/* * This file is licensed under the Affero General Public License (AGPL) version 3. * * Copyright (C) 2023 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: * . * * Originally licensed under the Apache License, Version 2.0: * . * * [This file includes modifications made by New Vector Limited] * */ //! An implementation of Matrix push rules. //! //! The `Cow<_>` type is used extensively within this module to allow creating //! the base rules as constants (in Rust constants can't require explicit //! allocation atm). //! //! --- //! //! Push rules is the system used to determine which events trigger a push (and a //! bump in notification counts). //! //! This consists of a list of "push rules" for each user, where a push rule is a //! pair of "conditions" and "actions". When a user receives an event Synapse //! iterates over the list of push rules until it finds one where all the conditions //! match the event, at which point "actions" describe the outcome (e.g. notify, //! highlight, etc). //! //! Push rules are split up into 5 different "kinds" (aka "priority classes"), which //! are run in order: //! 1. Override — highest priority rules, e.g. always ignore notices //! 2. Content — content specific rules, e.g. @ notifications //! 3. Room — per room rules, e.g. enable/disable notifications for all messages //! in a room //! 4. Sender — per sender rules, e.g. never notify for messages from a given //! user //! 5. Underride — the lowest priority "default" rules, e.g. notify for every //! message. //! //! The set of "base rules" are the list of rules that every user has by default. A //! user can modify their copy of the push rules in one of three ways: //! 1. Adding a new push rule of a certain kind //! 2. Changing the actions of a base rule //! 3. Enabling/disabling a base rule. //! //! The base rules are split into whether they come before or after a particular //! kind, so the order of push rule evaluation would be: base rules for before //! "override" kind, user defined "override" rules, base rules after "override" //! kind, etc, etc. use std::borrow::Cow; use std::collections::{BTreeMap, HashMap, HashSet}; use anyhow::{Context, Error}; use log::warn; use pyo3::exceptions::PyTypeError; use pyo3::prelude::*; use pyo3::types::{PyBool, PyList, PyLong, PyString}; use pythonize::{depythonize, pythonize}; use serde::de::Error as _; use serde::{Deserialize, Serialize}; use serde_json::Value; use self::evaluator::PushRuleEvaluator; mod base_rules; pub mod evaluator; pub mod utils; /// Called when registering modules with python. pub fn register_module(py: Python<'_>, m: &PyModule) -> PyResult<()> { let child_module = PyModule::new(py, "push")?; child_module.add_class::()?; child_module.add_class::()?; child_module.add_class::()?; child_module.add_class::()?; child_module.add_function(wrap_pyfunction!(get_base_rule_ids, m)?)?; m.add_submodule(child_module)?; // We need to manually add the module to sys.modules to make `from // synapse.synapse_rust import push` work. py.import("sys")? .getattr("modules")? .set_item("synapse.synapse_rust.push", child_module)?; Ok(()) } #[pyfunction] fn get_base_rule_ids() -> HashSet<&'static str> { base_rules::BASE_RULES_BY_ID.keys().copied().collect() } /// A single push rule for a user. #[derive(Debug, Clone)] #[pyclass(frozen)] pub struct PushRule { /// A unique ID for this rule pub rule_id: Cow<'static, str>, /// The "kind" of push rule this is (see `PRIORITY_CLASS_MAP` in Python) #[pyo3(get)] pub priority_class: i32, /// The conditions that must all match for actions to be applied pub conditions: Cow<'static, [Condition]>, /// The actions to apply if all conditions are met pub actions: Cow<'static, [Action]>, /// Whether this is a base rule #[pyo3(get)] pub default: bool, /// Whether this is enabled by default #[pyo3(get)] pub default_enabled: bool, } #[pymethods] impl PushRule { #[staticmethod] pub fn from_db( rule_id: String, priority_class: i32, conditions: &str, actions: &str, ) -> Result { let conditions = serde_json::from_str(conditions).context("parsing conditions")?; let actions = serde_json::from_str(actions).context("parsing actions")?; Ok(PushRule { rule_id: Cow::Owned(rule_id), priority_class, conditions, actions, default: false, default_enabled: true, }) } #[getter] fn rule_id(&self) -> &str { &self.rule_id } #[getter] fn actions(&self) -> Vec { self.actions.clone().into_owned() } #[getter] fn conditions(&self) -> Vec { self.conditions.clone().into_owned() } fn __repr__(&self) -> String { format!