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/*
* This file is licensed under the Affero General Public License (AGPL) version 3.
*
* Copyright (C) 2024 New Vector, Ltd
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* See the GNU Affero General Public License for more details:
* <https://www.gnu.org/licenses/agpl-3.0.html>.
*
* Originally licensed under the Apache License, Version 2.0:
* <http://www.apache.org/licenses/LICENSE-2.0>.
*
* [This file includes modifications made by New Vector Limited]
*
*/
//! Implements the internal metadata class attached to events.
//!
//! The internal metadata is a bit like a `TypedDict`, in that most of
//! it is stored as a JSON dict in the DB (the exceptions being `outlier`
//! and `stream_ordering` which have their own columns in the database).
//! Most events have zero, or only a few, of these keys
//! set. Therefore, since we care more about memory size than performance here,
//! we store these fields in a mapping.
//!
//! We want to store (most) of the fields as Rust objects, so we implement the
//! mapping by using a vec of enums. This is less efficient than using
//! attributes, but for small number of keys is actually faster than using a
//! hash or btree map.
use std::{num::NonZeroI64, ops::Deref};
use anyhow::Context;
use log::warn;
use pyo3::{
exceptions::PyAttributeError,
pybacked::PyBackedStr,
pyclass, pymethods,
types::{PyAnyMethods, PyDict, PyDictMethods, PyString},
Bound, IntoPy, PyAny, PyObject, PyResult, Python,
};
/// Definitions of the various fields of the internal metadata.
#[derive(Clone)]
enum EventInternalMetadataData {
OutOfBandMembership(bool),
SendOnBehalfOf(Box<str>),
RecheckRedaction(bool),
SoftFailed(bool),
ProactivelySend(bool),
Redacted(bool),
TxnId(Box<str>),
TokenId(i64),
DeviceId(Box<str>),
}
impl EventInternalMetadataData {
/// Convert the field to its name and python object.
fn to_python_pair<'a>(&self, py: Python<'a>) -> (&'a Bound<'a, PyString>, PyObject) {
match self {
EventInternalMetadataData::OutOfBandMembership(o) => {
(pyo3::intern!(py, "out_of_band_membership"), o.into_py(py))
}
EventInternalMetadataData::SendOnBehalfOf(o) => {
(pyo3::intern!(py, "send_on_behalf_of"), o.into_py(py))
}
EventInternalMetadataData::RecheckRedaction(o) => {
(pyo3::intern!(py, "recheck_redaction"), o.into_py(py))
}
EventInternalMetadataData::SoftFailed(o) => {
(pyo3::intern!(py, "soft_failed"), o.into_py(py))
}
EventInternalMetadataData::ProactivelySend(o) => {
(pyo3::intern!(py, "proactively_send"), o.into_py(py))
}
EventInternalMetadataData::Redacted(o) => {
(pyo3::intern!(py, "redacted"), o.into_py(py))
}
EventInternalMetadataData::TxnId(o) => (pyo3::intern!(py, "txn_id"), o.into_py(py)),
EventInternalMetadataData::TokenId(o) => (pyo3::intern!(py, "token_id"), o.into_py(py)),
EventInternalMetadataData::DeviceId(o) => {
(pyo3::intern!(py, "device_id"), o.into_py(py))
}
}
}
/// Converts from python key/values to the field.
///
/// Returns `None` if the key is a valid but unrecognized string.
fn from_python_pair(
key: &Bound<'_, PyAny>,
value: &Bound<'_, PyAny>,
) -> PyResult<Option<Self>> {
let key_str: PyBackedStr = key.extract()?;
let e = match &*key_str {
"out_of_band_membership" => EventInternalMetadataData::OutOfBandMembership(
value
.extract()
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"send_on_behalf_of" => EventInternalMetadataData::SendOnBehalfOf(
value
.extract()
.map(String::into_boxed_str)
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"recheck_redaction" => EventInternalMetadataData::RecheckRedaction(
value
.extract()
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"soft_failed" => EventInternalMetadataData::SoftFailed(
value
.extract()
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"proactively_send" => EventInternalMetadataData::ProactivelySend(
value
.extract()
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"redacted" => EventInternalMetadataData::Redacted(
value
.extract()
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"txn_id" => EventInternalMetadataData::TxnId(
value
.extract()
.map(String::into_boxed_str)
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"token_id" => EventInternalMetadataData::TokenId(
value
.extract()
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
"device_id" => EventInternalMetadataData::DeviceId(
value
.extract()
.map(String::into_boxed_str)
.with_context(|| format!("'{key_str}' has invalid type"))?,
),
_ => return Ok(None),
};
Ok(Some(e))
}
}
/// Helper macro to find the given field in internal metadata, returning None if
/// not found.
