mirror of
https://github.com/isar/rusqlite.git
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428 lines
14 KiB
Rust
428 lines
14 KiB
Rust
//! Online SQLite backup API.
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//!
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//! To create a [`Backup`], you must have two distinct [`Connection`]s - one
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//! for the source (which can be used while the backup is running) and one for
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//! the destination (which cannot). A [`Backup`] handle exposes three methods:
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//! [`step`](Backup::step) will attempt to back up a specified number of pages,
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//! [`progress`](Backup::progress) gets the current progress of the backup as of
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//! the last call to [`step`](Backup::step), and
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//! [`run_to_completion`](Backup::run_to_completion) will attempt to back up the
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//! entire source database, allowing you to specify how many pages are backed up
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//! at a time and how long the thread should sleep between chunks of pages.
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//!
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//! The following example is equivalent to "Example 2: Online Backup of a
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//! Running Database" from [SQLite's Online Backup API
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//! documentation](https://www.sqlite.org/backup.html).
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//!
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//! ```rust,no_run
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//! # use rusqlite::{backup, Connection, Result};
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//! # use std::path::Path;
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//! # use std::time;
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//!
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//! fn backup_db<P: AsRef<Path>>(
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//! src: &Connection,
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//! dst: P,
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//! progress: fn(backup::Progress),
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//! ) -> Result<()> {
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//! let mut dst = Connection::open(dst)?;
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//! let backup = backup::Backup::new(src, &mut dst)?;
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//! backup.run_to_completion(5, time::Duration::from_millis(250), Some(progress))
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//! }
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//! ```
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use std::marker::PhantomData;
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use std::path::Path;
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use std::ptr;
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use std::os::raw::c_int;
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use std::thread;
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use std::time::Duration;
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use crate::ffi;
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use crate::error::error_from_handle;
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use crate::{Connection, DatabaseName, Result};
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impl Connection {
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/// Back up the `name` database to the given
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/// destination path.
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///
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/// If `progress` is not `None`, it will be called periodically
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/// until the backup completes.
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///
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/// For more fine-grained control over the backup process (e.g.,
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/// to sleep periodically during the backup or to back up to an
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/// already-open database connection), see the `backup` module.
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///
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/// # Failure
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///
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/// Will return `Err` if the destination path cannot be opened
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/// or if the backup fails.
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pub fn backup<P: AsRef<Path>>(
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&self,
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name: DatabaseName<'_>,
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dst_path: P,
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progress: Option<fn(Progress)>,
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) -> Result<()> {
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use self::StepResult::{Busy, Done, Locked, More};
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let mut dst = Connection::open(dst_path)?;
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let backup = Backup::new_with_names(self, name, &mut dst, DatabaseName::Main)?;
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let mut r = More;
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while r == More {
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r = backup.step(100)?;
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if let Some(f) = progress {
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f(backup.progress());
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}
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}
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match r {
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Done => Ok(()),
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Busy => Err(unsafe { error_from_handle(ptr::null_mut(), ffi::SQLITE_BUSY) }),
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Locked => Err(unsafe { error_from_handle(ptr::null_mut(), ffi::SQLITE_LOCKED) }),
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More => unreachable!(),
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}
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}
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/// Restore the given source path into the
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/// `name` database. If `progress` is not `None`, it will be
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/// called periodically until the restore completes.
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///
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/// For more fine-grained control over the restore process (e.g.,
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/// to sleep periodically during the restore or to restore from an
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/// already-open database connection), see the `backup` module.
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///
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/// # Failure
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///
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/// Will return `Err` if the destination path cannot be opened
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/// or if the restore fails.
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pub fn restore<P: AsRef<Path>, F: Fn(Progress)>(
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&mut self,
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name: DatabaseName<'_>,
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src_path: P,
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progress: Option<F>,
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) -> Result<()> {
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use self::StepResult::{Busy, Done, Locked, More};
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let src = Connection::open(src_path)?;
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let restore = Backup::new_with_names(&src, DatabaseName::Main, self, name)?;
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let mut r = More;
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let mut busy_count = 0i32;
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'restore_loop: while r == More || r == Busy {
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r = restore.step(100)?;
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if let Some(ref f) = progress {
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f(restore.progress());
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}
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if r == Busy {
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busy_count += 1;
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if busy_count >= 3 {
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break 'restore_loop;
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}
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thread::sleep(Duration::from_millis(100));
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}
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}
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match r {
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Done => Ok(()),
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Busy => Err(unsafe { error_from_handle(ptr::null_mut(), ffi::SQLITE_BUSY) }),
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Locked => Err(unsafe { error_from_handle(ptr::null_mut(), ffi::SQLITE_LOCKED) }),
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More => unreachable!(),
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}
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}
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}
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/// Possible successful results of calling
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/// [`Backup::step`].
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#[derive(Copy, Clone, Debug, PartialEq, Eq)]
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#[non_exhaustive]
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pub enum StepResult {
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/// The backup is complete.
