/* * 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) 1995-2021 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 . */ #include "prologue.h" #include #include #include "log.h" #include "ascii.h" #include "bitmask.h" #include "async_wait.h" #include "brl_driver.h" #include "brldefs-hw.h" BEGIN_KEY_NAME_TABLE(routing) KEY_GROUP_ENTRY(HW_GRP_RoutingKeys, "RoutingKey"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLE(braille) KEY_NAME_ENTRY(HW_KEY_Dot1, "Dot1"), KEY_NAME_ENTRY(HW_KEY_Dot2, "Dot2"), KEY_NAME_ENTRY(HW_KEY_Dot3, "Dot3"), KEY_NAME_ENTRY(HW_KEY_Dot4, "Dot4"), KEY_NAME_ENTRY(HW_KEY_Dot5, "Dot5"), KEY_NAME_ENTRY(HW_KEY_Dot6, "Dot6"), KEY_NAME_ENTRY(HW_KEY_Dot7, "Dot7"), KEY_NAME_ENTRY(HW_KEY_Dot8, "Dot8"), KEY_NAME_ENTRY(HW_KEY_Space, "Space"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLE(command) KEY_NAME_ENTRY(HW_KEY_Command1, "Display1"), KEY_NAME_ENTRY(HW_KEY_Command2, "Display2"), KEY_NAME_ENTRY(HW_KEY_Command3, "Display3"), KEY_NAME_ENTRY(HW_KEY_Command4, "Display4"), KEY_NAME_ENTRY(HW_KEY_Command5, "Display5"), KEY_NAME_ENTRY(HW_KEY_Command6, "Display6"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLE(joystick) KEY_NAME_ENTRY(HW_KEY_Up, "Up"), KEY_NAME_ENTRY(HW_KEY_Down, "Down"), KEY_NAME_ENTRY(HW_KEY_Left, "Left"), KEY_NAME_ENTRY(HW_KEY_Right, "Right"), KEY_NAME_ENTRY(HW_KEY_Action, "Action"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLE(thumb) KEY_NAME_ENTRY(HW_KEY_Thumb1, "Previous"), KEY_NAME_ENTRY(HW_KEY_Thumb2, "Back"), KEY_NAME_ENTRY(HW_KEY_Thumb3, "Advance"), KEY_NAME_ENTRY(HW_KEY_Thumb4, "Next"), END_KEY_NAME_TABLE BEGIN_KEY_NAME_TABLES(BI14) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), KEY_NAME_TABLE(joystick), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(BI32) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), KEY_NAME_TABLE(command), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(BI40) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), KEY_NAME_TABLE(command), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(B80) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(command), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(touch) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(C20) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(M40) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(NLS) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), END_KEY_NAME_TABLES BEGIN_KEY_NAME_TABLES(one) KEY_NAME_TABLE(routing), KEY_NAME_TABLE(thumb), KEY_NAME_TABLE(braille), END_KEY_NAME_TABLES DEFINE_KEY_TABLE(BI14) DEFINE_KEY_TABLE(BI32) DEFINE_KEY_TABLE(BI40) DEFINE_KEY_TABLE(B80) DEFINE_KEY_TABLE(touch) DEFINE_KEY_TABLE(C20) DEFINE_KEY_TABLE(M40) DEFINE_KEY_TABLE(NLS) DEFINE_KEY_TABLE(one) BEGIN_KEY_TABLE_LIST &KEY_TABLE_DEFINITION(BI14), &KEY_TABLE_DEFINITION(BI32), &KEY_TABLE_DEFINITION(BI40), &KEY_TABLE_DEFINITION(B80), &KEY_TABLE_DEFINITION(touch), &KEY_TABLE_DEFINITION(C20), &KEY_TABLE_DEFINITION(M40), &KEY_TABLE_DEFINITION(NLS), &KEY_TABLE_DEFINITION(one), END_KEY_TABLE_LIST typedef struct { const char *modelName; const KeyTableDefinition *keyTableDefinition; HW_ModelIdentifier modelIdentifier; unsigned char hasBrailleKeys:1; unsigned char hasCommandKeys:1; unsigned char hasJoystick:1; unsigned char hasSecondThumbKeys:1; } ModelEntry; static const ModelEntry modelEntry_BI14 = { .modelName = "Brailliant BI 14", .hasBrailleKeys = 1, .hasJoystick = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(BI14) }; static const ModelEntry modelEntry_BI32 = { .modelName = "Brailliant BI 32", .hasBrailleKeys = 1, .hasCommandKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(BI32) }; static const ModelEntry modelEntry_BI40 = { .modelName = "Brailliant BI 40", .hasBrailleKeys = 1, .hasCommandKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(BI40) }; static const ModelEntry modelEntry_B80 = { .modelName = "Brailliant B 80", .hasCommandKeys = 1, .hasSecondThumbKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(B80) }; static const ModelEntry modelEntry_touch = { .modelName = "BrailleNote Touch", .modelIdentifier = HW_MODEL_HW_BRAILLE_NOTE_TOUCH, .hasBrailleKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(touch) }; static const ModelEntry modelEntry_C20 = { .modelName = "APH Chameleon 20", .modelIdentifier = HW_MODEL_APH_CHAMELEON_20, .hasBrailleKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(C20) }; static const ModelEntry modelEntry_M40 = { .modelName = "APH Mantis Q40", .modelIdentifier = HW_MODEL_APH_MANTIS_Q40, .keyTableDefinition = &KEY_TABLE_DEFINITION(M40) }; static const ModelEntry modelEntry_NLS = { .modelName = "NLS eReader", .modelIdentifier = HW_MODEL_NLS_EREADER, .hasBrailleKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(NLS) }; static const ModelEntry modelEntry_one = { .modelName = "HumanWare BrailleOne", .modelIdentifier = HW_MODEL_HW_BRAILLE_ONE, .hasBrailleKeys = 1, .keyTableDefinition = &KEY_TABLE_DEFINITION(one) }; static const ModelEntry *modelTable[] = { &modelEntry_BI14, &modelEntry_BI32, &modelEntry_BI40, &modelEntry_B80, &modelEntry_touch, &modelEntry_C20, &modelEntry_M40, &modelEntry_NLS, &modelEntry_one, }; static unsigned char modelCount = ARRAY_COUNT(modelTable); static const ModelEntry * getModelByIdentifier (HW_ModelIdentifier identifier) { if (identifier) { const ModelEntry *const *model = modelTable; const ModelEntry *const *end = model + modelCount; while (model < end) { if ((*model)->modelIdentifier == identifier) return *model; model += 1; } } return NULL; } #define OPEN_READY_DELAY 100 #define SERIAL_PROBE_RESPONSE_TIMEOUT 1000 #define SERIAL_PROBE_RETRY_LIMIT 0 #define SERIAL_INIT_RESEND_DELAY 100 #define SERIAL_INIT_RESEND_LIMIT 10 #define MAXIMUM_TEXT_CELL_COUNT 0XFF #define MAXIMUM_KEY_VALUE 0XFF #define KEYS_BITMASK(name) BITMASK(name, (MAXIMUM_KEY_VALUE + 1), int) #define BRAILLE_KEY_COUNT (8 + 1) #define COMMAND_KEY_COUNT 6 #define THUMB_KEY_COUNT 4 #define JOYSTICK_KEY_COUNT 5 typedef struct { const char *name; int (*probeDisplay) (BrailleDisplay *brl); int (*writeCells) (BrailleDisplay *brl, const unsigned char *cells, unsigned char count); int (*processInputPacket) (BrailleDisplay *brl); int (*keepAwake) (BrailleDisplay *brl); } ProtocolEntry; struct BrailleDataStruct { const ProtocolEntry *protocol; const ModelEntry *model; uint32_t firmwareVersion; unsigned isOffline:1; struct { unsigned char count; KEYS_BITMASK(mask); } pressedKeys; struct { unsigned char rewrite; unsigned char cells[MAXIMUM_TEXT_CELL_COUNT]; } text; struct { struct { unsigned char resendCount; } init; } serial; struct { struct { unsigned char reportSize; } pressedKeys; } hid; }; static const ModelEntry * getModelByCellCount (BrailleDisplay *brl) { switch (brl->textColumns) { case 14: return &modelEntry_BI14; case 32: return &modelEntry_BI32; case 40: return &modelEntry_BI40; case 80: return &modelEntry_B80; default: return NULL; } } static void setModel (BrailleDisplay *brl) { if (!brl->data->model) brl->data->model = getModelByCellCount(brl); logMessage(LOG_DEBUG, "Model Name: %s", brl->data->model->modelName); } static int getDecimalValue (const char *digits, unsigned int count) { const char *end = digits + count; unsigned int result = 0; const char zero = '0'; while (digits < end) { char digit = *digits++; if (digit >= zero) digit -= zero; if (digit < 0) return 0; if (digit > 9) return 0; result *= 10; result += digit; } return result; } static void setFirmwareVersion (BrailleDisplay *brl, unsigned char major, unsigned char minor, unsigned char build) { logMessage(LOG_INFO, "Firmware Version: %u.%u.%u", major, minor, build); brl->data->firmwareVersion = (major << 16) | (minor << 8) << (build << 0); } static int handleKeyEvent (BrailleDisplay *brl, unsigned char key, int press) { KeyGroup group; if (key < HW_KEY_ROUTING) { group = HW_GRP_NavigationKeys; } else { group = HW_GRP_RoutingKeys; key -= HW_KEY_ROUTING; } return enqueueKeyEvent(brl, group, key, press); } static int isCalibrationKey (BrailleDisplay *brl, unsigned char key) { switch (key) { default: return 0; case HW_KEY_CAL_OK: case HW_KEY_CAL_FAIL: case HW_KEY_CAL_EMPTY: case HW_KEY_CAL_RESET: break; } releaseBrailleKeys(brl); BITMASK_ZERO(brl->data->pressedKeys.mask); brl->data->pressedKeys.count = 0; return 1; } static int handleKeyPress (BrailleDisplay *brl, unsigned char key) { if (BITMASK_TEST(brl->data->pressedKeys.mask, key)) return 0; BITMASK_SET(brl->data->pressedKeys.mask, key); brl->data->pressedKeys.count += 1; handleKeyEvent(brl, key, 1); return 1; } static int handleKeyRelease (BrailleDisplay *brl, unsigned char key) { if (!BITMASK_TEST(brl->data->pressedKeys.mask, key)) return 0; BITMASK_CLEAR(brl->data->pressedKeys.mask, key); brl->data->pressedKeys.count -= 1; handleKeyEvent(brl, key, 0); return 1; } static void handlePressedKeysArray (BrailleDisplay *brl, unsigned char *keys, size_t count) { KEYS_BITMASK(pressedMask); BITMASK_ZERO(pressedMask); unsigned int pressedCount = 0; { const unsigned char *key = keys; const unsigned char *end = keys + count; while (key < end) { if (!*key) break; if (!BITMASK_TEST(pressedMask, *key)) { BITMASK_SET(pressedMask, *key); pressedCount += 1; if (isCalibrationKey(brl, *key)) return; handleKeyPress(brl, *key); } key += 1; } } if (brl->data->pressedKeys.count > pressedCount) { for (unsigned int key=0; key<=MAXIMUM_KEY_VALUE; key+=1) { if (!BITMASK_TEST(pressedMask, key)) { if (handleKeyRelease(brl, key)) { if (brl->data->pressedKeys.count == pressedCount) { break; } } } } } } static void handlePoweringOff (BrailleDisplay *brl) { logMessage(LOG_CATEGORY(BRAILLE_DRIVER), "powering off"); brl->data->isOffline = 1; } static BraillePacketVerifierResult verifySerialPacket ( BrailleDisplay *brl, unsigned char *bytes, size_t size, size_t *length, void *data ) { unsigned char byte = bytes[size-1]; switch (size) { case 1: if (byte != ESC) return BRL_PVR_INVALID; *length = 3; break; case 3: *length += byte; break; default: break; } return BRL_PVR_INCLUDE; } static size_t readSerialPacket (BrailleDisplay *brl, void *buffer, size_t size) { return readBraillePacket(brl, NULL, buffer, size, verifySerialPacket, NULL); } static int writeSerialPacket (BrailleDisplay *brl, unsigned char type, unsigned char