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use error::Error; use uuid::Uuid; use graph_description::Process; use serde_json::Value; use std::convert::TryFrom; use node::NodeT; #[derive(Debug, Clone)] pub enum ProcessState { Created, Terminated, Existing } impl From<ProcessState> for u32 { fn from(p: ProcessState) -> u32 { match p { ProcessState::Created => 1, ProcessState::Terminated => 2, ProcessState::Existing => 3, } } } impl TryFrom<u32> for ProcessState { type Error = Error; fn try_from(p: u32) -> Result<ProcessState, Error> { match p { 1 => Ok(ProcessState::Created), 2 => Ok(ProcessState::Terminated), 3 => Ok(ProcessState::Existing), _ => Err(Error::InvalidProcessState(p)) } } } impl Process { pub fn new(asset_id: impl Into<Option<String>>, hostname: impl Into<Option<String>>, state: ProcessState, process_id: u64, timestamp: u64, process_name: String, operating_system: String, process_command_line: String, process_guid: String, ) -> Process { let asset_id = asset_id.into(); let hostname = hostname.into(); if asset_id.is_none() && hostname.is_none() { panic!("AssetID or Hostname must be provided for ProcessOutboundConnection"); } let mut pd = Self { node_key: Uuid::new_v4().to_string(), asset_id: asset_id.into(), hostname: hostname.into(), state: state.clone().into(), process_id, process_name, created_timestamp: 0, terminated_timestamp: 0, last_seen_timestamp: 0, operating_system, process_command_line, process_guid, }; match state { ProcessState::Created => pd.created_timestamp = timestamp, ProcessState::Existing => pd.last_seen_timestamp = timestamp, ProcessState::Terminated => pd.terminated_timestamp = timestamp, } pd } pub fn into_json(self) -> Value { let asset_id = self.asset_id.as_ref().unwrap(); let mut j = json!({ "node_key": self.node_key, "process_id": self.process_id, "dgraph.type": "Process" }); if !self.process_name.is_empty() { j["process_name"] = Value::from(self.process_name); } if !self.operating_system.is_empty() { j["operating_system"] = Value::from(self.operating_system); } if !self.process_command_line.is_empty() { j["process_command_line"] = Value::from(self.process_command_line); } if !self.process_guid.is_empty() { j["process_guid"] = Value::from(self.process_guid); } if self.created_timestamp!= 0 { j["created_timestamp"] = self.created_timestamp.into() } if self.terminated_timestamp != 0 { j["terminated_timestamp"] = self.terminated_timestamp.into() } if self.last_seen_timestamp != 0 { j["last_seen_timestamp"] = self.last_seen_timestamp.into() } j } } impl NodeT for Process { fn get_asset_id(&self) -> Option<&str> { self.asset_id.as_ref().map(String::as_str) } fn set_asset_id(&mut self, asset_id: impl Into<String>) { self.asset_id = Some(asset_id.into()) } fn get_node_key(&self) -> &str { self.node_key.as_str() } fn set_node_key(&mut self, node_key: impl Into<String>) { self.node_key = node_key.into(); } fn merge(&mut self, other: &Self) -> bool { if self.node_key != other.node_key { warn!("Attempted to merge two Process Nodes with differing node_keys"); return false } let mut merged = false; if self.process_name.is_empty() && !other.process_name.is_empty() { self.process_name = other.process_name.clone(); merged = true; } if self.operating_system.is_empty() && !other.operating_system.is_empty() { self.operating_system = other.operating_system.clone(); merged = true; } if self.process_command_line.is_empty() && !other.process_command_line.is_empty() { self.process_command_line = other.process_command_line.clone(); merged = true; } if self.process_guid.is_empty() && !other.process_guid.is_empty() { self.process_guid = other.process_guid.clone(); merged = true; } if self.created_timestamp == 0 || other.created_timestamp < self.created_timestamp { self.created_timestamp = other.created_timestamp; merged = true; } if self.terminated_timestamp == 0 || other.terminated_timestamp > self.terminated_timestamp { self.terminated_timestamp = other.terminated_timestamp; merged = true; } if self.last_seen_timestamp == 0 || other.last_seen_timestamp > self.last_seen_timestamp { self.last_seen_timestamp = other.last_seen_timestamp; merged = true; } merged } fn merge_into(&mut self, other: Self) -> bool { if self.node_key != other.node_key { warn!("Attempted to merge two IpPort Nodes with differing node_keys"); return false } let mut merged = false; if self.process_name.is_empty() { self.process_name = other.process_name; merged = true; } if self.operating_system.is_empty() { self.operating_system = other.operating_system; merged = true; } if self.process_command_line.is_empty() { self.process_command_line = other.process_command_line; merged = true; } if self.process_guid.is_empty() && !other.process_guid.is_empty() { self.process_guid = other.process_guid; merged = true; } if self.created_timestamp == 0 || other.created_timestamp < self.created_timestamp { self.created_timestamp = other.created_timestamp; merged = true; } if self.terminated_timestamp == 0 || other.terminated_timestamp > self.terminated_timestamp { self.terminated_timestamp = other.terminated_timestamp; merged = true; } if self.last_seen_timestamp == 0 || other.last_seen_timestamp > self.last_seen_timestamp { self.last_seen_timestamp = other.last_seen_timestamp; merged = true; } merged } }