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|
// Copyright (C) 2018 Aprila Bank ASA (contact: vincent@aprila.no)
//
// journaldriver is free software: you can redistribute it and/or
// modify it under the terms of the GNU General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//! This file implements journaldriver, a small application that
//! forwards logs from journald (systemd's log facility) to
//! Stackdriver Logging.
//!
//! Log entries are read continously from journald and are forwarded
//! to Stackdriver in batches.
//!
//! Stackdriver Logging has a concept of monitored resources. In the
//! simplest (and currently only supported) case this monitored
//! resource will be the GCE instance on which journaldriver is
//! running.
//!
//! Information about the instance, the project and required security
//! credentials are retrieved from Google's metadata instance on GCP.
//!
//! Things left to do:
//! * TODO 2018-06-15: Support non-GCP instances (see comment on
//! monitored resource descriptor)
#[macro_use] extern crate failure;
#[macro_use] extern crate hyper;
#[macro_use] extern crate log;
#[macro_use] extern crate serde_derive;
#[macro_use] extern crate serde_json;
#[macro_use] extern crate lazy_static;
extern crate chrono;
extern crate env_logger;
extern crate medallion;
extern crate reqwest;
extern crate serde;
extern crate systemd;
use chrono::offset::LocalResult;
use chrono::prelude::*;
use failure::ResultExt;
use reqwest::{header, Client};
use serde_json::Value;
use std::env;
use std::fs::{self, File};
use std::io::{self, Read, ErrorKind, Write};
use std::mem;
use std::path::PathBuf;
use std::process;
use std::time::{Duration, Instant};
use systemd::journal::*;
#[cfg(test)]
mod tests;
const LOGGING_SERVICE: &str = "https://logging.googleapis.com/google.logging.v2.LoggingServiceV2";
const ENTRIES_WRITE_URL: &str = "https://logging.googleapis.com/v2/entries:write";
const METADATA_TOKEN_URL: &str = "http://metadata.google.internal/computeMetadata/v1/instance/service-accounts/default/token";
const METADATA_ID_URL: &str = "http://metadata.google.internal/computeMetadata/v1/instance/id";
const METADATA_ZONE_URL: &str = "http://metadata.google.internal/computeMetadata/v1/instance/zone";
const METADATA_PROJECT_URL: &str = "http://metadata.google.internal/computeMetadata/v1/project/project-id";
// Google's metadata service requires this header to be present on all
// calls:
//
// https://cloud.google.com/compute/docs/storing-retrieving-metadata#querying
header! { (MetadataFlavor, "Metadata-Flavor") => [String] }
/// Convenience type alias for results using failure's `Error` type.
type Result<T> = std::result::Result<T, failure::Error>;
/// Representation of static service account credentials for GCP.
#[derive(Debug, Deserialize)]
struct Credentials {
/// PEM encoded private key
private_key: String,
/// `kid` of this private key
private_key_id: String,
/// "email" address of the service account
client_email: String,
}
lazy_static! {
/// HTTP client instance preconfigured with the metadata header
/// required by Google.
static ref METADATA_CLIENT: Client = {
let mut headers = header::Headers::new();
headers.set(MetadataFlavor("Google".into()));
Client::builder().default_headers(headers)
.build().expect("Could not create metadata client")
};
/// ID of the GCP project in which this instance is running.
static ref PROJECT_ID: String = get_metadata(METADATA_PROJECT_URL)
.expect("Could not determine project ID");
/// ID of the current GCP instance.
static ref INSTANCE_ID: String = get_metadata(METADATA_ID_URL)
.expect("Could not determine instance ID");
/// GCP zone in which this instance is running.
static ref ZONE: String = get_metadata(METADATA_ZONE_URL)
.expect("Could not determine instance zone");
/// Service account credentials (if configured)
static ref SERVICE_ACCOUNT_CREDENTIALS: Option<Credentials> =
env::var("GOOGLE_APPLICATION_CREDENTIALS").ok()
.and_then(|path| File::open(path).ok())
.and_then(|file| serde_json::from_reader(file).ok());
/// Descriptor of the currently monitored instance.
