// Matrix Construct // // Copyright (C) Matrix Construct Developers, Authors & Contributors // Copyright (C) 2016-2018 Jason Volk // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice is present in all copies. The // full license for this software is available in the LICENSE file. #pragma once #define HAVE_IRCD_M_ROOM_POWER_H /// Interface to the power levels /// /// This interface focuses specifically on making the power levels accessible /// to developers for common query and manipulation operations. power_levels /// is a single state event in the room containing integer thresholds for /// privileges in the room. It also contains the list of users mapping to an /// integer threshold. This interface hides the details of that event by /// presenting single operations which can appear succinctly in IRCd code. /// /// Users will typically query the operator() which will return true for allow /// and false for deny. All other calls are slightly lower level and require /// a bit more knowledge to safely use. /// /// There are several modes of construction for this object, however they all /// funnel into gathering the same information to implement the interface. /// /// The content property of the power levels event is essential. If the user /// does not provide this directly, or an event::idx of a power_levels event, /// current state will be queried. If no power_levels event exists or if it /// does not contain all of the default properties we will supplement the spec /// defaults such that this interface always returns results (note that it is /// still liable to throw exceptions for other reasons). /// /// The mxid of the room creator should be supplemented for correct operation. /// If this is not provided the interface still functions correctly but some /// privileges reserved for room creators will not be available when querying /// with the creator's room_id. This may be essential functionality when no /// power_levels event exists. /// struct ircd::m::room::power { using closure = std::function; static const int64_t default_creator_level; static const int64_t default_power_level; static const int64_t default_event_level; static const int64_t default_user_level; m::room room; event::idx power_event_idx {0}; json::object power_event_content; m::id::user room_creator_id; bool view(const std::function &) const; public: // Iterate a collection usually either "events" or "users" as per spec. bool for_each(const string_view &prop, const closure &) const; // Iterates all of the integer levels, excludes the collections. bool for_each(const closure &) const; bool has_level(const string_view &prop) const; bool has_collection(const string_view &prop) const; bool has_event(const string_view &type) const; bool has_user(const m::id::user &) const; size_t count(const string_view &prop) const; size_t count_collections() const; size_t count_levels() const; // This suite queries with full defaulting logic as per the spec. These // always return suitable results. When determining power to change a state // event rather than a non-state event, the state_key must always be // defined. If the state_key is a default constructed string_view{} (which // means !defined(state_key) and is not the same as string_view{""} for // the common state_key="") then the interface considers your query for // a non-state event rather than a state_event. Be careful. int64_t level(const string_view &prop) const; int64_t level_event(const string_view &type, const string_view &state_key) const; int64_t level_event(const string_view &type) const; int64_t level_user(const m::id::user &) const; // all who attain great power and riches make use of either force or fraud" bool operator()(const m::id::user &, const string_view &prop, const string_view &type = {}, const string_view &state_key = {}) const; explicit power(const json::object &power_event_content, const m::id::user &room_creator_id); explicit power(const m::event &power_event, const m::id::user &room_creator_id); explicit power(const m::event &power_event, const m::event &create_event); power(const m::room &, const event::idx &power_event_idx); power(const m::room &); power() = default; using compose_closure = std::function; static json::object compose_content(const mutable_buffer &out, const compose_closure &); static json::object default_content(const mutable_buffer &out, const m::id::user &creator); };