#ifdef __DJGPP #include "links.h" #include #include #include #include #include #include #include #define VIRTUAL_PIPE_SIZE 512 #define DOS_MOUSE_FLUSH_TIME 300 #undef read #undef write #undef pipe #undef close #undef select /* * Asynchronous exits from signal handler cause a crash if they interrupt * networking in a wrong place. So, we use synchronous exit. */ static volatile unsigned char break_pressed = 0; static volatile unsigned char break_exiting = 0; void dos_poll_break(void) { if (break_pressed && !break_exiting) { break_exiting = 1; fatal_exit("Exiting on Ctrl+Break"); } } static void sigbreak(int sig) { break_pressed = 1; } void get_terminal_size(int *x, int *y) { *x = ScreenCols(); *y = ScreenRows(); } void handle_terminal_resize(void (*fn)(int, int), int *x, int *y) { get_terminal_size(x, y); } void unhandle_terminal_resize(void) { } static size_t init_seq_len; static unsigned char screen_initialized = 0; static unsigned char *screen_backbuffer = NULL; static int screen_backbuffer_x; static int screen_backbuffer_y; static int saved_cursor_x; static int saved_cursor_y; static unsigned char screen_default_attr; static unsigned cursor_x; static unsigned cursor_y; static unsigned current_attr; static unsigned char dos_mouse_initialized = 0; static unsigned char dos_mouse_buttons; static int dos_mouse_last_x; static int dos_mouse_last_y; static int dos_mouse_last_button; static uttime dos_mouse_time; static struct links_event *dos_mouse_queue = DUMMY; static int dos_mouse_queue_n; static void (*txt_mouse_handler)(void *, unsigned char *, int) = NULL; static void *txt_mouse_data; static int dos_mouse_coord(int v) { if (!F) v /= 8; return v; } static void dos_mouse_show(void) { if (dos_mouse_initialized && !F) { __dpmi_regs r; memset(&r, 0, sizeof r); r.x.ax = 1; __dpmi_int(0x33, &r); } } static void dos_mouse_hide(void) { if (dos_mouse_initialized && !F) { __dpmi_regs r; memset(&r, 0, sizeof r); r.x.ax = 2; __dpmi_int(0x33, &r); } } static void dos_mouse_init(unsigned x, unsigned y) { __dpmi_regs r; memset(&r, 0, sizeof r); __dpmi_int(0x33, &r); if (r.x.ax != 0xffff) return; dos_mouse_buttons = r.x.bx == 3 ? 3 : 2; dos_mouse_initialized = 1; memset(&r, 0, sizeof r); r.x.ax = 7; r.x.cx = 0; r.x.dx = x - 1; __dpmi_int(0x33, &r); memset(&r, 0, sizeof r); r.x.ax = 8; r.x.cx = 0; r.x.dx = y - 1; __dpmi_int(0x33, &r); memset(&r, 0, sizeof r); r.x.ax = 3; __dpmi_int(0x33, &r); dos_mouse_last_x = dos_mouse_coord(r.x.cx); dos_mouse_last_y = dos_mouse_coord(r.x.dx); dos_mouse_last_button = r.x.bx; dos_mouse_time = get_time(); } void dos_mouse_terminate(void) { mem_free(dos_mouse_queue); dos_mouse_queue = DUMMY; dos_mouse_queue_n = 0; dos_mouse_hide(); } static void dos_mouse_enqueue(int x, int y, int b) { if (dos_mouse_queue_n && ((b & BM_ACT) == B_DRAG || (b & BM_ACT) == B_MOVE) && (b & BM_ACT) == (dos_mouse_queue[dos_mouse_queue_n - 1].b & BM_ACT)) { dos_mouse_queue_n--; goto set_last; } if ((unsigned)dos_mouse_queue_n > (unsigned)MAXINT / sizeof(struct links_event) - 1) overalloc(); dos_mouse_queue = mem_realloc(dos_mouse_queue, (dos_mouse_queue_n + 1) * sizeof(struct links_event)); set_last: dos_mouse_queue[dos_mouse_queue_n].ev = EV_MOUSE; dos_mouse_queue[dos_mouse_queue_n].x = x; dos_mouse_queue[dos_mouse_queue_n].y = y; dos_mouse_queue[dos_mouse_queue_n].b = b; dos_mouse_queue_n++; } static int dos_mouse_button(int b) { switch (b) { default: case 0: return B_LEFT; case 1: return B_RIGHT; case 2: return B_MIDDLE; } } static void dos_mouse_poll(void) { int i; int cx, cy; __dpmi_regs r; dos_poll_break(); if (dos_mouse_initialized) { if (dos_mouse_initialized == 1 && get_time() - dos_mouse_time > DOS_MOUSE_FLUSH_TIME) dos_mouse_initialized = 2; for (i = 0; i < dos_mouse_buttons; i++) { if (dos_mouse_initialized == 1 && i > 0) { memset(&r, 0, sizeof r); r.x.ax = 5; r.x.bx = i; __dpmi_int(0x33, &r); memset(&r, 0, sizeof r); r.x.ax = 6; r.x.bx = i; __dpmi_int(0x33, &r); continue; } memset(&r, 0, sizeof r); r.x.ax = !(dos_mouse_last_button & (1 << i)) ? 5 : 6; r.x.bx = i; __dpmi_int(0x33, &r); px: if (r.x.bx) { dos_mouse_last_x = dos_mouse_coord(r.x.cx); dos_mouse_last_y = dos_mouse_coord(r.x.dx); dos_mouse_last_button ^= 1 << i; dos_mouse_enqueue(dos_mouse_last_x, dos_mouse_last_y, dos_mouse_button(i) | (dos_mouse_last_button & (1 << i) ? B_DOWN : B_UP)); /*printf("%s %d %d\n", dos_mouse_last_button & (1 << i) ? "press" : "release", r.x.cx, r.x.dx);*/ if (!((dos_mouse_last_button ^ r.x.ax) & (1 << i))) { memset(&r, 0, sizeof r); r.x.ax = !(dos_mouse_last_button & (1 << i)) ? 5 : 6; r.x.bx = i; __dpmi_int(0x33, &r); if ((dos_mouse_last_button ^ r.x.ax) & (1 << i)) goto px; } } } memset(&r, 0, sizeof r); r.x.ax = 3; __dpmi_int(0x33, &r); cx = dos_mouse_coord(r.x.cx); cy = dos_mouse_coord(r.x.dx); if (cx != dos_mouse_last_x || cy != dos_mouse_last_y) { for (i = 0; i < dos_mouse_buttons; i++) if (dos_mouse_last_button & (1 << i)) { dos_mouse_enqueue(cx, cy, B_DRAG | dos_mouse_button(i)); goto x; } if (F) dos_mouse_enqueue(cx, cy, B_MOVE); x: dos_mouse_last_x = cx; dos_mouse_last_y = cy; } } #if defined(G) && defined(GRDRV_GRX) if (grx_mouse_initialized) { grx_mouse_poll(); } #endif } void *handle_mouse(int cons, void (*fn)(void *, unsigned char *, int), void *data) { int x, y; get_terminal_size(&x, &y); dos_mouse_init(x * 8, y * 8); if (!dos_mouse_initialized) return NULL; dos_mouse_show(); txt_mouse_handler = fn; txt_mouse_data = data; return DUMMY; } void unhandle_mouse(void *data) { dos_mouse_terminate(); txt_mouse_handler = NULL; } void want_draw(void) { dos_mouse_hide(); } void done_draw(void) { dos_mouse_show(); } static int dos_mouse_event(void) { if (dos_mouse_queue_n) { if (!F && txt_mouse_handler) { struct links_event *q = dos_mouse_queue; int ql = dos_mouse_queue_n; dos_mouse_queue = DUMMY; dos_mouse_queue_n = 0; txt_mouse_handler(txt_mouse_data, (unsigned char *)(void *)q, ql * sizeof(struct links_event)); mem_free(q); return 1; } } #if defined(G) && defined(GRDRV_GRX) if (grx_mouse_initialized) { return grx_mouse_event(); } #endif return 0; } void save_terminal(void) { unsigned char *sc; want_draw(); screen_backbuffer_x = ScreenCols(); screen_backbuffer_y = ScreenRows(); screen_default_attr = ScreenAttrib; if (screen_backbuffer) { sc = screen_backbuffer; screen_backbuffer = NULL; mem_free(sc); } sc = mem_alloc(2 * screen_backbuffer_x * screen_backbuffer_y); ScreenRetrieve(sc); ScreenGetCursor(&saved_cursor_y, &saved_cursor_x); screen_backbuffer = sc; done_draw(); } void restore_terminal(void) { want_draw(); if (screen_backbuffer) { unsigned char *sc; if (ScreenCols() == screen_backbuffer_x && ScreenRows() == screen_backbuffer_y) { ScreenUpdate(screen_backbuffer); ScreenSetCursor(saved_cursor_y, saved_cursor_x); } sc = screen_backbuffer; screen_backbuffer = NULL; mem_free(sc); } done_draw(); } static void ansi_initialize(void) { if (screen_initialized) return; ScreenClear(); cursor_x = 0; cursor_y = 0; current_attr = screen_default_attr; screen_initialized = 1; } static void ansi_terminate(void) { if (!screen_initialized) return; ScreenSetCursor(0, 0); screen_initialized = 0; } static unsigned ansi2pc(unsigned c) { return ((c & 4) >> 2) | (c & 2) | ((c & 1) << 2); } static void ansi_write(const unsigned char *str, size_t size) { if (!screen_initialized) { if (size >= init_seq_len && !memcmp(str, init_seq, init_seq_len)) { ansi_initialize(); goto process_ansi; } write(1, str, size); return; } process_ansi: while (size--) { unsigned char c = *str++; unsigned char buffer[128]; unsigned buf_size; unsigned clen; unsigned x, y; switch (c) { case 7: continue; case 10: cursor_y++; /*-fallthrough*/ case 13: cursor_x = 0; break; case 27: if (!size--) goto ret; switch (*str++) { case ')': if (!size--) goto ret; str++; continue; case '7': default: continue; case '8': ansi_terminate(); goto ret2; case '[': clen = 0; while (1) { unsigned char u; if (clen >= size) goto ret; u = upcase(str[clen]); if (u >= 'A' && u <= 'Z') break; clen++; } } if (clen >= sizeof(buffer)) goto ret; memcpy(buffer, str, clen); buffer[clen] = 0; switch (str[clen]) { case 'J': if (!strcmp(cast_const_char buffer, "2")) ScreenClear(); break; case 'H': if (sscanf(cast_const_char buffer, "%u;%u", &y, &x) == 2) { cursor_x = x - 1; cursor_y = y - 1; } break; case 'm': while (buffer[0] >= '0' && buffer[0] < '9') { unsigned long a; char *e; a = strtoul(cast_const_char buffer, &e, 10); if (*e == ';') e++; memmove(buffer, e, strlen(cast_const_char e) + 1); switch (a) { case 0: current_attr = screen_default_attr; break; case 1: current_attr |= 0x08; break; case 7: current_attr = ((screen_default_attr & 0x70) >> 4) | ((screen_default_attr & 0x07) << 4); break; case 30: case 31: case 32: case 33: case 34: case 35: case 36: case 37: current_attr = (current_attr & 0x78) | ansi2pc(a - 30); break; case 40: case 41: case 42: case 43: case 44: case 45: case 46: case 47: current_attr = (current_attr & 0x0f) | (ansi2pc(a - 40) << 4); break; } } break; } str += clen + 1; size -= clen + 1; continue; default: buffer[0] = c; buf_size = 1; while (size && *str >= ' ' && buf_size < sizeof(buffer) - 1) { buffer[buf_size++] = *str++; size--; } buffer[buf_size] = 0; ScreenPutString(cast_const_char buffer, current_attr, cursor_x, cursor_y); cursor_x += buf_size; break; } } ret: ScreenSetCursor(cursor_y, cursor_x); ret2:; } #ifdef DOS_EXTRA_KEYBOARD static short dos_buffered_char = -1; static int dos_select_keyboard(void) { int bk; if (dos_buffered_char >= 0) return 1; bk = bioskey(0x11); return !!bk; } static int dos_read_keyboard(void *buf, size_t size) { int k; if (!size) return 0; if (dos_buffered_char >= 0) { *(unsigned char *)buf = dos_buffered_char; dos_buffered_char = -1; return 1; } k = getkey(); if (!k) return 0; /*printf("returned key %04x\n", k);*/ if (k < 0x100) { *(unsigned char *)buf = k; return 1; } else { *(unsigned char *)buf = 0; if (size >= 2) { *((unsigned char *)buf + 1) = k; return 2; } else { dos_buffered_char = k & 0xff; return 1; } } } #endif static inline void pipe_lock(void) { } static inline void pipe_unlock(void) { } static inline void pipe_unlock_wait(void) { } static inline void pipe_wake(void) { } #include "vpipe.inc" int dos_pipe(int fd[2]) { int r = vpipe_create(fd); /*printf("dos_pipe: (%d) : %d,%d\n", r, fd[0], fd[1]);*/ return r; } int dos_read(int fd, void *buf, size_t size) { int r; dos_mouse_poll(); r = vpipe_read(fd, buf, size); /*printf("dos_read(%d,%d) : %d,%d\n", r, errno, fd, size);*/ if (r != -2) return r; #ifdef DOS_EXTRA_KEYBOARD if (fd == 0) return dos_read_keyboard(buf, size); #endif return read(fd, buf, size); } int dos_write(int fd, const void *buf, size_t size) { int r; dos_mouse_poll(); r = vpipe_write(fd, buf, size); /*printf("dos_write(%d,%d) : %d,%d\n", r, errno, fd, size);*/ if (r != -2) return r; if (fd == 1) { ansi_write(buf, size); return size; } return write(fd, buf, size); } int dos_close(int fd) { int r; r = vpipe_close(fd); if (r != -2) return r; return close(fd); } int dos_select(int n, fd_set *rs, fd_set *ws, fd_set *es, struct timeval *t, int from_main_loop) { int i; int last_pass = 0; int ret_cnt = 0; int r; fd_set rsb, wsb, esb; struct timeval xtime; dos_mouse_poll(); pipe_lock(); for (i = 0; i < n; i++) { int ts = 0; if (rs && FD_ISSET(i, rs)) { int signaled = 0; if (pipe_desc[i]) { if (vpipe_may_read(i)) signaled = 1; else FD_CLR(i, rs); /*printf("dos_select_read(%d) : %d\n", i, vpipe_may_read(i));*/ } else { } if (!last_pass) { if (signaled) { clear_inactive(rs, i); clear_inactive(ws, i); clear_inactive(es, i); last_pass = 1; } } else { if (!signaled) FD_CLR(i, rs); } ts |= signaled; } if (ws && FD_ISSET(i, ws)) { int signaled = 0; if (pipe_desc[i]) { if (vpipe_may_write(i)) signaled = 1; else FD_CLR(i, ws); /*printf("dos_select_write(%d) : %d\n", i, vpipe_may_write(i));*/ } else { } if (!last_pass) { if (signaled) { clear_inactive(rs, i + 1); clear_inactive(ws, i); clear_inactive(es, i); last_pass = 1; } } else { if (!signaled) FD_CLR(i, ws); } ts |= signaled; } if (es && FD_ISSET(i, es)) { int signaled = 0; if (pipe_desc[i]) { FD_CLR(i, es); } else { } if (!last_pass) { if (signaled) { clear_inactive(rs, i + 1); clear_inactive(ws, i + 1); clear_inactive(es, i); last_pass = 1; } } else { if (!signaled) FD_CLR(i, es); } ts |= signaled; } if (last_pass) ret_cnt += ts; } pipe_unlock(); if (last_pass) { /*printf("ret_cnt: %d\n", ret_cnt);*/ return ret_cnt; } /*printf("real select\n");*/ /*return select(n, rs, ws, es, t);*/ if (rs) rsb = *rs; else FD_ZERO(&rsb); if (ws) wsb = *ws; else FD_ZERO(&wsb); if (es) esb = *es; else FD_ZERO(&esb); if (t) { EINTRLOOP(r, gettimeofday(&xtime, NULL)); if (r) fatal_exit("gettimeofday failed: %d", errno); xtime.tv_usec += t->tv_usec; if (xtime.tv_usec >= 1000000) { xtime.tv_usec -= 1000000; xtime.tv_sec++; } xtime.tv_sec += t->tv_sec; } while (1) { struct timeval zero = { 0, 0 }; struct timeval now; #ifdef DOS_EXTRA_KEYBOARD if (rs && FD_ISSET(0, rs)) { if (dos_select_keyboard()) { FD_ZERO(rs); FD_SET(0, rs); if (ws) FD_ZERO(ws); if (es) FD_ZERO(es); if (from_main_loop && dos_mouse_event()) check_bottom_halves(); return 1; } FD_CLR(0, rs); } #endif if (from_main_loop && dos_mouse_event()) { check_bottom_halves(); return 0; } r = select(n, rs, ws, es, &zero); if (r == -1 && errno == EBADF) { /* DJGPP occasionally returns EBADF */ int re = 0; if (rs) FD_ZERO(rs); if (ws) FD_ZERO(ws); if (es) FD_ZERO(es); i = 0; #ifdef DOS_EXTRA_KEYBOARD i++; #endif for (; i < n; i++) { fd_set rsx; fd_set wsx; fd_set esx; int x, s; if (!FD_ISSET(i, &rsb) && !FD_ISSET(i, &wsb) && !FD_ISSET(i, &esb)) continue; FD_ZERO(&rsx); FD_ZERO(&wsx); FD_ZERO(&esx); if (FD_ISSET(i, &rsb)) FD_SET(i, &rsx); if (FD_ISSET(i, &wsb)) FD_SET(i, &wsx); if (FD_ISSET(i, &esb)) FD_SET(i, &esx); zero.tv_sec = 0; zero.tv_usec = 0; x = select(i + 1, &rsx, &wsx, &esx, &zero); s = 0; if (FD_ISSET(i, &rsb) && (x < 0 || (x > 0 && FD_ISSET(i, &rsx)))) FD_SET(i, rs), s = 1; if (FD_ISSET(i, &wsb) && (x < 0 || (x > 0 && FD_ISSET(i, &wsx)))) FD_SET(i, ws), s = 1; if (FD_ISSET(i, &esb) && (x < 0 || (x > 0 && FD_ISSET(i, &esx)))) FD_SET(i, es), s = 1; if (s) re++; } if (re) return re; r = 0; } if (r) return r; EINTRLOOP(r, gettimeofday(&now, NULL)); if (r) fatal_exit("gettimeofday failed: %d", errno); if (t) { if (now.tv_sec > xtime.tv_sec || (now.tv_sec == xtime.tv_sec && now.tv_usec >= xtime.tv_usec)) return 0; } if (rs) *rs = rsb; if (ws) *ws = wsb; if (es) *es = esb; dos_mouse_poll(); __dpmi_yield(); dos_mouse_poll(); } } #ifdef DOS_EXTRA_KEYBOARD int setraw(int ctl, int save) { __djgpp_set_ctrl_c(0); return 0; } void setcooked(int ctl) { } #endif #define RANDOM_POOL_SIZE 65536 void os_seed_random(unsigned char **pool, int *pool_size) { unsigned *random_pool, *tmp_pool; int a, i; random_pool = mem_alloc(RANDOM_POOL_SIZE); tmp_pool = mem_alloc(RANDOM_POOL_SIZE); for (a = 0; a <= 640 * 1024 - RANDOM_POOL_SIZE; a += RANDOM_POOL_SIZE) { dosmemget(a, RANDOM_POOL_SIZE, tmp_pool); for (i = 0; i < RANDOM_POOL_SIZE / 4; i++) random_pool[i] += tmp_pool[i]; } mem_free(tmp_pool); *pool = (unsigned char *)(void *)random_pool; *pool_size = RANDOM_POOL_SIZE; } void init_os(void) { int s, rs; struct sigaction sa; #ifdef _STAT_INODE _djstat_flags |= _STAT_INODE; #endif #ifdef _STAT_EXEC_EXT _djstat_flags |= _STAT_EXEC_EXT; #endif #ifdef _STAT_EXEC_MAGIC _djstat_flags |= _STAT_EXEC_MAGIC; #endif init_seq_len = strlen(cast_const_char init_seq); /* preload the packet driver */ s = c_socket(PF_INET, SOCK_STREAM, IPPROTO_TCP); if (s >= 0) { EINTRLOOP(rs, close(s)); } tcp_cbreak(1); memset(&sa, 0, sizeof sa); sa.sa_handler = sigbreak; sigemptyset(&sa.sa_mask); sa.sa_flags = SA_RESTART; EINTRLOOP(rs, sigaction(SIGINT, &sa, NULL)); } void terminate_osdep(void) { if (screen_backbuffer) mem_free(screen_backbuffer); } int os_default_language(void) { __dpmi_regs r; memset(&r, 0, sizeof r); r.x.ax = 0x3800; r.x.dx = __tb_offset; r.x.ds = __tb_segment; __dpmi_int(0x21, &r); if (!(r.x.flags & 1)) { return get_country_language(r.x.bx); } return -1; } int os_default_charset(void) { __dpmi_regs r; memset(&r, 0, sizeof r); r.x.ax = 0x6601; __dpmi_int(0x21, &r); if (!(r.x.flags & 1)) { unsigned char a[8]; int cp; snprintf(cast_char a, sizeof a, "%d", r.x.bx); if ((cp = get_cp_index(a)) >= 0 && cp != utf8_table) return cp; } return 0; } int dos_is_bw(void) { unsigned char cfg; dosmemget(0x410, sizeof cfg, &cfg); return (cfg & 0x30) == 0x30; } #else typedef int dos_c_no_empty_unit; #endif