/* * 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://mielke.cc/brltty/ * * This software is maintained by Dave Mielke . */ #include "prologue.h" #include #include #include #include #include "log.h" #include "async_io.h" #include "brl_driver.h" #include "brldefs-bg.h" #define KEYBOARD_DEVICE_NAME "cp430_keypad" #define BRAILLE_DEVICE_PATH "/dev/braille0" #define TEXT_CELL_COUNT 20 BEGIN_KEY_NAME_TABLE(navigation) KEY_NAME_ENTRY(BG_NAV_Dot1, "Dot1"), KEY_NAME_ENTRY(BG_NAV_Dot2, "Dot2"), KEY_NAME_ENTRY(BG_NAV_Dot3, "Dot3"), KEY_NAME_ENTRY(BG_NAV_Dot4, "Dot4"), KEY_NAME_ENTRY(BG_NAV_Dot5, "Dot5"), KEY_NAME_ENTRY(BG_NAV_Dot6, "Dot6"), KEY_NAME_ENTRY(BG_NAV_Dot7, "Dot7"), KEY_NAME_ENTRY(BG_NAV_Dot8, "Dot8"), KEY_NAME_ENTRY(BG_NAV_Space, "Space"), KEY_NAME_ENTRY(BG_NAV_Backward, "Backward"), KEY_NAME_ENTRY(BG_NAV_Forward, "Forward"), KEY_NAME_ENTRY(BG_NAV_Center, "Center"), KEY_NAME_ENTRY(BG_NAV_Left, "Left"), KEY_NAME_ENTRY(BG_NAV_Right, "Right"), KEY_NAME_ENTRY(BG_NAV_Up, "Up"), KEY_NAME_ENTRY(BG_NAV_Down, "Down"), KEY_NAME_ENTRY(BG_NAV_Louder, "Louder"), KEY_NAME_ENTRY(BG_NAV_Softer, "Softer"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLE(routing) KEY_GROUP_ENTRY(BG_GRP_RoutingKeys, "RoutingKey"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLES(all) KEY_NAME_TABLE(navigation), KEY_NAME_TABLE(routing), END_KEY_NAME_TABLES DEFINE_KEY_TABLE(all) BEGIN_KEY_TABLE_LIST &KEY_TABLE_DEFINITION(all), END_KEY_TABLE_LIST struct BrailleDataStruct { struct { int fileDescriptor; AsyncHandle inputHandler; } keyboard; struct { int fileDescriptor; } braille; struct { unsigned char rewrite; unsigned char cells[TEXT_CELL_COUNT]; } text; }; #ifdef HAVE_LINUX_INPUT_H #include #ifndef KEY_BRL_DOT9 #define KEY_BRL_DOT9 0X1F9 #endif /* KEY_BRL_DOT9 */ #include #include #include "metec_flat20_ioctl.h" static int handleKeyEvent (BrailleDisplay *brl, int code, int press) { KeyNumber number; switch(code) { #define NAV(CODE,KEY) case KEY_##CODE: number = BG_NAV_##KEY; break; NAV(UP, Up) NAV(LEFT, Left) NAV(RIGHT, Right) NAV(DOWN, Down) NAV(OK, Center) NAV(NEXT, Forward) NAV(PREVIOUS, Backward) NAV(VOLUMEUP, Louder) NAV(VOLUMEDOWN, Softer) NAV(BRL_DOT1, Dot7) NAV(BRL_DOT2, Dot3) NAV(BRL_DOT3, Dot2) NAV(BRL_DOT4, Dot1) NAV(BRL_DOT5, Dot4) NAV(BRL_DOT6, Dot5) NAV(BRL_DOT7, Dot6) NAV(BRL_DOT8, Dot8) NAV(BRL_DOT9, Space) #undef NAV default: { int key = code - 0X2D0; if ((key >= 0) && (key < TEXT_CELL_COUNT)) { return enqueueKeyEvent(brl, BG_GRP_RoutingKeys, key, press); } } return 0; } return enqueueKeyEvent(brl, BG_GRP_NavigationKeys, number, press); } ASYNC_INPUT_CALLBACK(handleKeyboardEvent) { BrailleDisplay *brl = parameters->data; static const char label[] = "keyboard"; if (parameters->error) { logMessage(LOG_DEBUG, "%s read error: fd=%d: %s", label, brl->data->keyboard.fileDescriptor, strerror(parameters->error)); } else if (parameters->end) { logMessage(LOG_DEBUG, "%s end-of-file: fd=%d", label, brl->data->keyboard.fileDescriptor); } else { const struct input_event *event = parameters->buffer; if (parameters->length >= sizeof(*event)) { logInputPacket(event, sizeof(*event)); switch (event->type) { case EV_KEY: { int release = event->value == 0; int press = event->value == 1; if (release || press) handleKeyEvent(brl, event->code, press); break; } default: break; } return sizeof(*event); } } return 0; } static char * findEventDevice (const char *deviceName) { char *devicePath = NULL; char directoryPath[0X80]; DIR *directory; snprintf(directoryPath, sizeof(directoryPath), "/sys/bus/platform/devices/%s/input", deviceName); if ((directory = opendir(directoryPath))) { struct dirent *entry; while ((entry = readdir(directory))) { unsigned int eventNumber; char extra; if (sscanf(entry->d_name, "input%u%c", &eventNumber, &extra) == 1) { char path[0X80]; snprintf(path, sizeof(path), "/dev/input/event%u", eventNumber); if (!