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//! Runtime query-builder API.
use std::fmt::Display;
use std::fmt::Write;
use std::marker::PhantomData;
use crate::arguments::Arguments;
use crate::database::{Database, HasArguments};
use crate::encode::Encode;
use crate::from_row::FromRow;
use crate::query::Query;
use crate::query_as::QueryAs;
use crate::types::Type;
use crate::Either;
/// A builder type for constructing queries at runtime.
///
/// See [`.push_values()`][Self::push_values] for an example of building a bulk `INSERT` statement.
/// Note, however, that with Postgres you can get much better performance by using arrays
/// and `UNNEST()`. [See our FAQ] for details.
///
/// [See our FAQ]: https://github.com/launchbadge/sqlx/blob/master/FAQ.md#how-can-i-bind-an-array-to-a-values-clause-how-can-i-do-bulk-inserts
pub struct QueryBuilder<'args, DB>
where
DB: Database,
{
query: String,
init_len: usize,
arguments: Option<<DB as HasArguments<'args>>::Arguments>,
}
impl<'args, DB: Database> QueryBuilder<'args, DB>
where
DB: Database,
{
// `init` is provided because a query will almost always start with a constant fragment
// such as `INSERT INTO ...` or `SELECT ...`, etc.
/// Start building a query with an initial SQL fragment, which may be an empty string.
pub fn new(init: impl Into<String>) -> Self
where
<DB as HasArguments<'args>>::Arguments: Default,
{
let init = init.into();
QueryBuilder {
init_len: init.len(),
query: init,
arguments: Some(Default::default()),
}
}
#[inline]
fn sanity_check(&self) {
assert!(
self.arguments.is_some(),
"QueryBuilder must be reset before reuse after `.build()`"
);
}
/// Append a SQL fragment to the query.
///
/// May be a string or anything that implements `Display`.
/// You can also use `format_args!()` here to push a formatted string without an intermediate
/// allocation.
///
/// ### Warning: Beware SQL Injection Vulnerabilities and Untrusted Input!
/// You should *not* use this to insert input directly into the query from an untrusted user as
/// this can be used by an attacker to extract sensitive data or take over your database.
///
/// Security breaches due to SQL injection can cost your organization a lot of money from
/// damage control and lost clients, betray the trust of your users in your system, and are just
/// plain embarrassing. If you are unfamiliar with the threat that SQL injection imposes, you
/// should take some time to learn more about it before proceeding:
///
/// * [SQL Injection on OWASP.org](https://owasp.org/www-community/attacks/SQL_Injection)
/// * [SQL Injection on Wikipedia](https://en.wikipedia.org/wiki/SQL_injection)
/// * See "Examples" for notable instances of security breaches due to SQL injection.
///
/// This method does *not* perform sanitization. Instead, you should use
/// [`.push_bind()`][Self::push_bind] which inserts a placeholder into the query and then
/// sends the possibly untrustworthy value separately (called a "bind argument") so that it
/// cannot be misinterpreted by the database server.
///
/// Note that you should still at least have some sort of sanity checks on the values you're
/// sending as that's just good practice and prevent other types of attacks against your system,
/// e.g. check that strings aren't too long, numbers are within expected ranges, etc.
pub fn push(&mut self, sql: impl Display) -> &mut Self {
self.sanity_check();
write!(self.query, "{}", sql).expect("error formatting `sql`");
self
}
/// Push a bind argument placeholder (`?` or `$N` for Postgres) and bind a value to it.
///
/// ### Note: Database-specific Limits
/// Note that every database has a practical limit on the number of bind parameters
/// you can add to a single query. This varies by database.
///
/// While you should consult the manual of your specific database version and/or current
/// configuration for the exact value as it may be different than listed here,
/// the defaults for supported databases as of writing are as follows:
///
/// * Postgres and MySQL: 65535
/// * You may find sources that state that Postgres has a limit of 32767,
/// but that is a misinterpretation of the specification by the JDBC driver implementation
/// as discussed in [this Github issue][postgres-limit-issue]. Postgres itself
/// asserts that the number of parameters is in the range `[0, 65535)`.
/// * SQLite: 32766 (configurable by [`SQLITE_LIMIT_VARIABLE_NUMBER`])
/// * SQLite prior to 3.32.0: 999
/// * MSSQL: 2100
///
/// Exceeding these limits may panic (as a sanity check) or trigger a database error at runtime
/// depending on the implementation.
