Initial commit

hyperx_elite2.c

@@ -0,0 +1,307 @@
+#include <stdlib.h>
+
+#include "pico/stdlib.h"
+#include "tusb.h"
+#include "hardware/adc.h"
+
+#include "hyperx_elite2.h"
+#include "usb_descriptors.h"
+
+static bool sending = false;
+static absolute_time_t lastTime;
+static bool backlight = false;
+
+static const unsigned int SKIP_INDICES[] = { 23, 29, 41, 47, 70, 71, 76, 87, 88, 93, 99, 100, 102, 108, 113, 123 };
+// added play/pause (123)
+
+static unsigned char buf[BUF_SIZE];
+static uint8_t buf_idx=0;
+static uint8_t packets_sent=0;
+static uint8_t color_idx = 0;
+static uint8_t skipped = 0;
+const unsigned int* skip_idx = &SKIP_INDICES[0];
+
+static unsigned char nkro_buf[NKRO_BUF_SIZE];
+static unsigned char nkro_buf1[NKRO_BUF_SIZE];
+static unsigned char nkro_buf2[NKRO_BUF_SIZE];
+static unsigned char mediakeys[1] = {0};
+static unsigned char key_buf[KEY_BUF_SIZE];
+static uint8_t buf_start=0;
+static uint8_t buf_end=0;
+static uint8_t mediabit=0;
+static uint8_t pos=0;
+static bool mute=false;
+static bool sendkeys=false;
+static bool sendmedia=false;
+
+void get_light() {
+	// get ADC reading from LDR
+	// if above threshold, set backlight to off
+	if (adc_read() > 400) {
+		backlight = false;
+	} else {
+		backlight = true;
+	}
+}
+
+void rgb_task(uint8_t dev_addr, uint8_t instance, uint8_t report_id) {
+	// the RGB protocol used by HyperX sends individual key RGB data in
+	// multiple packets
+	// the code here will determine if we are in the middle of sending
+	// updated color info (sending==true) and continue to send the next
+	// packet if so at a rate of one packet every 20ms
+	// otherwise, wait 1s before sending the next set of color packets
+	if (sending) {
+		if ( absolute_time_diff_us(lastTime, get_absolute_time()) > 20000) {
+			if( backlight) {
+				send_color(dev_addr, instance, report_id, 0x20, 0x20, 0x20);
+				// send a dim white color (#202020) for all keys 
+			} else{
+				send_color(dev_addr, instance, report_id, 0x00, 0x00, 0x00);
+				// turn off all lighting by sending (#000000) for all keys
+			}
+			lastTime = get_absolute_time();
+		}
+	} else {
+		if ( absolute_time_diff_us(lastTime, get_absolute_time()) > 1000000) {
+			send_initial(dev_addr, instance, report_id);
+			lastTime = get_absolute_time();
+		}
+	}
+}
+
+// send an individual color packett with the desired RGB color
+void send_color(uint8_t dev_addr, uint8_t instance, uint8_t report_id, uint8_t red, uint8_t green, uint8_t blue) {
+	memset(buf, 0x00, BUF_SIZE);
+
+	buf_idx = 0;
+ 
+	// check if there are still keys left to send and send updated colors
+	// for those keys
+	// each key gets 4 bytes - an init byte (0x81) plus 3 bytes for RGB
+	if(color_idx < NUM_KEYS)
+	{
+		while(color_idx < NUM_KEYS && buf_idx < BUF_SIZE){
+			if(*skip_idx == color_idx + skipped)
+			{
+				// keys in skip_idx are not assigned to a key, so send all 0x00
+				buf[buf_idx]		= 0x00;
+				buf[buf_idx + 1]	= 0x00;
+				buf[buf_idx + 2]	= 0x00;
+				buf[buf_idx + 3]	= 0x00;
+        
+				skip_idx++;
+
+				if(skip_idx >= SKIP_INDICES + sizeof(SKIP_INDICES) / sizeof(unsigned int))
