mirror of
https://github.com/aljazceru/turso.git
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413 lines
14 KiB
Rust
413 lines
14 KiB
Rust
//! VDBE bytecode generation for pragma statements.
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//! More info: https://www.sqlite.org/pragma.html.
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use std::rc::Rc;
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use std::sync::Arc;
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use turso_sqlite3_parser::ast::PragmaName;
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use turso_sqlite3_parser::ast::{self, Expr};
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use crate::schema::Schema;
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use crate::storage::pager::AutoVacuumMode;
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use crate::storage::sqlite3_ondisk::MIN_PAGE_CACHE_SIZE;
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use crate::storage::wal::CheckpointMode;
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use crate::util::{normalize_ident, parse_signed_number};
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use crate::vdbe::builder::{ProgramBuilder, ProgramBuilderOpts};
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use crate::vdbe::insn::{Cookie, Insn};
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use crate::{bail_parse_error, storage, LimboError, Value};
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use std::str::FromStr;
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use strum::IntoEnumIterator;
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use super::integrity_check::translate_integrity_check;
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use crate::storage::header_accessor;
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use crate::storage::pager::Pager;
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fn list_pragmas(program: &mut ProgramBuilder) {
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for x in PragmaName::iter() {
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let register = program.emit_string8_new_reg(x.to_string());
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program.emit_result_row(register, 1);
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}
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program.add_pragma_result_column("pragma_list".into());
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program.epilogue(crate::translate::emitter::TransactionMode::None);
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}
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#[allow(clippy::too_many_arguments)]
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pub fn translate_pragma(
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schema: &Schema,
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name: &ast::QualifiedName,
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body: Option<ast::PragmaBody>,
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pager: Rc<Pager>,
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connection: Arc<crate::Connection>,
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mut program: ProgramBuilder,
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) -> crate::Result<ProgramBuilder> {
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let opts = ProgramBuilderOpts {
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num_cursors: 0,
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approx_num_insns: 20,
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approx_num_labels: 0,
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};
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program.extend(&opts);
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let mut write = false;
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if name.name.0.eq_ignore_ascii_case("pragma_list") {
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list_pragmas(&mut program);
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return Ok(program);
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}
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let pragma = match PragmaName::from_str(&name.name.0) {
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Ok(pragma) => pragma,
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Err(_) => bail_parse_error!("Not a valid pragma name"),
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};
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match body {
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None => {
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query_pragma(pragma, schema, None, pager, connection, &mut program)?;
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}
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Some(ast::PragmaBody::Equals(value) | ast::PragmaBody::Call(value)) => match pragma {
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PragmaName::TableInfo => {
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query_pragma(pragma, schema, Some(value), pager, connection, &mut program)?;
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}
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_ => {
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write = true;
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update_pragma(pragma, schema, value, pager, connection, &mut program)?;
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}
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},
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};
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program.epilogue(match write {
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false => super::emitter::TransactionMode::Read,
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true => super::emitter::TransactionMode::Write,
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});
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Ok(program)
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}
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fn update_pragma(
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pragma: PragmaName,
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schema: &Schema,
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value: ast::Expr,
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pager: Rc<Pager>,
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connection: Arc<crate::Connection>,
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program: &mut ProgramBuilder,
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) -> crate::Result<()> {
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match pragma {
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PragmaName::CacheSize => {
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let cache_size = match parse_signed_number(&value)? {
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Value::Integer(size) => size,
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Value::Float(size) => size as i64,
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_ => bail_parse_error!("Invalid value for cache size pragma"),
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};
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update_cache_size(cache_size, pager, connection)?;
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Ok(())
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}
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PragmaName::JournalMode => {
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query_pragma(
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PragmaName::JournalMode,
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schema,
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None,
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pager,
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connection,
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program,
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)?;
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Ok(())
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}
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PragmaName::LegacyFileFormat => Ok(()),
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PragmaName::WalCheckpoint => {
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query_pragma(
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PragmaName::WalCheckpoint,
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schema,
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Some(value),
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pager,
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connection,
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program,
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)?;
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Ok(())
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}
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PragmaName::PageCount => {
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query_pragma(
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PragmaName::PageCount,
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schema,
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None,
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pager,
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connection,
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program,
