toaruos/apps/terminal-vga.c

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2018-03-04 16:50:53 +03:00
/* vim: tabstop=4 shiftwidth=4 noexpandtab
* This file is part of ToaruOS and is released under the terms
* of the NCSA / University of Illinois License - see LICENSE.md
* Copyright (C) 2014-2018 K. Lange
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*
* Terminal Emulator - VGA
*/
#include <stdio.h>
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include <signal.h>
#include <time.h>
#include <fcntl.h>
#include <unistd.h>
#include <pthread.h>
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#include <sys/stat.h>
#include <sys/ioctl.h>
#include <sys/time.h>
#include <sys/wait.h>
#include <getopt.h>
#include <errno.h>
#include <pty.h>
#include <sys/fswait.h>
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#include <wchar.h>
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#include <toaru/decodeutf8.h>
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#include <toaru/kbd.h>
#include <toaru/graphics.h>
#include <toaru/termemu.h>
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#include <toaru/mouse.h>
#include <toaru/list.h>
#include <toaru/spinlock.h>
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#include "vga-palette.h"
#define USE_BELL 0
/* master and slave pty descriptors */
static int fd_master, fd_slave;
static FILE * terminal;
static uint16_t term_width = 80; /* Width of the terminal (in cells) */
static uint16_t term_height = 25; /* Height of the terminal (in cells) */
static uint16_t csr_x = 0; /* Cursor X */
static uint16_t csr_y = 0; /* Cursor Y */
static term_cell_t * term_buffer = NULL; /* The terminal cell buffer */
static term_cell_t * term_buffer_a = NULL;
static term_cell_t * term_buffer_b = NULL;
static int active_buffer = 0;
static int _orig_x = 0;
static int _orig_y = 0;
static uint32_t _orig_fg = 7;
static uint32_t _orig_bg = 0;
static uint32_t current_fg = 7; /* Current foreground color */
static uint32_t current_bg = 0; /* Current background color */
static uint8_t cursor_on = 1; /* Whether or not the cursor should be rendered */
static uint8_t _login_shell = 0; /* Whether we're going to display a login shell or not */
static uint64_t mouse_ticks = 0;
static int selection = 0;
static int selection_start_x = 0;
static int selection_start_y = 0;
static int selection_end_x = 0;
static int selection_end_y = 0;
static char * selection_text = NULL;
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#define char_width 1
#define char_height 1
term_state_t * ansi_state = NULL;
void reinit(void); /* Defined way further down */
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void term_redraw_cursor();
void term_clear();
void dump_buffer();
static uint64_t get_ticks(void) {
struct timeval now;
gettimeofday(&now, NULL);
return (uint64_t)now.tv_sec * 1000000LL + (uint64_t)now.tv_usec;
}
static int color_distance(uint32_t a, uint32_t b) {
int a_r = (a & 0xFF0000) >> 16;
int a_g = (a & 0xFF00) >> 8;
int a_b = (a & 0xFF);
int b_r = (b & 0xFF0000) >> 16;
int b_g = (b & 0xFF00) >> 8;
int b_b = (b & 0xFF);
int distance = 0;
distance += abs(a_r - b_r) * 3;
distance += abs(a_g - b_g) * 6;
distance += abs(a_b - b_b) * 10;
return distance;
}
static uint32_t vga_base_colors[] = {
0x000000,
0xAA0000,
0x00AA00,
0xAA5500,
0x0000AA,
0xAA00AA,
0x00AAAA,
0xAAAAAA,
0x555555,
0xFF5555,
0x55AA55,
0xFFFF55,
0x5555FF,
0xFF55FF,
0x55FFFF,
0xFFFFFF,
};
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#if 0
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static int is_gray(uint32_t a) {
int a_r = (a & 0xFF0000) >> 16;
int a_g = (a & 0xFF00) >> 8;
int a_b = (a & 0xFF);
return (a_r == a_g && a_g == a_b);
}
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#endif
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static int best_match(uint32_t a) {
int best_distance = INT32_MAX;
int best_index = 0;
for (int j = 0; j < 16; ++j) {
int distance = color_distance(a, vga_base_colors[j]);
if (distance < best_distance) {
best_index = j;
best_distance = distance;
}
}
return best_index;
}
volatile int exit_application = 0;
/* Returns the lower of two shorts */
uint16_t min(uint16_t a, uint16_t b) {
return (a < b) ? a : b;
}
/* Returns the higher of two shorts */
uint16_t max(uint16_t a, uint16_t b) {
return (a > b) ? a : b;
}
void set_title(char * c) {
/* Do nothing */
}
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static void cell_redraw(uint16_t x, uint16_t y);
