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encoding.rs
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encoding.rs
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use std::io;
use bytes::BytesMut;
use itertools::{Itertools, Position};
use tokio_util::codec::Encoder as _;
use vector_lib::codecs::encoding::Framer;
use vector_lib::request_metadata::GroupedCountByteSize;
use vector_lib::{config::telemetry, EstimatedJsonEncodedSizeOf};
use crate::{codecs::Transformer, event::Event, internal_events::EncoderWriteError};
pub trait Encoder<T> {
/// Encodes the input into the provided writer.
///
/// # Errors
///
/// If an I/O error is encountered while encoding the input, an error variant will be returned.
fn encode_input(
&self,
input: T,
writer: &mut dyn io::Write,
) -> io::Result<(usize, GroupedCountByteSize)>;
}
impl Encoder<Vec<Event>> for (Transformer, crate::codecs::Encoder<Framer>) {
fn encode_input(
&self,
events: Vec<Event>,
writer: &mut dyn io::Write,
) -> io::Result<(usize, GroupedCountByteSize)> {
let mut encoder = self.1.clone();
let mut bytes_written = 0;
let mut n_events_pending = events.len();
let batch_prefix = encoder.batch_prefix();
write_all(writer, n_events_pending, batch_prefix)?;
bytes_written += batch_prefix.len();
let mut byte_size = telemetry().create_request_count_byte_size();
for (position, mut event) in events.into_iter().with_position() {
self.0.transform(&mut event);
// Ensure the json size is calculated after any fields have been removed
// by the transformer.
byte_size.add_event(&event, event.estimated_json_encoded_size_of());
let mut bytes = BytesMut::new();
match position {
Position::Last | Position::Only => {
encoder
.serialize(event, &mut bytes)
.map_err(|error| io::Error::new(io::ErrorKind::InvalidData, error))?;
}
_ => {
encoder
.encode(event, &mut bytes)
.map_err(|error| io::Error::new(io::ErrorKind::InvalidData, error))?;
}
}
write_all(writer, n_events_pending, &bytes)?;
bytes_written += bytes.len();
n_events_pending -= 1;
}
let batch_suffix = encoder.batch_suffix();
assert!(n_events_pending == 0);
write_all(writer, 0, batch_suffix)?;
bytes_written += batch_suffix.len();
Ok((bytes_written, byte_size))
}
}
impl Encoder<Event> for (Transformer, crate::codecs::Encoder<()>) {
fn encode_input(
&self,
mut event: Event,
writer: &mut dyn io::Write,
) -> io::Result<(usize, GroupedCountByteSize)> {
let mut encoder = self.1.clone();
self.0.transform(&mut event);
let mut byte_size = telemetry().create_request_count_byte_size();
byte_size.add_event(&event, event.estimated_json_encoded_size_of());
let mut bytes = BytesMut::new();
encoder
.serialize(event, &mut bytes)
.map_err(|error| io::Error::new(io::ErrorKind::InvalidData, error))?;
write_all(writer, 1, &bytes)?;
Ok((bytes.len(), byte_size))
}
}
/// Write the buffer to the writer. If the operation fails, emit an internal event which complies with the
/// instrumentation spec- as this necessitates both an Error and EventsDropped event.
///
/// # Arguments
///
/// * `writer` - The object implementing io::Write to write data to.
/// * `n_events_pending` - The number of events that are dropped if this write fails.
/// * `buf` - The buffer to write.
pub fn write_all(
writer: &mut dyn io::Write,
n_events_pending: usize,
buf: &[u8],
) -> io::Result<()> {
writer.write_all(buf).inspect_err(|error| {
emit!(EncoderWriteError {
error,
count: n_events_pending,
});
})
}
pub fn as_tracked_write<F, I, E>(inner: &mut dyn io::Write, input: I, f: F) -> io::Result<usize>
where
F: FnOnce(&mut dyn io::Write, I) -> Result<(), E>,
E: Into<io::Error> + 'static,
{
struct Tracked<'inner> {
count: usize,
inner: &'inner mut dyn io::Write,
}
impl<'inner> io::Write for Tracked<'inner> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
#[allow(clippy::disallowed_methods)] // We pass on the result of `write` to the caller.
