kopia lustrzana https://github.com/weetmuts/wmbusmeters
594 wiersze
19 KiB
C++
594 wiersze
19 KiB
C++
/*
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Copyright (C) 2017-2019 Fredrik Öhrström
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include"dvparser.h"
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#include"meters.h"
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#include"meters_common_implementation.h"
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#include"wmbus.h"
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#include"wmbus_utils.h"
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#include"util.h"
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#include<assert.h>
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#include<map>
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#include<memory.h>
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#include<stdio.h>
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#include<string>
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#include<time.h>
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#include<vector>
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using namespace std;
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#define INFO_CODE_DRY 0x01
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#define INFO_CODE_DRY_SHIFT (4+0)
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#define INFO_CODE_REVERSE 0x02
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#define INFO_CODE_REVERSE_SHIFT (4+3)
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#define INFO_CODE_LEAK 0x04
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#define INFO_CODE_LEAK_SHIFT (4+6)
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#define INFO_CODE_BURST 0x08
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#define INFO_CODE_BURST_SHIFT (4+9)
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struct MeterMultical21 : public virtual WaterMeter, public virtual MeterCommonImplementation {
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MeterMultical21(WMBus *bus, const char *name, const char *id, const char *key, MeterType mt);
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// Total water counted through the meter
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double totalWaterConsumption();
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bool hasTotalWaterConsumption();
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// Meter sends target water consumption or max flow, depending on meter configuration
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// We can see which was sent inside the wmbus message!
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// Target water consumption: The total consumption at the start of the previous 30 day period.
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double targetWaterConsumption();
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bool hasTargetWaterConsumption();
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// Max flow during last month or last 24 hours depending on meter configuration.
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double maxFlow();
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bool hasMaxFlow();
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// Water temperature
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double flowTemperature();
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bool hasFlowTemperature();
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// Surrounding temperature
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double externalTemperature();
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bool hasExternalTemperature();
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// statusHumanReadable: DRY,REVERSED,LEAK,BURST if that status is detected right now, followed by
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// (dry 15-21 days) which means that, even it DRY is not active right now,
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// DRY has been active for 15-21 days during the last 30 days.
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string statusHumanReadable();
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string status();
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string timeDry();
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string timeReversed();
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string timeLeaking();
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string timeBursting();
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void printMeter(string *human_readable,
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string *fields, char separator,
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string *json,
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vector<string> *envs);
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private:
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void handleTelegram(Telegram *t);
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void processContent(Telegram *t);
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string decodeTime(int time);
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uint16_t info_codes_ {};
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double total_water_consumption_ {};
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bool has_total_water_consumption_ {};
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double target_volume_ {};
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bool has_target_volume_ {};
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double max_flow_ {};
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bool has_max_flow_ {};
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double flow_temperature_ { 127 };
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bool has_flow_temperature_ {};
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double external_temperature_ { 127 };
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bool has_external_temperature_ {};
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const char *meter_name_; // multical21 or flowiq3100
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int expected_version_ {}; // 0x1b for Multical21 and 0x1d for FlowIQ3100
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};
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MeterMultical21::MeterMultical21(WMBus *bus, const char *name, const char *id, const char *key, MeterType mt) :
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MeterCommonImplementation(bus, name, id, key, mt, MANUFACTURER_KAM, 0x16, LinkModeC1)
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{
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if (type() == MULTICAL21_METER) {
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expected_version_ = 0x1b;
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meter_name_ = "multical21";
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} else if (type() == FLOWIQ3100_METER) {
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expected_version_ = 0x1d;
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meter_name_ = "flowiq3100";
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} else {
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assert(0);
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}
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MeterCommonImplementation::bus()->onTelegram(calll(this,handleTelegram,Telegram*));
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}
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double MeterMultical21::totalWaterConsumption()
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{
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return total_water_consumption_;
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}
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bool MeterMultical21::hasTotalWaterConsumption()
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{
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return has_total_water_consumption_;
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}
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double MeterMultical21::targetWaterConsumption()
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{
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return target_volume_;
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}
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bool MeterMultical21::hasTargetWaterConsumption()
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{
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return has_target_volume_;
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}
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double MeterMultical21::maxFlow()
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{
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return max_flow_;
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}
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bool MeterMultical21::hasMaxFlow()
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{
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return has_max_flow_;
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}
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double MeterMultical21::flowTemperature()
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{
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return flow_temperature_;
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}
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bool MeterMultical21::hasFlowTemperature()
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{
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return has_flow_temperature_;
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}
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double MeterMultical21::externalTemperature()
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{
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return external_temperature_;
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}
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bool MeterMultical21::hasExternalTemperature()
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{
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return has_external_temperature_;
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}
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unique_ptr<WaterMeter> createMultical21(WMBus *bus, const char *name, const char *id, const char *key, MeterType mt)
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{
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if (mt != MULTICAL21_METER && mt != FLOWIQ3100_METER) {
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error("Internal error! Not a proper meter type when creating a multical21 style meter.\n");
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}
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return unique_ptr<WaterMeter>(new MeterMultical21(bus,name,id,key,mt));
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}
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void MeterMultical21::handleTelegram(Telegram *t)
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{
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if (!isTelegramForMe(t)) {
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// This telegram is not intended for this meter.
