use crate::format; use cuda_types::cuda::*; use super::Settings; use std::error::Error; use std::ffi::c_void; use std::ffi::NulError; use std::fmt::Display; use std::fs::File; use std::io; use std::io::Stderr; use std::io::Write; use std::path::PathBuf; use std::str::Utf8Error; const LOG_PREFIX: &[u8] = b"[ZLUDA_DUMP] "; // This type holds all the relevant settings for logging like output path and // creates objects which match those settings pub(crate) struct Factory { // Fallible emitter is optional emitter to file system, we might lack // file permissions or be out of disk space fallible_emitter: Option>, // This is emitter that "always works" (and if it does not, then we don't // care). In addition of normal logs it emits errors from fallible emitter infallible_emitter: Box, write_buffer: WriteBuffer, // another shared buffer, so we dont't reallocate on every function call log_queue: Vec, } // When writing out to the emitter (file, WinAPI, whatever else) instead of // writing piece-by-piece it's better to first concatenate everything in memory // then write out from memory to the slow emitter only once. // Additionally we might have an unprefixed and prefixed buffer, this struct // handles this detail struct WriteBuffer { prefixed_buffer: Option>, unprefixed_buffer: Option>, } impl WriteBuffer { fn new() -> Self { WriteBuffer { prefixed_buffer: None, unprefixed_buffer: None, } } fn init( &mut self, fallible_emitter: &Option>, infallible_emitter: &Box, ) { if infallible_emitter.should_prefix() { self.prefixed_buffer = Some(Vec::new()); } else { self.unprefixed_buffer = Some(Vec::new()); } if let Some(emitter) = fallible_emitter { if emitter.should_prefix() { self.prefixed_buffer = Some(Vec::new()); } else { self.unprefixed_buffer = Some(Vec::new()); } } } fn all_buffers(&mut self) -> impl Iterator> { self.prefixed_buffer .as_mut() .into_iter() .chain(self.unprefixed_buffer.as_mut().into_iter()) } fn start_line(&mut self) { if let Some(buffer) = &mut self.prefixed_buffer { buffer.extend_from_slice(LOG_PREFIX); } } fn end_line(&mut self) { for buffer in self.all_buffers() { buffer.push(b'\n'); } } fn write(&mut self, s: &str) { for buffer in self.all_buffers() { buffer.extend_from_slice(s.as_bytes()); } } fn finish(&mut self) { for buffer in self.all_buffers() { buffer.push(b'\0'); } } fn undo_finish(&mut self) { for buffer in self.all_buffers() { buffer.truncate(buffer.len() - 1); } } fn send_to(&self, log_emitter: &mut Box) -> Result<(), io::Error> { if log_emitter.should_prefix() { log_emitter.write_zero_aware( &*self .prefixed_buffer .as_ref() .unwrap_or_else(|| unreachable!()), ) } else { log_emitter.write_zero_aware( &*self .unprefixed_buffer .as_ref() .unwrap_or_else(|| unreachable!()), ) } } fn reset(&mut self) { for buffer in self.all_buffers() { unsafe { buffer.set_len(0) }; } } } impl Write for WriteBuffer { fn write(&mut self, buf: &[u8]) -> io::Result { if let Some(buffer) = &mut self.prefixed_buffer { buffer.extend_from_slice(buf); } if let Some(buffer) = &mut self.unprefixed_buffer { buffer.extend_from_slice(buf); } Ok(buf.len()) } fn flush(&mut self) -> io::Result<()> { Ok(()) } } impl Factory { pub(crate) fn new() -> Self { let debug_emitter = os::new_debug_logger(); Factory { infallible_emitter: debug_emitter, fallible_emitter: None, write_buffer: WriteBuffer::new(), log_queue: Vec::new(), } } fn initalize_fallible_emitter( settings: &Settings, ) -> std::io::Result>> { settings .dump_dir .as_ref() .map(|path| { Ok::<_, std::io::Error>(Box::new(File::create(path.to_path_buf().join("log.txt"))?) as