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Done,
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/// The step was successful but there are still more pages that need to be
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/// backed up.
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More,
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/// The step failed because appropriate locks could not be acquired. This is
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/// not a fatal error - the step can be retried.
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Busy,
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/// The step failed because the source connection was writing to the
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/// database. This is not a fatal error - the step can be retried.
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Locked,
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}
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/// Struct specifying the progress of a backup. The
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/// percentage completion can be calculated as `(pagecount - remaining) /
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/// pagecount`. The progress of a backup is as of the last call to
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/// [`step`](Backup::step) - if the source database is modified after a call to
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/// [`step`](Backup::step), the progress value will become outdated and
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/// potentially incorrect.
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#[derive(Copy, Clone, Debug)]
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pub struct Progress {
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/// Number of pages in the source database that still need to be backed up.
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pub remaining: c_int,
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/// Total number of pages in the source database.
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pub pagecount: c_int,
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}
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/// A handle to an online backup.
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pub struct Backup<'a, 'b> {
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phantom_from: PhantomData<&'a Connection>,
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to: &'b Connection,
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b: *mut ffi::sqlite3_backup,
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}
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impl Backup<'_, '_> {
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/// Attempt to create a new handle that will allow backups from `from` to
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/// `to`. Note that `to` is a `&mut` - this is because SQLite forbids any
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/// API calls on the destination of a backup while the backup is taking
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/// place.
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///
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/// # Failure
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///
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/// Will return `Err` if the underlying `sqlite3_backup_init` call returns
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/// `NULL`.
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#[inline]
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pub fn new<'a, 'b>(from: &'a Connection, to: &'b mut Connection) -> Result<Backup<'a, 'b>> {
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Backup::new_with_names(from, DatabaseName::Main, to, DatabaseName::Main)
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}
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/// Attempt to create a new handle that will allow backups from the
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/// `from_name` database of `from` to the `to_name` database of `to`. Note
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/// that `to` is a `&mut` - this is because SQLite forbids any API calls on
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/// the destination of a backup while the backup is taking place.
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///
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/// # Failure
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///
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/// Will return `Err` if the underlying `sqlite3_backup_init` call returns
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/// `NULL`.
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pub fn new_with_names<'a, 'b>(
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from: &'a Connection,
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from_name: DatabaseName<'_>,
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to: &'b mut Connection,
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to_name: DatabaseName<'_>,
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) -> Result<Backup<'a, 'b>> {
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let to_name = to_name.as_cstring()?;
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let from_name = from_name.as_cstring()?;
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let to_db = to.db.borrow_mut().db;
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let b = unsafe {
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let b = ffi::sqlite3_backup_init(
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to_db,
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to_name.as_ptr(),
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from.db.borrow_mut().db,
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from_name.as_ptr(),
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);
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if b.is_null() {
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return Err(error_from_handle(to_db, ffi::sqlite3_errcode(to_db)));
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}
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b
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};
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Ok(Backup {
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phantom_from: PhantomData,
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to,
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b,
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})
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}
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/// Gets the progress of the backup as of the last call to
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/// [`step`](Backup::step).
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#[inline]
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pub fn progress(&self) -> Progress {
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unsafe {
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Progress {
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remaining: ffi::sqlite3_backup_remaining(self.b),
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pagecount: ffi::sqlite3_backup_pagecount(self.b),
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}
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}
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}
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/// Attempts to back up the given number of pages. If `num_pages` is
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/// negative, will attempt to back up all remaining pages. This will hold a
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/// lock on the source database for the duration, so it is probably not
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/// what you want for databases that are currently active (see
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/// [`run_to_completion`](Backup::run_to_completion) for a better
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/// alternative).
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///
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/// # Failure
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///
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/// Will return `Err` if the underlying `sqlite3_backup_step` call returns
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/// an error code other than `DONE`, `OK`, `BUSY`, or `LOCKED`. `BUSY` and
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/// `LOCKED` are transient errors and are therefore returned as possible
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/// `Ok` values.
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#[inline]
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pub fn step(&self, num_pages: c_int) -> Result<StepResult> {
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use self::StepResult::{Busy, Done, Locked, More};
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let rc = unsafe { ffi::sqlite3_backup_step(self.b, num_pages) };
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match rc {
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ffi::SQLITE_DONE => Ok(Done),
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ffi::SQLITE_OK => Ok(More),
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ffi::SQLITE_BUSY => Ok(Busy),
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ffi::SQLITE_LOCKED => Ok(Locked),
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_ => self.to.decode_result(rc).map(|_| More),
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}
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}
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/// Attempts to run the entire backup. Will call
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/// [`step(pages_per_step)`](Backup::step) as many times as necessary,
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/// sleeping for `pause_between_pages` between each call to give the
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/// source database time to process any pending queries. This is a
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/// direct implementation of "Example 2: Online Backup of a Running
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/// Database" from [SQLite's Online Backup API documentation](https://www.sqlite.org/backup.html).
