X-Git-Url: http://git.hungrycats.org/cgi-bin/gitweb.cgi?p=xscreensaver;a=blobdiff_plain;f=hacks%2Fxmatrix.c;h=48bdb83612bbe17fa4c2b41d8aef1043fe3f84bc;hp=1433527cadb98934f88187983c9180b880c0af45;hb=6b1c86cf395f59389e4ece4ea8f4bea2c332745b;hpb=c28aecf9fc41e3a03494bacf7279745425e2fa18 diff --git a/hacks/xmatrix.c b/hacks/xmatrix.c index 1433527c..48bdb836 100644 --- a/hacks/xmatrix.c +++ b/hacks/xmatrix.c @@ -12,9 +12,12 @@ * * The movie people distribute their own Windows/Mac screensaver that does * a similar thing, so I wrote one for Unix. However, that version (the - * Windows/Mac version at http://www.whatisthematrix.com/) doesn't match my - * memory of what the screens in the movie looked like, so my `xmatrix' - * does things differently. + * Windows/Mac version at http://www.whatisthematrix.com/) doesn't match + * what the computer screens in the movie looked like, so my `xmatrix' does + * things differently. + * + * See also my `glmatrix' program, which does a 3D rendering of the similar + * effect that appeared in the title sequence of the movies. * * * ========================================================== @@ -37,35 +40,62 @@ * washed out. They also definitely scrolled a * character at a time, not a pixel at a time. * + * And keep in mind that this program emulates the + * behavior of the computer screens that were visible + * in the movies -- not the behavior of the effects in + * the title sequences. + * * ========================================================== * */ +#ifdef HAVE_UNISTD_H +# include +#endif + #include "screenhack.h" #include "xpm-pixmap.h" #include -#include +#include + +#ifdef HAVE_COCOA +# define HAVE_XPM +#else +# define DO_XBM /* only do mono bitmaps under real X11 */ +#endif #if defined(HAVE_GDK_PIXBUF) || defined(HAVE_XPM) -# include "images/matrix0.xpm" # include "images/matrix1.xpm" # include "images/matrix2.xpm" -# include "images/matrix0b.xpm" # include "images/matrix1b.xpm" # include "images/matrix2b.xpm" #endif -#include "images/matrix0.xbm" -#include "images/matrix1.xbm" -#include "images/matrix2.xbm" -#include "images/matrix0b.xbm" -#include "images/matrix1b.xbm" -#include "images/matrix2b.xbm" +#ifdef DO_XBM +# include "images/matrix1.xbm" +# include "images/matrix2.xbm" +# include "images/matrix1b.xbm" +# include "images/matrix2b.xbm" +#endif /* DO_XBM */ + +#ifndef HAVE_COCOA +# include +# include +#endif + +#ifdef HAVE_FORKPTY +# include +# ifdef HAVE_PTY_H +# include +# endif +# ifdef HAVE_UTIL_H +# include +# endif +#endif /* HAVE_FORKPTY */ #define CHAR_COLS 16 #define CHAR_ROWS 13 #define CHAR_MAPS 3 -#define FADE_MAP 0 #define PLAIN_MAP 1 #define GLOW_MAP 2 @@ -77,6 +107,7 @@ typedef struct { } m_cell; typedef struct { + int pipe_loc; int remaining; int throttle; int y; @@ -84,15 +115,27 @@ typedef struct { #define countof(x) (sizeof(x)/sizeof(*(x))) -static int matrix_encoding[] = { 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, - 192, 193, 194, 195, 196, 197, 198, 199, - 200, 201, 202, 203, 204, 205, 206, 207 }; -static int decimal_encoding[] = { 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 }; -static int hex_encoding[] = { 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, - 33, 34, 35, 36, 37, 38 }; -static int binary_encoding[] = { 16, 17 }; -static int dna_encoding[] = { 33, 35, 39, 52 }; -static unsigned char char_map[256] = { +static const int matrix_encoding[] = { 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, + 192, 193, 194, 195, 196, 197, 198, 199, + 200, 201, 202, 203, 204, 205, 206, 207 }; +static const int decimal_encoding[] = { 16, 17, 18, 19, 20, 21, 22, 23, 24, 25}; +static const int hex_encoding[] = { 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, + 33, 34, 35, 36, 37, 38 }; +static const int binary_encoding[] = { 16, 17 }; +static const int dna_encoding[] = { 33, 35, 39, 52 }; +static const int ascii_encoding[] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, + 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, + 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, + 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, + 64, 65, 66, 67, 68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, 95, + 96, 97, 98, 99,100,101,102,103,104,105,106,107,108,109,110,111, + 112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127 +}; +static const unsigned char char_map[256] = { 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, /* 0 */ 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, /* 16 */ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, /* 32 */ @@ -113,48 +156,105 @@ static unsigned char char_map[256] = { #define CURSOR_GLYPH 97 -typedef enum { TRACE0, TRACE1, TRACE2, - KNOCK0, KNOCK1, KNOCK2, KNOCK3, - KNOCK4, KNOCK5, KNOCK6, KNOCK7, - MATRIX, DNA, BINARY, HEX } m_mode; +/* larger numbers should mean more variability between columns */ +#define BUF_SIZE 200 + +typedef enum { DRAIN_TRACE_A, + TRACE_TEXT_A, /* Call trans opt: received. */ + TRACE_A, /* (31_) 5__-0_9_ */ + TRACE_DONE, + + DRAIN_TRACE_B, + TRACE_TEXT_B, /* Call trans opt: received. */ + TRACE_B, + TRACE_FAIL, /* System Failure */ + + DRAIN_KNOCK, + KNOCK, /* Wake up, Neo... */ + + DRAIN_NMAP, + NMAP, /* Starting nmap V. 2.54BETA25 */ + + DRAIN_MATRIX, + MATRIX, + DNA, + BINARY, + DEC, + HEX, + ASCII } m_mode; typedef struct { Display *dpy; Window window; XWindowAttributes xgwa; - GC draw_gc, erase_gc; + GC draw_gc, erase_gc, scratch_gc; int grid_width, grid_height; int char_width, char_height; m_cell *cells; - m_cell *cursor; + m_cell *background; m_feeder *feeders; int nspinners; Bool knock_knock_p; Bool small_p; Bool insert_top_p, insert_bottom_p; + Bool use_pipe_p; m_mode mode; + m_mode def_mode; /* Mode to return to after trace etc. */ + + pid_t pid; + FILE *pipe; + XtInputId pipe_id; + Bool input_available_p; + Time subproc_relaunch_delay; + char buf [BUF_SIZE*2+1]; /* ring buffer */ + + Bool do_fill_buff; + int buf_done; + int buf_pos; + Bool start_reveal_back_p; /* start reveal process for pipe */ + Bool back_text_full_p; /* is the pipe buffer (background) full ? */ + char back_line [BUF_SIZE*2+1]; /* line buffer for background */ + int back_pos; /* background line buffer position */ + int back_y; + signed char *tracing; int density; + const char *typing; + Bool typing_scroll_p; + Bool typing_cursor_p; + Bool typing_bold_p; + Bool typing_stutter_p; + int typing_left_margin; + int