mirror of
https://github.com/gdsports/USBHost_t36
synced 2024-11-21 16:45:04 -05:00
328 lines
9.3 KiB
C++
328 lines
9.3 KiB
C++
/* USB EHCI Host for Teensy 3.6
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* Copyright 2017 Paul Stoffregen (paul@pjrc.com)
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice shall be included
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* in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#include <Arduino.h>
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#include "USBHost_t36.h" // Read this header first for key info
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#include "keylayouts.h" // from Teensyduino core library
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typedef struct {
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KEYCODE_TYPE code;
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uint8_t ascii;
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} keycode_extra_t;
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typedef struct {
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KEYCODE_TYPE code;
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KEYCODE_TYPE codeNumlockOff;
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uint8_t charNumlockOn; // We will assume when num lock is on we have all characters...
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} keycode_numlock_t;
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#ifdef M
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#undef M
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#endif
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#define M(n) ((n) & KEYCODE_MASK)
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keycode_extra_t keycode_extras[] = {
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{M(KEY_ENTER), '\n'},
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{M(KEY_ESC), 0x1b},
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{M(KEY_TAB), 0x9 }
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};
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// Some of these mapped to key + shift.
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keycode_numlock_t keycode_numlock[] = {
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{M(KEYPAD_SLASH), '/', '/'},
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{M(KEYPAD_ASTERIX), '*', '*'},
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{M(KEYPAD_MINUS), '-', '-'},
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{M(KEYPAD_PLUS), '+', '+'},
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{M(KEYPAD_ENTER), '\n', '\n'},
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{M(KEYPAD_1), 0x80 | M(KEY_END), '1'},
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{M(KEYPAD_2), 0x80 | M(KEY_DOWN), '2'},
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{M(KEYPAD_3), 0x80 | M(KEY_PAGE_DOWN), '3'},
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{M(KEYPAD_4), 0x80 | M(KEY_LEFT), '4'},
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{M(KEYPAD_5), 0x00, '5'},
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{M(KEYPAD_6), 0x80 | M(KEY_RIGHT), '6'},
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{M(KEYPAD_7), 0x80 | M(KEY_HOME), '7'},
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{M(KEYPAD_8), 0x80 | M(KEY_UP), '8'},
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{M(KEYPAD_9), 0x80 | M(KEY_PAGE_UP), '9'},
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{M(KEYPAD_0), 0x80 | M(KEY_INSERT), '0'},
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{M(KEYPAD_PERIOD), 0x80 | M(KEY_DELETE), '.'}
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};
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void KeyboardController::init()
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{
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contribute_Pipes(mypipes, sizeof(mypipes)/sizeof(Pipe_t));
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contribute_Transfers(mytransfers, sizeof(mytransfers)/sizeof(Transfer_t));
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driver_ready_for_device(this);
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}
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bool KeyboardController::claim(Device_t *dev, int type, const uint8_t *descriptors, uint32_t len)
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{
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println("KeyboardController claim this=", (uint32_t)this, HEX);
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// only claim at interface level
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if (type != 1) return false;
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if (len < 9+9+7) return false;
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uint32_t numendpoint = descriptors[4];
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if (numendpoint < 1) return false;
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if (descriptors[5] != 3) return false; // bInterfaceClass, 3 = HID
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if (descriptors[6] != 1) return false; // bInterfaceSubClass, 1 = Boot Device
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if (descriptors[7] != 1) return false; // bInterfaceProtocol, 1 = Keyboard
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if (descriptors[9] != 9) return false;
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if (descriptors[10] != 33) return false; // HID descriptor (ignored, Boot Protocol)
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if (descriptors[18] != 7) return false;
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if (descriptors[19] != 5) return false; // endpoint descriptor
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uint32_t endpoint = descriptors[20];
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println("ep = ", endpoint, HEX);
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if ((endpoint & 0xF0) != 0x80) return false; // must be IN direction
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endpoint &= 0x0F;
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if (endpoint == 0) return false;
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if (descriptors[21] != 3) return false; // must be interrupt type
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uint32_t size = descriptors[22] | (descriptors[23] << 8);
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println("packet size = ", size);
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if (size != 8) {
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return false; // must be 8 bytes for Keyboard Boot Protocol
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}
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uint32_t interval = descriptors[24];
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println("polling interval = ", interval);
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datapipe = new_Pipe(dev, 3, endpoint, 1, 8, interval);
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datapipe->callback_function = callback;
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queue_Data_Transfer(datapipe, report, 8, this);
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mk_setup(setup, 0x21, 10, 0, 0, 0); // 10=SET_IDLE
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queue_Control_Transfer(dev, &setup, NULL, this);
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return true;
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}
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void KeyboardController::control(const Transfer_t *transfer)
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{
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}
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void KeyboardController::callback(const Transfer_t *transfer)
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{
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//println("KeyboardController Callback (static)");
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if (transfer->driver) {
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((KeyboardController *)(transfer->driver))->new_data(transfer);
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}
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}
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void KeyboardController::disconnect()
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{
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// TODO: free resources
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}
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// Arduino defined this static weak symbol callback, and their
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// examples use it as the only way to detect new key presses,
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// so unfortunate as static weak callbacks are, it probably
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// needs to be supported for compatibility
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extern "C" {
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void __keyboardControllerEmptyCallback() { }
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}
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void keyPressed() __attribute__ ((weak, alias("__keyboardControllerEmptyCallback")));
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void keyReleased() __attribute__ ((weak, alias("__keyboardControllerEmptyCallback")));
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static bool contains(uint8_t b, const uint8_t *data)
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{
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if (data[2] == b || data[3] == b || data[4] == b) return true;
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if (data[5] == b || data[6] == b || data[7] == b) return true;
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return false;
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}
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void KeyboardController::new_data(const Transfer_t *transfer)
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{
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processing_new_data_ = true;
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println("KeyboardController Callback (member)");
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print(" KB Data: ");
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print_hexbytes(transfer->buffer, 8);
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for (int i=2; i < 8; i++) {
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uint32_t key = prev_report[i];
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if (key >= 4 && !contains(key, report)) {
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key_release(prev_report[0], key);