+				{
+					skip_idx = SKIP_INDICES;
+				}
+				skipped++;
+			} else {
+				// start by sending color init byte for the current key
+				buf[buf_idx]		= 0x81;
+				// turn rewind and fast forward keys to white
+				if(color_idx==105 || color_idx== 108) {
+					buf[buf_idx + 1]	= 0x20;
+					buf[buf_idx + 2]	= 0x20;
+					buf[buf_idx + 3]	= 0x20;
+				} else if(color_idx==99) {
+				// set color of mute button to green or red based on mute
+				// toggle - note that this toggle is not synced to the PC's 
+				// audio state and is presumed to be unmuted when the keyboard
+				// first receives power
+					if(mute) {
+						buf[buf_idx + 1]	= 0x40;
+						buf[buf_idx + 2]	= 0x00;
+						buf[buf_idx + 3]	= 0x00;
+					} else {
+						buf[buf_idx + 1]	= 0x00;
+						buf[buf_idx + 2]	= 0x40;
+						buf[buf_idx + 3]	= 0x00;
+					}
+				} else {
+					// for a normal key, send the desired RGB colors
+					buf[buf_idx + 1]	= red;
+					buf[buf_idx + 2]	= green;
+					buf[buf_idx + 3]	= blue;
+				}
+				color_idx++;
+			}
+			buf_idx += 4;
+		}
+
+		if(tuh_hid_set_report(dev_addr, instance, report_id, HID_REPORT_TYPE_FEATURE, buf, BUF_SIZE))
+		{
+			// packet sent successfully, increment
+			packets_sent++;
+		}
+	} else {
+		if(packets_sent < NUM_PACKETS)
+		{
+			// all keys have been sent, but the protocol expects NUM_PACKETS
+			// packets to be sent in total; if we have not sent enough packets,
+			// send extra packets of all 0x00 until done
+			if(tuh_hid_set_report(dev_addr, instance, report_id, HID_REPORT_TYPE_FEATURE, buf, BUF_SIZE))
+			{
+				packets_sent++;
+			}
+		} else {
+			// mark that sending of a full round of color packets completed
+			sending=false;
+		}
+	}
+}
+
+// send the special initialization  packet that tells the keyboard to expect 
+// color packets to follow
+void send_initial(uint8_t dev_addr, uint8_t instance, uint8_t report_id) {
+	memset(buf, 0x00, BUF_SIZE);
+
+	color_idx = 0;
+	skipped = 0;
+	skip_idx = &SKIP_INDICES[0];
+
+	// send initialization packet
+	buf[0x00] = 0x04;
+	buf[0x01] = 0xf2;
+
+	if (tuh_hid_set_report(dev_addr, instance, report_id, HID_REPORT_TYPE_FEATURE, buf, BUF_SIZE))
+	{
+		// we have begun sending packets, so set flag to continue sending
+		// packets at regular intervals
+		sending = true;
+		packets_sent=1;
+	}
+}
+
+// initialize the ADC for reading the LDR
+void startADC() {
+	stdio_init_all();
+	adc_init();
+	adc_gpio_init(28);
+	adc_select_input(2);
+}
+
+// process media key presses and prepare HID Consumer Control byte
+void send_media(uint8_t const* report, uint16_t len) {
+	(void) len;
+	switch(report[2]) {
+		case 0xB0: // set next button to vol up
+			mediabit = 4;
+			break;
+		case 0xB1: // set prev button to vol down
+			mediabit = 5;
+			break;
+		case 0xB3: // play/pause
+			mediabit = 2;
+			break;
+		case 0xB5: // mute
+			mediabit = 3;
+			if (report[3]) {
+				mute = !mute;
+			}
+			break;
+		default:
+			return;
+	}
+	if (report[3]) {
+		SET_KEYBIT(mediakeys, mediabit);
+	} else {
+		CLEAR_KEYBIT(mediakeys, mediabit);	
+	}
+	// set flag to send media keys during the next sending round