Box) }) .transpose() } // We load settings during first function call, since during that time we // also create one of the loggers, what do we do about errors encountered // at that time? We log them to the newly created logger, but to make it // "nice" we do both of those in a single function // An alternative would be to have something like this: // let mut factory = Factory::new(); // let mut cuInitLog = factory.get_logger("cuInit"); // cuInitLog.load_settings(&settings); // which is a bit nonsensical pub(crate) fn get_first_logger_and_init_settings( &mut self, func: &'static str, arguments_writer: Box std::io::Result<()>>, ) -> (FunctionLogger, Settings) { let mut first_logger = self.get_logger(func, arguments_writer); let settings = Settings::read_and_init(&mut first_logger); match Self::initalize_fallible_emitter(&settings) { Ok(fallible_emitter) => { *first_logger.fallible_emitter = fallible_emitter; } Err(err) => first_logger.log(LogEntry::IoError(err)), } first_logger.write_buffer.init( first_logger.fallible_emitter, first_logger.infallible_emitter, ); (first_logger, settings) } pub(crate) fn get_logger( &mut self, func: &'static str, arguments_writer: Box std::io::Result<()>>, ) -> FunctionLogger { FunctionLogger { result: None, name: CudaFunctionName::Normal(func), fallible_emitter: &mut self.fallible_emitter, infallible_emitter: &mut self.infallible_emitter, write_buffer: &mut self.write_buffer, log_queue: &mut self.log_queue, arguments_writer: Some(arguments_writer), } } pub(crate) fn get_logger_dark_api( &mut self, guid: CUuuid, index: usize, arguments_writer: Option std::io::Result<()>>>, ) -> FunctionLogger { FunctionLogger { result: None, name: CudaFunctionName::Dark { guid, index }, fallible_emitter: &mut self.fallible_emitter, infallible_emitter: &mut self.infallible_emitter, write_buffer: &mut self.write_buffer, log_queue: &mut self.log_queue, arguments_writer, } } } enum CudaFunctionName { Normal(&'static str), Dark { guid: CUuuid, index: usize }, } // This encapsulates log output for a single function call. // It's a separate struct and not just a plain function for two reasons: // * While we want to always display return code before logging errors, // logging errors might come before return code is returned // * We want to handle panics gracefully with Drop pub(crate) struct FunctionLogger<'a> { pub(crate) result: Option, name: CudaFunctionName, infallible_emitter: &'a mut Box, fallible_emitter: &'a mut Option>, arguments_writer: Option std::io::Result<()>>>, write_buffer: &'a mut WriteBuffer, log_queue: &'a mut Vec, } impl<'a> FunctionLogger<'a> { pub(crate) fn log(&mut self, l: LogEntry) { self.log_queue.push(l); } pub(crate) fn log_io_error(&mut self, error: io::Result<()>) { if let Err(e) = error { self.log_queue.push(LogEntry::IoError(e)); } } fn flush_log_queue_to_write_buffer(&mut self) { self.write_buffer.start_line(); match self.name { CudaFunctionName::Normal(fn_name) => self.write_buffer.write(fn_name), CudaFunctionName::Dark { guid, index } => { format::CudaDisplay::write(&guid, "", 0, &mut self.write_buffer).ok(); write!(&mut self.write_buffer, "::{}", index).ok(); } } match &mut self.arguments_writer { Some(arg_writer) => { arg_writer(&mut self.write_buffer).ok(); } None => { self.write_buffer.write_all(b"(...)").ok(); } } self.write_buffer.write_all(b" -> ").ok(); if let Some(result) = self.result { format::CudaDisplay::write(&result, "", 0, self.write_buffer).ok(); } else { self.write_buffer.write_all(b"UNKNOWN").ok(); }; self.write_buffer.end_line(); for entry in self.log_queue.iter() { write!