//! [Session Extension](https://sqlite.org/sessionintro.html) #![allow(non_camel_case_types)] use std::ffi::CStr; use std::io::{Read, Write}; use std::marker::PhantomData; use std::mem; use std::os::raw::{c_char, c_int, c_uchar, c_void}; use std::panic::{catch_unwind, RefUnwindSafe}; use std::ptr; use std::slice::{from_raw_parts, from_raw_parts_mut}; use fallible_streaming_iterator::FallibleStreamingIterator; use crate::error::error_from_sqlite_code; use crate::ffi; use crate::hooks::Action; use crate::types::ValueRef; use crate::{errmsg_to_string, str_to_cstring, Connection, DatabaseName, Result}; // https://sqlite.org/session.html /// An instance of this object is a session that can be used to record changes /// to a database. pub struct Session<'conn> { phantom: PhantomData<&'conn ()>, s: *mut ffi::sqlite3_session, filter: Option bool>>, } impl<'conn> Session<'conn> { /// Create a new session object pub fn new(db: &'conn Connection) -> Result> { Session::new_with_name(db, DatabaseName::Main) } /// Create a new session object pub fn new_with_name(db: &'conn Connection, name: DatabaseName<'_>) -> Result> { let name = name.to_cstring()?; let db = db.db.borrow_mut().db; let mut s: *mut ffi::sqlite3_session = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3session_create(db, name.as_ptr(), &mut s) }); Ok(Session { phantom: PhantomData, s, filter: None, }) } /// Set a table filter pub fn table_filter(&mut self, filter: Option) where F: Fn(&str) -> bool + Send + RefUnwindSafe + 'static, { unsafe extern "C" fn call_boxed_closure( p_arg: *mut c_void, tbl_str: *const c_char, ) -> c_int where F: Fn(&str) -> bool + RefUnwindSafe, { use std::ffi::CStr; use std::str; let boxed_filter: *mut F = p_arg as *mut F; let tbl_name = { let c_slice = CStr::from_ptr(tbl_str).to_bytes(); str::from_utf8_unchecked(c_slice) }; if let Ok(true) = catch_unwind(|| (*boxed_filter)(tbl_name)) { 1 } else { 0 } } match filter { Some(filter) => { let boxed_filter = Box::new(filter); unsafe { ffi::sqlite3session_table_filter( self.s, Some(call_boxed_closure::), &*boxed_filter as *const F as *mut _, ); } self.filter = Some(boxed_filter); } _ => { unsafe { ffi::sqlite3session_table_filter(self.s, None, ptr::null_mut()) } self.filter = None; } }; } /// Attach a table. `None` means all tables. pub fn attach(&mut self, table: Option<&str>) -> Result<()> { let table = if let Some(table) = table { str_to_cstring(table)?.as_ptr() } else { ptr::null() }; unsafe { check!(ffi::sqlite3session_attach(self.s, table)) }; Ok(()) } /// Generate a Changeset pub fn changeset(&mut self) -> Result { let mut n = 0; let mut cs: *mut c_void = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3session_changeset(self.s, &mut n, &mut cs) }); Ok(Changeset { cs, n }) } /// Write the set of changes represented by this session to `output`. pub fn changeset_strm(&mut self, output: &mut dyn Write) -> Result<()> { let output_ref = &output; check!(unsafe { ffi::sqlite3session_changeset_strm( self.s, Some(x_output), output_ref as *const &mut dyn Write as *mut c_void, ) }); Ok(()) } /// Generate a Patchset pub fn patchset(&mut self) -> Result { let mut n = 0; let mut ps: *mut c_void = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3session_patchset(self.s, &mut n, &mut ps) }); // TODO Validate: same struct Ok(Changeset { cs: ps, n }) } /// Write the set of patches represented by this session to `output`. pub fn patchset_strm(&mut self, output: &mut dyn Write) -> Result<()> { let output_ref = &output; check!