#include "links.h" int hard_write(int fd, unsigned char *p, int l) { int w = 1; int t = 0; while (l > 0 && w) { if ((w = write(fd, p, l)) < 0) { if (errno == EINTR) continue; return -1; } t += w; p += w; l -= w; } return t; } int hard_read(int fd, unsigned char *p, int l) { int r = 1; int t = 0; while (l > 0 && r) { if ((r = read(fd, p, l)) < 0) { if (errno == EINTR) continue; return -1; } /*{int ww;for(ww=0;wwscreen, x * y * sizeof(unsigned)))) { if ((t = mem_realloc(term->last_screen, x * y * sizeof(unsigned)))) { memset(t, -1, x * y * sizeof(unsigned)); term->x = x; term->y = y; term->last_screen = t; memset(s, 0, x * y * sizeof(unsigned)); term->screen = s; term->dirty = 1; } } } void in_term(struct terminal *); void destroy_terminal(struct terminal *); void check_if_no_terminal(); void clear_terminal(struct terminal *term) { fill_area(term, 0, 0, term->x, term->y, ' '); set_cursor(term, 0, 0, 0, 0); } void redraw_terminal_ev(struct terminal *term, int e) { struct window *win; struct event ev = {0, 0, 0, 0}; ev.ev = e; ev.x = term->x; ev.y = term->y; clear_terminal(term); term->redrawing = 2; foreachback(win, term->windows) win->handler(win, &ev, 0); term->redrawing = 0; } void redraw_terminal(struct terminal *term) { redraw_terminal_ev(term, EV_REDRAW); } void redraw_terminal_all(struct terminal *term) { redraw_terminal_ev(term, EV_RESIZE); } void erase_screen(struct terminal *term) { if (!term->master || !is_blocked()) { if (term->master) want_draw(); hard_write(term->fdout, "\033[2J\033[1;1H", 10); if (term->master) done_draw(); } } void redraw_terminal_cls(struct terminal *term) { erase_screen(term); alloc_term_screen(term, term->x, term->y); redraw_terminal_all(term); } void cls_redraw_all_terminals() { struct terminal *term; foreach(term, terminals) redraw_terminal_cls(term); } void redraw_from_window(struct window *win) { struct terminal *term = win->term; struct window *end = (void *)&term->windows; struct event ev = {EV_REDRAW, 0, 0, 0}; ev.x = term->x; ev.y = term->y; if (term->redrawing) return; term->redrawing = 1; for (win = win->prev; win != end; win = win->prev) { win->handler(win, &ev, 0); } term->redrawing = 0; } void redraw_below_window(struct window *win) { int tr; struct terminal *term = win->term; struct window *end = win; struct event ev = {EV_REDRAW, 0, 0, 0}; ev.x = term->x; ev.y = term->y; if (term->redrawing >= 2) return; tr = term->redrawing; win->term->redrawing = 2; for (win = term->windows.prev; win != end; win = win->prev) { win->handler(win, &ev, 0); } term->redrawing = tr; } void add_window_at_pos(struct terminal *term, void (*handler)(struct window *, struct event *, int), void *data, struct window *at) { struct event ev = {EV_INIT, 0, 0, 0}; struct window *win; ev.x = term->x; ev.y = term->y; if (!