settings_manager.mako.hpp - openbmc/phosphor-settingsd - Gitiles

 ## This file is a template.  The comment below is emitted
 ## into the rendered file; feel free to edit this file.
 // WARNING: Generated header. Do not edit!
 <%
 import re
 from collections import defaultdict
 from sdbusplus.namedelement import NamedElement
 objects = settingsDict.keys()
 sdbusplus_includes = []
 props = defaultdict(list)
 validators = defaultdict(tuple)

 def get_setting_sdbusplus_type(setting_intf):
     setting = "sdbusplus::" + setting_intf.replace('.', '::')
     i = setting.rfind('::')
     setting = setting[:i] + '::server::' + setting[i+2:]
     return setting

 def get_setting_type(path):
     path = path[1:]
     path = path.replace('/', '::')
     return path
 %>\
 #pragma once

 % for object in objects:
     % for item in settingsDict[object]:
 <%
     include = item['Interface']
     include = include.replace('.', '/')
     include = include + "/server.hpp"
     sdbusplus_includes.append(include)
 %>\
     % endfor
 % endfor
 #include <cereal/archives/json.hpp>
 #include <cereal/types/vector.hpp>
 #include <fstream>
 #include <utility>
 #include <filesystem>
 #include <regex>
 #include <phosphor-logging/elog.hpp>
 #include <phosphor-logging/elog-errors.hpp>
 #include <phosphor-logging/log.hpp>
 #include "config.h"
 #include <xyz/openbmc_project/Common/error.hpp>
 using namespace phosphor::logging;

 % for i in set(sdbusplus_includes):
 #include "${i}"
 % endfor

 namespace phosphor
 {
 namespace settings
 {

 namespace fs = std::filesystem;

 namespace persistent
 {

 // A setting d-bus object /foo/bar/baz is persisted in the filesystem with the
 // same path. This eases re-construction of settings objects when we restore
 // from the filesystem. This can be a problem though when you have two objects
 // such as - /foo/bar and /foo/bar/baz. This is because 'bar' will be treated as
 // a file in the first case, and a subdir in the second. To solve this, suffix
 // files with a trailing __. The __ is a safe character sequence to use, because
 // we won't have d-bus object paths ending with this.
 // With this the objects would be persisted as - /foo/bar__ and /foo/bar/baz__.
 constexpr auto fileSuffix = "__";

 }

 % for object in objects:
 <%
    ns = object.split('/')
    ns.pop(0)
 %>\
 % for n in ns:
 namespace ${n}
 {
 % endfor
 <%
     interfaces = []
     aliases = []
     for item in settingsDict[object]:
         interfaces.append(item['Interface'])
         for name, meta in item['Properties'].items():
             if 'Validation' in meta:
                 dict = meta['Validation']
                 if dict['Type'] == "range":
                     validators[name] = (dict['Type'], dict['Validator'], dict['Unit'])
                 else:
                     validators[name] = (dict['Type'], dict['Validator'])
 %>
 % for index, intf in enumerate(interfaces):
 using Iface${index} = ${get_setting_sdbusplus_type(intf)};
 <% aliases.append("Iface" + str(index)) %>\
 % endfor
 <%
     parent = "sdbusplus::server::object_t" + "<" + ", ".join(aliases) + ">"
 %>\
 using Parent = ${parent};

 class Impl : public Parent
 {
     public:
         Impl(sdbusplus::bus_t& bus, const char* path):
             Parent(bus, path, Parent::action::defer_emit),
             path(path)
         {
         }
         virtual ~Impl() = default;

 % for index, item in enumerate(settingsDict[object]):
     % for propName, metaDict in item['Properties'].items():
 <% t = NamedElement(name=propName).camelCase %>\
 <% fname = "validate" + propName %>\
         decltype(std::declval<Iface${index}>().${t}()) ${t}(decltype(std::declval<Iface${index}>().${t}()) value) override
         {
             auto result = Iface${index}::${t}();
             if (value != result)
             {
             % if propName in validators:
                 if (!${fname}(value))
                 {
                     namespace error =
                         sdbusplus::xyz::openbmc_project::Common::Error;
                     namespace metadata =
                         phosphor::logging::xyz::openbmc_project::Common;
                     phosphor::logging::report<error::InvalidArgument>(
                         metadata::InvalidArgument::ARGUMENT_NAME("${t}"),
                     % if validators[propName][0] != "regex":
                         metadata::InvalidArgument::ARGUMENT_VALUE(std::to_string(value).c_str()));
                     % else:
                         metadata::InvalidArgument::ARGUMENT_VALUE(value.c_str()));
                     % endif
                     return result;
                 }
              % endif
                 fs::path p(SETTINGS_PERSIST_PATH);
                 p /= path.relative_path();
                 p += persistent::fileSuffix;
                 fs::create_directories(p.parent_path());
                 std::ofstream os(p.c_str(), std::ios::binary);
                 cereal::JSONOutputArchive oarchive(os);
                 result = Iface${index}::${t}(value);
                 oarchive(*this);
             }
             return result;
         }
         using Iface${index}::${t};

