwipe_ops2;
break;
case 3:
nwipe_options.method = &nwipe_dodshort;
break;
case 4:
nwipe_options.method = &nwipe_dod522022m;
break;
case 5:
nwipe_options.method = &nwipe_gutmann;
break;
case 6:
nwipe_options.method = &nwipe_random;
break;
case 7:
nwipe_options.method = &nwipe_verify_zero;
break;
case 8:
nwipe_options.method = &nwipe_verify_one;
break;
case 9:
nwipe_options.method = &nwipe_is5enh;
break;
case 10:
nwipe_options.method = &nwipe_bruce7;
break;
case 11:
nwipe_options.method = &nwipe_bmb;
break;
}
} /* nwipe_gui_method */
void nwipe_gui_config( void )
{
/**
* Display the configuration Main Menu selection window
*
*/
extern int terminate_signal;
/* Number of entries in the configuration menu. */
const int count = 8;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 40;
/* The currently selected method. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
do
{
/* Clear the main window. */
werase( main_window );
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_config );
wrefresh( footer_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_config );
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Enable/Disable " );
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Edit Organisation" );
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Select Customer " );
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Add Customer " );
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Delete Customer " );
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Preview Details " );
mvwprintw( main_window, yy++, tab1, " %s", "PDF Report - Preview at Start " );
yy++;
mvwprintw( main_window, yy++, tab1, " %s", "Set System Date & Time " );
mvwprintw( main_window, yy++, tab1, " " );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
switch( focus )
{
case 0:
if( nwipe_options.PDF_enable )
{
mvwprintw( main_window, 2, tab2, "PDF Report = ENABLED" );
}
else
{
mvwprintw( main_window, 2, tab2, "PDF Report = DISABLED" );
}
mvwprintw( main_window, 4, tab2, "Enable or disable creation of the PDF " );
mvwprintw( main_window, 5, tab2, "report/certificate. " );
break;
case 1:
mvwprintw( main_window, 2, tab2, "PDF Report - Edit Organisation " );
mvwprintw( main_window, 4, tab2, "This option allows you to edit details " );
mvwprintw( main_window, 5, tab2, "of the organisation that is performing " );
mvwprintw( main_window, 6, tab2, "the erasure. This includes: business " );
mvwprintw( main_window, 7, tab2, "name, business address, contact name " );
mvwprintw( main_window, 8, tab2, "and contact phone. " );
break;
case 2:
mvwprintw( main_window, 2, tab2, "PDF Report - Select Customer " );
mvwprintw( main_window, 4, tab2, "Allows selection of a customer as " );
mvwprintw( main_window, 5, tab2, "displayed on the PDF report. Customer " );
mvwprintw( main_window, 6, tab2, "information includes Name (This can be " );
mvwprintw( main_window, 7, tab2, "a personal or business name), address " );
mvwprintw( main_window, 8, tab2, "contact name and contact phone. " );
mvwprintw( main_window, 9, tab2, " " );
mvwprintw( main_window, 10, tab2, "Customer data is located in: " );
mvwprintw( main_window, 11, tab2, "/etc/nwipe/nwipe_customers.csv " );
break;
case 3:
mvwprintw( main_window, 2, tab2, "PDF Report - Add Customer " );
mvwprintw( main_window, 4, tab2, "This option allows you to add a new " );
mvwprintw( main_window, 5, tab2, "customer. A customer can be optionally " );
mvwprintw( main_window, 6, tab2, "displayed on the PDF report. Customer " );
mvwprintw( main_window, 7, tab2, "information includes Name (This can be " );
mvwprintw( main_window, 8, tab2, "a personal or business name), address " );
mvwprintw( main_window, 9, tab2, "contact name and contact phone. " );
mvwprintw( main_window, 10, tab2, " " );
mvwprintw( main_window, 11, tab2, "Customer data is saved in: " );
mvwprintw( main_window, 12, tab2, "/etc/nwipe/nwipe_customers.csv " );
break;
case 4:
mvwprintw( main_window, 2, tab2, "PDF Report - Delete Customer " );
mvwprintw( main_window, 4, tab2, "This option allows you to delete a " );
mvwprintw( main_window, 5, tab2, "customer. A customer can be optionally " );
mvwprintw( main_window, 6, tab2, "displayed on the PDF report. Customer " );
mvwprintw( main_window, 7, tab2, "information includes Name (This can be " );
mvwprintw( main_window, 8, tab2, "a personal or business name), address " );
mvwprintw( main_window, 9, tab2, "contact name and contact phone. " );
mvwprintw( main_window, 10, tab2, " " );
mvwprintw( main_window, 11, tab2, "Customer data is saved in: " );
mvwprintw( main_window, 12, tab2, "/etc/nwipe/nwipe_customers.csv " );
break;
case 5:
mvwprintw( main_window, 2, tab2, "PDF Report - Preview Organisation, " );
mvwprintw( main_window, 3, tab2, "Customer and Date/Time details " );
mvwprintw( main_window, 5, tab2, "This allows the above information to " );
mvwprintw( main_window, 6, tab2, "be checked prior to starting the wipe " );
mvwprintw( main_window, 7, tab2, "so that the information is correct on " );
mvwprintw( main_window, 8, tab2, "the PDF report. " );
break;
case 6:
if( nwipe_options.PDF_preview_details )
{
mvwprintw( main_window, 2, tab2, "Preview Org. & Customer at start = ENABLED" );
}
else
{
mvwprintw( main_window, 2, tab2, "Preview Org. & Customer at start = DISABLED" );
}
mvwprintw( main_window, 4, tab2, "A preview prior to the drive selection " );
mvwprintw( main_window, 5, tab2, "of the organisation that is performing " );
mvwprintw( main_window, 6, tab2, "the wipe, the customer details and the " );
mvwprintw( main_window, 7, tab2, "current date and time in order to " );
mvwprintw( main_window, 8, tab2, "confirm that the information is " );
mvwprintw( main_window, 9, tab2, "correct on the PDF report prior to " );
mvwprintw( main_window, 10, tab2, "drive selection and starting the erase." );
break;
case 8:
mvwprintw( main_window, 2, tab2, "Set System Date & Time " );
mvwprintw( main_window, 4, tab2, "Useful when host is not connected to " );
mvwprintw( main_window, 5, tab2, "the internet and not running the 'NTP' " );
mvwprintw( main_window, 6, tab2, "(Network Time Protocol). " );
break;
} /* switch */
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Configuration " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); /* block getch() for 250ms */
keystroke = getch(); /* Get a keystroke. */
timeout( -1 ); /* Switch back to blocking mode */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
if( focus == 6 )
{
focus += 2; /* mind the gaps */
}
else
{
focus += 1;
}
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
if( focus == 8 )
{
focus -= 2; /* mind the gaps */
}
else
{
focus -= 1;
}
}
break;
case KEY_BACKSPACE:
case KEY_BREAK:
case 27: /* ESC */
return;
} /* switch */
if( keystroke == 0x0A )
{
switch( focus )
{
case 0:
/* Toggle on pressing ENTER key */
if( nwipe_options.PDF_enable == 0 )
{
nwipe_options.PDF_enable = 1;
/* write the setting to nwipe.conf */
nwipe_conf_update_setting( "PDF_Certificate.PDF_Enable", "ENABLED" );
}
else
{
nwipe_options.PDF_enable = 0;
/* write the setting to nwipe.conf */
nwipe_conf_update_setting( "PDF_Certificate.PDF_Enable", "DISABLED" );
}
break;
case 1:
nwipe_gui_edit_organisation();
break;
case 2:
customer_processes( SELECT_CUSTOMER );
break;
case 3:
nwipe_gui_add_customer();
break;
case 4:
customer_processes( DELETE_CUSTOMER );
break;
case 5:
nwipe_gui_preview_org_customer( SHOWING_IN_CONFIG_MENUS );
break;
case 6:
/* Toggle on pressing ENTER key */
if( nwipe_options.PDF_preview_details == 0 )
{
nwipe_options.PDF_preview_details = 1;
/* write the setting to nwipe.conf */
nwipe_conf_update_setting( "PDF_Certificate.PDF_Preview", "ENABLED" );
}
else
{
nwipe_options.PDF_preview_details = 0;
/* write the setting to nwipe.conf */
nwipe_conf_update_setting( "PDF_Certificate.PDF_Preview", "DISABLED" );
}
break;
case 8:
nwipe_gui_set_date_time();
break;
}
keystroke = -1;
}
} while( keystroke != KEY_ENTER && /* keystroke != ' ' && */ keystroke != 10 && terminate_signal != 1 );
} /* end of nwipe_config() */
void nwipe_gui_edit_organisation( void )
{
/**
* Display the list of organisation details available for editing
*
*/
extern int terminate_signal;
/* Number of entries in the configuration menu. */
const int count = 5;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 27;
/* The currently selected method. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* variables used by libconfig for extracting data from nwipe.conf */
config_setting_t* setting;
const char *business_name, *business_address, *contact_name, *contact_phone, *op_tech_name;
extern config_t nwipe_cfg;
do
{
do
{
/* Clear the main window. */
werase( main_window );
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_config );
wrefresh( footer_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_config );
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s", "Edit Business Name" );
mvwprintw( main_window, yy++, tab1, " %s", "Edit Business Address" );
mvwprintw( main_window, yy++, tab1, " %s", "Edit Contact Name" );
mvwprintw( main_window, yy++, tab1, " %s", "Edit Contact Phone" );
mvwprintw( main_window, yy++, tab1, " %s", "Edit Tech/Operator" );
mvwprintw( main_window, yy++, tab1, " " );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
/* libconfig: Locate the Organisation Details section in nwipe.conf */
setting = config_lookup( &nwipe_cfg, "Organisation_Details" );
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Business_Name", &business_name ) )
{
mvwprintw( main_window, 2, tab2, ": %s", business_name );
}
else
{
mvwprintw( main_window, 2, tab2, ": Cannot retrieve business_name, nwipe.conf" );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Business_Address", &business_address ) )
{
mvwprintw( main_window, 3, tab2, ": %s", business_address );
}
else
{
mvwprintw( main_window, 3, tab2, ": Cannot retrieve business address, nwipe.conf" );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Contact_Name", &contact_name ) )
{
mvwprintw( main_window, 4, tab2, ": %s", contact_name );
}
else
{
mvwprintw( main_window, 4, tab2, ": Cannot retrieve contact name, nwipe.conf" );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Contact_Phone", &contact_phone ) )
{
mvwprintw( main_window, 5, tab2, ": %s", contact_phone );
}
else
{
mvwprintw( main_window, 5, tab2, ": Cannot retrieve contact phone, nwipe.conf" );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Op_Tech_Name", &op_tech_name ) )
{
mvwprintw( main_window, 6, tab2, ": %s", op_tech_name );
}
else
{
mvwprintw( main_window, 6, tab2, ": Cannot retrieve op_tech_name, nwipe.conf" );
}
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " PDF Report - Edit Organisation " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); /* block getch() for 250ms */
keystroke = getch(); /* Get a keystroke. */
timeout( -1 ); /* Switch back to blocking mode */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
focus += 1;
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
focus -= 1;
}
break;
case KEY_BACKSPACE:
case KEY_BREAK:
case 27: /* ESC */
return;
} /* switch */
} while( keystroke != KEY_ENTER && keystroke != 10 && terminate_signal != 1 );
if( keystroke == KEY_ENTER || keystroke == 10 || keystroke == ' ' )
{
switch( focus )
{
case 0:
nwipe_gui_organisation_business_name( business_name );
keystroke = 0;
break;
case 1:
nwipe_gui_organisation_business_address( business_address );
keystroke = 0;
break;
case 2:
nwipe_gui_organisation_contact_name( contact_name );
keystroke = 0;
break;
case 3:
nwipe_gui_organisation_contact_phone( contact_phone );
keystroke = 0;
break;
case 4:
nwipe_gui_organisation_op_tech_name( op_tech_name );
keystroke = 0;
break;
}
}
} while( keystroke != KEY_ENTER && keystroke != 10 && terminate_signal != 1 );
} /* end of nwipe_gui_edit_organisation( void ) */
void nwipe_gui_organisation_business_name( const char* business_name )
{
/**
* Allows the user to change the organisation business name as displayed on the PDF report.
