Adding basic ISSI led brightness control capabilities
- 6 modes * Single led: decrease, increase, set * All leds: decrease, increase, set - Currently update speed limited to once every 30 ms * Likely an I2C driver or ISSI limitation preventing even faster updates
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@ -1,10 +1,26 @@
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Name = ISSILedCapabilities;
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Version = 0.1;
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Version = 0.2;
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Author = "HaaTa (Jacob Alexander) 2015";
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KLL = 0.3c;
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# Modified Date
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Date = 2015-08-02;
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Date = 2015-10-09;
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# Basic ISSI Capabilities
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# Modes
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# 0: Decrease single led brightness
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# 1: Increase single led brightness
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# 2: Set single led brightness
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# 3: Decrease brightness of all leds
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# 4: Increase brightness of all leds
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# 5: Set brightness of all leds
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# Amount -> 0 -> 255
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# Index:
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# Depends on keyboard. At least from from 0 -> 143 (single chip).
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# Remember, it may be possible that all leds on a single chip are connected.
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# So it may be possible that you may have index gaps.
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# i.e. 23 then 144
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ledControl => LED_control_capability( mode : 1, amount : 1, index : 2 );
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# Defines available to the ISSILed sub-module
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@ -49,6 +49,8 @@ typedef struct I2C_Buffer {
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} I2C_Buffer;
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typedef struct LED_Buffer {
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uint8_t i2c_addr;
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uint8_t reg_addr;
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uint8_t buffer[LED_BufferLength];
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} LED_Buffer;
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@ -59,6 +61,7 @@ typedef struct LED_Buffer {
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// CLI Functions
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void cliFunc_i2cRecv ( char* args );
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void cliFunc_i2cSend ( char* args );
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void cliFunc_ledCtrl ( char* args );
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void cliFunc_ledRPage( char* args );
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void cliFunc_ledStart( char* args );
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void cliFunc_ledTest ( char* args );
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@ -77,6 +80,7 @@ uint8_t I2C_Send( uint8_t *data, uint8_t sendLen, uint8_t recvLen );
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// Scan Module command dictionary
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CLIDict_Entry( i2cRecv, "Send I2C sequence of bytes and expect a reply of 1 byte on the last sequence." NL "\t\tUse |'s to split sequences with a stop." );
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CLIDict_Entry( i2cSend, "Send I2C sequence of bytes. Use |'s to split sequences with a stop." );
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CLIDict_Entry( ledCtrl, "Basic LED control. Args: <mode> <amount> [<index>]" );
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CLIDict_Entry( ledRPage, "Read the given register page." );
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CLIDict_Entry( ledStart, "Disable software shutdown." );
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CLIDict_Entry( ledTest, "Test out the led pages." );
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@ -86,6 +90,7 @@ CLIDict_Entry( ledZero, "Zero out LED register pages (non-configuration)." )
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CLIDict_Def( ledCLIDict, "ISSI LED Module Commands" ) = {
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CLIDict_Item( i2cRecv ),
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CLIDict_Item( i2cSend ),
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CLIDict_Item( ledCtrl ),
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CLIDict_Item( ledRPage ),
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CLIDict_Item( ledStart ),
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CLIDict_Item( ledTest ),
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@ -178,7 +183,9 @@ void i2c0_isr()
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}
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else
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{
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dbug_print("Attempting to read byte");
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dbug_msg("Attempting to read byte - ");
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printHex( I2C_RxBuffer.sequencePos );
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print( NL );
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I2C0_C1 = I2C_RxBuffer.sequencePos == 1
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? I2C_C1_IICEN | I2C_C1_IICIE | I2C_C1_MST | I2C_C1_TXAK // Single byte read
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: I2C_C1_IICEN | I2C_C1_IICIE | I2C_C1_MST; // Multi-byte read
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@ -309,34 +316,6 @@ void LED_sendPage( uint8_t *buffer, uint8_t len, uint8_t page )
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}
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void LED_readPage( uint8_t len, uint8_t page )
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{
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// Page Setup
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uint8_t pageSetup[] = { 0xE8, 0xFD, page };
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// Setup page
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while ( I2C_Send( pageSetup, sizeof( pageSetup ), 0 ) == 0 )
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delay(1);
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// Register Setup
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uint8_t regSetup[] = { 0xE8, 0x00 };
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// Setup starting register
