Struct deadpool_postgres::ClientWrapper
source · pub struct ClientWrapper {
pub statement_cache: Arc<StatementCache>,
/* private fields */
}
Expand description
Wrapper around tokio_postgres::Client
with a StatementCache
.
Fields§
§statement_cache: Arc<StatementCache>
StatementCache
of this client.
Implementations§
source§impl ClientWrapper
impl ClientWrapper
sourcepub fn new(client: PgClient, conn_task: JoinHandle<()>) -> Self
pub fn new(client: PgClient, conn_task: JoinHandle<()>) -> Self
Create a new ClientWrapper
instance using the given
tokio_postgres::Client
and handle to the connection task.
sourcepub async fn prepare_cached(&self, query: &str) -> Result<Statement, Error>
pub async fn prepare_cached(&self, query: &str) -> Result<Statement, Error>
Like tokio_postgres::Client::prepare()
, but uses an existing
Statement
from the StatementCache
if possible.
sourcepub async fn prepare_typed_cached(
&self,
query: &str,
types: &[Type]
) -> Result<Statement, Error>
pub async fn prepare_typed_cached( &self, query: &str, types: &[Type] ) -> Result<Statement, Error>
Like tokio_postgres::Client::prepare_typed()
, but uses an
existing Statement
from the StatementCache
if possible.
sourcepub async fn transaction(&mut self) -> Result<Transaction<'_>, Error>
pub async fn transaction(&mut self) -> Result<Transaction<'_>, Error>
Like tokio_postgres::Client::transaction()
, but returns a wrapped
Transaction
with a StatementCache
.
sourcepub fn build_transaction(&mut self) -> TransactionBuilder<'_>
pub fn build_transaction(&mut self) -> TransactionBuilder<'_>
Like tokio_postgres::Client::build_transaction()
, but creates a
wrapped Transaction
with a StatementCache
.
Methods from Deref<Target = PgClient>§
sourcepub async fn prepare(&self, query: &str) -> Result<Statement, Error>
pub async fn prepare(&self, query: &str) -> Result<Statement, Error>
Creates a new prepared statement.
Prepared statements can be executed repeatedly, and may contain query parameters (indicated by $1
, $2
, etc),
which are set when executed. Prepared statements can only be used with the connection that created them.
sourcepub async fn prepare_typed(
&self,
query: &str,
parameter_types: &[Type]
) -> Result<Statement, Error>
pub async fn prepare_typed( &self, query: &str, parameter_types: &[Type] ) -> Result<Statement, Error>
Like prepare
, but allows the types of query parameters to be explicitly specified.
The list of types may be smaller than the number of parameters - the types of the remaining parameters will be
inferred. For example, client.prepare_typed(query, &[])
is equivalent to client.prepare(query)
.
sourcepub async fn query<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<Vec<Row>, Error>where
T: ToStatement + ?Sized,
pub async fn query<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<Vec<Row>, Error>where
T: ToStatement + ?Sized,
Executes a statement, returning a vector of the resulting rows.
A statement may contain parameters, specified by $n
, where n
is the index of the parameter of the list
provided, 1-indexed.
The statement
argument can either be a Statement
, or a raw query string. If the same statement will be
repeatedly executed (perhaps with different query parameters), consider preparing the statement up front
with the prepare
method.
sourcepub async fn query_one<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<Row, Error>where
T: ToStatement + ?Sized,
pub async fn query_one<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<Row, Error>where
T: ToStatement + ?Sized,
Executes a statement which returns a single row, returning it.
Returns an error if the query does not return exactly one row.
A statement may contain parameters, specified by $n
, where n
is the index of the parameter of the list
provided, 1-indexed.
The statement
argument can either be a Statement
, or a raw query string. If the same statement will be
repeatedly executed (perhaps with different query parameters), consider preparing the statement up front
with the prepare
method.
sourcepub async fn query_opt<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<Option<Row>, Error>where
T: ToStatement + ?Sized,
pub async fn query_opt<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<Option<Row>, Error>where
T: ToStatement + ?Sized,
Executes a statements which returns zero or one rows, returning it.