length, const void *data) { HW_Packet packet; packet.fields.header = ESC; packet.fields.type = type; packet.fields.length = length; if (data) memcpy(packet.fields.data.bytes, data, length); length += packet.fields.data.bytes - packet.bytes; return writeBraillePacket(brl, NULL, &packet, length); } static int writeSerialRequest (BrailleDisplay *brl, unsigned char type) { return writeSerialPacket(brl, type, 0, NULL); } static int writeSerialIdentifyRequest (BrailleDisplay *brl) { return writeSerialRequest(brl, HW_MSG_INIT); } static size_t readSerialResponse (BrailleDisplay *brl, void *packet, size_t size) { return readSerialPacket(brl, packet, size); } static BrailleResponseResult isSerialIdentityResponse (BrailleDisplay *brl, const void *packet, size_t size) { const HW_Packet *response = packet; if (response->fields.type != HW_MSG_INIT_RESP) return BRL_RSP_UNEXPECTED; if (!response->fields.data.init.stillInitializing) return BRL_RSP_DONE; if (++brl->data->serial.init.resendCount > SERIAL_INIT_RESEND_LIMIT) { logMessage(LOG_CATEGORY(BRAILLE_DRIVER), "channel initialization timeout"); return BRL_RSP_FAIL; } logMessage(LOG_CATEGORY(BRAILLE_DRIVER), "channel still initializing"); asyncWait(SERIAL_INIT_RESEND_DELAY); if (writeSerialIdentifyRequest(brl)) return BRL_RSP_CONTINUE; return BRL_RSP_FAIL; } static int probeSerialDisplay (BrailleDisplay *brl) { HW_Packet response; brl->data->serial.init.resendCount = 0; if (probeBrailleDisplay(brl, SERIAL_PROBE_RETRY_LIMIT, NULL, SERIAL_PROBE_RESPONSE_TIMEOUT, writeSerialIdentifyRequest, readSerialResponse, &response, sizeof(response.bytes), isSerialIdentityResponse)) { logMessage(LOG_INFO, "detected Humanware device: model=%u cells=%u", response.fields.data.init.modelIdentifier, response.fields.data.init.cellCount); { unsigned char identifier = response.fields.data.init.modelIdentifier; const ModelEntry *model = getModelByIdentifier(identifier); if (model) { if (!brl->data->model) { brl->data->model = model; } else if (model != brl->data->model) { } } } brl->textColumns = response.fields.data.init.cellCount; setModel(brl); writeSerialRequest(brl, HW_MSG_GET_FIRMWARE_VERSION); writeSerialRequest(brl, HW_MSG_GET_KEYS); return 1; } return 0; } static int writeSerialCells (BrailleDisplay *brl, const unsigned char *cells, unsigned char count) { return writeSerialPacket(brl, HW_MSG_DISPLAY, count, cells); } static int processSerialInputPacket (BrailleDisplay *brl) { HW_Packet packet; size_t length = readSerialPacket(brl, &packet, sizeof(packet)); if (!length) return 0; brl->data->isOffline = 0; switch (packet.fields.type) { case HW_MSG_KEYS: handlePressedKeysArray(brl, packet.fields.data.bytes, packet.fields.length); break; case HW_MSG_KEY_DOWN: { unsigned char key = packet.fields.data.key.id; if (isCalibrationKey(brl, key)) break; handleKeyPress(brl, key); break; } case HW_MSG_KEY_UP: handleKeyRelease(brl, packet.fields.data.key.id); break; case HW_MSG_FIRMWARE_VERSION_RESP: setFirmwareVersion(brl, packet.fields.data.firmwareVersion.major, packet.fields.data.firmwareVersion.minor, packet.fields.data.firmwareVersion.build); break; case HW_MSG_KEEP_AWAKE_RESP: break; case HW_MSG_POWERING_OFF: handlePoweringOff(brl); break; default: logUnexpectedPacket(&packet, length); break; } return 1; } static int keepSerialAwake (BrailleDisplay *brl) { return writeSerialRequest(brl, HW_MSG_KEEP_AWAKE); } static const ProtocolEntry serialProtocol = { .name = "serial", .probeDisplay = probeSerialDisplay, .writeCells = writeSerialCells, .processInputPacket = processSerialInputPacket, .keepAwake = keepSerialAwake }; static ssize_t readHidFeature ( BrailleDisplay *brl, unsigned char report, unsigned char *buffer, size_t size ) { if (size > 0) *buffer = 0; ssize_t length = gioGetHidFeature(brl->gioEndpoint, report, buffer, size); if (length != -1) { if ((length > 0) && (*buffer == report)) { logInputPacket(buffer, length); return length; } errno = EAGAIN; } logSystemError("USB HID feature read"); return -1; } static int writeHidReport (BrailleDisplay *brl, const void *data, size_t size) { logOutputPacket(data, size); { ssize_t result = gioWriteHidReport(brl->gioEndpoint, data, size); if (result != -1) return 1; } logSystemError("HID report write"); return 0; } static BraillePacketVerifierResult verifyHidPacket ( BrailleDisplay *brl, unsigned char *bytes, size_t size, size_t *length, void *data ) { unsigned char byte = bytes[size-1]; switch (size) { case 1: switch (byte) { case HW_REP_FTR_Capabilities: *length = sizeof(HW_CapabilitiesReport); break; case HW_REP_FTR_Settings: *length = sizeof(HW_SettingsReport); break; case HW_REP_FTR_Configuration: *length = sizeof(HW_ConfigurationReport); break; case HW_REP_IN_PressedKeys: *length = brl->data->hid.pressedKeys.reportSize; break; case HW_REP_FTR_KeepAwake: *length = sizeof(HW_KeepAwakeReport); break; case HW_REP_IN_PoweringOff: *length = sizeof(HW_PoweringOffReport); break; default: return BRL_PVR_INVALID; } break; default: break; } return BRL_PVR_INCLUDE; } static size_t readHidPacket (BrailleDisplay *brl, void *buffer, size_t size) { return readBraillePacket(brl, NULL, buffer, size, verifyHidPacket, NULL); } static int probeHidDisplay (BrailleDisplay *brl) { HW_CapabilitiesReport capabilities; unsigned char *const buffer = (unsigned char *)&capabilities; const size_t size = sizeof(capabilities); ssize_t length = readHidFeature(brl, HW_REP_FTR_Capabilities, buffer, size); if (length == -1) return 0; memset(&buffer[length], 0, (size - length)); setFirmwareVersion(brl, getDecimalValue(&capabilities.version.major, 1), getDecimalValue(&capabilities.version.minor, 1), getDecimalValue(&capabilities.version.build[0], 2) ); brl->textColumns = capabilities.cellCount; setModel(brl); { unsigned char *size = &brl->data->hid.pressedKeys.reportSize; *size = 1 + THUMB_KEY_COUNT + brl->textColumns; if (brl->data->model->hasBrailleKeys) *size += BRAILLE_KEY_COUNT; if (brl->data->model->hasCommandKeys) *size += COMMAND_KEY_COUNT; if (brl->data->model->hasJoystick) *size += JOYSTICK_KEY_COUNT; if (brl->data->model->hasSecondThumbKeys) *size += THUMB_KEY_COUNT; } return 1; } static int writeHidCells (BrailleDisplay *brl, const unsigned char *cells, unsigned char count) { unsigned char buffer[4 + count]; unsigned char *byte = buffer; *byte++ = HW_REP_OUT_WriteCells; *byte++ = 1; *byte++ = 0; *byte++ = count; byte = mempcpy(byte, cells, count); return writeHidReport(brl, buffer, byte-buffer); } static int processHidInputPacket (BrailleDisplay *brl) { unsigned char packet[0XFF]; size_t length = readHidPacket(brl, packet, sizeof(packet)); if (!length) return 0; brl->data->isOffline = 0; switch (packet[0]) { case HW_REP_IN_PressedKeys: { const unsigned int offset = 1; handlePressedKeysArray(brl, packet+offset, length-offset); break; } case HW_REP_IN_PoweringOff: handlePoweringOff(brl); break; default: logUnexpectedPacket(packet, length); case HW_REP_FTR_Settings: case HW_REP_FTR_Configuration: break; } return 1; } static int keepHidAwake (BrailleDisplay *brl) { HW_KeepAwakeReport report; memset(&report, 0, sizeof(report)); report.reportIdentifier = HW_REP_FTR_KeepAwake; return writeHidReport(brl, &report, sizeof(report)); } static const ProtocolEntry hidProtocol = { .name = "HID", .probeDisplay = probeHidDisplay, .writeCells = writeHidCells, .processInputPacket = processHidInputPacket, .keepAwake = keepHidAwake }; typedef struct { const ProtocolEntry *protocol; const ModelEntry *model; } ResourceData; static const ResourceData resourceData_serial = { .protocol = &serialProtocol }; static const ResourceData resourceData_serial_BI14 = { .model = &modelEntry_BI14, .protocol = &serialProtocol }; static const ResourceData resourceData_serial_C20 = { .model = &modelEntry_C20, .protocol = &serialProtocol }; static const ResourceData resourceData_serial_M40 = { .model = &modelEntry_M40, .protocol = &serialProtocol }; static const ResourceData resourceData_serial_NLS = { .model = &modelEntry_NLS, .protocol = &serialProtocol }; static const ResourceData resourceData_serial_one = { .model = &modelEntry_one, .protocol = &serialProtocol }; static const ResourceData resourceData_HID = { .protocol = &hidProtocol }; static const ResourceData resourceData_HID_touch = { .model = &modelEntry_touch, .protocol = &hidProtocol }; static const ResourceData resourceData_HID_C20 = { .model = &modelEntry_C20, .protocol = &hidProtocol }; static const ResourceData resourceData_HID_M40 = { .model = &modelEntry_M40, .protocol = &hidProtocol }; static const ResourceData resourceData_HID_NLS = { .model = &modelEntry_NLS, .protocol = &hidProtocol }; static const ResourceData resourceData_HID_one = { .model = &modelEntry_one, .protocol = &hidProtocol }; static int connectResource (BrailleDisplay *brl, const char *identifier) { static const SerialParameters serialParameters = { SERIAL_DEFAULT_PARAMETERS, .baud = 115200, .parity = SERIAL_PARITY_EVEN }; BEGIN_USB_CHANNEL_DEFINITIONS { /* Brailliant BI 32/40, Brailliant B 80 (serial protocol) */ .vendor=0X1C71, .product=0XC005, .configuration=1, .interface=1, .alternative=0, .inputEndpoint=2, .outputEndpoint=3, .serial = &serialParameters, .data = &resourceData_serial, .resetDevice = 1 }, { /* Brailliant BI 14 (serial protocol) */ .vendor=0X1C71, .product=0XC021, .configuration=1, .interface=1, .alternative=0, .inputEndpoint=1, .outputEndpoint=1, .serial = &serialParameters, .data = &resourceData_serial_BI14, .resetDevice = 1 }, { /* APH Chameleon 20 (serial protocol) */ .vendor=0X1C71, .product=0XC104, .configuration=1, .interface=5, .alternative=0, .inputEndpoint=10, .outputEndpoint=11, .serial = &serialParameters, .data = &resourceData_serial_C20, .resetDevice = 1 }, { /* APH Mantis Q40 (serial protocol) */ .vendor=0X1C71, .product=0XC114, .configuration=1, .interface=5, .alternative=0, .inputEndpoint=10, .outputEndpoint=11, .serial = &serialParameters, .data = &resourceData_serial_M40, .resetDevice = 1 }, { /* NLS eReader (serial protocol) */ .vendor=0X1C71, .product=0XCE04, .configuration=1, .interface=5, .alternative=0, .inputEndpoint=10, .outputEndpoint=11, .serial = &serialParameters, .data = &resourceData_serial_NLS, .resetDevice = 1 }, { /* Humanware BrailleOne (serial protocol) */ .vendor=0X1C71, .product=0XC124, .configuration=1, .interface=5, .alternative=0, .inputEndpoint=10, .outputEndpoint=11, .serial = &serialParameters, .data = &resourceData_serial_one, .resetDevice = 1 }, { /* non-Touch models (HID protocol) */ .vendor=0X1C71, .product=0XC006, .configuration=1, .interface=0, .alternative=0, .inputEndpoint=1, .data = &resourceData_HID }, { /* BrailleNote Touch (HID protocol) */ .vendor=0X1C71, .product=0XC00A, .configuration=1, .interface=0, .alternative=0, .inputEndpoint=1, .data = &resourceData_HID_touch }, { /* APH Chameleon 20 (HID protocol) */ .vendor=0X1C71, .product=0XC101, .configuration=1, .interface=1, .alternative=0, .inputEndpoint=4, .outputEndpoint=5, .data = &resourceData_HID_C20, .resetDevice = 1 }, { /* APH Mantis Q40 (HID protocol) */ .vendor=0X1C71, .product=0XC111, .configuration=1, .interface=1, .alternative=0, .inputEndpoint=4, .outputEndpoint=5, .data = &resourceData_HID_M40, .resetDevice = 1 }, { /* NLS eReader (HID protocol) */ .vendor=0X1C71, .product=0XCE01, .configuration=1, .interface=1, .alternative=0, .inputEndpoint=4, .outputEndpoint=5, .data = &resourceData_HID_NLS, .resetDevice = 1 }, { /* Humanware BrailleOne (HID protocol) */ .vendor=0X1C71, .product=0XC121, .configuration=1, .interface=1, .alternative=0, .inputEndpoint=4, .outputEndpoint=5, .data = &resourceData_HID_one, .resetDevice = 1 }, END_USB_CHANNEL_DEFINITIONS GioDescriptor descriptor; gioInitializeDescriptor(&descriptor); descriptor.serial.parameters = &serialParameters; descriptor.serial.options.applicationData = &resourceData_serial; descriptor.serial.options.readyDelay = OPEN_READY_DELAY; descriptor.usb.channelDefinitions = usbChannelDefinitions; descriptor.usb.options.readyDelay = OPEN_READY_DELAY; descriptor.bluetooth.channelNumber = 1; descriptor.bluetooth.discoverChannel = 1; descriptor.bluetooth.options.applicationData = &resourceData_serial; descriptor.bluetooth.options.readyDelay = OPEN_READY_DELAY; if (connectBrailleResource(brl, identifier, &descriptor, NULL)) { const ResourceData *resourceData = gioGetApplicationData(brl->gioEndpoint); brl->data->protocol = resourceData->protocol; brl->data->model = resourceData->model; return 1; } return 0; } static void disconnectResource (BrailleDisplay *brl) { disconnectBrailleResource(brl, NULL); } 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)); if (connectResource(brl, device)) { if (brl->data->protocol->probeDisplay(brl)) { setBrailleKeyTable(brl, brl->data->model->keyTableDefinition); makeOutputTable(dotsTable_ISO11548_1); brl->data->text.rewrite = 1; return 1; } disconnectResource(brl); } free(brl->data); brl->data = NULL; } else { logMallocError(); } return 0; } static void brl_destruct (BrailleDisplay *brl) { disconnectResource(brl); free(brl->data); } static int brl_writeWindow (BrailleDisplay *brl, const wchar_t *text) { const size_t count = brl->textColumns; if (cellsHaveChanged(brl->data->text.cells, brl->buffer, count, NULL, NULL, &brl->data->text.rewrite)) { unsigned char cells[count]; translateOutputCells(cells, brl->data->text.cells, count); if (!brl->data->protocol->writeCells(brl, cells, count)) return 0; } return 1; } static int brl_readCommand (BrailleDisplay *brl, KeyTableCommandContext context) { while (brl->data->protocol->processInputPacket(brl)); if (errno != EAGAIN) return BRL_CMD_RESTARTBRL; if (brl->data->isOffline) return BRL_CMD_OFFLINE; return EOF; }