/* * BRLTTY - A background process providing access to the console screen (when in * text mode) for a blind person using a refreshable braille display. * * Copyright (C) 1995-2019 by The BRLTTY Developers. * * BRLTTY comes with ABSOLUTELY NO WARRANTY. * * This is free software, placed under the terms of the * GNU Lesser General Public License, as published by the Free Software * Foundation; either version 2.1 of the License, or (at your option) any * later version. Please see the file LICENSE-LGPL for details. * * Web Page: http://brltty.app/ * * This software is maintained by Dave Mielke . */ /* BrailleLite/braille.c - Braille display library * For Blazie Engineering's Braille Lite series * Author: Nikhil Nair * Copyright (C) 1998 by Nikhil Nair. * Some additions by: Nicolas Pitre * Some modifications copyright 2001 by Stéphane Doyon . * Some additions by: Dave Mielke */ #include "prologue.h" #include #include #include "log.h" #include "parse.h" #include "timing.h" #include "async_wait.h" #include "message.h" typedef enum { PARM_BAUDRATE, PARM_KBEMU } DriverParameter; #define BRLPARMS "baudrate", "kbemu" #include "brl_driver.h" #include "braille.h" #include "io_serial.h" #define BL_NEED_ARRAYS #include "bindings.h" /* for keybindings */ #define QSZ 256 /* size of internal input queue in bytes */ #define INT_CSR_SPEED 2 /* on/off time in cycles */ #define ACK_TIMEOUT 1000 /* timeout in ms for an ACK to come back */ SerialDevice *BL_serialDevice = NULL; /* file descriptor for Braille display */ static unsigned char *prevdata = NULL; /* previously received data */ static unsigned char *rawdata = NULL; /* writebrl() buffer for raw Braille data */ static int blitesz; /* set to 18 or 40 */ static int waiting_ack = 0; /* waiting acknowledgement flag */ static int reverse_kbd = 0; /* reverse keyboard flag */ static int intoverride = 0; /* internal override flag - * highly dubious behaviour ... */ static int int_cursor = 0; /* position of internal cursor: 0 = none */ static unsigned int kbemu = 1; /* keyboard emulation (whether you can type) */ /* The input queue is only manipulated by the qput() and qget() * functions. */ static unsigned char *qbase = NULL; /* start of queue in memory */ static int qoff = 0; /* offset of first byte */ static int qlen = 0; /* number of items in the queue */ /* Data type for a Braille Lite key, including translation into command * codes: */ typedef struct { unsigned char raw; /* raw value, after any keyboard reversal */ int cmd; /* command code */ unsigned char asc; /* ASCII translation of Braille keys */ unsigned char spcbar; /* 1 = on, 0 = off */ unsigned char routing; /* routing key number */ } blkey; static int qput (unsigned char c) { if (qlen == QSZ) return EOF; qbase[(qoff + qlen++) % QSZ] = c; return 0; } static int qget (blkey * kp) { unsigned char c; int how; static const unsigned char counts[] = {1, 3, 3}; unsigned char count; if (qlen == 0) return EOF; c = qbase[qoff]; /* extended sequences start with a zero */ how = (c == 0)? 1: (c == 0x80 && blitesz != 18)? 