// Copyright Todd Treece // Copyright 2017 David Conran #include "IRrecv.h" #include "IRsend.h" #include "IRutils.h" // DDDD IIIII SSSS H H // D D I S H H // D D I SSS HHHHH // D D I S H H // DDDD IIIII SSSS H H // DISH support originally by Todd Treece // http://unionbridge.org/design/ircommand // Constants // Ref: // https://github.com/marcosamarinho/IRremoteESP8266/blob/master/ir_Dish.cpp // http://www.hifi-remote.com/wiki/index.php?title=Dish const uint16_t kDishTick = 100; const uint16_t kDishHdrMarkTicks = 4; const uint16_t kDishHdrMark = kDishHdrMarkTicks * kDishTick; const uint16_t kDishHdrSpaceTicks = 61; const uint16_t kDishHdrSpace = kDishHdrSpaceTicks * kDishTick; const uint16_t kDishBitMarkTicks = 4; const uint16_t kDishBitMark = kDishBitMarkTicks * kDishTick; const uint16_t kDishOneSpaceTicks = 17; const uint16_t kDishOneSpace = kDishOneSpaceTicks * kDishTick; const uint16_t kDishZeroSpaceTicks = 28; const uint16_t kDishZeroSpace = kDishZeroSpaceTicks * kDishTick; const uint16_t kDishRptSpaceTicks = kDishHdrSpaceTicks; const uint16_t kDishRptSpace = kDishRptSpaceTicks * kDishTick; #if SEND_DISH // Send an IR command to a DISH NETWORK device. // // Args: // data: The contents of the command you want to send. // nbits: The bit size of the command being sent. // repeat: The number of times you want the command to be repeated. // // Status: BETA / Previously working. // // Note: // Dishplayer is a different protocol. // Typically a DISH device needs to get a command a total of at least 4 // times to accept it. e.g. repeat=3 // // Here is the LIRC file I found that seems to match the remote codes from the // oscilloscope: // DISH NETWORK (echostar 301): // http://lirc.sourceforge.net/remotes/echostar/301_501_3100_5100_58xx_59xx // // Ref: // http://www.hifi-remote.com/wiki/index.php?title=Dish void IRsend::sendDISH(uint64_t data, uint16_t nbits, uint16_t repeat) { enableIROut(57600); // Set modulation freq. to 57.6kHz. // Header is only ever sent once. mark(kDishHdrMark); space(kDishHdrSpace); sendGeneric(0, 0, // No headers from here on in. kDishBitMark, kDishOneSpace, kDishBitMark, kDishZeroSpace, kDishBitMark, kDishRptSpace, data, nbits, 57600, true, repeat, 50); } #endif #if DECODE_DISH // Decode the supplied DISH NETWORK message. // // Args: // results: Ptr to the data to decode and where to store the decode result. // nbits: Nr. of bits to expect in the data portion. Typically kDishBits. // strict: Flag to indicate if we strictly adhere to the specification. // Returns: // boolean: True if it can decode it, false if it can't. // // Status: ALPHA (untested and unconfirmed.) // // Note: // Dishplayer is a different protocol. // Typically a DISH device needs to get a command a total of at least 4 // times to accept it. // Ref: // http://www.hifi-remote.com/wiki/index.php?title=Dish // http://lirc.sourceforge.net/remotes/echostar/301_501_3100_5100_58xx_59xx // https://github.com/marcosamarinho/IRremoteESP8266/blob/master/ir_Dish.cpp bool IRrecv::decodeDISH(decode_results *results, uint16_t nbits, bool strict) { if (results->rawlen < 2 * nbits + kHeader + kFooter - 1) return false; // Not enough entries to be valid. if (strict && nbits != kDishBits) return false; // Not strictly compliant. uint64_t data = 0; uint16_t offset = kStartOffset; // Header if (!match(results->rawbuf[offset], kDishHdrMark)) return false; // Calculate how long the common tick time is based on the header mark. uint32_t m_tick = results->rawbuf[offset++] * kRawTick / kDishHdrMarkTicks; if (!matchSpace(results->rawbuf[offset], kDishHdrSpace)) return false; // Calculate how long the common tick time is based on the header space. uint32_t s_tick = results->rawbuf[offset++] * kRawTick / kDishHdrSpaceTicks; // Data match_result_t data_result = matchData(&(results->rawbuf[offset]), nbits, kDishBitMarkTicks * m_tick, kDishOneSpaceTicks * s_tick, kDishBitMarkTicks * m_tick, kDishZeroSpaceTicks * s_tick); if (data_result.success == false) return false; data = data_result.data; offset += data_result.used; // Footer if (!matchMark(results->rawbuf[offset++], kDishBitMarkTicks * m_tick)) return false; // Compliance if (strict) { // The DISH protocol calls for a repeated message, so strictly speaking // there should be a code following this. Only require it if we are set to // strict matching. if (!matchSpace(results->rawbuf[offset], kDishRptSpaceTicks * s_tick)) return false; } // Success results->decode_type = DISH; results->bits = nbits; results->value = data; results->address = 0; results->command = 0; return true; } #endif