static void cell_redraw_inverted(uint16_t x, uint16_t y);
void iterate_selection(void (*func)(uint16_t x, uint16_t y)) {
if (selection_end_y < selection_start_y) {
for (int x = selection_end_x; x < term_width; ++x) {
func(x, selection_end_y);
}
for (int y = selection_end_y + 1; y < selection_start_y; ++y) {
for (int x = 0; x < term_width; ++x) {
func(x, y);
}
}
for (int x = 0; x <= selection_start_x; ++x) {
func(x, selection_start_y);
}
} else if (selection_start_y == selection_end_y) {
if (selection_start_x > selection_end_x) {
for (int x = selection_end_x; x <= selection_start_x; ++x) {
func(x, selection_start_y);
}
} else {
for (int x = selection_start_x; x <= selection_end_x; ++x) {
func(x, selection_start_y);
}
}
} else {
for (int x = selection_start_x; x < term_width; ++x) {
func(x, selection_start_y);
}
for (int y = selection_start_y + 1; y < selection_end_y; ++y) {
for (int x = 0; x < term_width; ++x) {
func(x, y);
}
}
for (int x = 0; x <= selection_end_x; ++x) {
func(x, selection_end_y);
}
}
}
void redraw_selection(void) {
iterate_selection(cell_redraw_inverted);
}
static void redraw_new_selection(int old_x, int old_y) {
if (selection_end_y == selection_start_y && old_y != selection_start_y) {
int a, b;
a = selection_end_x;
b = selection_end_y;
selection_end_x = old_x;
selection_end_y = old_y;
iterate_selection(cell_redraw);
selection_end_x = a;
selection_end_y = b;
iterate_selection(cell_redraw_inverted);
} else {
int a, b;
a = selection_start_x;
b = selection_start_y;
selection_start_x = old_x;
selection_start_y = old_y;
/* Figure out direction */
if (old_y < b) {
/* Backwards */
if (selection_end_y < old_y || (selection_end_y == old_y && selection_end_x < old_x)) {
/* Selection extended */
iterate_selection(cell_redraw_inverted);
} else {
/* Selection got smaller */
iterate_selection(cell_redraw);
}
} else if (old_y == b) {
/* Was a single line */
if (selection_end_y == b) {
/* And still is */
if (old_x < a) {
/* Backwards */
if (selection_end_x < old_x) {
iterate_selection(cell_redraw_inverted);
} else {
iterate_selection(cell_redraw);
}
} else {
if (selection_end_x < old_x) {
iterate_selection(cell_redraw);
} else {
iterate_selection(cell_redraw_inverted);
}
}
} else if (selection_end_y < b) {
/* Moved up */
if (old_x <= a) {
/* Should be fine with just append */
iterate_selection(cell_redraw_inverted);
} else {
/* Need to erase first */
iterate_selection(cell_redraw);
selection_start_x = a;
selection_start_y = b;
iterate_selection(cell_redraw_inverted);
}
} else if (selection_end_y > b) {
if (old_x >= a) {
/* Should be fine with just append */
iterate_selection(cell_redraw_inverted);
} else {
/* Need to erase first */
iterate_selection(cell_redraw);
selection_start_x = a;
selection_start_y = b;
iterate_selection(cell_redraw_inverted);
}
}
} else {
/* Forward */
if (selection_end_y < old_y || (selection_end_y == old_y && selection_end_x < old_x)) {
/* Selection got smaller */
iterate_selection(cell_redraw);
} else {
/* Selection extended */
iterate_selection(cell_redraw_inverted);
}
}
cell_redraw_inverted(a,b);
cell_redraw_inverted(selection_end_x, selection_end_y);
/* Restore */
selection_start_x = a;
selection_start_y = b;
}
}
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static int _selection_count = 0;
static int _selection_i = 0;
static int to_eight(uint32_t codepoint, char * out) {
memset(out, 0x00, 7);
if (codepoint < 0x0080) {
out[0] = (char)codepoint;
} else if (codepoint < 0x0800) {
out[0] = 0xC0 | (codepoint >> 6);
out[1] = 0x80 | (codepoint & 0x3F);
} else if (codepoint < 0x10000) {
out[0] = 0xE0 | (codepoint >> 12);
out[1] = 0x80 | ((codepoint >> 6) & 0x3F);
out[2] = 0x80 | (codepoint & 0x3F);
} else if (codepoint < 0x200000) {
out[0] = 0xF0 | (codepoint >> 18);
out[1] = 0x80 | ((codepoint >> 12) & 0x3F);
out[2] = 0x80 | ((codepoint >> 6) & 0x3F);
out[3] = 0x80 | ((codepoint) & 0x3F);
} else if (codepoint < 0x4000000) {
out[0] = 0xF8 | (codepoint >> 24);
out[1] = 0x80 | (codepoint >> 18);
out[2] = 0x80 | ((codepoint >> 12) & 0x3F);
out[3] = 0x80 | ((codepoint >> 6) & 0x3F);
out[4] = 0x80 | ((codepoint) & 0x3F);
} else {
out[0] = 0xF8 | (codepoint >> 30);
out[1] = 0x80 | ((codepoint >> 24) & 0x3F);
out[2] = 0x80 | ((codepoint >> 18) & 0x3F);
out[3] = 0x80 | ((codepoint >> 12) & 0x3F);
out[4] = 0x80 | ((codepoint >> 6) & 0x3F);
out[5] = 0x80 | ((codepoint) & 0x3F);
}
return strlen(out);
}
void count_selection(uint16_t x, uint16_t y) {
