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5a3c0699f734571c689be9d1ab273c58f0c3f06b
salmanoff/commonLibs/livoxProto1/core.cpp
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hayodea 816a047920 Async: new hierachy; manages reply posting and unlocking 
Async: Use new [Non]PostedAsyncCont and callOriginalCb

This new hierarchy of classes gives us a central mechanism for
managing both reply-posting and lockSpec unlocking.

* callOriginalCb: Now uses a modern C++ variadic template design
  enabling it to handle both direct calling and std::bind()
  re-binding of an arbitrary number of arguments from the caller.

This enables us to mostly eliminate the repeated, bespoke
definitions of callOriginalCb littered throughout the codebase.

We've also propagated these changes throughout the codebase in
this patch.
2025-09-17 16:38:48 -04:00

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#include <algorithm>
#include <iostream>
#include <functional>
#include <optional>
#include <opts.h>
#include <asynchronousContinuation.h>
#include <user/senseApiDesc.h>
#include "protocol.h"
#include "core.h"
#include "device.h"
#include "broadcastListener.h"
#include "livoxProto1.h"
namespace livoxProto1 {
static ProtoState protoState =
{
.isInitialized = false,
.componentThread = nullptr,
.deviceManager = nullptr,
.smoCallbacks = {}
};
ProtoState& getProtoState()
{
return protoState;
}
DeviceManager::DeviceManager()
: broadcastListener(protoState.componentThread)
{
broadcastListener.setDeviceGoneAwayCb(deviceGoneAwayInd);
}
void DeviceManager::deviceGoneAwayInd(const comms::DiscoveredDevice &device)
{
std::cout << "Device gone away: " << device.stringify() << std::endl;
// Check if device exists in our collection
if (!protoState.deviceManager->getDevice(device)) {
return;
}
// Find and remove the device from the collection
auto it = std::find_if(
protoState.deviceManager->devices.begin(),
protoState.deviceManager->devices.end(),
[&device](const std::shared_ptr<Device> &d) {
return d->discoveredDevice == device;
}
);
if (it != protoState.deviceManager->devices.end()) {
protoState.deviceManager->devices.erase(it);
}
}
std::optional<std::shared_ptr<Device>> DeviceManager::getDevice(
const std::string &deviceIdentifier
)
{
for (auto& device : devices)
{
if (comms::deviceIdentifiersEqual(
device->discoveredDevice.deviceIdentifier, deviceIdentifier))
{
return device;
}
}
return std::nullopt;
}
// GetOrCreateDeviceReq nested class implementation
class DeviceManager::GetOrCreateDeviceReq
: public smo::NonPostedAsynchronousContinuation<
livoxProto1_getOrCreateDeviceReqCbFn>
{
public:
DeviceManager& deviceManager;
// The device we're trying to connect (holds all connection parameters)
std::shared_ptr<Device> pendingDevice;
public:
GetOrCreateDeviceReq(
DeviceManager& mgr,
std::shared_ptr<Device> device,
livoxProto1_getOrCreateDeviceReqCbFn cb)
: smo::NonPostedAsynchronousContinuation<
livoxProto1_getOrCreateDeviceReqCbFn>(std::move(cb)),
deviceManager(mgr), pendingDevice(device)
{}
// Public accessor for the original callback
void callOriginalCallback(bool success, std::shared_ptr<Device> device)
{ callOriginalCb(success, device); }
void callOriginalCallbackWithFailure()
{ callOriginalCallback(false, nullptr); }
void getOrCreateDeviceReq1(
std::shared_ptr<GetOrCreateDeviceReq> context, bool connectSuccess
)
{
if (!connectSuccess)
{
std::cerr << __func__ << ": Connection failed for device "
<< context->pendingDevice->discoveredDevice.deviceIdentifier
<< std::endl;
context->callOriginalCallbackWithFailure();
return;
}
// Connection successful, add device to collection
context->deviceManager.devices.push_back(context->pendingDevice);
if (OptionParser::getOptions().verbose)
{
std::cout << __func__ << ": Successfully connected and added device "
<< context->pendingDevice->discoveredDevice.deviceIdentifier
<< std::endl;
}
// Return success with the connected device