Returns an error if the query returns more than one row.
A statement may contain parameters, specified by $n
, where n
is the index of the parameter of the list
provided, 1-indexed.
The statement
argument can either be a Statement
, or a raw query string. If the same statement will be
repeatedly executed (perhaps with different query parameters), consider preparing the statement up front
with the prepare
method.
sourcepub async fn query_raw<T, P, I>(
&self,
statement: &T,
params: I
) -> Result<RowStream, Error>where
T: ToStatement + ?Sized,
P: BorrowToSql,
I: IntoIterator<Item = P>,
<I as IntoIterator>::IntoIter: ExactSizeIterator,
pub async fn query_raw<T, P, I>(
&self,
statement: &T,
params: I
) -> Result<RowStream, Error>where
T: ToStatement + ?Sized,
P: BorrowToSql,
I: IntoIterator<Item = P>,
<I as IntoIterator>::IntoIter: ExactSizeIterator,
The maximally flexible version of query
.
A statement may contain parameters, specified by $n
, where n
is the index of the parameter of the list
provided, 1-indexed.
The statement
argument can either be a Statement
, or a raw query string. If the same statement will be
repeatedly executed (perhaps with different query parameters), consider preparing the statement up front
with the prepare
method.
§Examples
use tokio_postgres::types::ToSql;
use futures_util::{pin_mut, TryStreamExt};
let params: Vec<String> = vec![
"first param".into(),
"second param".into(),
];
let mut it = client.query_raw(
"SELECT foo FROM bar WHERE biz = $1 AND baz = $2",
params,
).await?;
pin_mut!(it);
while let Some(row) = it.try_next().await? {
let foo: i32 = row.get("foo");
println!("foo: {}", foo);
}
sourcepub async fn execute<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<u64, Error>where
T: ToStatement + ?Sized,
pub async fn execute<T>(
&self,
statement: &T,
params: &[&(dyn ToSql + Sync)]
) -> Result<u64, Error>where
T: ToStatement + ?Sized,
Executes a statement, returning the number of rows modified.
A statement may contain parameters, specified by $n
, where n
is the index of the parameter of the list
provided, 1-indexed.
The statement
argument can either be a Statement
, or a raw query string. If the same statement will be
repeatedly executed (perhaps with different query parameters), consider preparing the statement up front
with the prepare
method.
If the statement does not modify any rows (e.g. SELECT
), 0 is returned.
sourcepub async fn execute_raw<T, P, I>(
&self,
statement: &T,
params: I
) -> Result<u64, Error>where
T: ToStatement + ?Sized,
P: BorrowToSql,
I: IntoIterator<Item = P>,
<I as IntoIterator>::IntoIter: ExactSizeIterator,
pub async fn execute_raw<T, P, I>(
&self,
statement: &T,
params: I
) -> Result<u64, Error>where
T: ToStatement + ?Sized,
P: BorrowToSql,
I: IntoIterator<Item = P>,
<I as IntoIterator>::IntoIter: ExactSizeIterator,
The maximally flexible version of execute
.
A statement may contain parameters, specified by $n
, where n
is the index of the parameter of the list
provided, 1-indexed.
The statement
argument can either be a Statement
, or a raw query string. If the same statement will be
repeatedly executed (perhaps with different query parameters), consider preparing the statement up front
with the prepare
method.
sourcepub async fn copy_in<T, U>(&self, statement: &T) -> Result<CopyInSink<U>, Error>
pub async fn copy_in<T, U>(&self, statement: &T) -> Result<CopyInSink<U>, Error>
Executes a COPY FROM STDIN
statement, returning a sink used to write the copy data.