///
/// For GCE instances, this will be the GCE instance ID. For
/// non-GCE machines a sensible solution may be using the machine
/// hostname as a Cloud Logging log name, but this is not yet
/// implemented.
static ref MONITORED_RESOURCE: Value = json!({
"type": "gce_instance",
"labels": {
"project_id": PROJECT_ID.as_str(),
"instance_id": INSTANCE_ID.as_str(),
"zone": ZONE.as_str(),
}
});
/// Path to the file in which journaldriver should persist its
/// cursor state.
static ref POSITION_FILE: PathBuf = env::var("CURSOR_POSITION_FILE")
.unwrap_or("/var/journaldriver/cursor.pos".into())
.into();
}
/// Convenience helper for retrieving values from the metadata server.
fn get_metadata(url: &str) -> Result<String> {
let mut output = String::new();
METADATA_CLIENT.get(url).send()?
.error_for_status()?
.read_to_string(&mut output)?;
Ok(output.trim().into())
}
/// Represents the response returned by the metadata server's token
/// endpoint. The token is normally valid for an hour.
#[derive(Deserialize)]
struct TokenResponse {
expires_in: u64,
access_token: String,
}
/// Struct used to store a token together with a sensible
/// representation of when it expires.
struct Token {
token: String,
fetched_at: Instant,
expires: Duration,
}
impl Token {
/// Does this token need to be renewed?
fn is_expired(&self) -> bool {
self.fetched_at.elapsed() > self.expires
}
}
/// Retrieves a token from the GCP metadata service. Retrieving these
/// tokens requires no additional authentication.
fn get_metadata_token() -> Result<Token> {
let token: TokenResponse = METADATA_CLIENT
.get(METADATA_TOKEN_URL)
.send()?.json()?;
debug!("Fetched new token from metadata service");
Ok(Token {
fetched_at: Instant::now(),
expires: Duration::from_secs(token.expires_in / 2),
token: token.access_token,
})
}
/// Signs a token using static client credentials configured for a
/// service account. This service account must have been given the
/// `Log Writer` role in Google Cloud IAM.
///
/// The process for creating and signing these tokens is described
/// here:
///
/// https://developers.google.com/identity/protocols/OAuth2ServiceAccount#jwt-auth
fn sign_service_account_token(credentials: &Credentials) -> Result<Token> {
use medallion::{Algorithm, Header, Payload};
let iat = Utc::now();
let exp = iat.checked_add_signed(chrono::Duration::seconds(3600))
.ok_or_else(|| format_err!("Failed to calculate token expiry"))?;
let header = Header {
alg: Algorithm::RS256,
headers: Some(json!({
"kid": credentials.private_key_id,
})),
};
let payload: Payload<()> = Payload {
iss: Some(credentials.client_email.clone()),
sub: Some(credentials.client_email.clone()),
aud: Some(LOGGING_SERVICE.to_string()),
iat: Some(iat.timestamp() as u64),
exp: Some(exp.timestamp() as u64),
..Default::default()
};
let token = medallion::Token::new(header, payload)
.sign(credentials.private_key.as_bytes())
.context("Signing service account token failed")?;
debug!("Signed new service account token");
Ok(Token {
token,
fetched_at: Instant::now(),
expires: Duration::from_secs(3000),
})
}
/// Retrieve the authentication token either by using static client
/// credentials, or by talking to the metadata server.
///
/// Which behaviour is used is controlled by the environment variable
/// `GOOGLE_APPLICATION_CREDENTIALS`, which should be configured to
/// point at a JSON private key file if service account authentication
/// is to be used.
fn get_token() -> Result<Token> {
if let Some(credentials) = SERVICE_ACCOUNT_CREDENTIALS.as_ref() {
sign_service_account_token(credentials)
} else {
get_metadata_token()
}
}
/// This structure represents the different types of payloads
/// supported by journaldriver.
///
/// Currently log entries can either contain plain text messages or
/// structured payloads in JSON-format.
