rust/src/liblog/lib.rs

432 lines
14 KiB
Rust

// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/*!
Utilities for program-wide and customizable logging
## Example
```
#![feature(phase)]
#[phase(syntax, link)] extern crate log;
fn main() {
debug!("this is a debug {}", "message");
error!("this is printed by default");
if log_enabled!(log::INFO) {
let x = 3 * 4; // expensive computation
info!("the answer was: {}", x);
}
}
```
## Logging Macros
There are five macros that the logging subsystem uses:
* `log!(level, ...)` - the generic logging macro, takes a level as a u32 and any
related `format!` arguments
* `debug!(...)` - a macro hard-wired to the log level of `DEBUG`
* `info!(...)` - a macro hard-wired to the log level of `INFO`
* `warn!(...)` - a macro hard-wired to the log level of `WARN`
* `error!(...)` - a macro hard-wired to the log level of `ERROR`
All of these macros use the same style of syntax as the `format!` syntax
extension. Details about the syntax can be found in the documentation of
`std::fmt` along with the Rust tutorial/manual.
If you want to check at runtime if a given logging level is enabled (e.g. if the
information you would want to log is expensive to produce), you can use the
following macro:
* `log_enabled!(level)` - returns true if logging of the given level is enabled
## Enabling logging
Log levels are controlled on a per-module basis, and by default all logging is
disabled except for `error!` (a log level of 1). Logging is controlled via the
`RUST_LOG` environment variable. The value of this environment variable is a
comma-separated list of logging directives. A logging directive is of the form:
```notrust
path::to::module=log_level
```
The path to the module is rooted in the name of the crate it was compiled for,
so if your program is contained in a file `hello.rs`, for example, to turn on
logging for this file you would use a value of `RUST_LOG=hello`.
Furthermore, this path is a prefix-search, so all modules nested in the
specified module will also have logging enabled.
The actual `log_level` is optional to specify. If omitted, all logging will be
enabled. If specified, the it must be either a numeric in the range of 1-255, or
it must be one of the strings `debug`, `error`, `info`, or `warn`. If a numeric
is specified, then all logging less than or equal to that numeral is enabled.
For example, if logging level 3 is active, error, warn, and info logs will be
printed, but debug will be omitted.
As the log level for a module is optional, the module to enable logging for is
also optional. If only a `log_level` is provided, then the global log level for
all modules is set to this value.
Some examples of valid values of `RUST_LOG` are:
```notrust
hello // turns on all logging for the 'hello' module
info // turns on all info logging
hello=debug // turns on debug logging for 'hello'
hello=3 // turns on info logging for 'hello'
hello,std::option // turns on hello, and std's option logging
error,hello=warn // turn on global error logging and also warn for hello
```
## Performance and Side Effects
Each of these macros will expand to code similar to:
```rust,ignore
if log_level <= my_module_log_level() {
::log::log(log_level, format!(...));
}
```
What this means is that each of these macros are very cheap at runtime if
they're turned off (just a load and an integer comparison). This also means that
if logging is disabled, none of the components of the log will be executed.
*/
#![crate_id = "log#0.11.0-pre"]
#![license = "MIT/ASL2"]
#![crate_type = "rlib"]
#![crate_type = "dylib"]
#![doc(html_logo_url = "http://www.rust-lang.org/logos/rust-logo-128x128-blk-v2.png",
html_favicon_url = "http://www.rust-lang.org/favicon.ico",
html_root_url = "http://doc.rust-lang.org/")]
#![feature(macro_rules)]
#![deny(missing_doc, deprecated_owned_vector)]
extern crate sync;
use std::fmt;
use std::io::LineBufferedWriter;
use std::io;
use std::mem;
use std::os;
use std::rt;
use std::slice;
use sync::one::{Once, ONCE_INIT};
use directive::LOG_LEVEL_NAMES;
pub mod macros;
mod directive;
/// Maximum logging level of a module that can be specified. Common logging
/// levels are found in the DEBUG/INFO/WARN/ERROR constants.
pub static MAX_LOG_LEVEL: u32 = 255;
/// The default logging level of a crate if no other is specified.
static DEFAULT_LOG_LEVEL: u32 = 1;
/// An unsafe constant that is the maximum logging level of any module
/// specified. This is the first line of defense to determining whether a
/// logging statement should be run.
