Struct CreateStreamInput 

#[non_exhaustive]
pub struct CreateStreamInput {
    pub name: StreamName,
    pub config: Option<StreamConfig>,
    pub idempotency_token: String,
}

Input for create_stream operation.

Fields (Non-exhaustive)

Non-exhaustive structs could have additional fields added in future. Therefore, non-exhaustive structs cannot be constructed in external crates using the traditional Struct { .. } syntax; cannot be matched against without a wildcard ..; and struct update syntax will not work.

name: StreamName

Stream name.

config: Option<StreamConfig>

Configuration for the stream.

See StreamConfig for defaults.

idempotency_token: String

Idempotency token for the operation.

When a request is retried, the same token is reused, causing the server to return the original response instead of performing the operation again.

Defaults to a random UUID.

Implementations

impl CreateStreamInput

pub fn new(name: StreamName) -> Self

Create a new CreateStreamInput with the given stream name.

Examples found in repository

examples/create_stream.rs (line 23)

async fn main() -> Result<(), Box<dyn std::error::Error>> {
    let access_token =
        std::env::var("S2_ACCESS_TOKEN").map_err(|_| "S2_ACCESS_TOKEN env var not set")?;
    let basin_name: BasinName = std::env::var("S2_BASIN")
        .map_err(|_| "S2_BASIN env var not set")?
        .parse()?;
    let stream_name: StreamName = std::env::var("S2_STREAM")
        .map_err(|_| "S2_STREAM env var not set")?
        .parse()?;

    let s2 = S2::new(S2Config::new(access_token))?;
    let basin = s2.basin(basin_name);

    let input = CreateStreamInput::new(stream_name.clone()).with_config(
        StreamConfig::new().with_timestamping(
            TimestampingConfig::new().with_mode(TimestampingMode::ClientRequire),
        ),
    );
    let stream_info = basin.create_stream(input).await?;
    println!("{stream_info:#?}");

    let stream_config = basin.get_stream_config(stream_name).await?;
    println!("{stream_config:#?}");

    Ok(())
}

examples/docs_account_and_basins.rs (line 52)

async fn main() -> Result<(), Box<dyn std::error::Error>> {
    let token = std::env::var("S2_ACCESS_TOKEN")?;
    let basin_name: BasinName = std::env::var("S2_BASIN")?.parse()?;

    let client = S2::new(S2Config::new(token))?;

    // ANCHOR: basin-operations
    // List basins
    let basins = client.list_basins(ListBasinsInput::new()).await?;

    // Create a basin
    client
        .create_basin(CreateBasinInput::new("my-events".parse()?))
        .await?;

    // Get configuration
    let config = client.get_basin_config("my-events".parse()?).await?;

    // Delete
    client
        .delete_basin(DeleteBasinInput::new("my-events".parse()?))
        .await?;
    // ANCHOR_END: basin-operations
    println!("Basins: {:?}, config: {:?}", basins, config);

    let basin = client.basin(basin_name);

    // ANCHOR: stream-operations
    // List streams
    let streams = basin
        .list_streams(ListStreamsInput::new().with_prefix("user-".parse()?))
        .await?;

    // Create a stream
    basin
        .create_stream(CreateStreamInput::new("user-actions".parse()?))
        .await?;

    // Get configuration
    let config = basin.get_stream_config("user-actions".parse()?).await?;

    // Delete
    basin
        .delete_stream(DeleteStreamInput::new("user-actions".parse()?))
        .await?;
    // ANCHOR_END: stream-operations
    println!("Streams: {:?}, config: {:?}", streams, config);

    // ANCHOR: access-token-basic
    // List tokens (returns metadata, not the secret)
    let tokens = client.list_access_tokens(Default::default()).await?;

    // Issue a token scoped to streams under "users/1234/"
    let result = client
        .issue_access_token(
            IssueAccessTokenInput::new(
                "user-1234-rw-token".parse()?,
                AccessTokenScopeInput::from_op_group_perms(
                    OperationGroupPermissions::new()
                        .with_stream(ReadWritePermissions::read_write()),
                )
                .with_basins(BasinMatcher::Prefix("".parse()?)) // all basins
                .with_streams(StreamMatcher::Prefix("users/1234/".parse()?)),
            )
            .with_expires_at("2027-01-01T00:00:00Z".parse()?),
        )
        .await?;