context->callOriginalCallback(true, context->pendingDevice);
}
};
void DeviceManager::getOrCreateDeviceReq(
const std::string &deviceIdentifier,
const std::shared_ptr<smo::ComponentThread>& componentThread,
int handshakeTimeoutMs, int retryDelayMs,
const std::string& smoIp, uint8_t smoSubnetNbits,
uint16_t dataPort, uint16_t cmdPort, uint16_t imuPort,
livoxProto1_getOrCreateDeviceReqCbFn callback)
{
// Validate smoIp format using Boost.Asio IPv4 validation
if (!smoIp.empty() && !comms::isValidIPv4(smoIp))
{
throw std::invalid_argument(
std::string(__func__) +
": Invalid IPv4 smoIp format: " + smoIp);
}
// Validate subnet nbits
if (smoSubnetNbits > 32)
{
throw std::invalid_argument(
std::string(__func__) +
": smoSubnetNbits must be between 0 and 32, got: " +
std::to_string(smoSubnetNbits));
}
// First try to get existing device
auto existingDevice = getDevice(deviceIdentifier);
if (existingDevice)
{
// Device already exists and is connected, return it
callback(true, existingDevice.value());
return;
}
// Device doesn't exist, create a new one but don't add it to collection yet
auto newDevice = std::make_shared<Device>(
deviceIdentifier, componentThread,
handshakeTimeoutMs, retryDelayMs,
smoIp, smoSubnetNbits,
dataPort, cmdPort, imuPort);
// Create the continuation request object to hold state and callbacks
auto request = std::make_shared<GetOrCreateDeviceReq>(
*this, newDevice, std::move(callback));
// Start the connection process - only add to collection on success
request->pendingDevice->connectReq(
std::bind(
&DeviceManager::GetOrCreateDeviceReq::getOrCreateDeviceReq1,
request.get(), request, std::placeholders::_1));
}
class DeviceManager::DestroyDeviceReq
: public smo::NonPostedAsynchronousContinuation<
livoxProto1_destroyDeviceReqCbFn>
{
public:
DeviceManager& deviceManager;
std::shared_ptr<Device> pendingDevice;
public:
DestroyDeviceReq(
DeviceManager& mgr,
std::shared_ptr<Device> device,
livoxProto1_destroyDeviceReqCbFn cb)
: smo::NonPostedAsynchronousContinuation<
livoxProto1_destroyDeviceReqCbFn>(std::move(cb)),
deviceManager(mgr), pendingDevice(device)
{}
// Public accessor for the original callback
void callOriginalCallback(bool success)
{ callOriginalCb(success); }
void callOriginalCallbackWithFailure()
{ callOriginalCallback(false); }
void destroyDeviceReq1(
std::shared_ptr<DestroyDeviceReq> context, bool success
)
{
context->deviceManager.devices.erase(
std::remove(
context->deviceManager.devices.begin(),
context->deviceManager.devices.end(),
context->pendingDevice),
context->deviceManager.devices.end());
context->callOriginalCallback(success);
}
};
void DeviceManager::destroyDeviceReq(
std::shared_ptr<Device> dev,
livoxProto1_destroyDeviceReqCbFn callback
)
{
/** EXPLANATION:
* Check to see if the device is in our collection. If so, call
* disconnectReq and then remove it.
*/
std::shared_ptr<Device> device = getDevice(dev->discoveredDevice).
value_or(nullptr);
if (!device)
{
callback(false);
return;
}
auto request = std::make_shared<DestroyDeviceReq>(
*this, device, std::move(callback));
device->disconnectReq(
std::bind(
&DeviceManager::DestroyDeviceReq::destroyDeviceReq1,
request.get(), request, std::placeholders::_1));
}
void main(const std::shared_ptr<smo::ComponentThread> &componentThread,
const smo::sense_api::SmoCallbacks& smoCallbacks)
{
if (protoState.isInitialized) {
return;
}
protoState.isInitialized = true;
protoState.componentThread = componentThread;
protoState.smoCallbacks = smoCallbacks;
protoState.deviceManager = std::make_unique<DeviceManager>();
protoState.deviceManager->broadcastListener.start();
}
void exit(void)
{
if (!protoState.isInitialized) {
return;
}
protoState.deviceManager->broadcastListener.stop();
protoState.deviceManager.reset();
protoState.componentThread.reset();
protoState.isInitialized = false;
}
} // namespace livoxProto1
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