*
* @modifies business_name in nwipe.conf
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer */
char buffer[256] = "";
/* buffer index */
int idx = 0;
extern int terminate_signal;
/* variables used by libconfig for inserting data into nwipe.conf */
config_setting_t* setting;
// const char* business_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Copy the current business name to the buffer */
strcpy( buffer, business_name );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Edit Organisation Business Name " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the business name of the organisation performing the erasure" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < 255 )
{
buffer[idx++] = keystroke;
buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* libconfig: Locate the Organisation Details section in nwipe.conf */
if( !( setting = config_lookup( &nwipe_cfg, "Organisation_Details.Business_Name" ) ) )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to locate [Organisation_Details.Business_Name] in %s", nwipe_config_file );
}
/* libconfig: Write the new business name */
if( config_setting_set_string( setting, buffer ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR,
"Failed to write [%s] to [Organisation_Details.Business_Name] in %s",
buffer,
nwipe_config_file );
}
/* Write out the new configuration. */
if( config_write_file( &nwipe_cfg, nwipe_config_file ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to write organisation business name to %s", nwipe_config_file );
}
else
{
nwipe_log( NWIPE_LOG_INFO, "[Success] Business name written to %s", nwipe_config_file );
}
} /* End of nwipe_gui_organisation_business_name() */
void nwipe_gui_organisation_business_address( const char* business_address )
{
/**
* Allows the user to change the organisation business address as displayed on the PDF report.
*
* @modifies business_address in nwipe.conf
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer */
char buffer[256] = "";
/* buffer index */
int idx = 0;
extern int terminate_signal;
/* variables used by libconfig for inserting data into nwipe.conf */
config_setting_t* setting;
// const char* business_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Copy the current business address to the buffer */
strcpy( buffer, business_address );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Edit Organisation Business Address " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the business address of the organisation performing the erasure" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < 255 )
{
buffer[idx++] = keystroke;
buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* libconfig: Locate the Organisation Details section in nwipe.conf */
if( !( setting = config_lookup( &nwipe_cfg, "Organisation_Details.Business_Address" ) ) )
{
nwipe_log(
NWIPE_LOG_ERROR, "Failed to locate [Organisation_Details.Business_Address] in %s", nwipe_config_file );
}
/* libconfig: Write the new business name */
if( config_setting_set_string( setting, buffer ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR,
"Failed to write [%s] to [Organisation_Details.Business_Address] in %s",
buffer,
nwipe_config_file );
}
/* Write out the new configuration. */
if( config_write_file( &nwipe_cfg, nwipe_config_file ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to write organisation business address to %s", nwipe_config_file );
}
else
{
nwipe_log( NWIPE_LOG_INFO, "[Success] Business address written to %s", nwipe_config_file );
}
} /* End of nwipe_gui_organisation_business_address() */
void nwipe_gui_organisation_contact_name( const char* contact_name )
{
/**
* Allows the user to change the organisation business address as displayed on the PDF report.
*
* @modifies business_address in nwipe.conf
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer */
char buffer[256] = "";
/* buffer index */
int idx = 0;
extern int terminate_signal;
/* variables used by libconfig for inserting data into nwipe.conf */
config_setting_t* setting;
// const char* business_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Copy the current business address to the buffer */
strcpy( buffer, contact_name );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Edit Organisation Contact Name " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the contact name for the organisation performing the erasure" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < 255 )
{
buffer[idx++] = keystroke;
buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* libconfig: Locate the Organisation Details section in nwipe.conf */
if( !( setting = config_lookup( &nwipe_cfg, "Organisation_Details.Contact_Name" ) ) )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to locate [Organisation_Details.Contact_Name] in %s", nwipe_config_file );
}
/* libconfig: Write the new organisation contact name */
if( config_setting_set_string( setting, buffer ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR,
"Failed to write [%s] to [Organisation_Details.Contact_Name] in %s",
buffer,
nwipe_config_file );
}
/* Write out the new configuration. */
if( config_write_file( &nwipe_cfg, nwipe_config_file ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to write organisation contact name to %s", nwipe_config_file );
}
else
{
nwipe_log( NWIPE_LOG_INFO, "[Success] Business contact name written to %s", nwipe_config_file );
}
} /* End of nwipe_gui_organisation_contact_name() */
void nwipe_gui_organisation_contact_phone( const char* contact_phone )
{
/**
* Allows the user to change the organisation contact name as displayed on the PDF report.
*
* @modifies organisation contact name in nwipe.conf
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer */
char buffer[256] = "";
/* buffer index */
int idx = 0;
extern int terminate_signal;
/* variables used by libconfig for inserting data into nwipe.conf */
config_setting_t* setting;
// const char* contact_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Copy the current business address to the buffer */
strcpy( buffer, contact_phone );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Edit Organisation Contact Phone " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the contact phone for the organisation performing the erasure" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < 255 )
{
buffer[idx++] = keystroke;
buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* libconfig: Locate the Organisation Details section in nwipe.conf */
if( !( setting = config_lookup( &nwipe_cfg, "Organisation_Details.Contact_Phone" ) ) )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to locate [Organisation_Details.Contact_Phone] in %s", nwipe_config_file );
}
/* libconfig: Write the organistion contact phone */
if( config_setting_set_string( setting, buffer ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR,
"Failed to write [%s] to [Organisation_Details.Contact_Phone] in %s",
buffer,
nwipe_config_file );
}
/* Write out the new configuration. */
if( config_write_file( &nwipe_cfg, nwipe_config_file ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to write organisation contact phone to %s", nwipe_config_file );
}
else
{
nwipe_log( NWIPE_LOG_INFO, "[Success] Business contact phone written to %s", nwipe_config_file );
}
} /* End of nwipe_gui_organisation_contact_phone() */
void nwipe_gui_organisation_op_tech_name( const char* op_tech_name )
{
/**
* Allows the user to change the organisation contact name as displayed on the PDF report.
*
* @modifies organisation contact name in nwipe.conf
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer */
char buffer[256] = "";
/* buffer index */
int idx = 0;
extern int terminate_signal;
/* variables used by libconfig for inserting data into nwipe.conf */
config_setting_t* setting;
// const char* contact_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Copy the current op_tech_name to the buffer */
strcpy( buffer, op_tech_name );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Edit Operator/Technician Name " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the operator/technician's name that is performing the erasure" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < 255 )
{
buffer[idx++] = keystroke;
buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* libconfig: Locate the Organisation Details section in nwipe.conf */
if( !( setting = config_lookup( &nwipe_cfg, "Organisation_Details.Op_Tech_Name" ) ) )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to locate [Organisation_Details.Op_Tech_Name] in %s", nwipe_config_file );
}
/* libconfig: Write the organistion operator/technician name */
if( config_setting_set_string( setting, buffer ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR,
"Failed to write [%s] to [Organisation_Details.Op_Tech_Name] in %s",
buffer,
nwipe_config_file );
}
/* Write out the new configuration. */
if( config_write_file( &nwipe_cfg, nwipe_config_file ) == CONFIG_FALSE )
{
nwipe_log( NWIPE_LOG_ERROR, "Failed to write organisation operator/technician to %s", nwipe_config_file );
}
else
{
nwipe_log( NWIPE_LOG_INFO, "[Success] operator/technician name written to %s", nwipe_config_file );
}
} /* End of nwipe_gui_organisation_op_tech_name() */
void nwipe_gui_list( int count, char* window_title, char** list, int* selected_entry )
{
/**
* Displays a selectable list in a window, return 1 -n in selected entry.
* If selected entry = 0, then user cancelled selection.
*/
extern int terminate_signal;
/* The number of lines available in the window. */
int wlines;
/* The number of columns available in the window. */
int wcols;
/* The number of selection elements that we can show in the window. */
int slots;
/* The index of the element that is visible in the first slot. */
int offset = 0;
/* The selection focus. */
int focus = 0;
/* A generic loop variable. */
int i = 0;
/* User input buffer. */
int keystroke;
/* The current working line. */
int yy;
/* Flag, Valid key hit = 1, anything else = 0 */
int validkeyhit;
/* Processed customer entry as displayed in selection dialog */
char* display_line;
/* Get the terminal size */
getmaxyx( stdscr, stdscr_lines, stdscr_cols );
/* Save the terminal size so we check whether the user has resized */
stdscr_lines_previous = stdscr_lines;
stdscr_cols_previous = stdscr_cols;
/* Used to refresh the window every second */
time_t check_time = time( NULL );
/* Used in the selection loop to trap a failure of the timeout(), getch() mechanism to block for the designated
* period */
int iteration_counter;
/* Used in the selection loop to trap a failure of the timeout(), getch() mechanism to block for the designated
* period */
int expected_iterations;
/* General Indexes */
int idx, idx2;
time_t previous_iteration_timestamp;
do
{
nwipe_gui_create_all_windows_on_terminal_resize( 0, *p_main_window_footer );
/* There is one slot per line. */
getmaxyx( main_window, wlines, wcols );
/* Less two lines for the box and two lines for padding. */
slots = wlines - 4;
if( slots < 0 )
{
slots = 0;
}
/* The code here adjusts the offset value, required when the terminal is resized vertically */
if( slots > count )
{
offset = 0;
}
else
{
if( focus >= count )
{
/* The focus is already at the last element. */
focus = count - 1;
}
if( focus < 0 )
{
/* The focus is already at the last element. */
focus = 0;
}
}
if( count >= slots && slots > 0 )
{
offset = focus + 1 - slots;
if( offset < 0 )
{
offset = 0;
}
}
/* Clear the main window, necessary when switching selections such as method etc */
werase( main_window );
/* Refresh main window */
wnoutrefresh( main_window );
/* Set footer help text */
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer );
wrefresh( footer_window );
/* Refresh the stats window */
wnoutrefresh( stats_window );
/* Refresh the options window */
wnoutrefresh( options_window );
/* Update the options window. */
nwipe_gui_options();
/* Initialize the line offset. */
yy = 2;
for( i = 0; i < slots && i < count; i++ )
{
/* Move to the next line. */
mvwprintw( main_window, yy++, 1, " " );
if( i + offset == focus )
{
/* Print the 'enabled' cursor. */
waddch( main_window, ACS_RARROW );
}
else
{
/* Print whitespace. */
waddch( main_window, ' ' );
}
/* In the event for the offset value somehow becoming invalid, this if statement will prevent a segfault
* and the else part will log the out of bounds values for debugging */
if( i + offset >= 0 && i + offset < count )
{
/* print a entry from the list, we need to process the string before display,
* removing the double quotes that are used in csv for identifying the start & end of a field.
