|
|
|
|
Quelle mod.rs
Sprache: unbekannt
|
|
//! Create virtual tables.
//!
//! Follow these steps to create your own virtual table:
//! 1. Write implementation of [`VTab`] and [`VTabCursor`] traits.
//! 2. Create an instance of the [`Module`] structure specialized for [`VTab`]
//! impl. from step 1.
//! 3. Register your [`Module`] structure using [`Connection::create_module`].
//! 4. Run a `CREATE VIRTUAL TABLE` command that specifies the new module in the
//! `USING` clause.
//!
//! (See [SQLite doc]( http://sqlite.org/vtab.html))
use std::borrow::Cow::{self, Borrowed, Owned};
use std::marker::PhantomData;
use std::marker::Sync;
use std::os::raw::{c_char, c_int, c_void};
use std::ptr;
use std::slice;
use crate::context::set_result;
use crate::error::{error_from_sqlite_code, to_sqlite_error};
use crate::ffi;
pub use crate::ffi::{sqlite3_vtab, sqlite3_vtab_cursor};
use crate::types::{FromSql, FromSqlError, ToSql, ValueRef};
use crate::util::alloc;
use crate::{str_to_cstring, Connection, Error, InnerConnection, Result};
// let conn: Connection = ...;
// let mod: Module = ...; // VTab builder
// conn.create_module("module", mod);
//
// conn.execute("CREATE VIRTUAL TABLE foo USING module(...)");
// \-> Module::xcreate
// |-> let vtab: VTab = ...; // on the heap
// \-> conn.declare_vtab("CREATE TABLE foo (...)");
// conn = Connection::open(...);
// \-> Module::xconnect
// |-> let vtab: VTab = ...; // on the heap
// \-> conn.declare_vtab("CREATE TABLE foo (...)");
//
// conn.close();
// \-> vtab.xdisconnect
// conn.execute("DROP TABLE foo");
// \-> vtab.xDestroy
//
// let stmt = conn.prepare("SELECT ... FROM foo WHERE ...");
// \-> vtab.xbestindex
// stmt.query().next();
// \-> vtab.xopen
// |-> let cursor: VTabCursor = ...; // on the heap
// |-> cursor.xfilter or xnext
// |-> cursor.xeof
// \-> if not eof { cursor.column or xrowid } else { cursor.xclose }
//
// db: *mut ffi::sqlite3 => VTabConnection
// module: *const ffi::sqlite3_module => Module
// aux: *mut c_void => Module::Aux
// ffi::sqlite3_vtab => VTab
// ffi::sqlite3_vtab_cursor => VTabCursor
/// Virtual table kind
pub enum VTabKind {
/// Non-eponymous
Default,
/// [`create`](CreateVTab::create) == [`connect`](VTab::connect)
///
/// See [SQLite doc]( https://sqlite.org/vtab.html#eponymous_virtual_tables)
Eponymous,
/// No [`create`](CreateVTab::create) / [`destroy`](CreateVTab::destroy) or
/// not used
///
/// SQLite >= 3.9.0
///
/// See [SQLite doc]( https://sqlite.org/vtab.html#eponymous_only_virtual_tables)
EponymousOnly,
}
/// Virtual table module
///
/// (See [SQLite doc]( https://sqlite.org/c3ref/module.html))
#[repr(transparent)]
pub struct Module<'vtab, T: VTab<'vtab>> {
base: ffi::sqlite3_module,
phantom: PhantomData<&'vtab T>,
}
unsafe impl<'vtab, T: VTab<'vtab>> Send for Module<'vtab, T> {}
unsafe impl<'vtab, T: VTab<'vtab>> Sync for Module<'vtab, T> {}
union ModuleZeroHack {
bytes: [u8; std::mem::size_of::<ffi::sqlite3_module>()],
module: ffi::sqlite3_module,
}
// Used as a trailing initializer for sqlite3_module -- this way we avoid having
// the build fail if buildtime_bindgen is on. This is safe, as bindgen-generated
// structs are allowed to be zeroed.
const ZERO_MODULE: ffi::sqlite3_module = unsafe {
ModuleZeroHack {
bytes: [0_u8; std::mem::size_of::<ffi::sqlite3_module>()],
}
.module
};
macro_rules! module {
($lt:lifetime, $vt:ty, $ct:ty, $xc:expr, $xd:expr, $xu:expr) => {
#[allow(clippy::needless_update)]
&Module {
base: ffi::sqlite3_module {
// We don't use V3
iVersion: 2,
xCreate: $xc,
xConnect: Some(rust_connect::<$vt>),
xBestIndex: Some(rust_best_index::<$vt>),
xDisconnect: Some(rust_disconnect::<$vt>),
xDestroy: $xd,
xOpen: Some(rust_open::<$vt>),
xClose: Some(rust_close::<$ct>),
xFilter: Some(rust_filter::<$ct>),
xNext: Some(rust_next::<$ct>),
xEof: Some(rust_eof::<$ct>),
xColumn: Some(rust_column::<$ct>),
xRowid: Some(rust_rowid::<$ct>), // FIXME optional
xUpdate: $xu,
xBegin: None,
xSync: None,
xCommit: None,
xRollback: None,
xFindFunction: None,
xRename: None,
xSavepoint: None,
xRelease: None,
xRollbackTo: None,
..ZERO_MODULE
},
phantom: PhantomData::<&$lt $vt>,
}
};
}
/// Create an modifiable virtual table implementation.
///
/// Step 2 of [Creating New Virtual Table Implementations]( https://sqlite.org/vtab.html#creating_new_virtual_table_implementations).
