// Copyright 2019-2023 Tauri Programme within The Commons Conservancy // SPDX-License-Identifier: Apache-2.0 // SPDX-License-Identifier: MIT //! Logging for Tauri applications. #![doc( html_logo_url = "https://github.com/tauri-apps/tauri/raw/dev/app-icon.png", html_favicon_url = "https://github.com/tauri-apps/tauri/raw/dev/app-icon.png" )] use fern::{Filter, FormatCallback}; use log::{LevelFilter, Record}; use serde::Serialize; use serde_repr::{Deserialize_repr, Serialize_repr}; use std::borrow::Cow; use std::fs::OpenOptions; use std::io::Write; use std::{ fmt::Arguments, fs::{self, File}, iter::FromIterator, path::{Path, PathBuf}, }; use tauri::{ plugin::{self, TauriPlugin}, Manager, Runtime, }; use tauri::{AppHandle, Emitter}; use time::{macros::format_description, OffsetDateTime}; pub use fern; pub use log; mod commands; pub const WEBVIEW_TARGET: &str = "webview"; #[cfg(target_os = "ios")] mod ios { swift_rs::swift!(pub fn tauri_log( level: u8, message: *const std::ffi::c_void )); } const DEFAULT_MAX_FILE_SIZE: u64 = 40000; const DEFAULT_ROTATION_STRATEGY: RotationStrategy = RotationStrategy::KeepOne; const DEFAULT_TIMEZONE_STRATEGY: TimezoneStrategy = TimezoneStrategy::UseUtc; const DEFAULT_LOG_TARGETS: [Target; 2] = [ Target::new(TargetKind::Stdout), Target::new(TargetKind::LogDir { file_name: None }), ]; const LOG_DATE_FORMAT: &[time::format_description::FormatItem<'_>] = format_description!("[year]-[month]-[day]_[hour]-[minute]-[second]"); #[derive(Debug, thiserror::Error)] pub enum Error { #[error(transparent)] Tauri(#[from] tauri::Error), #[error(transparent)] Io(#[from] std::io::Error), #[error(transparent)] TimeFormat(#[from] time::error::Format), #[error(transparent)] InvalidFormatDescription(#[from] time::error::InvalidFormatDescription), #[error("Internal logger disabled and cannot be acquired or attached")] LoggerNotInitialized, } /// An enum representing the available verbosity levels of the logger. /// /// It is very similar to the [`log::Level`], but serializes to unsigned ints instead of strings. #[derive(Debug, Clone, Deserialize_repr, Serialize_repr)] #[repr(u16)] pub enum LogLevel { /// The "trace" level. /// /// Designates very low priority, often extremely verbose, information. Trace = 1, /// The "debug" level. /// /// Designates lower priority information. Debug, /// The "info" level. /// /// Designates useful information. Info, /// The "warn" level. /// /// Designates hazardous situations. Warn, /// The "error" level. /// /// Designates very serious errors. Error, } impl From for log::Level { fn from(log_level: LogLevel) -> Self { match log_level { LogLevel::Trace => log::Level::Trace, LogLevel::Debug => log::Level::Debug, LogLevel::Info => log::Level::Info, LogLevel::Warn => log::Level::Warn, LogLevel::Error => log::Level::Error, } } } impl From for LogLevel { fn from(log_level: log::Level) -> Self { match log_level { log::Level::Trace => LogLevel::Trace, log::Level::Debug => LogLevel::Debug, log::Level::Info => LogLevel::Info, log::Level::Warn => LogLevel::Warn, log::Level::Error => LogLevel::Error, } } } #[derive(Debug, Clone)] pub enum RotationStrategy { /// Will keep all the logs, renaming them to include the date. KeepAll, /// Will only keep the most recent log up to its maximal size. KeepOne, /// Will keep some of the most recent logs, renaming them to include the date. KeepSome(usize), } #[derive(Debug, Clone)] pub enum TimezoneStrategy { UseUtc, UseLocal, } impl TimezoneStrategy { pub fn get_now(&self) -> OffsetDateTime { match self { TimezoneStrategy::UseUtc => OffsetDateTime::now_utc(), TimezoneStrategy::UseLocal => { OffsetDateTime::now_local().unwrap_or_else(|_| OffsetDateTime::now_utc()) } // Fallback