MicroOcpp/src/MicroOcpp_c.cpp at main · devunwired/MicroOcpp

462 lines (389 loc) · 17.9 KB
// matth-x/MicroOcpp
// Copyright Matthias Akstaller 2019 - 2024
// MIT License
#include "MicroOcpp_c.h"
#include "MicroOcpp.h"
#include <MicroOcpp/Version.h>
#include <MicroOcpp/Model/Certificates/Certificate_c.h>
#include <MicroOcpp/Core/Context.h>
#include <MicroOcpp/Model/Model.h>
#include <MicroOcpp/Core/Memory.h>
#include <MicroOcpp/Platform.h>
#include <MicroOcpp/Debug.h>
MicroOcpp::Connection *ocppSocket = nullptr;
void ocpp_initialize(OCPP_Connection *conn, const char *chargePointModel, const char *chargePointVendor, struct OCPP_FilesystemOpt fsopt, bool autoRecover, bool ocpp201) {
    ocpp_initialize_full(conn, ocpp201 ?
                                    ChargerCredentials::v201(chargePointModel, chargePointVendor) :
                                    ChargerCredentials(chargePointModel, chargePointVendor),
                               fsopt, autoRecover, ocpp201);
void ocpp_initialize_full(OCPP_Connection *conn, const char *bootNotificationCredentials, struct OCPP_FilesystemOpt fsopt, bool autoRecover, bool ocpp201) {
    if (!conn) {
        MO_DBG_ERR("conn is null");
    ocppSocket = reinterpret_cast<MicroOcpp::Connection*>(conn);
    MicroOcpp::FilesystemOpt adaptFsopt = fsopt;
    mocpp_initialize(*ocppSocket, bootNotificationCredentials, MicroOcpp::makeDefaultFilesystemAdapter(adaptFsopt), autoRecover,
            ocpp201 ?
                MicroOcpp::ProtocolVersion(2,0,1) :
                MicroOcpp::ProtocolVersion(1,6));
void ocpp_initialize_full2(OCPP_Connection *conn, const char *bootNotificationCredentials, FilesystemAdapterC *filesystem, bool autoRecover, bool ocpp201) {
    if (!conn) {
        MO_DBG_ERR("conn is null");
    ocppSocket = reinterpret_cast<MicroOcpp::Connection*>(conn);
    mocpp_initialize(*ocppSocket, bootNotificationCredentials, *reinterpret_cast<std::shared_ptr<MicroOcpp::FilesystemAdapter>*>(filesystem), autoRecover,
            ocpp201 ?
                MicroOcpp::ProtocolVersion(2,0,1) :
                MicroOcpp::ProtocolVersion(1,6));
void ocpp_deinitialize() {
    mocpp_deinitialize();
bool ocpp_is_initialized() {
    return getOcppContext() != nullptr;
void ocpp_loop() {
    mocpp_loop();
 * Helper functions for transforming callback functions from C-style to C++style
std::function<bool()> adaptFn(InputBool fn) {
    return fn;
std::function<bool()> adaptFn(unsigned int connectorId, InputBool_m fn) {
    return [fn, connectorId] () {return fn(connectorId);};
std::function<const char*()> adaptFn(InputString fn) {
    return fn;
std::function<const char*()> adaptFn(unsigned int connectorId, InputString_m fn) {
    return [fn, connectorId] () {return fn(connectorId);};
std::function<float()> adaptFn(InputFloat fn) {
    return fn;
std::function<float()> adaptFn(unsigned int connectorId, InputFloat_m fn) {
    return [fn, connectorId] () {return fn(connectorId);};
std::function<int()> adaptFn(InputInt fn) {
    return fn;
std::function<int()> adaptFn(unsigned int connectorId, InputInt_m fn) {
    return [fn, connectorId] () {return fn(connectorId);};
std::function<void(float)> adaptFn(OutputFloat fn) {
    return fn;
std::function<void(float, float, int)> adaptFn(OutputSmartCharging fn) {
    return fn;
std::function<void(float, float, int)> adaptFn(unsigned int connectorId, OutputSmartCharging_m fn) {
    return [fn, connectorId] (float power, float current, int nphases) {fn(connectorId, power, current, nphases);};
std::function<void(float)> adaptFn(unsigned int connectorId, OutputFloat_m fn) {