#[must_use]
pub fn update_module<'vtab, T: UpdateVTab<'vtab>>() -> &'static Module<'vtab, T> {
match T::KIND {
VTabKind::EponymousOnly => {
module!('vtab, T, T::Cursor, None, None, Some(rust_update::<T>))
}
VTabKind::Eponymous => {
module!('vtab, T, T::Cursor, Some(rust_connect::<T>), Some(rust_disconnect::<T>), Some(ru st_update::<T>))
}
_ => {
module!('vtab, T, T::Cursor, Some(rust_create::<T>), Some(rust_destroy::<T>), Some(rust_update::<T>))
}
}
}
/// Create a read-only virtual table implementation.
///
/// Step 2 of [Creating New Virtual Table Implementations](https://sqlite.org/vtab.html#creating_new_virtual_table_implementations).
#[must_use]
pub fn read_only_module<'vtab, T: CreateVTab<'vtab>>() -> &'static Module<'vtab, T> {
match T::KIND {
VTabKind::EponymousOnly => eponymous_only_module(),
VTabKind::Eponymous => {
// A virtual table is eponymous if its xCreate method is the exact same function
// as the xConnect method
module!('vtab, T, T::Cursor, Some(rust_connect::<T>), Some(rust_disconnect::<T>), None)
}
_ => {
// The xConnect and xCreate methods may do the same thing, but they must be
// different so that the virtual table is not an eponymous virtual table.
module!('vtab, T, T::Cursor, Some(rust_create::<T>), Some(rust_destroy::<T>), None)
}
}
}
/// Create an eponymous only virtual table implementation.
///
/// Step 2 of [Creating New Virtual Table Implementations](https://sqlite.org/vtab.html#creating_new_virtual_table_implementations).
#[must_use]
pub fn eponymous_only_module<'vtab, T: VTab<'vtab>>() -> &'static Module<'vtab, T> {
// For eponymous-only virtual tables, the xCreate method is NULL
module!('vtab, T, T::Cursor, None, None, None)
}
/// Virtual table configuration options
#[repr(i32)]
#[non_exhaustive]
#[derive(Debug, Clone, Copy, Eq, PartialEq)]
pub enum VTabConfig {
/// Equivalent to SQLITE_VTAB_CONSTRAINT_SUPPORT
ConstraintSupport = 1,
/// Equivalent to SQLITE_VTAB_INNOCUOUS
Innocuous = 2,
/// Equivalent to SQLITE_VTAB_DIRECTONLY
DirectOnly = 3,
/// Equivalent to SQLITE_VTAB_USES_ALL_SCHEMAS
UsesAllSchemas = 4,
}
/// `feature = "vtab"`
pub struct VTabConnection(*mut ffi::sqlite3);
impl VTabConnection {
/// Configure various facets of the virtual table interface
pub fn config(&mut self, config: VTabConfig) -> Result<()> {
crate::error::check(unsafe { ffi::sqlite3_vtab_config(self.0, config as c_int) })
}
// TODO sqlite3_vtab_on_conflict (http://sqlite.org/c3ref/vtab_on_conflict.html) & xUpdate
/// Get access to the underlying SQLite database connection handle.
///
/// # Warning
///
/// You should not need to use this function. If you do need to, please
/// [open an issue on the rusqlite repository](https://github.com/rusqlite/rusqlite/issues) and describe
/// your use case.
///
/// # Safety
///
/// This function is unsafe because it gives you raw access
/// to the SQLite connection, and what you do with it could impact the
/// safety of this `Connection`.
pub unsafe fn handle(&mut self) -> *mut ffi::sqlite3 {
self.0
}
}
/// Eponymous-only virtual table instance trait.
///
/// # Safety
///
/// The first item in a struct implementing `VTab` must be
/// `rusqlite::sqlite3_vtab`, and the struct must be `#[repr(C)]`.
///
/// ```rust,ignore
/// #[repr(C)]
/// struct MyTab {
/// /// Base class. Must be first
/// base: rusqlite::vtab::sqlite3_vtab,
/// /* Virtual table implementations will typically add additional fields */
/// }
/// ```
///
/// (See [SQLite doc](https://sqlite.org/c3ref/vtab.html))
pub unsafe trait VTab<'vtab>: Sized {
/// Client data passed to [`Connection::create_module`].
type Aux;
/// Specific cursor implementation
type Cursor: VTabCursor;
/// Establish a new connection to an existing virtual table.
///
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xconnect_method))
fn connect(
db: &mut VTabConnection,
aux: Option<&Self::Aux>,
args: &[&[u8]],
) -> Result<(String, Self)>;
/// Determine the best way to access the virtual table.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xbestindex_method))
fn best_index(&self, info: &mut IndexInfo) -> Result<()>;
/// Create a new cursor used for accessing a virtual table.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xopen_method))
fn open(&'vtab mut self) -> Result<Self::Cursor>;
}
/// Read-only virtual table instance trait.
///
/// (See [SQLite doc](https://sqlite.org/c3ref/vtab.html))
pub trait CreateVTab<'vtab>: VTab<'vtab> {
/// For [`EponymousOnly`](VTabKind::EponymousOnly),
/// [`create`](CreateVTab::create) and [`destroy`](CreateVTab::destroy) are
/// not called
const KIND: VTabKind;
/// Create a new instance of a virtual table in response to a CREATE VIRTUAL
/// TABLE statement. The `db` parameter is a pointer to the SQLite
/// database connection that is executing the CREATE VIRTUAL TABLE
/// statement.
///
/// Call [`connect`](VTab::connect) by default.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xcreate_method))
fn create(
db: &mut VTabConnection,
aux: Option<&Self::Aux>,
args: &[&[u8]],
) -> Result<(String, Self)> {
Self::connect(db, aux, args)
}
/// Destroy the underlying table implementation. This method undoes the work
/// of [`create`](CreateVTab::create).
///
/// Do nothing by default.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xdestroy_method))
fn destroy(&self) -> Result<()> {
Ok(())
}
}
/// Writable virtual table instance trait.
