#include "src/argument.hpp" #include #include #include #include #include #include #include #include #include #include constexpr const char* OBJECT_MAPPER_DBUS_NAME = "xyz.openbmc_project.ObjectMapper"; constexpr const char* ASSOCIATIONS_INTERFACE = "org.openbmc.Associations"; constexpr const char* XYZ_ASSOCIATION_INTERFACE = "xyz.openbmc_project.Association"; // interface_map_type is the underlying datastructure the mapper uses. // The 3 levels of map are // object paths // connection names // interface names using interface_map_type = boost::container::flat_map< std::string, boost::container::flat_map< std::string, boost::container::flat_set>>; using Association = std::tuple; // Associations and some metadata are stored in associationInterfaces. // The fields are: // * ifacePos - holds the D-Bus interface object // * endpointPos - holds the endpoints array that shadows the property // * sourcePos - holds the owning source path of the association static constexpr auto ifacePos = 0; static constexpr auto endpointsPos = 1; static constexpr auto sourcePos = 2; using Endpoints = std::vector; boost::container::flat_map< std::string, std::tuple, Endpoints, std::string>> associationInterfaces; static boost::container::flat_set service_whitelist; static boost::container::flat_set service_blacklist; /** Exception thrown when a path is not found in the object list. */ struct NotFoundException final : public sdbusplus::exception_t { const char* name() const noexcept override { return "org.freedesktop.DBus.Error.FileNotFound"; }; const char* description() const noexcept override { return "path or object not found"; }; const char* what() const noexcept override { return "org.freedesktop.DBus.Error.FileNotFound: " "The requested object was not found"; }; }; bool get_well_known( boost::container::flat_map& owners, const std::string& request, std::string& well_known) { // If it's already a well known name, just return if (!boost::starts_with(request, ":")) { well_known = request; return true; } auto it = owners.find(request); if (it == owners.end()) { return false; } well_known = it->second; return true; } void update_owners(sdbusplus::asio::connection* conn, boost::container::flat_map& owners, const std::string& new_object) { if (boost::starts_with(new_object, ":")) { return; } conn->async_method_call( [&, new_object](const boost::system::error_code ec, const std::string& nameOwner) { if (ec) { std::cerr << "Error getting owner of " << new_object << " : " << ec << "\n"; return; } owners[nameOwner] = new_object; }, "org.freedesktop.DBus", "/", "org.freedesktop.DBus", "GetNameOwner", new_object); } void send_introspection_complete_signal(sdbusplus::asio::connection* system_bus, const std::string& process_name) { // TODO(ed) This signal doesn't get exposed properly in the // introspect right now. Find out how to register signals in // sdbusplus sdbusplus::message::message m = system_bus->new_signal( "/xyz/openbmc_project/object_mapper", "xyz.openbmc_project.ObjectMapper.Private", "IntrospectionComplete"); m.append(process_name); m.signal_send(); } struct InProgressIntrospect { InProgressIntrospect( sdbusplus::asio::connection* system_bus, boost::asio::io_service& io, const std::string& process_name #ifdef DEBUG , std::shared_ptr> global_start_time #endif ) : system_bus(system_bus), io(io), process_name(process_name) #ifdef DEBUG , global_start_time(global_start_time), process_start_time(std::chrono::steady_clock::now()) #endif { } ~InProgressIntrospect() { send_introspection_complete_signal(system_bus, process_name); #ifdef DEBUG std::chrono::duration diff = std::chrono::steady_clock::now() - process_start_time; std::cout << std::setw(50) << process_name << " scan took " << diff.count() << " seconds\n"; // If we're the last outstanding caller globally, calculate the // time it took if (global_start_time != nullptr && global_start_time.use_count() == 1) { diff = std::chrono::steady_clock::now() - *global_start_time; std::cout << "Total scan took " << diff.count() << " seconds to complete\n"; } #endif } sdbusplus::asio::connection* system_bus; boost::asio::io_service& io; std::string process_name; #ifdef DEBUG std::shared_ptr> global_start_time; std::chrono::time_point process_start_time; #endif }; void addAssociation(sdbusplus::asio::object_server& objectServer, const std::vector& associations, const std::string& path) { boost::container::flat_map> objects; for (const