term_cell_t * cell = (term_cell_t *)((uintptr_t)term_buffer + (y * term_width + x) * sizeof(term_cell_t));
if (((uint32_t *)cell)[0] != 0x00000000) {
char tmp[7];
_selection_count += to_eight(cell->c, tmp);
}
if (x == term_width - 1) {
_selection_count++;
}
}
void write_selection(uint16_t x, uint16_t y) {
term_cell_t * cell = (term_cell_t *)((uintptr_t)term_buffer + (y * term_width + x) * sizeof(term_cell_t));
if (((uint32_t *)cell)[0] != 0x00000000) {
char tmp[7];
int count = to_eight(cell->c, tmp);
for (int i = 0; i < count; ++i) {
selection_text[_selection_i] = tmp[i];
_selection_i++;
}
}
if (x == term_width - 1) {
selection_text[_selection_i] = '\n';;
_selection_i++;
}
}
char * copy_selection(void) {
_selection_count = 0;
iterate_selection(count_selection);
if (selection_text) {
free(selection_text);
}
if (_selection_count == 0) {
return NULL;
}
selection_text = malloc(_selection_count + 1);
selection_text[_selection_count] = '\0';
_selection_i = 0;
iterate_selection(write_selection);
if (selection_text[_selection_count-1] == '\n') {
/* Don't end on a line feed */
selection_text[_selection_count-1] = '\0';
}
return selection_text;
}
static volatile int input_buffer_lock = 0;
static int input_buffer_semaphore[2];
static list_t * input_buffer_queue = NULL;
struct input_data {
size_t len;
char data[];
};
void * handle_input_writing(void * unused) {
(void)unused;
while (1) {
/* Read one byte from semaphore; as long as semaphore has data,
* there is another input blob to write to the TTY */
char tmp[1];
int c = read(input_buffer_semaphore[0],tmp,1);
if (c > 0) {
/* Retrieve blob */
spin_lock(&input_buffer_lock);
node_t * blob = list_dequeue(input_buffer_queue);
spin_unlock(&input_buffer_lock);
/* No blobs? This shouldn't happen, but just in case, just continue */
if (!blob) {
continue;
}
/* Write blob data to the tty */
struct input_data * value = blob->value;
write(fd_master, value->data, value->len);
free(blob->value);
free(blob);
} else {
/* The pipe has closed, terminal is exiting */
break;
}
}
return NULL;
}
static void write_input_buffer(char * data, size_t len) {
struct input_data * d = malloc(sizeof(struct input_data) + len);
d->len = len;
memcpy(&d->data, data, len);
spin_lock(&input_buffer_lock);
list_insert(input_buffer_queue, d);
spin_unlock(&input_buffer_lock);
write(input_buffer_semaphore[1], d, 1);
}
void handle_input(char c) {
write_input_buffer(&c, 1);
}
void handle_input_s(char * c) {
size_t len = strlen(c);
write_input_buffer(c, len);
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}
unsigned short * textmemptr = (unsigned short *)0xB8000;
unsigned short * mirrorcopy = NULL;
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void placech(unsigned char c, int x, int y, int attr) {
unsigned int where = y * term_width + x;
unsigned int att = (c | (attr << 8));
if (mirrorcopy[where] != att) {
mirrorcopy[where] = att;
textmemptr[where] = att;
}
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}
/* ANSI-to-VGA */
char vga_to_ansi[] = {
0, 4, 2, 6, 1, 5, 3, 7,
8,12,10,14, 9,13,11,15
};
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#include "ununicode.h"
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void
term_write_char(
uint32_t val,
uint16_t x,
uint16_t y,
uint32_t fg,
uint32_t bg,
uint8_t flags
) {
if (val == L'') val = 179;
else if (val > 128) val = ununicode(val);
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if (fg > 256) {
fg = best_match(fg);
}
if (bg > 256) {
bg = best_match(bg);
}
if (fg > 16) {
fg = vga_colors[fg];
}
if (bg > 16) {
bg = vga_colors[bg];
}
if (fg == 16) fg = 0;
if (bg == 16) bg = 0;
placech(val, x, y, (vga_to_ansi[fg] & 0xF) | (vga_to_ansi[bg] << 4));
}
static void cell_set(uint16_t x, uint16_t y, uint32_t c, uint32_t fg, uint32_t bg, uint8_t flags) {
if (x >= term_width || y >= term_height) return;
term_cell_t * cell = (term_cell_t *)((uintptr_t)term_buffer + (y * term_width + x) * sizeof(term_cell_t));
cell->c = c;
cell->fg = fg;
cell->bg = bg;
cell->flags = flags;
}
static void cell_redraw(uint16_t x, uint16_t y) {
if (x >= term_width || y >= term_height) return;
term_cell_t * cell = (term_cell_t *)((uintptr_t)term_buffer + (y * term_width + x) * sizeof(term_cell_t));
if (((uint32_t *)cell)[0] == 0x00000000) {
term_write_char(' ', x * char_width, y * char_height, TERM_DEFAULT_FG, TERM_DEFAULT_BG, TERM_DEFAULT_FLAGS);
} else {
term_write_char(cell->c, x * char_width, y * char_height, cell->fg, cell->bg, cell->flags);
}
}
