ncurses implementation

modified:   Makefile
	new file:   src/nms-ncurses.c
This commit is contained in:
Brian Barto 2017-01-17 22:00:24 -05:00
parent b1a0db59ae
commit e42155973a
2 changed files with 465 additions and 0 deletions

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@ -25,6 +25,9 @@ sneakers: $(OBJ)/nms.o $(OBJ)/sneakers.o | $(BIN)
all: nms sneakers all: nms sneakers
nms-ncurses: $(OBJ)/nms-ncurses.o $(OBJ)/main.o | $(BIN)
$(CC) $(CFLAGS) -o $(BIN)/$@ $^ -lncurses
$(OBJ)/%.o: $(SRC)/%.c | $(OBJ) $(OBJ)/%.o: $(SRC)/%.c | $(OBJ)
$(CC) $(CFLAGS) -o $@ -c $< $(CC) $(CFLAGS) -o $@ -c $<

462
src/nms-ncurses.c Normal file
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@ -0,0 +1,462 @@
/*
* Copyright (c) 2017 Brian Barto
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the MIT License. See LICENSE for more details.
*/
/*
* DESCRIPTION
*
* This library encapsulates the functionality required to produce the
* famous data decryption effect from the 1992 hacker movie Sneakers.
*/
#define _XOPEN_SOURCE 700
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <termios.h>
#include <unistd.h>
#include <sys/ioctl.h>
#include <ctype.h>
#include <stdbool.h>
#include <time.h>
#include <locale.h>
#include <wchar.h>
#include <ncurses.h>
#include "nms.h"
// Color identifiers
/*
#define COLOR_BLACK 0
#define COLOR_RED 1
#define COLOR_GREEN 2
#define COLOR_YELLOW 3
#define COLOR_BLUE 4
#define COLOR_MAGENTA 5
#define COLOR_CYAN 6
#define COLOR_WHITE 7
*/
// Macros for VT100 codes
/*
#define CLEAR_SCR() printf("\033[2J") // Clear Screen
#define CURSOR_HOME() printf("\033[H") // Move cursor to home position (0,0)
#define CURSOR_MOVE(x,y) printf("\033[%i;%iH", x, y) // Move cursor to x,y
#define BEEP() printf("\a"); // terminal bell
#define BOLD() printf("\033[1m") // Cursor bold
#define FOREGROUND_COLOR(x) printf("\033[3%im", x) // Set foreground color
#define CLEAR_ATTR() printf("\033[0m") // Clear bold/color attributes
#define SCREEN_SAVE() printf("\033[?47h") // Save screen display
#define SCREEN_RESTORE() printf("\033[?47l") // Restore screen to previously saved state
#define CURSOR_SAVE() printf("\033[s") // Save cursor position
#define CURSOR_RESTORE() printf("\033[u") // Restore cursor position
#define CURSOR_HIDE() printf("\033[?25l") // Hide cursor
#define CURSOR_SHOW() printf("\033[?25h") // Unhide cursor
*/
// Program settings
#define TYPE_EFFECT_SPEED 4 // miliseconds per char
#define JUMBLE_SECONDS 2 // number of seconds for jumble effect
#define JUMBLE_LOOP_SPEED 35 // miliseconds between each jumble
#define REVEAL_LOOP_SPEED 50 // miliseconds between each reveal loop
#define MASK_CHAR_COUNT 218 // Total characters in maskCharTable[] array.
// Character attribute structure, linked list. Keeps track of every
// character's attributes required for rendering and decryption effect.
