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/*
* Copyright (C) 2023 Konsulko Group
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <string>
#include <regex>
#include <iterator>
#include <mutex>
#include "KuksaClient.h"
using grpc::Channel;
using grpc::ClientContext;
using grpc::ClientReader;
using grpc::Status;
KuksaClient::KuksaClient(const std::shared_ptr< ::grpc::ChannelInterface>& channel, const KuksaConfig &config) :
m_config(config)
{
m_stub = VAL::NewStub(channel);
}
void KuksaClient::get(const std::string &path, GetResponseCallback cb, const bool actuator)
{
ClientContext *context = new ClientContext();
if (!context) {
handleCriticalFailure("Could not create ClientContext");
return;
}
std::string token = m_config.authToken();
if (!token.empty()) {
token.insert(0, std::string("Bearer "));
context->AddMetadata(std::string("authorization"), token);
}
GetRequest request;
auto entry = request.add_entries();
entry->set_path(path);
entry->add_fields(Field::FIELD_PATH);
if (actuator)
entry->add_fields(Field::FIELD_ACTUATOR_TARGET);
else
entry->add_fields(Field::FIELD_VALUE);
GetResponse *response = new GetResponse();
if (!response) {
handleCriticalFailure("Could not create GetResponse");
return;
}
// NOTE: Using ClientUnaryReactor instead of the shortcut method
// would allow getting detailed errors.
m_stub->async()->Get(context, &request, response,
[this, cb, context, response](Status s) {
if (s.ok())
handleGetResponse(response, cb);
delete response;
delete context;
});
}
// Since a set request needs a Datapoint with the appropriate type value,
// checking the signal metadata to get the type would be a requirement for
// a generic set call that takes a string as argument. For now, assume
// that set with a string is specifically for a signal of string type.
void KuksaClient::set(const std::string &path, const std::string &value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_string(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const int8_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_int32(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const int16_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_int32(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const int32_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_int32(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const int64_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_int64(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const uint8_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_uint32(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const uint16_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_uint32(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const uint32_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_uint32(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const uint64_t value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_uint64(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const float value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_float_(value);
set(path, dp, cb, actuator);
}
void KuksaClient::set(const std::string &path, const double value, SetResponseCallback cb, const bool actuator)
{
Datapoint dp;
dp.set_double_(value);
set(path, dp, cb, actuator);
}
void KuksaClient::subscribe(const std::string &path,
SubscribeResponseCallback cb,
const bool actuator,
SubscribeDoneCallback done_cb)
{
SubscribeRequest *request = new SubscribeRequest();
if (!request) {
handleCriticalFailure("Could not create SubscribeRequest");
return;
}
auto entry = request->add_entries();
entry->set_path(path);
entry->add_fields(Field::FIELD_PATH);
if (actuator)
entry->add_fields(Field::FIELD_ACTUATOR_TARGET);
else
entry->add_fields(Field::FIELD_VALUE);
subscribe(request, cb, done_cb);
}
void KuksaClient::subscribe(const std::map<std::string, bool> signals,
SubscribeResponseCallback cb,
SubscribeDoneCallback done_cb)
{
SubscribeRequest *request = new SubscribeRequest();
if (!request) {
handleCriticalFailure("Could not create SubscribeRequest");
return;
}
for(auto it = signals.cbegin(); it != signals.cend(); ++it) {
auto entry = request->add_entries();
entry->set_path(it->first);
entry->add_fields(Field::FIELD_PATH);
if (it->second)
entry->add_fields(Field::FIELD_ACTUATOR_TARGET);
else
entry->add_fields(Field::FIELD_VALUE);
}
subscribe(request, cb, done_cb);
}
void KuksaClient::subscribe(const SubscribeRequest *request,