static void cell_redraw_inverted(uint16_t x, uint16_t y) {
if (x >= term_width || y >= term_height) return;
term_cell_t * cell = (term_cell_t *)((uintptr_t)term_buffer + (y * term_width + x) * sizeof(term_cell_t));
if (((uint32_t *)cell)[0] == 0x00000000) {
term_write_char(' ', x * char_width, y * char_height, TERM_DEFAULT_BG, TERM_DEFAULT_FG, TERM_DEFAULT_FLAGS | ANSI_SPECBG);
} else {
term_write_char(cell->c, x * char_width, y * char_height, cell->bg, cell->fg, cell->flags | ANSI_SPECBG);
}
}
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#if 0
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static void cell_redraw_box(uint16_t x, uint16_t y) {
if (x >= term_width || y >= term_height) return;
term_cell_t * cell = (term_cell_t *)((uintptr_t)term_buffer + (y * term_width + x) * sizeof(term_cell_t));
if (((uint32_t *)cell)[0] == 0x00000000) {
term_write_char(' ', x * char_width, y * char_height, TERM_DEFAULT_FG, TERM_DEFAULT_BG, TERM_DEFAULT_FLAGS | ANSI_BORDER);
} else {
term_write_char(cell->c, x * char_width, y * char_height, cell->fg, cell->bg, cell->flags | ANSI_BORDER);
}
}
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#endif
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void render_cursor() {
if (!cursor_on) return;
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cell_redraw_inverted(csr_x, csr_y);
}
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static uint8_t cursor_flipped = 0;
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void draw_cursor() {
if (!cursor_on) return;
mouse_ticks = get_ticks();
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cursor_flipped = 0;
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render_cursor();
}
void term_redraw_all() {
/* Redraw to a temp buffer */
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for (uint16_t y = 0; y < term_height; ++y) {
for (uint16_t x = 0; x < term_width; ++x) {
cell_redraw(x,y);
}
}
}
void term_shift_region(int top, int height, int how_much) {
if (how_much == 0) return;
int destination, source;
int count, new_top, new_bottom;
if (how_much > height) {
count = 0;
new_top = top;
new_bottom = top + height;
} else if (how_much > 0) {
destination = term_width * top;
source = term_width * (top + how_much);
count = height - how_much;
new_top = top + height - how_much;
new_bottom = top + height;
} else if (how_much < 0) {
destination = term_width * (top - how_much);
source = term_width * top;
count = height + how_much;
new_top = top;
new_bottom = top - how_much;
}
/* Move from top+how_much to top */
if (count) {
memmove(term_buffer + destination, term_buffer + source, count * term_width * sizeof(term_cell_t));
}
/* Clear new lines at bottom */
for (int i = new_top; i < new_bottom; ++i) {
for (uint16_t x = 0; x < term_width; ++x) {
cell_set(x, i, ' ', current_fg, current_bg, ansi_state->flags);
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}
}
term_redraw_all();
}
void term_scroll(int how_much) {
term_shift_region(0,term_height,how_much);
}
void insert_delete_lines(int how_many) {
if (how_many == 0) return;
if (how_many > 0) {
/* Insert lines is equivalent to scrolling from the current line */
term_shift_region(csr_y,term_height-csr_y,-how_many);
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} else {
term_shift_region(csr_y,term_height-csr_y,-how_many);
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}
}
int is_wide(uint32_t codepoint) {
if (codepoint < 256) return 0;
return wcwidth(codepoint) == 2;
}
void term_write(char c) {
static uint32_t codepoint = 0;
static uint32_t unicode_state = 0;
cell_redraw(csr_x, csr_y);
if (!decode(&unicode_state, &codepoint, (uint8_t)c)) {
if (c == '\r') {
csr_x = 0;
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draw_cursor();
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return;
}
if (csr_x == term_width) {
csr_x = 0;
++csr_y;
if (c == '\n') return;
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}
if (csr_y == term_height) {
term_scroll(1);
csr_y = term_height - 1;
}
if (c == '\n') {
++csr_y;
if (csr_y == term_height) {
term_scroll(1);
csr_y = term_height - 1;
}
draw_cursor();
} else if (c == '\007') {
/* bell */
} else if (c == '\b') {
if (csr_x > 0) {
--csr_x;
}
cell_redraw(csr_x, csr_y);
draw_cursor();
} else if (c == '\t') {
csr_x += (8 - csr_x % 8);
draw_cursor();
} else {
int wide = is_wide(codepoint);
uint8_t flags = ansi_state->flags;
if (wide && csr_x == term_width - 1) {
csr_x = 0;
++csr_y;
}
if (wide) {