///
/// (See [SQLite doc](https://sqlite.org/vtab.html#xupdate))
pub trait UpdateVTab<'vtab>: CreateVTab<'vtab> {
/// Delete rowid or PK
fn delete(&mut self, arg: ValueRef<'_>) -> Result<()>;
/// Insert: `args[0] == NULL: old rowid or PK, args[1]: new rowid or PK,
/// args[2]: ...`
///
/// Return the new rowid.
// TODO Make the distinction between argv[1] == NULL and argv[1] != NULL ?
fn insert(&mut self, args: &Values<'_>) -> Result<i64>;
/// Update: `args[0] != NULL: old rowid or PK, args[1]: new row id or PK,
/// args[2]: ...`
fn update(&mut self, args: &Values<'_>) -> Result<()>;
}
/// Index constraint operator.
/// See [Virtual Table Constraint Operator Codes](https://sqlite.org/c3ref/c_index_constraint_eq.html) for details.
#[derive(Debug, Eq, PartialEq)]
#[allow(non_snake_case, non_camel_case_types, missing_docs)]
#[allow(clippy::upper_case_acronyms)]
pub enum IndexConstraintOp {
SQLITE_INDEX_CONSTRAINT_EQ,
SQLITE_INDEX_CONSTRAINT_GT,
SQLITE_INDEX_CONSTRAINT_LE,
SQLITE_INDEX_CONSTRAINT_LT,
SQLITE_INDEX_CONSTRAINT_GE,
SQLITE_INDEX_CONSTRAINT_MATCH,
SQLITE_INDEX_CONSTRAINT_LIKE, // 3.10.0
SQLITE_INDEX_CONSTRAINT_GLOB, // 3.10.0
SQLITE_INDEX_CONSTRAINT_REGEXP, // 3.10.0
SQLITE_INDEX_CONSTRAINT_NE, // 3.21.0
SQLITE_INDEX_CONSTRAINT_ISNOT, // 3.21.0
SQLITE_INDEX_CONSTRAINT_ISNOTNULL, // 3.21.0
SQLITE_INDEX_CONSTRAINT_ISNULL, // 3.21.0
SQLITE_INDEX_CONSTRAINT_IS, // 3.21.0
SQLITE_INDEX_CONSTRAINT_LIMIT, // 3.38.0
SQLITE_INDEX_CONSTRAINT_OFFSET, // 3.38.0
SQLITE_INDEX_CONSTRAINT_FUNCTION(u8), // 3.25.0
}
impl From<u8> for IndexConstraintOp {
fn from(code: u8) -> IndexConstraintOp {
match code {
2 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_EQ,
4 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_GT,
8 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_LE,
16 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_LT,
32 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_GE,
64 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_MATCH,
65 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_LIKE,
66 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_GLOB,
67 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_REGEXP,
68 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_NE,
69 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_ISNOT,
70 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_ISNOTNULL,
71 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_ISNULL,
72 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_IS,
73 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_LIMIT,
74 => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_OFFSET,
v => IndexConstraintOp::SQLITE_INDEX_CONSTRAINT_FUNCTION(v),
}
}
}
bitflags::bitflags! {
/// Virtual table scan flags
/// See [Function Flags](https://sqlite.org/c3ref/c_index_scan_unique.html) for details.
#[repr(C)]
#[derive(Copy, Clone, Debug)]
pub struct IndexFlags: ::std::os::raw::c_int {
/// Default
const NONE = 0;
/// Scan visits at most 1 row.
const SQLITE_INDEX_SCAN_UNIQUE = ffi::SQLITE_INDEX_SCAN_UNIQUE;
}
}
/// Pass information into and receive the reply from the
/// [`VTab::best_index`] method.
///
/// (See [SQLite doc](http://sqlite.org/c3ref/index_info.html))
#[derive(Debug)]
pub struct IndexInfo(*mut ffi::sqlite3_index_info);
impl IndexInfo {
/// Iterate on index constraint and its associated usage.
#[inline]
pub fn constraints_and_usages(&mut self) -> IndexConstraintAndUsageIter<'_> {
let constraints =
unsafe { slice::from_raw_parts((*self.0).aConstraint, (*self.0).nConstraint as usize) };
let constraint_usages = unsafe {
slice::from_raw_parts_mut((*self.0).aConstraintUsage, (*self.0).nConstraint as usize)
};
IndexConstraintAndUsageIter {
iter: constraints.iter().zip(constraint_usages.iter_mut()),
}
}
/// Record WHERE clause constraints.
#[inline]
#[must_use]
pub fn constraints(&self) -> IndexConstraintIter<'_> {
let constraints =
unsafe { slice::from_raw_parts((*self.0).aConstraint, (*self.0).nConstraint as usize) };
IndexConstraintIter {
iter: constraints.iter(),
}
}
/// Information about the ORDER BY clause.
#[inline]
#[must_use]
pub fn order_bys(&self) -> OrderByIter<'_> {
let order_bys =
unsafe { slice::from_raw_parts((*self.0).aOrderBy, (*self.0).nOrderBy as usize) };
OrderByIter {
iter: order_bys.iter(),
}
}
/// Number of terms in the ORDER BY clause
#[inline]
#[must_use]
pub fn num_of_order_by(&self) -> usize {
unsafe { (*self.0).nOrderBy as usize }
}
/// Information about what parameters to pass to [`VTabCursor::filter`].
