use crate::settings::*; use crate::*; use cfg_if::*; #[cfg(feature = "rt-tokio")] use console_subscriber::ConsoleLayer; use opentelemetry::sdk::*; use opentelemetry::*; use opentelemetry_otlp::WithExportConfig; use parking_lot::*; use std::collections::BTreeMap; use std::path::*; use std::sync::Arc; use tracing_appender::*; use tracing_subscriber::prelude::*; use tracing_subscriber::*; struct VeilidLogsInner { _guard: Option, filters: BTreeMap<&'static str, veilid_core::VeilidLayerFilter>, } #[derive(Clone)] pub struct VeilidLogs { inner: Arc>, } impl VeilidLogs { pub fn setup(settings: Settings) -> EyreResult { let settingsr = settings.read(); // Set up subscriber and layers let subscriber = Registry::default(); let mut layers = Vec::new(); let mut filters = BTreeMap::new(); // Error layer // XXX: Spantrace capture causes rwlock deadlocks/crashes // XXX: //layers.push(tracing_error::ErrorLayer::default().boxed()); #[cfg(feature = "rt-tokio")] if settingsr.logging.console.enabled { let layer = ConsoleLayer::builder() .with_default_env() .spawn() .with_filter( filter::Targets::new() .with_target("tokio", Level::TRACE) .with_target("runtime", Level::TRACE), ); layers.push(layer.boxed()); } // Terminal logger if settingsr.logging.terminal.enabled { let filter = veilid_core::VeilidLayerFilter::new( convert_loglevel(settingsr.logging.terminal.level), None, ); let layer = fmt::Layer::new() .compact() .with_writer(std::io::stdout) .with_filter(filter.clone()); filters.insert("terminal", filter); layers.push(layer.boxed()); } // OpenTelemetry logger if settingsr.logging.otlp.enabled { let grpc_endpoint = settingsr.logging.otlp.grpc_endpoint.name.clone(); cfg_if! { if #[cfg(feature="rt-async-std")] { let exporter = opentelemetry_otlp::new_exporter() .grpcio() .with_endpoint(grpc_endpoint); let batch = opentelemetry::runtime::AsyncStd; } else if #[cfg(feature="rt-tokio")] { let exporter = opentelemetry_otlp::new_exporter() .tonic() .with_endpoint(format!("http://{}", grpc_endpoint)); let batch = opentelemetry::runtime::Tokio; } } let tracer = opentelemetry_otlp::new_pipeline() .tracing() .with_exporter(exporter) .with_trace_config(opentelemetry::sdk::trace::config().with_resource( Resource::new(vec![KeyValue::new( opentelemetry_semantic_conventions::resource::SERVICE_NAME, format!( "veilid_server:{}", hostname::get() .map(|s| s.to_string_lossy().into_owned()) .unwrap_or_else(|_| "unknown".to_owned()) ), )]), )) .install_batch(batch) .wrap_err("failed to install OpenTelemetry tracer")?; let filter = veilid_core::VeilidLayerFilter::new( convert_loglevel(settingsr.logging.otlp.level), None, ); let layer = tracing_opentelemetry::layer() .with_tracer(tracer) .with_filter(filter.clone()); filters.insert("otlp", filter); layers.push(layer.boxed()); } // File logger let mut guard = None; if settingsr.logging.file.enabled { let log_path = Path::new(&settingsr.logging.file.path); let full_path = std::env::current_dir() .unwrap_or(PathBuf::from(MAIN_SEPARATOR.to_string())) .join(log_path); let log_parent = full_path .parent() .unwrap_or(Path::new(&MAIN_SEPARATOR.to_string())) .canonicalize() .wrap_err(format!( "File log path parent does not exist: {}", settingsr.logging.file.path ))?; let log_filename = full_path.file_name().ok_or(eyre!( "File log filename not specified in path: {}", settingsr.logging.file.path ))?; let appender = tracing_appender::rolling::never(log_parent, Path::new(log_filename)); let (non_blocking_appender, non_blocking_guard) = tracing_appender::non_blocking(appender); guard = Some(non_blocking_guard); let filter = veilid_core::VeilidLayerFilter::new( convert_loglevel(settingsr.logging.file.level), None, ); let layer = fmt::Layer::new() .compact() .with_writer(non_blocking_appender) .with_filter(filter.clone()); filters.insert("file", filter); layers.push(layer.boxed()); } // API logger if settingsr.logging.api.enabled { let filter = veilid_core::VeilidLayerFilter::new( convert_loglevel(settingsr.logging.api.level), None, ); let layer = veilid_core::ApiTracingLayer::get().with_filter(filter.clone()); filters.insert("api", filter); layers.push(layer.boxed()); } // Systemd Journal logger cfg_if! { if #[cfg(target_os = "linux")] { if settingsr.logging.system.enabled { let filter = veilid_core::VeilidLayerFilter::new( convert_loglevel(settingsr.logging.system.level), None, ); let layer = tracing_journald::layer().wrap_err("failed to set up journald logging")? .with_filter(filter.clone()); filters.insert("system", filter); layers.push(layer.boxed()); } } } let subscriber = subscriber.with(layers); subscriber .try_init() .wrap_err("failed to initialize logging")?; Ok(VeilidLogs { inner: Arc::new(Mutex::new(VeilidLogsInner { _guard: guard, filters, })), }) } pub fn change_log_level( &self, layer: String, log_level: veilid_core::VeilidConfigLogLevel, ) -> Result<(), veilid_core::VeilidAPIError> { // get layer to change level on let layer = if layer == "all" { "".to_owned() } else { layer }; // change log level on appropriate layer let inner = self.inner.lock(); if layer.is_empty() { // Change all layers for f in inner.filters.values() { f.set_max_level(log_level); } } else { // Change a specific layer let f = match inner.filters.get(layer.as_str()) { Some(f) => f, None => { return Err(veilid_core::VeilidAPIError::InvalidArgument { context: "change_log_level".to_owned(), argument: "layer".to_owned(), value: layer, }); } }; f.set_max_level(log_level); } Ok(()) } }