Association& association : associations) { std::string forward; std::string reverse; std::string endpoint; std::tie(forward, reverse, endpoint) = association; if (forward.size()) { objects[path + "/" + forward].emplace(endpoint); } if (reverse.size()) { if (endpoint.empty()) { std::cerr << "Found invalid association on path " << path << "\n"; continue; } objects[endpoint + "/" + reverse].emplace(path); } } for (const auto& object : objects) { // the mapper exposes the new association interface but intakes // the old auto& iface = associationInterfaces[object.first]; auto& i = std::get(iface); auto& endpoints = std::get(iface); std::get(iface) = path; // Only add new endpoints for (auto& e : object.second) { if (std::find(endpoints.begin(), endpoints.end(), e) == endpoints.end()) { endpoints.push_back(e); } } // If the interface already exists, only need to update // the property value, otherwise create it if (i) { i->set_property("endpoints", endpoints); } else { i = objectServer.add_interface(object.first, XYZ_ASSOCIATION_INTERFACE); i->register_property("endpoints", endpoints); i->initialize(); } } } void removeAssociation(const std::string& sourcePath, sdbusplus::asio::object_server& server) { // The sourcePath passed in can be: // a) the source of the association object, in which case // that whole object needs to be deleted, and/or // b) just an entry in the endpoints property under some // other path, in which case it just needs to be removed // from the property. for (auto& assoc : associationInterfaces) { if (sourcePath == std::get(assoc.second)) { server.remove_interface(std::get(assoc.second)); std::get(assoc.second) = nullptr; std::get(assoc.second).clear(); std::get(assoc.second).clear(); } else { auto& endpoints = std::get(assoc.second); auto toRemove = std::find(endpoints.begin(), endpoints.end(), sourcePath); if (toRemove != endpoints.end()) { endpoints.erase(toRemove); if (endpoints.empty()) { // Remove the interface object too if no longer needed server.remove_interface(std::get(assoc.second)); std::get(assoc.second) = nullptr; std::get(assoc.second).clear(); } else { std::get(assoc.second) ->set_property("endpoints", endpoints); } } } } } void do_associations(sdbusplus::asio::connection* system_bus, sdbusplus::asio::object_server& objectServer, const std::string& processName, const std::string& path) { system_bus->async_method_call( [&objectServer, path](const boost::system::error_code ec, const sdbusplus::message::variant>& variantAssociations) { if (ec) { std::cerr << "Error getting associations from " << path << "\n"; } std::vector associations = sdbusplus::message::variant_ns::get>( variantAssociations); addAssociation(objectServer, associations, path); }, processName, path, "org.freedesktop.DBus.Properties", "Get", ASSOCIATIONS_INTERFACE, "associations"); } void do_introspect(sdbusplus::asio::connection* system_bus, std::shared_ptr transaction, interface_map_type& interface_map, sdbusplus::asio::object_server& objectServer, std::string path) { system_bus->async_method_call( [&interface_map, &objectServer, transaction, path, system_bus](const boost::system::error_code ec, const std::string& introspect_xml) { if (ec) { std::cerr << "Introspect call failed with error: " << ec << ", " << ec.message() << " on process: " << transaction->process_name << " path: " << path << "\n"; return; } tinyxml2::XMLDocument doc; tinyxml2::XMLError e = doc.Parse(introspect_xml.c_str()); if (e != tinyxml2::XMLError::XML_SUCCESS) { std::cerr << "XML parsing failed\n"; return; } tinyxml2::XMLNode* pRoot = doc.FirstChildElement("node"); if (pRoot == nullptr) { std::cerr << "XML document did not contain any data\n"; return; } auto& thisPathMap = interface_map[path]; tinyxml2::XMLElement* pElement = pRoot->FirstChildElement("interface"); while (pElement != nullptr) { const char* iface_name = pElement->Attribute("name"); if (iface_name == nullptr) { continue; } std::string iface{iface_name}; thisPathMap[transaction->process_name].emplace(iface_name); if (std::strcmp(iface_name, ASSOCIATIONS_INTERFACE) == 0) { do_associations(system_bus, objectServer, transaction->process_name, path); } pElement = pElement->NextSiblingElement("interface"); } pElement = pRoot->FirstChildElement("node"); while (pElement != nullptr) { const char* child_path = pElement->Attribute("name"); if (child_path != nullptr) { std::string parent_path(path); if (parent_path == "/") { parent_path.clear(); } do_introspect(system_bus, transaction, interface_map, objectServer, parent_path + "/" + child_path); } pElement = pElement->NextSiblingElement("node"); } }, transaction->process_name, path, "org.freedesktop.DBus.Introspectable", "Introspect"); } bool need_to_introspect(const std::string& process_name) { auto inWhitelist = std::find_if(service_whitelist.begin(), service_whitelist.end(), [&process_name](const auto& prefix) { return boost::starts_with(process_name, prefix); }) != service_whitelist.end(); // This holds full service names, not prefixes auto inBlacklist = service_blacklist.find(process_name) != service_blacklist.end(); return inWhitelist && !inBlacklist; } void start_new_introspect( sdbusplus::asio::connection* system_bus, boost::asio::io_service& io, interface_map_type& interface_map, const std::string& process_name, #ifdef DEBUG std::shared_ptr> global_start_time, #endif sdbusplus::asio::object_server& objectServer) { if (need_to_introspect(process_name)) { std::shared_ptr transaction = std::make_shared(system_bus, io, process_name #ifdef DEBUG , global_start_time #endif ); do_introspect(system_bus, transaction, interface_map, objectServer, "/"); } } // TODO(ed) replace with std::set_intersection once c++17 is available template bool intersect(InputIt1 first1, InputIt1 last1, InputIt2 first2, InputIt2 last2) { while (first1 != last1 && first2 != last2) { if (*first1 < *first2) { ++first1; continue; } if (*first2 < *first1) { ++first2; continue; } return true; } return false; } void doListNames( boost::asio::io_service& io, interface_map_type& interface_map, sdbusplus::asio::connection* system_bus, boost::container::flat_map& name_owners, sdbusplus::asio::object_server& objectServer) { system_bus->async_method_call( [&io, &interface_map, &name_owners, &objectServer, system_bus](const boost::system::error_code ec, std::vector process_names) { if (ec) { std::cerr << "Error getting names: " << ec << "\n"; std::exit(EXIT_FAILURE); return; } // Try to make startup consistent std::sort(process_names.begin(), process_names.end()); #ifdef DEBUG std::shared_ptr> global_start_time = std::make_shared< std::chrono::time_point>( std::chrono::steady_clock::now()); #endif for (const std::string& process_name : process_names) { if (need_to_introspect(process_name)) { start_new_introspect(system_bus, io, interface_map, process_name, #ifdef DEBUG global_start_time, #endif objectServer); update_owners(system_bus, name_owners, process_name); } } }, "org.freedesktop.DBus", "/org/freedesktop/DBus", "org.freedesktop.DBus", "ListNames"); } void splitArgs(const std::string& stringArgs, boost::container::flat_set& listArgs) { std::istringstream args; std::string arg; args.str(stringArgs); while (!args.eof()) { args >> arg; if (!arg.empty()) { listArgs.insert(arg); } } } void addObjectMapResult( std::vector& objectMap, const std::string& objectPath, const std::pair>& interfaceMap) { // Adds an object path/service name/interface list entry to // the results of GetSubTree and GetAncestors. // If an entry for the object path already exists, just add the // service name and interfaces to that entry, otherwise create // a new entry. auto entry = std::find_if( objectMap.begin(), objectMap.end(), [&objectPath](const auto& i) { return objectPath == i.first; }); if (entry != objectMap.end()) { entry->second.emplace(interfaceMap); } else { interface_map_type::value_type object; object.first = objectPath; object.second.emplace(interfaceMap); objectMap.push_back(object); } } int main(int argc, char** argv) { auto options = ArgumentParser(argc, argv); boost::asio::io_service io; std::shared_ptr system_bus = std::make_shared(io); splitArgs(options["service-namespaces"], service_whitelist); splitArgs(options["service-blacklists"], service_blacklist); // TODO(Ed) Remove this once all service files are updated to not use this. // For now, simply squash the input, and ignore it. boost::container::flat_set iface_whitelist; splitArgs(options["interface-namespaces"], iface_whitelist); system_bus->request_name(OBJECT_MAPPER_DBUS_NAME); sdbusplus::asio::object_server server(system_bus); // Construct a signal set registered for process termination. boost::asio::signal_set signals(io, SIGINT, SIGTERM); signals.async_wait([&io](const boost::system::error_code& error, int signal_number) { io.stop(); }); interface_map_type interface_map; boost::container::flat_map name_owners; std::function