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// Copyright (C) 2021, Cloudflare, Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
//
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
// IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
use crate::events::EventData;
use crate::events::EventImportance;
use crate::events::EventType;
use crate::events::Eventable;
use crate::events::ExData;
/// A helper object specialized for streaming JSON-serialized qlog to a
/// [`Write`] trait.
///
/// The object is responsible for the `Qlog` object that contains the
/// provided `Trace`.
///
/// Serialization is progressively driven by method calls; once log streaming
/// is started, `event::Events` can be written using `add_event()`.
///
use super::*;
#[derive(PartialEq, Eq, Debug)]
pub enum StreamerState {
Initial,
Ready,
Finished,
}
pub struct QlogStreamer {
start_time: std::time::Instant,
writer: Box<dyn std::io::Write + Send + Sync>,
qlog: QlogSeq,
state: StreamerState,
log_level: EventImportance,
}
impl QlogStreamer {
/// Creates a [QlogStreamer] object.
///
/// It owns a [QlogSeq] object that contains the provided [TraceSeq]
/// containing [Event]s.
///
/// All serialization will be written to the provided [`Write`] using the
/// JSON-SEQ format.
///
#[allow(clippy::too_many_arguments)]
pub fn new(
qlog_version: String, title: Option<String>, description: Option<String>,
summary: Option<String>, start_time: std::time::Instant, trace: TraceSeq,
log_level: EventImportance,
writer: Box<dyn std::io::Write + Send + Sync>,
) -> Self {
let qlog = QlogSeq {
qlog_version,
qlog_format: "JSON-SEQ".to_string(),
title,
description,
summary,
trace,
};
QlogStreamer {
start_time,
writer,
qlog,
state: StreamerState::Initial,
log_level,
}
}
/// Starts qlog streaming serialization.
///
/// This writes out the JSON-SEQ-serialized form of all initial qlog
/// information. [Event]s are separately appended using [add_event()],
/// [add_event_with_instant()], [add_event_now()],
/// [add_event_data_with_instant()], or [add_event_data_now()].
///
/// [add_event()]: #method.add_event
/// [add_event_with_instant()]: #method.add_event_with_instant
/// [add_event_now()]: #method.add_event_now
/// [add_event_data_with_instant()]: #method.add_event_data_with_instant
/// [add_event_data_now()]: #method.add_event_data_now
pub fn start_log(&mut self) -> Result<()> {
if self.state != StreamerState::Initial {
return Err(Error::Done);
}
self.writer.as_mut().write_all(b"")?;
serde_json::to_writer(self.writer.as_mut(), &self.qlog)
.map_err(|_| Error::Done)?;
self.writer.as_mut().write_all(b"\n")?;
self.state = StreamerState::Ready;
Ok(())
}
/// Finishes qlog streaming serialization.
///
/// After this is called, no more serialization will occur.
pub fn finish_log(&mut self) -> Result<()> {
if self.state == StreamerState::Initial ||
self.state == StreamerState::Finished
{
return Err(Error::InvalidState);
}
self.state = StreamerState::Finished;
self.writer.as_mut().flush()?;
Ok(())
}
/// Writes a serializable to a JSON-SEQ record using
/// [std::time::Instant::now()].
pub fn add_event_now<E: Serialize + Eventable>(
&mut self, event: E,
) -> Result<()> {
let now = std::time::Instant::now();
self.add_event_with_instant(event, now)
}
/// Writes a serializable to a JSON-SEQ record using the provided
/// [std::time::Instant].
pub fn add_event_with_instant<E: Serialize + Eventable>(
&mut self, mut event: E, now: std::time::Instant,
) -> Result<()> {
if self.state != StreamerState::Ready {
return Err(Error::InvalidState);
}
if !event.importance().is_contained_in(&self.log_level) {
return Err(Error::Done);
}
let dur = if cfg!(test) {
std::time::Duration::from_secs(0)
} else {
now.duration_since(self.start_time)
};
let rel_time = dur.as_secs_f32() * 1000.0;
event.set_time(rel_time);
self.add_event(event)
}
/// Writes an [Event] based on the provided [EventData] to a JSON-SEQ record
/// at time [std::time::Instant::now()].
pub fn add_event_data_now(&mut self, event_data: EventData) -> Result<()> {
self.add_event_data_ex_now(event_data, Default::default())
}
/// Writes an [Event] based on the provided [EventData] and [ExData] to a
/// JSON-SEQ record at time [std::time::Instant::now()].