(win = mem_alloc(sizeof (struct window)))) { mem_free(data); return; } win->handler = handler; win->data = data; win->term = term; win->xp = win->yp = 0; add_at_pos(at, win); win->handler(win, &ev, 0); } void add_window(struct terminal *term, void (*handler)(struct window *, struct event *, int), void *data) { add_window_at_pos(term, handler, data, (struct window *)&term->windows); } void delete_window(struct window *win) { struct event ev = {EV_ABORT, 0, 0, 0}; win->handler(win, &ev, 1); del_from_list(win); if (win->data) mem_free(win->data); redraw_terminal(win->term); mem_free(win); } void delete_window_ev(struct window *win, struct event *ev) { struct window *w = win->next; if ((void *)w == &win->term->windows) w = NULL; delete_window(win); if (ev && w && w->next != w) w->handler(w, ev, 1); } void set_window_ptr(struct window *win, int x, int y) { win->xp = x; win->yp = y; } void get_parent_ptr(struct window *win, int *x, int *y) { if ((void *)win->next != &win->term->windows) { *x = win->next->xp; *y = win->next->yp; } else { *x = *y = 0; } } struct window *get_root_window(struct terminal *term) { if (list_empty(term->windows)) { internal("terminal has no windows"); return NULL; } return (struct window *)term->windows.prev; } struct ewd { void (*fn)(void *); void *data; int b; }; void empty_window_handler(struct window *win, struct event *ev, int fwd) { struct window *n; struct ewd *ewd = win->data; int x, y; void (*fn)(void *) = ewd->fn; void *data = ewd->data; if (ewd->b) return; switch (ev->ev) { case EV_INIT: case EV_RESIZE: case EV_REDRAW: get_parent_ptr(win, &x, &y); set_window_ptr(win, x, y); return; case EV_ABORT: fn(data); return; } ewd->b = 1; n = win->next; delete_window(win); fn(data); if (n->next != n) n->handler(n, ev, fwd); } void add_empty_window(struct terminal *term, void (*fn)(void *), void *data) { struct ewd *ewd; if (!(ewd = mem_alloc(sizeof(struct ewd)))) return; ewd->fn = fn; ewd->data = data; ewd->b = 0; add_window(term, empty_window_handler, ewd); } void free_term_specs() { free_list(term_specs); } struct list_head term_specs = {&term_specs, &term_specs}; struct term_spec dumb_term = { NULL, NULL, "", 0, 0, 0, 0, 0 }; struct term_spec *get_term_spec(unsigned char *term) { struct term_spec *t; foreach(t, term_specs) if (!strcasecmp(t->term, term)) return t; return &dumb_term; } struct term_spec *new_term_spec(unsigned char *term) { struct term_spec *t; foreach(t, term_specs) if (!strcasecmp(t->term, term)) return t; if (!(t = mem_alloc(sizeof(struct term_spec)))) return NULL; memcpy(t, &dumb_term, sizeof(struct term_spec)); if (strlen(term) < MAX_TERM_LEN) strcpy(t->term, term); else memcpy(t->term, term, MAX_TERM_LEN - 1), t->term[MAX_TERM_LEN - 1] = 0; add_to_list(term_specs, t); sync_term_specs(); return t; } void sync_term_specs() { struct terminal *term; foreach (term, terminals) term->spec = get_term_spec(term->term); } struct terminal *init_term(int fdin, int fdout, void (*root_window)(struct window *, struct event *, int)) { struct terminal *term; struct window *win; if (!(term = mem_alloc(sizeof (struct terminal)))) { check_if_no_terminal(); return NULL; } memset(term, 0, sizeof(struct terminal)); term->fdin = fdin; term->fdout = fdout; term->master = term->fdout == get_output_handle(); /*term->x = 0; term->y = 0; term->cx = 0; term->cy = 0;*/ term->lcx = -1; term->lcy = -1; term->dirty = 1; term->redrawing = 0; term->blocked = -1; term->screen = DUMMY; term->last_screen = DUMMY; term->spec = &dumb_term; term->term[0] = 0; term->cwd[0] = 0; term->input_queue = DUMMY; term->qlen = 0; init_list(term->windows); if (!