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while ( I2C_Send( regSetup, sizeof( regSetup ), 0 ) == 0 )
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delay(1);
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// Register Read Command
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uint8_t regReadCmd[] = { 0xE9 };
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// Read each register in the page
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for ( uint8_t reg = 0; reg < len; reg++ )
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{
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// Request register data
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while ( I2C_Send( regReadCmd, sizeof( regReadCmd ), 0 ) == 0 )
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delay(1);
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}
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}
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void LED_writeReg( uint8_t reg, uint8_t val, uint8_t page )
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{
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// Page Setup
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@ -353,6 +332,44 @@ void LED_writeReg( uint8_t reg, uint8_t val, uint8_t page )
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delay(1);
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}
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void LED_readPage( uint8_t len, uint8_t page )
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{
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// Software shutdown must be enabled to read registers
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LED_writeReg( 0x0A, 0x00, 0x0B );
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// Page Setup
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uint8_t pageSetup[] = { 0xE8, 0xFD, page };
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// Setup page
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while ( I2C_Send( pageSetup, sizeof( pageSetup ), 0 ) == 0 )
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delay(1);
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// Register Setup
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uint8_t regSetup[] = { 0xE8, 0x00 };
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// Read each register in the page
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for ( uint8_t reg = 0; reg < len; reg++ )
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{
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// Update register to read
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regSetup[1] = reg;
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// Configure register
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while ( I2C_Send( regSetup, sizeof( regSetup ), 0 ) == 0 )
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delay(1);
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// Register Read Command
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uint8_t regReadCmd[] = { 0xE9 };
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// Request single register byte
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while ( I2C_Send( regReadCmd, sizeof( regReadCmd ), 1 ) == 0 )
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delay(1);
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dbug_print("NEXT");
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}
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// Disable software shutdown
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LED_writeReg( 0x0A, 0x01, 0x0B );
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}
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// Setup
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inline void LED_setup()
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{
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@ -619,8 +636,122 @@ inline uint8_t LED_scan()
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// ----- Capabilities -----
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// Basic LED Control Capability
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typedef enum LedControlMode {
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// Single LED Modes
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LedControlMode_brightness_decrease,
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LedControlMode_brightness_increase,
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LedControlMode_brightness_set,
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// Set all LEDs (index argument not required)
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LedControlMode_brightness_decrease_all,
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LedControlMode_brightness_increase_all,
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LedControlMode_brightness_set_all,
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} LedControlMode;
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typedef struct LedControl {
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LedControlMode mode; // XXX Make sure to adjust the .kll capability if this variable is larger than 8 bits
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uint8_t amount;
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uint16_t index;
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} LedControl;
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uint8_t LED_control_timer = 0;
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void LED_control( LedControl *control )
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{
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// Only send if we've completed all other transactions
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if ( I2C_TxBuffer.sequencePos > 0 )
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return;
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// XXX
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// ISSI Chip locks up if we spam updates too quickly (might be an I2C bug on this side too -HaaTa)
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// Make sure we only send an update every 30 milliseconds at most
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// It may be possible to optimize speed even further, but will likely require serious time with a logic analyzer
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uint8_t currentTime = (uint8_t)systick_millis_count;
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int8_t compare = (int8_t)(currentTime - LED_control_timer) & 0x7F;
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if ( compare < 30 )
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{
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return;
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}
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LED_control_timer = currentTime;
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// Configure based upon the given mode
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// TODO Handle multiple issi chips per node
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// TODO Perhaps do gamma adjustment?