(unsafe { ffi::sqlite3session_patchset_strm( self.s, Some(x_output), output_ref as *const &mut dyn Write as *mut c_void, ) }); Ok(()) } /// Load the difference between tables. pub fn diff(&mut self, from: DatabaseName<'_>, table: &str) -> Result<()> { let from = from.to_cstring()?; let table = str_to_cstring(table)?.as_ptr(); unsafe { let mut errmsg: *mut c_char = mem::uninitialized(); let r = ffi::sqlite3session_diff(self.s, from.as_ptr(), table, &mut errmsg); if r != ffi::SQLITE_OK { let message = errmsg_to_string(&*errmsg); ffi::sqlite3_free(errmsg as *mut ::std::os::raw::c_void); return Err(error_from_sqlite_code(r, Some(message))); } } Ok(()) } /// Test if a changeset has recorded any changes pub fn is_empty(&self) -> bool { unsafe { ffi::sqlite3session_isempty(self.s) != 0 } } /// Query the current state of the session pub fn is_enabled(&self) -> bool { unsafe { ffi::sqlite3session_enable(self.s, -1) != 0 } } /// Enable or disable the recording of changes pub fn set_enabled(&mut self, enabled: bool) { unsafe { ffi::sqlite3session_enable(self.s, if enabled { 1 } else { 0 }); } } /// Query the current state of the indirect flag pub fn is_indirect(&self) -> bool { unsafe { ffi::sqlite3session_indirect(self.s, -1) != 0 } } /// Set or clear the indirect change flag pub fn set_indirect(&mut self, indirect: bool) { unsafe { ffi::sqlite3session_indirect(self.s, if indirect { 1 } else { 0 }); } } } impl<'conn> Drop for Session<'conn> { fn drop(&mut self) { if self.filter.is_some() { self.table_filter(None:: bool>); } unsafe { ffi::sqlite3session_delete(self.s) }; } } /// Invert a changeset pub fn invert_strm(input: &mut dyn Read, output: &mut dyn Write) -> Result<()> { let input_ref = &input; let output_ref = &output; check!(unsafe { ffi::sqlite3changeset_invert_strm( Some(x_input), input_ref as *const &mut dyn Read as *mut c_void, Some(x_output), output_ref as *const &mut dyn Write as *mut c_void, ) }); Ok(()) } /// Combine two changesets pub fn concat_strm( input_a: &mut dyn Read, input_b: &mut dyn Read, output: &mut dyn Write, ) -> Result<()> { let input_a_ref = &input_a; let input_b_ref = &input_b; let output_ref = &output; check!(unsafe { ffi::sqlite3changeset_concat_strm( Some(x_input), input_a_ref as *const &mut dyn Read as *mut c_void, Some(x_input), input_b_ref as *const &mut dyn Read as *mut c_void, Some(x_output), output_ref as *const &mut dyn Write as *mut c_void, ) }); Ok(()) } /// Changeset or Patchset pub struct Changeset { cs: *mut c_void, n: c_int, } impl Changeset { /// Invert a changeset pub fn invert(&self) -> Result { let mut n = 0; let mut cs: *mut c_void = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3changeset_invert(self.n, self.cs, &mut n, &mut cs) }); Ok(Changeset { cs, n }) } /// Create an iterator to traverse a changeset pub fn iter(&self) -> Result> { let mut it: *mut ffi::sqlite3_changeset_iter = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3changeset_start(&mut it, self.n, self.cs) }); Ok(ChangesetIter { phantom: PhantomData, it, item: None, }) } /// Concatenate two changeset objects pub fn concat(a: &Changeset, b: &Changeset) -> Result { let mut n = 0; let mut cs: *mut c_void = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3changeset_concat(a.n, a.cs, b.n, b.cs, &mut n, &mut cs) }); Ok(Changeset { cs, n }) } } impl Drop for Changeset { fn drop(&mut self) { unsafe { ffi::sqlite3_free(self.cs); } } } /// Cursor for iterating over the elements of a changeset or patchset. pub struct ChangesetIter<'changeset> { phantom: PhantomData<&'changeset ()>, it: *mut ffi::sqlite3_changeset_iter, item: Option, } impl<'changeset> ChangesetIter<'changeset> { /// Create an iterator on `input` pub fn start_strm<'input>(input: &'input mut dyn Read) -> Result> { let input_ref = &input; let mut it: *mut ffi::sqlite3_changeset_iter = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3changeset_start_strm( &mut it, Some(x_input), input_ref as *const &mut dyn Read as *mut c_void, ) }); Ok(ChangesetIter { phantom: PhantomData, it, item: None, }) } } impl<'changeset> FallibleStreamingIterator for ChangesetIter<'changeset> { type Error = crate::error::Error; type Item = ChangesetItem; fn advance(&mut self) -> Result<()> { let rc = unsafe { ffi::sqlite3changeset_next(self.it) }; match rc { ffi::SQLITE_ROW => { self.item = Some(ChangesetItem { it: self.it }); Ok(()) } ffi::SQLITE_DONE => { self.item = None; Ok(()) } code => Err(error_from_sqlite_code(code, None)), } } fn get(&self) -> Option<&ChangesetItem> { self.item.as_ref() } } pub struct Operation<'item> { table_name: &'item str, number_of_columns: i32, code: Action, indirect: bool, } impl<'item> Operation<'item> { pub fn table_name(&self) -> &str { self.table_name } pub fn number_of_columns(&self) -> i32 { self.number_of_columns } pub fn code(&self) -> Action { self.code } pub fn indirect(&self) -> bool { self.indirect } } impl<'changeset> Drop for ChangesetIter<'changeset> { fn drop(&mut self) { unsafe { ffi::sqlite3changeset_finalize(self.it); } } } /// An item passed to a conflict-handler by `Connection::apply`, /// or an item generated by `ChangesetIter::next`. // TODO enum ? Delete, Insert, Update, ... pub struct ChangesetItem { it: *mut ffi::sqlite3_changeset_iter, } impl ChangesetItem { /// Obtain conflicting row values /// /// May only be called with an `SQLITE_CHANGESET_DATA` or /// `SQLITE_CHANGESET_CONFLICT` conflict handler callback. pub fn conflict(&self, col: usize) -> Result> { unsafe { let mut p_value: *mut ffi::sqlite3_value = mem::uninitialized(); check!(ffi::sqlite3changeset_conflict( self.it, col as i32, &mut p_value )); Ok(ValueRef::from_value(p_value)) } } /// Determine the number of foreign key constraint violations /// /// May only be called with an `SQLITE_CHANGESET_FOREIGN_KEY` conflict /// handler callback. pub fn fk_conflicts(&self) -> Result { unsafe { let mut p_out = 0; check!(ffi::sqlite3changeset_fk_conflicts(self.it, &mut p_out)); Ok(p_out) } } /// Obtain new.* Values /// /// May only be called if the type of change is either `SQLITE_UPDATE` or /// `SQLITE_INSERT`. pub fn new_value(&self, col: usize) -> Result> { unsafe { let mut p_value: *mut ffi::sqlite3_value = mem::uninitialized(); check!(ffi::sqlite3changeset_new(self.it, col as i32, &mut p_value)); Ok(ValueRef::from_value(p_value)) } } /// Obtain old.* Values /// /// May only be called if the type of change is either `SQLITE_DELETE` or /// `SQLITE_UPDATE`. pub fn old_value(&self, col: usize) -> Result> { unsafe { let mut p_value: *mut ffi::sqlite3_value = mem::uninitialized(); check!(ffi::sqlite3changeset_old(self.it, col as i32, &mut p_value)); Ok(ValueRef::from_value(p_value)) } } /// Obtain the current operation pub fn op(&self) -> Result> { let mut number_of_columns = 0; let mut code = 0; let mut indirect = 0; let tab = unsafe { let mut pz_tab: *const c_char = mem::uninitialized(); check!(ffi::sqlite3changeset_op( self.it, &mut pz_tab, &mut number_of_columns, &mut code, &mut indirect )); CStr::from_ptr(pz_tab) }; let table_name = tab.to_str()?; Ok(Operation { table_name, number_of_columns, code: Action::from(code), indirect: indirect != 0, }) } /// Obtain the primary key definition of a table pub fn pk(&self) -> Result<&[u8]> { let mut number_of_columns = 0; unsafe { let mut pks: *mut c_uchar = mem::uninitialized(); check!