Struct odbc_api::Connection

source · []
pub struct Connection<'c> { /* private fields */ }
Expand description

The connection handle references storage of all information about the connection to the data source, including status, transaction state, and error information.

Implementations

Transfers ownership of the handle to this open connection to the raw ODBC pointer.

Transfer ownership of this open connection to a wrapper around the raw ODBC pointer. The wrapper allows you to call ODBC functions on the handle, but doesn’t care if the connection is in the right state.

You should not have a need to call this method if your usecase is covered by this library, but, in case it is not, this may help you to break out of the type structure which might be to rigid for you, while simultaniously abondoning its safeguards.

Executes an SQL statement. This is the fastest way to submit an SQL statement for one-time execution.

Parameters
  • query: The text representation of the SQL statement. E.g. “SELECT * FROM my_table;”.
  • params: ? may be used as a placeholder in the statement text. You can use () to represent no parameters. See the crate::parameter module level documentation for more information on how to pass parameters.
Return

Returns Some if a cursor is created. If None is returned no cursor has been created ( e.g. the query came back empty). Note that an empty query may also create a cursor with zero rows.

Example
use odbc_api::Environment;

let env = Environment::new()?;

let mut conn = env.connect("YourDatabase", "SA", "My@Test@Password1")?;
if let Some(cursor) = conn.execute("SELECT year, name FROM Birthdays;", ())? {
    // Use cursor to process query results.  
}

In some use cases there you only execute a single statement, or the time to open a connection does not matter users may wish to choose to not keep a connection alive seperatly from the cursor, in order to have an easier time withe the borrow checker.

use lazy_static::lazy_static;
use odbc_api::{Environment, Error, Cursor};

lazy_static! {
    static ref ENV: Environment = unsafe { Environment::new().unwrap() };
}

const CONNECTION_STRING: &str =
    "Driver={ODBC Driver 17 for SQL Server};\
    Server=localhost;UID=SA;\
    PWD=My@Test@Password1;";

fn execute_query(query: &str) -> Result<Option<impl Cursor>, Error> {
    let conn = ENV.connect_with_connection_string(CONNECTION_STRING)?;

    // connect.execute(&query, ()) // Compiler error: Would return local ref to `conn`.

    conn.into_cursor(&query, ())
}

Prepares an SQL statement. This is recommended for repeated execution of similar queries.

Parameters
  • query: The text representation of the SQL statement. E.g. “SELECT * FROM my_table;”. ? may be used as a placeholder in the statement text, to be replaced with parameters during execution.

Allocates an SQL statement handle. This is recommended if you want to sequentially execute different queries over the same connection, as you avoid the overhead of allocating a statement handle for each query.

Should you want to repeatedly execute the same query with different parameters try Self::prepare instead.

Example
use odbc_api::{Connection, Error};
use std::io::{self, stdin, Read};

fn interactive(conn: &Connection) -> io::Result<()>{
    let mut statement = conn.preallocate().unwrap();
    let mut query = String::new();
    stdin().read_line(&mut query)?;
    while !query.is_empty() {
        match statement.execute(&query, ()) {
            Err(e) => println!("{}", e),
            Ok(None) => println!("No results set generated."),
            Ok(Some(cursor)) => {
                // ...print cursor contents...
            },
        }
        stdin().read_line(&mut query)?;
    }
    Ok(())
}

Specify the transaction mode. By default, ODBC transactions are in auto-commit mode. Switching from manual-commit mode to auto-commit mode automatically commits any open transaction on the connection. There is no open or begin transaction method. Each statement execution automatically starts a new transaction or adds to the existing one.

In manual commit mode you can use Connection::commit or Connection::rollback. Keep in mind, that even SELECT statements can open new transactions. This library will rollback open transactions if a connection goes out of SCOPE. This however will log an error, since the transaction state is only discovered during a failed disconnect. It is preferable that the application makes sure all transactions are closed if in manual commit mode.

To commit a transaction in manual-commit mode.

To rollback a transaction in manual-commit mode.

Indicates the state of the connection. If true the connection has been lost. If false, the connection is still active.

Allows sending this connection to different threads. This Connection will still be only be used by one thread at a time, but it may be a different thread each time.

Example
use std::thread;
use lazy_static::lazy_static;
use odbc_api::Environment;
lazy_static! {
    static ref ENV: Environment = unsafe { Environment::new().unwrap() };
}
const MSSQL: &str =
    "Driver={ODBC Driver 17 for SQL Server};\
    Server=localhost;\
    UID=SA;\
    PWD=My@Test@Password1;\
";

let conn = ENV.connect_with_connection_string("MSSQL").unwrap();
let conn = unsafe { conn.promote_to_send() };
let handle = thread::spawn(move || {
    if let Some(cursor) = conn.execute("SELECT title FROM Movies ORDER BY year",())? {
        // Use cursor to process results
    }
    Ok::<(), odbc_api::Error>(())
});
handle.join().unwrap()?;
Safety

According to the ODBC standard this should be safe. By calling this function you express your trust in the implementation of the ODBC driver your application is using.