( "", self.rule_id, self.conditions, self.actions ) } } /// The "action" Synapse should perform for a matching push rule. #[derive(Debug, Clone, PartialEq, Eq)] pub enum Action { Notify, SetTweak(SetTweak), // Legacy actions that should be understood, but are equivalent to no-ops. DontNotify, Coalesce, // An unrecognized custom action. Unknown(Value), } impl IntoPy for Action { fn into_py(self, py: Python<'_>) -> PyObject { // When we pass the `Action` struct to Python we want it to be converted // to a dict. We use `pythonize`, which converts the struct using the // `serde` serialization. pythonize(py, &self).expect("valid action") } } /// The body of a `SetTweak` push action. #[derive(Serialize, Deserialize, Debug, Clone, PartialEq, Eq)] pub struct SetTweak { set_tweak: Cow<'static, str>, #[serde(skip_serializing_if = "Option::is_none")] value: Option, // This picks up any other fields that may have been added by clients. // These get added when we convert the `Action` to a python object. #[serde(flatten)] other_keys: Value, } /// The value of a `set_tweak`. /// /// We need this (rather than using `TweakValue` directly) so that we can use /// `&'static str` in the value when defining the constant base rules. #[derive(Serialize, Deserialize, Debug, Clone, PartialEq, Eq)] #[serde(untagged)] pub enum TweakValue { String(Cow<'static, str>), Other(Value), } impl Serialize for Action { fn serialize(&self, serializer: S) -> Result where S: serde::Serializer, { match self { Action::DontNotify => serializer.serialize_str("dont_notify"), Action::Notify => serializer.serialize_str("notify"), Action::Coalesce => serializer.serialize_str("coalesce"), Action::SetTweak(tweak) => tweak.serialize(serializer), Action::Unknown(value) => value.serialize(serializer), } } } /// Simple helper class for deserializing Action from JSON. #[derive(Deserialize)] #[serde(untagged)] enum ActionDeserializeHelper { Str(String), SetTweak(SetTweak), Unknown(Value), } impl<'de> Deserialize<'de> for Action { fn deserialize(deserializer: D) -> Result where D: serde::Deserializer<'de>, { let helper: ActionDeserializeHelper = Deserialize::deserialize(deserializer)?; match helper { ActionDeserializeHelper::Str(s) => match &*s { "dont_notify" => Ok(Action::DontNotify), "notify" => Ok(Action::Notify), "coalesce" => Ok(Action::Coalesce), _ => Err(D::Error::custom("unrecognized action")), }, ActionDeserializeHelper::SetTweak(set_tweak) => Ok(Action::SetTweak(set_tweak)), ActionDeserializeHelper::Unknown(value) => Ok(Action::Unknown(value)), } } } /// A simple JSON values (string, int, boolean, or null). #[derive(Serialize, Deserialize, Debug, Clone, PartialEq, Eq)] #[serde(untagged)] pub enum SimpleJsonValue { Str(Cow<'static, str>), Int(i64), Bool(bool), Null, } impl<'source> FromPyObject<'source> for SimpleJsonValue { fn extract(ob: &'source PyAny) -> PyResult { if let Ok(s) = ::try_from(ob) { Ok(SimpleJsonValue::Str(Cow::Owned(s.to_string()))) // A bool *is* an int, ensure we try bool first. } else if let Ok(b) = ::try_from(ob) { Ok(SimpleJsonValue::Bool(b.extract()?)) } else if let Ok(i) = ::try_from(ob) { Ok(SimpleJsonValue::Int(i.extract()?)) } else if ob.is_none() { Ok(SimpleJsonValue::Null) } else { Err(PyTypeError::new_err(format!( "Can't convert from {} to SimpleJsonValue", ob.get_type().name()? ))) } } } /// A JSON values (list, string, int, boolean, or null). #[derive(Serialize, Deserialize, Debug, Clone, PartialEq, Eq)] #[serde(untagged)] pub enum JsonValue { Array(Vec), Value(SimpleJsonValue), } impl<'source> FromPyObject<'source> for JsonValue { fn extract(ob: &'source PyAny) -> PyResult { if let Ok(l) = ::try_from(ob) { match l.iter().map(SimpleJsonValue::extract).collect() { Ok(a) => Ok(JsonValue::Array(a)), Err(e) => Err(PyTypeError::new_err(format!( "Can't convert to JsonValue::Array: {e}" ))), } } else if let Ok(v) = SimpleJsonValue::extract(ob) { Ok(JsonValue::Value(v)) } else { Err(PyTypeError::new_err(format!