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/**
* Copyright © 2016 IBM Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "manager.hpp"
#include "errors.hpp"
#include <algorithm>
#include <chrono>
#include <exception>
#include <filesystem>
#include <iostream>
using namespace std::literals::chrono_literals;
namespace phosphor
{
namespace inventory
{
namespace manager
{
/** @brief Fowrarding signal callback.
*
* Extracts per-signal specific context and forwards the call to the manager
* instance.
*/
auto _signal(sd_bus_message* m, void* data, sd_bus_error* /* e */) noexcept
{
try
{
auto msg = sdbusplus::message_t(m);
auto& args = *static_cast<Manager::SigArg*>(data);
sd_bus_message_ref(m);
auto& mgr = *std::get<0>(args);
mgr.handleEvent(msg, static_cast<const DbusSignal&>(*std::get<1>(args)),
*std::get<2>(args));
}
catch (const std::exception& e)
{
std::cerr << e.what() << std::endl;
}
return 0;
}
Manager::Manager(sdbusplus::bus_t&& bus, const char* root) :
ServerObject<ManagerIface>(bus, root), _root(root), _bus(std::move(bus)),
_manager(_bus, root),
#ifdef CREATE_ASSOCIATIONS
_associations(_bus),
#endif
_status(ManagerStatus::STARTING)
{
for (auto& group : _events)
{
for (auto pEvent : std::get<std::vector<EventBasePtr>>(group))
{
if (pEvent->type != Event::Type::DBUS_SIGNAL)
{
continue;
}
// Create a callback context for this event group.
auto dbusEvent = static_cast<DbusSignal*>(pEvent.get());
// Go ahead and store an iterator pointing at
// the event data to avoid lookups later since
// additional signal callbacks aren't added
// after the manager is constructed.
_sigargs.emplace_back(
std::make_unique<SigArg>(this, dbusEvent, &group));
// Register our callback and the context for
// each signal event.
_matches.emplace_back(_bus, dbusEvent->signature, _signal,
_sigargs.back().get());
}
}
// Restore any persistent inventory
restore();
}
void Manager::shutdown() noexcept
{
_status = ManagerStatus::STOPPING;
}
void Manager::run(const char* busname)
{
sdbusplus::message_t unusedMsg{nullptr};
// Run startup events.
for (auto& group : _events)
{
for (auto pEvent : std::get<std::vector<EventBasePtr>>(group))
{
if (pEvent->type == Event::Type::STARTUP)
{
handleEvent(unusedMsg, *pEvent, group);
}
}
}
_status = ManagerStatus::RUNNING;
_bus.request_name(busname);
while (_status != ManagerStatus::STOPPING)
{
try
{
_bus.process_discard();
_bus.wait((5000000us).count());
}
catch (const std::exception& e)
{
std::cerr << e.what() << std::endl;
}
}
}
void Manager::updateInterfaces(const sdbusplus::message::object_path& path,
const Object& interfaces,
ObjectReferences::iterator pos, bool newObject,
bool restoreFromCache)
{
auto& refaces = pos->second;
auto ifaceit = interfaces.cbegin();
auto opsit = _makers.cbegin();
auto refaceit = refaces.begin();
std::vector<std::string> signals;
while (ifaceit != interfaces.cend())
{
try
{
// Find the binding ops for this interface.
opsit = std::lower_bound(opsit, _makers.cend(), ifaceit->first,
compareFirst(_makers.key_comp()));
if (opsit == _makers.cend() || opsit->first != ifaceit->first)
{
// This interface is not supported.
throw InterfaceError("Encountered unsupported interface.",
ifaceit->first);
}
// Find the binding insertion point or the binding to update.
refaceit = std::lower_bound(refaceit, refaces.end(), ifaceit->first,
compareFirst(refaces.key_comp()));
if (refaceit == refaces.end() || refaceit->first != ifaceit->first)
{
// Add the new interface.
auto& ctor = std::get<MakeInterfaceType>(opsit->second);
// skipSignal = true here to avoid getting PropertiesChanged
// signals while the interface is constructed. We'll emit an
// ObjectManager signal for this interface below.
refaceit = refaces.insert(
refaceit, std::make_pair(ifaceit->first,
ctor(_bus, path.str.c_str(),
ifaceit->second, true)));
signals.push_back(ifaceit->first);
}
else
{
// Set the new property values.
auto& assign = std::get<AssignInterfaceType>(opsit->second);
assign(ifaceit->second, refaceit->second,
_status != ManagerStatus::RUNNING);
}
if (!restoreFromCache)
{
auto& serialize =
std::get<SerializeInterfaceType<SerialOps>>(opsit->second);
serialize(path, ifaceit->first, refaceit->second);
}
else
{
auto& deserialize =
std::get<DeserializeInterfaceType<SerialOps>>(
opsit->second);
deserialize(path, ifaceit->first, refaceit->second);
}
}
catch (const InterfaceError& e)
{
// Reset the binding ops iterator since we are
// at the end.
opsit = _makers.cbegin();
e.log();
}
++ifaceit;
}
if (_status == ManagerStatus::RUNNING)
{
if (newObject)
{
_bus.emit_object_added(path.str.c_str());
}
else if (!signals.empty())
{
_bus.emit_interfaces_added(path.str.c_str(), signals);
}
}
}
void Manager::updateObjects(
const std::map<sdbusplus::message::object_path, Object>& objs,
bool restoreFromCache)
{
auto objit = objs.cbegin();
auto refit = _refs.begin();
std::string absPath;
bool newObj;
while (objit != objs.cend())
{
// Find the insertion point or the object to update.
