/* Code and data for the IBM console driver. * * The 6845 video controller used by the IBM PC shares its video memory with * the CPU somewhere in the 0xB0000 memory bank. To the 6845 this memory * consists of 16-bit words. Each word has a character code in the low byte * and a so-called attribute byte in the high byte. The CPU directly modifies * video memory to display characters, and sets two registers on the 6845 that * specify the video origin and the cursor position. The video origin is the * place in video memory where the first character (upper left corner) can * be found. Moving the origin is a fast way to scroll the screen. Some * video adapters wrap around the top of video memory, so the origin can * move without bounds. For other adapters screen memory must sometimes be * moved to reset the origin. All computations on video memory use character * (word) addresses for simplicity and assume there is no wrapping. The * assembly support functions translate the word addresses to byte addresses * and the scrolling function worries about wrapping. */ #include "../drivers.h" #include #include #include #include "tty.h" #include "../../kernel/const.h" #include "../../kernel/config.h" #include "../../kernel/type.h" /* Definitions used by the console driver. */ #define MONO_BASE 0xB0000L /* base of mono video memory */ #define COLOR_BASE 0xB8000L /* base of color video memory */ #define MONO_SIZE 0x1000 /* 4K mono video memory */ #define COLOR_SIZE 0x4000 /* 16K color video memory */ #define EGA_SIZE 0x8000 /* EGA & VGA have at least 32K */ #define BLANK_COLOR 0x0700 /* determines cursor color on blank screen */ #define SCROLL_UP 0 /* scroll forward */ #define SCROLL_DOWN 1 /* scroll backward */ #define BLANK_MEM ((u16_t *) 0) /* tells mem_vid_copy() to blank the screen */ #define CONS_RAM_WORDS 80 /* video ram buffer size */ #define MAX_ESC_PARMS 4 /* number of escape sequence params allowed */ /* Constants relating to the controller chips. */ #define M_6845 0x3B4 /* port for 6845 mono */ #define C_6845 0x3D4 /* port for 6845 color */ #define INDEX 0 /* 6845's index register */ #define DATA 1 /* 6845's data register */ #define STATUS 6 /* 6845's status register */ #define VID_ORG 12 /* 6845's origin register */ #define CURSOR 14 /* 6845's cursor register */ /* Beeper. */ #define BEEP_FREQ 0x0533 /* value to put into timer to set beep freq */ #define B_TIME 3 /* length of CTRL-G beep is ticks */ /* definitions used for font management */ #define GA_SEQUENCER_INDEX 0x3C4 #define GA_SEQUENCER_DATA 0x3C5 #define GA_GRAPHICS_INDEX 0x3CE #define GA_GRAPHICS_DATA 0x3CF #define GA_VIDEO_ADDRESS 0xA0000L #define GA_FONT_SIZE 8192 /* Global variables used by the console driver and assembly support. */ PUBLIC int vid_index; /* index of video segment in remote mem map */ PUBLIC u16_t vid_seg; PUBLIC vir_bytes vid_off; /* video ram is found at vid_seg:vid_off */ PUBLIC unsigned vid_size; /* 0x2000 for color or 0x0800 for mono */ PUBLIC unsigned vid_mask; /* 0x1FFF for color or 0x07FF for mono */ PUBLIC unsigned blank_color = BLANK_COLOR; /* display code for blank */ /* Private variables used by the console driver. */ PRIVATE int vid_port; /* I/O port for accessing 6845 */ PRIVATE int wrap; /* hardware can wrap? */ PRIVATE int softscroll; /* 1 = software scrolling, 0 = hardware */ PRIVATE int beeping; /* speaker is beeping? */ PRIVATE unsigned font_lines; /* font lines per character */ PRIVATE unsigned scr_width; /* # characters on a line */ PRIVATE unsigned scr_lines; /* # lines on the screen */ PRIVATE unsigned scr_size; /* # characters on the screen */ /* Per console data. */ typedef struct console { tty_t *c_tty; /* associated TTY struct */ int c_column; /* current column number (0-origin) */ int c_row; /* current row (0 at top of screen) */ int c_rwords; /* number of WORDS (not bytes) in outqueue */ unsigned c_start; /* start of video memory of this console */ unsigned c_limit; /* limit of this console's video memory */ unsigned c_org; /* location in RAM where 6845 base points */ unsigned c_cur; /* current position of cursor in video