///
/// [`SQLITE_LIMIT_VARIABLE_NUMBER`]: https://www.sqlite.org/limits.html#max_variable_number
/// [postgres-limit-issue]: https://github.com/launchbadge/sqlx/issues/671#issuecomment-687043510
pub fn push_bind<T>(&mut self, value: T) -> &mut Self
where
T: 'args + Encode<'args, DB> + Send + Type<DB>,
{
self.sanity_check();
let arguments = self
.arguments
.as_mut()
.expect("BUG: Arguments taken already");
arguments.add(value);
arguments
.format_placeholder(&mut self.query)
.expect("error in format_placeholder");
self
}
/// Start a list separated by `separator`.
///
/// The returned type exposes identical [`.push()`][Separated::push] and
/// [`.push_bind()`][Separated::push_bind] methods which push `separator` to the query
/// before their normal behavior. [`.push_unseparated()`][Separated::push_unseparated] and [`.push_bind_unseparated()`][Separated::push_bind_unseparated] are also
/// provided to push a SQL fragment without the separator.
///
/// ```rust
/// # #[cfg(feature = "mysql")] {
/// use sqlx::{Execute, MySql, QueryBuilder};
/// let foods = vec!["pizza".to_string(), "chips".to_string()];
/// let mut query_builder: QueryBuilder<MySql> = QueryBuilder::new(
/// "SELECT * from food where name in ("
/// );
/// // One element vector is handled correctly but an empty vector
/// // would cause a sql syntax error
/// let mut separated = query_builder.separated(", ");
/// for value_type in foods.iter() {
/// separated.push_bind(value_type);
/// }
/// separated.push_unseparated(") ");
///
/// let mut query = query_builder.build();
/// let sql = query.sql();
/// assert!(sql.ends_with("in (?, ?) "));
/// # }
/// ```
pub fn separated<'qb, Sep>(&'qb mut self, separator: Sep) -> Separated<'qb, 'args, DB, Sep>
where
'args: 'qb,
Sep: Display,
{
self.sanity_check();
Separated {
query_builder: self,
separator,
push_separator: false,
}
}
// Most of the `QueryBuilder` API is purposefully very low-level but this was a commonly
// requested use-case so it made sense to support.
/// Push a `VALUES` clause where each item in `tuples` represents a tuple/row in the clause.
///
/// This can be used to construct a bulk `INSERT` statement, although keep in mind that all
/// databases have some practical limit on the number of bind arguments in a single query.
/// See [`.push_bind()`][Self::push_bind] for details.
///
/// To be safe, you can do `tuples.into_iter().take(N)` where `N` is the limit for your database
/// divided by the number of fields in each tuple; since integer division always rounds down,
/// this will ensure that you don't exceed the limit.
///
/// ### Notes
///
/// If `tuples` is empty, this will likely produce a syntactically invalid query as `VALUES`
/// generally expects to be followed by at least 1 tuple.
///
/// If `tuples` can have many different lengths, you may want to call
/// [`.persistent(false)`][Query::persistent] after [`.build()`][Self::build] to avoid
/// filling up the connection's prepared statement cache.
///
/// Because the `Arguments` API has a lifetime that must live longer than `Self`, you cannot
/// bind by-reference from an iterator unless that iterator yields references that live
/// longer than `Self`, even if the specific `Arguments` implementation doesn't actually
/// borrow the values (like `MySqlArguments` and `PgArguments` immediately encode the arguments
/// and don't borrow them past the `.add()` call).
///
/// So basically, if you want to bind by-reference you need an iterator that yields references,
/// e.g. if you have values in a `Vec` you can do `.iter()` instead of `.into_iter()`. The
/// example below uses an iterator that creates values on the fly
/// and so cannot bind by-reference.
///
/// ### Example (MySQL)
///
/// ```rust
/// # #[cfg(feature = "mysql")]
/// # {
/// use sqlx::{Execute, MySql, QueryBuilder};
///
/// struct User {
/// id: i32,
/// username: String,
/// email: String,
/// password: String,
/// }
///
/// // The number of parameters in MySQL must fit in a `u16`.
/// const BIND_LIMIT: usize = 65535;
///
/// // This would normally produce values forever!