typing_char_delay; + int typing_line_delay; + int typing_delay; + + Bool cursor_on; + int cursor_x, cursor_y; + XtIntervalId cursor_timer; + Pixmap images[CHAR_MAPS]; int image_width, image_height; + Bool images_flipped_p; int nglyphs; - int *glyph_map; + const int *glyph_map; + unsigned long colors[5]; + int delay; } m_state; static void -load_images_1 (m_state *state, int which) +load_images_1 (Display *dpy, m_state *state, int which) { #if defined(HAVE_GDK_PIXBUF) || defined(HAVE_XPM) - if (!get_boolean_resource ("mono", "Boolean") && + if (!get_boolean_resource (dpy, "mono", "Boolean") && state->xgwa.depth > 1) { char **bits = - (which == 0 ? (state->small_p ? matrix0b_xpm : matrix0_xpm) : - which == 1 ? (state->small_p ? matrix1b_xpm : matrix1_xpm) : + (which == 1 ? (state->small_p ? matrix1b_xpm : matrix1_xpm) : (state->small_p ? matrix2b_xpm : matrix2_xpm)); state->images[which] = @@ -164,30 +264,32 @@ load_images_1 (m_state *state, int which) else #endif /* !HAVE_XPM && !HAVE_GDK_PIXBUF */ { +#ifdef DO_XBM unsigned long fg, bg; - state->image_width = (state->small_p ? matrix0b_width :matrix0_width); - state->image_height = (state->small_p ? matrix0b_height:matrix0_height); - fg = get_pixel_resource("foreground", "Foreground", - state->dpy, state->xgwa.colormap); - bg = get_pixel_resource("background", "Background", - state->dpy, state->xgwa.colormap); + state->image_width = (state->small_p ? matrix1b_width :matrix1_width); + state->image_height = (state->small_p ? matrix1b_height:matrix1_height); + fg = get_pixel_resource(state->dpy, state->xgwa.colormap, + "foreground", "Foreground"); + bg = get_pixel_resource(state->dpy, state->xgwa.colormap, + "background", "Background"); state->images[which] = XCreatePixmapFromBitmapData (state->dpy, state->window, (char *) - (which == 0 ? (state->small_p ? matrix0b_bits :matrix0_bits) : - which == 1 ? (state->small_p ? matrix1b_bits :matrix1_bits) : + (which == 1 ? (state->small_p ? matrix1b_bits :matrix1_bits) : (state->small_p ? matrix2b_bits :matrix2_bits)), state->image_width, state->image_height, bg, fg, state->xgwa.depth); +#else /* !DO_XBM */ + abort(); +#endif /* !DO_XBM */ } } static void -load_images (m_state *state) +load_images (Display *dpy, m_state *state) { - load_images_1 (state, 0); - load_images_1 (state, 1); - load_images_1 (state, 2); + load_images_1 (dpy, state, 1); + load_images_1 (dpy, state, 2); } @@ -219,11 +321,160 @@ flip_images_1 (m_state *state, int which) } static void -flip_images (m_state *state) +flip_images (m_state *state, Bool flipped_p) +{ + if (flipped_p != state->images_flipped_p) + { + state->images_flipped_p = flipped_p; + flip_images_1 (state, 1); + flip_images_1 (state, 2); + } +} + +static void +subproc_cb (XtPointer closure, int *source, XtInputId *id) +{ + m_state *state = (m_state *) closure; + state->input_available_p = True; +} + +static void +launch_text_generator (m_state *state) +{ + XtAppContext app = XtDisplayToApplicationContext (state->dpy); + char *oprogram = get_string_resource (state->dpy, "program", "Program"); + char *program = (char *) malloc (strlen (oprogram) + 10); + strcpy (program, "( "); + strcat (program, oprogram); + strcat (program, " ) 2>&1"); + + if ((state->pipe = popen (program, "r"))) + { + state->pipe_id = + XtAppAddInput (app, fileno (state->pipe), + (XtPointer) (XtInputReadMask | XtInputExceptMask), + subproc_cb, (XtPointer) state); + } + else + { + perror (program); + } +} + + +static void +relaunch_generator_timer (XtPointer closure, XtIntervalId *id) +{ + m_state *state = (m_state *) closure; + launch_text_generator (state); +} + +/* When the subprocess has generated some output, this reads as much as it + can into s->buf at s->buf_tail. + */ + +static void +fill_input (m_state *s) +{ + XtAppContext app = XtDisplayToApplicationContext (s->dpy); + int n = 0; + int loadBytes; + if(s->buf_done > s->buf_pos){ + loadBytes = (s->buf_done - s->buf_pos) - 1; + } + else{ + loadBytes = ((BUF_SIZE - s->buf_pos) + s->buf_done) - 1; + } + if (! s->pipe) return; + if (! s->input_available_p) return; + s->input_available_p = False; + + if (loadBytes > 0){ + n = read (fileno (s->pipe), + (void *) (s->buf+s->buf_pos), + loadBytes); + } + if (n > 0) + { + s->do_fill_buff = False; + s->buf_pos = (s->buf_pos + n); + if(s->buf_pos > BUF_SIZE){ + /* copy to start of buffer */ + /* areas shouldn't overlap, but just in case, use memmove */ + memmove(s->buf,s->buf+BUF_SIZE,s->buf_pos-BUF_SIZE); + } + s->buf_pos = s->buf_pos % BUF_SIZE; + } + else + { + /* Couldn't read anything from the buffer */ + /* Assume EOF has been reached, so start again */ + s->do_fill_buff = True; + XtRemoveInput (s->pipe_id); + s->pipe_id = 0; + pclose (s->pipe); + s->pipe = 0; + + /* Set up a timer to re-launch the subproc in a bit. */ + XtAppAddTimeOut (app, s->subproc_relaunch_delay, + relaunch_generator_timer, + (XtPointer) s); + } +} + + + +static void cursor_on_timer (XtPointer closure, XtIntervalId *id); +static void cursor_off_timer (XtPointer closure, XtIntervalId *id); + +static Bool +set_cursor_1 (m_state *state, Bool on) +{ + Bool changed = (state->cursor_on != on); + state->cursor_on = on; + + if (changed && state->cursor_x >= 0 && state->cursor_y >= 0) + { + m_cell *cell = &state->cells[state->grid_width * state->cursor_y + + state->cursor_x]; + cell->glow = 0; + cell->changed = True; + } + return changed; +} + + +static void +set_cursor (m_state *state, Bool on) +{ + if (set_cursor_1 (state, on)) + { + if (state->cursor_timer) + XtRemoveTimeOut (state->cursor_timer); + state->cursor_timer = 0; + if (on) + cursor_on_timer (state, 0); + } +} + +static void +cursor_off_timer (XtPointer closure, XtIntervalId *id) +{ + m_state *state = (m_state *) closure; + XtAppContext app = XtDisplayToApplicationContext (state->dpy); + set_cursor_1 (state, False); + state->cursor_timer = XtAppAddTimeOut (app, 333, + cursor_on_timer, closure); +} + +static void +cursor_on_timer (XtPointer closure, XtIntervalId *id) { - flip_images_1 (state, 0); - flip_images_1 (state, 1); - flip_images_1 (state, 2); + m_state *state = (m_state *) closure; + XtAppContext app = XtDisplayToApplicationContext (state->dpy); + set_cursor_1 (state, True); + state->cursor_timer = XtAppAddTimeOut (app, 666, + cursor_off_timer, closure); } @@ -251,17 +502,20 @@ init_spinners (m_state *state) } +static void set_mode (m_state *, m_mode); + + static void init_trace (m_state *state) { - char *s = get_string_resource ("tracePhone", "TracePhone"); + char *s = get_string_resource (state->dpy, "tracePhone", "TracePhone"); char *s2, *s3; int i; if (!s) goto FAIL; - state->tracing = (char *) malloc (strlen (s) + 1); - s3 = state->tracing; + state->tracing = (signed char *) malloc (strlen (s) + 1); + s3 = (char *) state->tracing; for (s2 = s; *s2; s2++) if (*s2 >= '0' && *s2 <= '9') @@ -271,7 +525,7 @@ init_trace (m_state *state) if (s3 == (char *) state->tracing) goto FAIL; - for (i = 0; i < strlen(state->tracing); i++) + for (i = 0; i < strlen((char *) state->tracing); i++) state->tracing[i] = -state->tracing[i]; state->glyph_map = decimal_encoding; @@ -286,42 +540,173 @@ init_trace (m_state *state) if (s) free (s); if (state->tracing) free (state->tracing); state->tracing = 0; - state->mode = MATRIX; + set_mode (state, MATRIX); +} + + +static void +init_drain (m_state *state) +{ + int i; + + set_cursor (state, False); + state->cursor_x = -1; + state->cursor_y = -1; + + /* Fill the top row with empty top-feeders, to clear the screen. */ + for (i = 0; i < state->grid_width; i++) + { + m_feeder *f = &state->feeders[i]; + f->y = -1; + f->remaining = 0; + f->throttle = 0; + } + + /* Turn off all the spinners, else they never go away. */ + for (i = 0; i < state->grid_width * state->grid_height; i++) + if (state->cells[i].spinner) + { + state->cells[i].spinner = 0; + state->cells[i].changed = 1; + } +} + +static Bool +screen_blank_p (m_state *state) +{ + int i; + for (i = 0; i < state->grid_width * state->grid_height; i++) + if (state->cells[i].glyph) + return False; + return True; +} + + +static void +set_mode (m_state *state, m_mode mode) +{ + if (mode == state->mode) + return; + + state->mode = mode; + state->typing = 0; + + switch (mode) + { + case MATRIX: + state->glyph_map = matrix_encoding; + state->nglyphs = countof(matrix_encoding); + flip_images (state, True); + init_spinners (state); + break; + case DNA: + state->glyph_map = dna_encoding; + state->nglyphs = countof(dna_encoding); + flip_images (state, False); + break; + case BINARY: + state->glyph_map = binary_encoding; + state->nglyphs = countof(binary_encoding); + flip_images (state, False); + break; + case HEX: + state->glyph_map = hex_encoding; + state->nglyphs = countof(hex_encoding); + flip_images (state, False); + break; + case ASCII: + state->glyph_map = ascii_encoding; + state->nglyphs = countof(ascii_encoding); + flip_images (state, False); + break; + case DEC: + case TRACE_A: + case TRACE_B: + case NMAP: + case KNOCK: + state->glyph_map = decimal_encoding; + state->nglyphs = countof(decimal_encoding); + flip_images (state, False); + break; + case TRACE_TEXT_A: + case TRACE_TEXT_B: + flip_images (state, False); + init_trace (state); + break; + case DRAIN_TRACE_A: + case DRAIN_TRACE_B: + case DRAIN_KNOCK: + case DRAIN_NMAP: + case DRAIN_MATRIX: + init_drain (state); + break; + case TRACE_DONE: + case TRACE_FAIL: + break; + default: + abort(); + } } -static m_state * -init_matrix (Display *dpy, Window window) +static void * +xmatrix_init (Display *dpy, Window window) { XGCValues gcv; char *insert, *mode; + int i; m_state *state = (m_state *) calloc (sizeof(*state), 1); state->dpy = dpy; state->window = window; + state->delay = get_integer_resource (dpy, "delay", "Integer"); XGetWindowAttributes (dpy, window, &state->xgwa); + state->small_p = (state->xgwa.width < 300); { - const char *s = get_string_resource ("small", "Boolean"); - if (s && *s) - state->small_p = get_boolean_resource ("small", "Boolean"); + const char *s = get_string_resource (dpy, "matrixFont", "String"); + if (!s || !*s || !strcasecmp(s, "large")) + state->small_p = False; + else if (!strcasecmp(s, "small")) + state->small_p = True; else - state->small_p = (state->xgwa.width < 300); + fprintf (stderr, "%s: matrixFont should be 'small' or 'large' not '%s'\n", + progname, s); } - load_images (state); + load_images (dpy, state); - gcv.foreground = get_pixel_resource("foreground", "Foreground", - state->dpy, state->xgwa.colormap); - gcv.background = get_pixel_resource("background", "Background", - state->dpy, state->xgwa.colormap); + gcv.foreground = get_pixel_resource(state->dpy, state->xgwa.colormap, + "foreground", "Foreground"); + gcv.background = get_pixel_resource(state->dpy, state->xgwa.colormap, + "background", "Background"); state->draw_gc = XCreateGC (state->dpy, state->window, GCForeground|GCBackground, &gcv); gcv.foreground = gcv.background; state->erase_gc = XCreateGC (state->dpy, state->window, GCForeground|GCBackground, &gcv); + state->scratch_gc = XCreateGC (state->dpy, state->window, 0, &gcv); + + /* Allocate colors for SYSTEM FAILURE box */ + { + XColor boxcolors[] = { + { 0, 0x0808, 0x1E1E, 0x0808, DoRed|DoGreen|DoBlue, 0 }, + { 0, 0x5A5A, 0xD2D2, 0x5A5A, DoRed|DoGreen|DoBlue, 0 }, + { 0, 0xE0E0, 0xF7F7, 0xE0E0, DoRed|DoGreen|DoBlue, 0 }, + { 0, 0x5A5A, 0xD2D2, 0x5A5A, DoRed|DoGreen|DoBlue, 0 }, + { 0, 0x0808, 0x1E1E, 0x0808, DoRed|DoGreen|DoBlue, 0 }, + }; + for (i = 0; i < countof(boxcolors); i++) + { + if (XAllocColor (state->dpy, state->xgwa.colormap, &boxcolors[i])) + state->colors[i] = boxcolors[i].pixel; + else + state->colors[i] = gcv.foreground; /* default black */ + } + } + state->char_width = state->image_width / CHAR_COLS; state->char_height = state->image_height / CHAR_ROWS; @@ -329,18 +714,21 @@ init_matrix (Display *dpy, Window window) state->grid_height = state->xgwa.height / state->char_height; state->grid_width++; state->grid_height++; + if (state->grid_width < 5) state->grid_width = 5; + if (state->grid_height < 5) state->grid_height = 5; state->glyph_map = matrix_encoding; state->nglyphs = countof(matrix_encoding); state->cells = (m_cell *) calloc (sizeof(m_cell), state->grid_width * state->grid_height); - state->cursor = NULL; + state->background = (m_cell *) + calloc (sizeof(m_cell), state->grid_width * state->grid_height); state->feeders = (m_feeder *) calloc (sizeof(m_feeder), state->grid_width); - state->density = get_integer_resource ("density", "Integer"); + state->density = get_integer_resource (dpy, "density", "Integer"); - insert = get_string_resource("insert", "Insert"); + insert = get_string_resource(dpy, "insert", "Insert"); if (insert && !strcmp(insert, "top")) { state->insert_top_p = True; @@ -366,61 +754,77 @@ init_matrix (Display *dpy, Window window) state->insert_bottom_p = True; } - state->nspinners = get_integer_resource ("spinners", "Integer"); + state->nspinners = get_integer_resource (dpy, "spinners", "Integer"); if (insert) free (insert); - state->knock_knock_p = get_boolean_resource ("knockKnock", "KnockKnock"); - - mode = get_string_resource ("mode", "Mode"); + state->knock_knock_p = get_boolean_resource (dpy, "knockKnock", "KnockKnock"); + + state->use_pipe_p = get_boolean_resource (dpy, "usePipe", "Boolean"); + state->buf_pos = 1; + state->buf[0] = ' '; /* spacer byte in buffer (space) */ + state->buf_done = 0; + state->do_fill_buff = True; + state->start_reveal_back_p = False; + state->back_text_full_p = False; + state->back_y = 0; + state->back_pos = 0; + + state->mode = -1; + state->def_mode = MATRIX; + mode = get_string_resource (dpy, "mode", "Mode"); if (mode && !strcasecmp(mode, "trace")) - state->mode = TRACE0; - else if (mode && !strcasecmp(mode, "dna")) - state->mode = DNA; - else if (mode && !strcasecmp(mode, "binary")) - state->mode = BINARY; + set_mode (state, ((random() % 3) ? TRACE_TEXT_A : TRACE_TEXT_B)); + else if (mode && !strcasecmp(mode, "crack")) + set_mode (state, DRAIN_NMAP); + else if (mode && !strcasecmp(mode, "dna")){ + set_mode (state, DNA); + state->def_mode = DNA; + } + else if (mode && (!strcasecmp(mode, "bin") || + !strcasecmp(mode, "binary"))){ + set_mode (state, BINARY); + state->def_mode = BINARY; + } else if (mode && (!strcasecmp(mode, "hex") || - !strcasecmp(mode, "hexadecimal"))) - state->mode = HEX; - else if (!mode || !*mode || !strcasecmp(mode, "matrix")) - state->mode = MATRIX; - else - { - fprintf (stderr, - "%s: `mode' must be matrix, trace, dna, binary, or hex: not `%s'\n", - progname, mode); - state->mode = MATRIX; - } - - if (state->mode == DNA) - { - state->glyph_map = dna_encoding; - state->nglyphs = countof(dna_encoding); - } - else if (state->mode == BINARY) - { - state->glyph_map = binary_encoding; - state->nglyphs = countof(binary_encoding); - } - else if (state->mode == HEX) - { - state->glyph_map = hex_encoding; - state->nglyphs = countof(hex_encoding); - } - else if (state->mode == HEX) + !strcasecmp(mode, "hexadecimal"))){ + set_mode (state, HEX); + state->def_mode = HEX; + } + else if (mode && (!strcasecmp(mode, "dec") || + !strcasecmp(mode, "decimal"))){ + set_mode (state, DEC); + state->def_mode = DEC; + } + else if (mode && (!strcasecmp(mode, "asc") || + !strcasecmp(mode, "ascii"))){ + set_mode (state, ASCII); + state->def_mode = ASCII; + } + else if (mode && !strcasecmp(mode, "pipe")) { - state->glyph_map = hex_encoding; - state->nglyphs = countof(hex_encoding); + set_mode (state, ASCII); + state->def_mode = ASCII; + state->use_pipe_p = True; + launch_text_generator (state); } - else if (state->mode == TRACE0) - init_trace (state); + else if (!mode || !*mode || !strcasecmp(mode, "matrix")) + set_mode (state, MATRIX); else { - flip_images (state); - init_spinners (state); + fprintf (stderr, "%s: `mode' must be ",progname); + fprintf (stderr, "matrix, trace, dna, binary, ascii, hex, or pipe: "); + fprintf (stderr, "not `%s'\n", mode); + set_mode (state, MATRIX); } + if (state->mode == MATRIX && get_boolean_resource (dpy, "trace", "Boolean")) + set_mode (state, ((random() % 3) ? TRACE_TEXT_A : TRACE_TEXT_B)); + + state->cursor_x = -1; + state->cursor_y = -1; + return state; } @@ -430,7 +834,6 @@ insert_glyph (m_state *state, int glyph, int x, int y) { Bool bottom_feeder_p = (y >= 0); m_cell *from, *to; - if (y >= state->grid_height) return; @@ -457,12 +860,65 @@ insert_glyph (m_state *state, int glyph, int x, int y) if (!to->glyph) ; else if (bottom_feeder_p) - to->glow = 1 + (random() % 2); + to->glow = 1 + (random() % (state->tracing ? 4 : 2)); else to->glow = 0; } +static void +place_back_char (m_state *state, char textc, int x, int y){ + if((x>=0) && (y>=0) && + (x < state->grid_width) && (y < state->grid_height)){ + m_cell *celltmp = &state->background[state->grid_width * y + x]; + celltmp -> glyph = char_map[(unsigned char)textc] + 1; + if(!celltmp->glyph || (celltmp->glyph == 3)){ + celltmp -> glyph = char_map[32] + 1; + } + celltmp -> changed = 1; + } +} + +static void +place_back_text (m_state *state, char *text, int x, int y){ + int i; + for(i=0; iback_line[state->back_pos] = textc; + if(textc == '\n'){ + state->back_line[state->back_pos] = '\0'; + new_line = True; + } + else if ((state->back_pos > (state->grid_width - 4)) || + (state->back_pos >= BUF_SIZE)){ /* off by 1? */ + state->back_line[++state->back_pos] = '\0'; + new_line = True; + } + else{ + state->back_pos++; + } + if(new_line){ + int startx = (state->grid_width >> 1) - + (strlen(state->back_line) >> 1); + place_back_text(state, state->back_line, + startx, state->back_y); + state->back_pos = 0; + state->back_y++; + if(state->back_y >= (state->grid_height - 1)){ + state->back_y = 1; + state->back_text_full_p = True; + state->start_reveal_back_p = True; + } + } +} + static void feed_matrix (m_state *state) { @@ -470,11 +926,71 @@ feed_matrix (m_state *state) switch (state->mode) { - case TRACE2: case MATRIX: case DNA: case BINARY: case HEX: + case TRACE_A: + { + int L = strlen((char *) state->tracing); + int count = 0; + int i; + + for (i = 0; i < strlen((char *) state->tracing); i++) + if (state->tracing[i] > 0) + count++; + + if (count >= L) + { + set_mode (state, TRACE_DONE); + state->typing_delay = 1000000; + return; + } + else + { + i = 5 + (30 / (count+1)); /* how fast numbers are discovered */ + + if ((random() % i) == 0) + { + i = random() % L; + if (state->tracing[i] < 0) + state->tracing[i] = -state->tracing[i]; + } + } + } break; + + case TRACE_B: + if ((random() % 40) == 0) + { + set_mode (state, TRACE_FAIL); + return; + } + break; + + case MATRIX: case DNA: case BINARY: case DEC: case HEX: case ASCII: + case DRAIN_TRACE_A: + case DRAIN_TRACE_B: + case DRAIN_KNOCK: + case DRAIN_NMAP: + case DRAIN_MATRIX: + break; + default: - return; + abort(); + } + + /*get input*/ + if((state->use_pipe_p) && (!state->back_text_full_p)){ + place_back_pipe(state, state->buf[state->buf_done]); + state->buf_done = (state->buf_done + 1) % BUF_SIZE; + if(state->buf_done == (state->buf_pos - 1)){ + state->do_fill_buff = True; } + } + if(state->buf_done == (state->buf_pos + 1)){ + state->do_fill_buff = False; + } + else{ + state->do_fill_buff = True; + fill_input(state); + } /* Update