*/
if( ( display_line = calloc( sizeof( char ), strlen( list[i + offset] ) ) ) )
{
idx = 0;
idx2 = 0;
while( list[i + offset][idx] != 0 )
{
if( list[i + offset][idx] == '"' )
{
idx++;
}
else
{
display_line[idx2++] = list[i + offset][idx++];
}
}
display_line[idx2] = 0;
wprintw( main_window, "%s ", display_line );
free( display_line );
}
}
else
{
nwipe_log( NWIPE_LOG_DEBUG,
"GUI.c,nwipe_gui_select(), scroll, array index out of bounds, i=%u, count=%u, slots=%u, "
"focus=%u, offset=%u",
i,
count,
slots,
focus,
offset );
}
} /* for */
if( offset > 0 )
{
mvwprintw( main_window, 1, wcols - 8, " More " );
waddch( main_window, ACS_UARROW );
}
if( count - offset > slots )
{
mvwprintw( main_window, wlines - 2, wcols - 8, " More " );
waddch( main_window, ACS_DARROW );
}
/* Draw a border around the menu window. */
box( main_window, 0, 0 );
/* Print a title. */
nwipe_gui_title( main_window, window_title );
/* Refresh the window. */
wnoutrefresh( main_window );
/* Output to physical screen */
doupdate();
/* Initialise the iteration counter */
iteration_counter = 0;
previous_iteration_timestamp = time( NULL );
/* Calculate Maximum allowed iterations per second */
expected_iterations = ( 1000 / GETCH_BLOCK_MS ) * 8;
do
{
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
validkeyhit = 0;
timeout( GETCH_BLOCK_MS ); // block getch() for ideally about 250ms.
keystroke = getch(); // Get user input.
timeout( -1 ); // Switch back to blocking mode.
/* To avoid 100% CPU usage, check for a runaway condition caused by the "keystroke = getch(); (above), from
* immediately returning an error condition. We check for an error condition because getch() returns a ERR
* value when the timeout value "timeout( 250 );" expires as well as when a real error occurs. We can't
* differentiate from normal operation and a failure of the getch function to block for the specified period
* of timeout. So here we check the while loop hasn't exceeded the number of expected iterations per second
* ie. a timeout(250) block value of 250ms means we should not see any more than (1000/250) = 4 iterations.
* We increase this to 32 iterations to allow a little tolerance. Why is this necessary? It's been found
* that in KDE konsole and other terminals based on the QT terminal engine exiting the terminal without
* first exiting nwipe results in nwipe remaining running but detached from any interface which causes
* getch to fail and its associated timeout. So the CPU or CPU core rises to 100%. Here we detect that
* failure and exit nwipe gracefully with the appropriate error. This does not affect use of tmux for
* attaching or detaching from a running nwipe session when sitting at the selection screen. All other
* terminals correctly terminate nwipe when the terminal itself is exited.
*/
iteration_counter++;
if( previous_iteration_timestamp == time( NULL ) )
{
if( iteration_counter > expected_iterations )
{
nwipe_log( NWIPE_LOG_ERROR,
"GUI.c,nwipe_gui_select(), loop runaway, did you close the terminal without exiting "
"nwipe? Exiting nwipe now." );
/* Issue signal to nwipe to exit immediately but gracefully */
terminate_signal = 1;
}
}
else
{
/* new second, so reset counter */
iteration_counter = 0;
previous_iteration_timestamp = time( NULL );
}
/* We don't necessarily use all of these. For future reference these are some CTRL+key values
* ^A - 1, ^B - 2, ^D - 4, ^E - 5, ^F - 6, ^G - 7, ^H - 8, ^I - 9, ^K - 11, ^L - 12, ^N - 14,
* ^O - 15, ^P - 16, ^R - 18, ^T - 20, ^U - 21, ^V - 22, ^W - 23, ^X - 24, ^Y - 25
* Use nwipe_log( NWIPE_LOG_DEBUG, "Key Name: %s - %u", keyname(keystroke),keystroke) to
* figure out what code is returned by what ever key combination */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
validkeyhit = 1;
/* Increment the focus. */
focus += 1;
if( focus >= count )
{
/* The focus is already at the last element. */
focus = count - 1;
break;
}
if( focus - offset >= slots )
{
/* The next element is offscreen. Scroll down. */
offset += 1;
break;
}
break;
case KEY_UP:
case 'k':
case 'K':
validkeyhit = 1;
/* Decrement the focus. */
focus -= 1;
if( focus < 0 )
{
/* The focus is already at the last element. */
focus = 0;
break;
}
if( focus < offset )
{
/* The next element is offscreen. Scroll up. */
offset -= 1;
break;
}
break;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
*selected_entry = 0;
return;
break;
case KEY_ENTER:
case 10:
case ' ':
validkeyhit = 1;
/* Return the index of the selected item in the list. Values start at 1 not zero */
*selected_entry = focus + 1;
return;
break;
} /* keystroke switch */
/* Check the terminal size, if the user has changed it the while loop checks for
* this change and exits the valid key hit loop so the windows can be updated */
getmaxyx( stdscr, stdscr_lines, stdscr_cols );
/* Update the selection window every 1 second specifically
* so that the drive temperatures are updated and also the line toggle that
* occurs with the HPA status and the drive size & temperature.
*/
if( time( NULL ) > ( check_time + 1 ) )
{
check_time = time( NULL );
validkeyhit = 1;
}
} /* key hit loop */
while( validkeyhit == 0 && terminate_signal != 1 && stdscr_cols_previous == stdscr_cols
&& stdscr_lines_previous == stdscr_lines );
} while( terminate_signal != 1 );
} /* nwipe_gui_list */
void nwipe_gui_add_customer( void )
{
/**
* Add new customer top level menu
*
*/
extern int terminate_signal;
/* Number of entries in the configuration menu. */
const int count = 4;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 27;
/* The currently selected method. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
char customer_name[FIELD_LENGTH] = "";
char customer_address[FIELD_LENGTH] = "";
char customer_contact_name[FIELD_LENGTH] = "";
char customer_contact_phone[FIELD_LENGTH] = "";
/* 0 = NO = don't save, 1 = YES = save customer */
int save = NO;
/* 0 = Display standard dialog footer, 1 = YES = display "Save Y/N" footer */
int yes_no = NO;
/* variables used by libconfig for extracting data from nwipe.conf */
config_setting_t* setting;
// const char *business_name, *business_address, *contact_name, *contact_phone, *op_tech_name;
extern config_t nwipe_cfg;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_config );
wrefresh( footer_window );
do
{
do
{
/* Clear the main window. */
werase( main_window );
/* Change footer based on whether we are waiting for a Y/N response */
if( yes_no == YES )
{
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_add_customer_yes_no );
wrefresh( footer_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_add_customer_yes_no );
}
else
{
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_config );
wrefresh( footer_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_config );
}
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s : %s", "Add Customer Name ", customer_name );
mvwprintw( main_window, yy++, tab1, " %s : %s", "Add Customer Address ", customer_address );
mvwprintw( main_window, yy++, tab1, " %s : %s", "Add Customer Contact Name ", customer_contact_name );
mvwprintw( main_window, yy++, tab1, " %s : %s", "Add Customer Contact Phone", customer_contact_phone );
mvwprintw( main_window, yy++, tab1, " " );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " PDF Report - Add New Customer " );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); /* block getch() for 250ms */
keystroke = getch(); /* Get a keystroke. */
timeout( -1 ); /* Switch back to blocking mode */
if( yes_no == NO )
{
switch( keystroke )
{
// Save customer
case 's':
case 'S':
break;
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
focus += 1;
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
focus -= 1;
}
break;
case KEY_BACKSPACE:
case KEY_BREAK:
case 27: /* ESC */
/* If the user has entered any text then ask if the customer entries should be saved */
if( customer_name[0] != 0 || customer_address[0] != 0 || customer_contact_name[0] != 0
|| customer_contact_phone[0] != 0 )
{
/* Set the footer yes/no flag */
yes_no = YES;
}
else
{
return;
}
break;
} /* switch */
}
else
{
/* Waiting for a Y/N response */
switch( keystroke )
{
case 'y':
case 'Y':
save = 1;
break;
case 'n':
case 'N':
return;
break;
}
}
} while( save != YES && keystroke != 's' && keystroke != KEY_ENTER && keystroke != 10
&& terminate_signal != 1 );
if( keystroke == KEY_ENTER || keystroke == 10 )
{
switch( focus )
{
case 0:
nwipe_gui_add_customer_name( customer_name );
keystroke = 0;
break;
case 1:
nwipe_gui_add_customer_address( customer_address );
keystroke = 0;
break;
case 2:
nwipe_gui_add_customer_contact_name( customer_contact_name );
keystroke = 0;
break;
case 3:
nwipe_gui_add_customer_contact_phone( customer_contact_phone );
keystroke = 0;
break;
}
}
} while( save != YES && keystroke != 's' && keystroke != KEY_ENTER && keystroke != ' ' && keystroke != 10
&& terminate_signal != 1 );
/* If save set, or user pressed s or S then save the customer details */
if( keystroke == 's' || keystroke == 'S' || save == 1 )
{
write_customer_csv_entry( customer_name, customer_address, customer_contact_name, customer_contact_phone );
}
} /* end of nwipe_gui_add_customer( void ) */
void nwipe_gui_add_customer_name( char* customer_name )
{
/**
* Allows the user to change the customer's contact name as displayed on the PDF report.
*
* @modifies customer's contact name
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer index */
int idx = 0;
extern int terminate_signal;
// const char* contact_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( customer_name );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Add New Customer Name " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the customer's name (business or personal name)" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", customer_name );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
customer_name[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH )
{
customer_name[idx++] = keystroke;
customer_name[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", customer_name );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
} /* End of nwipe_gui_add_customer_name() */
void nwipe_gui_add_customer_address( char* customer_address )
{
/**
* Allows the user to change the customer's address as displayed on the PDF report.