pub fn add_event_data_ex_now(
&mut self, event_data: EventData, ex_data: ExData,
) -> Result<()> {
let now = std::time::Instant::now();
self.add_event_data_ex_with_instant(event_data, ex_data, now)
}
/// Writes an [Event] based on the provided [EventData] and
/// [std::time::Instant] to a JSON-SEQ record.
pub fn add_event_data_with_instant(
&mut self, event_data: EventData, now: std::time::Instant,
) -> Result<()> {
self.add_event_data_ex_with_instant(event_data, Default::default(), now)
}
/// Writes an [Event] based on the provided [EventData], [ExData], and
/// [std::time::Instant] to a JSON-SEQ record.
pub fn add_event_data_ex_with_instant(
&mut self, event_data: EventData, ex_data: ExData,
now: std::time::Instant,
) -> Result<()> {
if self.state != StreamerState::Ready {
return Err(Error::InvalidState);
}
let ty = EventType::from(&event_data);
if !EventImportance::from(ty).is_contained_in(&self.log_level) {
return Err(Error::Done);
}
let dur = if cfg!(test) {
std::time::Duration::from_secs(0)
} else {
now.duration_since(self.start_time)
};
let rel_time = dur.as_secs_f32() * 1000.0;
let event = Event::with_time_ex(rel_time, event_data, ex_data);
self.add_event(event)
}
/// Writes a JSON-SEQ-serialized [Event] using the provided [Event].
pub fn add_event<E: Serialize + Eventable>(
&mut self, event: E,
) -> Result<()> {
if self.state != StreamerState::Ready {
return Err(Error::InvalidState);
}
if !event.importance().is_contained_in(&self.log_level) {
return Err(Error::Done);
}
self.writer.as_mut().write_all(b"")?;
serde_json::to_writer(self.writer.as_mut(), &event)
.map_err(|_| Error::Done)?;
self.writer.as_mut().write_all(b"\n")?;
Ok(())
}
/// Returns the writer.
#[allow(clippy::borrowed_box)]
pub fn writer(&self) -> &Box<dyn std::io::Write + Send + Sync> {
&self.writer
}
pub fn start_time(&self) -> std::time::Instant {
self.start_time
}
}
impl Drop for QlogStreamer {
fn drop(&mut self) {
let _ = self.finish_log();
}
}
#[cfg(test)]
mod tests {
use std::collections::BTreeMap;
use super::*;
use crate::events::quic;
use crate::events::quic::QuicFrame;
use crate::events::RawInfo;
use smallvec::smallvec;
use testing::*;
use serde_json::json;
#[test]
fn serialization_states() {
let v: Vec<u8> = Vec::new();
let buff = std::io::Cursor::new(v);
let writer = Box::new(buff);
let trace = make_trace_seq();
let pkt_hdr = make_pkt_hdr(quic::PacketType::Handshake);
let raw = Some(RawInfo {
length: Some(1251),
payload_length: Some(1224),
data: None,
});
let frame1 = QuicFrame::Stream {
stream_id: 40,
offset: 40,
length: 400,
fin: Some(true),
raw: None,
};
let event_data1 = EventData::PacketSent(quic::PacketSent {
header: pkt_hdr.clone(),
frames: Some(smallvec![frame1]),
is_coalesced: None,
retry_token: None,
stateless_reset_token: None,
supported_versions: None,
raw: raw.clone(),
datagram_id: None,
send_at_time: None,
trigger: None,
});
let ev1 = Event::with_time(0.0, event_data1);
let frame2 = QuicFrame::Stream {
stream_id: 0,
offset: 0,
length: 100,
fin: Some(true),
raw: None,
};
let frame3 = QuicFrame::Stream {
stream_id: 0,
offset: 0,
length: 100,
fin: Some(true),
raw: None,
};
let event_data2 = EventData::PacketSent(quic::PacketSent {
header: pkt_hdr.clone(),
frames: Some(smallvec![frame2]),
is_coalesced: None,
retry_token: None,
stateless_reset_token: None,
supported_versions: None,
raw: raw.clone(),
datagram_id: None,
send_at_time: None,
trigger: None,
});
let ev2 = Event::with_time(0.0, event_data2);
let event_data3 = EventData::PacketSent(quic::PacketSent {
header: pkt_hdr,
frames: Some(smallvec![frame3]),
is_coalesced: None,
retry_token: None,
stateless_reset_token: Some("reset_token".to_string()),
supported_versions: None,
raw,
datagram_id: None,
send_at_time: None,
trigger: None,
});
let ev3 = Event::with_time(0.0, event_data3);
let mut s = streamer::QlogStreamer::new(
"version".to_string(),
Some("title".to_string()),
Some("description".to_string()),
None,
std::time::Instant::now(),
trace,
EventImportance::Base,
writer,
);
// Before the log is started all other operations should fail.