according to current feeders. */ for (x = 0; x < state->grid_width; x++) @@ -487,7 +1003,20 @@ feed_matrix (m_state *state) } else if (f->remaining > 0) /* how many items are in the pipe */ { - int g = state->glyph_map[(random() % state->nglyphs)] + 1; + int g; + long rval; + if((state->use_pipe_p) && (!state->back_text_full_p)){ + rval = (int) state->buf[f->pipe_loc]; + if(++f->pipe_loc > (BUF_SIZE-1)){ + f->pipe_loc = 0; + /*fill_input(state);*/ + } + rval = (rval % state->nglyphs); + } + else{ + rval = (random() % state->nglyphs); + } + g = state->glyph_map[rval] + 1; insert_glyph (state, g, x, f->y); f->remaining--; if (f->y >= 0) /* bottom_feeder_p */ @@ -513,38 +1042,57 @@ redraw_cells (m_state *state, Bool active) { int x, y; int count = 0; + Bool use_back_p = False; for (y = 0; y < state->grid_height; y++) for (x = 0; x < state->grid_width; x++) { m_cell *cell = &state->cells[state->grid_width * y + x]; + m_cell *back = &state->background[state->grid_width * y + x]; + Bool cursor_p = (state->cursor_on && + x == state->cursor_x && + y == state->cursor_y); if (cell->glyph) count++; + else { + if((state->start_reveal_back_p) && + (back->glyph) && !(state->mode == TRACE_A || + state->mode == TRACE_B || + state->mode == TRACE_DONE)){ + use_back_p = True; + cell = back; + } + } - if (state->mode == TRACE2 && active) + /* In trace-mode, the state of each cell is random unless we have + a match for this digit. */ + if (active && (state->mode == TRACE_A || + state->mode == TRACE_B || + state->mode == TRACE_DONE)) { - int xx = x % strlen(state->tracing); + int xx = x % strlen((char *) state->tracing); Bool dead_p = state->tracing[xx] > 0; - if (y == 0 && x == xx) + if (y == 0 && x == xx && !use_back_p) cell->glyph = (dead_p ? state->glyph_map[state->tracing[xx]-'0'] + 1 : 0); - else if (y == 0) + else if (y == 0 && !use_back_p) cell->glyph = 0; - else + else if (!use_back_p) cell->glyph = (dead_p ? 0 : (state->glyph_map[(random()%state->nglyphs)] + 1)); - + if (!use_back_p) cell->changed = 1; } if (!cell->changed) continue; - if (cell->glyph == 0 && cell != state->cursor) + + if (cell->glyph == 0 && !cursor_p && !use_back_p) XFillRectangle (state->dpy, state->window, state->erase_gc, x * state->char_width, y * state->char_height, @@ -552,11 +1100,10 @@ redraw_cells (m_state *state, Bool active) state->char_height); else { - int g = (cell == state->cursor ? CURSOR_GLYPH : cell->glyph); + int g = (cursor_p ? CURSOR_GLYPH : cell->glyph); int cx = (g - 1) % CHAR_COLS; int cy = (g - 1) / CHAR_COLS; - int map = ((cell->glow > 0 || cell->spinner) ? GLOW_MAP : - (cell->glow < 0) ? FADE_MAP : + int map = ((cell->glow != 0 || cell->spinner) ? GLOW_MAP : PLAIN_MAP); XCopyArea (state->dpy, state->images[map], @@ -568,33 +1115,23 @@ redraw_cells (m_state *state, Bool active) x * state->char_width, y * state->char_height); } - + if (!use_back_p) cell->changed = 0; - if (cell->glow > 0) + if (cell->glow > 0 && state->mode != NMAP && !use_back_p) { cell->glow--; cell->changed = 1; } else if (cell->glow < 0) - { - cell->glow++; - if (cell->glow == 0) - cell->glyph = 0; - cell->changed = 1; - } + abort(); - if (cell->spinner && active) + if (cell->spinner && active && !use_back_p) { cell->glyph = (state->glyph_map[(random()%state->nglyphs)] + 1); cell->changed = 1; } } - - if (state->cursor) - { - state->cursor->changed = 1; - } } @@ -623,206 +1160,354 @@ densitizer (m_state *state) static void hack_text (m_state *state) { - int i; - int x = 0; - const char *s; - Bool typing_delay = False; - Bool transmit_delay = False; - Bool visible_cursor = False; - switch (state->mode) - { - case TRACE0: if (state->grid_width >= 52) - s = "Call trans opt: received. 2-19-98 13:24:18 REC:Log>"; - else - s = "Call trans opt: received.\n2-19-98 13:24:18 REC:Log>"; - transmit_delay = True; - visible_cursor = True; - break; - case TRACE1: s = "Trace program: running"; - transmit_delay = True; - visible_cursor = True; - break; - case KNOCK0: s = "Wake up, Neo..."; break; - case KNOCK1: s = ""; break; - case KNOCK2: s = "The Matrix has you..."; typing_delay = True; break; - case KNOCK3: s = ""; break; - case KNOCK4: s = "Follow the white rabbit."; typing_delay = True; break; - case KNOCK5: s = ""; break; - case KNOCK6: s = "Knock, knock, Neo."; break; - case KNOCK7: s = ""; break; - - default: abort(); break; - } - - for (i = 0; i < state->grid_height * state->grid_width; i++) - { - m_cell *cell = &state->cells[i]; - cell->changed = (cell->glyph != 0); - cell->glyph = 0; - } - - if (state->mode == TRACE0 || state->mode == TRACE1) - i = 0; - else - { - int y; - x = ((int)state->grid_width - (int)strlen(s)) / 2; - y = (state->grid_height / 2) - 1; - if (y < 0) y = 0; - if (x < 0) x = 0; - i = (y * state->grid_width) + x; - } - - while (*s) + if (!state->typing) { - if (*s == '\n') - { - i = ((i / state->grid_width) + 1) * state->grid_width; - x = 0; - } - else + set_cursor (state, False); + state->cursor_x = 0; + state->cursor_y = 0; + state->typing_scroll_p = False; + state->typing_bold_p = False; + state->typing_cursor_p = True; + state->typing_stutter_p = False; + state->typing_char_delay = 10000; + state->typing_line_delay = 1500000; + + switch (state->mode) { - m_cell *cell = &state->cells[i]; - if (x < state->grid_width-1) + case TRACE_TEXT_A: + case TRACE_TEXT_B: + if (state->mode == TRACE_TEXT_A) { - cell->glyph = char_map[(unsigned char) *s] + 1; - if (*s == ' ' || *s == '\t') cell->glyph = 0; - cell->changed = 1; - if (visible_cursor) - { - m_cell *next = &state->cells[i + 1]; - next->changed = 1; - state->cursor = next; - } - i++; + if (state->grid_width >= 52) + state->typing = + ("Call trans opt: received. 2-19-98 13:24:18 REC:Log>\n" + "Trace program: running\n"); + else + state->typing = + ("Call trans opt: received.\n2-19-98 13:24:18 REC:Log>\n" + "Trace program: running\n"); } - x++; - } - s++; - if (typing_delay || transmit_delay) - { - redraw_cells (state, False); - XSync (state->dpy, False); - screenhack_handle_events (state->dpy); - if (typing_delay) + else { - usleep (50000); - if (typing_delay && 0 == random() % 3) - usleep (0xFFFFFF & ((random() % 250000) + 1)); + if (state->grid_width >= 52) + state->typing = + ("Call trans opt: received. 9-18-99 14:32:21 REC:Log>\n" + "WARNING: carrier anomaly\n" + "Trace program: running\n"); + else + state->typing = + ("Call trans opt: received.