(win = mem_alloc(sizeof (struct window)))) { mem_free(term); check_if_no_terminal(); return NULL; } win->handler = root_window; win->data = NULL; win->term = term; add_to_list(term->windows, win); /*alloc_term_screen(term, 80, 25);*/ add_to_list(terminals, term); set_handlers(fdin, (void (*)(void *))in_term, NULL, (void (*)(void *))destroy_terminal, term); return term; } void in_term(struct terminal *term) { struct event *ev; int r; unsigned char *iq; if (!(iq = mem_realloc(term->input_queue, term->qlen + ALLOC_GR))) { destroy_terminal(term); return; } term->input_queue = iq; if ((r = read(term->fdin, iq + term->qlen, ALLOC_GR)) <= 0) { if (r == -1 && errno != ECONNRESET) error("ERROR: error %d on terminal: could not read event", errno); destroy_terminal(term); return; } term->qlen += r; test_queue: if (term->qlen < sizeof(struct event)) return; ev = (struct event *)iq; r = sizeof(struct event); if (ev->ev != EV_INIT && ev->ev != EV_RESIZE && ev->ev != EV_REDRAW && ev->ev != EV_KBD && ev->ev != EV_MOUSE && ev->ev != EV_ABORT) { error("ERROR: error on terminal: bad event %d", ev->ev); goto mm; } if (ev->ev == EV_INIT) { int init_len; if (term->qlen < sizeof(struct event) + MAX_TERM_LEN + MAX_CWD_LEN + 2 * sizeof(int)) return; init_len = *(int *)(iq + sizeof(struct event) + MAX_TERM_LEN + MAX_CWD_LEN + sizeof(int)); if (term->qlen < sizeof(struct event) + MAX_TERM_LEN + MAX_CWD_LEN + 2 * sizeof(int) + init_len) return; memcpy(term->term, iq + sizeof(struct event), MAX_TERM_LEN); term->term[MAX_TERM_LEN - 1] = 0; memcpy(term->cwd, iq + sizeof(struct event) + MAX_TERM_LEN, MAX_CWD_LEN); term->cwd[MAX_CWD_LEN - 1] = 0; term->environment = *(int *)(iq + sizeof(struct event) + MAX_TERM_LEN + MAX_CWD_LEN); ev->b = (long)(iq + sizeof(struct event) + MAX_TERM_LEN + MAX_CWD_LEN + sizeof(int)); r = sizeof(struct event) + MAX_TERM_LEN + MAX_CWD_LEN + 2 * sizeof(int) + init_len; sync_term_specs(); } if (ev->ev == EV_REDRAW || ev->ev == EV_RESIZE || ev->ev == EV_INIT) { struct window *win; send_redraw: if (ev->x < 0 || ev->y < 0) { error("ERROR: bad terminal size: %d, %d", (int)ev->x, (int)ev->y); goto mm; } alloc_term_screen(term, ev->x, ev->y); clear_terminal(term); erase_screen(term); term->redrawing = 1; foreachback(win, term->windows) win->handler(win, ev, 0); term->redrawing = 0; } if (ev->ev == EV_KBD || ev->ev == EV_MOUSE) { if (ev->ev == EV_KBD && upcase(ev->x) == 'L' && ev->y == KBD_CTRL) { ev->ev = EV_REDRAW; ev->x = term->x; ev->y = term->y; goto send_redraw; } else if (ev->ev == EV_KBD && ev->x == KBD_CTRL_C) ((struct window *)&term->windows)->prev->handler(term->windows.prev, ev, 0); else ((struct window *)&term->windows)->next->handler(term->windows.next, ev, 0); } if (ev->ev == EV_ABORT) destroy_terminal(term); /*redraw_screen(term);*/ mm: if (term->qlen == r) term->qlen = 0; else memmove(iq, iq + r, term->qlen -= r); goto test_queue; } inline int getcompcode(int c) { return (c<<1 | (c&4)>>2) & 7; } unsigned char frame_dumb[48] = " ||||++||++++++--|-+||++--|-+----++++++++ "; unsigned char frame_vt100[48] = "aaaxuuukkuxkjjjkmvwtqnttmlvwtqnvvwwmmllnnjla "; unsigned char frame_koi[48] = { 144,145,146,129,135,178,180,167, 166,181,161,168,174,173,172,131, 132,137,136,134,128,138,175,176, 