*
* @modifies customer's address
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer index */
int idx = 0;
extern int terminate_signal;
// const char* contact_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( customer_address );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Add New Customer Address " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the customer's address" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", customer_address );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
customer_address[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH )
{
customer_address[idx++] = keystroke;
customer_address[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", customer_address );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
} /* End of nwipe_gui_add_customer_address() */
void nwipe_gui_add_customer_contact_name( char* customer_contact_name )
{
/**
* Allows the user to change the customer contact name as displayed on the PDF report.
*
* @modifies customer's contact name
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer index */
int idx = 0;
extern int terminate_signal;
// const char* contact_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( customer_contact_name );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Add New Customer Contact Name " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the customer's contact name" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", customer_contact_name );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
customer_contact_name[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH )
{
customer_contact_name[idx++] = keystroke;
customer_contact_name[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", customer_contact_name );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
} /* End of nwipe_gui_add_customer_contact_name() */
void nwipe_gui_add_customer_contact_phone( char* customer_contact_phone )
{
/**
* Allows the user to change the customer contact phone as displayed on the PDF report.
*
* @modifies customer's contact phone
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
/* buffer index */
int idx = 0;
extern int terminate_signal;
// const char* contact_name;
extern config_t nwipe_cfg;
extern char nwipe_config_file[];
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( customer_contact_phone );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Add New Customer Contact Phone " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the customer's contact phone" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", customer_contact_phone );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
customer_contact_phone[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH )
{
customer_contact_phone[idx++] = keystroke;
customer_contact_phone[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", customer_contact_phone );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
} /* End of nwipe_gui_add_customer_contact_phone() */
void nwipe_gui_preview_org_customer( int mode )
{
/**
* Display the organisation and customers details and the current system date and time
*
*/
extern int terminate_signal;
/* Number of entries in the configuration menu. */
const int count = 12;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 27;
/* The currently selected method. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
time_t t;
char output_str[FIELD_LENGTH];
/* Window dimensions */
int wlines;
int wcols;
/* variables used by libconfig for extracting data from nwipe.conf */
config_setting_t* setting;
const char *business_name, *business_address, *contact_name, *contact_phone, *op_tech_name;
const char *customer_name, *customer_address, *customer_contact_name, *customer_contact_phone;
extern config_t nwipe_cfg;
do
{
do
{
/* Clear the main window. */
werase( main_window );
/* Update the footer window. */
werase( footer_window );
if( mode == SHOWING_IN_CONFIG_MENUS )
{
nwipe_gui_title( footer_window, selection_footer );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer );
}
else
{
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_preview_prior_to_drive_selection );
nwipe_gui_title( footer_window, selection_footer_preview_prior_to_drive_selection );
}
wrefresh( footer_window );
/* Determine size of window */
getmaxyx( main_window, wlines, wcols );
/* Initialize the working row. */
yy = 2;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s", "Business Name" );
mvwprintw( main_window, yy++, tab1, " %s", "Business Address" );
mvwprintw( main_window, yy++, tab1, " %s", "Contact Name" );
mvwprintw( main_window, yy++, tab1, " %s", "Contact Phone" );
mvwprintw( main_window, yy++, tab1, " %s", "Tech/Operator" );
yy++;
mvwprintw( main_window, yy++, tab1, " %s", "Customer Name" );
mvwprintw( main_window, yy++, tab1, " %s", "Customer Address" );
mvwprintw( main_window, yy++, tab1, " %s", "Customer Contact Name" );
mvwprintw( main_window, yy++, tab1, " %s", "Customer Contact Phone" );
yy++;
mvwprintw( main_window, yy++, tab1, " %s", "System Date/Time" );
/* Print the cursor. */
mvwaddch( main_window, 2 + focus, tab1, ACS_RARROW );
/******************************************************************
* libconfig: Locate the Organisation Details section in nwipe.conf
*/
setting = config_lookup( &nwipe_cfg, "Organisation_Details" );
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Business_Name", &business_name ) )
{
str_truncate( wcols, tab2, business_name, output_str, FIELD_LENGTH );
mvwprintw( main_window, 2, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve business_name, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 2, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Business_Address", &business_address ) )
{
str_truncate( wcols, tab2, business_address, output_str, FIELD_LENGTH );
mvwprintw( main_window, 3, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve business address, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 3, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Contact_Name", &contact_name ) )
{
str_truncate( wcols, tab2, contact_name, output_str, FIELD_LENGTH );
mvwprintw( main_window, 4, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve contact name, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 4, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Contact_Phone", &contact_phone ) )
{
str_truncate( wcols, tab2, contact_phone, output_str, FIELD_LENGTH );
mvwprintw( main_window, 5, tab2, ": %s", output_str );
}
else
{
str_truncate(
wcols, tab2, "Cannot retrieve customer contact phone, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 5, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Op_Tech_Name", &op_tech_name ) )
{
str_truncate( wcols, tab2, op_tech_name, output_str, FIELD_LENGTH );
mvwprintw( main_window, 6, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve op_tech_name, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 6, tab2, ": %s", output_str );
}
/**********************************************************************
* libconfig: Locate the current customer details section in nwipe.conf
*/
setting = config_lookup( &nwipe_cfg, "Selected_Customer" );
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Customer_Name", &customer_name ) )
{
str_truncate( wcols, tab2, customer_name, output_str, FIELD_LENGTH );
mvwprintw( main_window, 8, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve Customer_Name, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 8, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Customer_Address", &customer_address ) )
{
str_truncate( wcols, tab2, customer_address, output_str, FIELD_LENGTH );
mvwprintw( main_window, 9, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve customer address, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 9, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Contact_Name", &contact_name ) )
{
str_truncate( wcols, tab2, contact_name, output_str, FIELD_LENGTH );
mvwprintw( main_window, 10, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve contact name, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 10, tab2, ": %s", output_str );
}
/* Retrieve data from nwipe.conf */
if( config_setting_lookup_string( setting, "Contact_Phone", &contact_phone ) )
{
str_truncate( wcols, tab2, contact_phone, output_str, FIELD_LENGTH );
mvwprintw( main_window, 11, tab2, ": %s", output_str );
}
else
{
str_truncate( wcols, tab2, "Cannot retrieve contact phone, nwipe.conf", output_str, FIELD_LENGTH );
mvwprintw( main_window, 11, tab2, ": %s", output_str );
}
/*******************************
* Retrieve system date and time
*/
time( &t );
mvwprintw( main_window, 13, tab2, ": %s", ctime( &t ) );
/* ************
* Add a border
*/
box( main_window, 0, 0 );
/*************
* Add a title
*/
nwipe_gui_title( main_window, " PDF Report - Preview Organisation, customer and date/time " );
/********************
* Refresh the window
*/
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); /* block getch() for 250ms */
keystroke = getch(); /* Get a keystroke. */
timeout( -1 ); /* Switch back to blocking mode */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
if( focus == 4 || focus == 9 )
{
focus += 2; /* mind the gaps */
}
else
{
focus += 1;
}
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
if( focus == 6 || focus == 11 )
{
focus -= 2; /* mind the gaps */
}
else
{
focus -= 1;
}
}
break;
case KEY_BACKSPACE:
case KEY_BREAK:
case 27: /* ESC */
return;
break;
case 'A':
case 'a':
if( mode == SHOWING_PRIOR_TO_DRIVE_SELECTION )
{
return;
}
} /* switch */
} while( keystroke != KEY_ENTER && keystroke != ' ' && keystroke != 10 && terminate_signal != 1 );
if( keystroke == KEY_ENTER || keystroke == 10 || keystroke == ' ' )
{
switch( focus )
{
case 0:
nwipe_gui_organisation_business_name( business_name );
keystroke = 0;
break;
case 1:
nwipe_gui_organisation_business_address( business_address );
keystroke = 0;
break;
case 2:
nwipe_gui_organisation_contact_name( contact_name );
keystroke = 0;
break;
case 3:
nwipe_gui_organisation_contact_phone( contact_phone );
keystroke = 0;
break;
case 4:
nwipe_gui_organisation_op_tech_name( op_tech_name );
keystroke = 0;
break;
case 6:
case 7:
case 8:
case 9:
nwipe_gui_config();
break;
case 11:
nwipe_gui_set_date_time();
}
}
} while( keystroke != 'A' && keystroke != 'a' && keystroke != KEY_ENTER && keystroke != ' ' && keystroke != 10
&& terminate_signal != 1 );
} /* end of nwipe_gui_preview_org_customer( void ) */
void nwipe_gui_set_date_time( void )
{
/**
* Set system date and time
*
*/
extern int terminate_signal;
/* Number of entries in the configuration menu. */
const int count = 6;
/* The first tabstop. */
const int tab1 = 2;
/* The second tabstop. */
const int tab2 = 27;
/* The currently selected method. */
int focus = 0;
/* The current working row. */
int yy;
/* Input buffer. */
int keystroke;
time_t t;
/* Window dimensions */
int wlines;
int wcols;
extern config_t nwipe_cfg;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_config );
wrefresh( footer_window );
do
{
do
{
/* Clear the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_config );
/* Determine size of window */
getmaxyx( main_window, wlines, wcols );
/* Initialize the working row. */
yy = 4;
/* Print the options. */
mvwprintw( main_window, yy++, tab1, " %s", "Year" );
mvwprintw( main_window, yy++, tab1, " %s", "Month" );
mvwprintw( main_window, yy++, tab1, " %s", "Day" );
yy++;
mvwprintw( main_window, yy++, tab1, " %s", "Hours" );
mvwprintw( main_window, yy++, tab1, " %s", "Minutes" );
yy++;
mvwprintw( main_window,
yy++,
tab1,
" %s",
"If a Network Time Protocol (NTP) daemon is running date/time may not change" );
mvwprintw( main_window,
yy++,
tab1,
" %s",
"or may revert back to NTP provided time. Setting time here is for use when" );
mvwprintw( main_window,
yy++,
tab1,
" %s",
"the host system is not running NTP or not connected to the internet." );
/* Print the cursor. */
mvwaddch( main_window, 4 + focus, tab1, ACS_RARROW );
/*******************************
* Retrieve system date and time
*/
time( &t );
mvwprintw( main_window, 2, tab1, "%s", ctime( &t ) );
/* ************
* Add a border
*/
box( main_window, 0, 0 );
/*************
* Add a title
*/
nwipe_gui_title( main_window, " Set date/time " );
/********************
* Refresh the window
*/
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); /* block getch() for 250ms */
keystroke = getch(); /* Get a keystroke. */
timeout( -1 ); /* Switch back to blocking mode */
switch( keystroke )
{
case KEY_DOWN:
case 'j':
case 'J':
if( focus < count - 1 )
{
if( focus == 2 )
{
focus += 2; /* mind the gaps */
}
else
{
focus += 1;
}
}
break;
case KEY_UP:
case 'k':
