vendor/rusqlite-0.32.1/src/trace.rs - toolchain/rustc - Git at Google

 //! Tracing and profiling functions. Error and warning log.

 use std::ffi::{CStr, CString};
 use std::mem;
 use std::os::raw::{c_char, c_int, c_void};
 use std::panic::catch_unwind;
 use std::ptr;
 use std::time::Duration;

 use super::ffi;
 use crate::Connection;

 /// Set up the process-wide SQLite error logging callback.
 ///
 /// # Safety
 ///
 /// This function is marked unsafe for two reasons:
 ///
 /// * The function is not threadsafe. No other SQLite calls may be made while
 ///   `config_log` is running, and multiple threads may not call `config_log`
 ///   simultaneously.
 /// * The provided `callback` itself function has two requirements:
 ///     * It must not invoke any SQLite calls.
 ///     * It must be threadsafe if SQLite is used in a multithreaded way.
 ///
 /// cf [The Error And Warning Log](http://sqlite.org/errlog.html).
 #[cfg(not(feature = "loadable_extension"))]
 pub unsafe fn config_log(callback: Option<fn(c_int, &str)>) -> crate::Result<()> {
     extern "C" fn log_callback(p_arg: *mut c_void, err: c_int, msg: *const c_char) {
         let s = unsafe { CStr::from_ptr(msg).to_string_lossy() };
         let callback: fn(c_int, &str) = unsafe { mem::transmute(p_arg) };

         drop(catch_unwind(|| callback(err, &s)));
     }

     let rc = if let Some(f) = callback {
         ffi::sqlite3_config(
             ffi::SQLITE_CONFIG_LOG,
             log_callback as extern "C" fn(_, _, _),
             f as *mut c_void,
         )
     } else {
         let nullptr: *mut c_void = ptr::null_mut();
         ffi::sqlite3_config(ffi::SQLITE_CONFIG_LOG, nullptr, nullptr)
     };

     if rc == ffi::SQLITE_OK {
         Ok(())
     } else {
         Err(crate::error::error_from_sqlite_code(rc, None))
     }
 }

 /// Write a message into the error log established by
 /// `config_log`.
 #[inline]
 pub fn log(err_code: c_int, msg: &str) {
     let msg = CString::new(msg).expect("SQLite log messages cannot contain embedded zeroes");
     unsafe {
         ffi::sqlite3_log(err_code, b"%s\0" as *const _ as *const c_char, msg.as_ptr());
     }
 }

 impl Connection {
     /// Register or clear a callback function that can be
     /// used for tracing the execution of SQL statements.
     ///
     /// Prepared statement placeholders are replaced/logged with their assigned
     /// values. There can only be a single tracer defined for each database
     /// connection. Setting a new tracer clears the old one.
     pub fn trace(&mut self, trace_fn: Option<fn(&str)>) {
         unsafe extern "C" fn trace_callback(p_arg: *mut c_void, z_sql: *const c_char) {
             let trace_fn: fn(&str) = mem::transmute(p_arg);
             let s = CStr::from_ptr(z_sql).to_string_lossy();
             drop(catch_unwind(|| trace_fn(&s)));
         }

         let c = self.db.borrow_mut();
         match trace_fn {
             Some(f) => unsafe {
                 ffi::sqlite3_trace(c.db(), Some(trace_callback), f as *mut c_void);
             },
             None => unsafe {
                 ffi::sqlite3_trace(c.db(), None, ptr::null_mut());
             },
         }
     }

     /// Register or clear a callback function that can be
     /// used for profiling the execution of SQL statements.
     ///
     /// There can only be a single profiler defined for each database
     /// connection. Setting a new profiler clears the old one.
     pub fn profile(&mut self, profile_fn: Option<fn(&str, Duration)>) {
         unsafe extern "C" fn profile_callback(
             p_arg: *mut c_void,
             z_sql: *const c_char,
             nanoseconds: u64,
         ) {
             let profile_fn: fn(&str, Duration) = mem::transmute(p_arg);
             let s = CStr::from_ptr(z_sql).to_string_lossy();
             const NANOS_PER_SEC: u64 = 1_000_000_000;

             let duration = Duration::new(
                 nanoseconds / NANOS_PER_SEC,
                 (nanoseconds % NANOS_PER_SEC) as u32,
             );
             drop(catch_unwind(|| profile_fn(&s, duration)));
         }

         let c = self.db.borrow_mut();
         match profile_fn {
             Some(f) => unsafe {
                 ffi::sqlite3_profile(c.db(), Some(profile_callback), f as *mut c_void)
             },
             None => unsafe { ffi::sqlite3_profile(c.db(), None, ptr::null_mut()) },
         };
     }

