#include "usb_protocol_handler.h" #include "system_properties.h" #include "peripherals/test_led.h" #include "i2c_addresses.h" #include "peripherals/led_driver.h" #include "peripherals/merge_sensor.h" #include "config_parser/parse_config.h" #include "config_parser/config_globals.h" #include "led_pwm.h" #include "slave_scheduler.h" #include "slave_drivers/uhk_module_driver.h" #include "wormhole.h" #include "peripherals/adc.h" #include "eeprom.h" #include "keymaps.h" #include "microseconds/microseconds_pit.c" #include "i2c_watchdog.h" // Functions for setting error statuses void setError(uint8_t error) { GenericHidOutBuffer[0] = error; } void setGenericError(void) { setError(UsbResponse_GenericError); } void SetResponseByte(uint8_t response) { GenericHidOutBuffer[1] = response; } void SetResponseWord(uint16_t response) { *((uint16_t*)(GenericHidOutBuffer+1)) = response; } // Per command protocol command handlers void getSystemProperty(void) { uint8_t propertyId = GenericHidInBuffer[1]; switch (propertyId) { case SystemPropertyId_UsbProtocolVersion: SetResponseByte(SYSTEM_PROPERTY_USB_PROTOCOL_VERSION); break; case SystemPropertyId_BridgeProtocolVersion: SetResponseByte(SYSTEM_PROPERTY_BRIDGE_PROTOCOL_VERSION); break; case SystemPropertyId_DataModelVersion: SetResponseByte(SYSTEM_PROPERTY_DATA_MODEL_VERSION); break; case SystemPropertyId_FirmwareVersion: SetResponseByte(SYSTEM_PROPERTY_FIRMWARE_VERSION); break; case SystemPropertyId_HardwareConfigSize: SetResponseWord(HARDWARE_CONFIG_SIZE); break; case SystemPropertyId_UserConfigSize: SetResponseWord(USER_CONFIG_SIZE); break; default: setGenericError(); break; } } void reenumerate(void) { Wormhole.magicNumber = WORMHOLE_MAGIC_NUMBER; Wormhole.enumerationMode = GenericHidInBuffer[1]; SCB->AIRCR = 0x5FA<> 8; GenericHidOutBuffer[3] = 0; if (GenericHidOutBuffer[0]) { return; } memcpy(oldKeymapAbbreviation, AllKeymaps[CurrentKeymapIndex].abbreviation, 3); oldKeymapAbbreviationLen = AllKeymaps[CurrentKeymapIndex].abbreviationLen; ParserRunDry = false; temp = UserConfigBuffer.buffer; UserConfigBuffer.buffer = StagingUserConfigBuffer.buffer; StagingUserConfigBuffer.buffer = temp; UserConfigBuffer.offset = 0; GenericHidOutBuffer[0] = ParseConfig(&UserConfigBuffer); GenericHidOutBuffer[1] = UserConfigBuffer.offset; GenericHidOutBuffer[2] = UserConfigBuffer.offset >> 8; GenericHidOutBuffer[3] = 1; if (GenericHidOutBuffer[0]) { return; } for (uint8_t i = 0; i < AllKeymapsCount; i++) { if (AllKeymaps[i].abbreviationLen != oldKeymapAbbreviationLen) { continue; } if (memcmp(oldKeymapAbbreviation, AllKeymaps[i].abbreviation, oldKeymapAbbreviationLen)) { continue; } Keymaps_Switch(i); return; } Keymaps_Switch(DefaultKeymapIndex); } void setLedPwm(void) { uint8_t brightnessPercent = GenericHidInBuffer[1]; LedPwm_SetBrightness(brightnessPercent); UhkModuleVars[0].ledPwmBrightness = brightnessPercent; } void getAdcValue(void) { uint32_t adcValue = ADC_Measure(); GenericHidOutBuffer[0] = adcValue >> 0; GenericHidOutBuffer[1] = adcValue >> 8; GenericHidOutBuffer[2] = adcValue >> 16; GenericHidOutBuffer[3] = adcValue >> 24; } void launchEepromTransfer(void) { eeprom_transfer_t transferType = GenericHidInBuffer[1]; EEPROM_LaunchTransfer(transferType, NULL); } void readConfiguration(bool isHardware) { uint8_t length = GenericHidInBuffer[1]; uint16_t offset = *((uint16_t*)(GenericHidInBuffer+2)); if (length > USB_GENERIC_HID_OUT_BUFFER_LENGTH-1) { setError(ConfigTransferResponse_LengthTooLarge); return; } uint8_t *buffer = isHardware ? HardwareConfigBuffer.buffer : StagingUserConfigBuffer.buffer; uint16_t bufferLength = isHardware ? HARDWARE_CONFIG_SIZE : USER_CONFIG_SIZE; if (offset + length > bufferLength) { setError(ConfigTransferResponse_BufferOutOfBounds); return; } memcpy(GenericHidOutBuffer+1, buffer+offset, length); } void writeConfiguration(bool isHardware) { uint8_t length = GenericHidInBuffer[1]; uint16_t offset = *((uint16_t*)(GenericHidInBuffer+1+1)); if (length > USB_GENERIC_HID_OUT_BUFFER_LENGTH-1-1-2) { setError(ConfigTransferResponse_LengthTooLarge); return; } uint8_t *buffer = isHardware ? HardwareConfigBuffer.buffer : StagingUserConfigBuffer.buffer; uint16_t bufferLength = isHardware ? HARDWARE_CONFIG_SIZE : USER_CONFIG_SIZE; if (offset + length > bufferLength) { setError(ConfigTransferResponse_BufferOutOfBounds); return; } memcpy(buffer+offset, GenericHidInBuffer+1+1+2, length); } void getKeyboardState(void) { GenericHidOutBuffer[1] = IsEepromBusy; } void getDebugInfo(void) { GenericHidOutBuffer[1] = I2C_Watchdog >> 0; GenericHidOutBuffer[2] = I2C_Watchdog >> 8; GenericHidOutBuffer[3] = I2C_Watchdog >> 16; GenericHidOutBuffer[4] = I2C_Watchdog >> 24; GenericHidOutBuffer[5] = BridgeCounter >> 0; GenericHidOutBuffer[6] = BridgeCounter >> 8; GenericHidOutBuffer[7] = BridgeCounter >> 16; GenericHidOutBuffer[8] = BridgeCounter >> 24; GenericHidOutBuffer[9] = I2C_WatchdogOuterCounter >> 0; GenericHidOutBuffer[10] = I2C_WatchdogOuterCounter >> 8; GenericHidOutBuffer[11] = I2C_WatchdogOuterCounter >> 16; GenericHidOutBuffer[12] = I2C_WatchdogOuterCounter >> 24; GenericHidOutBuffer[13] = I2C_WatchdogInnerCounter >> 0; GenericHidOutBuffer[14] = I2C_WatchdogInnerCounter >> 8; GenericHidOutBuffer[15] = I2C_WatchdogInnerCounter >> 16; GenericHidOutBuffer[16] = I2C_WatchdogInnerCounter >> 24; /* uint64_t ticks = microseconds_get_ticks(); uint32_t microseconds = microseconds_convert_to_microseconds(ticks); uint32_t milliseconds = microseconds/1000; GenericHidOutBuffer[1] = (ticks >> 0) & 0xff;; GenericHidOutBuffer[2] = (ticks >> 8) & 0xff; GenericHidOutBuffer[3] = (ticks >> 16) & 0xff; GenericHidOutBuffer[4] = (ticks >> 24) & 0xff; GenericHidOutBuffer[5] = (ticks >> 32) & 0xff;; GenericHidOutBuffer[6] = (ticks >> 40) & 0xff; GenericHidOutBuffer[7] = (ticks >> 48) & 0xff; GenericHidOutBuffer[8] = (ticks >> 56) & 0xff; */} // The main protocol handler function void UsbProtocolHandler(void) { bzero(GenericHidOutBuffer, USB_GENERIC_HID_OUT_BUFFER_LENGTH); uint8_t command = GenericHidInBuffer[0]; switch (command) { case UsbCommand_GetSystemProperty: getSystemProperty(); break; case UsbCommand_Reenumerate: reenumerate(); break; case UsbCommand_SetTestLed: setTestLed(); break; case UsbCommand_WriteLedDriver: break; case UsbCommand_ReadMergeSensor: readMergeSensor(); break; case UsbCommand_WriteUserConfiguration: writeConfiguration(false); break; case UsbCommand_ApplyConfig: ApplyConfig(); break; case UsbCommand_SetLedPwm: setLedPwm(); break; case UsbCommand_GetAdcValue: getAdcValue(); break; case UsbCommand_LaunchEepromTransfer: launchEepromTransfer(); break; case UsbCommand_ReadHardwareConfiguration: readConfiguration(true); break; case UsbCommand_WriteHardwareConfiguration: writeConfiguration(true); break; case UsbCommand_ReadUserConfiguration: readConfiguration(false); break; case UsbCommand_GetKeyboardState: getKeyboardState(); break; case UsbCommand_GetDebugInfo: getDebugInfo(); break; default: break; } }