struct charAttr {
char *source;
char *mask;
int width;
int is_space;
int time;
struct charAttr *next;
};
// Static function prototypes
static void nms_sleep(int);
// NMS settings
static int foregroundColor = COLOR_BLUE; // Foreground color setting
static int autoDecrypt = 0; // Auto-decrypt flag
static char *returnOpts = NULL; // Return option setting
static int inputPositionX = -1; // X coordinate for input position
static int inputPositionY = -1; // Y coordinate for input position
// Character table representing the character set know as CP437 used by
// the original IBM PC - https://en.wikipedia.org/wiki/Code_page_437
static char *maskCharTable[] = {
"!", "\"", "#", "$", "%", "&", "'", "(", ")", "*", "+", ",", "-", "~",
".", "/", ":", ";", "<", "=", ">", "?", "[", "\\", "]", "_", "{", "}",
"A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M",
"N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z",
"a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m",
"n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z",
"0", "1", "2", "3", "4", "5", "6", "7", "8", "9",
"\xc3\x87", "\xc3\xbc", "\xc3\xa9", "\xc3\xa2", "\xc3\xa4", "\xc3\xa0",
"\xc3\xa5", "\xc3\xa7", "\xc3\xaa", "\xc3\xab", "\xc3\xa8", "\xc3\xaf",
"\xc3\xae", "\xc3\xac", "\xc3\x84", "\xc3\x85", "\xc3\x89", "\xc3\xa6",
"\xc3\x86", "\xc3\xb4", "\xc3\xb6", "\xc3\xb2", "\xc3\xbb", "\xc3\xb9",
"\xc3\xbf", "\xc3\x96", "\xc3\x9c", "\xc2\xa2", "\xc2\xa3", "\xc2\xa5",
"\xc6\x92", "\xc3\xa1", "\xc3\xad", "\xc3\xb3", "\xc3\xba", "\xc3\xb1",
"\xc3\x91", "\xc2\xaa", "\xc2\xba", "\xc2\xbf", "\xc2\xac", "\xc2\xbd",
"\xc2\xbc", "\xc2\xa1", "\xc2\xab", "\xc2\xbb", "\xce\xb1", "\xc3\x9f",
"\xce\x93", "\xcf\x80", "\xce\xa3", "\xcf\x83", "\xc2\xb5", "\xcf\x84",
"\xce\xa6", "\xce\x98", "\xce\xa9", "\xce\xb4", "\xcf\x86", "\xce\xb5",
"\xc2\xb1", "\xc3\xb7", "\xc2\xb0", "\xc2\xb7", "\xc2\xb2", "\xc2\xb6",
"\xe2\x8c\x90", "\xe2\x82\xa7", "\xe2\x96\x91", "\xe2\x96\x92",
"\xe2\x96\x93", "\xe2\x94\x82", "\xe2\x94\xa4", "\xe2\x95\xa1",
"\xe2\x95\xa2", "\xe2\x95\x96", "\xe2\x95\x95", "\xe2\x95\xa3",
"\xe2\x95\x91", "\xe2\x95\x97", "\xe2\x95\x9d", "\xe2\x95\x9c",
"\xe2\x95\x9b", "\xe2\x94\x90", "\xe2\x94\x94", "\xe2\x94\xb4",
"\xe2\x94\xac", "\xe2\x94\x9c", "\xe2\x94\x80", "\xe2\x94\xbc",
"\xe2\x95\x9e", "\xe2\x95\x9f", "\xe2\x95\x9a", "\xe2\x95\x94",
"\xe2\x95\xa9", "\xe2\x95\xa6", "\xe2\x95\xa0", "\xe2\x95\x90",
"\xe2\x95\xac", "\xe2\x95\xa7", "\xe2\x95\xa8", "\xe2\x95\xa4",
"\xe2\x95\xa7", "\xe2\x95\x99", "\xe2\x95\x98", "\xe2\x95\x92",
"\xe2\x95\x93", "\xe2\x95\xab", "\xe2\x95\xaa", "\xe2\x94\x98",
"\xe2\x94\x8c", "\xe2\x96\x88", "\xe2\x96\x84", "\xe2\x96\x8c",
"\xe2\x96\x90", "\xe2\x96\x80", "\xe2\x88\x9e", "\xe2\x88\xa9",
"\xe2\x89\xa1", "\xe2\x89\xa5", "\xe2\x89\xa4", "\xe2\x8c\xa0",
"\xe2\x8c\xa1", "\xe2\x89\x88", "\xe2\x88\x99", "\xe2\x88\x9a",
"\xe2\x81\xbf", "\xe2\x96\xa0"
};
/*
* nms_exec() - This function is passed a pointer to a character string
* and displays the contents of the string in a way that mimicks the
* "decrypting text" effect in the 1992 movie Sneakers. It returns the
* last character pressed by the user.
