mirror of https://github.com/arendst/Tasmota.git
188 lines
6.0 KiB
C++
188 lines
6.0 KiB
C++
/**
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* esp-knx-ip library for KNX/IP communication on an ESP8266
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* Author: Nico Weichbrodt <envy>
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* License: MIT
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*/
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#include "esp-knx-ip.h"
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/**
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* Send functions
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*/
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void ESPKNXIP::send(address_t const &receiver, knx_command_type_t ct, uint8_t data_len, uint8_t *data)
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{
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if (receiver.value == 0)
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return;
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#if SEND_CHECKSUM
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uint32_t len = 6 + 2 + 8 + data_len + 1; // knx_pkt + cemi_msg + cemi_service + data + checksum
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#else
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uint32_t len = 6 + 2 + 8 + data_len; // knx_pkt + cemi_msg + cemi_service + data
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#endif
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DEBUG_PRINT(F("Creating packet with len "));
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DEBUG_PRINTLN(len)
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uint8_t buf[len];
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knx_ip_pkt_t *knx_pkt = (knx_ip_pkt_t *)buf;
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knx_pkt->header_len = 0x06;
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knx_pkt->protocol_version = 0x10;
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knx_pkt->service_type = __ntohs(KNX_ST_ROUTING_INDICATION);
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knx_pkt->total_len.len = __ntohs(len);
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cemi_msg_t *cemi_msg = (cemi_msg_t *)knx_pkt->pkt_data;
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cemi_msg->message_code = KNX_MT_L_DATA_IND;
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cemi_msg->additional_info_len = 0;
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cemi_service_t *cemi_data = &cemi_msg->data.service_information;
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cemi_data->control_1.bits.confirm = 0;
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//cemi_data->control_1.bits.ack = 1;
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cemi_data->control_1.bits.ack = 0; // ask for ACK? 0-no 1-yes
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cemi_data->control_1.bits.priority = B11;
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cemi_data->control_1.bits.system_broadcast = 0x01;
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cemi_data->control_1.bits.repeat = 0x01; // 0 = repeated telegram, 1 = not repeated telegram
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cemi_data->control_1.bits.reserved = 0;
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cemi_data->control_1.bits.frame_type = 0x01;
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cemi_data->control_2.bits.extended_frame_format = 0x00;
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cemi_data->control_2.bits.hop_count = 0x06;
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cemi_data->control_2.bits.dest_addr_type = 0x01;
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cemi_data->source = physaddr;
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cemi_data->destination = receiver;
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//cemi_data->destination.bytes.high = (area << 3) | line;
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//cemi_data->destination.bytes.low = member;
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cemi_data->data_len = data_len;
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cemi_data->pci.apci = (ct & 0x0C) >> 2;
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//cemi_data->pci.apci = KNX_COT_NCD_ACK;
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cemi_data->pci.tpci_seq_number = 0x00;
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cemi_data->pci.tpci_comm_type = KNX_COT_UDP; // Type of communication: DATA PACKAGE or CONTROL DATA
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//cemi_data->pci.tpci_comm_type = KNX_COT_NCD; // Type of communication: DATA PACKAGE or CONTROL DATA
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memcpy(cemi_data->data, data, data_len);
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//cemi_data->data[0] = (cemi_data->data[0] & 0x3F) | ((KNX_COT_NCD_ACK & 0x03) << 6);
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cemi_data->data[0] = (cemi_data->data[0] & 0x3F) | ((ct & 0x03) << 6);
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#if SEND_CHECKSUM
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// Calculate checksum, which is just XOR of all bytes
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uint8_t cs = buf[0] ^ buf[1];
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for (uint32_t i = 2; i < len - 1; ++i)
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{
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cs ^= buf[i];
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}
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buf[len - 1] = cs;
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#endif
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#ifdef ESP_KNX_DEBUG
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DEBUG_PRINT(F("Sending packet:"));
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for (int i = 0; i < len; ++i)
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{
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DEBUG_PRINT(F(" 0x"));
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DEBUG_PRINT(buf[i], 16);
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}
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DEBUG_PRINTLN(F(""));
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#endif
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udp.beginPacketMulticast(MULTICAST_IP, MULTICAST_PORT, WiFi.localIP());
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udp.write(buf, len);
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udp.endPacket();
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}
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void ESPKNXIP::send_1bit(address_t const &receiver, knx_command_type_t ct, uint8_t bit)
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{
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uint8_t buf[] = {(uint8_t)(bit & 0b00000001)};
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send(receiver, ct, 1, buf);
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}
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void ESPKNXIP::send_2bit(address_t const &receiver, knx_command_type_t ct, uint8_t twobit)