    return [fn, connectorId] (float value) {return fn(connectorId, value);};
std::function<void(void)> adaptFn(void (*fn)(void)) {
    return fn;
#ifndef MO_RECEIVE_PAYLOAD_BUFSIZE
#define MO_RECEIVE_PAYLOAD_BUFSIZE 512
char ocpp_recv_payload_buff [MO_RECEIVE_PAYLOAD_BUFSIZE] = {'\0'};
std::function<void(JsonObject)> adaptFn(OnMessage fn) {
    if (!fn) return nullptr;
    return [fn] (JsonObject payload) {
        auto len = serializeJson(payload, ocpp_recv_payload_buff, MO_RECEIVE_PAYLOAD_BUFSIZE);
        if (len <= 0) {
            MO_DBG_WARN("Received payload buffer exceeded. Continue without payload");
        fn(len > 0 ? ocpp_recv_payload_buff : "", len);
MicroOcpp::OnReceiveErrorListener adaptFn(OnCallError fn) {
    if (!fn) return nullptr;
    return [fn] (const char *code, const char *description, JsonObject details) {
        auto len = serializeJson(details, ocpp_recv_payload_buff, MO_RECEIVE_PAYLOAD_BUFSIZE);
        if (len <= 0) {
            MO_DBG_WARN("Received payload buffer exceeded. Continue without payload");
        fn(code, description, len > 0 ? ocpp_recv_payload_buff : "", len);
#if MO_ENABLE_CONNECTOR_LOCK
std::function<UnlockConnectorResult()> adaptFn(PollUnlockResult fn) {
    return [fn] () {return fn();};
std::function<UnlockConnectorResult()> adaptFn(unsigned int connectorId, PollUnlockResult_m fn) {
    return [fn, connectorId] () {return fn(connectorId);};
#endif //MO_ENABLE_CONNECTOR_LOCK
bool ocpp_beginTransaction(const char *idTag) {
    return beginTransaction(idTag);
bool ocpp_beginTransaction_m(unsigned int connectorId, const char *idTag) {
    return beginTransaction(idTag, connectorId);
bool ocpp_beginTransaction_authorized(const char *idTag, const char *parentIdTag) {
    return beginTransaction_authorized(idTag, parentIdTag);
bool ocpp_beginTransaction_authorized_m(unsigned int connectorId, const char *idTag, const char *parentIdTag) {
    return beginTransaction_authorized(idTag, parentIdTag, connectorId);
bool ocpp_endTransaction(const char *idTag, const char *reason) {
    return endTransaction(idTag, reason);
bool ocpp_endTransaction_m(unsigned int connectorId, const char *idTag, const char *reason) {
    return endTransaction(idTag, reason, connectorId);
bool ocpp_endTransaction_authorized(const char *idTag, const char *reason) {
    return endTransaction_authorized(idTag, reason);
bool ocpp_endTransaction_authorized_m(unsigned int connectorId, const char *idTag, const char *reason) {
    return endTransaction_authorized(idTag, reason, connectorId);
bool ocpp_isTransactionActive() {
    return isTransactionActive();
bool ocpp_isTransactionActive_m(unsigned int connectorId) {
    return isTransactionActive(connectorId);
bool ocpp_isTransactionRunning() {
    return isTransactionRunning();
bool ocpp_isTransactionRunning_m(unsigned int connectorId) {
    return isTransactionRunning(connectorId);
const char *ocpp_getTransactionIdTag() {
    return getTransactionIdTag();
const char *ocpp_getTransactionIdTag_m(unsigned int connectorId) {
    return getTransactionIdTag(connectorId);
OCPP_Transaction *ocpp_getTransaction() {
    return ocpp_getTransaction_m(1);
OCPP_Transaction *ocpp_getTransaction_m(unsigned int connectorId) {
    #if MO_ENABLE_V201
        if (!getOcppContext()) {
            MO_DBG_ERR("OCPP uninitialized"); //need to call mocpp_initialize before
            return nullptr;
        if (getOcppContext()->getModel().getVersion().major == 2) {
            ocpp_tx_compat_setV201(true); //set the ocpp_tx C-API into v201 mode globally
            if (getTransactionV201(connectorId)) {
