added communication monitoring an fix for Viessmann device hanging on boot (#16)

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j0ta29 2024-07-24 17:02:10 +02:00 committed by GitHub
parent 3188efcf62
commit a9b25b27fa
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17 changed files with 123 additions and 62 deletions

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@ -9,9 +9,7 @@
namespace esphome { namespace esphome {
namespace optolink { namespace optolink {
class OptolinkBinarySensor : public DatapointComponent, class OptolinkBinarySensor : public DatapointComponent, public esphome::binary_sensor::BinarySensor {
public esphome::binary_sensor::BinarySensor,
public esphome::PollingComponent {
public: public:
OptolinkBinarySensor(Optolink *optolink) : DatapointComponent(optolink) { OptolinkBinarySensor(Optolink *optolink) : DatapointComponent(optolink) {
set_bytes(1); set_bytes(1);

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@ -17,6 +17,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<convRaw>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<convRaw>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setLength(bytes_); datapoint_->setLength(bytes_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
optolink_->notify_receive();
uint8_t buffer[bytes_]; uint8_t buffer[bytes_];
dp_value.getRaw(buffer); dp_value.getRaw(buffer);
#if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_INFO #if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_INFO
@ -34,6 +35,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv1_1_US>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv1_1_US>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %d", dp.getName(), dp_value.getU8()); ESP_LOGI(TAG, "recieved data for datapoint %s: %d", dp.getName(), dp_value.getU8());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getU8()); datapoint_value_changed(dp_value.getU8());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -42,6 +44,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv2_1_US>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv2_1_US>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %d", dp.getName(), dp_value.getU16()); ESP_LOGI(TAG, "recieved data for datapoint %s: %d", dp.getName(), dp_value.getU16());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getU16()); datapoint_value_changed(dp_value.getU16());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -50,6 +53,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv4_1_UL>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv4_1_UL>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %d", dp.getName(), dp_value.getU32()); ESP_LOGI(TAG, "recieved data for datapoint %s: %d", dp.getName(), dp_value.getU32());
optolink_->notify_receive();
datapoint_value_changed((uint32_t) dp_value.getU32()); datapoint_value_changed((uint32_t) dp_value.getU32());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -64,6 +68,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv1_10_F>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv1_10_F>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat()); ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getFloat()); datapoint_value_changed(dp_value.getFloat());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -72,6 +77,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv2_10_F>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv2_10_F>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat()); ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getFloat()); datapoint_value_changed(dp_value.getFloat());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -86,6 +92,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv2_100_F>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv2_100_F>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat()); ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getFloat()); datapoint_value_changed(dp_value.getFloat());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -100,6 +107,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv4_1000_F>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv4_1000_F>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat()); ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getFloat()); datapoint_value_changed(dp_value.getFloat());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -112,6 +120,7 @@ void DatapointComponent::setup_datapoint_() {
datapoint_ = new Datapoint<conv4_3600_F>(get_component_name().c_str(), "optolink", address_, writeable_); datapoint_ = new Datapoint<conv4_3600_F>(get_component_name().c_str(), "optolink", address_, writeable_);
datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) { datapoint_->setCallback([this](const IDatapoint &dp, DPValue dp_value) {
ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat()); ESP_LOGI(TAG, "recieved data for datapoint %s: %f", dp.getName(), dp_value.getFloat());
optolink_->notify_receive();
datapoint_value_changed(dp_value.getFloat()); datapoint_value_changed(dp_value.getFloat());
read_retries_ = 0; read_retries_ = 0;
}); });
@ -128,7 +137,8 @@ void DatapointComponent::datapoint_read_request_() {
ESP_LOGI(TAG, "read request for %s deferred due to outstanding write request", get_component_name().c_str()); ESP_LOGI(TAG, "read request for %s deferred due to outstanding write request", get_component_name().c_str());
datapoint_write_request_(dp_value_outstanding_); datapoint_write_request_(dp_value_outstanding_);
} else { } else {
if (read_retries_ == 0 || read_retries_ >= max_retries_until_reset_) { if (!optolink_->communication_suspended()) {
if ((read_retries_ == 0 || read_retries_ >= max_retries_until_reset_) || get_update_interval() > 10000) {
if (optolink_->read_value(datapoint_)) { if (optolink_->read_value(datapoint_)) {
read_retries_ = 1; read_retries_ = 1;
} }
@ -137,6 +147,9 @@ void DatapointComponent::datapoint_read_request_() {
ESP_LOGW(TAG, "%d. read request for %s rejected due to outstanding running request - increase update_interval!", ESP_LOGW(TAG, "%d. read request for %s rejected due to outstanding running request - increase update_interval!",
read_retries_, get_component_name().c_str()); read_retries_, get_component_name().c_str());
} }
} else {
read_retries_ = 0;
}
} }
} }
@ -166,9 +179,8 @@ void DatapointComponent::datapoint_value_changed(uint8_t *value, size_t length)
void DatapointComponent::datapoint_write_request_(DPValue dp_value) { void DatapointComponent::datapoint_write_request_(DPValue dp_value) {
if (!writeable_) { if (!writeable_) {
optolink_->set_state("trying to control not writable datapoint %s", get_component_name().c_str());
ESP_LOGE(TAG, "trying to control not writable datapoint %s", get_component_name().c_str()); ESP_LOGE(TAG, "trying to control not writable datapoint %s", get_component_name().c_str());
} else if (datapoint_ != nullptr) { } else if (datapoint_ != nullptr && !optolink_->communication_suspended()) {
#if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_INFO #if ESPHOME_LOG_LEVEL >= ESPHOME_LOG_LEVEL_INFO
char buffer[100]; char buffer[100];
dp_value.getString(buffer, sizeof(buffer)); dp_value.getString(buffer, sizeof(buffer));
@ -242,24 +254,9 @@ void DatapointComponent::write_datapoint_value_(uint8_t *value, size_t length) {
} }
void DatapointComponent::unfitting_value_type_() { void DatapointComponent::unfitting_value_type_() {
optolink_->set_state("Unfitting byte/div_ratio combination for sensor/component %s", get_component_name().c_str());
ESP_LOGE(TAG, "Unfitting byte/div_ratio combination for sensor/component %s", get_component_name().c_str()); ESP_LOGE(TAG, "Unfitting byte/div_ratio combination for sensor/component %s", get_component_name().c_str());
} }
void DatapointComponent::set_optolink_state_(const char *format, ...) {
va_list args;
va_start(args, format);
char buffer[128];
std::vsnprintf(buffer, sizeof(buffer), format, args);
va_end(args);
optolink_->set_state(buffer);
}
std::string DatapointComponent::get_optolink_state_() { return optolink_->get_state(); }
int DatapointComponent::get_optolink_queue_size_() { return optolink_->get_queue_size(); };
void conv2_100_F::encode(uint8_t *out, DPValue in) { void conv2_100_F::encode(uint8_t *out, DPValue in) {
int16_t tmp = floor((in.getFloat() * 100) + 0.5); int16_t tmp = floor((in.getFloat() * 100) + 0.5);
out[1] = tmp >> 8; out[1] = tmp >> 8;