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)?;
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Ok(())
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}
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PragmaName::UserVersion => {
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let data = parse_signed_number(&value)?;
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let version_value = match data {
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Value::Integer(i) => i as i32,
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Value::Float(f) => f as i32,
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_ => unreachable!(),
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};
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program.emit_insn(Insn::SetCookie {
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db: 0,
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cookie: Cookie::UserVersion,
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value: version_value,
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p5: 1,
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});
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Ok(())
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}
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PragmaName::SchemaVersion => {
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// TODO: Implement updating schema_version
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todo!("updating schema_version not yet implemented")
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}
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PragmaName::TableInfo => {
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// because we need control over the write parameter for the transaction,
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// this should be unreachable. We have to force-call query_pragma before
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// getting here
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unreachable!();
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}
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PragmaName::PageSize => {
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bail_parse_error!("Updating database page size is not supported.");
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}
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PragmaName::AutoVacuum => {
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let auto_vacuum_mode = match value {
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Expr::Name(name) => {
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let name = name.0.to_lowercase();
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match name.as_str() {
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"none" => 0,
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"full" => 1,
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"incremental" => 2,
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_ => {
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return Err(LimboError::InvalidArgument(
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"invalid auto vacuum mode".to_string(),
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));
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}
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}
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}
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_ => {
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return Err(LimboError::InvalidArgument(
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"invalid auto vacuum mode".to_string(),
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))
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}
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};
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match auto_vacuum_mode {
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0 => update_auto_vacuum_mode(AutoVacuumMode::None, 0, pager)?,
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1 => update_auto_vacuum_mode(AutoVacuumMode::Full, 1, pager)?,
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2 => update_auto_vacuum_mode(AutoVacuumMode::Incremental, 1, pager)?,
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_ => {
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return Err(LimboError::InvalidArgument(
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"invalid auto vacuum mode".to_string(),
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))
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}
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}
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let largest_root_page_number_reg = program.alloc_register();
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program.emit_insn(Insn::ReadCookie {
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db: 0,
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dest: largest_root_page_number_reg,
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cookie: Cookie::LargestRootPageNumber,
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});
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let set_cookie_label = program.allocate_label();
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program.emit_insn(Insn::If {
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reg: largest_root_page_number_reg,
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target_pc: set_cookie_label,
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jump_if_null: false,
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});
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program.emit_insn(Insn::Halt {
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err_code: 0,
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description: "Early halt because auto vacuum mode is not enabled".to_string(),
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});
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program.resolve_label(set_cookie_label, program.offset());
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program.emit_insn(Insn::SetCookie {
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db: 0,
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cookie: Cookie::IncrementalVacuum,
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value: auto_vacuum_mode - 1,
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p5: 0,
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});
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Ok(())
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}
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PragmaName::IntegrityCheck => unreachable!("integrity_check cannot be set"),
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}
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}
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fn query_pragma(
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pragma: PragmaName,
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schema: &Schema,
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value: Option<ast::Expr>,
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pager: Rc<Pager>,
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connection: Arc<crate::Connection>,
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program: &mut ProgramBuilder,
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) -> crate::Result<()> {
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let register = program.alloc_register();
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match pragma {
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PragmaName::CacheSize => {
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program.emit_int(connection.get_cache_size() as i64, register);
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program.emit_result_row(register, 1);
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program.add_pragma_result_column(pragma.to_string());
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}
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PragmaName::JournalMode => {
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program.emit_string8("wal".into(), register);
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program.emit_result_row(register, 1);
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program.add_pragma_result_column(pragma.to_string());
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}
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PragmaName::LegacyFileFormat => {}
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PragmaName::WalCheckpoint => {
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// Checkpoint uses 3 registers: P1, P2, P3. Ref Insn::Checkpoint for more info.
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// Allocate two more here as one was allocated at the top.
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let mode = match value {
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Some(ast::Expr::Name(name)) => {
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let mode_name = normalize_ident(&name.0);
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CheckpointMode::from_str(&mode_name).map_err(|e| {
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LimboError::ParseError(format!("Unknown Checkpoint Mode: {}", e))
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})?