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///
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/// If `progress` is not `None`, it will be called after each step with the
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/// current progress of the backup. Note that is possible the progress may
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/// not change if the step returns `Busy` or `Locked` even though the
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/// backup is still running.
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///
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/// # Failure
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///
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/// Will return `Err` if any of the calls to [`step`](Backup::step) return
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/// `Err`.
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pub fn run_to_completion(
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&self,
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pages_per_step: c_int,
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pause_between_pages: Duration,
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progress: Option<fn(Progress)>,
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) -> Result<()> {
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use self::StepResult::{Busy, Done, Locked, More};
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assert!(pages_per_step > 0, "pages_per_step must be positive");
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loop {
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let r = self.step(pages_per_step)?;
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if let Some(progress) = progress {
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progress(self.progress())
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}
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match r {
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More | Busy | Locked => thread::sleep(pause_between_pages),
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Done => return Ok(()),
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}
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}
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}
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}
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impl Drop for Backup<'_, '_> {
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#[inline]
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fn drop(&mut self) {
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unsafe { ffi::sqlite3_backup_finish(self.b) };
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}
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}
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#[cfg(test)]
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mod test {
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use super::Backup;
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use crate::{Connection, DatabaseName, Result};
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use std::time::Duration;
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#[test]
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fn test_backup() -> Result<()> {
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let src = Connection::open_in_memory()?;
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let sql = "BEGIN;
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CREATE TABLE foo(x INTEGER);
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INSERT INTO foo VALUES(42);
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END;";
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src.execute_batch(sql)?;
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let mut dst = Connection::open_in_memory()?;
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{
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let backup = Backup::new(&src, &mut dst)?;
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backup.step(-1)?;
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}
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let the_answer: i64 = dst.query_row("SELECT x FROM foo", [], |r| r.get(0))?;
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assert_eq!(42, the_answer);
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src.execute_batch("INSERT INTO foo VALUES(43)")?;
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{
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let backup = Backup::new(&src, &mut dst)?;
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backup.run_to_completion(5, Duration::from_millis(250), None)?;
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}
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let the_answer: i64 = dst.query_row("SELECT SUM(x) FROM foo", [], |r| r.get(0))?;
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assert_eq!(42 + 43, the_answer);
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Ok(())
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}
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#[test]
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fn test_backup_temp() -> Result<()> {
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let src = Connection::open_in_memory()?;
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let sql = "BEGIN;
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CREATE TEMPORARY TABLE foo(x INTEGER);
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INSERT INTO foo VALUES(42);
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END;";
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src.execute_batch(sql)?;
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let mut dst = Connection::open_in_memory()?;
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{
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let backup =
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Backup::new_with_names(&src, DatabaseName::Temp, &mut dst, DatabaseName::Main)?;
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backup.step(-1)?;
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}
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let the_answer: i64 = dst.query_row("SELECT x FROM foo", [], |r| r.get(0))?;
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assert_eq!(42, the_answer);
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src.execute_batch("INSERT INTO foo VALUES(43)")?;
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{
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let backup =
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Backup::new_with_names(&src, DatabaseName::Temp, &mut dst, DatabaseName::Main)?;
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backup.run_to_completion(5, Duration::from_millis(250), None)?;
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}
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let the_answer: i64 = dst.query_row("SELECT SUM(x) FROM foo", [], |r| r.get(0))?;
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assert_eq!(42 + 43, the_answer);
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Ok(())
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}
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#[test]
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fn test_backup_attached() -> Result<()> {
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let src = Connection::open_in_memory()?;
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let sql = "ATTACH DATABASE ':memory:' AS my_attached;
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BEGIN;
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CREATE TABLE my_attached.foo(x INTEGER);
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INSERT INTO my_attached.foo VALUES(42);
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END;";
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src.execute_batch(sql)?;
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let mut dst = Connection::open_in_memory()?;
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{
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let backup = Backup::new_with_names(
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&src,
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DatabaseName::Attached("my_attached"),
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&mut dst,
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DatabaseName::Main,
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)?;
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backup.step(-1)?;
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}
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let the_answer: i64 = dst.query_row("SELECT x FROM foo", [], |r| r.get(0))?;
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assert_eq!(42, the_answer);
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src.execute_batch("INSERT INTO foo VALUES(43)")?;
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{
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let backup = Backup::new_with_names(
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&src,
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DatabaseName::Attached("my_attached"),
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&mut dst,
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DatabaseName::Main,
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)?;
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backup.run_to_completion(5, Duration::from_millis(250), None)?;
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}
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let the_answer: i64 = dst.query_row("SELECT SUM(x) FROM foo", [], |r| r.get(0))?;
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assert_eq!(42 + 43, the_answer);
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Ok(())
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}
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}
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