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@ -4,6 +4,7 @@
#include "esphome/core/log.h" #include "esphome/core/log.h"
#include "esphome/core/string_ref.h" #include "esphome/core/string_ref.h"
#include "esphome/core/component.h"
#include "VitoWiFi.h" #include "VitoWiFi.h"
namespace esphome { namespace esphome {
@ -11,7 +12,7 @@ namespace optolink {
class Optolink; class Optolink;
class DatapointComponent { class DatapointComponent : public esphome::PollingComponent {
public: public:
DatapointComponent(Optolink *optolink, bool writeable = false) : dp_value_outstanding_((uint8_t) 0) { DatapointComponent(Optolink *optolink, bool writeable = false) : dp_value_outstanding_((uint8_t) 0) {
optolink_ = optolink; optolink_ = optolink;
@ -46,13 +47,11 @@ class DatapointComponent {
void write_datapoint_value_(uint8_t *value, size_t length); void write_datapoint_value_(uint8_t *value, size_t length);
void unfitting_value_type_(); void unfitting_value_type_();
void set_optolink_state_(const char *format, ...);
std::string get_optolink_state_(); Optolink *optolink_;
int get_optolink_queue_size_();
private: private:
const size_t max_retries_until_reset_ = 10; const size_t max_retries_until_reset_ = 10;
Optolink *optolink_;
IDatapoint *datapoint_ = nullptr; IDatapoint *datapoint_ = nullptr;
size_t read_retries_ = 0; size_t read_retries_ = 0;
size_t div_ratio_ = 0; size_t div_ratio_ = 0;
@ -62,6 +61,9 @@ class DatapointComponent {
bool is_dp_value_writing_outstanding_ = false; bool is_dp_value_writing_outstanding_ = false;
DPValue dp_value_outstanding_; DPValue dp_value_outstanding_;
static uint32_t last_recv;
static uint32_t last_send;
void datapoint_write_request_(DPValue dp_value); void datapoint_write_request_(DPValue dp_value);
}; };