case 'K':
if( focus > 0 )
{
if( focus == 4 )
{
focus -= 2; /* mind the gaps */
}
else
{
focus -= 1;
}
}
break;
case KEY_BACKSPACE:
case KEY_BREAK:
case 27: /* ESC */
return;
} /* switch */
} while( keystroke != KEY_ENTER && keystroke != ' ' && keystroke != 10 && terminate_signal != 1 );
if( keystroke == KEY_ENTER || keystroke == 10 || keystroke == ' ' )
{
switch( focus )
{
case 0:
/* Set year */
nwipe_gui_set_system_year();
keystroke = 0;
break;
case 1:
/* Set month */
nwipe_gui_set_system_month();
keystroke = 0;
break;
case 2:
/* Set day */
nwipe_gui_set_system_day();
keystroke = 0;
break;
case 4:
/* Set hours */
nwipe_gui_set_system_hour();
keystroke = 0;
break;
case 5:
/* Set minutes */
nwipe_gui_set_system_minute();
keystroke = 0;
break;
}
}
} while( keystroke != KEY_ENTER && keystroke != ' ' && keystroke != 10 && terminate_signal != 1 );
} /* end of nwipe_gui_set_date_time( void ) */
void nwipe_gui_set_system_year( void )
{
/**
* Allows the user to edit the host systems year
*
* @modifies system year
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy = 2;
/* Input buffer. */
int keystroke;
/* Various output from the date command is processed in this buffer */
char date_buffer[256];
date_buffer[0] = 0;
char year[5] = "";
char month[3] = "";
char day[3] = "";
char hours[3] = "";
char minutes[3] = "";
char seconds[3] = "";
/* buffer index */
int idx = 0;
int status = 0;
FILE* fp;
extern int terminate_signal;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
fp = popen( "date +%Y", "r" );
if( fp == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "popen:Failed to retrieve date +%Y %s", date_buffer );
mvwprintw( main_window, yy + 4, tab1, "popen:date command failed retrieving year" );
}
if( fgets( date_buffer, sizeof( date_buffer ), fp ) == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "fgets:failed to retrieve year %s", date_buffer );
mvwprintw( main_window, yy + 5, tab1, "fgets:failed retrieving year" );
}
/* terminate string after fourth character removing any lf */
date_buffer[4] = 0;
pclose( fp );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( date_buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Set System Year " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window, yy++, tab1, "Enter the current year, four numeric digits, return key to submit" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
date_buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH && idx < 4 )
{
date_buffer[idx++] = keystroke;
date_buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* Write year back to system */
status = read_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:read_system_datetime failed, see previous messages for detail" );
}
strncpy( year, date_buffer, 4 );
status = write_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:write_system_datetime failed, see previous messages for detail" );
}
} /* End of nwipe_gui_set_system_year() */
void nwipe_gui_set_system_month( void )
{
/**
* Allows the user to edit the host systems year
*
* @modifies system month
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy = 2;
/* Input buffer. */
int keystroke;
/* Various output from the date command is processed in this buffer */
char date_buffer[256];
date_buffer[0] = 0;
char year[5] = "";
char month[3] = "";
char day[3] = "";
char hours[3] = "";
char minutes[3] = "";
char seconds[3] = "";
/* buffer index */
int idx = 0;
int status = 0;
FILE* fp;
extern int terminate_signal;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
fp = popen( "date +%m", "r" );
if( fp == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "popen:Failed to retrieve date +%m %s", date_buffer );
mvwprintw( main_window, yy + 4, tab1, "popen:date command failed retrieving month" );
}
if( fgets( date_buffer, sizeof( date_buffer ), fp ) == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "fgets:failed to retrieve month %s", date_buffer );
mvwprintw( main_window, yy + 5, tab1, "fgets:failed retrieving month" );
}
/* terminate string after fourth character removing any lf */
date_buffer[2] = 0;
pclose( fp );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( date_buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Set System Month " );
/* Initialize the working row. */
yy = 4;
mvwprintw(
main_window, yy++, tab1, "Enter the current month, two numeric digits, i.e 01, return key to submit" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
date_buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH && idx < 4 )
{
date_buffer[idx++] = keystroke;
date_buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* Write year back to system */
status = read_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:read_system_datetime failed, see previous messages for detail" );
}
strncpy( month, date_buffer, 2 );
status = write_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:write_system_datetime failed, see previous messages for detail" );
}
} /* End of nwipe_gui_set_system_month() */
void nwipe_gui_set_system_day( void )
{
/**
* Allows the user to edit the host systems year
*
* @modifies system day of the month
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy = 2;
/* Input buffer. */
int keystroke;
/* Various output from the date command is processed in this buffer */
char date_buffer[256];
date_buffer[0] = 0;
char year[5] = "";
char month[3] = "";
char day[3] = "";
char hours[3] = "";
char minutes[3] = "";
char seconds[3] = "";
/* buffer index */
int idx = 0;
int status = 0;
FILE* fp;
extern int terminate_signal;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
fp = popen( "date +%d", "r" );
if( fp == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "popen:Failed to retrieve date +%d %s", date_buffer );
mvwprintw( main_window, yy + 4, tab1, "popen:date command failed retrieving day of month" );
}
if( fgets( date_buffer, sizeof( date_buffer ), fp ) == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "fgets:failed to retrieve day of month %s", date_buffer );
mvwprintw( main_window, yy + 5, tab1, "fgets:failed retrieving day of month" );
}
/* terminate string after fourth character removing any lf */
date_buffer[2] = 0;
pclose( fp );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( date_buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Set System Day of Month " );
/* Initialize the working row. */
yy = 4;
mvwprintw( main_window,
yy++,
tab1,
"Enter the current day of month, two numeric digits, i.e 01, return key to submit" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
date_buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH && idx < 4 )
{
date_buffer[idx++] = keystroke;
date_buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* Write year back to system */
status = read_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:read_system_datetime failed, see previous messages for detail" );
}
strncpy( day, date_buffer, 2 );
status = write_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:write_system_datetime failed, see previous messages for detail" );
}
} /* End of nwipe_gui_set_system_day() */
void nwipe_gui_set_system_hour( void )
{
/**
* Allows the user to edit the host systems year
*
* @modifies system hour
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy = 2;
/* Input buffer. */
int keystroke;
/* Various output from the date command is processed in this buffer */
char date_buffer[256];
date_buffer[0] = 0;
char year[5] = "";
char month[3] = "";
char day[3] = "";
char hours[3] = "";
char minutes[3] = "";
char seconds[3] = "";
/* buffer index */
int idx = 0;
int status = 0;
FILE* fp;
extern int terminate_signal;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
fp = popen( "date +%H", "r" );
if( fp == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "popen:Failed to retrieve date +%H %s", date_buffer );
mvwprintw( main_window, yy + 4, tab1, "popen:date command failed retrieving hour" );
}
if( fgets( date_buffer, sizeof( date_buffer ), fp ) == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "fgets:failed to retrieve the hour %s", date_buffer );
mvwprintw( main_window, yy + 5, tab1, "fgets:failed retrieving the hour" );
}
/* terminate string after fourth character removing any lf */
date_buffer[2] = 0;
pclose( fp );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( date_buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Set System Hour " );
/* Initialize the working row. */
yy = 4;
mvwprintw(
main_window, yy++, tab1, "Enter the current hour, two numeric digits, i.e 01, return key to submit" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
date_buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH && idx < 4 )
{
date_buffer[idx++] = keystroke;
date_buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* Write year back to system */
status = read_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:read_system_datetime failed, see previous messages for detail" );
}
strncpy( hours, date_buffer, 2 );
status = write_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:write_system_datetime failed, see previous messages for detail" );
}
} /* End of nwipe_gui_set_system_hour() */
void nwipe_gui_set_system_minute( void )
{
/**
* Allows the user to edit the host systems year
*
* @modifies system minute
* @modifies main_window
*
*/
/* The first tabstop. */
const int tab1 = 2;
/* The current working row. */
int yy = 2;
/* Input buffer. */
int keystroke;
/* Various output from the date command is processed in this buffer */
char date_buffer[256];
date_buffer[0] = 0;
char year[5] = "";
char month[3] = "";
char day[3] = "";
char hours[3] = "";
char minutes[3] = "";
char seconds[3] = "";
/* buffer index */
int idx = 0;
int status = 0;
FILE* fp;
extern int terminate_signal;
/* Update the footer window. */
werase( footer_window );
nwipe_gui_title( footer_window, selection_footer_text_entry );
wrefresh( footer_window );
fp = popen( "date +%M", "r" );
if( fp == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "popen:Failed to retrieve date +%M %s", date_buffer );
mvwprintw( main_window, yy + 4, tab1, "popen:date command failed retrieving minute" );
}
if( fgets( date_buffer, sizeof( date_buffer ), fp ) == NULL )
{
nwipe_log( NWIPE_LOG_INFO, "fgets:failed to retrieve the minute %s", date_buffer );
mvwprintw( main_window, yy + 5, tab1, "fgets:failed retrieving the minute" );
}
/* terminate string after fourth character removing any lf */
date_buffer[2] = 0;
pclose( fp );
/* Set the buffer index to point to the end of the string, i.e the NULL */
idx = strlen( date_buffer );
do
{
/* Erase the main window. */
werase( main_window );
nwipe_gui_create_all_windows_on_terminal_resize( 0, selection_footer_text_entry );
/* Add a border. */
box( main_window, 0, 0 );
/* Add a title. */
nwipe_gui_title( main_window, " Set System Minute " );
/* Initialize the working row. */
yy = 4;
mvwprintw(
main_window, yy++, tab1, "Enter the current minute, two numeric digits, i.e 01, return key to submit" );
/* Print this line last so that the cursor is in the right place. */
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
/* Reveal the cursor. */
curs_set( 1 );
/* Refresh the window. */
wrefresh( main_window );
/* Wait 250ms for input from getch, if nothing getch will then continue,
* This is necessary so that the while loop can be exited by the
* terminate_signal e.g.. the user pressing control-c to exit.
* Do not change this value, a higher value means the keys become
* sluggish, any slower and more time is spent unnecessarily looping
* which wastes CPU cycles.
*/
timeout( 250 ); // block getch() for 250ms.
keystroke = getch(); // Get a keystroke.
timeout( -1 ); // Switch back to blocking mode.
switch( keystroke )
{
/* Escape key. */
case 27:
return;
case KEY_BACKSPACE:
case KEY_LEFT:
case 127:
if( idx > 0 )
{
date_buffer[--idx] = 0;
}
break;
} /* switch keystroke */
if( ( keystroke >= ' ' && keystroke <= '~' ) && keystroke != '\"' && idx < FIELD_LENGTH && idx < 4 )
{
date_buffer[idx++] = keystroke;
date_buffer[idx] = 0;
mvwprintw( main_window, 2, tab1, ">%s", date_buffer );
}
/* Hide the cursor. */
curs_set( 0 );
} while( keystroke != 10 && terminate_signal != 1 );
/* Write year back to system */
status = read_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:read_system_datetime failed, see previous messages for detail" );
}
strncpy( minutes, date_buffer, 2 );
status = write_system_datetime( year, month, day, hours, minutes, seconds );
if( status != 0 )
{
nwipe_log( NWIPE_LOG_ERROR, "func:write_system_datetime failed, see previous messages for detail" );
}
} /* End of nwipe_gui_set_system_minute() */
void nwipe_gui_load( void )
{
/**
* Prints the system load average to the statistics window.