See: https://docs.microsoft.com/en-us/sql/odbc/reference/develop-app/multithreading?view=sql-server-ver15

This function may be removed in future versions of this crate and connections would be Send out of the Box. This will require sufficient testing in which a wide variety of database drivers prove to be thread safe. For now this API tries to error on the side of caution, and leaves the amount of trust you want to put in the driver implementation to the user. I have seen this go wrong in the past, but time certainly improved the situation. At one point this will be cargo cult and Connection can be Send by default (hopefully).

Note to users of unixodbc: You may configure the threading level to make unixodbc synchronize access to the driver (and thereby making them thread safe if they are not thread safe by themself. This may however hurt your performance if the driver would actually be able to perform operations in parallel.

See: https://stackoverflow.com/questions/4207458/using-unixodbc-in-a-multithreaded-concurrent-setting

Get the name of the database management system used by the connection.

Maximum length of catalog names.

Maximum length of schema names.

Maximum length of table names.

Maximum length of column names.

Get the name of the current catalog being used by the connection.

A cursor describing columns of all tables matching the patterns. Patterns support as placeholder % for multiple characters or _ for a single character. Use \ to escape.The returned cursor has the columns: TABLE_CAT, TABLE_SCHEM, TABLE_NAME, COLUMN_NAME, DATA_TYPE, TYPE_NAME, COLUMN_SIZE, BUFFER_LENGTH, DECIMAL_DIGITS, NUM_PREC_RADIX, NULLABLE, REMARKS, COLUMN_DEF, SQL_DATA_TYPE, SQL_DATETIME_SUB, CHAR_OCTET_LENGTH, ORDINAL_POSITION, IS_NULLABLE.

In addition to that there may be a number of columns specific to the data source.

List tables, schemas, views and catalogs of a datasource.

Parameters
  • catalog_name: Filter result by catalog name. Accept search patterns. Use % to match any number of characters. Use _ to match exactly on character. Use \ to escape characeters.
  • schema_name: Filter result by schema. Accepts patterns in the same way as catalog_name.
  • table_name: Filter result by table. Accepts patterns in the same way as catalog_name.
  • table_type: Filters results by table type. E.g: ‘TABLE’, ‘VIEW’. This argument accepts a comma separeted list of table types. Omit it to not filter the result by table type at all.
Example
use odbc_api::{Connection, Cursor, Error, ResultSetMetadata, buffers::TextRowSet};

fn print_all_tables(conn: &Connection<'_>) -> Result<(), Error> {
    // Set all filters to an empty string, to really print all tables
    let cursor = conn.tables("", "", "", "")?;

    // The column are gonna be TABLE_CAT,TABLE_SCHEM,TABLE_NAME,TABLE_TYPE,REMARKS, but may
    // also contain additional driver specific columns.
    for (index, name) in cursor.column_names()?.enumerate() {
        if index != 0 {
            print!(",")
        }
        print!("{}", name?);
    }

    let batch_size = 100;
    let mut buffer = TextRowSet::for_cursor(batch_size, &cursor, Some(4096))?;
    let mut row_set_cursor = cursor.bind_buffer(&mut buffer)?;

    while let Some(row_set) = row_set_cursor.fetch()? {
        for row_index in 0..row_set.num_rows() {
            if row_index != 0 {
                print!("\n");
            }
            for col_index in 0..row_set.num_cols() {
                if col_index != 0 {
                    print!(",");
                }
                let value = row_set
                    .at_as_str(col_index, row_index)
                    .unwrap()
                    .unwrap_or("NULL");
                print!("{}", value);
            }
        }
    }

    Ok(())
}

The buffer descriptions for all standard buffers (not including extensions) returned in the columns query (e.g. Connection::columns).

Arguments
  • type_name_max_len - The maximum expected length of type names.
  • remarks_max_len - The maximum expected length of remarks.
  • column_default_max_len - The maximum expected length of column defaults.

Trait Implementations

Executes the destructor for this type. Read more

Auto Trait Implementations

Blanket Implementations

Gets the TypeId of self. Read more

Immutably borrows from an owned value. Read more

Mutably borrows from an owned value. Read more

Returns the argument unchanged.

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

The type returned in the event of a conversion error.

Performs the conversion.

The type returned in the event of a conversion error.

Performs the conversion.