\n9-18-99 14:32:21 REC:Log>\n" + "WARNING: carrier anomaly\n" + "Trace program: running\n"); } - else - usleep (20000); - } - } -} - -static void -roll_state (m_state *state) -{ - int delay = 0; - switch (state->mode) - { - case TRACE0: - delay = 3; - state->mode = TRACE1; - break; - - case TRACE1: - delay = 2; - state->mode = TRACE2; - break; + break; - case TRACE2: - { - Bool any = False; - int i; - for (i = 0; i < strlen(state->tracing); i++) - if (state->tracing[i] < 0) any = True; - - if (!any) + case TRACE_FAIL: { - XSync (state->dpy, False); - sleep (3); - state->mode = MATRIX; - state->glyph_map = matrix_encoding; - state->nglyphs = countof(matrix_encoding); - flip_images (state); - free (state->tracing); - state->tracing = 0; + const char *s = "SYSTEM FAILURE\n"; + int i; + float cx = (state->grid_width - strlen(s) - 1) / 2 - 0.5; + float cy = (state->grid_height / 2) - 1.3; + + if (cy < 0) cy = 0; + if (cx < 0) cx = 0; + + XFillRectangle (state->dpy, state->window, state->erase_gc, + cx * state->char_width, + cy * state->char_height, + strlen(s) * state->char_width, + state->char_height * 1.6); + + for (i = -2; i < 3; i++) + { + XGCValues gcv; + gcv.foreground = state->colors[i + 2]; + XChangeGC (state->dpy, state->scratch_gc, GCForeground, &gcv); + XDrawRectangle (state->dpy, state->window, state->scratch_gc, + cx * state->char_width - i, + cy * state->char_height - i, + strlen(s) * state->char_width + (2 * i), + (state->char_height * 1.6) + (2 * i)); + } + + /* If we don't clear these, part of the box may get overwritten */ + for (i = 0; i < state->grid_height * state->grid_width; i++) + { + m_cell *cell = &state->cells[i]; + cell->changed = 0; + } + + state->cursor_x = (state->grid_width - strlen(s) - 1) / 2; + state->cursor_y = (state->grid_height / 2) - 1; + if (state->cursor_x < 0) state->cursor_x = 0; + if (state->cursor_y < 0) state->cursor_y = 0; + + state->typing = s; + state->typing_char_delay = 0; + state->typing_cursor_p = False; } - else if ((random() % 10) == 0) + break; + + case KNOCK: { - int x = random() % strlen(state->tracing); - if (state->tracing[x] < 0) - state->tracing[x] = -state->tracing[x]; + state->typing = ("\001Wake up, Neo...\n" + "\001The Matrix has you...\n" + "\001Follow the white rabbit.\n" + "\n" + "Knock, knock, Neo.\n"); + + state->cursor_x = 4; + state->cursor_y = 2; + state->typing_char_delay = 0; + state->typing_line_delay = 2000000; } - break; - } + break; - case KNOCK0: delay = 1; state->mode++; break; /* wake */ - case KNOCK1: delay = 4; state->mode++; break; - case KNOCK2: delay = 2; state->mode++; break; /* has */ - case KNOCK3: delay = 4; state->mode++; break; - case KNOCK4: delay = 2; state->mode++; break; /* rabbit */ - case KNOCK5: delay = 4; state->mode++; break; - case KNOCK6: delay = 4; state->mode++; break; /* knock */ - case KNOCK7: - state->mode = MATRIX; - state->glyph_map = matrix_encoding; - state->nglyphs = countof(matrix_encoding); - flip_images (state); - break; + case NMAP: + { + /* Note that what Trinity is using here is moderately accurate: + She runs nmap (http://www.insecure.org/nmap/) then breaks in + with a (hypothetical) program called "sshnuke" that exploits + the (very real) SSHv1 CRC32 compensation attack detector bug + (http://staff.washington.edu/dittrich/misc/ssh-analysis.txt). + + The command syntax of the power grid control software looks a + lot like Cisco IOS to me. (IOS is a descendant of VMS.) + */ + + state->typing = +# ifdef __GNUC__ + __extension__ /* don't warn about "string length is greater than + the length ISO C89 compilers are required to + support"... */ + +# endif + ("# " + "\010\010\010\010" + "\001nmap -v -sS -O 10.2.2.2\n" + "Starting nmap V. 2.54BETA25\n" + "\010\010\010\010\010\010\010\010\010\010" + "Insufficient responses for TCP sequencing (3), OS detection" + " may be less accurate\n" + "Interesting ports on 10.2.2.2:\n" + "(The 1539 ports scanned but not shown below are in state:" + " closed)\n" + "Port state service\n" + "22/tcp open ssh\n" + "\n" + "No exact OS matches for host\n" + "\n" + "Nmap run completed -- 1 IP address (1 host up) scanned\n" + "# " + + "\010\010\010\010" + "\001sshnuke 10.2.2.2 -rootpw=\"Z1ON0101\"\n" + "Connecting to 10.2.2.2:ssh ... " + "\010\010" + "successful.\n" + "Attempting to exploit SSHv1 CRC32 ... " + "\010\010\010\010" + "successful.\n" + "Resetting root password to \"Z1ON0101\".\n" + "\010\010" + "System open: Access Level <9>\n" + + "# " + "\010\010" + + "\001ssh 10.2.2.2 -l root\n" + "\010\010" + "root@10.2.2.2's password: " + "\010\010\n" + "\010\010\n" + "RRF-CONTROL> " + + "\010\010" + "\001disable grid nodes 21 - 48\n" + "\n" + "\002Warning: Disabling nodes 21-48 will disconnect sector 11" + " (28 nodes)\n" + "\n" + "\002 ARE YOU SURE? (y/n) " + + "\010\010" + "\001y\n" + "\n" + "\n" + "\010\002Grid Node 21 offline...\n" + "\010\002Grid Node 22 offline...\n" + "\010\002Grid Node 23 offline...\n" + "\010\002Grid Node 24 offline...\n" + "\010\002Grid Node 25 offline...\n" + "\010\002Grid Node 26 offline...\n" + "\010\002Grid Node 27 offline...\n" + "\010\002Grid Node 28 offline...\n" + "\010\002Grid Node 29 offline...\n" + "\010\002Grid Node 30 offline...\n" + "\010\002Grid Node 31 offline...\n" + "\010\002Grid Node 32 offline...\n" + "\010\002Grid Node 33 offline...\n" + "\010\002Grid Node 34 offline...\n" + "\010\002Grid Node 35 offline...\n" + "\010\002Grid Node 36 offline...\n" + "\010\002Grid Node 37 offline...\n" + "\010\002Grid Node 38 offline...\n" + "\010\002Grid Node 39 offline...\n" + "\010\002Grid Node 40 offline...\n" + "\010\002Grid Node 41 offline...\n" + "\010\002Grid Node 42 offline...\n" + "\010\002Grid Node 43 offline...\n" + "\010\002Grid Node 44 offline...\n" + "\010\002Grid Node 45 offline...\n" + "\010\002Grid Node 46 offline...\n" + "\010\002Grid Node 47 offline...\n" + "\010\002Grid Node 48 offline...