assert!(matches!(s.add_event(ev2.clone()), Err(Error::InvalidState)));
assert!(matches!(s.finish_log(), Err(Error::InvalidState)));
// Start log and add a simple event.
assert!(matches!(s.start_log(), Ok(())));
assert!(matches!(s.add_event(ev1), Ok(())));
// Add some more events.
assert!(matches!(s.add_event(ev2), Ok(())));
assert!(matches!(s.add_event(ev3.clone()), Ok(())));
// Adding an event with an external time should work too.
// For tests, it will resolve to 0 but we care about proving the API
// here, not timing specifics.
let now = std::time::Instant::now();
assert!(matches!(s.add_event_with_instant(ev3, now), Ok(())));
assert!(matches!(s.finish_log(), Ok(())));
let r = s.writer();
#[allow(clippy::borrowed_box)]
let w: &Box<std::io::Cursor<Vec<u8>>> = unsafe { std::mem::transmute(r) };
let log_string = r#"{"qlog_version":"version","qlog_format":"JSON-SEQ","title":"title","description":"description","trace":{"vantage_point":{"type":"server"},"title":"Quiche qlog trace","description":"Quiche qlog trace description","configuration":{"time_offset":0.0}}}
{"time":0.0,"name":"transport:packet_sent","data":{"header":{"packet_type":"handshake","packet_number":0,"version":"1","scil":8,"dcil":8,"scid":"7e37e4dcc6682da8","dcid":"36ce104eee50101c"},"raw":{"length":1251,"payload_length":1224},"frames":[{"frame_type":"stream","stream_id":40,"offset":40,"length":400,"fin":true}]}}
{"time":0.0,"name":"transport:packet_sent","data":{"header":{"packet_type":"handshake","packet_number":0,"version":"1","scil":8,"dcil":8,"scid":"7e37e4dcc6682da8","dcid":"36ce104eee50101c"},"raw":{"length":1251,"payload_length":1224},"frames":[{"frame_type":"stream","stream_id":0,"offset":0,"length":100,"fin":true}]}}
{"time":0.0,"name":"transport:packet_sent","data":{"header":{"packet_type":"handshake","packet_number":0,"version":"1","scil":8,"dcil":8,"scid":"7e37e4dcc6682da8","dcid":"36ce104eee50101c"},"stateless_reset_token":"reset_token","raw":{"length":1251,"payload_length":1224},"frames":[{"frame_type":"stream","stream_id":0,"offset":0,"length":100,"fin":true}]}}
{"time":0.0,"name":"transport:packet_sent","data":{"header":{"packet_type":"handshake","packet_number":0,"version":"1","scil":8,"dcil":8,"scid":"7e37e4dcc6682da8","dcid":"36ce104eee50101c"},"stateless_reset_token":"reset_token","raw":{"length":1251,"payload_length":1224},"frames":[{"frame_type":"stream","stream_id":0,"offset":0,"length":100,"fin":true}]}}
"#;
let written_string = std::str::from_utf8(w.as_ref().get_ref()).unwrap();
assert_eq!(log_string, written_string);
}
#[test]
fn stream_json_event() {
let data = json!({"foo": "Bar", "hello": 123});
let ev = events::JsonEvent {
time: 0.0,
importance: events::EventImportance::Core,
name: "jsonevent:sample".into(),
data,
};
let v: Vec<u8> = Vec::new();
let buff = std::io::Cursor::new(v);
let writer = Box::new(buff);
let trace = make_trace_seq();
let mut s = streamer::QlogStreamer::new(
"version".to_string(),
Some("title".to_string()),
Some("description".to_string()),
None,
std::time::Instant::now(),
trace,
EventImportance::Base,
writer,
);
assert!(matches!(s.start_log(), Ok(())));
assert!(matches!(s.add_event(ev), Ok(())));
assert!(matches!(s.finish_log(), Ok(())));
let r = s.writer();
#[allow(clippy::borrowed_box)]
let w: &Box<std::io::Cursor<Vec<u8>>> = unsafe { std::mem::transmute(r) };