*
* @modifies stat_window Prints the system load average to the statistics window.
*
*/
/* A file handle for the stat file. */
FILE* nwipe_fp;
/* The one, five, and fifteen minute load averages. */
float load_01;
float load_05;
float load_15;
/* Open the loadavg file. */
nwipe_fp = fopen( NWIPE_KNOB_LOADAVG, "r" );
/* Print the label. */
mvwprintw( stats_window, NWIPE_GUI_STATS_LOAD_Y, NWIPE_GUI_STATS_LOAD_X, "Load Averages:" );
if( nwipe_fp )
{
/* The load averages are the first three numbers in the file. */
if( 3 == fscanf( nwipe_fp, "%f %f %f", &load_01, &load_05, &load_15 ) )
{
/* Print the load average. */
mvwprintw( stats_window,
NWIPE_GUI_STATS_LOAD_Y,
NWIPE_GUI_STATS_TAB,
"%04.2f %04.2f %04.2f",
load_01,
load_05,
load_15 );
}
else
{
/* Print an error. */
mvwprintw( stats_window, NWIPE_GUI_STATS_LOAD_Y, NWIPE_GUI_STATS_TAB, "(fscanf error %i)", errno );
}
/* Close the loadavg file. */
fclose( nwipe_fp );
}
else
{
mvwprintw( stats_window, NWIPE_GUI_STATS_LOAD_Y, NWIPE_GUI_STATS_TAB, "(fopen error %i)", errno );
}
} /* nwipe_gui_load */
void* nwipe_gui_status( void* ptr )
{
/**
* Shows runtime statistics and overall progress.
*
* @parameter count The number of contexts in the array.
* @parameter c An array of device contexts.
*
* @modifies main_window Prints information into the main window.
* @modifies c[].throughput Updates the i/o throughput value.
*
*/
extern int terminate_signal;
nwipe_thread_data_ptr_t* nwipe_thread_data_ptr;
nwipe_thread_data_ptr = (nwipe_thread_data_ptr_t*) ptr;
nwipe_context_t** c;
nwipe_misc_thread_data_t* nwipe_misc_thread_data;
int count;
c = nwipe_thread_data_ptr->c;
nwipe_misc_thread_data = nwipe_thread_data_ptr->nwipe_misc_thread_data;
count = nwipe_misc_thread_data->nwipe_selected;
char nomenclature_result_str[NOMENCLATURE_RESULT_STR_SIZE]; /* temporary usage */
/* Spinner character */
char spinner_string[2];
/* Create the finish message, this changes based on whether PDF creation is enabled
* and whether a logfile has been specified
*/
char finish_message[NWIPE_GUI_FOOTER_W + 132];
if( nwipe_options.logfile[0] == 0 && nwipe_options.PDF_enable != 0 )
{
snprintf( finish_message,
sizeof( finish_message ),
"Wipe finished - press enter to create pdfs & exit. Logged to STDOUT" );
}
else
{
if( nwipe_options.logfile[0] != 0 && nwipe_options.PDF_enable != 0 )
{
snprintf( finish_message,
sizeof( finish_message ),
"Wipe finished - press enter to create pdfs & exit. Logged to %s",
nwipe_options.logfile );
}
else
{
if( nwipe_options.logfile[0] != 0 && nwipe_options.PDF_enable == 0 )
{
snprintf( finish_message,
sizeof( finish_message ),
"Wipe finished - press enter to exit (pdfs disabled in config). Logged to %s",
nwipe_options.logfile );
}
else
{
if( nwipe_options.logfile[0] == 0 && nwipe_options.PDF_enable == 0 )
{
snprintf( finish_message,
sizeof( finish_message ),
"Wipe finished - press enter to exit (pdfs disabled in config). Logged to STDOUT" );
}
else
{
/* This is a catch all something unexpected happens with the above logic */
snprintf( finish_message,
sizeof( finish_message ),
"Wipe finished - press enter to exit. Logged to STDOUT" );
}
}
}
}
/* We count time from when this function is first called. */
static time_t nwipe_time_start = 0;
/* Whether the screen has been blanked by the user. */
static int nwipe_gui_blank = 0;
/* The current time. */
time_t nwipe_time_now;
/* The time when all wipes ended */
time_t nwipe_time_stopped;
/* The index of the element that is visible in the first slot. */
static int offset;
/* The number of elements that we can show in the window. */
int slots;
/* Window dimensions. */
int wlines;
int wcols;
/* Generic loop variable. */
int i;
/* The current working line in the main window. */
int yy;
/* User input buffer. */
int keystroke;
/* controls main while loop */
int loop_control;
/* The combined througput of all processes. */
nwipe_misc_thread_data->throughput = 0;
/* The estimated runtime of the slowest device. */
nwipe_misc_thread_data->maxeta = 0;
/* The combined number of errors of all processes. */
nwipe_misc_thread_data->errors = 0;
/* Time values. */
int nwipe_hh;
int nwipe_mm;
int nwipe_ss;
struct timespec tim, tim2;
tim.tv_sec = 0;
tim.tv_nsec = 100000000L; /* sleep for 0.1 seconds */
/* Throughput variables */
u64 nwipe_throughput;
/* The number of active wipe processes. */
/* Set to 1 initially to start loop. */
int nwipe_active = 1;
/* Used in the gui status loop to trap a failure of the halfdelay(), getch() mechanism to block for the designated
* period */
int expected_iterations;
/* Used in the selection loop to trap a failure of the timeout(), getch() mechanism to block for the designated
* period, initialise the counter */
int iteration_counter = 0;
time_t previous_iteration_timestamp = time( NULL );
/* Calculate Maximum allowed iterations per second (typically 20), which is double the expected iterations
* (typically 10) */
expected_iterations = ( 1000 / GETCH_GUI_STATS_UPDATE_MS ) * 2;
if( nwipe_time_start == 0 )
{
/* This is the first time that we have been called. */
nwipe_time_start = time( NULL ) - 1;
}
nwipe_gui_title( footer_window, *p_end_wipe_footer );
loop_control = 1;
while( loop_control )
{
/* IMPORTANT ! Halfdelay(1) causes getch() to pause for 0.1 secs. This is important for two reasons.
* 1. Pauses the getch for 0.1 secs so that the screen is only updated max 10 times/sec. Without
* this delay the loop would run hundreds of times per sec maxing out the core.
* 2. By keeping the delay below 0.2 seconds, i.e 0.1, it makes the keypress and resizing
* nice and responsive.
*/
halfdelay( GETCH_GUI_STATS_UPDATE_MS ); // Important, don't change this unless you know what you are doing !
// Related to getch().
keystroke = getch(); // Get user input.
iteration_counter++;
/* Much like the same check we perform in the nwipe_gui_select() function, here we check that we are not looping
* any faster than as defined by the halfdelay() function above, typically this loop runs at 10 times a second.
* This check makes sure that if the loop runs faster than double this value i.e 20 times a second then the
* program exits. This check is therefore determining whether the getch() function is returning immediately
* rather than blocking for the defined period of 100ms. Why is this necessary? Some terminals (konsole &
* deriviatives) that are exited while nwipe is still running fail to terminate nwipe this causes the
* halfdelay()/getch() functions to immediately fail causing the loop frequency to drastically increase. We
* detect that speed increase here and therefore close down nwipe. This doesn't affect the use of the tmux
* terminal by which you can detach and reattach to running nwipe processes. tmux still works correctly.
*/
if( previous_iteration_timestamp == time( NULL ) )
{
if( iteration_counter > expected_iterations )
{
nwipe_log( NWIPE_LOG_ERROR,
"GUI.c,nwipe_gui_status(), loop runaway, did you close the terminal without exiting "
"nwipe? Initiating shutdown now." );
/* Issue signal to nwipe to shutdown immediately but gracefully */
terminate_signal = 1;
}
}
else
{
/* new second, so reset counter */
iteration_counter = 0;
previous_iteration_timestamp = time( NULL );
}
/* Get the current time. */
if( nwipe_active && terminate_signal != 1 )
{
nwipe_time_now = time( NULL );
nwipe_time_stopped = nwipe_time_now;
}
else
{
nwipe_time_now = nwipe_time_stopped;
}
/* Erase the main window. */
werase( main_window );
/* Erase the stats window. */
werase( stats_window );
/* Erase the footer window */
werase( footer_window );
/* Only repaint the windows on terminal resize if the user hasn't blanked the screen */
if( nwipe_gui_blank == 0 )
{
if( nwipe_active != 0 )
{
/* if resizing the terminal during a wipe a specific footer is required */
nwipe_gui_create_all_windows_on_terminal_resize( 0, *p_end_wipe_footer );
}
else
{
/* and if the wipes have finished a different footer is required */
nwipe_gui_create_all_windows_on_terminal_resize( 0, finish_message );
}
}
/* Initialize our working offset to the third line. */
yy = 2;
/* Get the window dimensions. */
getmaxyx( main_window, wlines, wcols );
/* Less four lines for the box and padding. */
slots = wlines - 4;
/* Each element prints three lines. */
slots /= 3;
if( nwipe_active == 0 || terminate_signal == 1 )
{
nwipe_gui_title( footer_window, finish_message );
// Refresh the footer_window ;
wnoutrefresh( footer_window );
}
if( terminate_signal == 1 )
{
loop_control = 0;
}
if( keystroke > 0x0a && keystroke < 0x7e && nwipe_gui_blank == 1 )
{
tft_saver = 0;
nwipe_init_pairs();
nwipe_gui_create_all_windows_on_terminal_resize( 1, *p_end_wipe_footer );
/* Show screen */
nwipe_gui_blank = 0;
/* Set background */
wbkgdset( stdscr, COLOR_PAIR( 1 ) );
wclear( stdscr );
/* Unhide panels */
show_panel( header_panel );
show_panel( footer_panel );
show_panel( stats_panel );
show_panel( options_panel );
show_panel( main_panel );
/* Reprint the footer */
nwipe_gui_title( footer_window, *p_end_wipe_footer );
// Refresh the footer_window ;
wnoutrefresh( footer_window );
/* Update panels */
update_panels();
doupdate();
}
else if( keystroke > 0 )
{
switch( keystroke )
{
case 'b':
case 'B':