static mut LOG_LEVEL: u32 = MAX_LOG_LEVEL;
static mut DIRECTIVES: *Vec<directive::LogDirective> =
0 as *Vec<directive::LogDirective>;
/// Debug log level
pub static DEBUG: u32 = 4;
/// Info log level
pub static INFO: u32 = 3;
/// Warn log level
pub static WARN: u32 = 2;
/// Error log level
pub static ERROR: u32 = 1;
local_data_key!(local_logger: Box<Logger:Send>)
/// A trait used to represent an interface to a task-local logger. Each task
/// can have its own custom logger which can respond to logging messages
/// however it likes.
pub trait Logger {
/// Logs a single message described by the `record`.
fn log(&mut self, record: &LogRecord);
}
struct DefaultLogger {
handle: LineBufferedWriter<io::stdio::StdWriter>,
}
/// Wraps the log level with fmt implementations.
#[deriving(Eq, Ord)]
pub struct LogLevel(pub u32);
impl fmt::Show for LogLevel {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let LogLevel(level) = *self;
match LOG_LEVEL_NAMES.get(level as uint - 1) {
Some(name) => name.fmt(fmt),
None => level.fmt(fmt)
}
}
}
impl fmt::Signed for LogLevel {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
let LogLevel(level) = *self;
write!(fmt, "{}", level)
}
}
impl Logger for DefaultLogger {
fn log(&mut self, record: &LogRecord) {
match writeln!(&mut self.handle,
"{}:{}: {}",
record.level,
record.module_path,
record.args) {
Err(e) => fail!("failed to log: {}", e),
Ok(()) => {}
}
}
}
impl Drop for DefaultLogger {
fn drop(&mut self) {
// FIXME(#12628): is failure the right thing to do?
match self.handle.flush() {
Err(e) => fail!("failed to flush a logger: {}", e),
Ok(()) => {}
}
}
}
/// This function is called directly by the compiler when using the logging
/// macros. This function does not take into account whether the log level
/// specified is active or not, it will always log something if this method is
/// called.
///
/// It is not recommended to call this function directly, rather it should be
/// invoked through the logging family of macros.
#[doc(hidden)]
pub fn log(level: u32, loc: &'static LogLocation, args: &fmt::Arguments) {
// Completely remove the local logger from TLS in case anyone attempts to
// frob the slot while we're doing the logging. This will destroy any logger
// set during logging.
let mut logger = local_logger.replace(None).unwrap_or_else(|| {
box DefaultLogger { handle: io::stderr() } as Box<Logger:Send>
});
logger.log(&LogRecord {
level: LogLevel(level),
args: args,
file: loc.file,
module_path: loc.module_path,
line: loc.line,
});
local_logger.replace(Some(logger));
}
/// Getter for the global log level. This is a function so that it can be called
/// safely
#[doc(hidden)]
#[inline(always)]
pub fn log_level() -> u32 { unsafe { LOG_LEVEL } }
/// Replaces the task-local logger with the specified logger, returning the old
/// logger.
pub fn set_logger(logger: Box<Logger:Send>) -> Option<Box<Logger:Send>> {
local_logger.replace(Some(logger))
}
/// A LogRecord is created by the logging macros, and passed as the only
/// argument to Loggers.
#[deriving(Show)]
pub struct LogRecord<'a> {
/// The module path of where the LogRecord originated.
pub module_path: &'a str,
/// The LogLevel of this record.
pub level: LogLevel,
/// The arguments from the log line.
pub args: &'a fmt::Arguments<'a>,
/// The file of where the LogRecord originated.
pub file: &'a str,
/// The line number of where the LogRecord originated.
pub line: uint,
}
#[doc(hidden)]
pub struct LogLocation {
pub module_path: &'static str,
pub file: &'static str,
pub line: uint,
}
/// Tests whether a given module's name is enabled for a particular level of
/// logging. This is the second layer of defense about determining whether a
/// module's log statement should be emitted or not.