RAM */ unsigned c_attr; /* character attribute */ unsigned c_blank; /* blank attribute */ char c_reverse; /* reverse video */ char c_esc_state; /* 0=normal, 1=ESC, 2=ESC[ */ char c_esc_intro; /* Distinguishing character following ESC */ int *c_esc_parmp; /* pointer to current escape parameter */ int c_esc_parmv[MAX_ESC_PARMS]; /* list of escape parameters */ u16_t c_ramqueue[CONS_RAM_WORDS]; /* buffer for video RAM */ } console_t; PRIVATE int nr_cons= 1; /* actual number of consoles */ PRIVATE console_t cons_table[NR_CONS]; PRIVATE console_t *curcons; /* currently visible */ /* Color if using a color controller. */ #define color (vid_port == C_6845) /* Map from ANSI colors to the attributes used by the PC */ PRIVATE int ansi_colors[8] = {0, 4, 2, 6, 1, 5, 3, 7}; /* Structure used for font management */ struct sequence { unsigned short index; unsigned char port; unsigned char value; }; FORWARD _PROTOTYPE( int cons_write, (struct tty *tp, int try) ); FORWARD _PROTOTYPE( void cons_echo, (tty_t *tp, int c) ); FORWARD _PROTOTYPE( void out_char, (console_t *cons, int c) ); FORWARD _PROTOTYPE( void putk, (int c) ); FORWARD _PROTOTYPE( void beep, (void) ); FORWARD _PROTOTYPE( void do_escape, (console_t *cons, int c) ); FORWARD _PROTOTYPE( void flush, (console_t *cons) ); FORWARD _PROTOTYPE( void parse_escape, (console_t *cons, int c) ); FORWARD _PROTOTYPE( void scroll_screen, (console_t *cons, int dir) ); FORWARD _PROTOTYPE( void set_6845, (int reg, unsigned val) ); FORWARD _PROTOTYPE( void get_6845, (int reg, unsigned *val) ); FORWARD _PROTOTYPE( void stop_beep, (timer_t *tmrp) ); FORWARD _PROTOTYPE( void cons_org0, (void) ); FORWARD _PROTOTYPE( int ga_program, (struct sequence *seq) ); FORWARD _PROTOTYPE( int cons_ioctl, (tty_t *tp, int) ); /*===========================================================================* * cons_write * *===========================================================================*/ PRIVATE int cons_write(tp, try) register struct tty *tp; /* tells which terminal is to be used */ int try; { /* Copy as much data as possible to the output queue, then start I/O. On * memory-mapped terminals, such as the IBM console, the I/O will also be * finished, and the counts updated. Keep repeating until all I/O done. */ int count; int result; register char *tbuf; char buf[64]; console_t *cons = tp->tty_priv; if (try) return 1; /* we can always write to console */ /* Check quickly for nothing to do, so this can be called often without * unmodular tests elsewhere. */ if ((count = tp->tty_outleft) == 0 || tp->tty_inhibited) return; /* Copy the user bytes to buf[] for decent addressing. Loop over the * copies, since the user buffer may be much larger than buf[]. */ do { if (count > sizeof(buf)) count = sizeof(buf); if ((result = sys_vircopy(tp->tty_outproc, D, tp->tty_out_vir, SELF, D, (vir_bytes) buf, (vir_bytes) count)) != OK) break; tbuf = buf; /* Update terminal data structure. */ tp->tty_out_vir += count; tp->tty_outcum += count; tp->tty_outleft -= count; /* Output each byte of the copy to the screen. Avoid calling * out_char() for the "easy" characters, put them into the buffer * directly. */ do { if ((unsigned) *tbuf < ' ' || cons->c_esc_state > 0 || cons->c_column >= scr_width || cons->c_rwords >= buflen(cons->c_ramqueue)) { out_char(cons, *tbuf++); } else { cons->c_ramqueue[cons->c_rwords++] = cons->c_attr | (*tbuf++ & BYTE); cons->c_column++; } } while (--count != 0); } while ((count = tp->tty_outleft) != 0 && !tp->tty_inhibited); flush(cons); /* transfer anything buffered to the screen */ /* Reply to the writer if all output is finished or if an error occured. */ if (tp->tty_outleft == 0 || result != OK) { /* REVIVE is not possible. I/O on memory mapped consoles finishes. */ tty_reply(tp->tty_outrepcode, tp->tty_outcaller, tp->tty_outproc, tp->tty_outcum); tp->tty_outcum = 0; } } /*===========================================================================* * cons_echo * *===========================================================================*/ PRIVATE void cons_echo(tp, c) register tty_t *tp; /* pointer