to UTC since Rust cannot determine local timezone } } } /// A custom log writer that rotates the log file when it exceeds specified size. struct RotatingFile { dir: PathBuf, file_name: String, path: PathBuf, max_size: u64, current_size: u64, rotation_strategy: RotationStrategy, timezone_strategy: TimezoneStrategy, inner: Option, buffer: Vec, } impl RotatingFile { pub fn new( dir: impl AsRef, file_name: String, max_size: u64, rotation_strategy: RotationStrategy, timezone_strategy: TimezoneStrategy, ) -> Result { let dir = dir.as_ref().to_path_buf(); let path = dir.join(&file_name).with_extension("log"); let mut rotator = Self { dir, file_name, path, max_size, current_size: 0, rotation_strategy, timezone_strategy, inner: None, buffer: Vec::new(), }; rotator.open_file()?; if rotator.current_size >= rotator.max_size { rotator.rotate()?; } if let RotationStrategy::KeepSome(keep_count) = rotator.rotation_strategy { rotator.remove_old_files(keep_count)?; } Ok(rotator) } fn open_file(&mut self) -> Result<(), Error> { let file = OpenOptions::new() .create(true) .append(true) .open(&self.path)?; self.current_size = file.metadata()?.len(); self.inner = Some(file); Ok(()) } fn rotate(&mut self) -> Result<(), Error> { if let Some(mut file) = self.inner.take() { let _ = file.flush(); } if self.path.exists() { match self.rotation_strategy { RotationStrategy::KeepAll => { self.rename_file_to_dated()?; } RotationStrategy::KeepSome(keep_count) => { // remove_old_files excludes the active file. // So we need to keep (keep_count - 1) archived files to make room for the one we are about to archive. self.remove_old_files(keep_count - 1)?; self.rename_file_to_dated()?; } RotationStrategy::KeepOne => { fs::remove_file(&self.path)?; } } } self.open_file()?; Ok(()) } /// Remove old log files until the number of old log files is equal to the keep_count, /// the current active log file is not included in the keep_count. fn remove_old_files(&self, keep_count: usize) -> Result<(), Error> { let mut files = fs::read_dir(&self.dir)? .filter_map(|entry| { let entry = entry.ok()?; let path = entry.path(); let old_file_name = path.file_name()?.to_string_lossy().into_owned(); if old_file_name.starts_with(&self.file_name) // exclude the current active file && old_file_name != format!("{}.log", self.file_name) { let date = old_file_name .strip_prefix(&self.file_name)? .strip_prefix("_")? .strip_suffix(".log")?; Some((path, date.to_string())) } else { None } }) .collect::>(); files.sort_by(|a, b| a.1.cmp(&b.1)); if files.len() > keep_count { let files_to_remove = files.len() - keep_count; for (old_log_path, _) in files.iter().take(files_to_remove) { fs::remove_file(old_log_path)?; } } Ok(()) } fn rename_file_to_dated(&self) -> Result<(), Error> { let to = self.dir.join(format!( "{}_{}.log", self.file_name, self.timezone_strategy .get_now() .format(LOG_DATE_FORMAT) .unwrap(), )); if to.is_file() { // designated rotated log file name already exists // highly unlikely but defensively handle anyway by adding .bak to filename let mut to_bak = to.clone(); to_bak.set_file_name(format!( "{}.bak", to_bak.file_name().unwrap().to_string_lossy() )); fs::rename(&to, to_bak)?; } fs::rename(&self.path, &to)?; Ok(()) } } impl Write for RotatingFile { fn write(&mut self, buf: &[u8]) -> std::io::Result { self.buffer.extend_from_slice(buf); Ok(buf.len()) } fn flush(&mut self) -> std::io::Result<()> { if self.buffer.is_empty() { return Ok(()); } if self.inner.is_none() { self.open_file().map_err(std::io::Error::other)?; } if self.current_size != 0 && self.current_size + (self.buffer.len() as u64) > self.max_size { self.rotate().map_err(std::io::Error::other)?; } if