(ffi::sqlite3changeset_pk( self.it, &mut pks, &mut number_of_columns )); Ok(from_raw_parts(pks, number_of_columns as usize)) } } } /// Used to combine two or more changesets or /// patchsets pub struct Changegroup { cg: *mut ffi::sqlite3_changegroup, } impl Changegroup { pub fn new() -> Result { let mut cg: *mut ffi::sqlite3_changegroup = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3changegroup_new(&mut cg) }); Ok(Changegroup { cg }) } /// Add a changeset pub fn add(&mut self, cs: &Changeset) -> Result<()> { check!(unsafe { ffi::sqlite3changegroup_add(self.cg, cs.n, cs.cs) }); Ok(()) } /// Add a changeset read from `input` to this change group. pub fn add_stream(&mut self, input: &mut dyn Read) -> Result<()> { let input_ref = &input; check!(unsafe { ffi::sqlite3changegroup_add_strm( self.cg, Some(x_input), input_ref as *const &mut dyn Read as *mut c_void, ) }); Ok(()) } /// Obtain a composite Changeset pub fn output(&mut self) -> Result { let mut n = 0; let mut output: *mut c_void = unsafe { mem::uninitialized() }; check!(unsafe { ffi::sqlite3changegroup_output(self.cg, &mut n, &mut output) }); Ok(Changeset { cs: output, n }) } /// Write the combined set of changes to `output`. pub fn output_strm(&mut self, output: &mut dyn Write) -> Result<()> { let output_ref = &output; check!(unsafe { ffi::sqlite3changegroup_output_strm( self.cg, Some(x_output), output_ref as *const &mut dyn Write as *mut c_void, ) }); Ok(()) } } impl Drop for Changegroup { fn drop(&mut self) { unsafe { ffi::sqlite3changegroup_delete(self.cg); } } } impl Connection { /// Apply a changeset to a database pub fn apply(&self, cs: &Changeset, filter: Option, conflict: C) -> Result<()> where F: Fn(&str) -> bool + Send + RefUnwindSafe + 'static, C: Fn(ConflictType, ChangesetItem) -> ConflictAction + Send + RefUnwindSafe + 'static, { let db = self.db.borrow_mut().db; let filtered = filter.is_some(); let tuple = &mut (filter, conflict); check!(unsafe { if filtered { ffi::sqlite3changeset_apply( db, cs.n, cs.cs, Some(call_filter::), Some(call_conflict::), tuple as *mut (Option, C) as *mut c_void, ) } else { ffi::sqlite3changeset_apply( db, cs.n, cs.cs, None, Some(call_conflict::), tuple as *mut (Option, C) as *mut c_void, ) } }); Ok(()) } /// Apply a changeset to a database pub fn apply_strm( &self, input: &mut dyn Read, filter: Option, conflict: C, ) -> Result<()> where F: Fn(&str) -> bool + Send + RefUnwindSafe + 'static, C: Fn(ConflictType, ChangesetItem) -> ConflictAction + Send + RefUnwindSafe + 'static, { let input_ref = &input; let db = self.db.borrow_mut().db; let filtered = filter.is_some(); let tuple = &mut (filter, conflict); check!(unsafe { if filtered { ffi::sqlite3changeset_apply_strm( db, Some(x_input), input_ref as *const &mut dyn Read as *mut c_void, Some(call_filter::), Some(call_conflict::), tuple as *mut (Option, C) as *mut c_void, ) } else { ffi::sqlite3changeset_apply_strm( db, Some(x_input), input_ref as *const &mut dyn Read as *mut c_void, None, Some(call_conflict::), tuple as *mut (Option, C) as *mut c_void, ) } }); Ok(()) } } /// Constants passed to the conflict handler #[repr(i32)] #[derive(Debug, PartialEq)] pub enum ConflictType { UNKNOWN = -1, SQLITE_CHANGESET_DATA = ffi::SQLITE_CHANGESET_DATA, SQLITE_CHANGESET_NOTFOUND = ffi::SQLITE_CHANGESET_NOTFOUND, SQLITE_CHANGESET_CONFLICT = ffi::SQLITE_CHANGESET_CONFLICT, SQLITE_CHANGESET_CONSTRAINT = ffi::SQLITE_CHANGESET_CONSTRAINT, SQLITE_CHANGESET_FOREIGN_KEY = ffi::SQLITE_CHANGESET_FOREIGN_KEY, } impl From for ConflictType { fn from(code: i32) -> ConflictType { match code { ffi::SQLITE_CHANGESET_DATA => ConflictType::SQLITE_CHANGESET_DATA, ffi::SQLITE_CHANGESET_NOTFOUND => ConflictType::SQLITE_CHANGESET_NOTFOUND, ffi::SQLITE_CHANGESET_CONFLICT => ConflictType::SQLITE_CHANGESET_CONFLICT, ffi::SQLITE_CHANGESET_CONSTRAINT => ConflictType::SQLITE_CHANGESET_CONSTRAINT, ffi::SQLITE_CHANGESET_FOREIGN_KEY => ConflictType::SQLITE_CHANGESET_FOREIGN_KEY, _ => ConflictType::UNKNOWN, } } } /// Constants returned by the conflict handler #[repr(i32)] #[derive(Debug, PartialEq)] pub enum ConflictAction { SQLITE_CHANGESET_OMIT = ffi::SQLITE_CHANGESET_OMIT, SQLITE_CHANGESET_REPLACE = ffi::SQLITE_CHANGESET_REPLACE, SQLITE_CHANGESET_ABORT = ffi::SQLITE_CHANGESET_ABORT, } unsafe extern "C" fn call_filter(p_ctx: *mut c_void, tbl_str: *const c_char) -> c_int where F: Fn(&str) -> bool + Send + RefUnwindSafe + 'static, C: Fn(ConflictType, ChangesetItem) -> ConflictAction + Send + RefUnwindSafe + 'static, { use std::ffi::CStr; use std::str; let tuple: *mut (Option, C) = p_ctx as *mut (Option, C); let tbl_name = { let c_slice = CStr::from_ptr(tbl_str).to_bytes(); str::from_utf8_unchecked(c_slice) }; match *tuple { (Some(ref filter), _) => { if let Ok(true) = catch_unwind(|| filter(tbl_name)) { 1 } else { 0 } } _ => unimplemented!(), } } unsafe extern "C" fn call_conflict( p_ctx: *mut c_void, e_conflict: c_int, p: *mut ffi::sqlite3_changeset_iter, ) -> c_int where F: Fn(&str) -> bool + Send + RefUnwindSafe + 'static, C: Fn(ConflictType, ChangesetItem) -> ConflictAction + Send + RefUnwindSafe + 'static, { let tuple: *mut (Option, C) = p_ctx as *mut (Option, C); let conflict_type = ConflictType::from(e_conflict); let item = ChangesetItem { it: p }; if let Ok(action) = catch_unwind(|| (*tuple).1(conflict_type, item)) { action as c_int } else { ffi::SQLITE_CHANGESET_ABORT } } unsafe extern "C" fn x_input(p_in: *mut c_void, data: *mut c_void, len: *mut c_int) -> c_int { if p_in.is_null() { return ffi::SQLITE_MISUSE; } let bytes: &mut [u8] = from_raw_parts_mut(data as *mut u8, len as usize); let input = p_in as *mut &mut dyn Read; match (*input).read(bytes) { Ok(n) => { *len = n as i32; // TODO Validate: n = 0 may not mean the reader will always no longer be able to // produce bytes. ffi::SQLITE_OK } Err(_) => ffi::SQLITE_IOERR_READ, // TODO check if err is a (ru)sqlite Error => propagate } } unsafe extern "C" fn x_output(p_out: *mut c_void, data: *const c_void, len: c_int) -> c_int { if p_out.is_null() { return ffi::SQLITE_MISUSE; } // The sessions module never invokes an xOutput callback with the third // parameter set to a value less than or equal to zero. let bytes: &[u8] = from_raw_parts(data as *const u8, len as usize); let output = p_out as *mut &mut dyn Write; match (*output).write_all(bytes) { Ok(_) => ffi::SQLITE_OK, Err(_) => ffi::SQLITE_IOERR_WRITE, // TODO check if err is a (ru)sqlite Error => propagate } } #[cfg(test)] mod test { use fallible_streaming_iterator::FallibleStreamingIterator; use std::sync::atomic::{AtomicBool, Ordering}; use super::{Changeset, ChangesetIter, ConflictAction, ConflictType, Session}; use crate::hooks::Action; use crate::Connection; fn one_changeset() -> Changeset { let db = Connection::open_in_memory().unwrap(); db.execute_batch("CREATE TABLE foo(t TEXT PRIMARY KEY NOT NULL);") .unwrap(); let mut session = Session::new(&db).unwrap(); assert!