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@ -10,7 +10,6 @@ static const char *const TAG = "optolink.number";
void OptolinkNumber::control(float value) { void OptolinkNumber::control(float value) {
if (value > traits.get_max_value() || value < traits.get_min_value()) { if (value > traits.get_max_value() || value < traits.get_min_value()) {
set_optolink_state_("datapoint value of number %s not in allowed range", get_component_name().c_str());
ESP_LOGE(TAG, "datapoint value of number %s not in allowed range", get_component_name().c_str()); ESP_LOGE(TAG, "datapoint value of number %s not in allowed range", get_component_name().c_str());
} else { } else {
ESP_LOGI(TAG, "control of number %s to value %f", get_component_name().c_str(), value); ESP_LOGI(TAG, "control of number %s to value %f", get_component_name().c_str(), value);

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@ -9,7 +9,7 @@
namespace esphome { namespace esphome {
namespace optolink { namespace optolink {
class OptolinkNumber : public DatapointComponent, public esphome::number::Number, public esphome::PollingComponent { class OptolinkNumber : public DatapointComponent, public esphome::number::Number {
public: public:
OptolinkNumber(Optolink *optolink) : DatapointComponent(optolink, true) {} OptolinkNumber(Optolink *optolink) : DatapointComponent(optolink, true) {}