let Some(file) = self.inner.as_mut() { file.write_all(&self.buffer)?; self.current_size += self.buffer.len() as u64; file.flush()?; } self.buffer.clear(); Ok(()) } } #[derive(Debug, Serialize, Clone)] struct RecordPayload { message: String, level: LogLevel, } /// An enum representing the available targets of the logger. pub enum TargetKind { /// Print logs to stdout. Stdout, /// Print logs to stderr. Stderr, /// Write logs to the given directory. /// /// The plugin will ensure the directory exists before writing logs. Folder { path: PathBuf, file_name: Option, }, /// Write logs to the OS specific logs directory. /// /// ### Platform-specific /// /// |Platform | Value | Example | /// | --------- | ----------------------------------------------------------------------------------------- | ----------------------------------------------------------- | /// | Linux | `$XDG_DATA_HOME/{bundleIdentifier}/logs` or `$HOME/.local/share/{bundleIdentifier}/logs` | `/home/alice/.local/share/com.tauri.dev/logs` | /// | macOS/iOS | `{homeDir}/Library/Logs/{bundleIdentifier}` | `/Users/Alice/Library/Logs/com.tauri.dev` | /// | Windows | `{FOLDERID_LocalAppData}/{bundleIdentifier}/logs` | `C:\Users\Alice\AppData\Local\com.tauri.dev\logs` | /// | Android | `{ConfigDir}/logs` | `/data/data/com.tauri.dev/files/logs` | LogDir { file_name: Option }, /// Forward logs to the webview (via the `log://log` event). /// /// This requires the webview to subscribe to log events, via this plugins `attachConsole` function. Webview, /// Send logs to a [`fern::Dispatch`] /// /// You can use this to construct arbitrary log targets. Dispatch(fern::Dispatch), } type Formatter = dyn Fn(FormatCallback, &Arguments, &Record) + Send + Sync + 'static; /// A log target. pub struct Target { kind: TargetKind, filters: Vec>, formatter: Option>, } impl Target { #[inline] pub const fn new(kind: TargetKind) -> Self { Self { kind, filters: Vec::new(), formatter: None, } } #[inline] pub fn filter(mut self, filter: F) -> Self where F: Fn(&log::Metadata) -> bool + Send + Sync + 'static, { self.filters.push(Box::new(filter)); self } #[inline] pub fn format(mut self, formatter: F) -> Self where F: Fn(FormatCallback, &Arguments, &Record) + Send + Sync + 'static, { self.formatter.replace(Box::new(formatter)); self } } pub struct Builder { dispatch: fern::Dispatch, rotation_strategy: RotationStrategy, timezone_strategy: TimezoneStrategy, max_file_size: u128, targets: Vec, is_skip_logger: bool, } impl Default for Builder { fn default() -> Self { #[cfg(desktop)] let format = format_description!("[[[year]-[month]-[day]][[[hour]:[minute]:[second]]"); let dispatch = fern::Dispatch::new().format(move |out, message, record| { out.finish( #[cfg(mobile)] format_args!("[{}] {}", record.target(), message), #[cfg(desktop)] format_args!( "{}[{}][{}] {}", DEFAULT_TIMEZONE_STRATEGY.get_now().format(&format).unwrap(), record.target(), record.level(), message ), ) }); Self { dispatch, rotation_strategy: DEFAULT_ROTATION_STRATEGY, timezone_strategy: DEFAULT_TIMEZONE_STRATEGY, max_file_size: DEFAULT_MAX_FILE_SIZE as u128, targets: DEFAULT_LOG_TARGETS.into(), is_skip_logger: false, } } } impl Builder { pub fn new() -> Self { Default::default() } pub fn rotation_strategy(mut self, rotation_strategy: RotationStrategy) -> Self { self.rotation_strategy = rotation_strategy; self } pub fn timezone_strategy(mut self, timezone_strategy: TimezoneStrategy) -> Self { self.timezone_strategy = timezone_strategy.clone(); let format = format_description!("[[[year]-[month]-[day]][[[hour]:[minute]:[second]]"); self.dispatch = self.dispatch.format(move |out, message, record| { out.finish(format_args!