rusqlite/src/vtab/mod.rs

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//! Create virtual tables.
//! (See http://sqlite.org/vtab.html)
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use std::borrow::Cow;
use std::borrow::Cow::{Borrowed, Owned};
use std::ffi::CString;
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use std::mem;
use std::ptr;
use libc;
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use {Connection, Error, Result, InnerConnection, str_to_cstring};
use error::error_from_sqlite_code;
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use ffi;
// 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: Cursor = ...; // on the heap
// |-> cursor.xfilter or xnext
// |-> cursor.xeof
// \-> if not eof { cursor.column or xrowid } else { cursor.xclose }
//
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/// Virtual table instance trait.
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pub trait VTab<C: VTabCursor<Self>>: Sized {
/// 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.
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fn create(db: *mut ffi::sqlite3,
aux: *mut libc::c_void,
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args: &[*const libc::c_char])
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-> Result<Self>;
/// Determine the best way to access the virtual table.
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fn best_index(&self, info: *mut ffi::sqlite3_index_info);
/// Create a new cursor used for accessing a virtual table.
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fn open(&self) -> Result<C>;
}
/// Virtual table cursor trait.
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pub trait VTabCursor<V: VTab<Self>>: Sized {
/// Accessor to the associated virtual table.
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fn vtab(&self) -> &mut V;
/// Begin a search of a virtual table.
fn filter(&mut self,
idx_num: libc::c_int,
idx_str: *const libc::c_char,
argc: libc::c_int,
argv: *mut *mut ffi::sqlite3_value)
-> Result<()>;
/// Advance cursor to the next row of a result set initiated by `filter`.
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fn next(&mut self) -> Result<()>;
/// Must return `false` if the cursor currently points to a valid row of data, or `true` otherwise.
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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`.
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fn column(&self, ctx: *mut ffi::sqlite3_context, i: libc::c_int) -> Result<()>;
/// Return the rowid of row that the cursor is currently pointing at.
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fn rowid(&self) -> Result<i64>;
}
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impl Connection {
/// Register a virtual table implementation.
pub fn create_module<A>(&self,
module_name: &str,
module: *const ffi::sqlite3_module,
aux: Option<A>)
-> Result<()> {
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self.db
.borrow_mut()
.create_module(module_name, module, aux)
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}
}
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impl InnerConnection {
fn create_module<A>(&mut self,
module_name: &str,
module: *const ffi::sqlite3_module,
aux: Option<A>)
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-> Result<()> {
let c_name = try!(str_to_cstring(module_name));
let r = match aux {
Some(aux) => {
let boxed_aux: *mut A = Box::into_raw(Box::new(aux));
unsafe {
ffi::sqlite3_create_module_v2(self.db(),
c_name.as_ptr(),
module,
mem::transmute(boxed_aux),
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Some(free_boxed_value::<A>))
}
}
None => unsafe {
ffi::sqlite3_create_module_v2(self.db(),
c_name.as_ptr(),
module,
ptr::null_mut(),
None)
},
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};
self.decode_result(r)
}
}
/// Declare the schema of a virtual table.
pub fn declare_vtab(db: *mut ffi::sqlite3, sql: &str) -> Result<()> {
let c_sql = try!(CString::new(sql));
let rc = unsafe { ffi::sqlite3_declare_vtab(db, c_sql.as_ptr()) };
if rc == ffi::SQLITE_OK {
Ok(())
} else {
Err(error_from_sqlite_code(rc, None))
}
}
/// Escape double-quote (`"`) character occurences by doubling them (`""`).
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pub fn escape_double_quote<'a>(identifier: &'a str) -> Cow<'a, str> {
if identifier.contains('"') {
// escape quote by doubling them
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Owned(identifier.replace("\"", "\"\""))
} else {
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Borrowed(identifier)
}
}
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// FIXME copy/paste from function.rs
unsafe extern "C" fn free_boxed_value<T>(p: *mut libc::c_void) {
let _: Box<T> = Box::from_raw(mem::transmute(p));
}
#[macro_export]
macro_rules! init_module {
($module_name: ident, $vtab: ident, $cursor: ty,
$create: ident, $best_index: ident, $destroy: ident,
$open: ident, $close: ident,
$filter: ident, $next: ident, $eof: ident,
$column: ident, $rowid: ident) => {
static $module_name: ffi::sqlite3_module = ffi::sqlite3_module {
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iVersion: 1,
xCreate: Some($create),
xConnect: Some($create), /* A virtual table is eponymous if its xCreate method is the exact same function as the xConnect method */
xBestIndex: Some($best_index),