/// let users = (0..).map(|i| User {
/// id: i,
/// username: format!("test_user_{}", i),
/// email: format!("test-user-{}@example.com", i),
/// password: format!("Test!User@Password#{}", i),
/// });
///
/// let mut query_builder: QueryBuilder<MySql> = QueryBuilder::new(
/// // Note the trailing space; most calls to `QueryBuilder` don't automatically insert
/// // spaces as that might interfere with identifiers or quoted strings where exact
/// // values may matter.
/// "INSERT INTO users(id, username, email, password) "
/// );
///
/// // Note that `.into_iter()` wasn't needed here since `users` is already an iterator.
/// query_builder.push_values(users.take(BIND_LIMIT / 4), |mut b, user| {
/// // If you wanted to bind these by-reference instead of by-value,
/// // you'd need an iterator that yields references that live as long as `query_builder`,
/// // e.g. collect it to a `Vec` first.
/// b.push_bind(user.id)
/// .push_bind(user.username)
/// .push_bind(user.email)
/// .push_bind(user.password);
/// });
///
/// let mut query = query_builder.build();
///
/// // You can then call `query.execute()`, `.fetch_one()`, `.fetch_all()`, etc.
/// // For the sake of demonstration though, we're just going to assert the contents
/// // of the query.
///
/// // These are methods of the `Execute` trait, not normally meant to be called in user code.
/// let sql = query.sql();
/// let arguments = query.take_arguments().unwrap();
///
/// assert!(sql.starts_with(
/// "INSERT INTO users(id, username, email, password) VALUES (?, ?, ?, ?), (?, ?, ?, ?)"
/// ));
///
/// assert!(sql.ends_with("(?, ?, ?, ?)"));
///
/// // Not a normally exposed function, only used for this doctest.
/// // 65535 / 4 = 16383 (rounded down)
/// // 16383 * 4 = 65532
/// assert_eq!(arguments.len(), 65532);
/// # }
/// ```
pub fn push_values<I, F>(&mut self, tuples: I, mut push_tuple: F) -> &mut Self
where
I: IntoIterator,
F: FnMut(Separated<'_, 'args, DB, &'static str>, I::Item),
{
self.sanity_check();
self.push("VALUES ");
let mut separated = self.separated(", ");
for tuple in tuples {
separated.push("(");
// use a `Separated` with a separate (hah) internal state
push_tuple(separated.query_builder.separated(", "), tuple);
separated.push_unseparated(")");
}
separated.query_builder
}
/// Creates `((a, b), (..)` statements, from `tuples`.
///
/// This can be used to construct a bulk `SELECT` statement like this:
/// ```sql
/// SELECT * FROM users WHERE (id, username) IN ((1, "test_user_1"), (2, "test_user_2"))
/// ```
///
/// Although keep in mind that all
/// databases have some practical limit on the number of bind arguments in a single query.
/// See [`.push_bind()`][Self::push_bind] for details.
///
/// To be safe, you can do `tuples.into_iter().take(N)` where `N` is the limit for your database
/// divided by the number of fields in each tuple; since integer division always rounds down,
/// this will ensure that you don't exceed the limit.
///
/// ### Notes
///
/// If `tuples` is empty, this will likely produce a syntactically invalid query
///
/// ### Example (MySQL)
///
/// ```rust
/// # #[cfg(feature = "mysql")]
/// # {
/// use sqlx::{Execute, MySql, QueryBuilder};
///
/// struct User {
/// id: i32,
/// username: String,
/// email: String,
/// password: String,
/// }
///
/// // The number of parameters in MySQL must fit in a `u16`.
/// const BIND_LIMIT: usize = 65535;
///
/// // This would normally produce values forever!
/// let users = (0..).map(|i| User {
/// id: i,
/// username: format!("test_user_{}", i),
/// email: format!("test-user-{}@example.com", i),
/// password: format!("Test!User@Password#{}", i),
/// });
///
/// let mut query_builder: QueryBuilder<MySql> = QueryBuilder::new(
/// // Note the trailing space; most calls to `QueryBuilder` don't automatically insert
/// // spaces as that might interfere with identifiers or quoted strings where exact
/// // values may matter.