#[inline]
pub fn constraint_usage(&mut self, constraint_idx: usize) -> IndexConstraintUsage<'_> {
let constraint_usages = unsafe {
slice::from_raw_parts_mut((*self.0).aConstraintUsage, (*self.0).nConstraint as usize)
};
IndexConstraintUsage(&mut constraint_usages[constraint_idx])
}
/// Number used to identify the index
#[inline]
pub fn set_idx_num(&mut self, idx_num: c_int) {
unsafe {
(*self.0).idxNum = idx_num;
}
}
/// String used to identify the index
pub fn set_idx_str(&mut self, idx_str: &str) {
unsafe {
(*self.0).idxStr = alloc(idx_str);
(*self.0).needToFreeIdxStr = 1;
}
}
/// True if output is already ordered
#[inline]
pub fn set_order_by_consumed(&mut self, order_by_consumed: bool) {
unsafe {
(*self.0).orderByConsumed = order_by_consumed as c_int;
}
}
/// Estimated cost of using this index
#[inline]
pub fn set_estimated_cost(&mut self, estimated_ost: f64) {
unsafe {
(*self.0).estimatedCost = estimated_ost;
}
}
/// Estimated number of rows returned.
#[inline]
pub fn set_estimated_rows(&mut self, estimated_rows: i64) {
unsafe {
(*self.0).estimatedRows = estimated_rows;
}
}
/// Mask of SQLITE_INDEX_SCAN_* flags.
#[inline]
pub fn set_idx_flags(&mut self, flags: IndexFlags) {
unsafe { (*self.0).idxFlags = flags.bits() };
}
/// Mask of columns used by statement
#[inline]
pub fn col_used(&self) -> u64 {
unsafe { (*self.0).colUsed }
}
/// Determine the collation for a virtual table constraint
#[cfg(feature = "modern_sqlite")] // SQLite >= 3.22.0
#[cfg_attr(docsrs, doc(cfg(feature = "modern_sqlite")))]
pub fn collation(&self, constraint_idx: usize) -> Result<&str> {
use std::ffi::CStr;
let idx = constraint_idx as c_int;
let collation = unsafe { ffi::sqlite3_vtab_collation(self.0, idx) };
if collation.is_null() {
return Err(Error::SqliteFailure(
ffi::Error::new(ffi::SQLITE_MISUSE),
Some(format!("{constraint_idx} is out of range")),
));
}
Ok(unsafe { CStr::from_ptr(collation) }.to_str()?)
}
/*/// Determine if a virtual table query is DISTINCT
#[cfg(feature = "modern_sqlite")] // SQLite >= 3.38.0
#[cfg_attr(docsrs, doc(cfg(feature = "modern_sqlite")))]
pub fn distinct(&self) -> c_int {
unsafe { ffi::sqlite3_vtab_distinct(self.0) }
}
/// Constraint values
#[cfg(feature = "modern_sqlite")] // SQLite >= 3.38.0
#[cfg_attr(docsrs, doc(cfg(feature = "modern_sqlite")))]
pub fn set_rhs_value(&mut self, constraint_idx: c_int, value: ValueRef) -> Result<()> {
// TODO ValueRef to sqlite3_value
crate::error::check(unsafe { ffi::sqlite3_vtab_rhs_value(self.O, constraint_idx, value) })
}
/// Identify and handle IN constraints
#[cfg(feature = "modern_sqlite")] // SQLite >= 3.38.0
#[cfg_attr(docsrs, doc(cfg(feature = "modern_sqlite")))]
pub fn set_in_constraint(&mut self, constraint_idx: c_int, b_handle: c_int) -> bool {
unsafe { ffi::sqlite3_vtab_in(self.0, constraint_idx, b_handle) != 0 }
} // TODO sqlite3_vtab_in_first / sqlite3_vtab_in_next https://sqlite.org/c3ref/vtab_in_first.html
*/
}
/// Iterate on index constraint and its associated usage.
pub struct IndexConstraintAndUsageIter<'a> {
iter: std::iter::Zip<
slice::Iter<'a, ffi::sqlite3_index_constraint>,
slice::IterMut<'a, ffi::sqlite3_index_constraint_usage>,
>,
}
impl<'a> Iterator for IndexConstraintAndUsageIter<'a> {
type Item = (IndexConstraint<'a>, IndexConstraintUsage<'a>);
#[inline]
fn next(&mut self) -> Option<(IndexConstraint<'a>, IndexConstraintUsage<'a>)> {
self.iter
.next()
.map(|raw| (IndexConstraint(raw.0), IndexConstraintUsage(raw.1)))
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
/// `feature = "vtab"`
pub struct IndexConstraintIter<'a> {
iter: slice::Iter<'a, ffi::sqlite3_index_constraint>,
}
impl<'a> Iterator for IndexConstraintIter<'a> {
type Item = IndexConstraint<'a>;
#[inline]
fn next(&mut self) -> Option<IndexConstraint<'a>> {
self.iter.next().map(IndexConstraint)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
/// WHERE clause constraint.
pub struct IndexConstraint<'a>(&'a ffi::sqlite3_index_constraint);
impl IndexConstraint<'_> {
/// Column constrained. -1 for ROWID
#[inline]
#[must_use]
pub fn column(&self) -> c_int {
self.0.iColumn
}
/// Constraint operator
#[inline]
#[must_use]
pub fn operator(&self) -> IndexConstraintOp {
IndexConstraintOp::from(self.0.op)
}
/// True if this constraint is usable
#[inline]
#[must_use]
pub fn is_usable(&self) -> bool {
self.0.usable != 0
}
}
/// Information about what parameters to pass to
/// [`VTabCursor::filter`].
pub struct IndexConstraintUsage<'a>(&'a mut ffi::sqlite3_index_constraint_usage);
impl IndexConstraintUsage<'_> {
/// if `argv_index` > 0, constraint is part of argv to
/// [`VTabCursor::filter`]
#[inline]
pub fn set_argv_index(&mut self, argv_index: c_int) {
self.0.argvIndex = argv_index;
}
/// if `omit`, do not code a test for this constraint
#[inline]
pub fn set_omit(&mut self, omit: bool) {
self.0.omit = omit as std::os::raw::c_uchar;
}
}
/// `feature = "vtab"`
pub struct OrderByIter<'a> {
iter: slice::Iter<'a, ffi::sqlite3_index_orderby>,
}
impl<'a> Iterator for OrderByIter<'a> {
type Item = OrderBy<'a>;
#[inline]
fn next(&mut self) -> Option<OrderBy<'a>> {
self.iter.next().map(OrderBy)
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
/// A column of the ORDER BY clause.
pub struct OrderBy<'a>(&'a ffi::sqlite3_index_orderby);
impl OrderBy<'_> {
/// Column number
#[inline]
#[must_use]
pub fn column(&self) -> c_int {
self.0.iColumn
}
/// True for DESC. False for ASC.