                return reinterpret_cast<OCPP_Transaction*>(getTransactionV201(connectorId));
            } else {
                return nullptr;
        } else {
            ocpp_tx_compat_setV201(false); //set the ocpp_tx C-API into v16 mode globally
            //continue with V16 implementation
    #endif //MO_ENABLE_V201
    if (getTransaction(connectorId)) {
        return reinterpret_cast<OCPP_Transaction*>(getTransaction(connectorId).get());
    } else {
        return nullptr;
bool ocpp_ocppPermitsCharge() {
    return ocppPermitsCharge();
bool ocpp_ocppPermitsCharge_m(unsigned int connectorId) {
    return ocppPermitsCharge(connectorId);
ChargePointStatus ocpp_getChargePointStatus() {
    return getChargePointStatus();
ChargePointStatus ocpp_getChargePointStatus_m(unsigned int connectorId) {
    return getChargePointStatus(connectorId);
void ocpp_setConnectorPluggedInput(InputBool pluggedInput) {
    setConnectorPluggedInput(adaptFn(pluggedInput));
void ocpp_setConnectorPluggedInput_m(unsigned int connectorId, InputBool_m pluggedInput) {
    setConnectorPluggedInput(adaptFn(connectorId, pluggedInput), connectorId);
void ocpp_setEnergyMeterInput(InputInt energyInput) {
    setEnergyMeterInput(adaptFn(energyInput));
void ocpp_setEnergyMeterInput_m(unsigned int connectorId, InputInt_m energyInput) {
    setEnergyMeterInput(adaptFn(connectorId, energyInput), connectorId);
void ocpp_setPowerMeterInput(InputFloat powerInput) {
    setPowerMeterInput(adaptFn(powerInput));
void ocpp_setPowerMeterInput_m(unsigned int connectorId, InputFloat_m powerInput) {
    setPowerMeterInput(adaptFn(connectorId, powerInput), connectorId);
void ocpp_setSmartChargingPowerOutput(OutputFloat maxPowerOutput) {
    setSmartChargingPowerOutput(adaptFn(maxPowerOutput));
void ocpp_setSmartChargingPowerOutput_m(unsigned int connectorId, OutputFloat_m maxPowerOutput) {
    setSmartChargingPowerOutput(adaptFn(connectorId, maxPowerOutput), connectorId);
void ocpp_setSmartChargingCurrentOutput(OutputFloat maxCurrentOutput) {
    setSmartChargingCurrentOutput(adaptFn(maxCurrentOutput));
void ocpp_setSmartChargingCurrentOutput_m(unsigned int connectorId, OutputFloat_m maxCurrentOutput) {
    setSmartChargingCurrentOutput(adaptFn(connectorId, maxCurrentOutput), connectorId);
void ocpp_setSmartChargingOutput(OutputSmartCharging chargingLimitOutput) {
    setSmartChargingOutput(adaptFn(chargingLimitOutput));
void ocpp_setSmartChargingOutput_m(unsigned int connectorId, OutputSmartCharging_m chargingLimitOutput) {
    setSmartChargingOutput(adaptFn(connectorId, chargingLimitOutput), connectorId);
void ocpp_setEvReadyInput(InputBool evReadyInput) {
    setEvReadyInput(adaptFn(evReadyInput));
void ocpp_setEvReadyInput_m(unsigned int connectorId, InputBool_m evReadyInput) {
    setEvReadyInput(adaptFn(connectorId, evReadyInput), connectorId);
void ocpp_setEvseReadyInput(InputBool evseReadyInput) {
    setEvseReadyInput(adaptFn(evseReadyInput));
void ocpp_setEvseReadyInput_m(unsigned int connectorId, InputBool_m evseReadyInput) {
    setEvseReadyInput(adaptFn(connectorId, evseReadyInput), connectorId);
void ocpp_addErrorCodeInput(InputString errorCodeInput) {
    addErrorCodeInput(adaptFn(errorCodeInput));
void ocpp_addErrorCodeInput_m(unsigned int connectorId, InputString_m errorCodeInput) {
    addErrorCodeInput(adaptFn(connectorId, errorCodeInput), connectorId);
void ocpp_addMeterValueInputFloat(InputFloat valueInput, const char *measurand, const char *unit, const char *location, const char *phase) {
    addMeterValueInput(adaptFn(valueInput), measurand, unit, location, phase, 1);
