Mercurial > hg
view rust/hg-core/src/logging.rs @ 50521:f697af015683
stream-clone: bail-out earlier if pull is partial
The `canperformstreamclone` function is bit messy. However it seems clearer to
me to process the very generic condition about "can we consider a stream-clone
at all", before checking if a stream-clone is requested and if a compatible
protocol can be negotiated with the server.
So I am doing some gratuitous movement so reorder conditional.
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
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date | Sat, 20 May 2023 01:19:26 +0200 |
parents | 9cd35c8c6044 |
children | db7dbe6f7bb2 |
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use crate::errors::{HgError, HgResultExt, IoErrorContext, IoResultExt}; use crate::vfs::Vfs; use std::io::Write; /// An utility to append to a log file with the given name, and optionally /// rotate it after it reaches a certain maximum size. /// /// Rotation works by renaming "example.log" to "example.log.1", after renaming /// "example.log.1" to "example.log.2" etc up to the given maximum number of /// files. pub struct LogFile<'a> { vfs: Vfs<'a>, name: &'a str, max_size: Option<u64>, max_files: u32, } impl<'a> LogFile<'a> { pub fn new(vfs: Vfs<'a>, name: &'a str) -> Self { Self { vfs, name, max_size: None, max_files: 0, } } /// Rotate before writing to a log file that was already larger than the /// given size, in bytes. `None` disables rotation. pub fn max_size(mut self, value: Option<u64>) -> Self { self.max_size = value; self } /// Keep this many rotated files `{name}.1` up to `{name}.{max}`, in /// addition to the original `{name}` file. pub fn max_files(mut self, value: u32) -> Self { self.max_files = value; self } /// Append the given `bytes` as-is to the log file, after rotating if /// needed. /// /// No trailing newline is added. Make sure to include one in `bytes` if /// desired. pub fn write(&self, bytes: &[u8]) -> Result<(), HgError> { let path = self.vfs.join(self.name); let context = || IoErrorContext::WritingFile(path.clone()); let open = || { std::fs::OpenOptions::new() .create(true) .append(true) .open(&path) .with_context(context) }; let mut file = open()?; if let Some(max_size) = self.max_size { if file.metadata().with_context(context)?.len() >= max_size { // For example with `max_files == 5`, the first iteration of // this loop has `i == 4` and renames `{name}.4` to `{name}.5`. // The last iteration renames `{name}.1` to // `{name}.2` for i in (1..self.max_files).rev() { self.vfs .rename( format!("{}.{}", self.name, i), format!("{}.{}", self.name, i + 1), ) .io_not_found_as_none()?; } // Then rename `{name}` to `{name}.1`. This is the // previously-opened `file`. self.vfs .rename(self.name, format!("{}.1", self.name)) .io_not_found_as_none()?; // Finally, create a new `{name}` file and replace our `file` // handle. file = open()?; } } file.write_all(bytes).with_context(context)?; file.sync_all().with_context(context) } } #[test] fn test_rotation() { let temp = tempfile::tempdir().unwrap(); let vfs = Vfs { base: temp.path() }; let logger = LogFile::new(vfs, "log").max_size(Some(3)).max_files(2); logger.write(b"one\n").unwrap(); logger.write(b"two\n").unwrap(); logger.write(b"3\n").unwrap(); logger.write(b"four\n").unwrap(); logger.write(b"five\n").unwrap(); assert_eq!(vfs.read("log").unwrap(), b"five\n"); assert_eq!(vfs.read("log.1").unwrap(), b"3\nfour\n"); assert_eq!(vfs.read("log.2").unwrap(), b"two\n"); assert!(vfs.read("log.3").io_not_found_as_none().unwrap().is_none()); }