/// "SELECT * FROM users WHERE (id, username, email, password) in"
/// );
///
/// // Note that `.into_iter()` wasn't needed here since `users` is already an iterator.
/// query_builder.push_tuples(users.take(BIND_LIMIT / 4), |mut b, user| {
/// // If you wanted to bind these by-reference instead of by-value,
/// // you'd need an iterator that yields references that live as long as `query_builder`,
/// // e.g. collect it to a `Vec` first.
/// b.push_bind(user.id)
/// .push_bind(user.username)
/// .push_bind(user.email)
/// .push_bind(user.password);
/// });
///
/// let mut query = query_builder.build();
///
/// // You can then call `query.execute()`, `.fetch_one()`, `.fetch_all()`, etc.
/// // For the sake of demonstration though, we're just going to assert the contents
/// // of the query.
///
/// // These are methods of the `Execute` trait, not normally meant to be called in user code.
/// let sql = query.sql();
/// let arguments = query.take_arguments().unwrap();
///
/// assert!(sql.starts_with(
/// "SELECT * FROM users WHERE (id, username, email, password) in ((?, ?, ?, ?), (?, ?, ?, ?), "
/// ));
///
/// assert!(sql.ends_with("(?, ?, ?, ?)) "));
///
/// // Not a normally exposed function, only used for this doctest.
/// // 65535 / 4 = 16383 (rounded down)
/// // 16383 * 4 = 65532
/// assert_eq!(arguments.len(), 65532);
/// }
/// ```
pub fn push_tuples<I, F>(&mut self, tuples: I, mut push_tuple: F) -> &mut Self
where
I: IntoIterator,
F: FnMut(Separated<'_, 'args, DB, &'static str>, I::Item),
{
self.sanity_check();
self.push(" (");
let mut separated = self.separated(", ");
for tuple in tuples {
separated.push("(");
push_tuple(separated.query_builder.separated(", "), tuple);
separated.push_unseparated(")");
}
separated.push_unseparated(") ");
separated.query_builder
}
/// Produce an executable query from this builder.
///
/// ### Note: Query is not Checked
/// It is your responsibility to ensure that you produce a syntactically correct query here,
/// this API has no way to check it for you.
///
/// ### Note: Reuse
/// You can reuse this builder afterwards to amortize the allocation overhead of the query
/// string, however you must call [`.reset()`][Self::reset] first, which returns `Self`
/// to the state it was in immediately after [`new()`][Self::new].
///
/// Calling any other method but `.reset()` after `.build()` will panic for sanity reasons.
pub fn build(&mut self) -> Query<'_, DB, <DB as HasArguments<'args>>::Arguments> {
self.sanity_check();
Query {
statement: Either::Left(&self.query),
arguments: self.arguments.take(),
database: PhantomData,
persistent: true,
}
}
/// Produce an executable query from this builder.
///
/// ### Note: Query is not Checked
/// It is your responsibility to ensure that you produce a syntactically correct query here,
/// this API has no way to check it for you.
///
/// ### Note: Reuse
/// You can reuse this builder afterwards to amortize the allocation overhead of the query
/// string, however you must call [`.reset()`][Self::reset] first, which returns `Self`
/// to the state it was in immediately after [`new()`][Self::new].
///
/// Calling any other method but `.reset()` after `.build()` will panic for sanity reasons.
pub fn build_query_as<'q, T: FromRow<'q, DB::Row>>(
&'q mut self,
) -> QueryAs<'q, DB, T, <DB as HasArguments<'args>>::Arguments> {
QueryAs {
inner: self.build(),
output: PhantomData,
}
}
/// Reset this `QueryBuilder` back to its initial state.
///
/// The query is truncated to the initial fragment provided to [`new()`][Self::new] and
/// the bind arguments are reset.
pub fn reset(&mut self) -> &mut Self {
self.query.truncate(self.init_len);
self.arguments = Some(Default::default());
self
}
/// Get the current build SQL; **note**: may not be syntactically correct.
pub fn sql(&self) -> &str {
&self.query
}
/// Deconstruct this `QueryBuilder`, returning the built SQL. May not be syntactically correct.
pub fn into_sql(self) -> String {
self.query
}
}
/// A wrapper around `QueryBuilder` for creating comma(or other token)-separated lists.
///
/// See [`QueryBuilder::separated()`] for details.