\n" + "\010\010" + "\nRRF-CONTROL> " + "\010\010\010\010\010\010\010\010" + ); + + state->cursor_x = 0; + state->cursor_y = state->grid_height - 3; + state->typing_scroll_p = True; + state->typing_char_delay = 0; + state->typing_line_delay = 20000; + } + break; - case MATRIX: - if (state->knock_knock_p && (! (random() % 5000))) - { - state->mode = KNOCK0; - flip_images (state); + default: + abort(); + break; } - break; - case DNA: case BINARY: case HEX: - break; - - default: - abort(); - break; + state->typing_left_margin = state->cursor_x; + state->typing_delay = state->typing_char_delay; + if (state->typing_cursor_p) + set_cursor (state, True); } - - if (delay) + else { - if (state->cursor) + Bool scrolled_p = False; + unsigned char c, c1; + int x = state->cursor_x; + int y = state->cursor_y; + + AGAIN: + c = ((unsigned char *) state->typing)[0]; + c1 = ((unsigned char *) state->typing)[1]; + + state->typing_delay = (!c || c1 == '\n' + ? state->typing_line_delay + : state->typing_char_delay); + if (! c) { - int blink_delay = 333000; - int tot_delay = 0; - m_cell *cursor = state->cursor; - while (tot_delay < delay * 1000000) + state->typing_delay = 0; + state->typing = 0; + return; + } + + if (state->typing_scroll_p && + (c == '\n' || + x >= state->grid_width - 1)) + { + set_cursor (state, False); + x = 0; + y++; + + if (y >= state->grid_height-1) { - if (state->cursor) + int xx, yy; + for (yy = 0; yy < state->grid_height-2; yy++) + for (xx = 0; xx < state->grid_width; xx++) + { + int ii = yy * state->grid_width + xx; + int jj = (yy+1) * state->grid_width + xx; + state->cells[ii] = state->cells[jj]; + state->cells[ii].changed = 1; + } + /* clear bottom row */ + for (xx = 0; xx < state->grid_width; xx++) { - usleep (blink_delay * 2); - tot_delay += (2 * blink_delay); - state->cursor = NULL; + int ii = yy * state->grid_width + xx; + state->cells[ii].glyph = 0; + state->cells[ii].changed = 1; } - else + y--; /* move back up to bottom line */ + scrolled_p = True; + } + } + + if (c == '\n') + { + if (!state->typing_scroll_p) + { + int i, j; + set_cursor (state, False); + x = state->typing_left_margin; + + /* clear the line */ + i = state->grid_width * y; + j = i + state->grid_width; + for (; i < j; i++) { - usleep (blink_delay); - tot_delay += blink_delay; - state->cursor = cursor; + state->cells[i].glyph = 0; + state->cells[i].changed = 1; } - cursor->changed = 1; - redraw_cells (state, False); - XSync (state->dpy, False); - screenhack_handle_events (state->dpy); } + state->typing_bold_p = False; + state->typing_stutter_p = False; + scrolled_p = True; } - else + + else if (c == '\010') + state->typing_delay += 500000; + + else if (c == '\001') + { + state->typing_stutter_p = True; + state->typing_bold_p = False; + } + else if (c == '\002') + state->typing_bold_p = True; + + else if (x < state->grid_width-1) + { + m_cell *cell = &state->cells[state->grid_width * y + x]; + cell->glyph = char_map[c] + 1; + if (c == ' ' || c == '\t') cell->glyph = 0; + cell->changed = 1; + cell->glow = (state->typing_bold_p ? 127 : 0); + } + + if (c >= ' ') + x++; + + if (x >= state->grid_width-1) + x = state->grid_width-1; + + state->typing++; + + if (state->typing_stutter_p) { - XSync (state->dpy, False); - sleep (delay); + if (state->typing_delay == 0) + state->typing_delay = 20000; + if (random() % 3) + state->typing_delay += (0xFFFFFF & ((random() % 200000) + 1)); + } + + /* If there's no delay after this character, just keep going. */ + if (state->typing_delay == 0) + goto AGAIN; + + if (scrolled_p || x != state->cursor_x || y != state->cursor_y) + { + set_cursor (state, False); + state->cursor_x = x; + state->cursor_y = y; + if (state->typing_cursor_p) + set_cursor (state, True); } } - state->cursor = NULL; } @@ -833,12 +1518,10 @@ hack_matrix (m_state *state) switch (state->mode) { - case TRACE0: case TRACE1: - case KNOCK0: case KNOCK1: case KNOCK2: case KNOCK3: - case KNOCK4: case KNOCK5: case KNOCK6: case KNOCK7: - hack_text (state); + case TRACE_DONE: case TRACE_FAIL: return; - case TRACE2: case MATRIX: case DNA: case BINARY: case HEX: + case TRACE_A: case TRACE_B: + case MATRIX: case DNA: case BINARY: case DEC: case HEX: case ASCII: break; default: abort(); break; @@ -850,9 +1533,9 @@ hack_matrix (m_state *state) int i = random() % (state->grid_width / 2); while (--i > 0) { - int x = random() % state->grid_width; - int y = random() % state->grid_height; - m_cell *cell = &state->cells[state->grid_width * y + x]; + int yy = random() % state->grid_height; + int xx = random() % state->grid_width; + m_cell *cell = &state->cells[state->grid_width * yy + xx]; if (cell->glyph && cell->glow == 0) { cell->glow = random() % 10; @@ -879,7 +1562,7 @@ hack_matrix (m_state *state) if ((random() % 4) != 0) f->remaining = 0; - if (state->mode == TRACE2) + if (state->mode == TRACE_A || state->mode == TRACE_B) bottom_feeder_p = True; if (state->insert_top_p && state->insert_bottom_p) bottom_feeder_p = (random() & 1); @@ -892,19 +1575,115 @@ hack_matrix (m_state *state) f->y = -1; } - if (!state->mode == TRACE2 && - ! (random() % 500)) + if (state->mode == MATRIX && (! (random() % 500))) init_spinners (state); } -static void -draw_matrix (m_state *state) +static unsigned long +xmatrix_draw (Display *dpy, Window window, void *closure) { - feed_matrix (state); - hack_matrix (state); + m_state *state = (m_state *) closure; + + if (state->typing_delay > 0) + { + state->typing_delay -= state->delay; + if (state->typing_delay < 0) + state->typing_delay = 0; + redraw_cells (state, False); + return state->delay; + } + + switch (state->mode) + { + case MATRIX: case DNA: case BINARY: case DEC: case HEX: case ASCII: + case TRACE_A: case TRACE_B: + feed_matrix (state); + hack_matrix (state); + break; + + case DRAIN_TRACE_A: + case DRAIN_TRACE_B: + case DRAIN_KNOCK: + case DRAIN_NMAP: + case DRAIN_MATRIX: + feed_matrix (state); + if (screen_blank_p (state)) + { + state->typing_delay = 500000; + if(state->start_reveal_back_p){ + m_cell *back, *to; + int x,y; + state->typing_delay = 5000000; + state->start_reveal_back_p = False; + state->back_text_full_p = False; + /* for loop to move background to foreground */ + for (y = 0; y < state->grid_height; y++){ + for (x = 0; x < state->grid_width; x++){ + to = &state->cells[state->grid_width * y + x]; + back = &state->background[state->grid_width * y + x]; + to->glyph = back->glyph; + to->changed = back->changed; + back->glyph = 0; + back->changed = 0; + } + } + } + switch (state->mode) + { + case DRAIN_TRACE_A: set_mode (state, TRACE_TEXT_A); break; + case DRAIN_TRACE_B: set_mode (state, TRACE_TEXT_B); break; + case DRAIN_KNOCK: set_mode (state, KNOCK); break; + case DRAIN_NMAP: set_mode (state, NMAP); break; + case DRAIN_MATRIX: set_mode (state, state->def_mode); break; + default: abort(); break; + } + } + break; + + case TRACE_DONE: + set_mode (state, state->def_mode); + break; + + case TRACE_TEXT_A: + case