let n = self.inner.write(buf)?;
self.count += n;
Ok(n)
}
fn flush(&mut self) -> io::Result<()> {
self.inner.flush()
}
}
let mut tracked = Tracked { count: 0, inner };
f(&mut tracked, input).map_err(|e| e.into())?;
Ok(tracked.count)
}
#[cfg(test)]
mod tests {
use std::collections::BTreeMap;
use vector_lib::codecs::{
CharacterDelimitedEncoder, JsonSerializerConfig, NewlineDelimitedEncoder,
TextSerializerConfig,
};
use vector_lib::event::LogEvent;
use vector_lib::{internal_event::CountByteSize, json_size::JsonSize};
use vrl::value::{KeyString, Value};
use super::*;
#[test]
fn test_encode_batch_json_empty() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<Framer>::new(
CharacterDelimitedEncoder::new(b',').into(),
JsonSerializerConfig::default().build().into(),
),
);
let mut writer = Vec::new();
let (written, json_size) = encoding.encode_input(vec![], &mut writer).unwrap();
assert_eq!(written, 2);
assert_eq!(String::from_utf8(writer).unwrap(), "[]");
assert_eq!(
CountByteSize(0, JsonSize::zero()),
json_size.size().unwrap()
);
}
#[test]
fn test_encode_batch_json_single() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<Framer>::new(
CharacterDelimitedEncoder::new(b',').into(),
JsonSerializerConfig::default().build().into(),
),
);
let mut writer = Vec::new();
let input = vec![Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value"),
)])))];
let input_json_size = input
.iter()
.map(|event| event.estimated_json_encoded_size_of())
.sum::<JsonSize>();
let (written, json_size) = encoding.encode_input(input, &mut writer).unwrap();
assert_eq!(written, 17);
assert_eq!(String::from_utf8(writer).unwrap(), r#"[{"key":"value"}]"#);
assert_eq!(CountByteSize(1, input_json_size), json_size.size().unwrap());
}
#[test]
fn test_encode_batch_json_multiple() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<Framer>::new(
CharacterDelimitedEncoder::new(b',').into(),
JsonSerializerConfig::default().build().into(),
),
);
let input = vec![
Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value1"),
)]))),
Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value2"),
)]))),
Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value3"),
)]))),
];
let input_json_size = input
.iter()
.map(|event| event.estimated_json_encoded_size_of())
.sum::<JsonSize>();
let mut writer = Vec::new();
let (written, json_size) = encoding.encode_input(input, &mut writer).unwrap();
assert_eq!(written, 52);
assert_eq!(
String::from_utf8(writer).unwrap(),
r#"[{"key":"value1"},{"key":"value2"},{"key":"value3"}]"#
);
assert_eq!(CountByteSize(3, input_json_size), json_size.size().unwrap());
}
#[test]
fn test_encode_batch_ndjson_empty() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<Framer>::new(
NewlineDelimitedEncoder::default().into(),
JsonSerializerConfig::default().build().into(),
),
);
let mut writer = Vec::new();
let (written, json_size) = encoding.encode_input(vec![], &mut writer).unwrap();
assert_eq!(written, 0);
assert_eq!(String::from_utf8(writer).unwrap(), "");
assert_eq!(
CountByteSize(0, JsonSize::zero()),
json_size.size().unwrap()
);
}
#[test]
fn test_encode_batch_ndjson_single() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<Framer>::new(
NewlineDelimitedEncoder::default().into(),
JsonSerializerConfig::default().build().into(),
),
);
let mut writer = Vec::new();
let input = vec![Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value"),
)])))];
let input_json_size = input
.iter()
.map(|event| event.estimated_json_encoded_size_of())
.sum::<JsonSize>();
let (written, json_size) = encoding.encode_input(input, &mut writer).unwrap();
assert_eq!(written, 15);
assert_eq!(String::from_utf8(writer).unwrap(), r#"{"key":"value"}"#);
assert_eq!(CountByteSize(1, input_json_size), json_size.size().unwrap());
}
#[test]
fn test_encode_batch_ndjson_multiple() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<Framer>::new(
NewlineDelimitedEncoder::default().into(),
JsonSerializerConfig::default().build().into(),
),
);
let mut writer = Vec::new();
let input = vec![
Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value1"),
)]))),
Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value2"),
)]))),
Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value3"),
)]))),
];
let input_json_size = input
.iter()
.map(|event| event.estimated_json_encoded_size_of())
.sum::<JsonSize>();
let (written, json_size) = encoding.encode_input(input, &mut writer).unwrap();
assert_eq!(written, 50);
assert_eq!(
String::from_utf8(writer).unwrap(),
"{\"key\":\"value1\"}\n{\"key\":\"value2\"}\n{\"key\":\"value3\"}"
);
assert_eq!(CountByteSize(3, input_json_size), json_size.size().unwrap());
}
#[test]
fn test_encode_event_json() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<()>::new(JsonSerializerConfig::default().build().into()),
);
let mut writer = Vec::new();
let input = Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("key"),
Value::from("value"),
)])));
let input_json_size = input.estimated_json_encoded_size_of();
let (written, json_size) = encoding.encode_input(input, &mut writer).unwrap();
assert_eq!(written, 15);
assert_eq!(String::from_utf8(writer).unwrap(), r#"{"key":"value"}"#);
assert_eq!(CountByteSize(1, input_json_size), json_size.size().unwrap());
}
#[test]
fn test_encode_event_text() {
let encoding = (
Transformer::default(),
crate::codecs::Encoder::<()>::new(TextSerializerConfig::default().build().into()),
);
let mut writer = Vec::new();
let input = Event::Log(LogEvent::from(BTreeMap::from([(
KeyString::from("message"),
Value::from("value"),
)])));
let input_json_size = input.estimated_json_encoded_size_of();
let (written, json_size) = encoding.encode_input(input, &mut writer).unwrap();
assert_eq!(written, 5);
assert_eq!(String::from_utf8(writer).unwrap(), r"value");
assert_eq!(CountByteSize(1, input_json_size), json_size.size().unwrap());
}
}