2: 0; count = counts[how]; if (qlen < count) return EOF; memset (kp, 0, sizeof (*kp)); switch (how) { case 0: /* non-extended sequences (BL18) */ /* We must deal with keyboard reversal here: */ if (reverse_kbd) { if (c >= 0x80) /* advance bar */ c ^= 0x03; else c = (c & 0x40) | ((c & 0x38) >> 3) | ((c & 0x07) << 3); } /* Now we fill in all the info about the keypress: */ if (c >= 0x80) /* advance bar */ { kp->raw = c; switch (c) { case 0x83: /* left */ kp->cmd = BLT_BARLT; break; case 0x80: /* right */ kp->cmd = BLT_BARRT; break; default: /* unrecognised keypress */ kp->cmd = 0; break; } } else { kp->spcbar = ((c & 0x40)? 1: 0); c &= 0x3f; /* leave only dot key info */ kp->raw = c; kp->cmd = cmdtrans[c]; kp->asc = brltrans[c]; } break; case 1: { /* extended sequences (BL40) */ unsigned char c2 = qbase[((qoff + 1) % QSZ)]; unsigned char c3 = qbase[((qoff + 2) % QSZ)]; /* We must deal with keyboard reversal here: */ if (reverse_kbd) { if (c2 == 0) { /* advance bars or routing keys */ if (c3 & 0x80) /* advance bars */ c3 = ((c3 & 0xF0) | ((c3 & 0x1) << 3) | ((c3 & 0x2) << 1) | ((c3 & 0x4) >> 1) | ((c3 & 0x8) >> 3)); else if (c3 > 0 && c3 <= blitesz) c3 = blitesz - c3 + 1; } else { c2 = (((c2 & 0x38) >> 3) | ((c2 & 0x07) << 3) | ((c2 & 0x40) << 1) | ((c2 & 0x80) >> 1)); c3 = ((c3 & 0x40) | ((c3 & 0x38) >> 3) | ((c3 & 0x07) << 3)); } } /* Now we fill in all the info about the keypress: */ if (c2 == 0) /* advance bars or routing keys */ { kp->raw = c3; if (c3 & 0x80) kp->cmd = (*barcmds)[c3 & 0xF]; else if (c3 > 0 && c3 <= blitesz) kp->routing = c3; } else { kp->spcbar = ((c3 & 0x40)? 1: 0); c3 &= 0x3f; /* leave only dot key info */ kp->raw = (c2 & 0xC0) | c3; /* combine info for all 8 dots */ /* c2&0x3F and c3&0x3F are the same, i.e. dots 1-6. */ kp->cmd = cmdtrans[c3]; kp->asc = brltrans[c3]; } break; } case 2: { /* extended sequences (millennium) */ unsigned char c3 = qbase[((qoff + 2) % QSZ)]; /* We must deal with keyboard reversal here: */ if (reverse_kbd) c3 = ((c3 & 0x11) << 3) | ((c3 & 0x22) << 1) | ((c3 & 0x44) >> 1) | ((c3 & 0x88) >> 3); kp->raw = c3; if (c3 & 0x0f) kp->cmd = (*barcmds)[((c3 & 0x1) << 3) | ((c3 & 0x2) << 1) | ((c3 & 0x4) >> 1) | ((c3 & 0x8) >> 3)]; else if (c3 & 0x30) kp->cmd = rwwcmds[(c3 >> 4) & 0x3]; else if (c3 & 0xc0) kp->cmd = lwwcmds[(c3 >> 6) & 0x3]; else kp->cmd = 0; break; } default: kp->cmd = 0; break; } /* adjust queue variables for next member */ qoff = (qoff + count) % QSZ; qlen -= count; return 0; } static void qfill (void) { unsigned char c; /* character buffer */ while (serialReadData (BL_serialDevice, &c, 1, 0, 0) == 1) { if (waiting_ack && c == 5) /* ^e is the acknowledgement character ... */ waiting_ack = 0; else qput (c); } } static void qflush (void) { qfill(); qlen = 0; } static int await_ack (void) { TimePeriod period; startTimePeriod(&period, ACK_TIMEOUT); waiting_ack = 1; do { asyncWait(10); /* sleep for 10 ms */ qfill(); if (!waiting_ack) return 1; } while (!afterTimePeriod(&period, NULL)); return 0; } static void write_prebrl (void) { static const unsigned char request[] = {0X05, 0X44}; /* code to send before Braille */ serialWriteData(BL_serialDevice, request, sizeof(request)); } static int brl_construct (BrailleDisplay *brl, char **parameters, const char *device) { static const unsigned int good_baudrates[] = {300,600,1200,2400,4800,9600,19200,38400, 0}; unsigned int baudrate; /* Init string for Model detection */ if (!