#[derive(Debug, Serialize, PartialEq)]
#[serde(untagged)]
enum Payload {
TextPayload {
#[serde(rename = "textPayload")]
text_payload: String,
},
JsonPayload {
#[serde(rename = "jsonPayload")]
json_payload: Value,
},
}
/// Attempt to parse a log message as JSON and return it as a
/// structured payload. If parsing fails, return the entry in plain
/// text format.
fn message_to_payload(message: Option<String>) -> Payload {
match message {
None => Payload::TextPayload { text_payload: "empty log entry".into() },
Some(text_payload) => {
// Attempt to deserialize the text payload as a generic
// JSON value.
if let Ok(json_payload) = serde_json::from_str::<Value>(&text_payload) {
// If JSON-parsing succeeded on the payload, check
// whether we parsed an object (Stackdriver does not
// expect other types of JSON payload) and return it
// in that case.
if json_payload.is_object() {
return Payload::JsonPayload { json_payload }
}
}
Payload::TextPayload { text_payload }
}
}
}
/// Attempt to parse journald's microsecond timestamps into a UTC
/// timestamp.
///
/// Parse errors are dismissed and returned as empty options: There
/// simply aren't any useful fallback mechanisms other than defaulting
/// to ingestion time for journaldriver's use-case.
fn parse_microseconds(input: String) -> Option<DateTime<Utc>> {
if input.len() != 16 {
return None;
}
let seconds: i64 = (&input[..10]).parse().ok()?;
let micros: u32 = (&input[10..]).parse().ok()?;
match Utc.timestamp_opt(seconds, micros * 1000) {
LocalResult::Single(time) => Some(time),
_ => None,
}
}
/// This structure represents a log entry in the format expected by
/// the Stackdriver API.
#[derive(Debug, Serialize)]
#[serde(rename_all = "camelCase")]
struct LogEntry {
labels: Value,
#[serde(skip_serializing_if = "Option::is_none")]
timestamp: Option<DateTime<Utc>>,
#[serde(flatten)]
payload: Payload,
}
impl From<JournalRecord> for LogEntry {
// Converts from the fields contained in a journald record to the
// representation required by Stackdriver Logging.
//
// The fields are documented in systemd.journal-fields(7).
fn from(mut record: JournalRecord) -> LogEntry {
// The message field is technically just a convention, but
// journald seems to default to it when ingesting unit
// output.
let payload = message_to_payload(record.remove("MESSAGE"));
// Presumably this is always set, but who can be sure
// about anything in this world.
let hostname = record.remove("_HOSTNAME");
// The unit is seemingly missing on kernel entries, but
// present on all others.
let unit = record.remove("_SYSTEMD_UNIT");
// The source timestamp (if present) is specified in
// microseconds since epoch.
//
// If it is not present or can not be parsed, journaldriver
// will not send a timestamp for the log entry and it will
// default to the ingestion time.
let timestamp = record
.remove("_SOURCE_REALTIME_TIMESTAMP")
.and_then(parse_microseconds);
LogEntry {
payload,
timestamp,
labels: json!({
"host": hostname,
"unit": unit.unwrap_or_else(|| "syslog".into()),
}),
}
}
}
/// Attempt to read from the journal. If no new entry is present,
/// await the next one up to the specified timeout.
fn receive_next_record(timeout: Duration, journal: &mut Journal)
-> Result<Option<JournalRecord>> {
let next_record = journal.next_record()?;
if next_record.is_some() {
return Ok(next_record);
}
Ok(journal.await_next_record(Some(timeout))?)