( "{}[{}][{}] {}", timezone_strategy.get_now().format(&format).unwrap(), record.level(), record.target(), message )) }); self } /// Sets the maximum file size for log rotation. /// /// Values larger than `u64::MAX` will be clamped to `u64::MAX`. /// In v3, this parameter will be changed to `u64`. pub fn max_file_size(mut self, max_file_size: u128) -> Self { self.max_file_size = max_file_size.min(u64::MAX as u128); self } pub fn clear_format(mut self) -> Self { self.dispatch = self.dispatch.format(|out, message, _record| { out.finish(format_args!("{message}")); }); self } pub fn format(mut self, formatter: F) -> Self where F: Fn(FormatCallback, &Arguments, &Record) + Sync + Send + 'static, { self.dispatch = self.dispatch.format(formatter); self } pub fn level(mut self, level_filter: impl Into) -> Self { self.dispatch = self.dispatch.level(level_filter.into()); self } pub fn level_for(mut self, module: impl Into>, level: LevelFilter) -> Self { self.dispatch = self.dispatch.level_for(module, level); self } pub fn filter(mut self, filter: F) -> Self where F: Fn(&log::Metadata) -> bool + Send + Sync + 'static, { self.dispatch = self.dispatch.filter(filter); self } /// Removes all targets. Useful to ignore the default targets and reconfigure them. pub fn clear_targets(mut self) -> Self { self.targets.clear(); self } /// Adds a log target to the logger. /// /// ```rust /// use tauri_plugin_log::{Target, TargetKind}; /// tauri_plugin_log::Builder::new() /// .target(Target::new(TargetKind::Webview)); /// ``` pub fn target(mut self, target: Target) -> Self { self.targets.push(target); self } /// Skip the creation and global registration of a logger /// /// If you wish to use your own global logger, you must call `skip_logger` so that the plugin does not attempt to set a second global logger. In this configuration, no logger will be created and the plugin's `log` command will rely on the result of `log::logger()`. You will be responsible for configuring the logger yourself and any included targets will be ignored. If ever initializing the plugin multiple times, such as if registering the plugin while testing, call this method to avoid panicking when registering multiple loggers. For interacting with `tracing`, you can leverage the `tracing-log` logger to forward logs to `tracing` or enable the `tracing` feature for this plugin to emit events directly to the tracing system. Both scenarios require calling this method. /// ```rust /// static LOGGER: SimpleLogger = SimpleLogger; /// /// log::set_logger(&SimpleLogger)?; /// log::set_max_level(LevelFilter::Info); /// tauri_plugin_log::Builder::new() /// .skip_logger(); /// ``` pub fn skip_logger(mut self) -> Self { self.is_skip_logger = true; self } /// Replaces the targets of the logger. /// /// ```rust /// use tauri_plugin_log::{Target, TargetKind, WEBVIEW_TARGET}; /// tauri_plugin_log::Builder::new() /// .targets([ /// Target::new(TargetKind::Webview), /// Target::new(TargetKind::LogDir { file_name: Some("webview".into()) }).filter(|metadata| metadata.target().starts_with(WEBVIEW_TARGET)), /// Target::new(TargetKind::LogDir { file_name: Some("rust".into()) }).filter(|metadata| !metadata.target().starts_with(WEBVIEW_TARGET)), /// ]); /// ``` pub fn targets(mut self, targets: impl IntoIterator) -> Self { self.targets = Vec::from_iter(targets); self } #[cfg(feature = "colored")] pub fn with_colors(self, colors: fern::colors::ColoredLevelConfig) -> Self { let format = format_description!("[[[year]-[month]-[day]][[[hour]:[minute]:[second]]"); let timezone_strategy = self.timezone_strategy.clone(); self.format(move |out, message, record| { out.finish(format_args!