void ocpp_addMeterValueInputFloat_m(unsigned int connectorId, InputFloat_m valueInput, const char *measurand, const char *unit, const char *location, const char *phase) {
    addMeterValueInput(adaptFn(connectorId, valueInput), measurand, unit, location, phase, connectorId);
void ocpp_addMeterValueInputIntTx(int (*valueInput)(ReadingContext), const char *measurand, const char *unit, const char *location, const char *phase) {
    MicroOcpp::SampledValueProperties props;
    props.setMeasurand(measurand);
    props.setUnit(unit);
    props.setLocation(location);
    props.setPhase(phase);
    auto mvs = std::unique_ptr<MicroOcpp::SampledValueSamplerConcrete<int32_t, MicroOcpp::SampledValueDeSerializer<int32_t>>>(
                           new MicroOcpp::SampledValueSamplerConcrete<int32_t, MicroOcpp::SampledValueDeSerializer<int32_t>>(
            props,
            [valueInput] (ReadingContext readingContext) {return valueInput(readingContext);}
    addMeterValueInput(std::move(mvs));
void ocpp_addMeterValueInputIntTx_m(unsigned int connectorId, int (*valueInput)(unsigned int cId, ReadingContext), const char *measurand, const char *unit, const char *location, const char *phase) {
    MicroOcpp::SampledValueProperties props;
    props.setMeasurand(measurand);
    props.setUnit(unit);
    props.setLocation(location);
    props.setPhase(phase);
    auto mvs = std::unique_ptr<MicroOcpp::SampledValueSamplerConcrete<int32_t, MicroOcpp::SampledValueDeSerializer<int32_t>>>(
                           new MicroOcpp::SampledValueSamplerConcrete<int32_t, MicroOcpp::SampledValueDeSerializer<int32_t>>(
            props,
            [valueInput, connectorId] (ReadingContext readingContext) {return valueInput(connectorId, readingContext);}
    addMeterValueInput(std::move(mvs), connectorId);
void ocpp_addMeterValueInput(MeterValueInput *meterValueInput) {
    ocpp_addMeterValueInput_m(1, meterValueInput);
void ocpp_addMeterValueInput_m(unsigned int connectorId, MeterValueInput *meterValueInput) {
    auto svs = std::unique_ptr<MicroOcpp::SampledValueSampler>(
        reinterpret_cast<MicroOcpp::SampledValueSampler*>(meterValueInput));
    addMeterValueInput(std::move(svs), connectorId);
#if MO_ENABLE_CONNECTOR_LOCK
void ocpp_setOnUnlockConnectorInOut(PollUnlockResult onUnlockConnectorInOut) {
    setOnUnlockConnectorInOut(adaptFn(onUnlockConnectorInOut));
void ocpp_setOnUnlockConnectorInOut_m(unsigned int connectorId, PollUnlockResult_m onUnlockConnectorInOut) {
    setOnUnlockConnectorInOut(adaptFn(connectorId, onUnlockConnectorInOut), connectorId);
#endif //MO_ENABLE_CONNECTOR_LOCK
void ocpp_setStartTxReadyInput(InputBool startTxReady) {
    setStartTxReadyInput(adaptFn(startTxReady));
void ocpp_setStartTxReadyInput_m(unsigned int connectorId, InputBool_m startTxReady) {
    setStartTxReadyInput(adaptFn(connectorId, startTxReady), connectorId);
void ocpp_setStopTxReadyInput(InputBool stopTxReady) {
    setStopTxReadyInput(adaptFn(stopTxReady));
void ocpp_setStopTxReadyInput_m(unsigned int connectorId, InputBool_m stopTxReady) {
    setStopTxReadyInput(adaptFn(connectorId, stopTxReady), connectorId);
void ocpp_setTxNotificationOutput(void (*notificationOutput)(OCPP_Transaction*, TxNotification)) {
    setTxNotificationOutput([notificationOutput] (MicroOcpp::Transaction *tx, TxNotification notification) {
        notificationOutput(reinterpret_cast<OCPP_Transaction*>(tx), notification);
void ocpp_setTxNotificationOutput_m(unsigned int connectorId, void (*notificationOutput)(unsigned int, OCPP_Transaction*, TxNotification)) {