#[inline]
#[must_use]
pub fn is_order_by_desc(&self) -> bool {
self.0.desc != 0
}
}
/// Virtual table cursor trait.
///
/// # Safety
///
/// Implementations must be like:
/// ```rust,ignore
/// #[repr(C)]
/// struct MyTabCursor {
/// /// Base class. Must be first
/// base: rusqlite::vtab::sqlite3_vtab_cursor,
/// /* Virtual table implementations will typically add additional fields */
/// }
/// ```
///
/// (See [SQLite doc](https://sqlite.org/c3ref/vtab_cursor.html))
pub unsafe trait VTabCursor: Sized {
/// Begin a search of a virtual table.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xfilter_method))
fn filter(&mut self, idx_num: c_int, idx_str: Option<&str>, args: &Values<'_>) -> Result<()>;
/// Advance cursor to the next row of a result set initiated by
/// [`filter`](VTabCursor::filter). (See [SQLite doc](https://sqlite.org/vtab.html#the_xnext_method))
fn next(&mut self) -> Result<()>;
/// Must return `false` if the cursor currently points to a valid row of
/// data, or `true` otherwise.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xeof_method))
fn eof(&self) -> bool;
/// Find the value for the `i`-th column of the current row.
/// `i` is zero-based so the first column is numbered 0.
/// May return its result back to SQLite using one of the specified `ctx`.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xcolumn_method))
fn column(&self, ctx: &mut Context, i: c_int) -> Result<()>;
/// Return the rowid of row that the cursor is currently pointing at.
/// (See [SQLite doc](https://sqlite.org/vtab.html#the_xrowid_method))
fn rowid(&self) -> Result<i64>;
}
/// Context is used by [`VTabCursor::column`] to specify the
/// cell value.
pub struct Context(*mut ffi::sqlite3_context);
impl Context {
/// Set current cell value
#[inline]
pub fn set_result<T: ToSql>(&mut self, value: &T) -> Result<()> {
let t = value.to_sql()?;
unsafe { set_result(self.0, &[], &t) };
Ok(())
}
// TODO sqlite3_vtab_nochange (http://sqlite.org/c3ref/vtab_nochange.html) // 3.22.0 & xColumn
}
/// Wrapper to [`VTabCursor::filter`] arguments, the values
/// requested by [`VTab::best_index`].
pub struct Values<'a> {
args: &'a [*mut ffi::sqlite3_value],
}
impl Values<'_> {
/// Returns the number of values.
#[inline]
#[must_use]
pub fn len(&self) -> usize {
self.args.len()
}
/// Returns `true` if there is no value.
#[inline]
#[must_use]
pub fn is_empty(&self) -> bool {
self.args.is_empty()
}
/// Returns value at `idx`
pub fn get<T: FromSql>(&self, idx: usize) -> Result<T> {
let arg = self.args[idx];
let value = unsafe { ValueRef::from_value(arg) };
FromSql::column_result(value).map_err(|err| match err {
FromSqlError::InvalidType => Error::InvalidFilterParameterType(idx, value.data_type()),
FromSqlError::Other(err) => {
Error::FromSqlConversionFailure(idx, value.data_type(), err)
}
FromSqlError::InvalidBlobSize { .. } => {
Error::FromSqlConversionFailure(idx, value.data_type(), Box::new(err))
}
FromSqlError::OutOfRange(i) => Error::IntegralValueOutOfRange(idx, i),
})
}
// `sqlite3_value_type` returns `SQLITE_NULL` for pointer.
// So it seems not possible to enhance `ValueRef::from_value`.
#[cfg(feature = "array")]
#[cfg_attr(docsrs, doc(cfg(feature = "array")))]
fn get_array(&self, idx: usize) -> Option<array::Array> {
use crate::types::Value;
let arg = self.args[idx];
let ptr = unsafe { ffi::sqlite3_value_pointer(arg, array::ARRAY_TYPE) };
if ptr.is_null() {
None
} else {
Some(unsafe {
let rc = array::Array::from_raw(ptr as *const Vec<Value>);
let array = rc.clone();
array::Array::into_raw(rc); // don't consume it
array
})
}
}
/// Turns `Values` into an iterator.
#[inline]
#[must_use]
pub fn iter(&self) -> ValueIter<'_> {
ValueIter {
iter: self.args.iter(),
}
}
// TODO sqlite3_vtab_in_first / sqlite3_vtab_in_next https://sqlite.org/c3ref/vtab_in_first.html & 3.38.0
}
impl<'a> IntoIterator for &'a Values<'a> {
type IntoIter = ValueIter<'a>;
type Item = ValueRef<'a>;
#[inline]
fn into_iter(self) -> ValueIter<'a> {
self.iter()
}
}
/// [`Values`] iterator.
pub struct ValueIter<'a> {
iter: slice::Iter<'a, *mut ffi::sqlite3_value>,
}
impl<'a> Iterator for ValueIter<'a> {
type Item = ValueRef<'a>;
#[inline]
fn next(&mut self) -> Option<ValueRef<'a>> {
self.iter
.next()
.map(|&raw| unsafe { ValueRef::from_value(raw) })
}
#[inline]
fn size_hint(&self) -> (usize, Option<usize>) {
self.iter.size_hint()
}
}
impl Connection {
/// Register a virtual table implementation.