( "Can't convert from {} to JsonValue", ob.get_type().name()? ))) } } } /// A condition used in push rules to match against an event. /// /// We need this split as `serde` doesn't give us the ability to have a /// "catchall" variant in tagged enums. #[derive(Serialize, Deserialize, Debug, Clone)] #[serde(untagged)] pub enum Condition { /// A recognized condition that we can match against Known(KnownCondition), /// An unrecognized condition that we ignore. Unknown(Value), } /// The set of "known" conditions that we can handle. #[derive(Serialize, Deserialize, Debug, Clone)] #[serde(rename_all = "snake_case")] #[serde(tag = "kind")] pub enum KnownCondition { EventMatch(EventMatchCondition), // Identical to event_match but gives predefined patterns. Cannot be added by users. #[serde(skip_deserializing, rename = "event_match")] EventMatchType(EventMatchTypeCondition), EventPropertyIs(EventPropertyIsCondition), #[serde(rename = "im.nheko.msc3664.related_event_match")] RelatedEventMatch(RelatedEventMatchCondition), // Identical to related_event_match but gives predefined patterns. Cannot be added by users. #[serde(skip_deserializing, rename = "im.nheko.msc3664.related_event_match")] RelatedEventMatchType(RelatedEventMatchTypeCondition), EventPropertyContains(EventPropertyIsCondition), // Identical to exact_event_property_contains but gives predefined patterns. Cannot be added by users. #[serde(skip_deserializing, rename = "event_property_contains")] ExactEventPropertyContainsType(EventPropertyIsTypeCondition), ContainsDisplayName, RoomMemberCount { #[serde(skip_serializing_if = "Option::is_none")] is: Option>, }, SenderNotificationPermission { key: Cow<'static, str>, }, #[serde(rename = "org.matrix.msc3931.room_version_supports")] RoomVersionSupports { feature: Cow<'static, str>, }, } impl IntoPy for Condition { fn into_py(self, py: Python<'_>) -> PyObject { pythonize(py, &self).expect("valid condition") } } impl<'source> FromPyObject<'source> for Condition { fn extract(ob: &'source PyAny) -> PyResult { Ok(depythonize(ob)?) } } /// The body of a [`Condition::EventMatch`] with a pattern. #[derive(Serialize, Deserialize, Debug, Clone)] pub struct EventMatchCondition { pub key: Cow<'static, str>, pub pattern: Cow<'static, str>, } #[derive(Serialize, Debug, Clone)] #[serde(rename_all = "snake_case")] pub enum EventMatchPatternType { UserId, UserLocalpart, } /// The body of a [`Condition::EventMatch`] that uses user_id or user_localpart as a pattern. #[derive(Serialize, Debug, Clone)] pub struct EventMatchTypeCondition { pub key: Cow<'static, str>, // During serialization, the pattern_type property gets replaced with a // pattern property of the correct value in synapse.push.clientformat.format_push_rules_for_user. pub pattern_type: Cow<'static, EventMatchPatternType>, } /// The body of a [`Condition::EventPropertyIs`] #[derive(Serialize, Deserialize, Debug, Clone)] pub struct EventPropertyIsCondition { pub key: Cow<'static, str>, pub value: Cow<'static, SimpleJsonValue>, } /// The body of a [`Condition::EventPropertyIs`] that uses user_id or user_localpart as a pattern. #[derive(Serialize, Debug, Clone)] pub struct EventPropertyIsTypeCondition { pub key: Cow<'static, str>, // During serialization, the pattern_type property gets replaced with a // pattern property of the correct value in synapse.push.clientformat.format_push_rules_for_user. pub value_type: Cow<'static, EventMatchPatternType>, } /// The body of a [`Condition::RelatedEventMatch`] #[derive(Serialize, Deserialize, Debug, Clone)] pub struct RelatedEventMatchCondition { #[serde(skip_serializing_if = "Option::is_none")] pub key: Option>, #[serde(skip_serializing_if = "Option::is_none")] pub pattern: Option>, pub rel_type: Cow<'static, str>, #[serde(skip_serializing_if = "Option::is_none")] pub include_fallbacks: Option, } /// The body of a [`Condition::RelatedEventMatch`] that uses user_id or user_localpart as a pattern. #[derive(Serialize, Debug, Clone)] pub struct RelatedEventMatchTypeCondition { // This is only used if pattern_type exists (and thus key must exist), so is // a bit simpler than RelatedEventMatchCondition. pub key: Cow<'static, str>, pub pattern_type: Cow<'static, EventMatchPatternType>, pub rel_type: Cow<'static, str>, #[serde(skip_serializing_if = "Option::is_none")] pub include_fallbacks: Option, } /// The collection of push rules for a user. #[derive(Debug, Clone, Default)] #[pyclass(frozen)] pub struct PushRules { /// Custom push rules that override a base rule. overridden_base_rules: HashMap, PushRule>, /// Custom rules that come between the prepend/append override base rules. override_rules: Vec, /// Custom rules that come before the base content rules. content: Vec, /// Custom rules that come before the base room rules. room: Vec, /// Custom rules that come before the base sender rules. sender: Vec, /// Custom rules that come before the base underride rules. underride: Vec, } #[pymethods] impl PushRules { #[new] pub fn new(rules: Vec) -> PushRules { let mut push_rules: PushRules = Default::default(); for rule in rules { if let Some(&o) = base_rules::BASE_RULES_BY_ID.get(&*rule.rule_id) { push_rules.overridden_base_rules.insert( rule.rule_id.clone(), PushRule { actions: rule.actions.clone(), ..o.clone() }, ); continue; } match rule.priority_class { 5 => push_rules.override_rules.push(rule), 4 => push_rules.content.push(rule), 3 => push_rules.room.push(rule), 2 => push_rules.sender.push(rule), 1 => push_rules.underride.push(rule), _ => { warn!( "Unrecognized priority class for rule {}: {}", rule.rule_id, rule.priority_class ); } } } push_rules } /// Returns the list of all rules, including base rules, in the order they /// should be executed in. fn rules(&self) -> Vec { self.iter().cloned().collect() } } impl PushRules { /// Iterates over all the rules, including base rules, in the order they /// should be executed in. pub fn iter(&self) -> impl Iterator { base_rules::BASE_PREPEND_OVERRIDE_RULES .iter() .chain(self.override_rules.iter()) .chain(base_rules::BASE_APPEND_OVERRIDE_RULES.iter()) .chain(self.content.iter()) .chain(base_rules::BASE_APPEND_CONTENT_RULES.iter()) .chain(self.room.iter()) .chain(self.sender.iter()) .chain(self.underride.iter()) .chain(base_rules::BASE_APPEND_UNDERRIDE_RULES.iter()) .map(|rule| { self.overridden_base_rules .get(&*rule.rule_id) .unwrap_or(rule) }) } } /// A wrapper around `PushRules` that checks the enabled state of rules and /// filters out disabled experimental rules. #[derive(Debug, Clone, Default)] #[pyclass(frozen)] pub struct FilteredPushRules { push_rules: PushRules, enabled_map: BTreeMap, msc1767_enabled: bool, msc3381_polls_enabled: bool, msc3664_enabled: bool, msc4028_push_encrypted_events: bool, } #[pymethods] impl FilteredPushRules { #[new] pub fn py_new( push_rules: PushRules, enabled_map: BTreeMap, msc1767_enabled: bool, msc3381_polls_enabled: bool, msc3664_enabled: bool, msc4028_push_encrypted_events: bool, ) -> Self { Self { push_rules, enabled_map, msc1767_enabled, msc3381_polls_enabled, msc3664_enabled, msc4028_push_encrypted_events, } } /// Returns the list of all rules and their enabled state, including base /// rules, in the order they should be executed in. fn rules(&self) -> Vec<(PushRule, bool)> { self.iter().map(|(r, e)| (r.clone(), e)).collect() } } impl FilteredPushRules { /// Iterates over all the rules and their enabled state, including base /// rules, in the order they should be executed in. fn iter(&self) -> impl Iterator { self.push_rules .iter() .filter(|rule| { // Ignore disabled experimental push rules if !self.msc1767_enabled && (rule.rule_id.contains("org.matrix.msc1767") || rule.rule_id.contains("org.matrix.msc3933")) { return false; } if !self.msc3664_enabled && rule.rule_id == "global/override/.im.nheko.msc3664.reply" { return false; } if !self.msc3381_polls_enabled && rule.rule_id.contains("org.matrix.msc3930") { return false; } if !self.msc4028_push_encrypted_events && rule.rule_id == "global/override/.org.matrix.msc4028.encrypted_event" { return false; } true }) .map(|r| { let enabled = *self .enabled_map .get(&*r.rule_id) .unwrap_or(&r.default_enabled); (r, enabled) }) } } #[test] fn test_serialize_condition() { let condition = Condition::Known(KnownCondition::EventMatch(EventMatchCondition { key: "content.body".into(), pattern: "coffee".into(), })); let json = serde_json::to_string(&condition).unwrap(); assert_eq!