    setTxNotificationOutput([notificationOutput, connectorId] (MicroOcpp::Transaction *tx, TxNotification notification) {
        notificationOutput(connectorId, reinterpret_cast<OCPP_Transaction*>(tx), notification);
    }, connectorId);
void ocpp_setOccupiedInput(InputBool occupied) {
    setOccupiedInput(adaptFn(occupied));
void ocpp_setOccupiedInput_m(unsigned int connectorId, InputBool_m occupied) {
    setOccupiedInput(adaptFn(connectorId, occupied), connectorId);
bool ocpp_isOperative() {
    return isOperative();
bool ocpp_isOperative_m(unsigned int connectorId) {
    return isOperative(connectorId);
void ocpp_setOnResetNotify(bool (*onResetNotify)(bool)) {
    setOnResetNotify([onResetNotify] (bool isHard) {return onResetNotify(isHard);});
void ocpp_setOnResetExecute(void (*onResetExecute)(bool)) {
    setOnResetExecute([onResetExecute] (bool isHard) {onResetExecute(isHard);});
#if MO_ENABLE_CERT_MGMT
void ocpp_setCertificateStore(ocpp_cert_store *certs) {
    std::unique_ptr<MicroOcpp::CertificateStore> certsCwrapper;
    if (certs) {
        certsCwrapper = MicroOcpp::makeCertificateStoreCwrapper(certs);
    setCertificateStore(std::move(certsCwrapper));
#endif //MO_ENABLE_CERT_MGMT
void ocpp_setOnReceiveRequest(const char *operationType, OnMessage onRequest) {
    setOnReceiveRequest(operationType, adaptFn(onRequest));
void ocpp_setOnSendConf(const char *operationType, OnMessage onConfirmation) {
    setOnSendConf(operationType, adaptFn(onConfirmation));
void ocpp_authorize(const char *idTag, AuthorizeConfCallback onConfirmation, AuthorizeAbortCallback onAbort, AuthorizeTimeoutCallback onTimeout, AuthorizeErrorCallback onError, void *user_data) {
    auto idTag_capture = MicroOcpp::makeString("MicroOcpp_c.cpp", idTag);
    authorize(idTag,
            onConfirmation ? [onConfirmation, idTag_capture, user_data] (JsonObject payload) {
                    auto len = serializeJson(payload, ocpp_recv_payload_buff, MO_RECEIVE_PAYLOAD_BUFSIZE);
                    if (len <= 0) {MO_DBG_WARN("Received payload buffer exceeded. Continue without payload");}
                    onConfirmation(idTag_capture.c_str(), len > 0 ? ocpp_recv_payload_buff : "", len, user_data);
                } : OnReceiveConfListener(nullptr),
            onAbort ? [onAbort, idTag_capture, user_data] () -> void {
                    onAbort(idTag_capture.c_str(), user_data);
                } : OnAbortListener(nullptr),
            onTimeout ? [onTimeout, idTag_capture, user_data] () {
                    onTimeout(idTag_capture.c_str(), user_data);
                } : OnTimeoutListener(nullptr),
            onError ? [onError, idTag_capture, user_data] (const char *code, const char *description, JsonObject details) {
                    auto len = serializeJson(details, ocpp_recv_payload_buff, MO_RECEIVE_PAYLOAD_BUFSIZE);
                    if (len <= 0) {MO_DBG_WARN("Received payload buffer exceeded. Continue without payload");}
                    onError(idTag_capture.c_str(), code, description, len > 0 ? ocpp_recv_payload_buff : "", len, user_data);
                } : OnReceiveErrorListener(nullptr));
void ocpp_startTransaction(const char *idTag, OnMessage onConfirmation, OnAbort onAbort, OnTimeout onTimeout, OnCallError onError) {
    startTransaction(idTag, adaptFn(onConfirmation), adaptFn(onAbort), adaptFn(onTimeout), adaptFn(onError));
void ocpp_stopTransaction(OnMessage onConfirmation, OnAbort onAbort, OnTimeout onTimeout, OnCallError onError) {
    stopTransaction(adaptFn(onConfirmation), adaptFn(onAbort), adaptFn(onTimeout), adaptFn(onError));
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