///
/// Step 3 of [Creating New Virtual Table
/// Implementations](https://sqlite.org/vtab.html#creating_new_virtual_table_implementations).
#[inline]
pub fn create_module<'vtab, T: VTab<'vtab>>(
&self,
module_name: &str,
module: &'static Module<'vtab, T>,
aux: Option<T::Aux>,
) -> Result<()> {
self.db.borrow_mut().create_module(module_name, module, aux)
}
}
impl InnerConnection {
fn create_module<'vtab, T: VTab<'vtab>>(
&mut self,
module_name: &str,
module: &'static Module<'vtab, T>,
aux: Option<T::Aux>,
) -> Result<()> {
use crate::version;
if version::version_number() < 3_009_000 && module.base.xCreate.is_none() {
return Err(Error::ModuleError(format!(
"Eponymous-only virtual table not supported by SQLite version {}",
version::version()
)));
}
let c_name = str_to_cstring(module_name)?;
let r = match aux {
Some(aux) => {
let boxed_aux: *mut T::Aux = Box::into_raw(Box::new(aux));
unsafe {
ffi::sqlite3_create_module_v2(
self.db(),
c_name.as_ptr(),
&module.base,
boxed_aux.cast::<c_void>(),
Some(free_boxed_value::<T::Aux>),
)
}
}
None => unsafe {
ffi::sqlite3_create_module_v2(
self.db(),
c_name.as_ptr(),
&module.base,
ptr::null_mut(),
None,
)
},
};
self.decode_result(r)
}
}
/// Escape double-quote (`"`) character occurrences by
/// doubling them (`""`).
#[must_use]
pub fn escape_double_quote(identifier: &str) -> Cow<'_, str> {
if identifier.contains('"') {
// escape quote by doubling them
Owned(identifier.replace('"', "\"\""))
} else {
Borrowed(identifier)
}
}
/// Dequote string
#[must_use]
pub fn dequote(s: &str) -> &str {
if s.len() < 2 {
return s;
}
match s.bytes().next() {
Some(b) if b == b'"' || b == b'\'' => match s.bytes().next_back() {
Some(e) if e == b => &s[1..s.len() - 1], // FIXME handle inner escaped quote(s)
_ => s,
},
_ => s,
}
}
/// The boolean can be one of:
/// ```text
/// 1 yes true on
/// 0 no false off
/// ```
#[must_use]
pub fn parse_boolean(s: &str) -> Option<bool> {
if s.eq_ignore_ascii_case("yes")
|| s.eq_ignore_ascii_case("on")
|| s.eq_ignore_ascii_case("true")
|| s.eq("1")
{
Some(true)
} else if s.eq_ignore_ascii_case("no")
|| s.eq_ignore_ascii_case("off")
|| s.eq_ignore_ascii_case("false")
|| s.eq("0")
{
Some(false)
} else {
None
}
}
/// `<param_name>=['"]?<param_value>['"]?` => `(<param_name>, <param_value>)`
pub fn parameter(c_slice: &[u8]) -> Result<(&str, &str)> {
let arg = std::str::from_utf8(c_slice)?.trim();
let mut split = arg.split('=');
if let Some(key) = split.next() {
if let Some(value) = split.next() {
let param = key.trim();
let value = dequote(value);
return Ok((param, value));
}
}
Err(Error::ModuleError(format!("illegal argument: '{arg}'")))
}
// FIXME copy/paste from function.rs
unsafe extern "C" fn free_boxed_value<T>(p: *mut c_void) {
drop(Box::from_raw(p.cast::<T>()));
}
unsafe extern "C" fn rust_create<'vtab, T>(
db: *mut ffi::sqlite3,
aux: *mut c_void,
argc: c_int,
argv: *const *const c_char,
pp_vtab: *mut *mut ffi::sqlite3_vtab,
err_msg: *mut *mut c_char,
) -> c_int
where
T: CreateVTab<'vtab>,
{
use std::ffi::CStr;
let mut conn = VTabConnection(db);
let aux = aux.cast::<T::Aux>();
let args = slice::from_raw_parts(argv, argc as usize);
let vec = args
.iter()
.map(|&cs| CStr::from_ptr(cs).to_bytes()) // FIXME .to_str() -> Result<&str, Utf8Error>
.collect::<Vec<_>>();
match T::create(&mut conn, aux.as_ref(), &vec[..]) {
Ok((sql, vtab)) => match std::ffi::CString::new(sql) {
Ok(c_sql) => {
let rc = ffi::sqlite3_declare_vtab(db, c_sql.as_ptr());
if rc == ffi::SQLITE_OK {
let boxed_vtab: *mut T = Box::into_raw(Box::new(vtab));
*pp_vtab = boxed_vtab.cast::<ffi::sqlite3_vtab>();
ffi::SQLITE_OK
} else {
let err = error_from_sqlite_code(rc, None);
to_sqlite_error(&err, err_msg)
}
}
Err(err) => {
*err_msg = alloc(&err.to_string());
ffi::SQLITE_ERROR
}
},
Err(err) => to_sqlite_error(&err, err_msg),
}
}
unsafe extern "C" fn rust_connect<'vtab, T>(
db: *mut ffi::sqlite3,
aux: *mut c_void,
argc: c_int,
argv: *const *const c_char,
pp_vtab: *mut *mut ffi::sqlite3_vtab,
err_msg: *mut *mut c_char,
) -> c_int
where
T: VTab<'vtab>,
{
use std::ffi::CStr;
let mut conn = VTabConnection(db);
let aux = aux.cast::<T::Aux>();
let args = slice::from_raw_parts(argv, argc as usize);
let vec = args
.iter()
.map(|&cs| CStr::from_ptr(cs).to_bytes()) // FIXME .to_str() -> Result<&str, Utf8Error>
.collect::<Vec<_>>();
match T::connect(&mut conn, aux.as_ref(), &vec[..]) {
