gc: use human readable units for summary

and avoid the "percentage done: X %" phrase

Signed-off-by: Thomas Lamprecht <t.lamprecht@proxmox.com>
This commit is contained in:
Thomas Lamprecht 2020-08-27 15:55:57 +02:00
parent 9bdeecaee4
commit 49a92084a9
2 changed files with 13 additions and 13 deletions

View File

@ -104,7 +104,7 @@ impl ChunkStore {
}
let percentage = (i*100)/(64*1024);
if percentage != last_percentage {
eprintln!("Percentage done: {}", percentage);
eprintln!("{}%", percentage);
last_percentage = percentage;
}
}
@ -295,7 +295,7 @@ impl ChunkStore {
for (entry, percentage) in self.get_chunk_iterator()? {
if last_percentage != percentage {
last_percentage = percentage;
worker.log(format!("percentage done: {}, chunk count: {}", percentage, chunk_count));
worker.log(format!("{}%, processed {} chunks", percentage, chunk_count));
}
worker.fail_on_abort()?;

View File

@ -21,6 +21,7 @@ use super::{DataBlob, ArchiveType, archive_type};
use crate::config::datastore;
use crate::server::WorkerTask;
use crate::tools;
use crate::tools::format::HumanByte;
use crate::tools::fs::{lock_dir_noblock, DirLockGuard};
use crate::api2::types::{GarbageCollectionStatus, Userid};
@ -462,9 +463,8 @@ impl DataStore {
let _exclusive_lock = self.chunk_store.try_exclusive_lock()?;
let now = unsafe { libc::time(std::ptr::null_mut()) };
let oldest_writer = self.chunk_store.oldest_writer().unwrap_or(now);
let phase1_start_time = unsafe { libc::time(std::ptr::null_mut()) };
let oldest_writer = self.chunk_store.oldest_writer().unwrap_or(phase1_start_time);
let mut gc_status = GarbageCollectionStatus::default();
gc_status.upid = Some(worker.to_string());
@ -474,26 +474,26 @@ impl DataStore {
self.mark_used_chunks(&mut gc_status, &worker)?;
worker.log("Start GC phase2 (sweep unused chunks)");
self.chunk_store.sweep_unused_chunks(oldest_writer, now, &mut gc_status, &worker)?;
self.chunk_store.sweep_unused_chunks(oldest_writer, phase1_start_time, &mut gc_status, &worker)?;
worker.log(&format!("Removed bytes: {}", gc_status.removed_bytes));
worker.log(&format!("Removed garbage: {}", HumanByte::from(gc_status.removed_bytes)));
worker.log(&format!("Removed chunks: {}", gc_status.removed_chunks));
if gc_status.pending_bytes > 0 {
worker.log(&format!("Pending removals: {} bytes ({} chunks)", gc_status.pending_bytes, gc_status.pending_chunks));
worker.log(&format!("Pending removals: {} (in {} chunks)", HumanByte::from(gc_status.pending_bytes), gc_status.pending_chunks));
}
worker.log(&format!("Original data bytes: {}", gc_status.index_data_bytes));
worker.log(&format!("Original data usage: {}", HumanByte::from(gc_status.index_data_bytes)));
if gc_status.index_data_bytes > 0 {
let comp_per = (gc_status.disk_bytes*100)/gc_status.index_data_bytes;
worker.log(&format!("Disk bytes: {} ({} %)", gc_status.disk_bytes, comp_per));
let comp_per = (gc_status.disk_bytes as f64 * 100.)/gc_status.index_data_bytes as f64;
worker.log(&format!("On-Disk usage: {} ({:.2}%)", HumanByte::from(gc_status.disk_bytes), comp_per));
}
worker.log(&format!("Disk chunks: {}", gc_status.disk_chunks));
worker.log(&format!("On-Disk chunks: {}", gc_status.disk_chunks));
if gc_status.disk_chunks > 0 {
let avg_chunk = gc_status.disk_bytes/(gc_status.disk_chunks as u64);
worker.log(&format!("Average chunk size: {}", avg_chunk));
worker.log(&format!("Average chunk size: {}", HumanByte::from(avg_chunk)));
}
*self.last_gc_status.lock().unwrap() = gc_status;