to tty struct */ int c; /* character to be echoed */ { /* Echo keyboard input (print & flush). */ console_t *cons = tp->tty_priv; out_char(cons, c); flush(cons); } /*===========================================================================* * out_char * *===========================================================================*/ PRIVATE void out_char(cons, c) register console_t *cons; /* pointer to console struct */ int c; /* character to be output */ { /* Output a character on the console. Check for escape sequences first. */ if (cons->c_esc_state > 0) { parse_escape(cons, c); return; } switch(c) { case 000: /* null is typically used for padding */ return; /* better not do anything */ case 007: /* ring the bell */ flush(cons); /* print any chars queued for output */ beep(); return; case '\b': /* backspace */ if (--cons->c_column < 0) { if (--cons->c_row >= 0) cons->c_column += scr_width; } flush(cons); return; case '\n': /* line feed */ if ((cons->c_tty->tty_termios.c_oflag & (OPOST|ONLCR)) == (OPOST|ONLCR)) { cons->c_column = 0; } /*FALL THROUGH*/ case 013: /* CTRL-K */ case 014: /* CTRL-L */ if (cons->c_row == scr_lines-1) { scroll_screen(cons, SCROLL_UP); } else { cons->c_row++; } flush(cons); return; case '\r': /* carriage return */ cons->c_column = 0; flush(cons); return; case '\t': /* tab */ cons->c_column = (cons->c_column + TAB_SIZE) & ~TAB_MASK; if (cons->c_column > scr_width) { cons->c_column -= scr_width; if (cons->c_row == scr_lines-1) { scroll_screen(cons, SCROLL_UP); } else { cons->c_row++; } } flush(cons); return; case 033: /* ESC - start of an escape sequence */ flush(cons); /* print any chars queued for output */ cons->c_esc_state = 1; /* mark ESC as seen */ return; default: /* printable chars are stored in ramqueue */ if (cons->c_column >= scr_width) { if (!LINEWRAP) return; if (cons->c_row == scr_lines-1) { scroll_screen(cons, SCROLL_UP); } else { cons->c_row++; } cons->c_column = 0; flush(cons); } if (cons->c_rwords == buflen(cons->c_ramqueue)) flush(cons); cons->c_ramqueue[cons->c_rwords++] = cons->c_attr | (c & BYTE); cons->c_column++; /* next column */ return; } } /*===========================================================================* * scroll_screen * *===========================================================================*/ PRIVATE void scroll_screen(cons, dir) register console_t *cons; /* pointer to console struct */ int dir; /* SCROLL_UP or SCROLL_DOWN */ { unsigned new_line, new_org, chars; flush(cons); chars = scr_size - scr_width; /* one screen minus one line */ /* Scrolling the screen is a real nuisance due to the various incompatible * video cards. This driver supports software scrolling (Hercules?), * hardware scrolling (mono and CGA cards) and hardware scrolling without * wrapping (EGA cards). In the latter case we must make sure that * c_start <= c_org && c_org + scr_size <= c_limit * holds, because EGA doesn't wrap around the end of video memory. */ if (dir == SCROLL_UP) { /* Scroll one line up in 3 ways: soft, avoid wrap, use origin. */ if (softscroll) { vid_vid_copy(cons->c_start + scr_width, cons->c_start, chars); } else if (!wrap && cons->c_org + scr_size + scr_width >= cons->c_limit) { vid_vid_copy(cons->c_org + scr_width, cons->c_start, chars); cons->c_org = cons->c_start; } else { cons->c_org = (cons->c_org + scr_width) & vid_mask; } new_line = (cons->c_org + chars) & vid_mask; } else { /* Scroll one line down in 3 ways: soft, avoid wrap, use origin. */ if (softscroll) { vid_vid_copy(cons->c_start, cons->c_start + scr_width, chars); } else if (!wrap && cons->c_org < cons->c_start + scr_width) { new_org = cons->c_limit - scr_size; vid_vid_copy(cons->c_org, new_org + scr_width, chars); cons->c_org = new_org; } else { cons->c_org = (cons->c_org - scr_width) & vid_mask; } new_line = cons->c_org; } /* Blank the new line at top or bottom. */ blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, new_line, scr_width); /* Set the new video origin. */ if (cons == curcons) set_6845(VID_ORG, cons->c_org); flush(cons); } /*===========================================================================* * flush * *===========================================================================*/ PRIVATE void flush(cons) register console_t *cons; /* pointer to console struct */ { /* Send characters buffered in 'ramqueue' to screen memory, check the new * cursor position, compute the new hardware cursor position and set it. */ unsigned cur; tty_t *tp = cons->c_tty; /* Have the characters in 'ramqueue' transferred to the screen. */ if (cons->c_rwords > 0) { mem_vid_copy(cons->c_ramqueue, cons->c_cur, cons->c_rwords); cons->c_rwords = 0; /* TTY likes to know the current column and if echoing messed up. */ tp->tty_position = cons->c_column; tp->tty_reprint = TRUE; } /* Check and update the cursor position. */ if (cons->c_column < 0) cons->c_column = 0; if (cons->c_column > scr_width) cons->c_column = scr_width; if (cons->c_row < 0) cons->c_row = 0; if (cons->c_row >= scr_lines) cons->c_row = scr_lines - 1; cur = cons->c_org + cons->c_row * scr_width + cons->c_column; if (cur != cons->c_cur) { if (cons == curcons) set_6845(CURSOR, cur); cons->c_cur = cur; } } /*===========================================================================* * parse_escape * *===========================================================================*/ PRIVATE void parse_escape(cons, c) register console_t *cons; /* pointer to console struct */ char c; /* next character in escape sequence */ { /* The following ANSI escape sequences are currently supported. * If n and/or m are omitted, they default to 1. * ESC [nA moves up n lines * ESC [nB moves down n lines * ESC [nC moves right n spaces * ESC [nD moves left n spaces * ESC [m;nH" moves cursor to (m,n) * ESC [J clears screen from cursor * ESC [K clears line from cursor * ESC [nL inserts n lines ar cursor * ESC [nM deletes n lines at cursor * ESC [nP deletes n chars at cursor * ESC [n@ inserts n chars at cursor * ESC [nm enables rendition n (0=normal, 4=bold, 5=blinking, 7=reverse) * ESC M scrolls the screen backwards if the cursor is on the top line */ switch (cons->c_esc_state) { case 1: /* ESC seen */ cons->c_esc_intro = '\0'; cons->c_esc_parmp = bufend(cons->c_esc_parmv); do { *--cons->c_esc_parmp = 0; } while (cons->c_esc_parmp > cons->c_esc_parmv); switch (c) { case '[': /* Control Sequence Introducer */ cons->c_esc_intro = c; cons->c_esc_state = 2; break; case 'M': /* Reverse Index */ do_escape(cons, c); break; default: cons->c_esc_state = 0; } break; case 2: /* ESC [ seen */ if (c >= '0' && c <= '9') { if (cons->c_esc_parmp < bufend(cons->c_esc_parmv)) *cons->c_esc_parmp = *cons->c_esc_parmp * 10 + (c-'0'); } else if (c == ';') { if (cons->c_esc_parmp < bufend(cons->c_esc_parmv)) cons->c_esc_parmp++; } else { do_escape(cons, c); } break; } } /*===========================================================================* * do_escape * *===========================================================================*/ PRIVATE void do_escape(cons, c) register console_t *cons; /* pointer to console struct */ char c; /* next character in escape sequence */ { int value, n; unsigned src, dst, count; int *parmp; /* Some of these things hack on screen RAM, so it had better be up to date */ flush(cons); if (cons->c_esc_intro == '\0') { /* Handle a sequence beginning with just ESC */ switch (c) { case 'M': /* Reverse Index */ if (cons->c_row == 0) { scroll_screen(cons, SCROLL_DOWN); } else { cons->c_row--; } flush(cons); break; default: break; } } else if (cons->c_esc_intro == '[') { /* Handle a sequence beginning with ESC [ and parameters */ value = cons->c_esc_parmv[0]; switch (c) { case 'A': /* ESC [nA moves up n lines */ n = (value == 0 ? 1 : value); cons->c_row -= n; flush(cons); break; case 'B': /* ESC [nB moves down n lines */ n = (value == 0 ? 1 : value); cons->c_row += n; flush(cons); break; case 'C': /* ESC [nC moves right n spaces */ n = (value == 0 ? 1 : value); cons->c_column += n; flush(cons); break; case 'D': /* ESC [nD moves left n spaces */ n = (value == 0 ? 