Ok((sql, vtab)) => match std::ffi::CString::new(sql) {
Ok(c_sql) => {
let rc = ffi::sqlite3_declare_vtab(db, c_sql.as_ptr());
if rc == ffi::SQLITE_OK {
let boxed_vtab: *mut T = Box::into_raw(Box::new(vtab));
*pp_vtab = boxed_vtab.cast::<ffi::sqlite3_vtab>();
ffi::SQLITE_OK
} else {
let err = error_from_sqlite_code(rc, None);
to_sqlite_error(&err, err_msg)
}
}
Err(err) => {
*err_msg = alloc(&err.to_string());
ffi::SQLITE_ERROR
}
},
Err(err) => to_sqlite_error(&err, err_msg),
}
}
unsafe extern "C" fn rust_best_index<'vtab, T>(
vtab: *mut ffi::sqlite3_vtab,
info: *mut ffi::sqlite3_index_info,
) -> c_int
where
T: VTab<'vtab>,
{
let vt = vtab.cast::<T>();
let mut idx_info = IndexInfo(info);
match (*vt).best_index(&mut idx_info) {
Ok(_) => ffi::SQLITE_OK,
Err(Error::SqliteFailure(err, s)) => {
if let Some(err_msg) = s {
set_err_msg(vtab, &err_msg);
}
err.extended_code
}
Err(err) => {
set_err_msg(vtab, &err.to_string());
ffi::SQLITE_ERROR
}
}
}
unsafe extern "C" fn rust_disconnect<'vtab, T>(vtab: *mut ffi::sqlite3_vtab) -> c_int
where
T: VTab<'vtab>,
{
if vtab.is_null() {
return ffi::SQLITE_OK;
}
let vtab = vtab.cast::<T>();
drop(Box::from_raw(vtab));
ffi::SQLITE_OK
}
unsafe extern "C" fn rust_destroy<'vtab, T>(vtab: *mut ffi::sqlite3_vtab) -> c_int
where
T: CreateVTab<'vtab>,
{
if vtab.is_null() {
return ffi::SQLITE_OK;
}
let vt = vtab.cast::<T>();
match (*vt).destroy() {
Ok(_) => {
drop(Box::from_raw(vt));
ffi::SQLITE_OK
}
Err(Error::SqliteFailure(err, s)) => {
if let Some(err_msg) = s {
set_err_msg(vtab, &err_msg);
}
err.extended_code
}
Err(err) => {
set_err_msg(vtab, &err.to_string());
ffi::SQLITE_ERROR
}
}
}
unsafe extern "C" fn rust_open<'vtab, T: 'vtab>(
vtab: *mut ffi::sqlite3_vtab,
pp_cursor: *mut *mut ffi::sqlite3_vtab_cursor,
) -> c_int
where
T: VTab<'vtab>,
{
let vt = vtab.cast::<T>();
match (*vt).open() {
Ok(cursor) => {
let boxed_cursor: *mut T::Cursor = Box::into_raw(Box::new(cursor));
*pp_cursor = boxed_cursor.cast::<ffi::sqlite3_vtab_cursor>();
ffi::SQLITE_OK
}
Err(Error::SqliteFailure(err, s)) => {
if let Some(err_msg) = s {
set_err_msg(vtab, &err_msg);
}
err.extended_code
}
Err(err) => {
set_err_msg(vtab, &err.to_string());
ffi::SQLITE_ERROR
}
}
}
unsafe extern "C" fn rust_close<C>(cursor: *mut ffi::sqlite3_vtab_cursor) -> c_int
where
C: VTabCursor,
{
let cr = cursor.cast::<C>();
drop(Box::from_raw(cr));
ffi::SQLITE_OK
}
unsafe extern "C" fn rust_filter<C>(
cursor: *mut ffi::sqlite3_vtab_cursor,
idx_num: c_int,
idx_str: *const c_char,
argc: c_int,
argv: *mut *mut ffi::sqlite3_value,
) -> c_int
where
C: VTabCursor,
{
use std::ffi::CStr;
use std::str;
let idx_name = if idx_str.is_null() {
None
} else {
let c_slice = CStr::from_ptr(idx_str).to_bytes();
Some(str::from_utf8_unchecked(c_slice))
};
let args = slice::from_raw_parts_mut(argv, argc as usize);
let values = Values { args };
let cr = cursor as *mut C;
cursor_error(cursor, (*cr).filter(idx_num, idx_name, &values))
}
unsafe extern "C" fn rust_next<C>(cursor: *mut ffi::sqlite3_vtab_cursor) -> c_int
where
C: VTabCursor,
{
let cr = cursor as *mut C;
cursor_error(cursor, (*cr).next())
}
unsafe extern "C" fn rust_eof<C>(cursor: *mut ffi::sqlite3_vtab_cursor) -> c_int
where
C: VTabCursor,
{
let cr = cursor.cast::<C>();
(*cr).eof() as c_int
}
unsafe extern "C" fn rust_column<C>(
cursor: *mut ffi::sqlite3_vtab_cursor,
ctx: *mut ffi::sqlite3_context,
i: c_int,
) -> c_int
where
C: VTabCursor,
{
let cr = cursor.cast::<C>();
let mut ctxt = Context(ctx);
result_error(ctx, (*cr).column(&mut ctxt, i))
}
unsafe extern "C" fn rust_rowid<C>(
cursor: *mut ffi::sqlite3_vtab_cursor,
p_rowid: *mut ffi::sqlite3_int64,
) -> c_int
where
C: VTabCursor,
{
let cr = cursor.cast::<C>();
match (*cr).rowid() {
Ok(rowid) => {
*p_rowid = rowid;
ffi::SQLITE_OK
}
err => cursor_error(cursor, err),
}
}
unsafe extern "C" fn rust_update<'vtab, T: 'vtab>(
vtab: *mut ffi::sqlite3_vtab,
argc: c_int,
argv: *mut *mut ffi::sqlite3_value,
p_rowid: *mut ffi::sqlite3_int64,
) -> c_int
where
T: UpdateVTab<'vtab>,
{
assert!(argc >= 1);
let args = slice::from_raw_parts_mut(argv, argc as usize);
let vt = vtab.cast::<T>();
let r = if args.len() == 1 {
(*vt).delete(ValueRef::from_value(args[0]))
} else if ffi::sqlite3_value_type(args[0]) == ffi::SQLITE_NULL {
// TODO Make the distinction between argv[1] == NULL and argv[1] != NULL ?