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@ -11,12 +11,6 @@ namespace optolink {
static const char *const TAG = "optolink"; static const char *const TAG = "optolink";
void Optolink::comm_() {
ESP_LOGD(TAG, "enter _comm");
VitoWiFi.readAll();
ESP_LOGD(TAG, "exit _comm");
}
void Optolink::setup() { void Optolink::setup() {
ESP_LOGI(TAG, "setup"); ESP_LOGI(TAG, "setup");
@ -32,11 +26,16 @@ void Optolink::setup() {
#endif #endif
} }
void Optolink::loop() { VitoWiFi.loop(); } void Optolink::loop() {
communication_check_();
if (!communication_suspended()) {
VitoWiFi.loop();
}
}
int Optolink::get_queue_size() { return VitoWiFi.queueSize(); } int Optolink::get_queue_size() { return VitoWiFi.queueSize(); }
void Optolink::set_state(const char *format, ...) { void Optolink::set_state_(const char *format, ...) {
va_list args; va_list args;
va_start(args, format); va_start(args, format);
char buffer[128]; char buffer[128];
@ -46,11 +45,67 @@ void Optolink::set_state(const char *format, ...) {
state_ = buffer; state_ = buffer;
} }
void Optolink::notify_receive() { timestamp_receive_ = timestamp_loop_; }
void Optolink::notify_send() { timestamp_send_ = timestamp_loop_; }
void Optolink::communication_check_() {
timestamp_loop_ = millis();
if (communication_suspended()) {
if (timestamp_loop_ < timestamp_disruption_ ||
(timestamp_loop_ - timestamp_disruption_) > COMMUNICATION_SUSPENSION_DURATION) {
resume_communication_();
} else {
set_state_("communication suspended");
// if (timestamp_loop % 10 == 0)
// ESP_LOGD(TAG, "communication suspended");
}
} else if (timestamp_loop_ < timestamp_send_ || timestamp_loop_ < timestamp_receive_) {
ESP_LOGI(TAG, "timestamp rollover");
timestamp_send_ = 0;
timestamp_receive_ = 0;
} else if (timestamp_send_ > 0 && (timestamp_loop_ - timestamp_receive_) > COMMUNICATION_CHECK_WINDOW) {
// last response older than 10 sec - check if there was no request in same time window except last two seconds
if (timestamp_send_ > timestamp_loop_ - MAX_RESPONSE_DELAY) {
// request too fresh -> possiblly still waiting for response
} else if (timestamp_send_ < timestamp_receive_) {
// no new and fresh request since last response
set_state_("communication unused");
} else {
suspend_communication_();
}
} else {
set_state_("communication active");
}
}
void Optolink::suspend_communication_() {
set_state_("communication suspended");
ESP_LOGW(TAG,
"communication disrupted - suspending communication for 10 sec; timestamp_loop: %u, timestamp_send: %u, "
"timestamp_receive: %u ",
timestamp_loop_, timestamp_send_, timestamp_receive_);
timestamp_disruption_ = timestamp_loop_;
}
void Optolink::resume_communication_() {
ESP_LOGI(TAG, "resuming communication");
timestamp_disruption_ = 0;
timestamp_send_ = 0;
timestamp_receive_ = 0;
}
bool Optolink::communication_suspended() { return (timestamp_disruption_ != 0); }
bool Optolink::read_value(IDatapoint *datapoint) { bool Optolink::read_value(IDatapoint *datapoint) {
if (datapoint != nullptr) { if (datapoint != nullptr && !communication_suspended()) {
ESP_LOGI(TAG, "requesting value of datapoint %s", datapoint->getName()); ESP_LOGI(TAG, "requesting value of datapoint %s", datapoint->getName());
if (!VitoWiFi.readDatapoint(*datapoint)) { if (VitoWiFi.readDatapoint(*datapoint)) {
notify_send();
} else {
ESP_LOGE(TAG, "read request rejected due to queue overload - queue size: %d", VitoWiFi.queueSize()); ESP_LOGE(TAG, "read request rejected due to queue overload - queue size: %d", VitoWiFi.queueSize());
suspend_communication_();
for (auto *dp : IDatapoint::getCollection()) { for (auto *dp : IDatapoint::getCollection()) {
ESP_LOGD(TAG, "queued datapoint: %s", dp->getName()); ESP_LOGD(TAG, "queued datapoint: %s", dp->getName());
} }
@ -61,11 +116,13 @@ bool Optolink::read_value(IDatapoint *datapoint) {
} }
bool Optolink::write_value(IDatapoint *datapoint, DPValue dp_value) { bool Optolink::write_value(IDatapoint *datapoint, DPValue dp_value) {
if (datapoint != nullptr) { if (datapoint != nullptr && !communication_suspended()) {
char buffer[64]; char buffer[64];
dp_value.getString(buffer, sizeof(buffer)); dp_value.getString(buffer, sizeof(buffer));
ESP_LOGI(TAG, "sending value %s of datapoint %s", buffer, datapoint->getName()); ESP_LOGI(TAG, "sending value %s of datapoint %s", buffer, datapoint->getName());
if (!VitoWiFi.writeDatapoint(*datapoint, dp_value)) { if (VitoWiFi.writeDatapoint(*datapoint, dp_value)) {
notify_send();
} else {
ESP_LOGE(TAG, "write request rejected due to queue overload - queue size: %d", VitoWiFi.queueSize()); ESP_LOGE(TAG, "write request rejected due to queue overload - queue size: %d", VitoWiFi.queueSize());
for (auto *dp : IDatapoint::getCollection()) { for (auto *dp : IDatapoint::getCollection()) {
ESP_LOGE(TAG, "queued dp: %s", dp->getName()); ESP_LOGE(TAG, "queued dp: %s", dp->getName());