#[doc(hidden)]
pub fn mod_enabled(level: u32, module: &str) -> bool {
static mut INIT: Once = ONCE_INIT;
unsafe { INIT.doit(init); }
// It's possible for many threads are in this function, only one of them
// will peform the global initialization, but all of them will need to check
// again to whether they should really be here or not. Hence, despite this
// check being expanded manually in the logging macro, this function checks
// the log level again.
if level > unsafe { LOG_LEVEL } { return false }
// This assertion should never get tripped unless we're in an at_exit
// handler after logging has been torn down and a logging attempt was made.
assert!(unsafe { !DIRECTIVES.is_null() });
enabled(level, module, unsafe { (*DIRECTIVES).iter() })
}
fn enabled(level: u32,
module: &str,
iter: slice::Items<directive::LogDirective>)
-> bool {
// Search for the longest match, the vector is assumed to be pre-sorted.
for directive in iter.rev() {
match directive.name {
Some(ref name) if !module.starts_with(name.as_slice()) => {},
Some(..) | None => {
return level <= directive.level
}
}
}
level <= DEFAULT_LOG_LEVEL
}
/// Initialize logging for the current process.
///
/// This is not threadsafe at all, so initialization os performed through a
/// `Once` primitive (and this function is called from that primitive).
fn init() {
let mut directives = match os::getenv("RUST_LOG") {
Some(spec) => directive::parse_logging_spec(spec.as_slice()),
None => Vec::new(),
};
// Sort the provided directives by length of their name, this allows a
// little more efficient lookup at runtime.
directives.sort_by(|a, b| {
let alen = a.name.as_ref().map(|a| a.len()).unwrap_or(0);
let blen = b.name.as_ref().map(|b| b.len()).unwrap_or(0);
alen.cmp(&blen)
});
let max_level = {
let max = directives.iter().max_by(|d| d.level);
max.map(|d| d.level).unwrap_or(DEFAULT_LOG_LEVEL)
};
unsafe {
LOG_LEVEL = max_level;
assert!(DIRECTIVES.is_null());
DIRECTIVES = mem::transmute(box directives);
// Schedule the cleanup for this global for when the runtime exits.
rt::at_exit(proc() {
assert!(!DIRECTIVES.is_null());
let _directives: Box<Vec<directive::LogDirective>> =
mem::transmute(DIRECTIVES);
DIRECTIVES = 0 as *Vec<directive::LogDirective>;
});
}
}
#[cfg(test)]
mod tests {
use super::enabled;
use directive::LogDirective;
#[test]
fn match_full_path() {
let dirs = [
LogDirective {
name: Some("crate2".to_strbuf()),
level: 3
},
LogDirective {
name: Some("crate1::mod1".to_strbuf()),
level: 2
}
];
assert!(enabled(2, "crate1::mod1", dirs.iter()));
assert!(!enabled(3, "crate1::mod1", dirs.iter()));
assert!(enabled(3, "crate2", dirs.iter()));
assert!(!enabled(4, "crate2", dirs.iter()));
}
#[test]
fn no_match() {
let dirs = [
LogDirective { name: Some("crate2".to_strbuf()), level: 3 },
LogDirective { name: Some("crate1::mod1".to_strbuf()), level: 2 }
];
assert!(!enabled(2, "crate3", dirs.iter()));
}
#[test]
fn match_beginning() {
let dirs = [
LogDirective { name: Some("crate2".to_strbuf()), level: 3 },
LogDirective { name: Some("crate1::mod1".to_strbuf()), level: 2 }
];
assert!(enabled(3, "crate2::mod1", dirs.iter()));
}
#[test]
fn match_beginning_longest_match() {
let dirs = [
LogDirective { name: Some("crate2".to_strbuf()), level: 3 },
LogDirective { name: Some("crate2::mod".to_strbuf()), level: 4 },
LogDirective { name: Some("crate1::mod1".to_strbuf()), level: 2 }
];
assert!(enabled(4, "crate2::mod1", dirs.iter()));
assert!(!enabled(4, "crate2", dirs.iter()));
}
#[test]
fn match_default() {
let dirs = [
LogDirective { name: None, level: 3 },
LogDirective { name: Some("crate1::mod1".to_strbuf()), level: 2 }
];
assert!(enabled(2, "crate1::mod1", dirs.iter()));
assert!(enabled(3, "crate2::mod2", dirs.iter()));
}
#[test]
fn zero_level() {
let dirs = [
LogDirective { name: None, level: 3 },
LogDirective { name: Some("crate1::mod1".to_strbuf()), level: 0 }
];
assert!(!enabled(1, "crate1::mod1", dirs.iter()));
assert!(enabled(3, "crate2::mod2", dirs.iter()));
}
}