    // Revoke a token
    client
        .revoke_access_token("user-1234-rw-token".parse()?)
        .await?;
    // ANCHOR_END: access-token-basic
    println!("Tokens: {:?}, issued: {:?}", tokens, result);

    // ANCHOR: access-token-restricted
    client
        .issue_access_token(IssueAccessTokenInput::new(
            "restricted-token".parse()?,
            AccessTokenScopeInput::from_op_group_perms(
                OperationGroupPermissions::new().with_stream(ReadWritePermissions::read_only()),
            )
            .with_basins(BasinMatcher::Exact("production".parse()?))
            .with_streams(StreamMatcher::Prefix("logs/".parse()?)),
        ))
        .await?;
    // ANCHOR_END: access-token-restricted

    // Pagination example - not executed by default
    if false {
        // ANCHOR: pagination
        // Iterate through all streams with automatic pagination
        let mut stream = basin.list_all_streams(ListAllStreamsInput::new());
        while let Some(info) = stream.next().await {
            let info = info?;
            println!("{}", info.name);
        }
        // ANCHOR_END: pagination
    }

    Ok(())
}

examples/docs_streams.rs (line 36)

async fn main() -> Result<(), Box<dyn std::error::Error>> {
    let token = std::env::var("S2_ACCESS_TOKEN")?;
    let basin_name: BasinName = std::env::var("S2_BASIN")?.parse()?;

    let client = S2::new(S2Config::new(token))?;
    let basin = client.basin(basin_name);

    // Create a temporary stream for examples
    let stream_name: StreamName = format!(
        "docs-streams-{}",
        std::time::SystemTime::now()
            .duration_since(std::time::UNIX_EPOCH)?
            .as_millis()
    )
    .parse()?;
    basin
        .create_stream(s2_sdk::types::CreateStreamInput::new(stream_name.clone()))
        .await?;

    // ANCHOR: simple-append
    let stream = basin.stream(stream_name.clone());

    let records = AppendRecordBatch::try_from_iter([
        AppendRecord::new("first event")?,
        AppendRecord::new("second event")?,
    ])?;

    let ack = stream.append(AppendInput::new(records)).await?;

    // ack tells us where the records landed
    println!(
        "Wrote records {} through {}",
        ack.start.seq_num,
        ack.end.seq_num - 1
    );
    // ANCHOR_END: simple-append

    // ANCHOR: simple-read
    let batch = stream
        .read(
            ReadInput::new()
                .with_start(ReadStart::new().with_from(ReadFrom::SeqNum(0)))
                .with_stop(ReadStop::new().with_limits(ReadLimits::new().with_count(100))),
        )
        .await?;

    for record in batch.records {
        println!("[{}] {:?}", record.seq_num, record.body);
    }
    // ANCHOR_END: simple-read

    // ANCHOR: append-session
    let session = stream.append_session(AppendSessionConfig::new());

    // Submit a batch - this enqueues it and returns a ticket
    let records = AppendRecordBatch::try_from_iter([
        AppendRecord::new("event-1")?,
        AppendRecord::new("event-2")?,
    ])?;
    let ticket = session.submit(AppendInput::new(records)).await?;

    // Wait for durability
    let ack = ticket.await?;
    println!("Durable at seqNum {}", ack.start.seq_num);

    session.close().await?;
    // ANCHOR_END: append-session

    // ANCHOR: producer
    let producer = stream.producer(
        ProducerConfig::new()
            .with_batching(BatchingConfig::new().with_linger(Duration::from_millis(5))),
    );

    // Submit individual records
    let ticket = producer.submit(AppendRecord::new("my event")?).await?;

    // Get the exact sequence number
    let ack = ticket.await?;
    println!("Record durable at seqNum {}", ack.seq_num);

    producer.close().await?;
    // ANCHOR_END: producer

    // ANCHOR: check-tail
    let tail = stream.check_tail().await?;
    println!("Stream has {} records", tail.seq_num);
    // ANCHOR_END: check-tail

    // Cleanup
    basin
        .delete_stream(s2_sdk::types::DeleteStreamInput::new(stream_name))
        .await?;

    println!("Streams examples completed");

    // The following read session examples are for documentation snippets only.
    // They are not executed because they would block waiting for new records.
    if std::env::var("RUN_READ_SESSIONS").is_err() {
        return Ok(());
    }