xDisconnect: Some($destroy),
xDestroy: Some($destroy),
xOpen: Some($open),
xClose: Some($close),
xFilter: Some($filter),
xNext: Some($next),
xEof: Some($eof),
xColumn: Some($column),
xRowid: Some($rowid),
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xUpdate: None, // TODO
xBegin: None,
xSync: None,
xCommit: None,
xRollback: None,
xFindFunction: None,
xRename: None,
xSavepoint: None,
xRelease: None,
xRollbackTo: None,
};
unsafe extern "C" fn $create(db: *mut ffi::sqlite3,
aux: *mut libc::c_void,
argc: libc::c_int,
argv: *const *const libc::c_char,
pp_vtab: *mut *mut ffi::sqlite3_vtab,
err_msg: *mut *mut libc::c_char)
-> libc::c_int {
use std::error::Error as StdError;
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use std::slice;
use vtab::mprintf;
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let args = slice::from_raw_parts(argv, argc as usize);
match $vtab::create(db, aux, args) {
Ok(vtab) => {
let boxed_vtab: *mut $vtab = Box::into_raw(Box::new(vtab));
*pp_vtab = boxed_vtab as *mut ffi::sqlite3_vtab;
ffi::SQLITE_OK
},
Err(Error::SqliteFailure(err, s)) => {
if let Some(s) = s {
*err_msg = mprintf(&s);
}
err.extended_code
},
Err(err) => {
*err_msg = mprintf(err.description());
ffi::SQLITE_ERROR
}
}
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}
unsafe extern "C" fn $best_index(vtab: *mut ffi::sqlite3_vtab,
info: *mut ffi::sqlite3_index_info)
-> libc::c_int {
let vtab = vtab as *mut $vtab;
(*vtab).best_index(info);
ffi::SQLITE_OK
}
unsafe extern "C" fn $destroy(vtab: *mut ffi::sqlite3_vtab) -> libc::c_int {
let vtab = vtab as *mut $vtab;
let _: Box<$vtab> = Box::from_raw(mem::transmute(vtab));
ffi::SQLITE_OK
}
unsafe extern "C" fn $open(vtab: *mut ffi::sqlite3_vtab,
pp_cursor: *mut *mut ffi::sqlite3_vtab_cursor)
-> libc::c_int {
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use std::error::Error as StdError;
use vtab::set_err_msg;
let vt = vtab as *mut $vtab;
match (*vt).open() {
Ok(cursor) => {
let boxed_cursor: *mut $cursor = Box::into_raw(Box::new(cursor));
*pp_cursor = boxed_cursor as *mut 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
},
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Err(err) => {
set_err_msg(vtab, err.description());
ffi::SQLITE_ERROR
}
}
}
unsafe extern "C" fn $close(cursor: *mut ffi::sqlite3_vtab_cursor) -> libc::c_int {
let cr = cursor as *mut $cursor;
let _: Box<$cursor> = Box::from_raw(mem::transmute(cr));
ffi::SQLITE_OK
}
unsafe extern "C" fn $filter(cursor: *mut ffi::sqlite3_vtab_cursor,
idx_num: libc::c_int,
idx_str: *const libc::c_char,
argc: libc::c_int,
argv: *mut *mut ffi::sqlite3_value)
-> libc::c_int {
use vtab::cursor_error;
let cr = cursor as *mut $cursor;
cursor_error(cursor, (*cr).filter(idx_num, idx_str, argc, argv))
}
unsafe extern "C" fn $next(cursor: *mut ffi::sqlite3_vtab_cursor) -> libc::c_int {
use vtab::cursor_error;
let cr = cursor as *mut $cursor;
cursor_error(cursor, (*cr).next())
}
unsafe extern "C" fn $eof(cursor: *mut ffi::sqlite3_vtab_cursor) -> libc::c_int {
let cr = cursor as *mut $cursor;
(*cr).eof() as libc::c_int
}
unsafe extern "C" fn $column(cursor: *mut ffi::sqlite3_vtab_cursor,
ctx: *mut ffi::sqlite3_context,
i: libc::c_int)
-> libc::c_int {
use vtab::result_error;
let cr = cursor as *mut $cursor;
result_error(ctx, (*cr).column(ctx, i))
}
unsafe extern "C" fn $rowid(cursor: *mut ffi::sqlite3_vtab_cursor,
p_rowid: *mut ffi::sqlite3_int64)
-> libc::c_int {
use vtab::cursor_error;
let cr = cursor as *mut $cursor;
match (*cr).rowid() {
Ok(rowid) => {
*p_rowid = rowid;
ffi::SQLITE_OK
},
err => cursor_error(cursor, err)
}
}
}
}
/// Virtual table cursors can set an error message by assigning a string to `zErrMsg`.
pub unsafe fn cursor_error<T>(cursor: *mut ffi::sqlite3_vtab_cursor,
result: Result<T>)
-> libc::c_int {
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use std::error::Error as StdError;
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
}
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Err(err) => {
set_err_msg((*cursor).pVtab, err.description());
ffi::SQLITE_ERROR
}
}
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}
/// Virtual tables methods can set an error message by assigning a string to `zErrMsg`.
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pub unsafe fn set_err_msg(vtab: *mut ffi::sqlite3_vtab, err_msg: &str) {
if !(*vtab).zErrMsg.is_null() {
ffi::sqlite3_free((*vtab).zErrMsg as *mut libc::c_void);
}
(*vtab).zErrMsg = mprintf(err_msg);
}
/// To raise an error, the `column` method should use this method to set the error message and return the error code.
pub unsafe fn result_error<T>(ctx: *mut ffi::sqlite3_context, result: Result<T>) -> libc::c_int {
use std::error::Error as StdError;
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.description()) {
ffi::sqlite3_result_error(ctx, cstr.as_ptr(), -1);
}
ffi::SQLITE_ERROR
}
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}
}
// Space to hold this error message string must be obtained from an SQLite memory allocation function.
pub fn mprintf(err_msg: &str) -> *mut ::libc::c_char {
let c_format = CString::new("%s").unwrap();
let c_err = CString::new(err_msg).unwrap();
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unsafe { ffi::sqlite3_mprintf(c_format.as_ptr(), c_err.as_ptr()) }
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}
pub mod int_array;
#[cfg(feature = "csvtab")]pub mod csvtab;