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#![warn(rust_2018_idioms)]
#![cfg_attr(docsrs, feature(doc_cfg))]
//! An asynchronous client for Bolt-compatible servers.
//!
//! # Example
//! The below example demonstrates how to communicate with a Neo4j server using Bolt protocol
//! version 4.
//! ```
//! use std::{collections::HashMap, env};
//!
//! use tokio::io::BufStream;
//! use tokio_util::compat::*;
//!
//! use bolt_client::*;
//! use bolt_proto::{message::*, value::*, version::*, Message, Value};
//!
//! #[tokio::main]
//! async fn main() -> Result<(), Box<dyn std::error::Error>> {
//! // Let's say you have a type that implements AsyncRead + AsyncWrite. Here's one
//! // provided by the `tokio-stream` feature of this library. In this example, all
//! // connection/authentication details are stored in environment variables.
//! let stream = Stream::connect(env::var("BOLT_TEST_ADDR")?,
//! env::var("BOLT_TEST_DOMAIN").ok()).await?;
//! let stream = BufStream::new(stream).compat();
//!
//! // Create a new connection to the server and perform a handshake to establish a
//! // protocol version. This example demonstrates usage of the v4.3 or v4.2 protocol.
//! let mut result = Client::new(stream, &[V4_3, V4_2, 0, 0]).await;
//! # skip_if_handshake_failed!(result, Ok(()));
//! let mut client = result.unwrap();
//!
//! // Send a HELLO message with authentication details to the server to initialize
//! // the session.
//! let response: Message = client.hello(
//! Metadata::from_iter(vec![
//! ("user_agent", "my-client-name/1.0"),
//! ("scheme", "basic"),
//! ("principal", &env::var("BOLT_TEST_USERNAME")?),
//! ("credentials", &env::var("BOLT_TEST_PASSWORD")?),
//! ])).await?;
//! # Success::try_from(response.clone()).unwrap();
//! assert!(Success::try_from(response).is_ok());
//!
//! // Submit a query for execution on the server
//! let response = client.run("RETURN 1 as num;", None, None).await?;
//!
//! // Successful responses will include a SUCCESS message with related metadata
//! // Consuming these messages is optional and will be skipped for the rest of the example
//! # Success::try_from(response.clone()).unwrap();
//! assert!(Success::try_from(response).is_ok());
//!
//! // Use PULL to retrieve results of the query, organized into RECORD messages
//! // We get a (Vec<Record>, Message) returned from a PULL
//! let pull_meta = Metadata::from_iter(vec![("n", 1)]);
//! let (records, response) = client.pull(Some(pull_meta.clone())).await?;
//! # Success::try_from(response).unwrap();
//!
//! assert_eq!(records[0].fields(), &[Value::from(1)]);
//! #
//! # client.run("MATCH (n) DETACH DELETE n;", None, None).await?;
//! # client.pull(Some(pull_meta.clone())).await?;
//!
//! // Submit a more complex query with parameters
//! let params = Params::from_iter(vec![("name", "Rust")]);
//! client.run(
//! "CREATE (:Client)-[:WRITTEN_IN]->(:Language {name: $name});",
//! Some(params), None).await?;
//! client.pull(Some(pull_meta.clone())).await?;
//!
//! // Grab a node from the database and convert it to a native type
//! client.run("MATCH (rust:Language) RETURN rust;", None, None).await?;
//! let (records, response) = client.pull(Some(pull_meta.clone())).await?;
//! # Success::try_from(response).unwrap();
//! let node = Node::try_from(records[0].fields()[0].clone())?;
//!
//! // Access properties from returned values
//! assert_eq!(node.labels(), &[String::from("Language")]);
//! assert_eq!(node.properties(),
//! &HashMap::from_iter(vec![(String::from("name"), Value::from("Rust"))]));
//!
//! // End the connection with the server
//! client.goodbye().await?;
//!
//! Ok(())
//! }
//! ```
//!
//! For version 3 of the protocol, the metadata we pass to [`Client::pull`] is not required, since
//! all records are consumed.
//! ```
//! # use std::collections::HashMap;
//! # use std::env;
//! #
//! # use tokio::io::BufStream;
//! # use tokio_util::compat::*;
//! #
//! # use bolt_client::*;
//! # use bolt_proto::{message::*, value::*, version::*, Message, Value};
//! #
//! # #[tokio::main]
//! # async fn main() -> Result<(), Box<dyn std::error::Error>> {
//! # let stream = Stream::connect(env::var("BOLT_TEST_ADDR")?,
//! # env::var("BOLT_TEST_DOMAIN").ok()).await?;
//! # let stream = BufStream::new(stream).compat();
//! // Now we only want Bolt v3
//! let mut result = Client::new(stream, &[V3_0, 0, 0, 0]).await;
//! # skip_if_handshake_failed!(result, Ok(()));
//! # let mut client = result.unwrap();
//! #
//! # let response: Message = client.hello(
//! # Metadata::from_iter(vec![
//! # ("user_agent", "my-client-name/1.0"),
//! # ("scheme", "basic"),
//! # ("principal", &env::var("BOLT_TEST_USERNAME")?),
//! # ("credentials", &env::var("BOLT_TEST_PASSWORD")?),
//! # ])).await?;
//! # Success::try_from(response).unwrap();
//! #
//! # let response = client.run("RETURN 1 as num;", None, None).await?;
//! # Success::try_from(response).unwrap();
//!