macro_rules! get_property_opt {
($self:expr, $name:ident) => {
$self.data.iter().find_map(|entry| {
if let EventInternalMetadataData::$name(data) = entry {
Some(data)
} else {
None
}
})
};
}
/// Helper macro to find the given field in internal metadata, raising an
/// attribute error if not found.
macro_rules! get_property {
($self:expr, $name:ident) => {
get_property_opt!($self, $name).ok_or_else(|| {
PyAttributeError::new_err(format!(
"'EventInternalMetadata' has no attribute '{}'",
stringify!($name),
))
})
};
}
/// Helper macro to set the give field.
macro_rules! set_property {
($self:expr, $name:ident, $obj:expr) => {
for entry in &mut $self.data {
if let EventInternalMetadataData::$name(data) = entry {
*data = $obj;
return;
}
}
$self.data.push(EventInternalMetadataData::$name($obj))
};
}
#[pyclass]
#[derive(Clone)]
pub struct EventInternalMetadata {
/// The fields of internal metadata. This functions as a mapping.
data: Vec<EventInternalMetadataData>,
/// The stream ordering of this event. None, until it has been persisted.
#[pyo3(get, set)]
stream_ordering: Option<NonZeroI64>,
/// whether this event is an outlier (ie, whether we have the state at that
/// point in the DAG)
#[pyo3(get, set)]
outlier: bool,
}
#[pymethods]
impl EventInternalMetadata {
#[new]
fn new(dict: &Bound<'_, PyDict>) -> PyResult<Self> {
let mut data = Vec::with_capacity(dict.len());
for (key, value) in dict.iter() {
match EventInternalMetadataData::from_python_pair(&key, &value) {
Ok(Some(entry)) => data.push(entry),
Ok(None) => {}
Err(err) => {
warn!("Ignoring internal metadata field '{key}', as failed to convert to Rust due to {err}")
}
}
}
data.shrink_to_fit();
Ok(EventInternalMetadata {
data,
stream_ordering: None,
outlier: false,
})
}
fn copy(&self) -> Self {
self.clone()
}
/// Get a dict holding the data stored in the `internal_metadata` column in the database.
///
/// Note that `outlier` and `stream_ordering` are stored in separate columns so are not returned here.
fn get_dict(&self, py: Python<'_>) -> PyResult<PyObject> {
let dict = PyDict::new_bound(py);
for entry in &self.data {
let (key, value) = entry.to_python_pair(py);
dict.set_item(key, value)?;
}
Ok(dict.into())
}
fn is_outlier(&self) -> bool {
self.outlier
}
/// Whether this event is an out-of-band membership.
///
/// OOB memberships are a special case of outlier events: they are
/// membership events for federated rooms that we aren't full members of.
/// Examples include invites received over federation, and rejections for
/// such invites.
///
/// The concept of an OOB membership is needed because these events need to
/// be processed as if they're new regular events (e.g. updating membership
/// state in the database, relaying to clients via /sync, etc) despite being
/// outliers.
///
/// See also
/// https://element-hq.github.io/synapse/develop/development/room-dag-concepts.html#out-of-band-membership-events.
///
/// (Added in synapse 0.99.0, so may be unreliable for events received
/// before that)
fn is_out_of_band_membership(&self) -> bool {
get_property_opt!(self, OutOfBandMembership)
.copied()
.unwrap_or(false)
}
/// Whether this server should send the event on behalf of another server.
/// This is used by the federation "send_join" API to forward the initial
/// join event for a server in the room.
///
/// returns a str with the name of the server this event is sent on behalf
/// of.
fn get_send_on_behalf_of(&self) -> Option<&str> {
let s = get_property_opt!(self, SendOnBehalfOf);
s.map(|a| a.deref())
}
/// Whether the redaction event needs to be rechecked when fetching
/// from the database.
