hyperion.ng/libsrc/leddevice/dev_spi/LedDeviceSk6822SPI.cpp
LordGrey 7389068a66
LED Device Features, Fixes and Refactoring (Resubmit PR855) (#875)
* Refactor LedDevices - Initial version
* Small renamings
* Add WLED as own device
* Lpd8806 Remove open() method
* remove dependency on Qt 5.10
* Lpd8806 Remove open() method
* Update WS281x
* Update WS2812SPI
* Add writeBlack for WLED powerOff
* WLED remove extra bracket
* Allow different Nanoleaf panel numbering sequence (Feature req.#827)
* build(deps): bump websocket-extensions from 0.1.3 to 0.1.4 in /docs (#826)
* Bumps [websocket-extensions](https://github.com/faye/websocket-extensions-node) from 0.1.3 to 0.1.4.
  - [Release notes](https://github.com/faye/websocket-extensions-node/releases)
  - [Changelog](https://github.com/faye/websocket-extensions-node/blob/master/CHANGELOG.md)
  - [Commits](https://github.com/faye/websocket-extensions-node/compare/0.1.3...0.1.4)
* Fix typos
* Nanoleaf clean-up
* Yeelight support, generalize wizard elements
* Update Yeelight to handle quota in music mode
* Yeelight extend rage for extraTimeDarkness for testing
* Clean-up - Add commentary, Remove development debug statements
* Fix brightnessSwitchOffOnMinimum typo and default value
* Yeelight support restoreOriginalState, additional Fixes
* WLED - Remove UDP-Port, as it is not configurable
* Fix merging issue
* Remove QHostAddress::operator=(const QString&)' is deprecated
* Windows compile errors and (Qt 5.15 deprecation) warnings
* Fix order includes
* LedDeviceFile Support Qt5.7 and greater
* Windows compatibility and other Fixes
* Fix Qt Version compatability
* Rs232 - Resolve portname from unix /dev/ style, fix DMX sub-type support
* Disable WLED Wizard Button (until Wizard is available)
* Yeelight updates
* Add wrong log-type as per #505
* Fixes and Clean-up after clang-tidy report
* Fix udpe131 not enabled for generated CID
* Change timer into dynamic for Qt Thread-Affinity
* Hue clean-up and diyHue workaround
* Updates after review feedback by m-seker
* Add "chrono" includes
2020-07-12 20:27:56 +02:00

126 lines
3.2 KiB
C++

#include "LedDeviceSk6822SPI.h"
/*
From the data sheet:
(TH+TL=1.7μs±600ns)
T0H, 0 code, high level time, 0.35µs ±0.150ns
T0L, 0 code, low level time, 1.36µs ±0.150ns
T1H, 1 code, high level time, 1.36µs ±0.150ns
T1L, 1 code, low level time, 0.35µs ±0.150ns
WT, Wait for the processing time, 12µs ±0.150ns
Trst, Reset code,low level time, 50µs
To normalise the pulse times so they fit in 4 SPI bits:
Use timings at upper end of tolerance:
1.36 -> 1.50 uS
0.35 -> 0.50 uS
A SPI bit time of 0.50uS = 2Mbit/sec
T0 is sent as 1000
T1 is sent as 1110
With a bit of excel testing, we can work out the maximum and minimum speeds:
2000000 MIN
2230000 AVG
2460000 MAX
Wait time:
using the min of 2000000, the bit time is 0.500
Wait time is 12uS = 24 bits = 3 bytes
Reset time:
using the min of 2000000, the bit time is 0.500
Reset time is 50uS = 100 bits = 13 bytes
*/
LedDeviceSk6822SPI::LedDeviceSk6822SPI(const QJsonObject &deviceConfig)
: ProviderSpi()
, SPI_BYTES_PER_COLOUR(4)
, SPI_BYTES_WAIT_TIME(3)
, SPI_FRAME_END_LATCH_BYTES(13)
, bitpair_to_byte {
0b10001000,
0b10001110,
0b11101000,
0b11101110,
}
{
_devConfig = deviceConfig;
_isDeviceReady = false;
_activeDeviceType = deviceConfig["type"].toString("UNSPECIFIED").toLower();
}
LedDevice* LedDeviceSk6822SPI::construct(const QJsonObject &deviceConfig)
{
return new LedDeviceSk6822SPI(deviceConfig);
}
bool LedDeviceSk6822SPI::init(const QJsonObject &deviceConfig)
{
_baudRate_Hz = 2230000;
bool isInitOK = false;
// Initialise sub-class
if ( ProviderSpi::init(deviceConfig) )
{
WarningIf(( _baudRate_Hz < 2000000 || _baudRate_Hz > 2460000 ), _log, "SPI rate %d outside recommended range (2000000 -> 2460000)", _baudRate_Hz);
_ledBuffer.resize( (_ledRGBCount * SPI_BYTES_PER_COLOUR) + (_ledCount * SPI_BYTES_WAIT_TIME ) + SPI_FRAME_END_LATCH_BYTES, 0x00);
// Debug(_log, "_ledBuffer.resize(_ledRGBCount:%d * SPI_BYTES_PER_COLOUR:%d) + ( _ledCount:%d * SPI_BYTES_WAIT_TIME:%d ) + SPI_FRAME_END_LATCH_BYTES:%d, 0x00)", _ledRGBCount, SPI_BYTES_PER_COLOUR, _ledCount, SPI_BYTES_WAIT_TIME, SPI_FRAME_END_LATCH_BYTES);
isInitOK = true;
}
return isInitOK;
}
int LedDeviceSk6822SPI::write(const std::vector<ColorRgb> &ledValues)
{
unsigned spi_ptr = 0;
const int SPI_BYTES_PER_LED = sizeof(ColorRgb) * SPI_BYTES_PER_COLOUR;
for (const ColorRgb& color : ledValues)
{
uint32_t colorBits = ((unsigned int)color.red << 16)
| ((unsigned int)color.green << 8)
| color.blue;
for (int j=SPI_BYTES_PER_LED - 1; j>=0; j--)
{
_ledBuffer[spi_ptr+j] = bitpair_to_byte[ colorBits & 0x3 ];
colorBits >>= 2;
}
spi_ptr += SPI_BYTES_PER_LED;
spi_ptr += SPI_BYTES_WAIT_TIME; // the wait between led time is all zeros
}
/*
// debug the whole SPI packet
char debug_line[2048];
int ptr=0;
for (unsigned int i=0; i < _ledBuffer.size(); i++)
{
if (i%16 == 0)
{
ptr += snprintf (ptr+debug_line, sizeof(debug_line)-ptr, "%03x: ", i);
}
ptr += snprintf (ptr+debug_line, sizeof(debug_line)-ptr, "%02x ", _ledBuffer.data()[i]);
if ( (i%16 == 15) || ( i == _ledBuffer.size()-1 ) )
{
Debug(_log, debug_line);
ptr = 0;
}
}
*/
return writeBytes(_ledBuffer.size(), _ledBuffer.data());
}