     // TODO sqlite3_trace_v2 (https://sqlite.org/c3ref/trace_v2.html) // 3.14.0, #977
 }

 #[cfg(test)]
 mod test {
     use lazy_static::lazy_static;
     use std::sync::Mutex;
     use std::time::Duration;

     use crate::{Connection, Result};

     #[test]
     fn test_trace() -> Result<()> {
         lazy_static! {
             static ref TRACED_STMTS: Mutex<Vec<String>> = Mutex::new(Vec::new());
         }
         fn tracer(s: &str) {
             let mut traced_stmts = TRACED_STMTS.lock().unwrap();
             traced_stmts.push(s.to_owned());
         }

         let mut db = Connection::open_in_memory()?;
         db.trace(Some(tracer));
         {
             let _ = db.query_row("SELECT ?1", [1i32], |_| Ok(()));
             let _ = db.query_row("SELECT ?1", ["hello"], |_| Ok(()));
         }
         db.trace(None);
         {
             let _ = db.query_row("SELECT ?1", [2i32], |_| Ok(()));
             let _ = db.query_row("SELECT ?1", ["goodbye"], |_| Ok(()));
         }

         let traced_stmts = TRACED_STMTS.lock().unwrap();
         assert_eq!(traced_stmts.len(), 2);
         assert_eq!(traced_stmts[0], "SELECT 1");
         assert_eq!(traced_stmts[1], "SELECT 'hello'");
         Ok(())
     }

     #[test]
     fn test_profile() -> Result<()> {
         lazy_static! {
             static ref PROFILED: Mutex<Vec<(String, Duration)>> = Mutex::new(Vec::new());
         }
         fn profiler(s: &str, d: Duration) {
             let mut profiled = PROFILED.lock().unwrap();
             profiled.push((s.to_owned(), d));
         }

         let mut db = Connection::open_in_memory()?;
         db.profile(Some(profiler));
         db.execute_batch("PRAGMA application_id = 1")?;
         db.profile(None);
         db.execute_batch("PRAGMA application_id = 2")?;

         let profiled = PROFILED.lock().unwrap();
         assert_eq!(profiled.len(), 1);
         assert_eq!(profiled[0].0, "PRAGMA application_id = 1");
         Ok(())
     }
 }
	//! Tracing and profiling functions. Error and warning log.

	use std::ffi::{CStr, CString};
	use std::mem;
	use std::os::raw::{c_char, c_int, c_void};
	use std::panic::catch_unwind;
	use std::ptr;
	use std::time::Duration;

	use super::ffi;
	use crate::Connection;

	/// Set up the process-wide SQLite error logging callback.
	///
	/// # Safety
	///
	/// This function is marked unsafe for two reasons:
	///
	/// * The function is not threadsafe. No other SQLite calls may be made while
	/// `config_log` is running, and multiple threads may not call `config_log`
	/// simultaneously.
	/// * The provided `callback` itself function has two requirements:
	/// * It must not invoke any SQLite calls.
	/// * It must be threadsafe if SQLite is used in a multithreaded way.
	///
	/// cf [The Error And Warning Log](http://sqlite.org/errlog.html).
	#[cfg(not(feature = "loadable_extension"))]
	pub unsafe fn config_log(callback: Option<fn(c_int, &str)>) -> crate::Result<()> {
	extern "C" fn log_callback(p_arg: mut c_void, err: c_int, msg: const c_char) {
	let s = unsafe { CStr::from_ptr(msg).to_string_lossy() };
	let callback: fn(c_int, &str) = unsafe { mem::transmute(p_arg) };

	drop(catch_unwind(\|\| callback(err, &s)));
	}

	let rc = if let Some(f) = callback {
	ffi::sqlite3_config(
	ffi::SQLITE_CONFIG_LOG,
	log_callback as extern "C" fn(_, _, _),
	f as *mut c_void,
	)
	} else {
	let nullptr: *mut c_void = ptr::null_mut();
	ffi::sqlite3_config(ffi::SQLITE_CONFIG_LOG, nullptr, nullptr)
	};

	if rc == ffi::SQLITE_OK {
	Ok(())
	} else {
	Err(crate::error::error_from_sqlite_code(rc, None))
	}
	}