     % endfor
 % endfor
     private:
         fs::path path;
 % for index, item in enumerate(settingsDict[object]):
   % for propName, metaDict in item['Properties'].items():
 <% t = NamedElement(name=propName).camelCase %>\
 <% fname = "validate" + propName %>\
     % if propName in validators:

         bool ${fname}(decltype(std::declval<Iface${index}>().${t}()) value)
         {
             bool matched = false;
         % if (validators[propName][0] == 'regex'):
             std::regex regexToCheck("${validators[propName][1]}");
             matched = std::regex_search(value, regexToCheck);
             if (!matched)
             {
                 std::string err = "Input parameter for ${propName} is invalid "
                     "Input: " + value + " not in the format of this regex: "
                     "${validators[propName][1]}";
                 using namespace phosphor::logging;
                 log<level::ERR>(err.c_str());
             }
         % elif (validators[propName][0] == 'range'):
 <% lowhigh = re.split('\.\.', validators[propName][1]) %>\
             if ((value <= ${lowhigh[1]}) && (value >= ${lowhigh[0]}))
             {
                 matched = true;
             }
             else
             {
                 std::string err = "Input parameter for ${propName} is invalid "
                     "Input: " + std::to_string(value) + "in uint: "
                     "${validators[propName][2]} is not in range:${validators[propName][1]}";
                 using namespace phosphor::logging;
                 log<level::ERR>(err.c_str());
             }
         % else:
             <% assert("Unknown validation type: propName") %>\
         % endif
             return matched;
         }
     % endif
   % endfor
 % endfor
 };

 template<class Archive>
 void save(Archive& a,
           const Impl& setting,
           const std::uint32_t version)
 {
 <%
 props = []
 for index, item in enumerate(settingsDict[object]):
     intfProps = ["setting." + NamedElement(name=propName).camelCase + "()" for \
                     propName, metaDict in item['Properties'].items()]
     props.extend(intfProps)
 props = ', '.join(props)
 %>\
 % if props:
     a(${props});
 % endif
 }

 template<class Archive>
 void load(Archive& a,
           Impl& setting,
           const std::uint32_t version)
 {
 <% props = [] %>\
 % for index, item in enumerate(settingsDict[object]):
   % for  prop, metaDict in item['Properties'].items():
 <%
     t = "setting." + NamedElement(name=prop).camelCase + "()"
     props.append(prop)
 %>\
     decltype(${t}) ${prop}{};
   % endfor
 % endfor
 <% props = ', '.join(props) %>
 % if props:
     a(${props});
 % endif

 <% props = [] %>
 % for index, item in enumerate(settingsDict[object]):
   % for  prop, metaDict in item['Properties'].items():
 <%
     t = "setting." + NamedElement(name=prop).camelCase + "(" + prop + ")"
 %>\
     ${t};
   % endfor
 % endfor
 }

 % for n in reversed(ns):
 } // namespace ${n}
 % endfor

 % endfor

 /** @class Manager
  *
  *  @brief Compose settings objects and put them on the bus.
  */
 class Manager
 {
     public:
         Manager() = delete;
         Manager(const Manager&) = delete;
         Manager& operator=(const Manager&) = delete;
         Manager(Manager&&) = delete;
         Manager& operator=(Manager&&) = delete;
         virtual ~Manager() = default;