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{
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uint8_t buf[] = {(uint8_t)(twobit & 0b00000011)};
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send(receiver, ct, 1, buf);
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}
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void ESPKNXIP::send_4bit(address_t const &receiver, knx_command_type_t ct, uint8_t fourbit)
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{
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uint8_t buf[] = {(uint8_t)(fourbit & 0b00001111)};
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send(receiver, ct, 1, buf);
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}
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void ESPKNXIP::send_1byte_int(address_t const &receiver, knx_command_type_t ct, int8_t val)
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{
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uint8_t buf[] = {0x00, (uint8_t)val};
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send(receiver, ct, 2, buf);
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}
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void ESPKNXIP::send_1byte_uint(address_t const &receiver, knx_command_type_t ct, uint8_t val)
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{
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uint8_t buf[] = {0x00, val};
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send(receiver, ct, 2, buf);
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}
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void ESPKNXIP::send_2byte_int(address_t const &receiver, knx_command_type_t ct, int16_t val)
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{
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uint8_t buf[] = {0x00, (uint8_t)(val >> 8), (uint8_t)(val & 0x00FF)};
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send(receiver, ct, 3, buf);
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}
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void ESPKNXIP::send_2byte_uint(address_t const &receiver, knx_command_type_t ct, uint16_t val)
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{
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uint8_t buf[] = {0x00, (uint8_t)(val >> 8), (uint8_t)(val & 0x00FF)};
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send(receiver, ct, 3, buf);
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}
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void ESPKNXIP::send_2byte_float(address_t const &receiver, knx_command_type_t ct, float val)
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{
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float v = val * 100.0f;
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int e = 0;
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for (; v < -2048.0f; v /= 2)
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++e;
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for (; v > 2047.0f; v /= 2)
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++e;
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long m = round(v) & 0x7FF;
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short msb = (short) (e << 3 | m >> 8);
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if (val < 0.0f)
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msb |= 0x80;
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uint8_t buf[] = {0x00, (uint8_t)msb, (uint8_t)m};
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send(receiver, ct, 3, buf);
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}
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void ESPKNXIP::send_3byte_time(address_t const &receiver, knx_command_type_t ct, uint8_t weekday, uint8_t hours, uint8_t minutes, uint8_t seconds)
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{
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weekday <<= 5;
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uint8_t buf[] = {0x00, (uint8_t)(((weekday << 5) & 0xE0) | (hours & 0x1F)), (uint8_t)(minutes & 0x3F), (uint8_t)(seconds & 0x3F)};
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send(receiver, ct, 4, buf);
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}
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void ESPKNXIP::send_3byte_date(address_t const &receiver, knx_command_type_t ct, uint8_t day, uint8_t month, uint8_t year)
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{
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uint8_t buf[] = {0x00, (uint8_t)(day & 0x1F), (uint8_t)(month & 0x0F), year};
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send(receiver, ct, 4, buf);
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}
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void ESPKNXIP::send_3byte_color(address_t const &receiver, knx_command_type_t ct, uint8_t red, uint8_t green, uint8_t blue)
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{
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uint8_t buf[] = {0x00, red, green, blue};
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send(receiver, ct, 4, buf);
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}
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void ESPKNXIP::send_4byte_int(address_t const &receiver, knx_command_type_t ct, int32_t val)
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{
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uint8_t buf[] = {0x00,
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(uint8_t)((val & 0xFF000000) >> 24),
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(uint8_t)((val & 0x00FF0000) >> 16),
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(uint8_t)((val & 0x0000FF00) >> 8),
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(uint8_t)((val & 0x000000FF) >> 0)};
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send(receiver, ct, 5, buf);
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}
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void ESPKNXIP::send_4byte_uint(address_t const &receiver, knx_command_type_t ct, uint32_t val)
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{
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uint8_t buf[] = {0x00,
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(uint8_t)((val & 0xFF000000) >> 24),
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(uint8_t)((val & 0x00FF0000) >> 16),
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(uint8_t)((val & 0x0000FF00) >> 8),
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(uint8_t)((val & 0x000000FF) >> 0)};
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send(receiver, ct, 5, buf);
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}
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void ESPKNXIP::send_4byte_float(address_t const &receiver, knx_command_type_t ct, float val)
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{
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uint8_t buf[] = {0x00, ((uint8_t *)&val)[3], ((uint8_t *)&val)[2], ((uint8_t *)&val)[1], ((uint8_t *)&val)[0]};
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send(receiver, ct, 5, buf);
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}
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