let log_string = r#"{"qlog_version":"version","qlog_format":"JSON-SEQ","title":"title","description":"description","trace":{"vantage_point":{"type":"server"},"title":"Quiche qlog trace","description":"Quiche qlog trace description","configuration":{"time_offset":0.0}}}
{"time":0.0,"name":"jsonevent:sample","data":{"foo":"Bar","hello":123}}
"#;
let written_string = std::str::from_utf8(w.as_ref().get_ref()).unwrap();
assert_eq!(log_string, written_string);
}
#[test]
fn stream_data_ex() {
let v: Vec<u8> = Vec::new();
let buff = std::io::Cursor::new(v);
let writer = Box::new(buff);
let trace = make_trace_seq();
let pkt_hdr = make_pkt_hdr(quic::PacketType::Handshake);
let raw = Some(RawInfo {
length: Some(1251),
payload_length: Some(1224),
data: None,
});
let frame1 = QuicFrame::Stream {
stream_id: 40,
offset: 40,
length: 400,
fin: Some(true),
raw: None,
};
let event_data1 = EventData::PacketSent(quic::PacketSent {
header: pkt_hdr.clone(),
frames: Some(smallvec![frame1]),
is_coalesced: None,
retry_token: None,
stateless_reset_token: None,
supported_versions: None,
raw: raw.clone(),
datagram_id: None,
send_at_time: None,
trigger: None,
});
let j1 = json!({"foo": "Bar", "hello": 123});
let j2 = json!({"baz": [1,2,3,4]});
let mut ex_data = BTreeMap::new();
ex_data.insert("first".to_string(), j1);
ex_data.insert("second".to_string(), j2);
let ev1 = Event::with_time_ex(0.0, event_data1, ex_data);
let frame2 = QuicFrame::Stream {
stream_id: 1,
offset: 0,
length: 100,
fin: Some(true),
raw: None,
};
let event_data2 = EventData::PacketSent(quic::PacketSent {
header: pkt_hdr.clone(),
frames: Some(smallvec![frame2]),
is_coalesced: None,
retry_token: None,
stateless_reset_token: None,
supported_versions: None,
raw: raw.clone(),
datagram_id: None,
send_at_time: None,
trigger: None,
});
let ev2 = Event::with_time(0.0, event_data2);
let mut s = streamer::QlogStreamer::new(
"version".to_string(),
Some("title".to_string()),
Some("description".to_string()),
None,
std::time::Instant::now(),
trace,
EventImportance::Base,
writer,
);
assert!(matches!(s.start_log(), Ok(())));
assert!(matches!(s.add_event(ev1), Ok(())));
assert!(matches!(s.add_event(ev2), Ok(())));
assert!(matches!(s.finish_log(), Ok(())));
let r = s.writer();
#[allow(clippy::borrowed_box)]
let w: &Box<std::io::Cursor<Vec<u8>>> = unsafe { std::mem::transmute(r) };
let log_string = r#"{"qlog_version":"version","qlog_format":"JSON-SEQ","title":"title","description":"description","trace":{"vantage_point":{"type":"server"},"title":"Quiche qlog trace","description":"Quiche qlog trace description","configuration":{"time_offset":0.0}}}
{"time":0.0,"name":"transport:packet_sent","data":{"header":{"packet_type":"handshake","packet_number":0,"version":"1","scil":8,"dcil":8,"scid":"7e37e4dcc6682da8","dcid":"36ce104eee50101c"},"raw":{"length":1251,"payload_length":1224},"frames":[{"frame_type":"stream","stream_id":40,"offset":40,"length":400,"fin":true}]},"first":{"foo":"Bar","hello":123},"second":{"baz":[1,2,3,4]}}
{"time":0.0,"name":"transport:packet_sent","data":{"header":{"packet_type":"handshake","packet_number":0,"version":"1","scil":8,"dcil":8,"scid":"7e37e4dcc6682da8","dcid":"36ce104eee50101c"},"raw":{"length":1251,"payload_length":1224},"frames":[{"frame_type":"stream","stream_id":1,"offset":0,"length":100,"fin":true}]}}
"#;
let written_string = std::str::from_utf8(w.as_ref().get_ref()).unwrap();
assert_eq!(log_string, written_string);
}
}