    // ANCHOR: read-session
    let mut session = stream
        .read_session(ReadInput::new().with_start(ReadStart::new().with_from(ReadFrom::SeqNum(0))))
        .await?;

    while let Some(batch) = session.next().await {
        let batch = batch?;
        for record in batch.records {
            println!("[{}] {:?}", record.seq_num, record.body);
        }
    }
    // ANCHOR_END: read-session

    // ANCHOR: read-session-tail-offset
    // Start reading from 10 records before the current tail
    let mut session = stream
        .read_session(
            ReadInput::new().with_start(ReadStart::new().with_from(ReadFrom::TailOffset(10))),
        )
        .await?;

    while let Some(batch) = session.next().await {
        let batch = batch?;
        for record in batch.records {
            println!("[{}] {:?}", record.seq_num, record.body);
        }
    }
    // ANCHOR_END: read-session-tail-offset

    // ANCHOR: read-session-timestamp
    // Start reading from a specific timestamp
    let one_hour_ago = std::time::SystemTime::now()
        .duration_since(std::time::UNIX_EPOCH)?
        .as_millis() as u64
        - 3600 * 1000;
    let mut session = stream
        .read_session(
            ReadInput::new()
                .with_start(ReadStart::new().with_from(ReadFrom::Timestamp(one_hour_ago))),
        )
        .await?;

    while let Some(batch) = session.next().await {
        let batch = batch?;
        for record in batch.records {
            println!("[{}] {:?}", record.seq_num, record.body);
        }
    }
    // ANCHOR_END: read-session-timestamp

    // ANCHOR: read-session-until
    // Read records until a specific timestamp
    let one_hour_ago = std::time::SystemTime::now()
        .duration_since(std::time::UNIX_EPOCH)?
        .as_millis() as u64
        - 3600 * 1000;
    let mut session = stream
        .read_session(
            ReadInput::new()
                .with_start(ReadStart::new().with_from(ReadFrom::SeqNum(0)))
                .with_stop(ReadStop::new().with_until(..one_hour_ago)),
        )
        .await?;

    while let Some(batch) = session.next().await {
        let batch = batch?;
        for record in batch.records {
            println!("[{}] {:?}", record.seq_num, record.body);
        }
    }
    // ANCHOR_END: read-session-until

    // ANCHOR: read-session-wait
    // Read all available records, and once reaching the current tail, wait an additional 30 seconds
    // for new ones
    let mut session = stream
        .read_session(
            ReadInput::new()
                .with_start(ReadStart::new().with_from(ReadFrom::SeqNum(0)))
                .with_stop(ReadStop::new().with_wait(30)),
        )
        .await?;

    while let Some(batch) = session.next().await {
        let batch = batch?;
        for record in batch.records {
            println!("[{}] {:?}", record.seq_num, record.body);
        }
    }
    // ANCHOR_END: read-session-wait

    Ok(())
}

pub fn with_config(self, config: StreamConfig) -> Self

Set the configuration for the stream.

Examples found in repository

examples/create_stream.rs (lines 23-27)

async fn main() -> Result<(), Box<dyn std::error::Error>> {
    let access_token =
        std::env::var("S2_ACCESS_TOKEN").map_err(|_| "S2_ACCESS_TOKEN env var not set")?;
    let basin_name: BasinName = std::env::var("S2_BASIN")
        .map_err(|_| "S2_BASIN env var not set")?
        .parse()?;
    let stream_name: StreamName = std::env::var("S2_STREAM")
        .map_err(|_| "S2_STREAM env var not set")?
        .parse()?;

    let s2 = S2::new(S2Config::new(access_token))?;
    let basin = s2.basin(basin_name);

    let input = CreateStreamInput::new(stream_name.clone()).with_config(
        StreamConfig::new().with_timestamping(
            TimestampingConfig::new().with_mode(TimestampingMode::ClientRequire),
        ),
    );
    let stream_info = basin.create_stream(input).await?;
    println!("{stream_info:#?}");

    let stream_config = basin.get_stream_config(stream_name).await?;
    println!("{stream_config:#?}");

    Ok(())
}

pub fn with_idempotency_token( self, idempotency_token: impl Into<String>, ) -> Self

Set the idempotency token for the operation.

Trait Implementations

impl Clone for CreateStreamInput

fn clone(&self) -> CreateStreamInput

Returns a duplicate of the value.

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

Performs copy-assignment from source.

impl Debug for CreateStreamInput

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

Formats the value using the given formatter.

impl From<CreateStreamInput> for (CreateStreamRequest, String)

fn from(value: CreateStreamInput) -> Self

Converts to this type from the input type.