let values = Values { args };
match (*vt).insert(&values) {
Ok(rowid) => {
*p_rowid = rowid;
Ok(())
}
Err(e) => Err(e),
}
} else {
let values = Values { args };
(*vt).update(&values)
};
match r {
Ok(_) => ffi::SQLITE_OK,
Err(Error::SqliteFailure(err, s)) => {
if let Some(err_msg) = s {
set_err_msg(vtab, &err_msg);
}
err.extended_code
}
Err(err) => {
set_err_msg(vtab, &err.to_string());
ffi::SQLITE_ERROR
}
}
}
/// Virtual table cursors can set an error message by assigning a string to
/// `zErrMsg`.
#[cold]
unsafe fn cursor_error<T>(cursor: *mut ffi::sqlite3_vtab_cursor, result: Result<T>) -> c_int {
match result {
Ok(_) => ffi::SQLITE_OK,
Err(Error::SqliteFailure(err, s)) => {
if let Some(err_msg) = s {
set_err_msg((*cursor).pVtab, &err_msg);
}
err.extended_code
}
Err(err) => {
set_err_msg((*cursor).pVtab, &err.to_string());
ffi::SQLITE_ERROR
}
}
}
/// Virtual tables methods can set an error message by assigning a string to
/// `zErrMsg`.
#[cold]
unsafe fn set_err_msg(vtab: *mut ffi::sqlite3_vtab, err_msg: &str) {
if !(*vtab).zErrMsg.is_null() {
ffi::sqlite3_free((*vtab).zErrMsg.cast::<c_void>());
}
(*vtab).zErrMsg = alloc(err_msg);
}
/// To raise an error, the `column` method should use this method to set the
/// error message and return the error code.
#[cold]
unsafe fn result_error<T>(ctx: *mut ffi::sqlite3_context, result: Result<T>) -> c_int {
match result {
Ok(_) => ffi::SQLITE_OK,
Err(Error::SqliteFailure(err, s)) => {
match err.extended_code {
ffi::SQLITE_TOOBIG => {
ffi::sqlite3_result_error_toobig(ctx);
}
ffi::SQLITE_NOMEM => {
ffi::sqlite3_result_error_nomem(ctx);
}
code => {
ffi::sqlite3_result_error_code(ctx, code);
if let Some(Ok(cstr)) = s.map(|s| str_to_cstring(&s)) {
ffi::sqlite3_result_error(ctx, cstr.as_ptr(), -1);
}
}
};
err.extended_code
}
Err(err) => {
ffi::sqlite3_result_error_code(ctx, ffi::SQLITE_ERROR);
if let Ok(cstr) = str_to_cstring(&err.to_string()) {
ffi::sqlite3_result_error(ctx, cstr.as_ptr(), -1);
}
ffi::SQLITE_ERROR
}
}
}
#[cfg(feature = "array")]
#[cfg_attr(docsrs, doc(cfg(feature = "array")))]
pub mod array;
#[cfg(feature = "csvtab")]
#[cfg_attr(docsrs, doc(cfg(feature = "csvtab")))]
pub mod csvtab;
#[cfg(feature = "series")]
#[cfg_attr(docsrs, doc(cfg(feature = "series")))]
pub mod series; // SQLite >= 3.9.0
#[cfg(all(test, feature = "modern_sqlite"))]
mod vtablog;
#[cfg(test)]
mod test {
#[test]
fn test_dequote() {
assert_eq!("", super::dequote(""));
assert_eq!("'", super::dequote("'"));
assert_eq!("\"", super::dequote("\""));
assert_eq!("'\"", super::dequote("'\""));
assert_eq!("", super::dequote("''"));
assert_eq!("", super::dequote("\"\""));
assert_eq!("x", super::dequote("'x'"));
assert_eq!("x", super::dequote("\"x\""));
assert_eq!("x", super::dequote("x"));
}
#[test]
fn test_parse_boolean() {
assert_eq!(None, super::parse_boolean(""));
assert_eq!(Some(true), super::parse_boolean("1"));
assert_eq!(Some(true), super::parse_boolean("yes"));
assert_eq!(Some(true), super::parse_boolean("on"));
assert_eq!(Some(true), super::parse_boolean("true"));
assert_eq!(Some(false), super::parse_boolean("0"));
assert_eq!(Some(false), super::parse_boolean("no"));
assert_eq!(Some(false), super::parse_boolean("off"));
assert_eq!(Some(false), super::parse_boolean("false"));
}
}
[ Dauer der Verarbeitung: 0.5 Sekunden
(vorverarbeitet)
]
|
2026-04-02
|
|
|
|
|