//! // Use `None` for the PULL metadata
//! let (records, response) = client.pull(None).await?;
//! # Success::try_from(response).unwrap();
//! #
//! # assert_eq!(records[0].fields(), &[Value::from(1 as i8)]);
//! # client.run("MATCH (n {test: 'doctest-v3'}) DETACH DELETE n;", None, None).await?;
//! # client.pull(None).await?;
//! #
//! # let params = Params::from_iter(vec![("name", "C")]);
//! # client.run(
//! # "CREATE (:Seabolt {test: 'doctest-v3'})-[:WRITTEN_IN]->(:C {name: $name, test: 'doctest-v3'});",
//! # Some(params), None).await?;
//! # client.pull(None).await?;
//! #
//! # client.run("MATCH (c:C {test: 'doctest-v3'}) RETURN c;", None, None).await?;
//! # let (records, response) = client.pull(None).await?;
//! # Success::try_from(response).unwrap();
//! # let node = Node::try_from(records[0].fields()[0].clone())?;
//! # assert_eq!(node.labels(), &[String::from("C")]);
//! # assert_eq!(node.properties(),
//! # &HashMap::from_iter(vec![(String::from("name"), Value::from("C")),
//! # (String::from("test"), Value::from("doctest-v3"))]));
//! # client.goodbye().await?;
//! # Ok(())
//! # }
//! ```
//!
//! For versions 1 and 2 of the protocol, there are a couple more differences:
//! ```
//! # use std::collections::HashMap;
//! # use std::env;
//! #
//! # use tokio::io::BufStream;
//! # use tokio_util::compat::*;
//! #
//! # use bolt_client::*;
//! # use bolt_proto::{message::*, value::*, version::*, Message, Value};
//! #
//! # #[tokio::main]
//! # async fn main() -> Result<(), Box<dyn std::error::Error>> {
//! # let stream = Stream::connect(env::var("BOLT_TEST_ADDR")?,
//! # env::var("BOLT_TEST_DOMAIN").ok()).await?;
//! # let stream = BufStream::new(stream).compat();
//! // For the handshake, we can support versions 1 and 2 only, preferring version 2.
//! let mut result = Client::new(stream, &[V2_0, V1_0, 0, 0]).await;
//! # skip_if_handshake_failed!(result, Ok(()));
//! # let mut client = result.unwrap();
//! #
//! # let response: Message = client.hello(
//! # Metadata::from_iter(vec![
//! # ("user_agent", "my-client-name/1.0"),
//! # ("scheme", "basic"),
//! # ("principal", &env::var("BOLT_TEST_USERNAME")?),
//! # ("credentials", &env::var("BOLT_TEST_PASSWORD")?),
//! # ])).await?;
//! # Success::try_from(response).unwrap();
//! #
//! # let response = client.run("RETURN 1 as num;", None, None).await?;
//! # Success::try_from(response).unwrap();
//!
//! // No need to pass metadata here either
//! let (records, response) = client.pull(None).await?;
//! # Success::try_from(response).unwrap();
//! # assert_eq!(records[0].fields(), &[Value::from(1 as i8)]);
//! #
//! # client.run("MATCH (n {test: 'doctest-v2-v1'}) DETACH DELETE n;", None, None).await?;
//! # client.pull(None).await?;
//! #
//! # client.run("CREATE (:Client {test: 'doctest-v2-v1'})-[:WRITTEN_IN]->(:Language {name: $name, test: 'doctest-v2-v1'});",
//! # Some(Params::from_iter(vec![("name".to_string(), Value::from("Rust"))])), None).await?;
//! # client.pull(None).await?;
//! # client.run("MATCH (rust:Language {test: 'doctest-v2-v1'}) RETURN rust;", None, None).await?;
//! # let (records, response) = client.pull(None).await?;
//! # Success::try_from(response).unwrap();
//! #
//! # let node = Node::try_from(records[0].fields()[0].clone())?;
//! # assert_eq!(node.labels(), &["Language".to_string()]);
//! # assert_eq!(node.properties(),
//! # &HashMap::from_iter(vec![(String::from("name"), Value::from("Rust")),
//! # (String::from("test"), Value::from("doctest-v2-v1"))]));
//!
//! // There is no call to `goodbye`
//! # Ok(())
//! # }
//! ```
//! See the documentation of the [`Client`] struct for information on transaction management, error
//! handling, and more.
#[doc(inline)]
pub use self::client::Client;
mod client;
mod define_value_map;
pub mod error;
pub use bolt_proto;
#[cfg(feature = "tokio-stream")]
mod stream;
#[cfg(feature = "tokio-stream")]
pub use stream::Stream;
// TODO: Convert Client methods to return a builder-type object so we don't need these anymore
define_value_map!(Metadata);
define_value_map!(Params);
define_value_map!(RoutingContext);
#[doc(hidden)]
#[macro_export]
macro_rules! skip_if_handshake_failed {
($var:expr) => {
if let Err(err) = $var {
println!("Skipping test: {}", err);
return;
}
};
($var:expr, $ret:expr) => {
if let Err(err) = $var {
println!("Skipping test: {}", err);
return $ret;
}
};
}