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@ -11,13 +11,19 @@ namespace optolink {
class Optolink : public esphome::Component, public Print { class Optolink : public esphome::Component, public Print {
protected: protected:
std::string state_ = "OK"; std::string state_ = "initializing";
std::string log_buffer_; std::string log_buffer_;
bool logger_enabled_ = false; bool logger_enabled_ = false;
int rx_pin_; int rx_pin_;
int tx_pin_; int tx_pin_;
uint32_t timestamp_loop_ = 0;
uint32_t timestamp_disruption_ = 0;
uint32_t timestamp_receive_ = 0;
uint32_t timestamp_send_ = 0;
void comm_(); static const uint32_t COMMUNICATION_CHECK_WINDOW = 10000;
static const uint32_t COMMUNICATION_SUSPENSION_DURATION = 10000;
static const uint32_t MAX_RESPONSE_DELAY = 2000;
public: public:
void setup() override; void setup() override;
@ -33,10 +39,19 @@ class Optolink : public esphome::Component, public Print {
bool write_value(IDatapoint *datapoint, DPValue dp_value); bool write_value(IDatapoint *datapoint, DPValue dp_value);
bool read_value(IDatapoint *datapoint); bool read_value(IDatapoint *datapoint);
void set_state(const char *format, ...);
std::string get_state() { return state_; } std::string get_state() { return state_; }
int get_queue_size(); int get_queue_size();
bool communication_suspended();
void notify_receive();
void notify_send();
private:
void set_state_(const char *format, ...);
void communication_check_();
void suspend_communication_();
void resume_communication_();
}; };
} // namespace optolink } // namespace optolink

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@ -17,7 +17,6 @@ void OptolinkSelect::control(const std::string &value) {
break; break;
} }
if (it == mapping_->end()) { if (it == mapping_->end()) {
set_optolink_state_("unknown value %s of select %s", value.c_str(), get_component_name().c_str());
ESP_LOGE(TAG, "unknown value %s of select %s", value.c_str(), get_component_name().c_str()); ESP_LOGE(TAG, "unknown value %s of select %s", value.c_str(), get_component_name().c_str());
} }
} }
@ -26,7 +25,6 @@ void OptolinkSelect::control(const std::string &value) {
void OptolinkSelect::datapoint_value_changed(const std::string &value) { void OptolinkSelect::datapoint_value_changed(const std::string &value) {
auto pos = mapping_->find(value); auto pos = mapping_->find(value);
if (pos == mapping_->end()) { if (pos == mapping_->end()) {
set_optolink_state_("value %s not found in select %s", value.c_str(), get_component_name().c_str());
ESP_LOGE(TAG, "value %s not found in select %s", value.c_str(), get_component_name().c_str()); ESP_LOGE(TAG, "value %s not found in select %s", value.c_str(), get_component_name().c_str());
} else { } else {
publish_state(pos->second); publish_state(pos->second);

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@ -10,7 +10,7 @@
namespace esphome { namespace esphome {
namespace optolink { namespace optolink {
class OptolinkSelect : public DatapointComponent, public esphome::select::Select, public esphome::PollingComponent { class OptolinkSelect : public DatapointComponent, public esphome::select::Select {
public: public:
OptolinkSelect(Optolink *optolink) : DatapointComponent(optolink, true) {} OptolinkSelect(Optolink *optolink) : DatapointComponent(optolink, true) {}

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@ -25,7 +25,7 @@ void OptolinkSensor::update() {
datapoint_read_request_(); datapoint_read_request_();
break; break;
case SENSOR_TYPE_QUEUE_SIZE: case SENSOR_TYPE_QUEUE_SIZE:
publish_state(get_optolink_queue_size_()); publish_state(optolink_->get_queue_size());
break; break;
} }
} }