flags = flags | ANSI_WIDE;
}
cell_set(csr_x,csr_y, codepoint, current_fg, current_bg, flags);
cell_redraw(csr_x,csr_y);
csr_x++;
if (wide && csr_x != term_width) {
cell_set(csr_x, csr_y, 0xFFFF, current_fg, current_bg, ansi_state->flags);
cell_redraw(csr_x,csr_y);
cell_redraw(csr_x-1,csr_y);
csr_x++;
}
}
} else if (unicode_state == UTF8_REJECT) {
unicode_state = 0;
}
draw_cursor();
}
void term_set_csr(int x, int y) {
cell_redraw(csr_x,csr_y);
csr_x = x;
csr_y = y;
draw_cursor();
}
int term_get_csr_x() {
return csr_x;
}
int term_get_csr_y() {
return csr_y;
}
void term_set_csr_show(int on) {
cursor_on = on;
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if (on) {
draw_cursor();
}
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}
void term_set_colors(uint32_t fg, uint32_t bg) {
current_fg = fg;
current_bg = bg;
}
void term_redraw_cursor() {
if (term_buffer) {
draw_cursor();
}
}
void flip_cursor() {
if (cursor_flipped) {
cell_redraw(csr_x, csr_y);
} else {
render_cursor();
}
cursor_flipped = 1 - cursor_flipped;
}
void term_set_cell(int x, int y, uint32_t c) {
cell_set(x, y, c, current_fg, current_bg, ansi_state->flags);
cell_redraw(x, y);
}
void term_redraw_cell(int x, int y) {
if (x < 0 || y < 0 || x >= term_width || y >= term_height) return;
cell_redraw(x,y);
}
void term_clear(int i) {
if (i == 2) {
/* Oh dear */
csr_x = 0;
csr_y = 0;
memset((void *)term_buffer, 0x00, term_width * term_height * sizeof(term_cell_t));
term_redraw_all();
} else if (i == 0) {
for (int x = csr_x; x < term_width; ++x) {
term_set_cell(x, csr_y, ' ');
}
for (int y = csr_y + 1; y < term_height; ++y) {
for (int x = 0; x < term_width; ++x) {
term_set_cell(x, y, ' ');
}
}
} else if (i == 1) {
for (int y = 0; y < csr_y; ++y) {
for (int x = 0; x < term_width; ++x) {
term_set_cell(x, y, ' ');
}
}
for (int x = 0; x < csr_x; ++x) {
term_set_cell(x, csr_y, ' ');
}
}
}
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pid_t child_pid = 0;
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void key_event(int ret, key_event_t * event) {
if (ret) {
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/* Special keys */
if ((event->modifiers & KEY_MOD_LEFT_SHIFT || event->modifiers & KEY_MOD_RIGHT_SHIFT) &&
(event->modifiers & KEY_MOD_LEFT_CTRL || event->modifiers & KEY_MOD_RIGHT_CTRL) &&
(event->keycode == 'c')) {
if (selection) {
/* Copy selection */
copy_selection();
}
return;
}
if ((event->modifiers & KEY_MOD_LEFT_SHIFT || event->modifiers & KEY_MOD_RIGHT_SHIFT) &&
(event->modifiers & KEY_MOD_LEFT_CTRL || event->modifiers & KEY_MOD_RIGHT_CTRL) &&
(event->keycode == 'v')) {
/* Paste selection */
if (selection_text) {
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if (ansi_state->paste_mode) {
handle_input_s("\033[200~");
handle_input_s(selection_text);
handle_input_s("\033[201~");
} else {
handle_input_s(selection_text);
}
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}
return;
}
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if (event->modifiers & KEY_MOD_LEFT_ALT || event->modifiers & KEY_MOD_RIGHT_ALT) {
handle_input('\033');
}
if ((event->modifiers & KEY_MOD_LEFT_SHIFT || event->modifiers & KEY_MOD_RIGHT_SHIFT) &&
event->key == '\t') {
handle_input_s("\033[Z");
return;
}
/* ENTER = reads as linefeed, should be carriage return */
if (event->keycode == 10) {
handle_input('\r');
return;
}
/* BACKSPACE = reads as ^H, should be ^? */
if (event->keycode == 8) {
handle_input(0x7F);
return;
}
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handle_input(event->key);
} else {
if (event->action == KEY_ACTION_UP) return;
switch (event->keycode) {
case KEY_F1:
handle_input_s("\033OP");
break;
case KEY_F2:
handle_input_s("\033OQ");
break;
case KEY_F3:
handle_input_s("\033OR");
break;
case KEY_F4:
handle_input_s("\033OS");
break;
case KEY_F5:
handle_input_s("\033[15~");
break;
case KEY_F6:
handle_input_s("\033[17~");
break;
case KEY_F7:
handle_input_s("\033[18~");
break;
case KEY_F8:
handle_input_s("\033[19~");
break;
case KEY_F9:
handle_input_s("\033[20~");
break;
case KEY_F10:
handle_input_s("\033[21~");
break;
case KEY_F11:
handle_input_s("\033[23~");
break;
case KEY_F12:
handle_input_s("\033[24~");
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break;
case KEY_ARROW_UP:
if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[6A");
} else if (event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[5A");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[4A");