if( nwipe_gui_blank == 0 && tft_saver != 1 )
{
/* grey text on black background */
tft_saver = 1;
nwipe_init_pairs();
nwipe_gui_create_all_windows_on_terminal_resize( 1, *p_end_wipe_footer );
}
else
{
if( nwipe_gui_blank == 0 && tft_saver == 1 )
{
/* Blank screen. */
tft_saver = 0;
nwipe_gui_blank = 1;
hide_panel( header_panel );
hide_panel( footer_panel );
hide_panel( stats_panel );
hide_panel( options_panel );
hide_panel( main_panel );
}
/* Set the background style. */
wbkgdset( stdscr, COLOR_PAIR( 7 ) );
wclear( stdscr );
}
break;
case KEY_DOWN:
case 'j':
case 'J':
/* Scroll down. */
offset += 1;
if( count < slots )
{
offset = 0;
}
else if( offset + slots > count )
{
offset = count - slots;
}
break;
case KEY_UP:
case 'k':
case 'K':
/* Scroll up. */
offset -= 1;
if( offset < 0 )
{
offset = 0;
}
break;
case ' ':
case 0x0a:
/* Check whether we have finished all wipes, if yes exit while loop if user pressed spacebar or
* return. */
if( !nwipe_active || terminate_signal == 1 )
{
loop_control = 0;
}
break;
case 'f':
/* The f key is only meaningful for ShredOS, it toggles the fontsize */
if( access( "/usr/bin/shredos_toggle_font_size.sh", F_OK ) == 0 )
{
if( system( "/usr/bin/shredos_toggle_font_size.sh > /dev/null 2>&1" ) == 0 )
{
nwipe_log( NWIPE_LOG_INFO, "Toggle font size" );
}
}
break;
default:
/* Do nothing. */
break;
}
} /* keystroke */
/* If wipe has completed and user has specified auto poweroff or nowait then we can skip waiting for the user to
* press return */
if( !nwipe_active )
{
if( nwipe_options.autopoweroff || nwipe_options.nowait )
{
loop_control = 0;
}
}
/* Update data in statistics & main windows only if we're in 'gui' mode and only if a wipe has started */
if( global_wipe_status == 1 )
{
/* Always run compute_stats() as we need to whether any threads are still active */
if( terminate_signal != 1 )
{
nwipe_active = compute_stats( ptr ); // Returns number of active wipe threads
}
/* Only print the stats if the user hasn't blanked the screen */
if( nwipe_gui_blank == 0 )
{
/* Print information for the user. */
for( i = offset; i < offset + slots && i < count; i++ )
{
/* Print the device details. */
mvwprintw( main_window,
yy++,
2,
"%s %s [%s] ",
c[i]->device_name,
c[i]->device_type_str,
c[i]->device_size_text );
wprintw_temperature( c[i] );
wprintw( main_window, " %s/%s", c[i]->device_model, c[i]->device_serial_no );
/* Check whether the child process is still running the wipe. */
if( c[i]->wipe_status == 1 )
{
/* Print percentage and pass information. */
mvwprintw( main_window,
yy++,
4,
"[%5.2f%%, round %i of %i, pass %i of %i] ",
c[i]->round_percent,
c[i]->round_working,
c[i]->round_count,
c[i]->pass_working,
c[i]->pass_count );
} /* child running */
else
{
if( c[i]->result == 0 )
{
mvwprintw( main_window, yy++, 4, "[%05.2f%% complete, SUCCESS! ", c[i]->round_percent );
}
else if( c[i]->signal )
{
wattron( main_window, COLOR_PAIR( 9 ) );
mvwprintw( main_window, yy++, 4, "(>>> FAILURE! <<<, signal %i) ", c[i]->signal );
wattroff( main_window, COLOR_PAIR( 9 ) );
}
else
{
wattron( main_window, COLOR_PAIR( 9 ) );
mvwprintw( main_window, yy++, 4, "(>>> IOERROR! <<<, code %i) ", c[i]->result );
wattroff( main_window, COLOR_PAIR( 9 ) );
}
} /* child returned */
if( c[i]->verify_errors )
{
wprintw( main_window, "[verr:%llu] ", c[i]->verify_errors );
}
if( c[i]->pass_errors )
{
wprintw( main_window, "[perr:%llu] ", c[i]->pass_errors );
}
if( c[i]->wipe_status == 1 )
{
switch( c[i]->pass_type )
{
/* Each text field in square brackets should be the same number of characters
* to retain output in columns */
case NWIPE_PASS_FINAL_BLANK:
if( !c[i]->sync_status )
{
wprintw( main_window, "[ blanking] " );
}
break;
case NWIPE_PASS_FINAL_OPS2:
if( !c[i]->sync_status )
{
wprintw( main_window, "[OPS2final] " );
}
break;
case NWIPE_PASS_WRITE:
if( !c[i]->sync_status )
{
wprintw( main_window, "[ writing ] " );
}
break;
case NWIPE_PASS_VERIFY:
if( !c[i]->sync_status )
{
wprintw( main_window, "[verifying] " );
}
break;
case NWIPE_PASS_NONE:
break;
}
if( c[i]->sync_status )
{
wprintw( main_window, "[ syncing ] " );
}
}
/* Determine throughput nomenclature for this drive and output drives throughput to GUI */
Determine_C_B_nomenclature(
c[i]->throughput, nomenclature_result_str, NOMENCLATURE_RESULT_STR_SIZE );
wprintw( main_window, "[%s/s] ", nomenclature_result_str );
/* Insert whitespace. */
yy += 1;
/* Increment the next spinner character for this context if the thread is active */
if( c[i]->wipe_status == 1 )
{
spinner( c, i );
spinner_string[0] = c[i]->spinner_character[0];
}
else
{
/* If the wipe thread is no longer active, replace the spinner with a space */
spinner_string[0] = ' ';
}
spinner_string[1] = 0;
wprintw( main_window, " %s ", spinner_string );
}
if( offset > 0 )
{
mvwprintw( main_window, 1, wcols - 8, " More " );
waddch( main_window, ACS_UARROW );
}
if( count - offset > slots )
{
mvwprintw( main_window, wlines - 2, wcols - 8, " More " );
waddch( main_window, ACS_DARROW );
}
/* Box the main window. */
box( main_window, 0, 0 );
/* Refresh the main window. */
wnoutrefresh( main_window );
/* Update the load average field, but only if we are still wiping */
if( nwipe_active && terminate_signal != 1 )
{
nwipe_gui_load();
}
nwipe_throughput = nwipe_misc_thread_data->throughput;
/* Determine the nomenclature for the combined throughput */
Determine_C_B_nomenclature( nwipe_throughput, nomenclature_result_str, NOMENCLATURE_RESULT_STR_SIZE );
/* Print the combined throughput. */
mvwprintw( stats_window, NWIPE_GUI_STATS_THROUGHPUT_Y, NWIPE_GUI_STATS_THROUGHPUT_X, "Throughput:" );
mvwprintw(
stats_window, NWIPE_GUI_STATS_THROUGHPUT_Y, NWIPE_GUI_STATS_TAB, "%s/s", nomenclature_result_str );
/* Change the current time into a delta. */
nwipe_time_now -= nwipe_time_start;
/* Put the delta into HH:mm:ss form. */
nwipe_hh = nwipe_time_now / 3600;
nwipe_time_now %= 3600;
nwipe_mm = nwipe_time_now / 60;
nwipe_time_now %= 60;
nwipe_ss = nwipe_time_now;
/* Print the runtime. */
mvwprintw( stats_window, NWIPE_GUI_STATS_RUNTIME_Y, 1, "Runtime:" );
mvwprintw( stats_window,
NWIPE_GUI_STATS_RUNTIME_Y,
NWIPE_GUI_STATS_TAB,
"%02i:%02i:%02i",
nwipe_hh,
nwipe_mm,
nwipe_ss );
mvwprintw( stats_window, NWIPE_GUI_STATS_ETA_Y, 1, "Remaining:" );
time_t nwipe_maxeta = nwipe_misc_thread_data->maxeta;
if( nwipe_maxeta > 0 )
{
/* Do it again for the estimated runtime remaining. */
nwipe_hh = nwipe_maxeta / 3600;
nwipe_maxeta %= 3600;
nwipe_mm = nwipe_maxeta / 60;
nwipe_maxeta %= 60;
nwipe_ss = nwipe_maxeta;
/* Print the estimated runtime remaining. */
mvwprintw( stats_window,
NWIPE_GUI_STATS_ETA_Y,
NWIPE_GUI_STATS_TAB,
"%02i:%02i:%02i",
nwipe_hh,
nwipe_mm,
nwipe_ss );
}
/* Print the error count. */
mvwprintw( stats_window, NWIPE_GUI_STATS_ERRORS_Y, NWIPE_GUI_STATS_ERRORS_X, "Errors:" );
mvwprintw( stats_window,
NWIPE_GUI_STATS_ERRORS_Y,
NWIPE_GUI_STATS_TAB,
" %llu",
nwipe_misc_thread_data->errors );
/* Add a border. */
box( stats_window, 0, 0 );
/* Add a title. */
mvwprintw( stats_window, 0, ( NWIPE_GUI_STATS_W - strlen( stats_title ) ) / 2, "%s", stats_title );
/* Refresh internal representation of stats window */
wnoutrefresh( stats_window );
/* Output all windows to screen */
doupdate();
} // end blank screen if
} // end wipes have started if
} /* End of while loop */
nwipe_gui_title( footer_window, finish_message );
terminate_signal = 1;
return NULL;
} /* nwipe_gui_status */
int compute_stats( void* ptr )
{
nwipe_thread_data_ptr_t* nwipe_thread_data_ptr;
nwipe_thread_data_ptr = (nwipe_thread_data_ptr_t*) ptr;
nwipe_context_t** c;
nwipe_misc_thread_data_t* nwipe_misc_thread_data;
c = nwipe_thread_data_ptr->c;
nwipe_misc_thread_data = nwipe_thread_data_ptr->nwipe_misc_thread_data;
int count = nwipe_misc_thread_data->nwipe_selected;
int nwipe_active = 0;
int i;
time_t nwipe_time_now = time( NULL );
nwipe_misc_thread_data->throughput = 0;
nwipe_misc_thread_data->maxeta = 0;
nwipe_misc_thread_data->errors = 0;
/* Enumerate all contexts to compute statistics. */
for( i = 0; i < count; i++ )
{
/* Check whether the child process is still running the wipe. */
if( c[i]->wipe_status == 1 )
{
/* Increment the child counter. */
nwipe_active += 1;
/* Even if the wipe has finished ALWAYS run the stats one last time so the final SUCCESS percentage value is
* correct. Maintain a rolling average of throughput. */
nwipe_update_speedring( &c[i]->speedring, c[i]->round_done, nwipe_time_now );
if( c[i]->speedring.timestotal > 0 && c[i]->wipe_status == 1 )
{
/* Update the current average throughput in bytes-per-second. */
c[i]->throughput = c[i]->speedring.bytestotal / c[i]->speedring.timestotal;
/* Only update the estimated remaining runtime if the
* throughput for a given drive is greater than 100,000 bytes per second
* This prevents enormous ETA's being calculated on an unresponsive
* drive */
if( c[i]->throughput > 100000 )
{
c[i]->eta = ( c[i]->round_size - c[i]->round_done ) / c[i]->throughput;
if( c[i]->eta > nwipe_misc_thread_data->maxeta )
{
nwipe_misc_thread_data->maxeta = c[i]->eta;
}
}
}
/* Calculate the average throughput */
c[i]->throughput = (double) c[i]->round_done / (double) difftime( nwipe_time_now, c[i]->start_time );
}
/* Update the percentage value. */