171,165,187,184,177,160,190,185, 186,182,183,170,169,162,164,189, 188,133,130,141,140,142,143,139, }; unsigned char frame_restrict[48] = { 0, 0, 0, 0, 0, 179, 186, 186, 205, 0, 0, 0, 0, 186, 205, 0, 0, 0, 0, 0, 0, 0, 179, 186, 0, 0, 0, 0, 0, 0, 0, 205, 196, 205, 196, 186, 205, 205, 186, 186, 179, 0, 0, 0, 0, 0, 0, 0, }; #define PRINT_CHAR(p) \ { \ unsigned ch = term->screen[p]; \ unsigned char c = ch & 0xff; \ unsigned char A = ch >> 8 & 0x7f; \ if (s->mode == TERM_LINUX) { \ if (s->m11_hack) { \ if (ch >> 15 != mode) { \ if (!(mode = ch >> 15)) add_to_str(&a, &l, "\033[10m"); \ else add_to_str(&a, &l, "\033[11m"); \ } \ } \ if (s->restrict_852 && (ch >> 15) && c >= 176 && c < 224) { \ if (frame_restrict[c - 176]) c = frame_restrict[c - 176]; \ } \ } else if (s->mode == TERM_VT100) { \ if (ch >> 15 != mode) { \ if (!(mode = ch >> 15)) add_to_str(&a, &l, "\x0f"); \ else add_to_str(&a, &l, "\x0e"); \ } \ if (mode && c >= 176 && c < 224) c = frame_vt100[c - 176]; \ } else if (s->mode == TERM_KOI8 && (ch >> 15) && c >= 176 && c < 224) { c = frame_koi[c - 176];\ } else if (s->mode == TERM_DUMB && (ch >> 15) && c >= 176 && c < 224) c = frame_dumb[c - 176];\ if (!(A & 0100) && (A >> 3) == (A & 7)) A = (A & 070) | 7 * !(A & 020); \ if (A != attrib) { \ attrib = A; \ add_to_str(&a, &l, "\033[0"); \ if (s->col) { \ unsigned char m[4]; \ m[0] = ';'; m[1] = '3'; m[3] = 0; \ m[2] = (attrib & 7) + '0'; \ add_to_str(&a, &l, m); \ m[1] = '4'; \ m[2] = (attrib >> 3 & 7) + '0'; \ add_to_str(&a, &l, m); \ } else if (getcompcode(attrib & 7) < getcompcode(attrib >> 3 & 7)) \ add_to_str(&a, &l, ";7"); \ if (attrib & 0100) add_to_str(&a, &l, ";1"); \ add_to_str(&a, &l, "m"); \ } \ if (c >= ' ' && c != 127/* && c != 155*/) add_chr_to_str(&a, &l, c); \ else if (!c || c == 1) add_chr_to_str(&a, &l, ' '); \ else add_chr_to_str(&a, &l, '.'); \ cx++; \ } \ void redraw_all_terminals() { struct terminal *term; foreach(term, terminals) redraw_screen(term); } void redraw_screen(struct terminal *term) { int x, y, p = 0; int cx = -1, cy = -1; unsigned char *a; int attrib = -1; int mode = -1; int l = 0; struct term_spec *s; if (!term->dirty || (term->master && is_blocked())) return; if (!(a = init_str())) return; s = term->spec; for (y = 0; y < term->y; y++) for (x = 0; x < term->x; x++, p++) { if (y == term->y - 1 && x == term->x - 1) break; if (term->screen[p] == term->last_screen[p]) continue; if ((term->screen[p] & 0x3800) == (term->last_screen[p] & 0x3800) && ((term->screen[p] & 0xff) == 0 || (term->screen[p] & 0xff) == 1 || (term->screen[p] & 0xff) == ' ') && ((term->last_screen[p] & 0xff) == 0 || (term->last_screen[p] & 0xff) == 1 || (term->last_screen[p] & 0xff) == ' ')) continue; if (cx == x && cy == y) goto pc;/*PRINT_CHAR(p)*/ else if (cy == y && x - cx < 10) { int i; for (i = x - cx; i >= 0; i--) PRINT_CHAR(p - i); } else { add_to_str(&a, &l, "\033["); add_num_to_str(&a, &l, y + 1); add_to_str(&a, &l, ";"); add_num_to_str(&a, &l, x + 1); add_to_str(&a, &l, "H"); cx = x; cy = y; pc: PRINT_CHAR(p); } } if (l) { add_to_str(&a, &l, "\033[0m"); if (s->mode == TERM_LINUX && s->m11_hack) add_to_str(&a, &l, "\033[10m"); if (s->mode == TERM_VT100) add_to_str(&a, &l, "\x0f"); } if (l || term->cx != term->lcx || term->cy != term->lcy) { term->lcx = term->cx; term->lcy = term->cy; add_to_str(&a, &l, "\033["); add_num_to_str(&a, &l, term->cy + 1); add_to_str(&a, &l, ";"); add_num_to_str(&a, &l, term->cx + 1); add_to_str(&a, &l, "H"); } if (l && term->master) want_draw(); hard_write(term->fdout, a, l); if (l && term->master) done_draw(); mem_free(a); memcpy(term->last_screen, term->screen, term->x * term->y * sizeof(int)); term->dirty = 0; } void destroy_terminal(struct terminal *term) { while ((term->windows.next) != &term->windows) delete_window(term->windows.next); /*if (term->cwd) mem_free(term->cwd);*/ if (term->title) mem_free(term->title); mem_free(term->screen); mem_free(term->last_screen); set_handlers(term->fdin, NULL, NULL, NULL, NULL); mem_free(term->input_queue); if (term->blocked != -1) { close(term->blocked); set_handlers(term->blocked, NULL, NULL, NULL, NULL); } del_from_list(term); close(term->fdin); if (term->fdout != 1) { if (term->fdout != term->fdin) close(term->fdout); } else { unhandle_terminal_signals(term); free_all_itrms(); #ifndef NO_FORK_ON_EXIT if (!list_empty(terminals)) { if (fork()) exit(0); } #endif } mem_free(term); check_if_no_terminal(); } void destroy_all_terminals() { struct terminal *term; while ((void *)(term = terminals.next) != &terminals) destroy_terminal(term); } void check_if_no_terminal() { if (!list_empty(terminals)) return; terminate = 1; } void set_char(struct terminal *t, int x, int y, unsigned c) { t->dirty = 1; if (x >= 0 && x < t->x && y >= 0 && y < t->y) t->screen[x + t->x * y] = c; } unsigned get_char(struct terminal *t, int x, int y) { if (x >= t->x) x = t->x - 1; if (x < 0) x = 0; if (y >= t->y) y = t->y - 1; if (y < 0) y = 0; return t->screen[x + t->x * y]; } void set_color(struct terminal *t, int x, int y, unsigned c) { t->dirty = 1; if (x >= 0 && x < t->x && y >= 0 && y < t->y) t->screen[x + t->x * y] = (t->screen[x + t->x * y] & 0x80ff) | (c & ~0x80ff); } void set_only_char(struct terminal *t, int x, int y, unsigned c) { t->dirty = 1; if (x >= 0 && x < t->x && y >= 0 && y < t->y) t->screen[x + t->x * y] = (t->screen[x + t->x * y] & ~0x80ff) | (c & 0x80ff); } void set_line(struct terminal *t, int x, int y, int l, chr *line) { int i; t->dirty = 1; for (i = x >= 0 ? 0 : -x; i < (x+l <= t->x ? l : t->x-x); i++) t->screen[x+i + t->x * y] = line[i]; } void set_line_color(struct terminal *t, int x, int y, int l, unsigned c) { int i; t->dirty = 1; for (i = x >= 0 ? 0 : -x; i < (x+l <= t->x ? l : t->x-x); i++) t->screen[x+i + t->x * y] = (t->screen[x+i + t->x * y] & 0x80ff) | (c & ~0x80ff); } void fill_area(struct terminal *t, int x, int y, int xw, int yw, unsigned c) { int i,j; t->dirty = 1; for (j = y >= 0 ? 0 : -y; j < yw && y+j < t->y; j++) for (i = x >= 0 ? 