}
/// This function starts a double-looped, blocking receiver. It will
/// buffer messages for half a second before flushing them to
/// Stackdriver.
fn receiver_loop(mut journal: Journal) -> Result<()> {
let mut token = get_token()?;
let client = reqwest::Client::new();
let mut buf: Vec<LogEntry> = Vec::new();
let iteration = Duration::from_millis(500);
loop {
trace!("Beginning outer iteration");
let now = Instant::now();
loop {
if now.elapsed() > iteration {
break;
}
if let Ok(Some(entry)) = receive_next_record(iteration, &mut journal) {
trace!("Received a new entry");
buf.push(entry.into());
}
}
if !buf.is_empty() {
let to_flush = mem::replace(&mut buf, Vec::new());
flush(&client, &mut token, to_flush, journal.cursor()?)?;
}
trace!("Done outer iteration");
}
}
/// Writes the current cursor into `/var/journaldriver/cursor.pos`.
fn persist_cursor(cursor: String) -> Result<()> {
let mut file = File::create(&*POSITION_FILE)?;
write!(file, "{}", cursor).map_err(Into::into)
}
/// Flushes all drained records to Stackdriver. Any Stackdriver
/// message can at most contain 1000 log entries which means they are
/// chunked up here.
///
/// In some cases large payloads seem to cause errors in Stackdriver -
/// the chunks are therefore made smaller here.
///
/// If flushing is successful the last cursor position will be
/// persisted to disk.
fn flush(client: &Client,
token: &mut Token,
entries: Vec<LogEntry>,
cursor: String) -> Result<()> {
if token.is_expired() {
debug!("Refreshing Google metadata access token");
let new_token = get_token()?;
mem::replace(token, new_token);
}
for chunk in entries.chunks(750) {
let request = prepare_request(chunk);
if let Err(write_error) = write_entries(client, token, request) {
error!("Failed to write {} entries: {}", chunk.len(), write_error)
} else {
debug!("Wrote {} entries to Stackdriver", chunk.len())
}
}
persist_cursor(cursor)
}
/// Convert a slice of log entries into the format expected by
/// Stackdriver. This format is documented here:
///
/// https://cloud.google.com/logging/docs/reference/v2/rest/v2/entries/write
fn prepare_request(entries: &[LogEntry]) -> Value {
json!({
"logName": format!("projects/{}/logs/journaldriver", PROJECT_ID.as_str()),
"resource": &*MONITORED_RESOURCE,
"entries": entries,
"partialSuccess": true
})
}
/// Perform the log entry insertion in Stackdriver Logging.
fn write_entries(client: &Client, token: &Token, request: Value) -> Result<()> {
let mut response = client.post(ENTRIES_WRITE_URL)
.header(header::Authorization(format!("Bearer {}", token.token)))
.json(&request)
.send()?;
if response.status().is_success() {
Ok(())
} else {
let body = response.text().unwrap_or_else(|_| "no response body".into());
bail!("{} ({})", body, response.status())
}
}
/// Attempt to read the initial cursor position from the configured
/// file. If there is no initial cursor position set, read from the
/// tail of the log.
///
/// The only "acceptable" error when reading the cursor position is
/// the cursor position file not existing, other errors are fatal
/// because they indicate a misconfiguration of journaldriver.
fn initial_cursor() -> Result<JournalSeek> {
let read_result: io::Result<String> = (|| {
let mut contents = String::new();
let mut file = File::open(&*POSITION_FILE)?;
file.read_to_string(&mut contents)?;
Ok(contents.trim().into())
})();
match read_result {
Ok(cursor) => Ok(JournalSeek::Cursor { cursor }),
Err(ref err) if err.kind() == ErrorKind::NotFound => {
info!("No previous cursor position, reading from journal tail");
Ok(JournalSeek::Tail)
},
Err(err) => {
(Err(err).context("Could not read cursor position"))?
}
}
}
fn main () {
env_logger::init();
// If the cursor file does not yet exist, the directory structure
// leading up to it should be created:
let cursor_position_dir = POSITION_FILE.parent()
.expect("Invalid cursor position file path");
fs::create_dir_all(cursor_position_dir)
.expect("Could not create directory to store cursor position in");
let mut journal = Journal::open(JournalFiles::All, false, true)
.expect("Failed to open systemd journal");
let seek_position = initial_cursor()
.expect("Failed to determine initial cursor position");
match journal.seek(seek_position) {
Ok(cursor) => info!("Opened journal at cursor '{}'", cursor),
Err(err) => {
error!("Failed to set initial journal position: {}", err);
process::exit(1)
}
}
receiver_loop(journal).expect("log receiver encountered an unexpected error");
}
|