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controller/Output/pjrcUSB/output_com.c

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/* Copyright (C) 2011-2014 by Jacob Alexander
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
// ----- Includes -----
// Compiler Includes
#include <Lib/OutputLib.h>
// Project Includes
#include <cli.h>
#include <print.h>
#include <scan_loop.h>
// USB Includes
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_)
#include "avr/usb_keyboard_serial.h"
#elif defined(_mk20dx128_) || defined(_mk20dx256_)
#include "arm/usb_keyboard.h"
#include "arm/usb_dev.h"
#endif
// Local Includes
#include "output_com.h"
// ----- Function Declarations -----
void cliFunc_readLEDs ( char* args );
void cliFunc_sendKeys ( char* args );
void cliFunc_setKeys ( char* args );
void cliFunc_setLEDs ( char* args );
void cliFunc_setMod ( char* args );
// ----- Variables -----
// Output Module command dictionary
char* outputCLIDictName = "USB Module Commands";
CLIDictItem outputCLIDict[] = {
{ "readLEDs", "Read LED byte. See \033[35msetLEDs\033[0m.", cliFunc_readLEDs },
{ "sendKeys", "Send the prepared list of USB codes and modifier byte.", cliFunc_sendKeys },
{ "setKeys", "Prepare a space separated list of USB codes (decimal). Waits until \033[35msendKeys\033[0m.", cliFunc_setKeys },
{ "setLEDs", "Set LED byte: 1 NumLck, 2 CapsLck, 4 ScrlLck, 16 Kana, etc.", cliFunc_setLEDs },
{ "setMod", "Set the modfier byte: 1 LCtrl, 2 LShft, 4 LAlt, 8 LGUI, 16 RCtrl, 32 RShft, 64 RAlt, 128 RGUI", cliFunc_setMod },
{ 0, 0, 0 } // Null entry for dictionary end
};
// Which modifier keys are currently pressed
// 1=left ctrl, 2=left shift, 4=left alt, 8=left gui
// 16=right ctrl, 32=right shift, 64=right alt, 128=right gui
uint8_t USBKeys_Modifiers = 0;
uint8_t USBKeys_ModifiersCLI = 0; // Separate CLI send buffer
// Currently pressed keys, max is defined by USB_MAX_KEY_SEND
uint8_t USBKeys_Array [USB_MAX_KEY_SEND];
uint8_t USBKeys_ArrayCLI[USB_MAX_KEY_SEND]; // Separate CLI send buffer
// The number of keys sent to the usb in the array
uint8_t USBKeys_Sent = 0;
uint8_t USBKeys_SentCLI = 0;
// 1=num lock, 2=caps lock, 4=scroll lock, 8=compose, 16=kana
volatile uint8_t USBKeys_LEDs = 0;
// protocol setting from the host. We use exactly the same report
// either way, so this variable only stores the setting since we
// are required to be able to report which setting is in use.
uint8_t USBKeys_Protocol = 1;
// the idle configuration, how often we send the report to the
// host (ms * 4) even when it hasn't changed
uint8_t USBKeys_Idle_Config = 125;
// count until idle timeout
uint8_t USBKeys_Idle_Count = 0;
// ----- Functions -----
// USB Module Setup
inline void Output_setup()
{
// Initialize the USB, and then wait for the host to set configuration.
// If the Teensy is powered without a PC connected to the USB port,
// this will wait forever.
usb_init();
while ( !usb_configured() ) /* wait */ ;
// Register USB Output CLI dictionary
CLI_registerDictionary( outputCLIDict, outputCLIDictName );
// Wait an extra second for the PC's operating system to load drivers
// and do whatever it does to actually be ready for input
//_delay_ms(1000); // TODO (is this actually necessary?)
}
// USB Data Send
inline void Output_send(void)
{
// TODO undo potentially old keys
for ( uint8_t c = USBKeys_Sent; c < USBKeys_MaxSize; c++ )
USBKeys_Array[c] = 0;
// Send keypresses
usb_keyboard_send();
// Clear modifiers and keys
USBKeys_Modifiers = 0;
USBKeys_Sent = 0;
// Signal Scan Module we are finishedA
Scan_finishedWithUSBBuffer( USBKeys_Sent <= USBKeys_MaxSize ? USBKeys_Sent : USBKeys_MaxSize );
}
// Sets the device into firmware reload mode
inline void Output_firmwareReload()
{
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_)
usb_debug_reload();
#elif defined(_mk20dx128_) || defined(_mk20dx256_)
usb_device_reload();
#endif
}
// USB Input buffer available
inline unsigned int Output_availablechar()
{
return usb_serial_available();
}
// USB Get Character from input buffer
inline int Output_getchar()
{
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_)
// XXX Make sure to check output_availablechar() first! Information is lost with the cast (error codes)
return (int)usb_serial_getchar();
#elif defined(_mk20dx128_) || defined(_mk20dx256_)
return usb_serial_getchar();
#endif
}
// USB Send Character to output buffer
inline int Output_putchar( char c )
{
return usb_serial_putchar( c );
}
// USB Send String to output buffer, null terminated
inline int Output_putstr( char* str )
{
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_) // AVR
uint16_t count = 0;
#elif defined(_mk20dx128_) || defined(_mk20dx256_) // ARM
uint32_t count = 0;
#endif
// Count characters until NULL character, then send the amount counted
while ( str[count] != '\0' )
count++;
return usb_serial_write( str, count );
}
// Soft Chip Reset
inline void Output_softReset()
{
#if defined(_at90usb162_) || defined(_atmega32u4_) || defined(_at90usb646_) || defined(_at90usb1286_)
usb_debug_software_reset();
#elif defined(_mk20dx128_) || defined(_mk20dx256_)
SOFTWARE_RESET();
#endif
}
// ----- CLI Command Functions -----
void cliFunc_readLEDs( char* args )
{
print( NL );
info_msg("LED State: ");
printInt8( USBKeys_LEDs );
}
void cliFunc_sendKeys( char* args )
{
// Copy USBKeys_ArrayCLI to USBKeys_Array
for ( uint8_t key = 0; key < USBKeys_SentCLI; ++key )
{
USBKeys_Array[key] = USBKeys_ArrayCLI[key];
}
USBKeys_Sent = USBKeys_SentCLI;
// Set modifier byte
USBKeys_Modifiers = USBKeys_ModifiersCLI;
}
void cliFunc_setKeys( char* args )
{
char* curArgs;
char* arg1Ptr;
char* arg2Ptr = args;
// Parse up to USBKeys_MaxSize args (whichever is least)
for ( USBKeys_SentCLI = 0; USBKeys_SentCLI < USBKeys_MaxSize; ++USBKeys_SentCLI )
{
curArgs = arg2Ptr;
CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
// Stop processing args if no more are found
if ( *arg1Ptr == '\0' )
break;
// Add the USB code to be sent
USBKeys_ArrayCLI[USBKeys_SentCLI] = decToInt( arg1Ptr );
}
}
void cliFunc_setLEDs( char* args )
{
// Parse number from argument
// NOTE: Only first argument is used
char* arg1Ptr;
char* arg2Ptr;
CLI_argumentIsolation( args, &arg1Ptr, &arg2Ptr );
USBKeys_LEDs = decToInt( arg1Ptr );
}
void cliFunc_setMod( char* args )
{
// Parse number from argument
// NOTE: Only first argument is used
char* arg1Ptr;
char* arg2Ptr;
CLI_argumentIsolation( args, &arg1Ptr, &arg2Ptr );
USBKeys_ModifiersCLI = decToInt( arg1Ptr );
}