StreamClient

s2::client

Struct StreamClient 

Source 
pub struct StreamClient { /* private fields */ }
Expand description

Client for stream-level operations.

Implementations§

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impl StreamClient

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pub fn new( config: ClientConfig, basin: BasinName, stream: impl Into<String>, ) -> Self

Create a new stream client.

Examples found in repository?
examples/get_latest_record.rs (line 12)
7async fn main() -> Result<(), Box<dyn std::error::Error>> {
8    let token = std::env::var("S2_ACCESS_TOKEN")?;
9    let config = ClientConfig::new(token);
10    let basin: BasinName = "my-favorite-basin".parse()?;
11    let stream = "my-favorite-stream";
12    let stream_client = StreamClient::new(config, basin, stream);
13
14    let read_limit = ReadLimit::new().with_count(1);
15    let read_request = ReadRequest::new(ReadStart::TailOffset(1)).with_limit(read_limit);
16    let latest_record = stream_client.read(read_request).await?;
17
18    println!("{latest_record:#?}");
19
20    Ok(())
21}
More examples
Hide additional examples
examples/consumer.rs (line 14)
9async fn main() -> Result<(), Box<dyn std::error::Error>> {
10    let token = std::env::var("S2_ACCESS_TOKEN")?;
11    let config = ClientConfig::new(token);
12    let basin: BasinName = "my-favorite-basin".parse()?;
13    let stream = "my-favorite-stream";
14    let stream_client = StreamClient::new(config, basin, stream);
15
16    let start_seq_num = 0;
17    let read_session_request = ReadSessionRequest::new(ReadStart::SeqNum(start_seq_num));
18    let mut read_stream = stream_client.read_session(read_session_request).await?;
19
20    loop {
21        select! {
22            next_batch = read_stream.next() => {
23                let Some(next_batch) = next_batch else { break };
24                let next_batch = next_batch?;
25                println!("{next_batch:?}");
26            }
27            _ = tokio::signal::ctrl_c() => break,
28        }
29    }
30
31    Ok(())
32}
examples/explicit_trim.rs (line 12)
7async fn main() -> Result<(), Box<dyn std::error::Error>> {
8    let token = std::env::var("S2_ACCESS_TOKEN")?;
9    let config = ClientConfig::new(token);
10    let basin: BasinName = "my-favorite-basin".parse()?;
11    let stream = "my-favorite-stream";
12    let stream_client = StreamClient::new(config, basin, stream);
13
14    let tail = stream_client.check_tail().await?;
15    if tail.seq_num == 0 {
16        println!("Empty stream");
17        return Ok(());
18    }
19
20    let latest_seq_num = tail.seq_num - 1;
21    let trim_request = CommandRecord::trim(latest_seq_num);
22
23    let append_record_batch = AppendRecordBatch::try_from_iter([trim_request])
24        .expect("valid batch with 1 command record");
25    let append_input = AppendInput::new(append_record_batch);
26    let _ = stream_client.append(append_input).await?;
27
28    println!("Trim requested");
29
30    Ok(())
31}
examples/producer.rs (line 14)
9async fn main() -> Result<(), Box<dyn std::error::Error>> {
10    let token = std::env::var("S2_ACCESS_TOKEN")?;
11    let config = ClientConfig::new(token);
12    let basin: BasinName = "my-favorite-basin".parse()?;
13    let stream = "my-favorite-stream";
14    let stream_client = StreamClient::new(config, basin, stream);
15
16    let fencing_token = FencingToken::generate(32).expect("valid fencing token");
17
18    // Set the fencing token.
19    let fencing_token_record: AppendRecord = CommandRecord::fence(fencing_token.clone()).into();
20    let fencing_token_batch = AppendRecordBatch::try_from_iter([fencing_token_record])
21        .expect("valid batch with 1 append record");
22    let fencing_token_append_input = AppendInput::new(fencing_token_batch);
23    let set_fencing_token = stream_client.append(fencing_token_append_input).await?;
24
25    let match_seq_num = set_fencing_token.tail.seq_num;
26
27    // Stream of records
28    let append_stream = futures::stream::iter([
29        AppendRecord::new("record_1")?,
30        AppendRecord::new("record_2")?,
31    ]);
32
33    let append_records_batching_opts = AppendRecordsBatchingOpts::new()
34        .with_fencing_token(Some(fencing_token))
35        .with_match_seq_num(Some(match_seq_num));
36
37    let append_session_request =
38        AppendRecordsBatchingStream::new(append_stream, append_records_batching_opts);
39
40    let mut append_session_stream = stream_client.append_session(append_session_request).await?;
41
42    while let Some(next) = append_session_stream.next().await {
43        let next = next?;
44        println!("{next:#?}");
45    }
46
47    Ok(())
48}
Source

pub fn new_with_connector<C>( config: ClientConfig, basin: BasinName, stream: impl Into<String>, connector: C, ) -> Self
where C: Service<Uri> + Send + 'static, C::Response: Read + Write + Send + Unpin, C::Future: Send, C::Error: Error + Send + Sync + 'static,

Create a new stream client using a custom connector.

