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construct/include/ircd/m/event.h
2018-08-26 07:13:47 -07:00

316 lines
12 KiB
C++

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// 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_EVENT_H
namespace ircd::m
{
struct event;
// General util
bool my(const id::event &);
bool my(const event &);
size_t degree(const event &);
string_view membership(const event &);
bool check_size(std::nothrow_t, const event &);
void check_size(const event &);
// [GET]
bool exists(const id::event &);
bool bad(const id::event &, uint64_t &);
bool bad(const id::event &);
// Equality tests the event_id only! know this.
bool operator==(const event &a, const event &b);
// Depth comparison; expect unstable sorting.
bool operator<(const event &, const event &);
bool operator>(const event &, const event &);
bool operator<=(const event &, const event &);
bool operator>=(const event &, const event &);
// Topological
bool before(const event &a, const event &b); // A directly referenced by B
id::event make_id(const event &, id::event::buf &buf, const const_buffer &hash);
id::event make_id(const event &, id::event::buf &buf);
// Informational pretty string condensed to single line.
std::ostream &pretty_oneline(std::ostream &, const event &, const bool &content_keys = true);
std::string pretty_oneline(const event &, const bool &content_keys = true);
// Informational pretty string on multiple lines.
std::ostream &pretty(std::ostream &, const event &);
std::string pretty(const event &);
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wsubobject-linkage"
/// The Main Event
///
/// This json::tuple provides at least all of the legal members of the matrix
/// standard event. This is the fundamental building block of the matrix
/// system. Rooms are collections of events. Messages between servers are
/// passed as bundles of events (or directly).
///
/// It is better to have 100 functions operate on one data structure than
/// to have 10 functions operate on 10 data structures.
/// -Alan Perlis
///
struct ircd::m::event
:json::tuple
<
json::property<name::auth_events, json::array>,
json::property<name::content, json::object>,
json::property<name::depth, int64_t>,
json::property<name::event_id, json::string>,
json::property<name::hashes, json::object>,
json::property<name::membership, json::string>,
json::property<name::origin, json::string>,
json::property<name::origin_server_ts, time_t>,
json::property<name::prev_events, json::array>,
json::property<name::prev_state, json::array>,
json::property<name::redacts, json::string>,
json::property<name::room_id, json::string>,
json::property<name::sender, json::string>,
json::property<name::signatures, json::object>,
json::property<name::state_key, json::string>,
json::property<name::type, json::string>
>
{
struct prev;
struct fetch;
struct conforms;
using keys = json::keys<event>;
// Common convenience aliases
using id = m::id::event;
using idx = uint64_t;
using closure = std::function<void (const event &)>;
using closure_bool = std::function<bool (const event &)>;
using closure_idx = std::function<void (const idx &)>;
using closure_idx_bool = std::function<bool (const idx &)>;
using closure_iov_mutable = std::function<void (json::iov &)>;
static constexpr size_t MAX_SIZE = 64_KiB;
static conf::item<size_t> max_size;
friend event essential(event, const mutable_buffer &content);
static void essential(json::iov &event, const json::iov &content, const closure_iov_mutable &);
static bool verify(const string_view &, const ed25519::pk &, const ed25519::sig &sig);
static bool verify(const json::object &, const ed25519::pk &, const ed25519::sig &sig);
friend bool verify(const event &, const ed25519::pk &, const ed25519::sig &sig);
friend bool verify(const event &, const ed25519::pk &, const string_view &origin, const string_view &pkid);
friend bool verify(const event &, const string_view &origin, const string_view &pkid); // io/yield
friend bool verify(const event &, const string_view &origin); // io/yield
friend bool verify(const event &); // io/yield
static ed25519::sig sign(const string_view &, const ed25519::sk &);
static ed25519::sig sign(const string_view &);
static ed25519::sig sign(const json::object &, const ed25519::sk &);
static ed25519::sig sign(const json::object &);
friend ed25519::sig sign(const event &, const ed25519::sk &);
friend ed25519::sig sign(const event &);
static ed25519::sig sign(json::iov &event, const json::iov &content, const ed25519::sk &);
static ed25519::sig sign(json::iov &event, const json::iov &content);
static json::object signatures(const mutable_buffer &, json::iov &event, const json::iov &content);
friend event signatures(const mutable_buffer &, const m::event &);
friend bool verify_sha256b64(const event &, const string_view &);
friend bool verify_hash(const event &, const sha256::buf &);
friend bool verify_hash(const event &);
friend sha256::buf hash(const event &);
static sha256::buf hash(json::iov &event, const string_view &content);
static json::object hashes(const mutable_buffer &, json::iov &event, const string_view &content);
friend json::object hashes(const mutable_buffer &, const event &);
using super_type::tuple;
using super_type::operator=;
event(const idx &, const mutable_buffer &buf);
event(const id &, const mutable_buffer &buf);
event() = default;
};
#pragma GCC diagnostic pop
namespace ircd::m
{
bool for_each(const event::prev &, const event::id::closure_bool &);
void for_each(const event::prev &, const event::id::closure &);
size_t degree(const event::prev &);
size_t count(const event::prev &);
std::ostream &pretty(std::ostream &, const event::prev &);
std::string pretty(const event::prev &);