#[allow(explicit_outlives_requirements)]
pub struct Separated<'qb, 'args: 'qb, DB, Sep>
where
DB: Database,
{
query_builder: &'qb mut QueryBuilder<'args, DB>,
separator: Sep,
push_separator: bool,
}
impl<'qb, 'args: 'qb, DB, Sep> Separated<'qb, 'args, DB, Sep>
where
DB: Database,
Sep: Display,
{
/// Push the separator if applicable, and then the given SQL fragment.
///
/// See [`QueryBuilder::push()`] for details.
pub fn push(&mut self, sql: impl Display) -> &mut Self {
if self.push_separator {
self.query_builder
.push(format_args!("{}{}", self.separator, sql));
} else {
self.query_builder.push(sql);
self.push_separator = true;
}
self
}
/// Push a SQL fragment without a separator.
///
/// Simply calls [`QueryBuilder::push()`] directly.
pub fn push_unseparated(&mut self, sql: impl Display) -> &mut Self {
self.query_builder.push(sql);
self
}
/// Push the separator if applicable, then append a bind argument.
///
/// See [`QueryBuilder::push_bind()`] for details.
pub fn push_bind<T>(&mut self, value: T) -> &mut Self
where
T: 'args + Encode<'args, DB> + Send + Type<DB>,
{
if self.push_separator {
self.query_builder.push(&self.separator);
}
self.query_builder.push_bind(value);
self.push_separator = true;
self
}
/// Push a bind argument placeholder (`?` or `$N` for Postgres) and bind a value to it
/// without a separator.
///
/// Simply calls [`QueryBuilder::push_bind()`] directly.
pub fn push_bind_unseparated<T>(&mut self, value: T) -> &mut Self
where
T: 'args + Encode<'args, DB> + Send + Type<DB>,
{
self.query_builder.push_bind(value);
self
}
}
#[cfg(test)]
mod test {
use crate::postgres::Postgres;
use super::*;
#[test]
fn test_new() {
let qb: QueryBuilder<'_, Postgres> = QueryBuilder::new("SELECT * FROM users");
assert_eq!(qb.query, "SELECT * FROM users");
}
#[test]
fn test_push() {
let mut qb: QueryBuilder<'_, Postgres> = QueryBuilder::new("SELECT * FROM users");
let second_line = " WHERE last_name LIKE '[A-N]%;";
qb.push(second_line);
assert_eq!(
qb.query,
"SELECT * FROM users WHERE last_name LIKE '[A-N]%;".to_string(),
);
}
#[test]
#[should_panic]
fn test_push_panics_when_no_arguments() {
let mut qb: QueryBuilder<'_, Postgres> = QueryBuilder::new("SELECT * FROM users;");
qb.arguments = None;
qb.push("SELECT * FROM users;");
}
#[test]
fn test_push_bind() {
let mut qb: QueryBuilder<'_, Postgres> =
QueryBuilder::new("SELECT * FROM users WHERE id = ");
qb.push_bind(42i32)
.push(" OR membership_level = ")
.push_bind(3i32);
assert_eq!(
qb.query,
"SELECT * FROM users WHERE id = $1 OR membership_level = $2"
);
}
#[test]
fn test_build() {
let mut qb: QueryBuilder<'_, Postgres> = QueryBuilder::new("SELECT * FROM users");
qb.push(" WHERE id = ").push_bind(42i32);
let query = qb.build();
assert_eq!(
query.statement.unwrap_left(),
"SELECT * FROM users WHERE id = $1"
);
assert_eq!(query.persistent, true);
}
#[test]
fn test_reset() {
let mut qb: QueryBuilder<'_, Postgres> = QueryBuilder::new("");
let _query = qb
.push("SELECT * FROM users WHERE id = ")
.push_bind(42i32)
.build();
qb.reset();
assert_eq!(qb.query, "");
}
#[test]
fn test_query_builder_reuse() {
let mut qb: QueryBuilder<'_, Postgres> = QueryBuilder::new("");
let _query = qb
.push("SELECT * FROM users WHERE id = ")
.push_bind(42i32)
.build();
qb.reset();
let query = qb.push("SELECT * FROM users WHERE id = 99").build();
assert_eq!(
query.statement.unwrap_left(),
"SELECT * FROM users WHERE id = 99"
);
}
}