         /** @brief Constructor to put settings objects on to the bus.
          *  @param[in] bus - Bus to attach to.
          */
         explicit Manager(sdbusplus::bus_t& bus) :
             settings(
                 std::make_tuple(
 % for index, path in enumerate(objects):
 <% type = get_setting_type(path) + "::Impl" %>\
                     std::make_unique<${type}>(
                         bus,
   % if index < len(settingsDict) - 1:
                         "${path}"),
   % else:
                         "${path}")
   % endif
 % endfor
                 )
             )
         {

             fs::path path{};
 % for index, path in enumerate(objects):
 <% relativePath = path[1:] %>\
             path = fs::path(SETTINGS_PERSIST_PATH) / "${relativePath}";
             path += persistent::fileSuffix;
             auto initSetting${index} = [&]()
             {
   % for item in settingsDict[path]:
     % for propName, metaDict in item['Properties'].items():
 <% p = NamedElement(name=propName).camelCase %>\
 <% defaultValue = metaDict['Default'] %>\
 % if isinstance(defaultValue, str) and  not \
     defaultValue.startswith('"') and '::' in defaultValue:
 <% ns = get_setting_sdbusplus_type(item['Interface'])
 i = ns.rfind('::')
 defaultValue = "{}::{}".format(ns[:i], defaultValue)
 %>\
 % endif
                 std::get<${index}>(settings)->
                   ${get_setting_sdbusplus_type(item['Interface'])}::${p}(${defaultValue});
   % endfor
 % endfor
             };

             try
             {
                 if (fs::exists(path))
                 {
                     std::ifstream is(path.c_str(), std::ios::in);
                     cereal::JSONInputArchive iarchive(is);
                     iarchive(*std::get<${index}>(settings));
                 }
                 else
                 {
                     initSetting${index}();
                 }
             }
             catch (const cereal::Exception& e)
             {
                 log<level::ERR>(e.what());
                 fs::remove(path);
                 initSetting${index}();
             }
             std::get<${index}>(settings)->emit_object_added();

 % endfor
         }

     private:
         /* @brief Composition of settings objects. */
         std::tuple<
 % for index, path in enumerate(objects):
 <% type = get_setting_type(path) + "::Impl" %>\
   % if index < len(settingsDict) - 1:
             std::unique_ptr<${type}>,
   % else:
             std::unique_ptr<${type}>> settings;
   % endif
 % endfor
 };

 } // namespace settings
 } // namespace phosphor

 // Now register the class version with Cereal
 % for object in objects:
 <%
    classname = "phosphor::settings"
    ns = object.split('/')
    ns.pop(0)
 %>\
 % for n in ns:
 <%
     classname += "::" + n
 %>\
 % endfor
 CEREAL_CLASS_VERSION(${classname + "::Impl"}, CLASS_VERSION);
 % endfor
	## This file is a template. The comment below is emitted
	## into the rendered file; feel free to edit this file.
	// WARNING: Generated header. Do not edit!
	<%
	import re
	from collections import defaultdict
	from sdbusplus.namedelement import NamedElement
	objects = settingsDict.keys()
	sdbusplus_includes = []
	props = defaultdict(list)
	validators = defaultdict(tuple)

	def get_setting_sdbusplus_type(setting_intf):
	setting = "sdbusplus::" + setting_intf.replace('.', '::')
	i = setting.rfind('::')
	setting = setting[:i] + '::server::' + setting[i+2:]
	return setting

	def get_setting_type(path):
	path = path[1:]
	path = path.replace('/', '::')
	return path
	%>\
	#pragma once

	% for object in objects:
	% for item in settingsDict[object]:
	<%
	include = item['Interface']
	include = include.replace('.', '/')
	include = include + "/server.hpp"
	sdbusplus_includes.append(include)
	%>\
	% endfor
	% endfor
	#include <cereal/archives/json.hpp>
	#include <cereal/types/vector.hpp>
	#include <fstream>
	#include <utility>
	#include <filesystem>
	#include <regex>
	#include <phosphor-logging/elog.hpp>
	#include <phosphor-logging/elog-errors.hpp>
	#include <phosphor-logging/log.hpp>
	#include "config.h"
	#include <xyz/openbmc_project/Common/error.hpp>
	using namespace phosphor::logging;

	% for i in set(sdbusplus_includes):
	#include "${i}"
	% endfor

	namespace phosphor
	{
	namespace settings
	{

	namespace fs = std::filesystem;

	namespace persistent
	{

	// A setting d-bus object /foo/bar/baz is persisted in the filesystem with the
	// same path. This eases re-construction of settings objects when we restore
	// from the filesystem. This can be a problem though when you have two objects
	// such as - /foo/bar and /foo/bar/baz. This is because 'bar' will be treated as
	// a file in the first case, and a subdir in the second. To solve this, suffix
	// files with a trailing __. The __ is a safe character sequence to use, because
	// we won't have d-bus object paths ending with this.
	// With this the objects would be persisted as - /foo/bar__ and /foo/bar/baz__.
	constexpr auto fileSuffix = "__";