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return;
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}
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verbose("(%s) telegram for %s %02x%02x%02x%02x\n", meter_name_,
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name().c_str(),
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t->a_field_address[0], t->a_field_address[1], t->a_field_address[2],
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t->a_field_address[3]);
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if (t->a_field_device_type != 0x16) {
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warning("(%s) expected telegram for water media, but got \"%s\"!\n", meter_name_,
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mediaType(t->m_field, t->a_field_device_type).c_str());
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}
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if (t->m_field != manufacturer() ||
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t->a_field_version != expected_version_) {
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warning("(%s) expected telegram from KAM meter with version 0x%02x, "
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"but got \"%s\" meter with version 0x%02x !\n", meter_name_,
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expected_version_,
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manufacturerFlag(t->m_field).c_str(),
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t->a_field_version);
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}
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if (useAes()) {
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vector<uchar> aeskey = key();
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decryptMode1_AES_CTR(t, aeskey);
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} else {
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t->content = t->payload;
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}
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char log_prefix[256];
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snprintf(log_prefix, 255, "(%s) log", meter_name_);
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logTelegram(log_prefix, t->parsed, t->content);
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int content_start = t->parsed.size();
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processContent(t);
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if (isDebugEnabled()) {
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snprintf(log_prefix, 255, "(%s)", meter_name_);
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t->explainParse(log_prefix, content_start);
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}
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triggerUpdate(t);
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}
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void MeterMultical21::processContent(Telegram *t)
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{
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// 02 dif (16 Bit Integer/Binary Instantaneous value)
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// FF vif (Kamstrup extension)
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// 20 vife (?)
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// 7100 info codes (DRY(dry 22-31 days))
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// 04 dif (32 Bit Integer/Binary Instantaneous value)
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// 13 vif (Volume l)
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// F8180000 total consumption (6.392000 m3)
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// 44 dif (32 Bit Integer/Binary Instantaneous value storagenr=1)
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// 13 vif (Volume l)
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// F4180000 target consumption (6.388000 m3)
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// 61 dif (8 Bit Integer/Binary Minimum value storagenr=1)
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// 5B vif (Flow temperature °C)
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// 7F flow temperature (127.000000 °C)
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// 61 dif (8 Bit Integer/Binary Minimum value storagenr=1)
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// 67 vif (External temperature °C)
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// 17 external temperature (23.000000 °C)
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// 02 dif (16 Bit Integer/Binary Instantaneous value)
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// FF vif (Kamstrup extension)
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// 20 vife (?)
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// 0000 info codes (OK)
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// 04 dif (32 Bit Integer/Binary Instantaneous value)
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// 13 vif (Volume l)
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// 2F4E0000 total consumption (20.015000 m3)
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// 92 dif (16 Bit Integer/Binary Maximum value)
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// 01 dife (subunit=0 tariff=0 storagenr=2)
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// 3B vif (Volume flow l/h)
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// 3D01 max flow (0.317000 m3/h)
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// A1 dif (8 Bit Integer/Binary Minimum value)
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// 01 dife (subunit=0 tariff=0 storagenr=2)
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// 5B vif (Flow temperature °C)
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// 02 flow temperature (2.000000 °C)
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// 81 dif (8 Bit Integer/Binary Instantaneous value)
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// 01 dife (subunit=0 tariff=0 storagenr=2)
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// E7 vif (External temperature °C)
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// FF vife (?)
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// 0F vife (?)