Source

pub async fn check_tail(&self) -> Result<StreamPosition, ClientError>

Check the tail of the stream.

Examples found in repository?
examples/explicit_trim.rs (line 14)
7async fn main() -> Result<(), Box<dyn std::error::Error>> {
8    let token = std::env::var("S2_ACCESS_TOKEN")?;
9    let config = ClientConfig::new(token);
10    let basin: BasinName = "my-favorite-basin".parse()?;
11    let stream = "my-favorite-stream";
12    let stream_client = StreamClient::new(config, basin, stream);
13
14    let tail = stream_client.check_tail().await?;
15    if tail.seq_num == 0 {
16        println!("Empty stream");
17        return Ok(());
18    }
19
20    let latest_seq_num = tail.seq_num - 1;
21    let trim_request = CommandRecord::trim(latest_seq_num);
22
23    let append_record_batch = AppendRecordBatch::try_from_iter([trim_request])
24        .expect("valid batch with 1 command record");
25    let append_input = AppendInput::new(append_record_batch);
26    let _ = stream_client.append(append_input).await?;
27
28    println!("Trim requested");
29
30    Ok(())
31}
Source

pub async fn read(&self, req: ReadRequest) -> Result<ReadOutput, ClientError>

Retrieve a batch of records from a stream.

Examples found in repository?
examples/get_latest_record.rs (line 16)
7async fn main() -> Result<(), Box<dyn std::error::Error>> {
8    let token = std::env::var("S2_ACCESS_TOKEN")?;
9    let config = ClientConfig::new(token);
10    let basin: BasinName = "my-favorite-basin".parse()?;
11    let stream = "my-favorite-stream";
12    let stream_client = StreamClient::new(config, basin, stream);
13
14    let read_limit = ReadLimit::new().with_count(1);
15    let read_request = ReadRequest::new(ReadStart::TailOffset(1)).with_limit(read_limit);
16    let latest_record = stream_client.read(read_request).await?;
17
18    println!("{latest_record:#?}");
19
20    Ok(())
21}
Source

pub async fn read_session( &self, req: ReadSessionRequest, ) -> Result<Streaming<ReadOutput>, ClientError>

Retrieve batches of records from a stream continuously.

Examples found in repository?
examples/consumer.rs (line 18)
9async fn main() -> Result<(), Box<dyn std::error::Error>> {
10    let token = std::env::var("S2_ACCESS_TOKEN")?;
11    let config = ClientConfig::new(token);
12    let basin: BasinName = "my-favorite-basin".parse()?;
13    let stream = "my-favorite-stream";
14    let stream_client = StreamClient::new(config, basin, stream);
15
16    let start_seq_num = 0;
17    let read_session_request = ReadSessionRequest::new(ReadStart::SeqNum(start_seq_num));
18    let mut read_stream = stream_client.read_session(read_session_request).await?;
19
20    loop {
21        select! {
22            next_batch = read_stream.next() => {
23                let Some(next_batch) = next_batch else { break };
24                let next_batch = next_batch?;
25                println!("{next_batch:?}");
26            }
27            _ = tokio::signal::ctrl_c() => break,
28        }
29    }
30
31    Ok(())
32}
Source

pub async fn append(&self, req: AppendInput) -> Result<AppendAck, ClientError>

Append a batch of records to a stream.