*parameters[PARM_BAUDRATE] || !serialValidateBaud(&baudrate, "baud rate", parameters[PARM_BAUDRATE], good_baudrates)) baudrate = BAUDRATE; if (*parameters[PARM_KBEMU]) if (!validateYesNo(&kbemu, parameters[PARM_KBEMU])) logMessage(LOG_WARNING, "%s: %s", "invalid keyboard emulation setting", parameters[PARM_KBEMU]); kbemu = !!kbemu; if (!isSerialDeviceIdentifier(&device)) { unsupportedDeviceIdentifier(device); return 0; } logMessage(LOG_DEBUG, "Opening serial port: %s", device); if ((BL_serialDevice = serialOpenDevice(device))) { if (serialRestartDevice(BL_serialDevice, baudrate)) { if (serialSetFlowControl(BL_serialDevice, SERIAL_FLOW_HARDWARE)) { if ((qbase = malloc(QSZ))) { qflush(); write_prebrl(); if (await_ack()) { logMessage(LOG_DEBUG, "Got response."); /* Next, let's detect the BLT-Model (18, 40, M20, M40). */ barcmds = &bar2cmds; { unsigned char cells[18]; memset(cells, 0, sizeof(cells)); serialWriteData(BL_serialDevice, cells, sizeof(cells)); waiting_ack = 1; asyncWait(400); qfill(); if (waiting_ack) { /* no response, so it must be BLT40 */ blitesz = 40; brl->keyBindings = "40_m20_m40"; } else { blitesz = sizeof(cells); brl->keyBindings = "18"; } } { static const unsigned char request[] = {0X05, 0X57}; /* code to send before Braille */ asyncWait(200); qflush(); serialWriteData(BL_serialDevice, request, sizeof(request)); waiting_ack = 0; asyncWait(200); qfill(); if (qlen) { char response[qlen + 1]; int length = 0; do { unsigned char byte = qbase[qoff % QSZ]; qoff = (qoff + 1) % QSZ, --qlen; if (!byte) break; response[length++] = byte; } while (qlen); response[length] = 0; logMessage(LOG_INFO, "Braille Lite identity: %s", response); if ((response[0] == 'X') && (response[1] == ' ') && (response[2] == 'B')) { blitesz = atoi(&response[3]); if (blitesz <= 20) barcmds = &bar1cmds; } } } logMessage(LOG_NOTICE, "Braille Lite %d detected.", blitesz); brl->textColumns = blitesz; /* initialise size of display - */ brl->textRows = 1; /* Braille Lites are single line displays */ makeOutputTable(dotsTable_ISO11548_1); makeInputTable(); /* Allocate space for buffers */ if ((prevdata = malloc(brl->textColumns))) { memset(prevdata, 0, brl->textColumns); if ((rawdata = malloc(brl->textColumns))) { return 1; //free(rawdata); //rawdata = NULL; } else { logMallocError(); } free(prevdata); prevdata = NULL; } else { logMallocError(); } } else { logMessage(LOG_DEBUG, "BrailleLite not responding."); } free(qbase); qbase = NULL; } else { logMallocError(); } } } serialCloseDevice(BL_serialDevice); BL_serialDevice = NULL; } return 0; } static void brl_destruct (BrailleDisplay * brl) { if (rawdata) { free(rawdata); rawdata = NULL; } if (prevdata) { free(prevdata); prevdata = NULL; } if (qbase) { free(qbase); qbase = NULL; } if (BL_serialDevice) { serialCloseDevice(BL_serialDevice); BL_serialDevice = NULL; } } static int brl_writeWindow (BrailleDisplay * brl, const wchar_t *text) { short i; /* loop counter */ /* If the intoverride flag is set, then calls to writebrl() from the main * module are ignored, because the display is in internal use. * This is highly antisocial