} else if (event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[3A");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT) {
handle_input_s("\033[2A");
} else {
handle_input_s("\033[A");
}
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break;
case KEY_ARROW_DOWN:
if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[6B");
} else if (event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[5B");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[4B");
} else if (event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[3B");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT) {
handle_input_s("\033[2B");
} else {
handle_input_s("\033[B");
}
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break;
case KEY_ARROW_RIGHT:
if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[6C");
} else if (event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[5C");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[4C");
} else if (event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[3C");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT) {
handle_input_s("\033[2C");
} else {
handle_input_s("\033[C");
}
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break;
case KEY_ARROW_LEFT:
if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[6D");
} else if (event->modifiers & KEY_MOD_LEFT_CTRL) {
handle_input_s("\033[5D");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT && event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[4D");
} else if (event->modifiers & KEY_MOD_LEFT_ALT) {
handle_input_s("\033[3D");
} else if (event->modifiers & KEY_MOD_LEFT_SHIFT) {
handle_input_s("\033[2D");
} else {
handle_input_s("\033[D");
}
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break;
case KEY_PAGE_UP:
handle_input_s("\033[5~");
break;
case KEY_PAGE_DOWN:
handle_input_s("\033[6~");
break;
case KEY_HOME:
handle_input_s("\033[H");
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break;
case KEY_END:
handle_input_s("\033[F");
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break;
case KEY_DEL:
handle_input_s("\033[3~");
break;
}
}
}
void usage(char * argv[]) {
printf(
"VGA Terminal Emulator\n"
"\n"
"usage: %s [-b] [-F] [-h]\n"
"\n"
" -h --help \033[3mShow this help message.\033[0m\n"
"\n",
argv[0]);
}
int unsupported_int(void) { return 0; }
void unsupported(int x, int y, char * data) { }
#define SWAP(T,a,b) do { T _a = a; a = b; b = _a; } while(0);
static void term_switch_buffer(int buffer) {
if (buffer != 0 && buffer != 1) return;
if (buffer != active_buffer) {
active_buffer = buffer;
term_buffer = active_buffer == 0 ? term_buffer_a : term_buffer_b;
SWAP(int, csr_x, _orig_x);
SWAP(int, csr_y, _orig_y);
SWAP(uint32_t, current_fg, _orig_fg);
SWAP(uint32_t, current_bg, _orig_bg);
term_redraw_all();
}
}
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term_callbacks_t term_callbacks = {
term_write,
term_set_colors,
term_set_csr,
term_get_csr_x,
term_get_csr_y,
term_set_cell,
term_clear,
term_scroll,
term_redraw_cursor,
handle_input_s,
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set_title,
unsupported,
unsupported_int,
unsupported_int,
term_set_csr_show,
term_switch_buffer,
insert_delete_lines,
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};
void reinit(void) {
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if (term_buffer) {
/* Do nothing */
} else {
term_buffer_a = malloc(sizeof(term_cell_t) * term_width * term_height);
memset(term_buffer_a, 0x0, sizeof(term_cell_t) * term_width * term_height);
term_buffer_b = malloc(sizeof(term_cell_t) * term_width * term_height);
memset(term_buffer_b, 0x0, sizeof(term_cell_t) * term_width * term_height);
term_buffer = term_buffer_a;
mirrorcopy = malloc(sizeof(unsigned short) * term_width * term_height);
memset(mirrorcopy, 0, sizeof(unsigned short) * term_width * term_height);
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}
ansi_state = ansi_init(ansi_state, term_width, term_height, &term_callbacks);
term_redraw_all();
}
void maybe_flip_cursor(void) {
uint64_t ticks = get_ticks();
if (ticks > mouse_ticks + 600000LL) {
mouse_ticks = ticks;
flip_cursor();
}
}
void check_for_exit(void) {
if (exit_application) return;
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pid_t pid = waitpid(-1, NULL, WNOHANG);
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if (pid != child_pid) return;
/* Clean up */
exit_application = 1;
/* Exit */
char exit_message[] = "[Process terminated]\n";
write(fd_slave, exit_message, sizeof(exit_message));