( "{}[{}][{}] {}", timezone_strategy.get_now().format(&format).unwrap(), colors.color(record.level()), record.target(), message )) }) } fn acquire_logger( app_handle: &AppHandle, mut dispatch: fern::Dispatch, rotation_strategy: RotationStrategy, timezone_strategy: TimezoneStrategy, max_file_size: u64, targets: Vec, ) -> Result<(log::LevelFilter, Box), Error> { let app_name = &app_handle.package_info().name; // setup targets for target in targets { let mut target_dispatch = fern::Dispatch::new(); for filter in target.filters { target_dispatch = target_dispatch.filter(filter); } if let Some(formatter) = target.formatter { target_dispatch = target_dispatch.format(formatter); } let logger = match target.kind { #[cfg(target_os = "android")] TargetKind::Stdout | TargetKind::Stderr => fern::Output::call(android_logger::log), #[cfg(target_os = "ios")] TargetKind::Stdout | TargetKind::Stderr => fern::Output::call(move |record| { let message = format!("{}", record.args()); unsafe { ios::tauri_log( match record.level() { log::Level::Trace | log::Level::Debug => 1, log::Level::Info => 2, log::Level::Warn | log::Level::Error => 3, }, // The string is allocated in rust, so we must // autorelease it rust to give it to the Swift // runtime. objc2::rc::Retained::autorelease_ptr( objc2_foundation::NSString::from_str(message.as_str()), ) as _, ); } }), #[cfg(desktop)] TargetKind::Stdout => std::io::stdout().into(), #[cfg(desktop)] TargetKind::Stderr => std::io::stderr().into(), TargetKind::Folder { path, file_name } => { if !path.exists() { fs::create_dir_all(&path)?; } let rotator = RotatingFile::new( &path, file_name.unwrap_or(app_name.clone()), max_file_size, rotation_strategy.clone(), timezone_strategy.clone(), )?; fern::Output::writer(Box::new(rotator), "\n") } TargetKind::LogDir { file_name } => { let path = app_handle.path().app_log_dir()?; if !path.exists() { fs::create_dir_all(&path)?; } let rotator = RotatingFile::new( &path, file_name.unwrap_or(app_name.clone()), max_file_size, rotation_strategy.clone(), timezone_strategy.clone(), )?; fern::Output::writer(Box::new(rotator), "\n") } TargetKind::Webview => { let app_handle = app_handle.clone(); fern::Output::call(move |record| { let payload = RecordPayload { message: record.args().to_string(), level: record.level().into(), }; let app_handle = app_handle.clone(); tauri::async_runtime::spawn(async move { let _ = app_handle.emit("log://log", payload); }); }) } TargetKind::Dispatch(dispatch) => dispatch.into(), }; target_dispatch = target_dispatch.chain(logger); dispatch = dispatch.chain(target_dispatch); } Ok(dispatch.into_log()) } fn plugin_builder() -> plugin::Builder { plugin::Builder::new("log").invoke_handler(tauri::generate_handler![commands::log]) } #[allow(clippy::type_complexity)] pub fn split( self, app_handle: &AppHandle, ) -> Result<(TauriPlugin, log::LevelFilter, Box), Error> { if self.is_skip_logger { return Err(Error::LoggerNotInitialized); } let plugin = Self::plugin_builder(); let (max_level, log) = Self::acquire_logger( app_handle, self.dispatch, self.rotation_strategy, self.timezone_strategy, self.max_file_size as u64, self.targets, )?; Ok((plugin.build(), max_level, log)) } pub fn build(self) -> TauriPlugin { Self::plugin_builder() .setup(move |app_handle, _api| { if !self.is_skip_logger { let (max_level, log) = Self::acquire_logger( app_handle, self.dispatch, self.rotation_strategy, self.timezone_strategy, self.max_file_size as u64, self.targets, )?; attach_logger(max_level, log)?; } Ok(()) }) .build() } } /// Attaches the given logger pub fn attach_logger( max_level: log::LevelFilter, log: Box, ) -> Result<(), log::SetLoggerError> { log::set_boxed_logger(log)?; log::set_max_level(max_level); Ok(()) }