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}
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}
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for (int i=2; i < 8; i++) {
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uint32_t key = report[i];
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if (key >= 4 && !contains(key, prev_report)) {
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key_press(report[0], key);
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}
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}
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memcpy(prev_report, report, 8);
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queue_Data_Transfer(datapipe, report, 8, this);
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processing_new_data_ = false;
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// See if we have any outstanding leds to update
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if (update_leds_) {
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updateLEDS();
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}
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}
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void KeyboardController::numLock(bool f) {
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if (leds_.numLock != f) {
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leds_.numLock = f;
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updateLEDS();
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}
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}
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void KeyboardController::capsLock(bool f) {
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if (leds_.capsLock != f) {
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leds_.capsLock = f;
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updateLEDS();
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}
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}
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void KeyboardController::scrollLock(bool f) {
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if (leds_.scrollLock != f) {
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leds_.scrollLock = f;
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updateLEDS();
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}
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}
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void KeyboardController::key_press(uint32_t mod, uint32_t key)
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{
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// TODO: queue events, perform callback from Task
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println(" press, key=", key);
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modifiers = mod;
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keyOEM = key;
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keyCode = convert_to_unicode(mod, key);
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println(" unicode = ", keyCode);
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if (keyPressedFunction) {
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keyPressedFunction(keyCode);
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} else {
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keyPressed();
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}
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}
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void KeyboardController::key_release(uint32_t mod, uint32_t key)
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{
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// TODO: queue events, perform callback from Task
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println(" release, key=", key);
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modifiers = mod;
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keyOEM = key;
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// Look for modifier keys
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if (key == M(KEY_NUM_LOCK)) {
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numLock(!leds_.numLock);
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// Lets toggle Numlock
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} else if (key == M(KEY_CAPS_LOCK)) {
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capsLock(!leds_.capsLock);
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} else if (key == M(KEY_SCROLL_LOCK)) {
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scrollLock(!leds_.scrollLock);
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} else {
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keyCode = convert_to_unicode(mod, key);
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if (keyReleasedFunction) {
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keyReleasedFunction(keyCode);
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} else {
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keyReleased();
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}
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}
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}
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uint16_t KeyboardController::convert_to_unicode(uint32_t mod, uint32_t key)
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{
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// TODO: special keys
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// TODO: caps lock
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// TODO: dead key sequences
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if (key & SHIFT_MASK) {
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// Many of these keys will look like they are other keys with shift mask...
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// Check for any of our mapped extra keys
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for (uint8_t i = 0; i < (sizeof(keycode_numlock)/sizeof(keycode_numlock[0])); i++) {
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if (keycode_numlock[i].code == key) {
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// See if the user is using numlock or not...
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if (leds_.numLock) {
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return keycode_numlock[i].charNumlockOn;
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} else {
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key = keycode_numlock[i].codeNumlockOff;
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if (!(key & 0x80)) return key; // we have hard coded value
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key &= 0x7f; // mask off the extra and break out to process as other characters...
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break;
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}
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}
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}
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// If we made it here without doing something then return 0;
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if (key & SHIFT_MASK) return 0;
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}
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if ((mod & 0x02) || (mod & 0x20)) key |= SHIFT_MASK;
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if (leds_.capsLock) key ^= SHIFT_MASK; // Caps lock will switch the Shift;
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for (int i=0; i < 96; i++) {
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if (keycodes_ascii[i] == key) {
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if ((mod & 1) || (mod & 0x10)) return (i+32) & 0x1f; // Control key is down
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return i + 32;
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}
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}
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// Check for any of our mapped extra keys
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for (uint8_t i = 0; i < (sizeof(keycode_extras)/sizeof(keycode_extras[0])); i++) {
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if (keycode_extras[i].code == key) {
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return keycode_extras[i].ascii;
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}
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}
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#ifdef ISO_8859_1_A0
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for (int i=0; i < 96; i++) {
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if (keycodes_iso_8859_1[i] == key) return i + 160;
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}
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#endif
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return 0;
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}
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void KeyboardController::LEDS(uint8_t leds) {
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println("Keyboard setLEDS ", leds, HEX);
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leds_.byte = leds;
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updateLEDS();
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}
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void KeyboardController::updateLEDS() {
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println("KBD: Update LEDS", leds_.byte, HEX);
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if (processing_new_data_) {
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println(" Update defered");
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update_leds_ = true;
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return; // defer until later
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}
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// Now lets tell keyboard new state.
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static uint8_t keyboard_keys_report[1] = {0};
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setup_t keys_setup;
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keyboard_keys_report[0] = leds_.byte;
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queue_Data_Transfer(datapipe, report, 8, this);
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mk_setup(keys_setup, 0x21, 9, 0x200, 0, sizeof(keyboard_keys_report)); // hopefully this sets leds
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queue_Control_Transfer(device, &keys_setup, keyboard_keys_report, this);
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update_leds_ = false;
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}
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