close(input_buffer_semaphore[1]);
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}
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static int mouse_x = 0;
static int mouse_y = 0;
static int last_mouse_buttons = 0;
static int mouse_is_dragging = 0;
#define MOUSE_X_R 820
#define MOUSE_Y_R 2621
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static int old_x = 0;
static int old_y = 0;
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static void mouse_event(int button, int x, int y) {
if (ansi_state->mouse_on & TERMEMU_MOUSE_SGR) {
char buf[100];
sprintf(buf,"\033[<%d;%d;%d%c", button == 3 ? 0 : button, x+1, y+1, button == 3 ? 'm' : 'M');
handle_input_s(buf);
} else {
char buf[7];
sprintf(buf, "\033[M%c%c%c", button + 32, x + 33, y + 33);
handle_input_s(buf);
}
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}
static void redraw_mouse(void) {
cell_redraw(old_x, old_y);
cell_redraw_inverted(mouse_x, mouse_y);
old_x = mouse_x;
old_y = mouse_y;
}
static unsigned int button_state = 0;
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void handle_mouse_event(mouse_device_packet_t * packet) {
if (ansi_state->mouse_on & TERMEMU_MOUSE_ENABLE) {
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/* TODO: Handle shift */
if (packet->buttons & MOUSE_SCROLL_UP) {
mouse_event(32+32, mouse_x, mouse_y);
} else if (packet->buttons & MOUSE_SCROLL_DOWN) {
mouse_event(32+32+1, mouse_x, mouse_y);
}
if (packet->buttons != button_state) {
if (packet->buttons & LEFT_CLICK && !(button_state & LEFT_CLICK)) mouse_event(0, mouse_x, mouse_y);
if (packet->buttons & MIDDLE_CLICK && !(button_state & MIDDLE_CLICK)) mouse_event(1, mouse_x, mouse_y);
if (packet->buttons & RIGHT_CLICK && !(button_state & MIDDLE_CLICK)) mouse_event(2, mouse_x, mouse_y);
if (!(packet->buttons & LEFT_CLICK) && (button_state & LEFT_CLICK)) mouse_event(3, mouse_x, mouse_y);
if (!(packet->buttons & MIDDLE_CLICK) && (button_state & MIDDLE_CLICK)) mouse_event(3, mouse_x, mouse_y);
if (!(packet->buttons & RIGHT_CLICK) && (button_state & MIDDLE_CLICK)) mouse_event(3, mouse_x, mouse_y);
button_state = packet->buttons;
} else if (ansi_state->mouse_on & TERMEMU_MOUSE_DRAG) {
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if (old_x != mouse_x || old_y != mouse_y) {
if (button_state & LEFT_CLICK) mouse_event(32, mouse_x, mouse_y);
if (button_state & MIDDLE_CLICK) mouse_event(33, mouse_x, mouse_y);
if (button_state & RIGHT_CLICK) mouse_event(34, mouse_x, mouse_y);
}
}
redraw_mouse();
return;
}
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if (mouse_is_dragging) {
if (packet->buttons & LEFT_CLICK) {
int old_end_x = selection_end_x;
int old_end_y = selection_end_y;
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selection_end_x = mouse_x;
selection_end_y = mouse_y;
redraw_new_selection(old_end_x, old_end_y);
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} else {
mouse_is_dragging = 0;
}
} else {
if (packet->buttons & LEFT_CLICK) {
term_redraw_all();
selection_start_x = mouse_x;
selection_start_y = mouse_y;
selection_end_x = mouse_x;
selection_end_y = mouse_y;
selection = 1;
redraw_selection();
mouse_is_dragging = 1;
} else {
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redraw_mouse();
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}
}
}
static int rel_mouse_x = 0;
static int rel_mouse_y = 0;
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void handle_mouse(mouse_device_packet_t * packet) {
rel_mouse_x += packet->x_difference;
rel_mouse_y -= packet->y_difference;
mouse_x = rel_mouse_x / 20;
mouse_y = rel_mouse_y / 40;
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if (mouse_x < 0) mouse_x = 0;
if (mouse_y < 0) mouse_y = 0;
if (mouse_x >= term_width) mouse_x = term_width - 1;
if (mouse_y >= term_height) mouse_y = term_height - 1;
handle_mouse_event(packet);
}
void handle_mouse_abs(mouse_device_packet_t * packet) {
mouse_x = packet->x_difference / MOUSE_X_R;
mouse_y = packet->y_difference / MOUSE_Y_R;
rel_mouse_x = mouse_x * 20;
rel_mouse_y = mouse_y * 40;
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handle_mouse_event(packet);
}
static int input_stopped = 0;
void sig_suspend_input(int sig) {
(void)sig;
char exit_message[] = "[Input stopped]\n";
write(fd_slave, exit_message, sizeof(exit_message));
input_stopped = 1;
signal(SIGUSR2, sig_suspend_input);
}
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int main(int argc, char ** argv) {
_login_shell = 0;