refit = std::lower_bound(refit, _refs.end(), objit->first,
compareFirst(RelPathCompare(_root)));
absPath.assign(_root);
absPath.append(objit->first);
newObj = false;
if (refit == _refs.end() || refit->first != absPath)
{
refit = _refs.insert(
refit, std::make_pair(absPath, decltype(_refs)::mapped_type()));
newObj = true;
}
updateInterfaces(absPath, objit->second, refit, newObj,
restoreFromCache);
#ifdef CREATE_ASSOCIATIONS
if (!_associations.pendingCondition() && newObj)
{
_associations.createAssociations(absPath,
_status != ManagerStatus::RUNNING);
}
else if (!restoreFromCache &&
_associations.conditionMatch(objit->first, objit->second))
{
// The objit path/interface/property matched a pending condition.
// Now the associations are valid so attempt to create them against
// all existing objects. If this was the restoreFromCache path,
// objit doesn't contain property values so don't bother checking.
std::for_each(_refs.begin(), _refs.end(), [this](const auto& ref) {
_associations.createAssociations(
ref.first, _status != ManagerStatus::RUNNING);
});
}
#endif
++objit;
}
}
void Manager::notify(std::map<sdbusplus::message::object_path, Object> objs)
{
updateObjects(objs);
}
void Manager::handleEvent(sdbusplus::message_t& msg, const Event& event,
const EventInfo& info)
{
auto& actions = std::get<1>(info);
for (auto& f : event)
{
if (!f(_bus, msg, *this))
{
return;
}
}
for (auto& action : actions)
{
action(_bus, *this);
}
}
void Manager::destroyObjects(const std::vector<const char*>& paths)
{
std::string p;
for (const auto& path : paths)
{
p.assign(_root);
p.append(path);
_bus.emit_object_removed(p.c_str());
_refs.erase(p);
}
}
void Manager::createObjects(
const std::map<sdbusplus::message::object_path, Object>& objs)
{
updateObjects(objs);
}
std::any& Manager::getInterfaceHolder(const char* path, const char* interface)
{
return const_cast<std::any&>(
const_cast<const Manager*>(this)->getInterfaceHolder(path, interface));
}
const std::any& Manager::getInterfaceHolder(const char* path,
const char* interface) const
{
std::string p{path};
auto oit = _refs.find(_root + p);
if (oit == _refs.end())
throw std::runtime_error(_root + p + " was not found");
auto& obj = oit->second;
auto iit = obj.find(interface);
if (iit == obj.end())
throw std::runtime_error("interface was not found");
return iit->second;
}
void Manager::restore()
{
namespace fs = std::filesystem;
if (!fs::exists(fs::path(PIM_PERSIST_PATH)))
{
return;
}
static const std::string remove = std::string(PIM_PERSIST_PATH) +
INVENTORY_ROOT;
std::map<sdbusplus::message::object_path, Object> objects;
for (const auto& dirent :
fs::recursive_directory_iterator(PIM_PERSIST_PATH))
{
const auto& path = dirent.path();
if (fs::is_regular_file(path))
{
auto ifaceName = path.filename().string();
auto objPath = path.parent_path().string();
objPath.erase(0, remove.length());
auto objit = objects.find(objPath);
Interface propertyMap{};
if (objects.end() != objit)
{
auto& object = objit->second;
object.emplace(std::move(ifaceName), std::move(propertyMap));
}
else
{
Object object;
object.emplace(std::move(ifaceName), std::move(propertyMap));
objects.emplace(std::move(objPath), std::move(object));
}
}
}
if (!objects.empty())
{
auto restoreFromCache = true;
updateObjects(objects, restoreFromCache);
#ifdef CREATE_ASSOCIATIONS
// There may be conditional associations waiting to be loaded
// based on certain path/interface/property values. Now that
// _refs contains all objects with their property values, check
// which property values the conditions need and set them in the
// condition structure entries, using the actualValue field. Then
// the associations manager can check if the conditions are met.
if (_associations.pendingCondition())
{
ObjectReferences::iterator refIt;
InterfaceComposite::iterator ifaceIt;
auto& conditions = _associations.getConditions();
for (auto& condition : conditions)
{
refIt = _refs.find(_root + condition.path);
if (refIt != _refs.end())
{
ifaceIt = refIt->second.find(condition.interface);
}
if ((refIt != _refs.end()) && (ifaceIt != refIt->second.end()))
{
const auto& maker = _makers.find(condition.interface);
if (maker != _makers.end())
{
auto& getProperty =
std::get<GetPropertyValueType>(maker->second);
condition.actualValue = getProperty(condition.property,
ifaceIt->second);
}
}
}
// Check if a property value in a condition matches an
// actual property value just saved. If one did, now the
// associations file is valid so create its associations.
if (_associations.conditionMatch())
{
std::for_each(_refs.begin(), _refs.end(),
[this](const auto& ref) {
_associations.createAssociations(
ref.first, _status != ManagerStatus::RUNNING);
});
}
}
#endif
}
}
} // namespace manager
} // namespace inventory
} // namespace phosphor
// vim: tabstop=8 expandtab shiftwidth=4 softtabstop=4
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