std::ostream &pretty_oneline(std::ostream &, const event::prev &);
std::string pretty_oneline(const event::prev &);
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wsubobject-linkage"
struct ircd::m::event::prev
:json::tuple
<
json::property<name::auth_events, json::array>,
json::property<name::prev_state, json::array>,
json::property<name::prev_events, json::array>
>
{
enum cond :int;
std::tuple<event::id, string_view> auth_events(const uint &idx) const;
std::tuple<event::id, string_view> prev_states(const uint &idx) const;
std::tuple<event::id, string_view> prev_events(const uint &idx) const;
event::id auth_event(const uint &idx) const;
event::id prev_state(const uint &idx) const;
event::id prev_event(const uint &idx) const;
size_t auth_events_count() const;
size_t prev_states_count() const;
size_t prev_events_count() const;
bool auth_events_has(const event::id &) const;
bool prev_states_has(const event::id &) const;
bool prev_events_has(const event::id &) const;
using super_type::tuple;
using super_type::operator=;
};
#pragma GCC diagnostic pop
struct ircd::m::event::fetch
:event
{
struct opts;
using keys = event::keys;
static const opts default_opts;
std::array<db::cell, event::size()> cell;
db::row row;
bool valid;
public:
fetch(const idx &, std::nothrow_t, const opts *const & = nullptr);
fetch(const idx &, const opts *const & = nullptr);
fetch(const id &, std::nothrow_t, const opts *const & = nullptr);
fetch(const id &, const opts *const & = nullptr);
fetch(const opts *const & = nullptr);
static bool event_id(const idx &, std::nothrow_t, const id::closure &);
static void event_id(const idx &, const id::closure &);
friend idx index(const id &, std::nothrow_t);
friend idx index(const id &);
friend idx index(const event &, std::nothrow_t);
friend idx index(const event &);
friend bool seek(fetch &, const idx &, std::nothrow_t);
friend void seek(fetch &, const idx &);
friend bool seek(fetch &, const id &, std::nothrow_t);
friend void seek(fetch &, const id &);
using view_closure = std::function<void (const string_view &)>;
friend bool get(std::nothrow_t, const idx &, const string_view &key, const view_closure &);
friend bool get(std::nothrow_t, const id &, const string_view &key, const view_closure &);
friend void get(const idx &, const string_view &key, const view_closure &);
friend void get(const id &, const string_view &key, const view_closure &);
friend const_buffer get(std::nothrow_t, const idx &, const string_view &key, const mutable_buffer &out);
friend const_buffer get(std::nothrow_t, const id &, const string_view &key, const mutable_buffer &out);
friend const_buffer get(const idx &, const string_view &key, const mutable_buffer &out);
friend const_buffer get(const id &, const string_view &key, const mutable_buffer &out);
};
struct ircd::m::event::fetch::opts
{
event::keys keys;
db::gopts gopts;
opts(const event::keys &, const db::gopts & = {});
opts(const event::keys::selection &, const db::gopts & = {});
opts(const db::gopts &, const event::keys::selection & = {});
opts() = default;
};
/// Device to evaluate the conformity of an event object. This is an 'in vitro'
/// or 'pure' evaluation: it determines if the event is reasonably sane enough
/// to be evaluated further using only the information in the event itself. It
/// requires nothing external and conducts no IO etc..
///
/// This evaluation does not throw or stop when a check fails: instead it
/// collects the failures allowing the user to further determine how to proceed
/// at their own discretion.
///
struct ircd::m::event::conforms
{
enum code :uint;
uint64_t report {0};
bool clean() const;
operator bool() const;
bool operator!() const;
bool has(const uint &code) const;
bool has(const code &code) const;
string_view string(const mutable_buffer &out) const;
void set(const code &code);
void del(const code &code);
void operator|=(const code &) &;
conforms() = default;
conforms(const event &);
conforms(const event &, const uint64_t &skip);
static code reflect(const string_view &);
friend string_view reflect(const code &);
friend std::ostream &operator<<(std::ostream &, const conforms &);
};
/// Report codes corresponding to the checks conducted by event::conforms.
/// Developers: If you add a code here you must also add a string reflection
/// in the definition file.
///
enum ircd::m::event::conforms::code
:uint
{
INVALID_OR_MISSING_EVENT_ID, ///< event_id empty or failed mxid grammar check
INVALID_OR_MISSING_ROOM_ID, ///< room_id empty or failed mxid grammar check
INVALID_OR_MISSING_SENDER_ID, ///< sender empty or failed mxid grammar check
MISSING_TYPE, ///< type empty
MISSING_ORIGIN, ///< origin empty
INVALID_ORIGIN, ///< origin not a proper domain
INVALID_OR_MISSING_REDACTS_ID, ///< for m.room.redaction
MISSING_MEMBERSHIP, ///< for m.room.member, membership empty
INVALID_MEMBERSHIP, ///< for m.room.member (does not check actual states)
MISSING_CONTENT_MEMBERSHIP, ///< for m.room.member, content.membership
INVALID_CONTENT_MEMBERSHIP, ///< for m.room.member, content.membership
MISSING_PREV_EVENTS, ///< for non-m.room.create, empty prev_events
MISSING_PREV_STATE, ///< for state_key'ed, empty prev_state
DEPTH_NEGATIVE, ///< depth < 0
DEPTH_ZERO, ///< for non-m.room.create, depth=0
MISSING_SIGNATURES, ///< no signatures
MISSING_ORIGIN_SIGNATURE, ///< no signature for origin
MISMATCH_ORIGIN_SENDER, ///< sender mxid host not from origin
MISMATCH_ORIGIN_EVENT_ID, ///< event_id mxid host not from origin
SELF_REDACTS, ///< event redacts itself
SELF_PREV_EVENT, ///< event_id self-referenced in prev_events
SELF_PREV_STATE, ///< event_id self-referenced in prev_state
DUP_PREV_EVENT, ///< duplicate references in prev_events
DUP_PREV_STATE, ///< duplicate references in prev_state
_NUM_
};