+	sendmedia = true;
+}
+
+// process new HID reports from the keyboard and set them up to forward to host
+void process_report(uint8_t instance, uint8_t const* report, uint16_t len) {
+	if (instance==HYPERX_ITF_KEYBOARD || instance==HYPERX_ITF_NKRO) {
+		// received regular keyboard key events
+		if (sendkeys) {
+			// keyboard is currently sending to the host, add to queue
+			key_buf[buf_end]=len;
+			key_buf[buf_end+2]=instance;
+			memcpy(&key_buf[buf_end+2], report, len);
+			buf_end += (len + 2);
+		} else {
+			// immediately process keys and send new HID report to host
+			updatekeys(instance, report, len);
+		}
+	} else if (instance==HYPERX_ITF_KEYPRESS) {
+		// received media key events
+		send_media(report, len);
+	}
+}
+
+// merge key states from boot keyboard and NKRO keyboard interfaces into a
+// single packet to send to the host
+void updatekeys(uint8_t instance, uint8_t const* report, uint16_t len) {
+	if(instance==HYPERX_ITF_KEYBOARD) {
+		boot2nkro(report, nkro_buf1, len);
+		sendkeys=true;
+	} else if (instance==HYPERX_ITF_NKRO) {
+		memcpy(nkro_buf2, report, len);
+		sendkeys=true;
+	}
+	merge_bitmap(nkro_buf, nkro_buf1, nkro_buf2);
+}
+
+// set initial state of keyboard
+void reset_keyboard() {
+	memset(nkro_buf, 0x00, NKRO_BUF_SIZE);
+	memset(nkro_buf1, 0x00, NKRO_BUF_SIZE);
+	memset(nkro_buf2, 0x00, NKRO_BUF_SIZE);
+	memset(key_buf, 0x00, KEY_BUF_SIZE);
+	buf_start=0;
+	buf_end=0;
+	sendkeys=false;
+	sendmedia=false;
+}
+
+// check if there are any key events waiting to be sent to the host and send
+void keyboard_task() {
+	if (sendkeys) {
+		// send the current keyboard state to the host
+		if (tud_hid_report(REPORT_ID_KEYBOARD, nkro_buf, NKRO_BUF_SIZE)) {
+			sendkeys=false;
+		}
+	} else if (sendmedia) {
+		// send the media keys state to the the host
+		if (tud_hid_report(REPORT_ID_CONSUMER_CONTROL, mediakeys, 1)) {
+			sendmedia=false;
+		}
+	} else if (buf_start != buf_end) {
+		// previous key state has been send, but a new key state is waiting
+		// in the buffer
+		// load from buffer and setup for sending in the next round
+		updatekeys(key_buf[buf_start+1], &key_buf[buf_start+2], key_buf[buf_start]);
+		buf_start += (key_buf[buf_start] + 2);
+	} else if (buf_start == buf_end) {
+		// the buffer has been cleared, so reset the buffer position to front
+		buf_start = 0;
+		buf_end = 0;
+	}
+}
+
+// convert a boot keyboard packet into the NKRO bitmap format used by HyperX
+void boot2nkro(uint8_t const* boot_report, uint8_t* nkro_report, uint16_t len) {
+	memset(nkro_report, 0x00, NKRO_BUF_SIZE);
+	(void) len;
+	// copy modifiers
+	nkro_report[0] = boot_report[0];
+
+	// set regular keyboard keys
+	for (pos=2; pos<8; pos++) {
+		if (boot_report[pos] > 0) {
+			SET_KEYBIT(nkro_report, boot_report[pos]+8);
+		}
+	}
+}
+
+// merge two NKRO keyboard bitmaps into a single NKRO keyboard bitmap
+void merge_bitmap(uint8_t* nkro_report, uint8_t const* nkro_report1, uint8_t const* nkro_report2){
+	for (pos=0; pos < NKRO_BUF_SIZE; pos++) {
+		nkro_report[pos] = nkro_report1[pos] | nkro_report2[pos];
+	}
+}
+