static struct option long_opts[] = {
{"login", no_argument, 0, 'l'},
{"help", no_argument, 0, 'h'},
{0,0,0,0}
};
/* Read some arguments */
int index, c;
while ((c = getopt_long(argc, argv, "hl", long_opts, &index)) != -1) {
switch (c) {
case 'l':
_login_shell = 1;
break;
case 'h':
usage(argv);
return 0;
break;
case '?':
break;
default:
break;
}
}
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putenv("TERM=toaru-vga");
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openpty(&fd_master, &fd_slave, NULL, NULL, NULL);
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terminal = fdopen(fd_slave, "w");
struct winsize w;
w.ws_row = term_height;
w.ws_col = term_width;
w.ws_xpixel = 0;
w.ws_ypixel = 0;
ioctl(fd_master, TIOCSWINSZ, &w);
reinit();
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pthread_t input_buffer_thread;
pipe(input_buffer_semaphore);
input_buffer_queue = list_create();
pthread_create(&input_buffer_thread, NULL, handle_input_writing, NULL);
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fflush(stdin);
system("cursor-off"); /* Might GPF */
signal(SIGUSR2, sig_suspend_input);
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int pid = getpid();
uint32_t f = fork();
if (getpid() != pid) {
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setsid();
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dup2(fd_slave, 0);
dup2(fd_slave, 1);
dup2(fd_slave, 2);
if (argv[optind] != NULL) {
char * tokens[] = {argv[optind], NULL};
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execvp(tokens[0], tokens);
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fprintf(stderr, "Failed to launch requested startup application.\n");
} else {
if (_login_shell) {
char * tokens[] = {"/bin/login-loop",NULL};
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execvp(tokens[0], tokens);
exit(1);
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} else {
char * shell = getenv("SHELL");
if (!shell) shell = "/bin/sh"; /* fallback */
char * tokens[] = {shell,NULL};
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execvp(tokens[0], tokens);
exit(1);
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}
}
exit_application = 1;
return 1;
} else {
child_pid = f;
int kfd = open("/dev/kbd", O_RDONLY);
key_event_t event;
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int vmmouse = 0;
mouse_device_packet_t packet;
int mfd = open("/dev/mouse", O_RDONLY);
int amfd = open("/dev/absmouse", O_RDONLY);
if (amfd == -1) {
amfd = open("/dev/vmmouse", O_RDONLY);
vmmouse = 1;
}
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key_event_state_t kbd_state = {0};
/* Prune any keyboard input we got before the terminal started. */
struct stat s;
fstat(kfd, &s);
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for (int i = 0; i < s.st_size; i++) {
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char tmp[1];
read(kfd, tmp, 1);
}
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int fds[] = {fd_master, kfd, mfd, amfd};
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#define BUF_SIZE 4096
unsigned char buf[4096];
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while (!exit_application) {
int res[] = {0,0,0,0};
fswait3(amfd == -1 ? 3 : 4,fds,200,res);
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check_for_exit();
if (input_stopped) continue;
maybe_flip_cursor();
if (res[0]) {
int r = read(fd_master, buf, BUF_SIZE);
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for (int i = 0; i < r; ++i) {
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ansi_put(ansi_state, buf[i]);
}
}
if (res[1]) {
int r = read(kfd, buf, BUF_SIZE);
for (int i = 0; i < r; ++i) {
int ret = kbd_scancode(&kbd_state, buf[i], &event);
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key_event(ret, &event);
}
}
if (res[2]) {
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/* mouse event */
int r = read(mfd, (char *)&packet, sizeof(mouse_device_packet_t));
if (r > 0) {
last_mouse_buttons = packet.buttons;
handle_mouse(&packet);
}
}
if (amfd != -1 && res[3]) {
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int r = read(amfd, (char *)&packet, sizeof(mouse_device_packet_t));
if (r > 0) {
if (!vmmouse) {
packet.buttons = last_mouse_buttons & 0xF;
} else {
last_mouse_buttons = packet.buttons;
}
handle_mouse_abs(&packet);
}
}
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}
}
close(input_buffer_semaphore[1]);
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return 0;
}