(session.is_empty()); session.attach(None).unwrap(); db.execute("INSERT INTO foo (t) VALUES (?);", &["bar"]) .unwrap(); session.changeset().unwrap() } fn one_changeset_strm() -> Vec { let db = Connection::open_in_memory().unwrap(); db.execute_batch("CREATE TABLE foo(t TEXT PRIMARY KEY NOT NULL);") .unwrap(); let mut session = Session::new(&db).unwrap(); assert!(session.is_empty()); session.attach(None).unwrap(); db.execute("INSERT INTO foo (t) VALUES (?);", &["bar"]) .unwrap(); let mut output = Vec::new(); session.changeset_strm(&mut output).unwrap(); output } #[test] fn test_changeset() { let changeset = one_changeset(); let mut iter = changeset.iter().unwrap(); let item = iter.next().unwrap(); assert!(item.is_some()); let item = item.unwrap(); let op = item.op().unwrap(); assert_eq!("foo", op.table_name()); assert_eq!(1, op.number_of_columns()); assert_eq!(Action::SQLITE_INSERT, op.code()); assert_eq!(false, op.indirect()); let pk = item.pk().unwrap(); assert_eq!(&[1], pk); let new_value = item.new_value(0).unwrap(); assert_eq!(Ok("bar"), new_value.as_str()); } #[test] fn test_changeset_strm() { let output = one_changeset_strm(); assert!(!output.is_empty()); assert_eq!(14, output.len()); let mut input = output.as_slice(); let mut iter = ChangesetIter::start_strm(&mut input).unwrap(); let item = iter.next().unwrap(); assert!(item.is_some()); } #[test] fn test_changeset_apply() { let changeset = one_changeset(); let db = Connection::open_in_memory().unwrap(); db.execute_batch("CREATE TABLE foo(t TEXT PRIMARY KEY NOT NULL);") .unwrap(); lazy_static! { static ref CALLED: AtomicBool = AtomicBool::new(false); } db.apply( &changeset, None:: bool>, |_conflict_type, _item| { CALLED.store(true, Ordering::Relaxed); ConflictAction::SQLITE_CHANGESET_OMIT }, ) .unwrap(); assert!(!CALLED.load(Ordering::Relaxed)); let check = db .query_row("SELECT 1 FROM foo WHERE t = ?", &["bar"], |row| { row.get::<_, i32>(0) }) .unwrap(); assert_eq!(1, check); // conflict expected when same changeset applied again on the same db db.apply( &changeset, None:: bool>, |conflict_type, item| { CALLED.store(true, Ordering::Relaxed); assert_eq!(ConflictType::SQLITE_CHANGESET_CONFLICT, conflict_type); let conflict = item.conflict(0).unwrap(); assert_eq!(Ok("bar"), conflict.as_str()); ConflictAction::SQLITE_CHANGESET_OMIT }, ) .unwrap(); assert!(CALLED.load(Ordering::Relaxed)); } #[test] fn test_changeset_apply_strm() { let output = one_changeset_strm(); let db = Connection::open_in_memory().unwrap(); db.execute_batch("CREATE TABLE foo(t TEXT PRIMARY KEY NOT NULL);") .unwrap(); db.apply_strm( &mut output.as_slice(), None:: bool>, |_conflict_type, _item| ConflictAction::SQLITE_CHANGESET_OMIT, ) .unwrap(); let check = db .query_row("SELECT 1 FROM foo WHERE t = ?", &["bar"], |row| { row.get::<_, i32>(0) }) .unwrap(); assert_eq!(1, check); } #[test] fn test_session_empty() { let db = Connection::open_in_memory().unwrap(); db.execute_batch("CREATE TABLE foo(t TEXT PRIMARY KEY NOT NULL);") .unwrap(); let mut session = Session::new(&db).unwrap(); assert!(session.is_empty()); session.attach(None).unwrap(); db.execute("INSERT INTO foo (t) VALUES (?);", &["bar"]) .unwrap(); assert!(!session.is_empty()); } #[test] fn test_session_set_enabled() { let db = Connection::open_in_memory().unwrap(); let mut session = Session::new(&db).unwrap(); assert!(session.is_enabled()); session.set_enabled(false); assert!(!session.is_enabled()); } #[test] fn test_session_set_indirect() { let db = Connection::open_in_memory().unwrap(); let mut session = Session::new(&db).unwrap(); assert!(!session.is_indirect()); session.set_indirect(true); assert!(session.is_indirect()); } }