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@ -12,7 +12,7 @@ namespace optolink {
enum SensorType { SENSOR_TYPE_DATAPOINT, SENSOR_TYPE_QUEUE_SIZE }; enum SensorType { SENSOR_TYPE_DATAPOINT, SENSOR_TYPE_QUEUE_SIZE };
class OptolinkSensor : public DatapointComponent, public esphome::sensor::Sensor, public esphome::PollingComponent { class OptolinkSensor : public DatapointComponent, public esphome::sensor::Sensor {
public: public:
OptolinkSensor(Optolink *optolink) : DatapointComponent(optolink) { OptolinkSensor(Optolink *optolink) : DatapointComponent(optolink) {
set_state_class(esphome::sensor::STATE_CLASS_MEASUREMENT); set_state_class(esphome::sensor::STATE_CLASS_MEASUREMENT);

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@ -10,7 +10,6 @@ static const char *const TAG = "optolink.switch";
void OptolinkSwitch::write_state(bool value) { void OptolinkSwitch::write_state(bool value) {
if (value != 0 && value != 1) { if (value != 0 && value != 1) {
set_optolink_state_("datapoint value of switch %s not 0 or 1", get_component_name().c_str());
ESP_LOGE(TAG, "datapoint value of switch %s not 0 or 1", get_component_name().c_str()); ESP_LOGE(TAG, "datapoint value of switch %s not 0 or 1", get_component_name().c_str());
} else { } else {
ESP_LOGI(TAG, "control of switch %s to value %d", get_component_name().c_str(), value); ESP_LOGI(TAG, "control of switch %s to value %d", get_component_name().c_str(), value);

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@ -9,7 +9,7 @@
namespace esphome { namespace esphome {
namespace optolink { namespace optolink {
class OptolinkSwitch : public DatapointComponent, public esphome::switch_::Switch, public esphome::PollingComponent { class OptolinkSwitch : public DatapointComponent, public esphome::switch_::Switch {
public: public:
OptolinkSwitch(Optolink *optolink) : DatapointComponent(optolink, true) { OptolinkSwitch(Optolink *optolink) : DatapointComponent(optolink, true) {
set_bytes(1); set_bytes(1);

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@ -26,8 +26,6 @@ void OptolinkText::setup() {
}; };
void OptolinkText::control(const std::string &value) { void OptolinkText::control(const std::string &value) {
ESP_LOGE(TAG, "control %s", value.c_str());
ESP_LOGD(TAG, "update for schedule plan for component %s: %s", get_component_name().c_str(), value.c_str()); ESP_LOGD(TAG, "update for schedule plan for component %s: %s", get_component_name().c_str(), value.c_str());
uint8_t buffer[8]; uint8_t buffer[8];
uint8_t *data = encode_day_schedule(value, buffer); uint8_t *data = encode_day_schedule(value, buffer);

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@ -11,7 +11,7 @@ namespace optolink {
enum TextType { TEXT_TYPE_DAY_SCHEDULE }; enum TextType { TEXT_TYPE_DAY_SCHEDULE };
class OptolinkText : public DatapointComponent, public esphome::text::Text, public esphome::PollingComponent { class OptolinkText : public DatapointComponent, public esphome::text::Text {
public: public:
OptolinkText(Optolink *optolink) : DatapointComponent(optolink) {} OptolinkText(Optolink *optolink) : DatapointComponent(optolink) {}

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@ -37,7 +37,7 @@ void OptolinkTextSensor::setup() {
void OptolinkTextSensor::update() { void OptolinkTextSensor::update() {
if (type_ == TEXT_SENSOR_TYPE_STATE_INFO) { if (type_ == TEXT_SENSOR_TYPE_STATE_INFO) {
publish_state(get_optolink_state_()); publish_state(optolink_->get_state());
} else { } else {
datapoint_read_request_(); datapoint_read_request_();
} }

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@ -17,9 +17,7 @@ enum TextSensorType {
TEXT_SENSOR_TYPE_STATE_INFO TEXT_SENSOR_TYPE_STATE_INFO
}; };
class OptolinkTextSensor : public DatapointComponent, class OptolinkTextSensor : public DatapointComponent, public esphome::text_sensor::TextSensor {
public esphome::text_sensor::TextSensor,
public esphome::PollingComponent {
public: public:
OptolinkTextSensor(Optolink *optolink) : DatapointComponent(optolink) {} OptolinkTextSensor(Optolink *optolink) : DatapointComponent(optolink) {}