(self.write_buffer, " {}", entry).ok(); self.write_buffer.end_line(); } self.write_buffer.finish(); } // This is a dirty hack: we call it at the point where our write buffer is // already finalized and squeeze the error produced by the previous emitter fn hack_squeeze_in_additional_error(&mut self, entry: LogEntry) { self.write_buffer.undo_finish(); write!(self.write_buffer, " {}", entry).unwrap_or_else(|_| unreachable!()); self.write_buffer.end_line(); self.write_buffer.finish(); } } impl<'a> Drop for FunctionLogger<'a> { fn drop(&mut self) { self.flush_log_queue_to_write_buffer(); let error_from_writing_to_fallible_emitter = match self.fallible_emitter { Some(emitter) => self.write_buffer.send_to(emitter), None => Ok(()), }; if let Err(e) = error_from_writing_to_fallible_emitter { self.hack_squeeze_in_additional_error(LogEntry::IoError(e)) } self.write_buffer.send_to(self.infallible_emitter).ok(); self.write_buffer.reset(); self.log_queue.truncate(0); } } // Structured log type. We don't want frontend to care about log formatting pub(crate) enum LogEntry { IoError(io::Error), CreatedDumpDirectory(PathBuf), ErrorBox(Box), UnsupportedModule { module: CUmodule, raw_image: *const c_void, kind: &'static str, }, MalformedModulePath(Utf8Error), NonUtf8ModuleText(Utf8Error), NulInsideModuleText(NulError), ModuleParsingError(String), Lz4DecompressionFailure, UnknownExportTableFn, UnexpectedArgument { arg_name: &'static str, expected: Vec, observed: UInt, }, UnexpectedBinaryField { field_name: &'static str, expected: Vec, observed: UInt, }, } impl Display for LogEntry { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { LogEntry::IoError(e) => e.fmt(f), LogEntry::CreatedDumpDirectory(dir) => { write!( f, "Created dump directory {} ", dir.as_os_str().to_string_lossy() ) } LogEntry::ErrorBox(e) => e.fmt(f), LogEntry::UnsupportedModule { module, raw_image, kind, } => { write!( f, "Unsupported {} module {:?} loaded from module image {:?}", kind, module, raw_image ) } LogEntry::MalformedModulePath(e) => e.fmt(f), LogEntry::NonUtf8ModuleText(e) => e.fmt(f), LogEntry::ModuleParsingError(file_name) => { write!( f, "Error parsing module, log has been written to {}", file_name ) } LogEntry::NulInsideModuleText(e) => e.fmt(f), LogEntry::Lz4DecompressionFailure => write!(f, "LZ4 decompression failure"), LogEntry::UnknownExportTableFn => write!(f, "Unknown export table function"), LogEntry::UnexpectedBinaryField { field_name, expected, observed, } => write!( f, "Unexpected field {}. Expected one of: {{{}}}, observed: {}", field_name, expected .iter() .map(|x| x.to_string()) .collect::>() .join(", "), observed ), LogEntry::UnexpectedArgument { arg_name, expected, observed, } => write!( f, "Unexpected argument {}. Expected one of: {{{}}}, observed: {}", arg_name, expected .iter() .map(|x| x.to_string()) .collect::>() .join(", "), observed ), } } } #[derive(Clone, Copy)] pub(crate) enum UInt { U16(u16), U32(u32), USize(usize), } impl Display for UInt { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { UInt::U16(x) => write!(f, "{:#x}", x), UInt::U32(x) => write!(f, "{:#x}", x), UInt::USize(x) => write!