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}
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_ => CheckpointMode::Passive,
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};
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if !matches!(mode, CheckpointMode::Passive) {
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return Err(LimboError::ParseError(
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"only Passive mode supported".to_string(),
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));
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}
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program.alloc_registers(2);
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program.emit_insn(Insn::Checkpoint {
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database: 0,
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checkpoint_mode: mode,
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dest: register,
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});
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program.emit_result_row(register, 3);
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}
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PragmaName::PageCount => {
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program.emit_insn(Insn::PageCount {
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db: 0,
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dest: register,
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});
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program.emit_result_row(register, 1);
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program.add_pragma_result_column(pragma.to_string());
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}
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PragmaName::TableInfo => {
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let table = match value {
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Some(ast::Expr::Name(name)) => {
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let tbl = normalize_ident(&name.0);
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schema.get_table(&tbl)
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}
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_ => None,
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};
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let base_reg = register;
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program.alloc_registers(5);
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if let Some(table) = table {
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for (i, column) in table.columns().iter().enumerate() {
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// cid
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program.emit_int(i as i64, base_reg);
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// name
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program.emit_string8(column.name.clone().unwrap_or_default(), base_reg + 1);
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// type
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program.emit_string8(column.ty_str.clone(), base_reg + 2);
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// notnull
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program.emit_bool(column.notnull, base_reg + 3);
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// dflt_value
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match &column.default {
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None => {
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program.emit_null(base_reg + 4, None);
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}
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Some(expr) => {
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program.emit_string8(expr.to_string(), base_reg + 4);
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}
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}
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// pk
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program.emit_bool(column.primary_key, base_reg + 5);
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program.emit_result_row(base_reg, 6);
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}
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}
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let col_names = ["cid", "name", "type", "notnull", "dflt_value", "pk"];
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for name in col_names {
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program.add_pragma_result_column(name.into());
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}
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}
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PragmaName::UserVersion => {
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program.emit_insn(Insn::ReadCookie {
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db: 0,
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dest: register,
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cookie: Cookie::UserVersion,
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});
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program.add_pragma_result_column(pragma.to_string());
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program.emit_result_row(register, 1);
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}
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PragmaName::SchemaVersion => {
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program.emit_insn(Insn::ReadCookie {
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db: 0,
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dest: register,
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cookie: Cookie::SchemaVersion,
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});
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program.add_pragma_result_column(pragma.to_string());
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program.emit_result_row(register, 1);
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}
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PragmaName::PageSize => {
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program.emit_int(
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header_accessor::get_page_size(&pager)
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.unwrap_or(storage::sqlite3_ondisk::DEFAULT_PAGE_SIZE) as i64,
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register,
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);
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program.emit_result_row(register, 1);
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program.add_pragma_result_column(pragma.to_string());
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}
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PragmaName::AutoVacuum => {
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let auto_vacuum_mode = pager.get_auto_vacuum_mode();
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let auto_vacuum_mode_i64: i64 = match auto_vacuum_mode {
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AutoVacuumMode::None => 0,
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AutoVacuumMode::Full => 1,
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AutoVacuumMode::Incremental => 2,
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};
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let register = program.alloc_register();
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program.emit_insn(Insn::Int64 {
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_p1: 0,
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out_reg: register,
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_p3: 0,
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value: auto_vacuum_mode_i64,
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});
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program.emit_result_row(register, 1);
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}
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PragmaName::IntegrityCheck => {
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translate_integrity_check(schema, program)?;
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}
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}
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Ok(())
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}
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fn update_auto_vacuum_mode(
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auto_vacuum_mode: AutoVacuumMode,
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largest_root_page_number: u32,
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pager: Rc<Pager>,
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) -> crate::Result<()> {
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header_accessor::set_vacuum_mode_largest_root_page(&pager, largest_root_page_number)?;
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pager.set_auto_vacuum_mode(auto_vacuum_mode);
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Ok(())
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}
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fn update_cache_size(
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value: i64,
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pager: Rc<Pager>,
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connection: Arc<crate::Connection>,
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) -> crate::Result<()> {
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let mut cache_size_unformatted: i64 = value;
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let mut cache_size = if cache_size_unformatted < 0 {
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let kb = cache_size_unformatted.abs() * 1024;
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let page_size = header_accessor::get_page_size(&pager)
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.unwrap_or(storage::sqlite3_ondisk::DEFAULT_PAGE_SIZE) as i64;
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kb / page_size as i64
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} else {
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value
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} as usize;
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if cache_size < MIN_PAGE_CACHE_SIZE {
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cache_size = MIN_PAGE_CACHE_SIZE;
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cache_size_unformatted = MIN_PAGE_CACHE_SIZE as i64;
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}
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connection.set_cache_size(cache_size_unformatted as i32);
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// update cache size
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pager
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.change_page_cache_size(cache_size)
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.expect("couldn't update page cache size");
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Ok(())
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}
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