	}

	% for object in objects:
	<%
	ns = object.split('/')
	ns.pop(0)
	%>\
	% for n in ns:
	namespace ${n}
	{
	% endfor
	<%
	interfaces = []
	aliases = []
	for item in settingsDict[object]:
	interfaces.append(item['Interface'])
	for name, meta in item['Properties'].items():
	if 'Validation' in meta:
	dict = meta['Validation']
	if dict['Type'] == "range":
	validators[name] = (dict['Type'], dict['Validator'], dict['Unit'])
	else:
	validators[name] = (dict['Type'], dict['Validator'])
	%>
	% for index, intf in enumerate(interfaces):
	using Iface${index} = ${get_setting_sdbusplus_type(intf)};
	<% aliases.append("Iface" + str(index)) %>\
	% endfor
	<%
	parent = "sdbusplus::server::object_t" + "<" + ", ".join(aliases) + ">"
	%>\
	using Parent = ${parent};

	class Impl : public Parent
	{
	public:
	Impl(sdbusplus::bus_t& bus, const char* path):
	Parent(bus, path, Parent::action::defer_emit),
	path(path)
	{
	}
	virtual ~Impl() = default;

	% for index, item in enumerate(settingsDict[object]):
	% for propName, metaDict in item['Properties'].items():
	<% t = NamedElement(name=propName).camelCase %>\
	<% fname = "validate" + propName %>\
	decltype(std::declval<Iface${index}>().${t}()) ${t}(decltype(std::declval<Iface${index}>().${t}()) value) override
	{
	auto result = Iface${index}::${t}();
	if (value != result)
	{
	% if propName in validators:
	if (!${fname}(value))
	{
	namespace error =
	sdbusplus::xyz::openbmc_project::Common::Error;
	namespace metadata =
	phosphor::logging::xyz::openbmc_project::Common;
	phosphor::logging::report<error::InvalidArgument>(
	metadata::InvalidArgument::ARGUMENT_NAME("${t}"),
	% if validators[propName][0] != "regex":
	metadata::InvalidArgument::ARGUMENT_VALUE(std::to_string(value).c_str()));
	% else:
	metadata::InvalidArgument::ARGUMENT_VALUE(value.c_str()));
	% endif
	return result;
	}
	% endif
	fs::path p(SETTINGS_PERSIST_PATH);
	p /= path.relative_path();
	p += persistent::fileSuffix;
	fs::create_directories(p.parent_path());
	std::ofstream os(p.c_str(), std::ios::binary);
	cereal::JSONOutputArchive oarchive(os);
	result = Iface${index}::${t}(value);
	oarchive(*this);
	}
	return result;
	}
	using Iface${index}::${t};

	% endfor
	% endfor
	private:
	fs::path path;
	% for index, item in enumerate(settingsDict[object]):
	% for propName, metaDict in item['Properties'].items():
	<% t = NamedElement(name=propName).camelCase %>\
	<% fname = "validate" + propName %>\
	% if propName in validators:

	bool ${fname}(decltype(std::declval<Iface${index}>().${t}()) value)
	{
	bool matched = false;
	% if (validators[propName][0] == 'regex'):
	std::regex regexToCheck("${validators[propName][1]}");
	matched = std::regex_search(value, regexToCheck);
	if (!matched)
	{
	std::string err = "Input parameter for ${propName} is invalid "
	"Input: " + value + " not in the format of this regex: "
	"${validators[propName][1]}";
	using namespace phosphor::logging;
	log<level::ERR>(err.c_str());
	}
	% elif (validators[propName][0] == 'range'):
	<% lowhigh = re.split('\.\.', validators[propName][1]) %>\
	if ((value <= ${lowhigh[1]}) && (value >= ${lowhigh[0]}))
	{
	matched = true;
	}
	else
	{
	std::string err = "Input parameter for ${propName} is invalid "
	"Input: " + std::to_string(value) + "in uint: "
	"${validators[propName][2]} is not in range:${validators[propName][1]}";
	using namespace phosphor::logging;
	log<level::ERR>(err.c_str());
	}
	% else:
	<% assert("Unknown validation type: propName") %>\
	% endif
	return matched;
	}
	% endif
	% endfor
	% endfor
	};