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// 03 external temperature (3.000000 °C)
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vector<uchar>::iterator bytes = t->content.begin();
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int crc0 = t->content[0];
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int crc1 = t->content[1];
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t->addExplanation(bytes, 2, "%02x%02x payload crc", crc0, crc1);
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int frame_type = t->content[2];
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t->addExplanation(bytes, 1, "%02x frame type (%s)", frame_type, frameTypeKamstrupC1(frame_type).c_str());
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map<string,pair<int,DVEntry>> values;
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if (frame_type == 0x79)
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{
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// This is a "compact frame" in wmbus lingo.
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// (Other such frame_types are Ci=0x69, 0x6a, 0x6b and Ci=0x79, 0x7b, compact frames and format frames)
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// 0,1 = crc for format signature = hash over DRH (Data Record Header)
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// The DRH is the dif(difes)vif(vifes) bytes for all the records...
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// This hash is used to find the suitable format string, that has been previously
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// seen in a long frame telegram.
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uchar ecrc0 = t->content[3];
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uchar ecrc1 = t->content[4];
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t->addExplanation(bytes, 2, "%02x%02x format signature", ecrc0, ecrc1);
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uint16_t format_signature = ecrc1<<8 | ecrc0;
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vector<uchar> format_bytes;
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bool ok = loadFormatBytesFromSignature(format_signature, &format_bytes);
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if (!ok) {
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// We have not yet seen a long frame, but we know the formats for these
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// particular hashes:
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if (format_signature == 0xa8ed)
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{
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hex2bin("02FF2004134413615B6167", &format_bytes);
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debug("(%s) using hard coded format for hash a8ed\n", meter_name_);
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}
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else if (format_signature == 0xc412)
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{
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hex2bin("02FF20041392013BA1015B8101E7FF0F", &format_bytes);
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debug("(%s) using hard coded format for hash c412\n", meter_name_);
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}
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else
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{
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verbose("(%s) ignoring telegram since format signature hash 0x%02x is yet unknown.\n",
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meter_name_, format_signature);
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return;
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}
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}
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vector<uchar>::iterator format = format_bytes.begin();
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// 2,3 = crc for payload = hash over both DRH and data bytes. Or is it only over the data bytes?
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int ecrc2 = t->content[5];
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int ecrc3 = t->content[6];
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t->addExplanation(bytes, 2, "%02x%02x data crc", ecrc2, ecrc3);
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parseDV(t, t->content, t->content.begin()+7, t->content.size()-7, &values, &format, format_bytes.size());
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}
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else
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if (frame_type == 0x78)
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{
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parseDV(t, t->content, t->content.begin()+3, t->content.size()-3, &values);
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}
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else
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{
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warning("(%s) warning: unknown frame %02x (did you use the correct encryption key?)\n", meter_name_, frame_type);
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return;
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}
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int offset;
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string key;
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extractDVuint16(&values, "02FF20", &offset, &info_codes_);
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t->addMoreExplanation(offset, " info codes (%s)", statusHumanReadable().c_str());
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if(findKey(ValueInformation::Volume, 0, &key, &values)) {
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extractDVdouble(&values, key, &offset, &total_water_consumption_);
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has_total_water_consumption_ = true;
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t->addMoreExplanation(offset, " total consumption (%f m3)", total_water_consumption_);
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}
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if(findKey(ValueInformation::Volume, 1, &key, &values)) {
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extractDVdouble(&values, key, &offset, &target_volume_);
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has_target_volume_ = true;
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t->addMoreExplanation(offset, " target consumption (%f m3)", target_volume_);
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}