nameChangeHandler = [&interface_map, &io, &name_owners, &server, system_bus](sdbusplus::message::message& message) { std::string name; std::string old_owner; std::string new_owner; message.read(name, old_owner, new_owner); if (!old_owner.empty()) { if (boost::starts_with(old_owner, ":")) { auto it = name_owners.find(old_owner); if (it != name_owners.end()) { name_owners.erase(it); } } // Connection removed interface_map_type::iterator path_it = interface_map.begin(); while (path_it != interface_map.end()) { // If an associations interface is being removed, // also need to remove the corresponding associations // objects and properties. auto ifaces = path_it->second.find(name); if (ifaces != path_it->second.end()) { auto assoc = std::find(ifaces->second.begin(), ifaces->second.end(), ASSOCIATIONS_INTERFACE); if (assoc != ifaces->second.end()) { removeAssociation(path_it->first, server); } } path_it->second.erase(name); if (path_it->second.empty()) { // If the last connection to the object is gone, // delete the top level object path_it = interface_map.erase(path_it); continue; } path_it++; } } if (!new_owner.empty()) { #ifdef DEBUG auto transaction = std::make_shared< std::chrono::time_point>( std::chrono::steady_clock::now()); #endif // New daemon added if (need_to_introspect(name)) { name_owners[new_owner] = name; start_new_introspect(system_bus.get(), io, interface_map, name, #ifdef DEBUG transaction, #endif server); } } }; sdbusplus::bus::match::match nameOwnerChanged( static_cast(*system_bus), sdbusplus::bus::match::rules::nameOwnerChanged(), nameChangeHandler); std::function interfacesAddedHandler = [&interface_map, &name_owners, &server]( sdbusplus::message::message& message) { sdbusplus::message::object_path obj_path; std::vector>>>>> interfaces_added; message.read(obj_path, interfaces_added); std::string well_known; if (!get_well_known(name_owners, message.get_sender(), well_known)) { return; // only introspect well-known } if (need_to_introspect(well_known)) { auto& iface_list = interface_map[obj_path.str]; for (const auto& interface_pair : interfaces_added) { iface_list[well_known].emplace(interface_pair.first); if (interface_pair.first == ASSOCIATIONS_INTERFACE) { const sdbusplus::message::variant< std::vector>* variantAssociations = nullptr; for (const auto& interface : interface_pair.second) { if (interface.first == "associations") { variantAssociations = &(interface.second); } } if (variantAssociations == nullptr) { std::cerr << "Illegal association found on " << well_known << "\n"; continue; } std::vector associations = sdbusplus::message::variant_ns::get< std::vector>(*variantAssociations); addAssociation(server, associations, obj_path.str); } } } }; sdbusplus::bus::match::match interfacesAdded( static_cast(*system_bus), sdbusplus::bus::match::rules::interfacesAdded(), interfacesAddedHandler); std::function interfacesRemovedHandler = [&interface_map, &name_owners, &server]( sdbusplus::message::message& message) { sdbusplus::message::object_path obj_path; std::vector interfaces_removed; message.read(obj_path, interfaces_removed); auto connection_map = interface_map.find(obj_path.str); if (connection_map == interface_map.end()) { return; } std::string sender; if (!get_well_known(name_owners, message.get_sender(), sender)) { return; } for (const std::string& interface : interfaces_removed) { auto interface_set = connection_map->second.find(sender); if (interface_set == connection_map->second.end()) { continue; } if (interface == ASSOCIATIONS_INTERFACE) { removeAssociation(obj_path.str, server); } interface_set->second.erase(interface); // If this was the last interface on this connection, // erase the connection if (interface_set->second.empty()) { connection_map->second.erase(interface_set); } } // If this was the last connection on this object path, // erase the object path if (connection_map->second.empty()) { interface_map.erase(connection_map); } }; sdbusplus::bus::match::match interfacesRemoved( static_cast(*system_bus), sdbusplus::bus::match::rules::interfacesRemoved(), interfacesRemovedHandler); std::function associationChangedHandler = [&server](sdbusplus::message::message& message) { std::string objectName; boost::container::flat_map< std::string, sdbusplus::message::variant>> values; message.read(objectName, values); auto findAssociations = values.find("associations"); if (findAssociations != values.end()) { std::vector associations = sdbusplus::message::variant_ns::get< std::vector>(findAssociations->second); addAssociation(server, associations, message.get_path()); } }; sdbusplus::bus::match::match associationChanged( static_cast(*system_bus), sdbusplus::bus::match::rules::interface( "org.freedesktop.DBus.Properties") + sdbusplus::bus::match::rules::member("PropertiesChanged") + sdbusplus::bus::match::rules::argN(0, ASSOCIATIONS_INTERFACE), associationChangedHandler); std::shared_ptr iface = server.add_interface("/xyz/openbmc_project/object_mapper", "xyz.openbmc_project.ObjectMapper"); iface->register_method( "GetAncestors", [&interface_map](std::string& req_path, std::vector& interfaces) { // Interfaces need to be sorted for intersect to function std::sort(interfaces.begin(), interfaces.end()); if (req_path.size() > 1) { if (req_path.back() == '/') { req_path.pop_back(); } if (interface_map.find(req_path) == interface_map.end()) { throw NotFoundException(); } } std::vector ret; for (auto& object_path : interface_map) { auto& this_path = object_path.first; if (boost::starts_with(req_path, this_path) && (req_path != this_path)) { if (interfaces.empty()) { ret.emplace_back(object_path); } else { for (auto& interface_map : object_path.second) { if (intersect(interfaces.begin(), interfaces.end(), interface_map.second.begin(), interface_map.second.end())) { addObjectMapResult(ret, this_path, interface_map); break; } } } } } return ret; }); iface->register_method( "GetObject", [&interface_map](const std::string& path, std::vector& interfaces) { boost::container::flat_map> results; // Interfaces need to be sorted for intersect to function std::sort(interfaces.begin(), interfaces.end()); auto path_ref = interface_map.find(path); if (path_ref == interface_map.end()) { throw NotFoundException(); } if (interfaces.empty()) { return path_ref->second; } for (auto& interface_map : path_ref->second) { if (intersect(interfaces.begin(), interfaces.end(), interface_map.second.begin(), interface_map.second.end())) { results.emplace(interface_map.first, interface_map.second); } } if (results.empty()) { throw NotFoundException(); } return results; }); iface->register_method( "GetSubTree", [&interface_map](std::string& req_path, int32_t depth, std::vector& interfaces) { if (depth <= 0) { depth = std::numeric_limits::max(); } // Interfaces need to be sorted for intersect to function std::sort(interfaces.begin(), interfaces.end()); std::vector ret; if (req_path.size() > 1) { if (req_path.back() == '/') { req_path.pop_back(); } if (interface_map.find(req_path) == interface_map.end()) { throw NotFoundException(); } } for (auto& object_path : interface_map) { auto& this_path = object_path.first; if (this_path == req_path) { continue; } if (boost::starts_with(this_path, req_path)) { // count the number of slashes past the search term int32_t this_depth = std::count(this_path.begin() + req_path.size(), this_path.end(), '/'); if (this_depth <= depth) { for (auto& interface_map : object_path.second) { if (intersect(interfaces.begin(), interfaces.end(), interface_map.second.begin(), interface_map.second.end()) || interfaces.empty()) { addObjectMapResult(ret, this_path, interface_map); } } } } } return ret; }); iface->register_method( "GetSubTreePaths", [&interface_map](std::string& req_path, int32_t depth, std::vector& interfaces) { if (depth <= 0) { depth = std::numeric_limits::max(); } // Interfaces need to be sorted for intersect to function std::sort(interfaces.begin(), interfaces.end()); std::vector ret; if (req_path.size() > 1) { if (req_path.back() == '/') { req_path.pop_back(); } if (interface_map.find(req_path) == interface_map.end()) { throw NotFoundException(); } } for (auto& object_path : interface_map) { auto& this_path = object_path.first; if (this_path == req_path) { continue; } if (boost::starts_with(this_path, req_path)) { // count the number of slashes past the search term int this_depth = std::count(this_path.begin() + req_path.size(), this_path.end(), '/'); if (this_depth <= depth) { bool add = interfaces.empty(); for (auto& interface_map : object_path.second) { if (intersect(interfaces.begin(), interfaces.end(), interface_map.second.begin(), interface_map.second.end())) { add = true; break; } } if (add) { // TODO(ed) this is a copy ret.emplace_back(this_path); } } } } return ret; }); iface->initialize(); io.post([&]() { doListNames(io, interface_map, system_bus.get(), name_owners, server); }); io.run(); }