PostgreSQL does not support parameters in COPY
statements, so this method does not take any. The copy must
be explicitly completed via the Sink::close
or finish
methods. If it is not, the copy will be aborted.
sourcepub async fn copy_out<T>(&self, statement: &T) -> Result<CopyOutStream, Error>where
T: ToStatement + ?Sized,
pub async fn copy_out<T>(&self, statement: &T) -> Result<CopyOutStream, Error>where
T: ToStatement + ?Sized,
Executes a COPY TO STDOUT
statement, returning a stream of the resulting data.
PostgreSQL does not support parameters in COPY
statements, so this method does not take any.
sourcepub async fn simple_query(
&self,
query: &str
) -> Result<Vec<SimpleQueryMessage>, Error>
pub async fn simple_query( &self, query: &str ) -> Result<Vec<SimpleQueryMessage>, Error>
Executes a sequence of SQL statements using the simple query protocol, returning the resulting rows.
Statements should be separated by semicolons. If an error occurs, execution of the sequence will stop at that
point. The simple query protocol returns the values in rows as strings rather than in their binary encodings,
so the associated row type doesn’t work with the FromSql
trait. Rather than simply returning a list of the
rows, this method returns a list of an enum which indicates either the completion of one of the commands,
or a row of data. This preserves the framing between the separate statements in the request.
§Warning
Prepared statements should be use for any query which contains user-specified data, as they provided the functionality to safely embed that data in the request. Do not form statements via string concatenation and pass them to this method!
sourcepub async fn batch_execute(&self, query: &str) -> Result<(), Error>
pub async fn batch_execute(&self, query: &str) -> Result<(), Error>
Executes a sequence of SQL statements using the simple query protocol.
Statements should be separated by semicolons. If an error occurs, execution of the sequence will stop at that point. This is intended for use when, for example, initializing a database schema.
§Warning
Prepared statements should be use for any query which contains user-specified data, as they provided the functionality to safely embed that data in the request. Do not form statements via string concatenation and pass them to this method!
sourcepub async fn transaction(&mut self) -> Result<Transaction<'_>, Error>
pub async fn transaction(&mut self) -> Result<Transaction<'_>, Error>
Begins a new database transaction.
The transaction will roll back by default - use the commit
method to commit it.
sourcepub fn build_transaction(&mut self) -> TransactionBuilder<'_>
pub fn build_transaction(&mut self) -> TransactionBuilder<'_>
Returns a builder for a transaction with custom settings.
Unlike the transaction
method, the builder can be used to control the transaction’s isolation level and other
attributes.
sourcepub fn cancel_token(&self) -> CancelToken
pub fn cancel_token(&self) -> CancelToken
Constructs a cancellation token that can later be used to request cancellation of a query running on the connection associated with this client.
sourcepub async fn cancel_query<T>(&self, tls: T) -> Result<(), Error>where
T: MakeTlsConnect<Socket>,
👎Deprecated since 0.6.0: use Client::cancel_token() instead
pub async fn cancel_query<T>(&self, tls: T) -> Result<(), Error>where
T: MakeTlsConnect<Socket>,
Attempts to cancel an in-progress query.
The server provides no information about whether a cancellation attempt was successful or not. An error will only be returned if the client was unable to connect to the database.
Requires the runtime
Cargo feature (enabled by default).
sourcepub async fn cancel_query_raw<S, T>(
&self,
stream: S,
tls: T
) -> Result<(), Error>
👎Deprecated since 0.6.0: use Client::cancel_token() instead
pub async fn cancel_query_raw<S, T>( &self, stream: S, tls: T ) -> Result<(), Error>
Like cancel_query
, but uses a stream which is already connected to the server rather than opening a new
connection itself.
sourcepub fn clear_type_cache(&self)
pub fn clear_type_cache(&self)
Clears the client’s type information cache.
When user-defined types are used in a query, the client loads their definitions from the database and caches them for the lifetime of the client. If those definitions are changed in the database, this method can be used to flush the local cache and allow the new, updated definitions to be loaded.