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if(findKey(ValueInformation::VolumeFlow, ANY_STORAGENR, &key, &values)) {
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extractDVdouble(&values, key, &offset, &max_flow_);
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has_max_flow_ = true;
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t->addMoreExplanation(offset, " max flow (%f m3/h)", max_flow_);
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}
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if(findKey(ValueInformation::FlowTemperature, ANY_STORAGENR, &key, &values)) {
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has_flow_temperature_ = extractDVdouble(&values, key, &offset, &flow_temperature_);
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t->addMoreExplanation(offset, " flow temperature (%f °C)", flow_temperature_);
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}
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if(findKey(ValueInformation::ExternalTemperature, ANY_STORAGENR, &key, &values)) {
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has_external_temperature_ = extractDVdouble(&values, key, &offset, &external_temperature_);
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t->addMoreExplanation(offset, " external temperature (%f °C)", external_temperature_);
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}
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}
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string MeterMultical21::status()
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{
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string s;
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if (info_codes_ & INFO_CODE_DRY) s.append("DRY ");
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if (info_codes_ & INFO_CODE_REVERSE) s.append("REVERSED ");
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if (info_codes_ & INFO_CODE_LEAK) s.append("LEAK ");
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if (info_codes_ & INFO_CODE_BURST) s.append("BURST ");
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if (s.length() > 0) {
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s.pop_back(); // Remove final space
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return s;
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}
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return s;
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}
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string MeterMultical21::timeDry()
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{
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int time_dry = (info_codes_ >> INFO_CODE_DRY_SHIFT) & 7;
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if (time_dry) {
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return decodeTime(time_dry);
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}
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return "";
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}
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string MeterMultical21::timeReversed()
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{
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int time_reversed = (info_codes_ >> INFO_CODE_REVERSE_SHIFT) & 7;
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if (time_reversed) {
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return decodeTime(time_reversed);
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}
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return "";
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}
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string MeterMultical21::timeLeaking()
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{
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int time_leaking = (info_codes_ >> INFO_CODE_LEAK_SHIFT) & 7;
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if (time_leaking) {
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return decodeTime(time_leaking);
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}
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return "";
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}
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string MeterMultical21::timeBursting()
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{
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int time_bursting = (info_codes_ >> INFO_CODE_BURST_SHIFT) & 7;
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if (time_bursting) {
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return decodeTime(time_bursting);
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}
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return "";
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}
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string MeterMultical21::statusHumanReadable()
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{
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string s;
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bool dry = info_codes_ & INFO_CODE_DRY;
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int time_dry = (info_codes_ >> INFO_CODE_DRY_SHIFT) & 7;
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if (dry || time_dry) {
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if (dry) s.append("DRY");
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s.append("(dry ");
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s.append(decodeTime(time_dry));
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s.append(") ");
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}
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bool reversed = info_codes_ & INFO_CODE_REVERSE;
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int time_reversed = (info_codes_ >> INFO_CODE_REVERSE_SHIFT) & 7;
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if (reversed || time_reversed) {
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if (dry) s.append("REVERSED");
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s.append("(rev ");
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s.append(decodeTime(time_reversed));
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s.append(") ");
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}
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bool leak = info_codes_ & INFO_CODE_LEAK;
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int time_leak = (info_codes_ >> INFO_CODE_LEAK_SHIFT) & 7;
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if (leak || time_leak) {
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if (dry) s.append("LEAK");