(devicePath = strdup(path))) logMallocError(); break; } } closedir(directory); } else { logMessage(LOG_ERR, "event device input directory open error: %s: %s", directoryPath, strerror(errno)); } return devicePath; } static int openEventDevice (const char *deviceName) { char *devicePath = findEventDevice(deviceName); if (devicePath) { int deviceDescriptor = open(devicePath, O_RDONLY); if (deviceDescriptor != -1) { if (ioctl(deviceDescriptor, EVIOCGRAB, 1) != -1) { logMessage(LOG_INFO, "Event Device Opened: %s: %s: fd=%d", deviceName, devicePath, deviceDescriptor); free(devicePath); return deviceDescriptor; } else { logSystemError("ioctl[EVIOCGRAB]"); } close(deviceDescriptor); } else { logMessage(LOG_ERR, "event device open error: %s: %s", devicePath, strerror(errno)); } free(devicePath); } return -1; } #endif /* HAVE_LINUX_INPUT_H */ static int openKeyboardDevice (BrailleDisplay *brl) { #ifdef HAVE_LINUX_INPUT_H if ((brl->data->keyboard.fileDescriptor = openEventDevice(KEYBOARD_DEVICE_NAME)) != -1) { if (asyncReadFile(&brl->data->keyboard.inputHandler, brl->data->keyboard.fileDescriptor, sizeof(struct input_event), handleKeyboardEvent, brl)) { return 1; } close(brl->data->keyboard.fileDescriptor); brl->data->keyboard.fileDescriptor = -1; } else { logSystemError("open[keyboard]"); } #endif /* HAVE_LINUX_INPUT_H */ return 0; } static void closeKeyboardDevice (BrailleDisplay *brl) { if (brl->data->keyboard.inputHandler) { asyncCancelRequest(brl->data->keyboard.inputHandler); brl->data->keyboard.inputHandler = NULL; } if (brl->data->keyboard.fileDescriptor != -1) { close(brl->data->keyboard.fileDescriptor); brl->data->keyboard.fileDescriptor = -1; } } static int openBrailleDevice (BrailleDisplay *brl) { if ((brl->data->braille.fileDescriptor = open(BRAILLE_DEVICE_PATH, O_WRONLY)) != -1) { return 1; } else { logSystemError("open[braille]"); } return 0; } static void closeBrailleDevice (BrailleDisplay *brl) { if (brl->data->braille.fileDescriptor != -1) { close(brl->data->braille.fileDescriptor); brl->data->braille.fileDescriptor = -1; } } static int writeBrailleCells (BrailleDisplay *brl, const unsigned char *cells, size_t count) { logOutputPacket(cells, count); if (write(brl->data->braille.fileDescriptor, cells, count) != -1) return 1; logSystemError("write[braille]"); return 0; } static int connectResource (BrailleDisplay *brl, const char *identifier) { GioDescriptor descriptor; gioInitializeDescriptor(&descriptor); if (connectBrailleResource(brl, "null:", &descriptor, NULL)) { return 1; } return 0; } static int brl_construct (BrailleDisplay *brl, char **parameters, const char *device) { if ((brl->data = malloc(sizeof(*brl->data)))) { memset(brl->data, 0, sizeof(*brl->data)); brl->data->keyboard.fileDescriptor = -1; brl->data->keyboard.inputHandler = NULL; brl->data->braille.fileDescriptor = -1; if (connectResource(brl, device)) { if (openBrailleDevice(brl)) { if (openKeyboardDevice(brl)) { brl->textColumns = TEXT_CELL_COUNT; setBrailleKeyTable(brl, &KEY_TABLE_DEFINITION(all)); makeOutputTable(dotsTable_ISO11548_1); brl->data->text.rewrite = 1; return 1; } closeBrailleDevice(brl); } disconnectBrailleResource(brl, NULL); } free(brl->data); } else { logMallocError(); } return 0; } static void brl_destruct (BrailleDisplay *brl) { disconnectBrailleResource(brl, NULL); if (brl->data) { closeKeyboardDevice(brl); closeBrailleDevice(brl); free(brl->data); brl->data = NULL; } } static int brl_writeWindow (BrailleDisplay *brl, const wchar_t *text) { if (cellsHaveChanged(brl->data->text.cells, brl->buffer, brl->textColumns, NULL, NULL, &brl->data->text.rewrite)) { unsigned char cells[brl->textColumns]; translateOutputCells(cells, brl->data->text.cells, brl->textColumns); if (!writeBrailleCells(brl, cells, sizeof(cells))) return 0; } return 1; } static int brl_readCommand (BrailleDisplay *brl, KeyTableCommandContext context) { return EOF; }