	/// Write a message into the error log established by
	/// `config_log`.
	#[inline]
	pub fn log(err_code: c_int, msg: &str) {
	let msg = CString::new(msg).expect("SQLite log messages cannot contain embedded zeroes");
	unsafe {
	ffi::sqlite3_log(err_code, b"%s\0" as const _ as const c_char, msg.as_ptr());
	}
	}

	impl Connection {
	/// Register or clear a callback function that can be
	/// used for tracing the execution of SQL statements.
	///
	/// Prepared statement placeholders are replaced/logged with their assigned
	/// values. There can only be a single tracer defined for each database
	/// connection. Setting a new tracer clears the old one.
	pub fn trace(&mut self, trace_fn: Option<fn(&str)>) {
	unsafe extern "C" fn trace_callback(p_arg: mut c_void, z_sql: const c_char) {
	let trace_fn: fn(&str) = mem::transmute(p_arg);
	let s = CStr::from_ptr(z_sql).to_string_lossy();
	drop(catch_unwind(\|\| trace_fn(&s)));
	}

	let c = self.db.borrow_mut();
	match trace_fn {
	Some(f) => unsafe {
	ffi::sqlite3_trace(c.db(), Some(trace_callback), f as *mut c_void);
	},
	None => unsafe {
	ffi::sqlite3_trace(c.db(), None, ptr::null_mut());
	},
	}
	}

	/// Register or clear a callback function that can be
	/// used for profiling the execution of SQL statements.
	///
	/// There can only be a single profiler defined for each database
	/// connection. Setting a new profiler clears the old one.
	pub fn profile(&mut self, profile_fn: Option<fn(&str, Duration)>) {
	unsafe extern "C" fn profile_callback(
	p_arg: *mut c_void,
	z_sql: *const c_char,
	nanoseconds: u64,
	) {
	let profile_fn: fn(&str, Duration) = mem::transmute(p_arg);
	let s = CStr::from_ptr(z_sql).to_string_lossy();
	const NANOS_PER_SEC: u64 = 1_000_000_000;

	let duration = Duration::new(
	nanoseconds / NANOS_PER_SEC,
	(nanoseconds % NANOS_PER_SEC) as u32,
	);
	drop(catch_unwind(\|\| profile_fn(&s, duration)));
	}

	let c = self.db.borrow_mut();
	match profile_fn {
	Some(f) => unsafe {
	ffi::sqlite3_profile(c.db(), Some(profile_callback), f as *mut c_void)
	},
	None => unsafe { ffi::sqlite3_profile(c.db(), None, ptr::null_mut()) },
	};
	}

	// TODO sqlite3_trace_v2 (https://sqlite.org/c3ref/trace_v2.html) // 3.14.0, #977
	}

	#[cfg(test)]
	mod test {
	use lazy_static::lazy_static;
	use std::sync::Mutex;
	use std::time::Duration;

	use crate::{Connection, Result};

	#[test]
	fn test_trace() -> Result<()> {
	lazy_static! {
	static ref TRACED_STMTS: Mutex<Vec<String>> = Mutex::new(Vec::new());
	}
	fn tracer(s: &str) {
	let mut traced_stmts = TRACED_STMTS.lock().unwrap();
	traced_stmts.push(s.to_owned());
	}

	let mut db = Connection::open_in_memory()?;
	db.trace(Some(tracer));
	{
	let _ = db.query_row("SELECT ?1", [1i32], \|_\| Ok(()));
	let _ = db.query_row("SELECT ?1", ["hello"], \|_\| Ok(()));
	}
	db.trace(None);
	{
	let _ = db.query_row("SELECT ?1", [2i32], \|_\| Ok(()));
	let _ = db.query_row("SELECT ?1", ["goodbye"], \|_\| Ok(()));
	}

	let traced_stmts = TRACED_STMTS.lock().unwrap();
	assert_eq!(traced_stmts.len(), 2);
	assert_eq!(traced_stmts[0], "SELECT 1");
	assert_eq!(traced_stmts[1], "SELECT 'hello'");
	Ok(())
	}

	#[test]
	fn test_profile() -> Result<()> {
	lazy_static! {
	static ref PROFILED: Mutex<Vec<(String, Duration)>> = Mutex::new(Vec::new());
	}
	fn profiler(s: &str, d: Duration) {
	let mut profiled = PROFILED.lock().unwrap();
	profiled.push((s.to_owned(), d));
	}

	let mut db = Connection::open_in_memory()?;
	db.profile(Some(profiler));
	db.execute_batch("PRAGMA application_id = 1")?;
	db.profile(None);
	db.execute_batch("PRAGMA application_id = 2")?;

	let profiled = PROFILED.lock().unwrap();
	assert_eq!(profiled.len(), 1);
	assert_eq!(profiled[0].0, "PRAGMA application_id = 1");
	Ok(())
	}
	}