c[i]->round_percent = (double) c[i]->round_done / (double) c[i]->round_size * 100;
if( c[i]->wipe_status == 1 )
{
/* Accumulate combined throughput. */
nwipe_misc_thread_data->throughput += c[i]->throughput;
}
/* Accumulate the error count. */
nwipe_misc_thread_data->errors += c[i]->pass_errors;
nwipe_misc_thread_data->errors += c[i]->verify_errors;
nwipe_misc_thread_data->errors += c[i]->fsyncdata_errors;
/* Read the drive temperature values */
// if( nwipe_time_now > ( c[i]->temp1_time + 60 ) )
// {
// nwipe_update_temperature( c[i] );
// }
} /* for statistics */
return nwipe_active;
}
void nwipe_update_speedring( nwipe_speedring_t* speedring, u64 speedring_bytes, time_t speedring_now )
{
if( speedring->timeslast == 0 )
{
/* Ignore the first sample and initialize. */
speedring->timeslast = speedring_now;
return;
}
if( speedring_now - speedring->timeslast < NWIPE_KNOB_SPEEDRING_GRANULARITY )
{
/* Avoid jitter caused by frequent updates. */
return;
}
/* Subtract the oldest speed sample from the accumulator. */
speedring->bytestotal -= speedring->bytes[speedring->position];
speedring->timestotal -= speedring->times[speedring->position];
/* Put the latest bytes-per-second sample into the ring buffer. */
speedring->bytes[speedring->position] = speedring_bytes - speedring->byteslast;
speedring->times[speedring->position] = speedring_now - speedring->timeslast;
/* Add the newest speed sample to the accumulator. */
speedring->bytestotal += speedring->bytes[speedring->position];
speedring->timestotal += speedring->times[speedring->position];
/* Remember the last sample. */
speedring->byteslast = speedring_bytes;
speedring->timeslast = speedring_now;
if( ++speedring->position >= NWIPE_KNOB_SPEEDRING_SIZE )
{
speedring->position = 0;
}
}
int spinner( nwipe_context_t** ptr, int device_idx )
{
nwipe_context_t** c;
c = ptr;
/* The spinner characters |/-\|/-\ */
char sc[9] = "|/-\\|/-\\/";
/* Check sanity of index */
if( c[device_idx]->spinner_idx < 0 || c[device_idx]->spinner_idx > 7 )
{
return 1;
}
c[device_idx]->spinner_character[0] = sc[c[device_idx]->spinner_idx];
c[device_idx]->spinner_idx++;
if( c[device_idx]->spinner_idx > 7 )
{
c[device_idx]->spinner_idx = 0;
}
return 0;
}
void temp1_flash( nwipe_context_t* c )
{
if( c->temp1_flash_rate_counter < c->temp1_flash_rate )
{
c->temp1_flash_rate_counter++;
}
else
{
c->temp1_flash_rate_counter = 0;
if( c->temp1_flash_rate_status == 0 )
{
c->temp1_flash_rate_status = 1;
}
else
{
c->temp1_flash_rate_status = 0;
}
}
}
void wprintw_temperature( nwipe_context_t* c )
{
/* See header for description of function
*/
int temp_highest_limit;
int temp_high_limit;
int temp_low_limit;
int temp_lowest_limit;
int local_temp1_input = c->temp1_input;
int local_temp1_crit = c->temp1_crit;
int local_temp1_max = c->temp1_max;
int local_temp1_min = c->temp1_min;
int local_temp1_lcrit = c->temp1_lcrit;
/* Initialise */
temp_highest_limit = NO_TEMPERATURE_DATA;
temp_high_limit = NO_TEMPERATURE_DATA;
temp_low_limit = NO_TEMPERATURE_DATA;
temp_lowest_limit = NO_TEMPERATURE_DATA;
#if 0
/* NOTE TEST Function, TEST Function #if 0 when not testing
* Should increment temperature back and forth between +10 to -10
* while changing the color based on the settings such as
* c->temp1_crit and others below
*/
if( c->test_use1 > 12 || c->test_use1 < -12 )
{
c->test_use1 = 0; // the value
c->test_use2 = 0; // direction 0 = -- or 1 = ++
}
if( c->test_use1 >= 10 )
{
c->test_use2 = 0;
}
else
{
if( c->test_use1 <= -10 )
{
c->test_use2 = 1;
}
}
if( c->test_use2 == 0 )
{
c->test_use1--;
}
else
{
c->test_use1++;
}
/* Five test cases to test temperature color logic
* test only with temperatures in the range -8 to +8
* test with each set of five for expected result if
* changes are made.
*
* Uncomment only one group in turn to be tested.
*/
local_temp1_input = c->test_use1;
//
// Expected result - white on blue between +5 & -5, white on red above 5
// white on black below -5
local_temp1_crit = NO_TEMPERATURE_DATA;
local_temp1_max = 5;
local_temp1_min = -5;
local_temp1_lcrit = NO_TEMPERATURE_DATA;
//
// Expected result - white on blue between +5 & -5, white on red above 5
// white on black below -5
//local_temp1_crit = 5;
//local_temp1_max = NO_TEMPERATURE_DATA;
//local_temp1_min = NO_TEMPERATURE_DATA;
//local_temp1_lcrit = -5;
//
// Expected result - white on blue 5 to -5, 5-7 red on blue,
// 8+ white on red, -5 to-7 black on blue, less than -7 white on black
//local_temp1_crit = 8;
//local_temp1_max = 5;
//local_temp1_min = -5;
//local_temp1_lcrit = -8;
//
// Expected result - white on blue 5 to -5, 5-7 red on blue,
// 8+ white on red, -5 to-7 black on blue, less than -7 white on black
//local_temp1_crit = 5;
//local_temp1_max = 8;
//local_temp1_min = -8;
//local_temp1_lcrit = -5;
//
// Expected result - always white text on blue background
//local_temp1_crit = NO_TEMPERATURE_DATA;
//local_temp1_max = NO_TEMPERATURE_DATA;
//local_temp1_min = NO_TEMPERATURE_DATA;
//local_temp1_lcrit = NO_TEMPERATURE_DATA;
#endif
/* Depending upon the drive firmware, the meaning of 'high critical' & 'max'
* and 'low critical' & 'low' can be interchanged. First validate for 'no data'
* (1000000) and also a 0 in 'high critical' and 'max', then assign the values
* to our four variables in the appropriate order.
*/
/* Validate critical high value & max for 0, if 0 it's invalid, change to 1000000
*/
/* Assign temp1_crit & temp1_max to local variables as we are going to alter
* them if 0, as they may be updated elsewhere we don't want them changed back half
* way through our processing. This is only necessary for the high temperatures and
* not the low temperatures as low temperatures may well be 0.
*/
if( local_temp1_crit == 0 )
{
local_temp1_crit = NO_TEMPERATURE_DATA;
}
if( local_temp1_max == 0 )
{
local_temp1_max = NO_TEMPERATURE_DATA;
}
/* Check which way around they are */
if( local_temp1_crit != NO_TEMPERATURE_DATA && local_temp1_max != NO_TEMPERATURE_DATA )
{
if( local_temp1_crit > local_temp1_max )
{
temp_highest_limit = local_temp1_crit;
temp_high_limit = local_temp1_max;
}
else
{
temp_highest_limit = local_temp1_max;
temp_high_limit = local_temp1_crit;
}
}
else
{
/* If only one or the other is present then assign that value to both high critical and max
*/
if( local_temp1_crit == NO_TEMPERATURE_DATA && local_temp1_max != NO_TEMPERATURE_DATA )
{
temp_highest_limit = local_temp1_max;
temp_high_limit = local_temp1_max;
}
else
{
/* If high critical is present but max is not, assign high critical to both */
if( local_temp1_crit != NO_TEMPERATURE_DATA && local_temp1_max == NO_TEMPERATURE_DATA )
{
temp_highest_limit = local_temp1_crit;
temp_high_limit = local_temp1_crit;
}
else
{
/* neither is present so mark both locals as not present */
temp_highest_limit = NO_TEMPERATURE_DATA;
temp_high_limit = NO_TEMPERATURE_DATA;
}
}
}
/* Now do the same for the low critical limit and low limit. */
/* Check which way around they are */
if( local_temp1_lcrit != NO_TEMPERATURE_DATA && local_temp1_min != NO_TEMPERATURE_DATA )
{
if( local_temp1_lcrit < local_temp1_min )
{
temp_lowest_limit = local_temp1_lcrit;
temp_low_limit = local_temp1_min;
}
else
{
temp_lowest_limit = local_temp1_min;
temp_low_limit = local_temp1_lcrit;
}
}
else
{
/* If only one or the other is present then assign that value to both high critical and max
*/
if( local_temp1_lcrit == NO_TEMPERATURE_DATA && local_temp1_min != NO_TEMPERATURE_DATA )
{
temp_lowest_limit = local_temp1_min;
temp_low_limit = local_temp1_min;
}
else
{
/* If high critical is present but max is not, assign high critical to both */
if( local_temp1_lcrit != NO_TEMPERATURE_DATA && local_temp1_min == NO_TEMPERATURE_DATA )
{
temp_lowest_limit = local_temp1_lcrit;
temp_low_limit = local_temp1_lcrit;
}
else
{
/* neither is present so mark both locals as not present */
temp_lowest_limit = NO_TEMPERATURE_DATA;
temp_low_limit = NO_TEMPERATURE_DATA;
}
}
}
/* if drive temperature has exceeded the critical temperature if available
*/
if( ( local_temp1_input >= temp_highest_limit ) && ( local_temp1_input != NO_TEMPERATURE_DATA )
&& ( temp_highest_limit != NO_TEMPERATURE_DATA ) )
{
/* white on red */
wattron( main_window, COLOR_PAIR( 6 ) );
wprintw( main_window, "[%dC]", local_temp1_input );
wattroff( main_window, COLOR_PAIR( 6 ) );
}
else
{
/* if drive temperature has exceeded the max temperature 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 ) )
{
/* red on blue */
wattron( main_window, COLOR_PAIR( 3 ) );
wprintw( main_window, "[%dC]", local_temp1_input );
wattroff( main_window, COLOR_PAIR( 3 ) );
}
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 ) )
{
/* white on black */
wattron( main_window, COLOR_PAIR( 14 ) );
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]" );
}
}
}
}
}
}
char* str_truncate( int wcols, int start_column, const char* input, char* output, int output_length )
{
/***
* Truncate a string based on start position and terminal width
*/
int length, idx = 0;
length = wcols - start_column - 1;
idx = 0;
while( idx < output_length && idx < length )
{
output[idx] = input[idx];
idx++;
}
/* terminate the string */
output[idx] = 0;
return output;
}
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