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switch ( control->mode )
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{
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case LedControlMode_brightness_decrease:
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// Don't worry about rolling over, the cycle is quick
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LED_pageBuffer.buffer[ control->index ] -= control->amount;
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break;
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case LedControlMode_brightness_increase:
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// Don't worry about rolling over, the cycle is quick
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LED_pageBuffer.buffer[ control->index ] += control->amount;
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break;
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case LedControlMode_brightness_set:
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LED_pageBuffer.buffer[ control->index ] = control->amount;
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break;
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case LedControlMode_brightness_decrease_all:
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for ( uint8_t channel = 0; channel < LED_BufferLength; channel++ )
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{
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// Don't worry about rolling over, the cycle is quick
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LED_pageBuffer.buffer[ channel ] -= control->amount;
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}
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break;
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case LedControlMode_brightness_increase_all:
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for ( uint8_t channel = 0; channel < LED_BufferLength; channel++ )
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{
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// Don't worry about rolling over, the cycle is quick
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LED_pageBuffer.buffer[ channel ] += control->amount;
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}
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break;
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case LedControlMode_brightness_set_all:
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for ( uint8_t channel = 0; channel < LED_BufferLength; channel++ )
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{
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LED_pageBuffer.buffer[ channel ] = control->amount;
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}
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break;
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}
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// Sync LED buffer with ISSI chip buffer
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// TODO Support multiple frames
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LED_pageBuffer.i2c_addr = 0xE8; // Chip 1
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LED_pageBuffer.reg_addr = 0x24; // Brightness section
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LED_sendPage( (uint8_t*)&LED_pageBuffer, sizeof( LED_Buffer ), 0 );
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}
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void LED_control_capability( uint8_t state, uint8_t stateType, uint8_t *args )
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{
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// Display capability name
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if ( stateType == 0xFF && state == 0xFF )
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{
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print("LED_control_capability(mode,amount,index)");
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return;
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}
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// Only use capability on press
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// TODO Analog
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if ( stateType == 0x00 && state == 0x03 ) // Not on release
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return;
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// Set the input structure
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LedControl *control = (LedControl*)args;
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// TODO broadcast to rest of interconnect nodes if necessary
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LED_control( control );
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}
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// ----- CLI Command Functions -----
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// TODO Currently not working correctly
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void cliFunc_i2cSend( char* args )
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{
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char* curArgs;
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@ -717,6 +848,7 @@ void cliFunc_i2cRecv( char* args )
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I2C_Send( buffer, bufferLen, 1 ); // Only 1 byte is ever read at a time with the ISSI chip
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}
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// TODO Currently not working correctly
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void cliFunc_ledRPage( char* args )
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{
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// Parse number from argument
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@ -736,7 +868,8 @@ void cliFunc_ledRPage( char* args )
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// No \r\n by default after the command is entered
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print( NL );
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LED_readPage( 0xB4, page );
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LED_readPage( 0x1, page );
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//LED_readPage( 0xB4, page );
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}
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void cliFunc_ledWPage( char* args )
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@ -809,3 +942,40 @@ void cliFunc_ledZero( char* args )
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LED_zeroPages( 0x00, 8, 0x24, 0xB4 ); // Only PWMs
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}
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void cliFunc_ledCtrl( char* args )
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{
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char* curArgs;
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char* arg1Ptr;
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char* arg2Ptr = args;
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LedControl control;
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// First process mode
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curArgs = arg2Ptr;
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CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
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// Stop processing args if no more are found
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if ( *arg1Ptr == '\0' )
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return;
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control.mode = numToInt( arg1Ptr );
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// Next process amount
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curArgs = arg2Ptr;
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CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
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// Stop processing args if no more are found
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if ( *arg1Ptr == '\0' )
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return;
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control.amount = numToInt( arg1Ptr );
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// Finally process led index, if it exists
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// Default to 0
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curArgs = arg2Ptr;
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CLI_argumentIsolation( curArgs, &arg1Ptr, &arg2Ptr );
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control.index = *arg1Ptr == '\0' ? 0 : numToInt( arg1Ptr );
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// Process request
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LED_control( &control );
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}
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