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s.append("(leak ");
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s.append(decodeTime(time_leak));
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s.append(") ");
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}
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bool burst = info_codes_ & INFO_CODE_BURST;
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int time_burst = (info_codes_ >> INFO_CODE_BURST_SHIFT) & 7;
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if (burst || time_burst) {
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if (dry) s.append("BURST");
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s.append("(burst ");
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s.append(decodeTime(time_burst));
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s.append(") ");
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}
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if (s.length() > 0) {
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s.pop_back();
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return s;
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}
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return "OK";
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}
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string MeterMultical21::decodeTime(int time)
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{
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if (time>7) {
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warning("(%s) warning: Cannot decode time %d should be 0-7.\n", meter_name_, time);
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}
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switch (time) {
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case 0:
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return "0 hours";
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case 1:
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return "1-8 hours";
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case 2:
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return "9-24 hours";
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case 3:
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return "2-3 days";
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case 4:
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return "4-7 days";
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case 5:
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return "8-14 days";
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case 6:
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return "15-21 days";
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case 7:
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return "22-31 days";
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default:
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return "?";
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}
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}
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void MeterMultical21::printMeter(string *human_readable,
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string *fields, char separator,
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string *json,
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vector<string> *envs)
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{
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char buf[65536];
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buf[65535] = 0;
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char ft[10], et[10];
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ft[9] = 0;
|
|
et[9] = 0;
|
|
|
|
if (hasFlowTemperature()) {
|
|
snprintf(ft, sizeof(ft)-1, "% 2.0f", flowTemperature());
|
|
} else {
|
|
ft[0] = '-';
|
|
ft[1] = 0;
|
|
}
|
|
|
|
if (hasExternalTemperature()) {
|
|
snprintf(et, sizeof(et)-1, "% 2.0f", externalTemperature());
|
|
} else {
|
|
et[0] = '-';
|
|
et[1] = 0;
|
|
}
|
|
|
|
snprintf(buf, sizeof(buf)-1, "%s\t%s\t% 3.3f m3\t% 3.3f m3\t% 3.3f m3/h\t%s°C\t%s°C\t%s\t%s",
|
|
name().c_str(),
|
|
id().c_str(),
|
|
totalWaterConsumption(),
|
|
targetWaterConsumption(),
|
|
maxFlow(),
|
|
ft,
|
|
et,
|
|
statusHumanReadable().c_str(),
|
|
datetimeOfUpdateHumanReadable().c_str());
|
|
|
|
*human_readable = buf;
|
|
|
|
snprintf(buf, sizeof(buf)-1, "%s%c" "%s%c" "%f%c" "%f%c" "%f%c" "%.0f%c" "%.0f%c" "%s%c" "%s",
|
|
name().c_str(), separator,
|
|
id().c_str(), separator,
|
|
totalWaterConsumption(), separator,
|
|
targetWaterConsumption(), separator,
|
|
maxFlow(), separator,
|
|
flowTemperature(), separator,
|
|
externalTemperature(), separator,
|
|
statusHumanReadable().c_str(), separator,
|
|
datetimeOfUpdateRobot().c_str());
|
|
|
|
*fields = buf;
|
|
|
|
#define Q(x,y) "\""#x"\":"#y","
|
|
#define QS(x,y) "\""#x"\":\""#y"\","
|
|
#define QSE(x,y) "\""#x"\":\""#y"\""
|
|
|
|
snprintf(buf, sizeof(buf)-1, "{"
|
|
QS(media,%s)
|
|
QS(meter,%s)
|
|
QS(name,%s)
|
|
QS(id,%s)
|
|
Q(total_m3,%f)
|
|
Q(target_m3,%f)
|
|
Q(max_flow_m3h,%f)
|
|
Q(flow_temperature,%.0f)
|
|
Q(external_temperature,%.0f)
|
|
QS(current_status,%s)
|
|
QS(time_dry,%s)
|
|
QS(time_reversed,%s)
|
|
QS(time_leaking,%s)
|
|
QS(time_bursting,%s)
|
|
QSE(timestamp,%s)
|
|
"}",
|
|
mediaType(manufacturer(), media()).c_str(),
|
|
meter_name_,
|
|
name().c_str(),
|
|
id().c_str(),
|
|
totalWaterConsumption(),
|
|
targetWaterConsumption(),
|
|
maxFlow(),
|
|
flowTemperature(),
|
|
externalTemperature(),
|
|
status().c_str(), // DRY REVERSED LEAK BURST
|
|
timeDry().c_str(),
|
|
timeReversed().c_str(),
|
|
timeLeaking().c_str(),
|
|
timeBursting().c_str(),
|
|
datetimeOfUpdateRobot().c_str());
|
|
|
|
*json = buf;
|
|
|
|
envs->push_back(string("METER_JSON=")+*json);
|
|
envs->push_back(string("METER_TYPE=")+meter_name_);
|
|
envs->push_back(string("METER_ID=")+id());
|
|
envs->push_back(string("METER_TOTAL_M3=")+to_string(totalWaterConsumption()));
|
|
envs->push_back(string("METER_TARGET_M3=")+to_string(targetWaterConsumption()));
|
|
envs->push_back(string("METER_MAX_FLOW_M3H=")+to_string(maxFlow()));
|
|
envs->push_back(string("METER_FLOW_TEMPERATURE=")+to_string(flowTemperature()));
|
|
envs->push_back(string("METER_EXTERNAL_TEMPERATURE=")+to_string(externalTemperature()));
|
|
envs->push_back(string("METER_STATUS=")+status());
|
|
envs->push_back(string("METER_TIME_DRY=")+timeDry());
|
|
envs->push_back(string("METER_TIME_REVERSED=")+timeReversed());
|
|
envs->push_back(string("METER_TIME_LEAKING=")+timeLeaking());
|
|
envs->push_back(string("METER_TIME_BURSTING=")+timeBursting());
|
|
envs->push_back(string("METER_TIMESTAMP=")+datetimeOfUpdateRobot());
|
|
}
|