SubscribeResponseCallback cb,
SubscribeDoneCallback done_cb)
{
if (!(request && cb))
return;
class Reader : public grpc::ClientReadReactor<SubscribeResponse> {
public:
Reader(VAL::Stub *stub,
KuksaClient *client,
KuksaConfig &config,
const SubscribeRequest *request,
SubscribeResponseCallback cb,
SubscribeDoneCallback done_cb):
client_(client),
config_(config),
request_(request),
cb_(cb),
done_cb_(done_cb) {
std::string token = config_.authToken();
if (!token.empty()) {
token.insert(0, std::string("Bearer "));
context_.AddMetadata(std::string("authorization"), token);
}
stub->async()->Subscribe(&context_, request, this);
StartRead(&response_);
StartCall();
}
void OnReadDone(bool ok) override {
std::unique_lock<std::mutex> lock(mutex_);
if (ok) {
if (client_)
client_->handleSubscribeResponse(&response_, cb_);
StartRead(&response_);
}
}
void OnDone(const Status& s) override {
status_ = s;
if (client_) {
if (config_.verbose() > 1)
std::cerr << "KuksaClient::subscribe::Reader done" << std::endl;
client_->handleSubscribeDone(request_, status_, done_cb_);
}
// gRPC engine is done with us, safe to self-delete
delete request_;
delete this;
}
private:
KuksaClient *client_;
KuksaConfig config_;
const SubscribeRequest *request_;
SubscribeResponseCallback cb_;
SubscribeDoneCallback done_cb_;
ClientContext context_;
SubscribeResponse response_;
std::mutex mutex_;
Status status_;
};
Reader *reader = new Reader(m_stub.get(), this, m_config, request, cb, done_cb);
if (!reader)
handleCriticalFailure("Could not create Subscribe reader");
}
// Private
void KuksaClient::set(const std::string &path, const Datapoint &dp, SetResponseCallback cb, const bool actuator)
{
ClientContext *context = new ClientContext();
if (!context) {
handleCriticalFailure("Could not create ClientContext");
return;
}
std::string token = m_config.authToken();
if (!token.empty()) {
token.insert(0, std::string("Bearer "));
context->AddMetadata(std::string("authorization"), token);
}
SetRequest request;
auto update = request.add_updates();
auto entry = update->mutable_entry();
entry->set_path(path);
if (actuator) {
auto target = entry->mutable_actuator_target();
*target = dp;
update->add_fields(Field::FIELD_ACTUATOR_TARGET);
} else {
auto value = entry->mutable_value();
*value = dp;
update->add_fields(Field::FIELD_VALUE);
}
SetResponse *response = new SetResponse();
if (!response) {
handleCriticalFailure("Could not create SetResponse");
delete context;
return;
}
// NOTE: Using ClientUnaryReactor instead of the shortcut method
// would allow getting detailed errors.
m_stub->async()->Set(context, &request, response,
[this, cb, context, response](Status s) {
if (s.ok())
handleSetResponse(response, cb);
delete response;
delete context;
});
}
void KuksaClient::handleGetResponse(const GetResponse *response, GetResponseCallback cb)
{
if (!(response && response->entries_size() && cb))
return;
for (auto it = response->entries().begin(); it != response->entries().end(); ++it) {
// We expect paths in the response entries
if (!it->path().size())
continue;
Datapoint dp;
if (it->has_actuator_target())
dp = it->actuator_target();
else
dp = it->value();
cb(it->path(), dp);
}
}
void KuksaClient::handleSetResponse(const SetResponse *response, SetResponseCallback cb)
{
if (!(response && response->errors_size() && cb))
return;
for (auto it = response->errors().begin(); it != response->errors().end(); ++it) {
cb(it->path(), it->error());
}
}
void KuksaClient::handleSubscribeResponse(const SubscribeResponse *response, SubscribeResponseCallback cb)
{
if (!(response && response->updates_size() && cb))
return;
for (auto it = response->updates().begin(); it != response->updates().end(); ++it) {
// We expect entries that have paths in the response
if (!(it->has_entry() && it->entry().path().size()))
continue;
auto entry = it->entry();
if (m_config.verbose())
std::cout << "KuksaClient::handleSubscribeResponse: got value for " << entry.path() << std::endl;
Datapoint dp;
if (entry.has_actuator_target())
dp = entry.actuator_target();
else
dp = entry.value();
cb(entry.path(), dp);
}
}
void KuksaClient::handleSubscribeDone(const SubscribeRequest *request,
const Status &status,
SubscribeDoneCallback cb)
{
if (cb)
cb(request, status);
}
void KuksaClient::handleCriticalFailure(const std::string &error)
{
if (error.size())
std::cerr << error << std::endl;
exit(1);
}
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