TRACE_TEXT_B: + case TRACE_FAIL: + case KNOCK: + case NMAP: + hack_text (state); + + if (! state->typing) /* done typing */ + { + set_cursor (state, False); + switch (state->mode) + { + case TRACE_TEXT_A: set_mode (state, TRACE_A); break; + case TRACE_TEXT_B: set_mode (state, TRACE_B); break; + case TRACE_FAIL: set_mode (state, state->def_mode); break; + case KNOCK: set_mode (state, state->def_mode); break; + case NMAP: set_mode (state, state->def_mode); break; + default: abort(); break; + } + } + break; + + default: + abort(); + } + if (state->start_reveal_back_p){ + set_mode (state, DRAIN_MATRIX); + } + if (state->mode == MATRIX && + state->knock_knock_p && + (! (random() % 10000))) + { + if (! (random() % 5)) + set_mode (state, DRAIN_NMAP); + else + set_mode (state, DRAIN_KNOCK); + } + redraw_cells (state, True); - roll_state (state); #if 0 { @@ -925,53 +1704,191 @@ draw_matrix (m_state *state) } #endif + return state->delay; } - -char *progclass = "XMatrix"; -char *defaults [] = { +static void +xmatrix_reshape (Display *dpy, Window window, void *closure, + unsigned int w, unsigned int h) +{ + m_state *state = (m_state *) closure; + int ow = state->grid_width; + int oh = state->grid_height; + XGetWindowAttributes (state->dpy, state->window, &state->xgwa); + state->grid_width = state->xgwa.width / state->char_width; + state->grid_height = state->xgwa.height / state->char_height; + state->grid_width++; + state->grid_height++; + if (state->grid_width < 5) state->grid_width = 5; + if (state->grid_height < 5) state->grid_height = 5; + + if (ow != state->grid_width || + oh != state->grid_height) + { + m_cell *ncells = (m_cell *) + calloc (sizeof(m_cell), state->grid_width * state->grid_height); + m_cell *nbackground = (m_cell *) + calloc (sizeof(m_cell), state->grid_width * state->grid_height); + m_feeder *nfeeders = (m_feeder *) + calloc (sizeof(m_feeder), state->grid_width); + int x, y, i; + + /* fprintf(stderr, "resize: %d x %d ==> %d x %d\n", + ow, oh, state->grid_width, state->grid_height); */ + + for (y = 0; y < oh; y++) + for (x = 0; x < ow; x++) + if (x < ow && x < state->grid_width && + y < oh && y < state->grid_height){ + ncells[y * state->grid_width + x] = + state->cells[y * ow + x]; + nbackground[y * state->grid_width + x] = + state->background[y * ow + x]; + } + free (state->cells); + free (state->background); + state->cells = ncells; + state->background = nbackground; + + x = (ow < state->grid_width ? ow : state->grid_width); + for (i = 0; i < x; i++) + nfeeders[i] = state->feeders[i]; + free (state->feeders); + state->feeders = nfeeders; + } +} + +static Bool +xmatrix_event (Display *dpy, Window window, void *closure, XEvent *event) +{ + m_state *state = (m_state *) closure; + + if (event->xany.type == KeyPress) + { + KeySym keysym; + char c = 0; + XLookupString (&event->xkey, &c, 1, &keysym, 0); + switch (c) + { + case '0': + /*set_mode (state, DRAIN_MATRIX);*/ + state->back_y = 1; + state->back_text_full_p = True; + state->start_reveal_back_p = True; + return True; + + case '+': case '=': case '>': case '.': + state->density += 10; + if (state->density > 100) + state->density = 100; + else + return True; + break; + + case '-': case '_': case '<': case ',': + state->density -= 10; + if (state->density < 0) + state->density = 0; + else + return True; + break; + + case '[': case '(': case '{': + state->insert_top_p = True; + state->insert_bottom_p = False; + return True; + + case ']': case ')': case '}': + state->insert_top_p = False; + state->insert_bottom_p = True; + return True; + + case '\\': case '|': + state->insert_top_p = True; + state->insert_bottom_p = True; + return True; + + case 't': + set_mode (state, DRAIN_TRACE_A); + return True; + + case 'T': + set_mode (state, DRAIN_TRACE_B); + return True; + + case 'k': + set_mode (state, DRAIN_KNOCK); + return True; + + case 'c': + set_mode (state, DRAIN_NMAP); + return True; + + default: + return False; + } + } + + return False; +} + +static void +xmatrix_free (Display *dpy, Window window, void *closure) +{ + m_state *state = (m_state *) closure; + + if (state->cursor_timer) + XtRemoveTimeOut (state->cursor_timer); + + /* #### there's more to free here */ + + free (state); +} + +static const char *xmatrix_defaults [] = { ".background: black", ".foreground: #00AA00", - "*small: ", + "*matrixFont: large", "*delay: 10000", "*insert: both", "*mode: Matrix", - "*tracePhone: (212) 555-0690", + "*tracePhone: (312) 555-0690", "*spinners: 5", "*density: 75", - "*knockKnock: False", + "*trace: True", + "*knockKnock: True", + "*usePipe: False", + "*program: xscreensaver-text", + "*geometry: 800x600", 0 }; -XrmOptionDescRec options [] = { - { "-small", ".small", XrmoptionNoArg, "True" }, - { "-large", ".small", XrmoptionNoArg, "False" }, +static XrmOptionDescRec xmatrix_options [] = { + { "-small", ".matrixFont", XrmoptionNoArg, "Small" }, + { "-large", ".matrixFont", XrmoptionNoArg, "Large" }, { "-delay", ".delay", XrmoptionSepArg, 0 }, + { "-insert", ".insert", XrmoptionSepArg, 0 }, { "-top", ".insert", XrmoptionNoArg, "top" }, { "-bottom", ".insert", XrmoptionNoArg, "bottom" }, { "-both", ".insert", XrmoptionNoArg, "both" }, { "-density", ".density", XrmoptionSepArg, 0 }, - { "-trace", ".mode", XrmoptionNoArg, "trace" }, + { "-trace", ".trace", XrmoptionNoArg, "True" }, + { "-no-trace", ".trace", XrmoptionNoArg, "False" }, + { "-crack", ".mode", XrmoptionNoArg, "crack"}, { "-phone", ".tracePhone", XrmoptionSepArg, 0 }, + { "-mode", ".mode", XrmoptionSepArg, 0 }, { "-dna", ".mode", XrmoptionNoArg, "DNA" }, { "-binary", ".mode", XrmoptionNoArg, "binary" }, { "-hexadecimal", ".mode", XrmoptionNoArg, "hexadecimal"}, + { "-decimal", ".mode", XrmoptionNoArg, "decimal"}, { "-knock-knock", ".knockKnock", XrmoptionNoArg, "True" }, + { "-no-knock-knock", ".knockKnock", XrmoptionNoArg, "False" }, + { "-ascii", ".mode", XrmoptionNoArg, "ascii"}, + { "-pipe", ".usePipe", XrmoptionNoArg, "True" }, + { "-no-pipe", ".usePipe", XrmoptionNoArg, "False" }, + { "-program", ".program", XrmoptionSepArg, 0 }, { 0, 0, 0, 0 } }; - -void -screenhack (Display *dpy, Window window) -{ - m_state *state = init_matrix (dpy, window); - int delay = get_integer_resource ("delay", "Integer"); - while (1) - { - draw_matrix (state); - XSync (dpy, False); - screenhack_handle_events (dpy); - if (delay) usleep (delay); - } -} +XSCREENSAVER_MODULE ("XMatrix", xmatrix)