1 : value); cons->c_column -= n; flush(cons); break; case 'H': /* ESC [m;nH" moves cursor to (m,n) */ cons->c_row = cons->c_esc_parmv[0] - 1; cons->c_column = cons->c_esc_parmv[1] - 1; flush(cons); break; case 'J': /* ESC [sJ clears in display */ switch (value) { case 0: /* Clear from cursor to end of screen */ count = scr_size - (cons->c_cur - cons->c_org); dst = cons->c_cur; break; case 1: /* Clear from start of screen to cursor */ count = cons->c_cur - cons->c_org; dst = cons->c_org; break; case 2: /* Clear entire screen */ count = scr_size; dst = cons->c_org; break; default: /* Do nothing */ count = 0; dst = cons->c_org; } blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, dst, count); break; case 'K': /* ESC [sK clears line from cursor */ switch (value) { case 0: /* Clear from cursor to end of line */ count = scr_width - cons->c_column; dst = cons->c_cur; break; case 1: /* Clear from beginning of line to cursor */ count = cons->c_column; dst = cons->c_cur - cons->c_column; break; case 2: /* Clear entire line */ count = scr_width; dst = cons->c_cur - cons->c_column; break; default: /* Do nothing */ count = 0; dst = cons->c_cur; } blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, dst, count); break; case 'L': /* ESC [nL inserts n lines at cursor */ n = value; if (n < 1) n = 1; if (n > (scr_lines - cons->c_row)) n = scr_lines - cons->c_row; src = cons->c_org + cons->c_row * scr_width; dst = src + n * scr_width; count = (scr_lines - cons->c_row - n) * scr_width; vid_vid_copy(src, dst, count); blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, src, n * scr_width); break; case 'M': /* ESC [nM deletes n lines at cursor */ n = value; if (n < 1) n = 1; if (n > (scr_lines - cons->c_row)) n = scr_lines - cons->c_row; dst = cons->c_org + cons->c_row * scr_width; src = dst + n * scr_width; count = (scr_lines - cons->c_row - n) * scr_width; vid_vid_copy(src, dst, count); blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, dst + count, n * scr_width); break; case '@': /* ESC [n@ inserts n chars at cursor */ n = value; if (n < 1) n = 1; if (n > (scr_width - cons->c_column)) n = scr_width - cons->c_column; src = cons->c_cur; dst = src + n; count = scr_width - cons->c_column - n; vid_vid_copy(src, dst, count); blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, src, n); break; case 'P': /* ESC [nP deletes n chars at cursor */ n = value; if (n < 1) n = 1; if (n > (scr_width - cons->c_column)) n = scr_width - cons->c_column; dst = cons->c_cur; src = dst + n; count = scr_width - cons->c_column - n; vid_vid_copy(src, dst, count); blank_color = cons->c_blank; mem_vid_copy(BLANK_MEM, dst + count, n); break; case 'm': /* ESC [nm enables rendition n */ for (parmp = cons->c_esc_parmv; parmp <= cons->c_esc_parmp && parmp < bufend(cons->c_esc_parmv); parmp++) { if (cons->c_reverse) { /* Unswap fg and bg colors */ cons->c_attr = ((cons->c_attr & 0x7000) >> 4) | ((cons->c_attr & 0x0700) << 4) | ((cons->c_attr & 0x8800)); } switch (n = *parmp) { case 0: /* NORMAL */ cons->c_attr = cons->c_blank = BLANK_COLOR; cons->c_reverse = FALSE; break; case 1: /* BOLD */ /* Set intensity bit */ cons->c_attr |= 0x0800; break; case 4: /* UNDERLINE */ if (color) { /* Change white to cyan, i.e. lose red */ cons->c_attr = (cons->c_attr & 0xBBFF); } else { /* Set underline attribute */ cons->c_attr = (cons->c_attr & 0x99FF); } break; case 5: /* BLINKING */ /* Set the blink bit */ cons->c_attr |= 0x8000; break; case 7: /* REVERSE */ cons->c_reverse = TRUE; break; default: /* COLOR */ if (n == 39) n = 37; /* set default color */ if (n == 49) n = 40; if (!color) { /* Don't mess up a monochrome screen */ } else if (30 <= n && n <= 37) { /* Foreground color */ cons->c_attr = (cons->c_attr & 0xF8FF) | (ansi_colors[(n - 30)] << 8); cons->c_blank = (cons->c_blank & 0xF8FF) | (ansi_colors[(n - 30)] << 8); } else if (40 <= n && n <= 47) { /* Background color */ cons->c_attr = (cons->c_attr & 0x8FFF) | (ansi_colors[(n - 40)] << 12); cons->c_blank = (cons->c_blank & 0x8FFF) | (ansi_colors[(n - 40)] << 12); } } if (cons->c_reverse) { /* Swap fg and bg colors */ cons->c_attr = ((cons->c_attr & 0x7000) >> 4) | ((cons->c_attr & 0x0700) << 4) | ((cons->c_attr & 