Examples found in repository?
examples/explicit_trim.rs (line 26)
7async fn main() -> Result<(), Box<dyn std::error::Error>> {
8    let token = std::env::var("S2_ACCESS_TOKEN")?;
9    let config = ClientConfig::new(token);
10    let basin: BasinName = "my-favorite-basin".parse()?;
11    let stream = "my-favorite-stream";
12    let stream_client = StreamClient::new(config, basin, stream);
13
14    let tail = stream_client.check_tail().await?;
15    if tail.seq_num == 0 {
16        println!("Empty stream");
17        return Ok(());
18    }
19
20    let latest_seq_num = tail.seq_num - 1;
21    let trim_request = CommandRecord::trim(latest_seq_num);
22
23    let append_record_batch = AppendRecordBatch::try_from_iter([trim_request])
24        .expect("valid batch with 1 command record");
25    let append_input = AppendInput::new(append_record_batch);
26    let _ = stream_client.append(append_input).await?;
27
28    println!("Trim requested");
29
30    Ok(())
31}
More examples
Hide additional examples
examples/producer.rs (line 23)
9async fn main() -> Result<(), Box<dyn std::error::Error>> {
10    let token = std::env::var("S2_ACCESS_TOKEN")?;
11    let config = ClientConfig::new(token);
12    let basin: BasinName = "my-favorite-basin".parse()?;
13    let stream = "my-favorite-stream";
14    let stream_client = StreamClient::new(config, basin, stream);
15
16    let fencing_token = FencingToken::generate(32).expect("valid fencing token");
17
18    // Set the fencing token.
19    let fencing_token_record: AppendRecord = CommandRecord::fence(fencing_token.clone()).into();
20    let fencing_token_batch = AppendRecordBatch::try_from_iter([fencing_token_record])
21        .expect("valid batch with 1 append record");
22    let fencing_token_append_input = AppendInput::new(fencing_token_batch);
23    let set_fencing_token = stream_client.append(fencing_token_append_input).await?;
24
25    let match_seq_num = set_fencing_token.tail.seq_num;
26
27    // Stream of records
28    let append_stream = futures::stream::iter([
29        AppendRecord::new("record_1")?,
30        AppendRecord::new("record_2")?,
31    ]);
32
33    let append_records_batching_opts = AppendRecordsBatchingOpts::new()
34        .with_fencing_token(Some(fencing_token))
35        .with_match_seq_num(Some(match_seq_num));
36
37    let append_session_request =
38        AppendRecordsBatchingStream::new(append_stream, append_records_batching_opts);
39
40    let mut append_session_stream = stream_client.append_session(append_session_request).await?;
41
42    while let Some(next) = append_session_stream.next().await {
43        let next = next?;
44        println!("{next:#?}");
45    }
46
47    Ok(())
48}
Source

pub async fn append_session<S>( &self, req: S, ) -> Result<Streaming<AppendAck>, ClientError>
where S: 'static + Send + Unpin + Stream<Item = AppendInput>,

Append batches of records to a stream continuously, while guaranteeing pipelined requests are processed in order. If any request fails, the session is terminated.

Examples found in repository?
examples/producer.rs (line 40)
9async fn main() -> Result<(), Box<dyn std::error::Error>> {
10    let token = std::env::var("S2_ACCESS_TOKEN")?;
11    let config = ClientConfig::new(token);
12    let basin: BasinName = "my-favorite-basin".parse()?;
13    let stream = "my-favorite-stream";
14    let stream_client = StreamClient::new(config, basin, stream);
15
16    let fencing_token = FencingToken::generate(32).expect("valid fencing token");
17
18    // Set the fencing token.
19    let fencing_token_record: AppendRecord = CommandRecord::fence(fencing_token.clone()).into();
20    let fencing_token_batch = AppendRecordBatch::try_from_iter([fencing_token_record])
21        .expect("valid batch with 1 append record");
22    let fencing_token_append_input = AppendInput::new(fencing_token_batch);
23    let set_fencing_token = stream_client.append(fencing_token_append_input).await?;
24
25    let match_seq_num = set_fencing_token.tail.seq_num;
26
27    // Stream of records
28    let append_stream = futures::stream::iter([
29        AppendRecord::new("record_1")?,
30        AppendRecord::new("record_2")?,
31    ]);
32
33    let append_records_batching_opts = AppendRecordsBatchingOpts::new()
34        .with_fencing_token(Some(fencing_token))
35        .with_match_seq_num(Some(match_seq_num));
36
37    let append_session_request =
38        AppendRecordsBatchingStream::new(append_stream, append_records_batching_opts);
39
40    let mut append_session_stream = stream_client.append_session(append_session_request).await?;
41
42    while let Some(next) = append_session_stream.next().await {
43        let next = next?;
44        println!("{next:#?}");
45    }
46
47    Ok(())
48}

Trait Implementations§

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impl Clone for StreamClient

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fn clone(&self) -> StreamClient

Returns a duplicate of the value. Read more
1.0.0 · Source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl Debug for StreamClient

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more

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🔬This is a nightly-only experimental API. (clone_to_uninit)
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