(f, "{:#x}", x), } } } // Some of our writers want to have trailing zero (WinAPI debug logger) and some // don't (everything else), this trait encapsulates that logic pub(crate) trait WriteTrailingZeroAware { fn write_zero_aware(&mut self, buf: &[u8]) -> std::io::Result<()>; fn flush(&mut self) -> std::io::Result<()>; fn should_prefix(&self) -> bool; } impl WriteTrailingZeroAware for File { fn write_zero_aware(&mut self, buf: &[u8]) -> std::io::Result<()> { ::write_all(self, buf.split_last().unwrap().1) } fn flush(&mut self) -> std::io::Result<()> { ::flush(self) } fn should_prefix(&self) -> bool { false } } impl WriteTrailingZeroAware for Stderr { fn write_zero_aware(&mut self, buf: &[u8]) -> std::io::Result<()> { ::write_all(self, buf.split_last().unwrap().1) } fn flush(&mut self) -> std::io::Result<()> { ::flush(self) } fn should_prefix(&self) -> bool { true } } #[cfg(windows)] mod os { use super::WriteTrailingZeroAware; use std::{os::windows::prelude::AsRawHandle, ptr}; use winapi::um::debugapi::OutputDebugStringA; struct OutputDebugString {} impl WriteTrailingZeroAware for OutputDebugString { fn write_zero_aware(&mut self, buf: &[u8]) -> std::io::Result<()> { unsafe { OutputDebugStringA(buf.as_ptr() as *const _) }; Ok(()) } fn flush(&mut self) -> std::io::Result<()> { Ok(()) } fn should_prefix(&self) -> bool { true } } pub(crate) fn new_debug_logger() -> Box { let stderr = std::io::stderr(); let log_to_stderr = stderr.as_raw_handle() != ptr::null_mut(); if log_to_stderr { Box::new(stderr) } else { Box::new(OutputDebugString {}) } } } #[cfg(not(windows))] mod os { use super::WriteTrailingZeroAware; pub(crate) fn new_debug_logger() -> Box { Box::new(std::io::stderr()) } } #[cfg(test)] mod tests { use std::{borrow::Cow, cell::RefCell, io, rc::Rc, str}; use super::{FunctionLogger, LogEntry, WriteTrailingZeroAware}; use crate::{log::WriteBuffer, CUresult}; struct FailOnNthWrite { fail_on: usize, counter: usize, } impl WriteTrailingZeroAware for FailOnNthWrite { fn write_zero_aware(&mut self, _: &[u8]) -> std::io::Result<()> { self.counter += 1; if self.counter >= self.fail_on { Err(io::Error::from_raw_os_error(4)) } else { Ok(()) } } fn flush(&mut self) -> std::io::Result<()> { panic!() } fn should_prefix(&self) -> bool { false } } // Custom type to not trigger trait coherence rules #[derive(Clone)] struct RcVec(Rc>>); impl WriteTrailingZeroAware for RcVec { fn write_zero_aware(&mut self, buf: &[u8]) -> std::io::Result<()> { let mut vec = self.0.borrow_mut(); vec.extend_from_slice(buf.split_last().unwrap().1); Ok(()) } fn flush(&mut self) -> std::io::Result<()> { Ok(()) } fn should_prefix(&self) -> bool { false } } #[test] fn error_in_fallible_emitter_is_handled_gracefully() { let result = RcVec(Rc::new(RefCell::new(Vec::::new()))); let mut infallible_emitter = Box::new(result.clone()) as Box; let mut fallible_emitter = Some(Box::new(FailOnNthWrite { fail_on: 1, counter: 0, }) as Box); let mut write_buffer = WriteBuffer::new(); write_buffer.unprefixed_buffer = Some(Vec::new()); let mut log_queue = Vec::new(); let mut func_logger = FunctionLogger { result: Some(CUresult::CUDA_SUCCESS), name: Cow::Borrowed("cuInit"), infallible_emitter: &mut infallible_emitter, fallible_emitter: &mut fallible_emitter, write_buffer: &mut write_buffer, log_queue: &mut log_queue, }; func_logger.log(LogEntry::IoError(io::Error::from_raw_os_error(1))); func_logger.log(LogEntry::IoError(io::Error::from_raw_os_error(2))); func_logger.log(LogEntry::IoError(io::Error::from_raw_os_error(3))); drop(func_logger); drop(infallible_emitter); let result = result.0.borrow_mut(); let result_str = str::from_utf8(&*result).unwrap(); let result_lines = result_str.lines().collect::>(); assert_eq!(result_lines.len(), 5); assert_eq!(result_lines[0], "cuInit(...) -> 0x0"); assert!(result_lines[1].starts_with(" ")); assert!(result_lines[2].starts_with(" ")); assert!(result_lines[3].starts_with(" ")); assert!(result_lines[4].starts_with(" ")); } }