0x8800)); } } break; } } cons->c_esc_state = 0; } /*===========================================================================* * set_6845 * *===========================================================================*/ PRIVATE void set_6845(reg, val) int reg; /* which register pair to set */ unsigned val; /* 16-bit value to set it to */ { /* Set a register pair inside the 6845. * Registers 12-13 tell the 6845 where in video ram to start * Registers 14-15 tell the 6845 where to put the cursor */ pvb_pair_t char_out[4]; pv_set(char_out[0], vid_port + INDEX, reg); /* set index register */ pv_set(char_out[1], vid_port + DATA, (val>>8) & BYTE); /* high byte */ pv_set(char_out[2], vid_port + INDEX, reg + 1); /* again */ pv_set(char_out[3], vid_port + DATA, val&BYTE); /* low byte */ sys_voutb(char_out, 4); /* do actual output */ } /*===========================================================================* * get_6845 * *===========================================================================*/ PRIVATE void get_6845(reg, val) int reg; /* which register pair to set */ unsigned *val; /* 16-bit value to set it to */ { char v1, v2; /* Get a register pair inside the 6845. */ sys_outb(vid_port + INDEX, reg); sys_inb(vid_port + DATA, &v1); sys_outb(vid_port + INDEX, reg+1); sys_inb(vid_port + DATA, &v2); *val = (v1 << 8) | v2; } /*===========================================================================* * beep * *===========================================================================*/ PRIVATE void beep() { /* Making a beeping sound on the speaker (output for CRTL-G). * This routine works by turning on the bits 0 and 1 in port B of the 8255 * chip that drive the speaker. */ static timer_t tmr_stop_beep; pvb_pair_t char_out[3]; clock_t now; int port_b_val, s; /* Fetch current time in advance to prevent beeping delay. */ if ((s=getuptime(&now)) != OK) panic("TTY","Console couldn't get clock's uptime.", s); if (!beeping) { /* Set timer channel 2, square wave, with given frequency. */ pv_set(char_out[0], TIMER_MODE, 0xB6); pv_set(char_out[1], TIMER2, (BEEP_FREQ >> 0) & BYTE); pv_set(char_out[2], TIMER2, (BEEP_FREQ >> 8) & BYTE); if (sys_voutb(char_out, 3)==OK) { if (sys_inb(PORT_B, &port_b_val)==OK && sys_outb(PORT_B, (port_b_val|3))==OK) beeping = TRUE; } } /* Add a timer to the timers list. Possibly reschedule the alarm. */ tmrs_settimer(&tty_timers, &tmr_stop_beep, now+B_TIME, stop_beep, NULL); if (tty_timers->tmr_exp_time != tty_next_timeout) { tty_next_timeout = tty_timers->tmr_exp_time; if ((s=sys_setalarm(tty_next_timeout, 1)) != OK) panic("TTY","Console couldn't set alarm.", s); } } /*===========================================================================* * stop_beep * *===========================================================================*/ PRIVATE void stop_beep(tmrp) timer_t *tmrp; { /* Turn off the beeper by turning off bits 0 and 1 in PORT_B. */ int port_b_val; if (sys_inb(PORT_B, &port_b_val)==OK && sys_outb(PORT_B, (port_b_val & ~3))==OK) beeping = FALSE; } /*===========================================================================* * scr_init * *===========================================================================*/ PUBLIC void scr_init(tp) tty_t *tp; { /* Initialize the screen driver. */ console_t *cons; phys_bytes vid_base; u16_t bios_columns, bios_crtbase, bios_fontlines; u8_t bios_rows; int line; int s; static int vdu_initialized = 0; unsigned page_size; /* Associate console and TTY. */ line = tp - &tty_table[0]; if (line >= nr_cons) return; cons = &cons_table[line]; cons->c_tty = tp; tp->tty_priv = cons; /* Initialize the keyboard driver. */ kb_init(tp); /* Fill in TTY function hooks. */ tp->tty_devwrite = cons_write; tp->tty_echo = cons_echo; tp->tty_ioctl = cons_ioctl; /* Get the BIOS parameters that describe the VDU. */ if (! vdu_initialized++) { /* How about error checking? What to do on failure??? */ s=sys_vircopy(SELF, BIOS_SEG, (vir_bytes) VDU_SCREEN_COLS_ADDR, SELF, D, (vir_bytes) &bios_columns, VDU_SCREEN_COLS_SIZE); s=sys_vircopy(SELF, BIOS_SEG, (vir_bytes) VDU_CRT_BASE_ADDR, SELF, D, (vir_bytes) &bios_crtbase, VDU_CRT_BASE_SIZE); s=sys_vircopy(SELF, BIOS_SEG, (vir_bytes) VDU_SCREEN_ROWS_ADDR, SELF, D, (vir_bytes) &bios_rows, VDU_SCREEN_ROWS_SIZE); s=sys_vircopy(SELF, BIOS_SEG, (vir_bytes) VDU_FONTLINES_ADDR, SELF, D, (vir_bytes) &bios_fontlines, VDU_FONTLINES_SIZE); vid_port = bios_crtbase; scr_width = bios_columns; font_lines = bios_fontlines; scr_lines = machine.vdu_ega ? bios_rows+1 : 25; if (color) { vid_base = COLOR_BASE; vid_size = COLOR_SIZE; } else { vid_base = MONO_BASE; vid_size = MONO_SIZE; } if (machine.vdu_ega) vid_size = EGA_SIZE; wrap = ! machine.vdu_ega; s = sys_segctl(&vid_index, &vid_seg, &vid_off, vid_base, vid_size); vid_size >>= 1; /* word count */ vid_mask = vid_size - 1; /* Size of the screen (number of displayed characters.) */ scr_size = scr_lines * scr_width; /* There can be as many consoles as video memory allows. */ nr_cons = vid_size / scr_size; if (nr_cons > NR_CONS) nr_cons = NR_CONS; if (nr_cons > 1) wrap = 0; page_size = vid_size / nr_cons; } cons->c_start = line * page_size; cons->c_limit = cons->c_start + page_size; cons->c_cur = cons->c_org = cons->c_start; cons->c_attr = cons->c_blank = BLANK_COLOR; if (line != 0) { /* Clear the non-console vtys. */ blank_color = BLANK_COLOR; mem_vid_copy(BLANK_MEM, cons->c_start, scr_size); } else { int i, n; /* Set the cursor of the console vty at the bottom. c_cur * is updated automatically later. */ scroll_screen(cons, SCROLL_UP); cons->c_row = scr_lines - 1; cons->c_column = 0; } select_console(0); cons_ioctl(tp, 0); } /*===========================================================================* * kputc * *===========================================================================*/ PUBLIC void kputc(c) int c; { putk(c); } /*===========================================================================* * do_new_kmess * *===========================================================================*/ PUBLIC void do_new_kmess(m) message *m; { /* Notification for a new kernel message. */ struct kmessages kmess; /* kmessages structure */ static int prev_next = 0; /* previous next seen */ int size, next; int bytes; int r; /* Try to get a fresh copy of the buffer with kernel messages. */ sys_getkmessages(&kmess); /* Print only the new part. Determine how many new bytes there are with * help of the current and previous 'next' index. Note that the kernel * buffer is circular. This works fine if less then KMESS_BUF_SIZE bytes * is new data; else we miss % KMESS_BUF_SIZE here. * Check for size being positive, the buffer might as well be emptied! */ if (kmess.km_size > 0) { bytes = ((kmess.km_next + KMESS_BUF_SIZE) - prev_next) % KMESS_BUF_SIZE; r=prev_next; /* start at previous old */ while (bytes > 0) { putk( kmess.km_buf[(r%KMESS_BUF_SIZE)] ); bytes --; r ++; } putk(0); /* terminate to flush output */ } /* Almost done, store 'next' so that we can determine what part of the * kernel messages buffer to print next time a notification arrives. */ prev_next = kmess.km_next; } /*===========================================================================* * do_diagnostics * *===========================================================================*/ PUBLIC void do_diagnostics(m_ptr) message *m_ptr; /* pointer to request message */ { /* Print a string for a server. */ char c; vir_bytes src; int count; int result = OK; int proc_nr = m_ptr->DIAG_PROC_NR; if (proc_nr == SELF) proc_nr = m_ptr->m_source; src = (vir_bytes) m_ptr->DIAG_PRINT_BUF; for (count = m_ptr->DIAG_BUF_COUNT; count > 0; count--) { if (sys_vircopy(proc_nr, D, src++, SELF, D, (vir_bytes) &c, 1) != OK) { result = EFAULT; break; } putk(c); } putk(0); /* always terminate, even with EFAULT */ m_ptr->m_type = result; send(m_ptr->m_source, m_ptr); } /*===========================================================================* * putk * *===========================================================================*/ PRIVATE void putk(c) int c; /* character to print */ { /* This procedure is used by the version of printf() that is linked with * the TTY driver. The one in the library sends a message to FS, which is * not what is needed for printing within the TTY. This version just queues * the character and starts the output. */ if (c != 0) { if (c == '\n') putk('\r'); out_char(&cons_table[0], (int) c); } else { flush(&cons_table[0]); } } /*===========================================================================* * toggle_scroll * *===========================================================================*/ PUBLIC void toggle_scroll() { /* Toggle between hardware and software scroll. */ cons_org0(); softscroll = !softscroll; printf("%sware scrolling enabled.