	template<class Archive>
	void save(Archive& a,
	const Impl& setting,
	const std::uint32_t version)
	{
	<%
	props = []
	for index, item in enumerate(settingsDict[object]):
	intfProps = ["setting." + NamedElement(name=propName).camelCase + "()" for \
	propName, metaDict in item['Properties'].items()]
	props.extend(intfProps)
	props = ', '.join(props)
	%>\
	% if props:
	a(${props});
	% endif
	}

	template<class Archive>
	void load(Archive& a,
	Impl& setting,
	const std::uint32_t version)
	{
	<% props = [] %>\
	% for index, item in enumerate(settingsDict[object]):
	% for prop, metaDict in item['Properties'].items():
	<%
	t = "setting." + NamedElement(name=prop).camelCase + "()"
	props.append(prop)
	%>\
	decltype(${t}) ${prop}{};
	% endfor
	% endfor
	<% props = ', '.join(props) %>
	% if props:
	a(${props});
	% endif

	<% props = [] %>
	% for index, item in enumerate(settingsDict[object]):
	% for prop, metaDict in item['Properties'].items():
	<%
	t = "setting." + NamedElement(name=prop).camelCase + "(" + prop + ")"
	%>\
	${t};
	% endfor
	% endfor
	}

	% for n in reversed(ns):
	} // namespace ${n}
	% endfor

	% endfor

	/** @class Manager
	*
	* @brief Compose settings objects and put them on the bus.
	*/
	class Manager
	{
	public:
	Manager() = delete;
	Manager(const Manager&) = delete;
	Manager& operator=(const Manager&) = delete;
	Manager(Manager&&) = delete;
	Manager& operator=(Manager&&) = delete;
	virtual ~Manager() = default;

	/** @brief Constructor to put settings objects on to the bus.
	* @param[in] bus - Bus to attach to.
	*/
	explicit Manager(sdbusplus::bus_t& bus) :
	settings(
	std::make_tuple(
	% for index, path in enumerate(objects):
	<% type = get_setting_type(path) + "::Impl" %>\
	std::make_unique<${type}>(
	bus,
	% if index < len(settingsDict) - 1:
	"${path}"),
	% else:
	"${path}")
	% endif
	% endfor
	)
	)
	{

	fs::path path{};
	% for index, path in enumerate(objects):
	<% relativePath = path[1:] %>\
	path = fs::path(SETTINGS_PERSIST_PATH) / "${relativePath}";
	path += persistent::fileSuffix;
	auto initSetting${index} = [&]()
	{
	% for item in settingsDict[path]:
	% for propName, metaDict in item['Properties'].items():
	<% p = NamedElement(name=propName).camelCase %>\
	<% defaultValue = metaDict['Default'] %>\
	% if isinstance(defaultValue, str) and not \
	defaultValue.startswith('"') and '::' in defaultValue:
	<% ns = get_setting_sdbusplus_type(item['Interface'])
	i = ns.rfind('::')
	defaultValue = "{}::{}".format(ns[:i], defaultValue)
	%>\
	% endif
	std::get<${index}>(settings)->
	${get_setting_sdbusplus_type(item['Interface'])}::${p}(${defaultValue});
	% endfor
	% endfor
	};

	try
	{
	if (fs::exists(path))
	{
	std::ifstream is(path.c_str(), std::ios::in);
	cereal::JSONInputArchive iarchive(is);
	iarchive(*std::get<${index}>(settings));
	}
	else
	{
	initSetting${index}();
	}
	}
	catch (const cereal::Exception& e)
	{
	log<level::ERR>(e.what());
	fs::remove(path);
	initSetting${index}();
	}
	std::get<${index}>(settings)->emit_object_added();

	% endfor
	}

	private:
	/* @brief Composition of settings objects. */
	std::tuple<
	% for index, path in enumerate(objects):
	<% type = get_setting_type(path) + "::Impl" %>\
	% if index < len(settingsDict) - 1:
	std::unique_ptr<${type}>,
	% else:
	std::unique_ptr<${type}>> settings;
	% endif
	% endfor
	};

	} // namespace settings
	} // namespace phosphor

	// Now register the class version with Cereal
	% for object in objects:
	<%
	classname = "phosphor::settings"
	ns = object.split('/')
	ns.pop(0)
	%>\
	% for n in ns:
	<%
	classname += "::" + n
	%>\
	% endfor
	CEREAL_CLASS_VERSION(${classname + "::Impl"}, CLASS_VERSION);
	% endfor