///
/// Starting in room v3 redaction events are accepted up front, and later
/// checked to see if the redacter and redactee's domains match.
///
/// If the sender of the redaction event is allowed to redact any event
/// due to auth rules, then this will always return false.
fn need_to_check_redaction(&self) -> bool {
get_property_opt!(self, RecheckRedaction)
.copied()
.unwrap_or(false)
}
/// Whether the event has been soft failed.
///
/// Soft failed events should be handled as usual, except:
/// 1. They should not go down sync or event streams, or generally sent to
/// clients.
/// 2. They should not be added to the forward extremities (and therefore
/// not to current state).
fn is_soft_failed(&self) -> bool {
get_property_opt!(self, SoftFailed)
.copied()
.unwrap_or(false)
}
/// Whether the event, if ours, should be sent to other clients and servers.
///
/// This is used for sending dummy events internally. Servers and clients
/// can still explicitly fetch the event.
fn should_proactively_send(&self) -> bool {
get_property_opt!(self, ProactivelySend)
.copied()
.unwrap_or(true)
}
/// Whether the event has been redacted.
///
/// This is used for efficiently checking whether an event has been marked
/// as redacted without needing to make another database call.
fn is_redacted(&self) -> bool {
get_property_opt!(self, Redacted).copied().unwrap_or(false)
}
/// Whether this event can trigger a push notification
fn is_notifiable(&self) -> bool {
!self.outlier || self.is_out_of_band_membership()
}
// ** The following are the getters and setters of the various properties **
#[getter]
fn get_out_of_band_membership(&self) -> PyResult<bool> {
let bool = get_property!(self, OutOfBandMembership)?;
Ok(*bool)
}
#[setter]
fn set_out_of_band_membership(&mut self, obj: bool) {
set_property!(self, OutOfBandMembership, obj);
}
#[getter(send_on_behalf_of)]
fn getter_send_on_behalf_of(&self) -> PyResult<&str> {
let s = get_property!(self, SendOnBehalfOf)?;
Ok(s)
}
#[setter]
fn set_send_on_behalf_of(&mut self, obj: String) {
set_property!(self, SendOnBehalfOf, obj.into_boxed_str());
}
#[getter]
fn get_recheck_redaction(&self) -> PyResult<bool> {
let bool = get_property!(self, RecheckRedaction)?;
Ok(*bool)
}
#[setter]
fn set_recheck_redaction(&mut self, obj: bool) {
set_property!(self, RecheckRedaction, obj);
}
#[getter]
fn get_soft_failed(&self) -> PyResult<bool> {
let bool = get_property!(self, SoftFailed)?;
Ok(*bool)
}
#[setter]
fn set_soft_failed(&mut self, obj: bool) {
set_property!(self, SoftFailed, obj);
}
#[getter]
fn get_proactively_send(&self) -> PyResult<bool> {
let bool = get_property!(self, ProactivelySend)?;
Ok(*bool)
}
#[setter]
fn set_proactively_send(&mut self, obj: bool) {
set_property!(self, ProactivelySend, obj);
}
#[getter]
fn get_redacted(&self) -> PyResult<bool> {
let bool = get_property!(self, Redacted)?;
Ok(*bool)
}
#[setter]
fn set_redacted(&mut self, obj: bool) {
set_property!(self, Redacted, obj);
}
/// The transaction ID, if it was set when the event was created.
#[getter]
fn get_txn_id(&self) -> PyResult<&str> {
let s = get_property!(self, TxnId)?;
Ok(s)
}
#[setter]
fn set_txn_id(&mut self, obj: String) {
set_property!(self, TxnId, obj.into_boxed_str());
}
/// The access token ID of the user who sent this event, if any.
#[getter]
fn get_token_id(&self) -> PyResult<i64> {
let r = get_property!(self, TokenId)?;
Ok(*r)
}
#[setter]
fn set_token_id(&mut self, obj: i64) {
set_property!(self, TokenId, obj);
}
/// The device ID of the user who sent this event, if any.
#[getter]
fn get_device_id(&self) -> PyResult<&str> {
let s = get_property!(self, DeviceId)?;
Ok(s)
}
#[setter]
fn set_device_id(&mut self, obj: String) {
set_property!(self, DeviceId, obj.into_boxed_str());
}
}
|