\n", softscroll ? "Soft" : "Hard"); } /*===========================================================================* * cons_stop * *===========================================================================*/ PUBLIC void cons_stop() { /* Prepare for halt or reboot. */ cons_org0(); softscroll = 1; select_console(0); cons_table[0].c_attr = cons_table[0].c_blank = BLANK_COLOR; } /*===========================================================================* * cons_org0 * *===========================================================================*/ PRIVATE void cons_org0() { /* Scroll video memory back to put the origin at 0. */ int cons_line; console_t *cons; unsigned n; for (cons_line = 0; cons_line < nr_cons; cons_line++) { cons = &cons_table[cons_line]; while (cons->c_org > cons->c_start) { n = vid_size - scr_size; /* amount of unused memory */ if (n > cons->c_org - cons->c_start) n = cons->c_org - cons->c_start; vid_vid_copy(cons->c_org, cons->c_org - n, scr_size); cons->c_org -= n; } flush(cons); } select_console(ccurrent); } /*===========================================================================* * select_console * *===========================================================================*/ PUBLIC void select_console(int cons_line) { /* Set the current console to console number 'cons_line'. */ if (cons_line < 0 || cons_line >= nr_cons) return; ccurrent = cons_line; curcons = &cons_table[cons_line]; set_6845(VID_ORG, curcons->c_org); set_6845(CURSOR, curcons->c_cur); } /*===========================================================================* * con_loadfont * *===========================================================================*/ PUBLIC int con_loadfont(m) message *m; { /* Load a font into the EGA or VGA adapter. */ int result; static struct sequence seq1[7] = { { GA_SEQUENCER_INDEX, 0x00, 0x01 }, { GA_SEQUENCER_INDEX, 0x02, 0x04 }, { GA_SEQUENCER_INDEX, 0x04, 0x07 }, { GA_SEQUENCER_INDEX, 0x00, 0x03 }, { GA_GRAPHICS_INDEX, 0x04, 0x02 }, { GA_GRAPHICS_INDEX, 0x05, 0x00 }, { GA_GRAPHICS_INDEX, 0x06, 0x00 }, }; static struct sequence seq2[7] = { { GA_SEQUENCER_INDEX, 0x00, 0x01 }, { GA_SEQUENCER_INDEX, 0x02, 0x03 }, { GA_SEQUENCER_INDEX, 0x04, 0x03 }, { GA_SEQUENCER_INDEX, 0x00, 0x03 }, { GA_GRAPHICS_INDEX, 0x04, 0x00 }, { GA_GRAPHICS_INDEX, 0x05, 0x10 }, { GA_GRAPHICS_INDEX, 0x06, 0 }, }; seq2[6].value= color ? 0x0E : 0x0A; if (!machine.vdu_ega) return(ENOTTY); result = ga_program(seq1); /* bring font memory into view */ result = sys_physcopy(m->PROC_NR, D, (vir_bytes) m->ADDRESS, NONE, PHYS_SEG, (phys_bytes) GA_VIDEO_ADDRESS, (phys_bytes)GA_FONT_SIZE); result = ga_program(seq2); /* restore */ return(result); } /*===========================================================================* * ga_program * *===========================================================================*/ PRIVATE int ga_program(seq) struct sequence *seq; { pvb_pair_t char_out[14]; int i; for (i=0; i<7; i++) { pv_set(char_out[2*i], seq->index, seq->port); pv_set(char_out[2*i+1], seq->index+1, seq->value); seq++; } return sys_voutb(char_out, 14); } /*===========================================================================* * cons_ioctl * *===========================================================================*/ PRIVATE int cons_ioctl(tp, try) tty_t *tp; int try; { /* Set the screen dimensions. */ tp->tty_winsize.ws_row= scr_lines; tp->tty_winsize.ws_col= scr_width; tp->tty_winsize.ws_xpixel= scr_width * 8; tp->tty_winsize.ws_ypixel= scr_lines * font_lines; }