0 : -x; i < xw && x+i < t->x; i++) t->screen[x+i + t->x*(y+j)] = c; } int p1[] = { 218, 191, 192, 217, 179, 196 }; int p2[] = { 201, 187, 200, 188, 186, 205 }; void draw_frame(struct terminal *t, int x, int y, int xw, int yw, unsigned c, int w) { int *p = w > 1 ? p2 : p1; c |= ATTR_FRAME; set_char(t, x, y, c+p[0]); set_char(t, x+xw-1, y, c+p[1]); set_char(t, x, y+yw-1, c+p[2]); set_char(t, x+xw-1, y+yw-1, c+p[3]); fill_area(t, x, y+1, 1, yw-2, c+p[4]); fill_area(t, x+xw-1, y+1, 1, yw-2, c+p[4]); fill_area(t, x+1, y, xw-2, 1, c+p[5]); fill_area(t, x+1, y+yw-1, xw-2, 1, c+p[5]); } void print_text(struct terminal *t, int x, int y, int l, unsigned char *text, unsigned c) { for (; l-- && *text; text++, x++) set_char(t, x, y, *text + c); } void set_cursor(struct terminal *term, int x, int y, int altx, int alty) { term->dirty = 1; if (term->spec->block_cursor) x = altx, y = alty; if (x >= term->x) x = term->x - 1; if (y >= term->y) y = term->y - 1; if (x < 0) x = 0; if (y < 0) y = 0; term->cx = x; term->cy = y; } void exec_thread(unsigned char *path, int p) { #if defined(HAVE_SETPGID) && !defined(BEOS) && !defined(HAVE_BEGINTHREAD) if (path[0] == 2) setpgid(0, 0); #endif exe(path + 1); close(p); if (path[1 + strlen(path + 1) + 1]) unlink(path + 1 + strlen(path + 1) + 1); } void close_handle(void *p) { int h = (int)p; close(h); set_handlers(h, NULL, NULL, NULL, NULL); } void unblock_terminal(struct terminal *term) { close_handle((void *)term->blocked); term->blocked = -1; set_handlers(term->fdin, (void (*)(void *))in_term, NULL, (void (*)(void *))destroy_terminal, term); unblock_itrm(term->fdin); redraw_terminal_cls(term); } void exec_on_terminal(struct terminal *term, unsigned char *path, unsigned char *delete, int fg) { if (path && !*path) return; if (!path) path=""; #ifdef NO_FG_EXEC fg = 0; #endif if (term->master) { if (!*path) dispatch_special(delete); else { int blockh; unsigned char *param; if (is_blocked() && fg) { unlink(delete); return; } if (!(param = mem_alloc(strlen(path) + strlen(delete) + 3))) return; param[0] = fg; strcpy(param + 1, path); strcpy(param + 1 + strlen(path) + 1, delete); if (fg == 1) block_itrm(term->fdin); if ((blockh = start_thread((void (*)(void *, int))exec_thread, param, strlen(path) + strlen(delete) + 3)) == -1) { if (fg == 1) unblock_itrm(term->fdin); mem_free(param); return; } mem_free(param); if (fg == 1) { term->blocked = blockh; set_handlers(blockh, (void (*)(void *))unblock_terminal, NULL, (void (*)(void *))unblock_terminal, term); set_handlers(term->fdin, NULL, NULL, (void (*)(void *))destroy_terminal, term); /*block_itrm(term->fdin);*/ } else { set_handlers(blockh, close_handle, NULL, close_handle, (void *)blockh); } } } else { unsigned char *data; if ((data = mem_alloc(strlen(path) + strlen(delete) + 4))) { data[0] = 0; data[1] = fg; strcpy(data + 2, path); strcpy(data + 3 + strlen(path), delete); hard_write(term->fdout, data, strlen(path) + strlen(delete) + 4); mem_free(data); } /*char x = 0; hard_write(term->fdout, &x, 1); x = fg; hard_write(term->fdout, &x, 1); hard_write(term->fdout, path, strlen(path) + 1); hard_write(term->fdout, delete, strlen(delete) + 1);*/ } } void do_terminal_function(struct terminal *term, unsigned char code, unsigned char *data) { unsigned char *x_data; if (!(x_data = mem_alloc(strlen(data) + 2))) return; x_data[0] = code; strcpy(x_data + 1, data); exec_on_terminal(term, NULL, x_data, 0); mem_free(x_data); } void set_terminal_title(struct terminal *term, unsigned char *title) { if (term->title && !strcmp(title, term->title)) return; if (term->title) mem_free(term->title); term->title = stracpy(title); do_terminal_function(term, TERM_FN_TITLE, title); }