*/
char nms_exec(char *string) {
struct charAttr *list_pointer = NULL;
struct charAttr *list_head = NULL;
struct charAttr *list_temp = NULL;
int i, revealed = 0;
int maxRows, maxCols, curRow = 0, curCol = 0;
char ret = 0;
// Error if we have an empty string.
if (string == NULL || string[0] == '\0') {
fprintf(stderr, "Error. Empty string.\n");
return 0;
}
// Reassociate STDIN to the terminal is needed
if (!isatty(STDIN_FILENO) && !freopen ("/dev/tty", "r", stdin)) {
fprintf(stderr, "Error. Can't associate STDIN with terminal.\n");
return 0;
}
// Needed for UTF-8 support
setlocale(LC_ALL, "");
// Initialize terminal and settings
initscr();
cbreak();
noecho();
curs_set(0);
move(0, 0);
if (has_colors()) {
start_color();
init_pair(1, foregroundColor, COLOR_BLACK);
}
// Get terminal window size
getmaxyx(stdscr, maxRows, maxCols);
// Seed my random number generator with the current time
srand(time(NULL));
// Geting input
for (i = 0; string[i] != '\0'; ++i) {
// Don't go beyond maxRows
if (curRow >= maxRows - 1) {
break;
}
// Allocate memory for next list link
if (list_pointer == NULL) {
list_pointer = malloc(sizeof(struct charAttr));
list_head = list_pointer;
} else {
list_pointer->next = malloc(sizeof(struct charAttr));
list_pointer = list_pointer->next;
}
// Get character's byte-length and store character.
if (mblen(&string[i], 4) > 0) {
list_pointer->source = malloc(mblen(&string[i], 4) + 1);
strncpy(list_pointer->source, &string[i], mblen(&string[i], 4));
list_pointer->source[mblen(&string[i], 4)] = '\0';
i += (mblen(&string[i], 4) - 1);
} else {
endwin();
fprintf(stderr, "Unknown character encountered. Quitting.\n");
return 0;
}
// Set flag if we have a whitespace character
if (strlen(list_pointer->source) == 1 && isspace(list_pointer->source[0]))
list_pointer->is_space = 1;
else
list_pointer->is_space = 0;
// Set initial mask chharacter
list_pointer->mask = maskCharTable[rand() % MASK_CHAR_COUNT];
// Set reveal time
list_pointer->time = rand() % 5000;
// Set character column width
wchar_t widec[sizeof(list_pointer->source)] = {};
mbstowcs(widec, list_pointer->source, sizeof(list_pointer->source));
list_pointer->width = wcwidth(*widec);
// Set next node to null
list_pointer->next = NULL;
// Track row count
if (string[i] == '\n' || (curCol += list_pointer->width) > maxCols) {
curCol = 0;
curRow++;
}
}
// Print mask characters with 'type effect'
for (list_pointer = list_head; list_pointer != NULL; list_pointer = list_pointer->next) {
// Print mask character (or space)
if (list_pointer->is_space) {
addstr(list_pointer->source);
continue;
}
// print mask character
addstr(list_pointer->mask);
if (list_pointer->width == 2) {
addstr(maskCharTable[rand() % MASK_CHAR_COUNT]);
}
// flush output and sleep
refresh();
nms_sleep(TYPE_EFFECT_SPEED);
}
// Flush any input up to this point
flushinp();
// If autoDecrypt flag is set, we sleep. Otherwise require user to
// press a key to continue.