behaviour! */ if (intoverride) return 1; /* First, the internal cursor: */ if (int_cursor) { static int timer = 0; /* for internal cursor */ timer = (timer + 1) % (INT_CSR_SPEED * 2); brl->buffer[int_cursor - 1] = (timer < INT_CSR_SPEED)? (BRL_DOT1 | BRL_DOT2 | BRL_DOT3 | BRL_DOT7): (BRL_DOT4 | BRL_DOT5 | BRL_DOT6 | BRL_DOT8); } /* Next we must handle display reversal: */ if (reverse_kbd) { for (i=0; ibuffer[blitesz - 1 - i]); } } else { memcpy(rawdata, brl->buffer, blitesz); } /* Only refresh display if the data has changed: */ if (cellsHaveChanged(prevdata, rawdata, blitesz, NULL, NULL, NULL)) { /* Dot mapping from standard to BrailleLite: */ translateOutputCells(rawdata, rawdata, blitesz); /* First we process any pending keystrokes, just in case any of them * are ^e ... */ waiting_ack = 0; /* Not really necessary, but ... */ qfill (); /* Next we send the ^eD sequence, and wait for an ACK */ waiting_ack = 1; /* send the ^ED... */ write_prebrl(); if (!await_ack()) return 1; /* OK, now we'll suppose we're all clear to send Braille data. */ serialWriteData(BL_serialDevice, rawdata, blitesz); await_ack(); } return 1; } static int brl_readCommand (BrailleDisplay *brl, KeyTableCommandContext context) { static enum { ST_NORMAL, /* transparent */ ST_CURSOR, /* position internal cursor */ ST_REPEAT, /* set repeat count */ ST_CONFIG /* preferences options */ } state = ST_NORMAL; static int repeat = 0; /* repeat count for command */ static int repeatNext = 0; /* flag to indicate whether 0 we repeat the same command or 1 we get the next command and repeat that. */ static int hold, shift, shiftlck, ctrl, meta; #ifdef USE_TEXTTRANS static int dot8shift; #endif /* USE_TEXTTRANS */ static blkey key; static char outmsg[41]; int temp = BRL_CMD_NOOP; again: if(repeatNext || repeat == 0) { /* Process any new keystrokes: */ qfill (); if (qget (&key) == EOF) /* no keys to process */ return EOF; repeatNext = 0; } if(repeat>0) repeat--; /* Our overall behaviour depends on the state variable (see above). */ switch (state) { case ST_NORMAL: /* transparent */ /* First we deal with external commands: */ do { /* if it's not an external command, go on */ if (!key.cmd) break; /* if advance bar, return with corresponding command */ if (key.asc == 0) return key.cmd; /* I thought I was smart when I suggested to remove CMD_CUT_END. Well now there's this nasty exception: the command offset depends on the display size! */ if(key.cmd == BRL_CMD_BLK(COPY_RECT) || key.cmd == BRL_CMD_BLK(COPY_LINE)) key.cmd += blitesz-1; if(key.spcbar && (key.cmd &BRL_MSK_BLK) == BRL_CMD_BLK(PASSKEY)) { /* if(!kbemu) return EOF; */ if (!shiftlck) shift = 0; ctrl = meta = 0; #ifdef USE_TEXTTRANS dot8shift = 0; #endif /* USE_TEXTTRANS */ } /* always OK if chorded */ if (key.spcbar) return key.cmd; /* kbemu could be on, then go on */ if (kbemu && context == KTB_CTX_DEFAULT) break; /* if it's a dangerous command it should have been chorded */ if (dangcmd[(key.raw & 0x38) >> 3] & (1 << (key.raw & 0x07))) break; /* finally we are OK */ return key.cmd; } while (0); /* Next, internal commands: */ if (key.spcbar) switch (key.asc) { case BLT_KBEMU: /* set keyboard emulation */ kbemu ^= 1; shift = shiftlck = ctrl = meta = 0; #ifdef USE_TEXTTRANS dot8shift = 0; #endif /* USE_TEXTTRANS */ if(kbemu) message (NULL, gettext("keyboard emu on"), MSG_SILENT); else message (NULL, gettext("keyboard emu off"), MSG_SILENT); return BRL_CMD_NOOP; case BLT_ROTATE: /* rotate Braille Lite by 180 degrees */ reverse_kbd ^= 1; return BRL_CMD_NOOP; case BLT_POSITN: /* position internal cursor */ int_cursor = blitesz / 2; state = ST_CURSOR; return BRL_CMD_NOOP; case BLT_REPEAT: /* set repeat count */ hold = 0; snprintf (outmsg, sizeof(outmsg), "%s:", gettext("repeat count")); message (NULL, outmsg, MSG_SILENT | MSG_NODELAY); intoverride = 1; state = ST_REPEAT; return BRL_CMD_NOOP; case BLT_CONFIG: /* configuration menu */ snprintf (outmsg, sizeof(outmsg), "%s? [m/s/r/z]", gettext("config")); message (NULL, outmsg, MSG_SILENT | MSG_NODELAY); intoverride = 1; state = ST_CONFIG; return BRL_CMD_NOOP; case ' ': /* practical exception for */ /* If keyboard mode off, space bar == BRL_CMD_HOME */ if (!kbemu || context != KTB_CTX_DEFAULT) return BRL_CMD_HOME; } /* check for routing keys */ if (key.routing) return (BRL_CMD_BLK(ROUTE) + key.routing - 1); if (!kbemu) return BRL_CMD_NOOP; /* Now kbemu is definitely on. */ switch (key.raw & 0xC0) { case 0x40: /* dot 7 */ shift = 1; break; case 0xC0: /* dot 78 */ ctrl = 1; break; case 0x80: /* dot 8 */ #ifdef USE_TEXTTRANS dot8shift = 1; #else /* USE_TEXTTRANS */ meta = 1; #endif /* USE_TEXTTRANS */ break; } if (key.spcbar && key.asc != ' ') switch (key.asc) { case BLT_UPCASE: /* upper case next */ if (shift) shiftlck = 1; else shift = 1; return BRL_CMD_NOOP; case BLT_UPCOFF: /* cancel upper case */ shift = shiftlck = 0; return BRL_CMD_NOOP; case BLT_CTRL: /* control next */ ctrl = 1; return BRL_CMD_NOOP; #ifdef USE_TEXTTRANS case BLT_DOT8SHIFT: /* add dot 8 to next pattern */ dot8shift = 1; return BRL_CMD_NOOP; #endif /* USE_TEXTTRANS */ case BLT_META: /* meta next */ meta = 1; return BRL_CMD_NOOP; case BLT_ABORT: /* abort - quit keyboard emulation */ kbemu = 0; message (NULL, gettext("keyboard emu off"), MSG_SILENT); return BRL_CMD_NOOP; default: /* unrecognised command */ shift = shiftlck = ctrl = meta = 0; #ifdef USE_TEXTTRANS dot8shift = 0; #endif /* USE_TEXTTRANS */ return BRL_CMD_NOOP; } /* OK, it's an ordinary (non-chorded) keystroke, and kbemu is on. */ #ifndef USE_TEXTTRANS if (ctrl && key.asc >= 96) /* old code was (key.asc & 0x1f) */ temp = BRL_CMD_BLK(PASSCHAR) | key.asc | BRL_FLG_INPUT_CONTROL; else if (meta && key.asc >= 96) temp = BRL_CMD_BLK(PASSCHAR) | key.asc | BRL_FLG_INPUT_META; else if (shift && (key.asc & 0x40)) /* old code was (key.asc & 0xdf) */ temp = BRL_CMD_BLK(PASSCHAR) | key.asc | BRL_FLG_INPUT_SHIFT; else temp = BRL_CMD_BLK(PASSCHAR) | key.asc; #else /* USE_TEXTTRANS */ temp = BRL_CMD_BLK(PASSDOTS) | (keys_to_dots[key.raw &0x3F] | ((meta) ? BRL_FLG_INPUT_META : 0) | ((ctrl) ? (BRL_DOT7 | BRL_DOT8) : (shift) ? BRL_DOT7 : (dot8shift) ? BRL_DOT8 : 0)); #endif /* USE_TEXTTRANS */ if (!shiftlck) shift = 0; ctrl = meta = 0; #ifdef USE_TEXTTRANS dot8shift = 0; #endif /* USE_TEXTTRANS */ outmsg[0] = 0; return temp; case ST_CURSOR: /* position internal cursor */ switch (key.cmd) { case BRL_CMD_HOME: /* go to middle */ int_cursor = blitesz / 2; break; case BRL_CMD_LNBEG: /* beginning of display */ int_cursor = 1; break; case BRL_CMD_LNEND: /* end of display */ int_cursor = blitesz; break; case BRL_CMD_FWINLT: /* quarter left */ int_cursor = MAX (int_cursor - blitesz / 4, 1); break; case BRL_CMD_FWINRT: /* quarter right */ int_cursor = MIN (int_cursor + blitesz / 4, blitesz); break; case BRL_CMD_CHRLT: /* one character left */ if (int_cursor > 1) int_cursor--; break; case BRL_CMD_CHRRT: /* one character right */ if (int_cursor < blitesz) int_cursor++; break; case BRL_CMD_BLK(ROUTE): /* route cursor */ if (key.spcbar) { temp = BRL_CMD_BLK(ROUTE) + int_cursor - 1; int_cursor = 0; state = ST_NORMAL; } return temp; case BRL_CMD_BLK(CLIP_NEW): /* begin copy */ case BRL_CMD_BLK(CLIP_ADD): if (key.spcbar) { temp = key.cmd + int_cursor - 1; int_cursor = 0; state = ST_NORMAL; } return temp; case BRL_CMD_BLK(COPY_RECT): /* end copy */ case BRL_CMD_BLK(COPY_LINE): if (key.spcbar) { temp = key.cmd + int_cursor - 1; int_cursor = 0; state = ST_NORMAL; } return temp; case BRL_CMD_DISPMD: /* attribute info */ temp = BRL_CMD_BLK(DESCCHAR) + int_cursor - 1; int_cursor = 0; state = ST_NORMAL; return temp; default: if (key.asc == BLT_ABORT) { /* cancel cursor positioning */ int_cursor = 0; state = ST_NORMAL; } break; } if (key.routing) int_cursor = key.routing; return BRL_CMD_NOOP; case ST_REPEAT: /* set repeat count */ if (key.asc >= '0' && key.asc <= '9') { hold = (hold * 10 + key.asc - '0') % 100; if (hold) { snprintf (outmsg, sizeof(outmsg), "%s: %d", gettext("repeat count"), hold); } else { snprintf (outmsg, sizeof(outmsg), "%s: ", gettext("repeat count")); } intoverride = 0; message (NULL, outmsg, MSG_SILENT | MSG_NODELAY); intoverride = 1; } else if (key.routing) { hold = key.routing +1; snprintf (outmsg, sizeof(outmsg), "%s: %d", gettext("repeat count"), hold); intoverride = 0; message (NULL, outmsg, MSG_SILENT | MSG_NODELAY); intoverride = 1; } else { intoverride = 0; outmsg[0] = 0; state = ST_NORMAL; if (hold > 0) { if (key.asc == SWITCHVT_NEXT || key.asc == SWITCHVT_PREV) /* That's chorded or not... */ return BRL_CMD_BLK(SWITCHVT) + (hold-1); else if (key.asc == O_SETMARK) return BRL_CMD_BLK(SETMARK) + (hold-1); else if (key.asc == O_GOTOMARK) return BRL_CMD_BLK(GOTOMARK) + (hold-1); else if (key.spcbar) /* chorded */ switch (key.asc) { case BLT_ENDCMD: /* set repeat count */ if (hold > 1) { /* repeat next command */ repeat = hold; repeatNext = 1; } /* fall through */ case BLT_ABORT: /* abort or endcmd */ return BRL_CMD_NOOP; } /* if the key is any other, start repeating it. */ repeat = hold; goto again; } } return BRL_CMD_NOOP; case ST_CONFIG: /* preferences options */ switch (key.asc) { case 'm': /* preferences menu */ intoverride = 0; state = ST_NORMAL; return BRL_CMD_PREFMENU; case 's': /* save preferences */ intoverride = 0; state = ST_NORMAL; return BRL_CMD_PREFSAVE; case 'r': /* restore saved preferences */ intoverride = 0; state = ST_NORMAL; return BRL_CMD_PREFLOAD; case BLT_ABORT: /* abort */ intoverride = 0; state = ST_NORMAL; default: /* in any case */ return BRL_CMD_NOOP; } } /* We should never reach this point ... */ return EOF; }