( json, r#"{"kind":"event_match","key":"content.body","pattern":"coffee"}"# ) } #[test] fn test_deserialize_condition() { let json = r#"{"kind":"event_match","key":"content.body","pattern":"coffee"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::EventMatch(_)) )); } #[test] fn test_serialize_event_match_condition_with_pattern_type() { let condition = Condition::Known(KnownCondition::EventMatchType(EventMatchTypeCondition { key: "content.body".into(), pattern_type: Cow::Owned(EventMatchPatternType::UserId), })); let json = serde_json::to_string(&condition).unwrap(); assert_eq!( json, r#"{"kind":"event_match","key":"content.body","pattern_type":"user_id"}"# ) } #[test] fn test_cannot_deserialize_event_match_condition_with_pattern_type() { let json = r#"{"kind":"event_match","key":"content.body","pattern_type":"user_id"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!(condition, Condition::Unknown(_))); } #[test] fn test_deserialize_unstable_msc3664_condition() { let json = r#"{"kind":"im.nheko.msc3664.related_event_match","key":"content.body","pattern":"coffee","rel_type":"m.in_reply_to"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::RelatedEventMatch(_)) )); } #[test] fn test_serialize_unstable_msc3664_condition_with_pattern_type() { let condition = Condition::Known(KnownCondition::RelatedEventMatchType( RelatedEventMatchTypeCondition { key: "content.body".into(), pattern_type: Cow::Owned(EventMatchPatternType::UserId), rel_type: "m.in_reply_to".into(), include_fallbacks: Some(true), }, )); let json = serde_json::to_string(&condition).unwrap(); assert_eq!( json, r#"{"kind":"im.nheko.msc3664.related_event_match","key":"content.body","pattern_type":"user_id","rel_type":"m.in_reply_to","include_fallbacks":true}"# ) } #[test] fn test_cannot_deserialize_unstable_msc3664_condition_with_pattern_type() { let json = r#"{"kind":"im.nheko.msc3664.related_event_match","key":"content.body","pattern_type":"user_id","rel_type":"m.in_reply_to"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); // Since pattern is optional on RelatedEventMatch it deserializes it to that // instead of RelatedEventMatchType. assert!(matches!( condition, Condition::Known(KnownCondition::RelatedEventMatch(_)) )); } #[test] fn test_deserialize_unstable_msc3931_condition() { let json = r#"{"kind":"org.matrix.msc3931.room_version_supports","feature":"org.example.feature"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::RoomVersionSupports { feature: _ }) )); } #[test] fn test_deserialize_event_property_is_condition() { // A string condition should work. let json = r#"{"kind":"event_property_is","key":"content.value","value":"foo"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::EventPropertyIs(_)) )); // A boolean condition should work. let json = r#"{"kind":"event_property_is","key":"content.value","value":true}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::EventPropertyIs(_)) )); // An integer condition should work. let json = r#"{"kind":"event_property_is","key":"content.value","value":1}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::EventPropertyIs(_)) )); // A null condition should work let json = r#"{"kind":"event_property_is","key":"content.value","value":null}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!( condition, Condition::Known(KnownCondition::EventPropertyIs(_)) )); } #[test] fn test_deserialize_custom_condition() { let json = r#"{"kind":"custom_tag"}"#; let condition: Condition = serde_json::from_str(json).unwrap(); assert!(matches!(condition, Condition::Unknown(_))); let new_json = serde_json::to_string(&condition).unwrap(); assert_eq!(json, new_json); } #[test] fn test_deserialize_action() { let _: Action = serde_json::from_str(r#""notify""#).unwrap(); let _: Action = serde_json::from_str(r#""dont_notify""#).unwrap(); let _: Action = serde_json::from_str(r#""coalesce""#).unwrap(); let _: Action = serde_json::from_str(r#"{"set_tweak": "highlight"}"#).unwrap(); } #[test] fn test_custom_action() { let json = r#"{"some_custom":"action_fields"}"#; let action: Action = serde_json::from_str(json).unwrap(); assert!(matches!(action, Action::Unknown(_))); let new_json = serde_json::to_string(&action).unwrap(); assert_eq!(json, new_json); }