if (autoDecrypt)
sleep(1);
else
getch();
// Jumble loop
for (i = 0; i < (JUMBLE_SECONDS * 1000) / JUMBLE_LOOP_SPEED; ++i) {
// Move cursor to home position
move(0, 0);
// Print new mask for all characters
for (list_pointer = list_head; list_pointer != NULL; list_pointer = list_pointer->next) {
// Print mask character (or space)
if (list_pointer->is_space) {
addstr(list_pointer->source);
continue;
}
// print new mask character
addstr(maskCharTable[rand() % MASK_CHAR_COUNT]);
if (list_pointer->width == 2) {
addstr(maskCharTable[rand() % MASK_CHAR_COUNT]);
}
}
// flush output and sleep
refresh();
nms_sleep(JUMBLE_LOOP_SPEED);
}
// Reveal loop
while (!revealed) {
// Move cursor to home position
move(0, 0);
// Set revealed flag
revealed = 1;
for (list_pointer = list_head; list_pointer != NULL; list_pointer = list_pointer->next) {
// Print mask character (or space)
if (list_pointer->is_space) {
addstr(list_pointer->source);
continue;
}
// If we still have time before the char is revealed, display the mask
if (list_pointer->time > 0) {
// Change the mask randomly
if (list_pointer->time < 500) {
if (rand() % 3 == 0) {
list_pointer->mask = maskCharTable[rand() % MASK_CHAR_COUNT];
}
} else {
if (rand() % 10 == 0) {
list_pointer->mask = maskCharTable[rand() % MASK_CHAR_COUNT];
}
}
// Print mask
addstr(list_pointer->mask);
// Decrement reveal time
list_pointer->time -= REVEAL_LOOP_SPEED;
// Unset revealed flag
revealed = 0;
} else {
// Set bold and foreground color for character reveal
attron(A_BOLD);
if (has_colors())
attron(COLOR_PAIR(1));
// print source character
addstr(list_pointer->source);
// Unset foreground color
if (has_colors())
attroff(COLOR_PAIR(1));
attroff(A_BOLD);
}
}
// flush output and sleep
refresh();
nms_sleep(REVEAL_LOOP_SPEED);
}
// Flush any input up to this point
flushinp();
// Check if user must select from a set of options
if (returnOpts != NULL && strlen(returnOpts) > 0) {
// Position cursor if necessary
if (inputPositionY >= 0 && inputPositionX >= 0) {
move(inputPositionY, inputPositionX);
}
// Turn on cursor
curs_set(1);
refresh();
// Get and validate user selection
while (strchr(returnOpts, ret = getch()) == NULL) {
beep();
}
}
// User must press a key to continue when clearSrc is set
// without returnOpts
else {
getch();
}
// End curses mode
endwin();
// Freeing the list.
list_pointer = list_head;
while (list_pointer != NULL) {
list_temp = list_pointer;
list_pointer = list_pointer->next;
free(list_temp->source);
free(list_temp);
}
return ret;
}
/*
* nms_set_foreground_color() sets the foreground color of the unencrypted
* characters as they are revealed to the color indicated by the 'color'
* argument. Valid arguments are "white", "yellow", "magenta", "blue",
* "green", "red", and "cyan". This function will default to blue if
* passed an invalid color. No value is returned.
*/
void nms_set_foreground_color(char *color) {
if(strcmp("white", color) == 0)
foregroundColor = COLOR_WHITE;
else if(strcmp("yellow", color) == 0)
foregroundColor = COLOR_YELLOW;
else if(strcmp("black", color) == 0)
foregroundColor = COLOR_BLACK;
else if(strcmp("magenta", color) == 0)
foregroundColor = COLOR_MAGENTA;
else if(strcmp("blue", color) == 0)
foregroundColor = COLOR_BLUE;
else if(strcmp("green", color) == 0)
foregroundColor = COLOR_GREEN;
else if(strcmp("red", color) == 0)
foregroundColor = COLOR_RED;
else if(strcmp("cyan", color) == 0)
foregroundColor = COLOR_CYAN;
else
foregroundColor = COLOR_BLUE;
}
/*
* nms_set_auto_decrypt() sets the autoDecrypt flag according to the
* true/false value of the 'setting' argument.
*/
void nms_set_auto_decrypt(int setting) {
if (setting)
autoDecrypt = 1;
else
autoDecrypt = 0;
}
/*
* nms_set_clear_scr() sets the clearScr flag according to the
* true/false value of the 'setting' argument. NOTE: FOR NCURSES THIS
* IS NOT USED.
*/
void nms_set_clear_scr(int setting) {
(void) setting;
return;
}
/*
* nms_set_input_position() sets the desired coordinate of the cursor in
* the terminal when accepting user input after nms_exec() reveals the
* unencrypted characters.
*/
void nms_set_input_position(int x, int y) {
if (x >= 0 && y >= 0) {
inputPositionX = x;
inputPositionY = y;
}
}
/*
* nms_sleep() sleeps for the number of miliseconds indicated by 't'.
*/
static void nms_sleep(int t) {
struct timespec ts;
ts.tv_sec = t / 1000;
ts.tv_nsec = (t % 1000) * 1000000;
nanosleep(&ts, NULL);
}