use std::collections::HashMap; use garage_util::background::*; use garage_util::crdt::*; use garage_util::data::Uuid; use garage_util::error::*; use garage_util::formater::format_table; use garage_model::bucket_table::*; use garage_model::key_table::*; use garage_model::s3::object_table::{BYTES, OBJECTS, UNFINISHED_UPLOADS}; pub fn print_bucket_list(bl: Vec) { println!("List of buckets:"); let mut table = vec![]; for bucket in bl { let aliases = bucket .aliases() .iter() .filter(|(_, _, active)| *active) .map(|(name, _, _)| name.to_string()) .collect::>(); let local_aliases_n = match &bucket .local_aliases() .iter() .filter(|(_, _, active)| *active) .collect::>()[..] { [] => "".into(), [((k, n), _, _)] => format!("{}:{}", k, n), s => format!("[{} local aliases]", s.len()), }; table.push(format!( "\t{}\t{}\t{}", aliases.join(","), local_aliases_n, hex::encode(bucket.id), )); } format_table(table); } pub fn print_key_list(kl: Vec<(String, String)>) { println!("List of keys:"); let mut table = vec![]; for key in kl { table.push(format!("\t{}\t{}", key.0, key.1)); } format_table(table); } pub fn print_key_info(key: &Key, relevant_buckets: &HashMap) { let bucket_global_aliases = |b: &Uuid| { if let Some(bucket) = relevant_buckets.get(b) { if let Some(p) = bucket.state.as_option() { return p .aliases .items() .iter() .filter(|(_, _, active)| *active) .map(|(a, _, _)| a.clone()) .collect::>() .join(", "); } } "".to_string() }; match &key.state { Deletable::Present(p) => { println!("Key name: {}", p.name.get()); println!("Key ID: {}", key.key_id); println!("Secret key: {}", p.secret_key); println!("Can create buckets: {}", p.allow_create_bucket.get()); println!("\nKey-specific bucket aliases:"); let mut table = vec![]; for (alias_name, _, alias) in p.local_aliases.items().iter() { if let Some(bucket_id) = alias { table.push(format!( "\t{}\t{}\t{}", alias_name, bucket_global_aliases(bucket_id), hex::encode(bucket_id) )); } } format_table(table); println!("\nAuthorized buckets:"); let mut table = vec![]; for (bucket_id, perm) in p.authorized_buckets.items().iter() { if !perm.is_any() { continue; } let rflag = if perm.allow_read { "R" } else { " " }; let wflag = if perm.allow_write { "W" } else { " " }; let oflag = if perm.allow_owner { "O" } else { " " }; let local_aliases = p .local_aliases .items() .iter() .filter(|(_, _, a)| *a == Some(*bucket_id)) .map(|(a, _, _)| a.clone()) .collect::>() .join(", "); table.push(format!( "\t{}{}{}\t{}\t{}\t{:?}", rflag, wflag, oflag, bucket_global_aliases(bucket_id), local_aliases, bucket_id )); } format_table(table); } Deletable::Deleted => { println!("Key {} is deleted.", key.key_id); } } } pub fn print_bucket_info( bucket: &Bucket, relevant_keys: &HashMap, counters: &HashMap, ) { let key_name = |k| { relevant_keys .get(k) .map(|k| k.params().unwrap().name.get().as_str()) .unwrap_or("") }; println!("Bucket: {}", hex::encode(bucket.id)); match &bucket.state { Deletable::Deleted => println!("Bucket is deleted."), Deletable::Present(p) => { let size = bytesize::ByteSize::b(counters.get(BYTES).cloned().unwrap_or_default() as u64); println!( "\nSize: {} ({})", size.to_string_as(true), size.to_string_as(false) ); println!( "Objects: {}", counters.get(OBJECTS).cloned().unwrap_or_default() ); println!( "Unfinished multipart uploads: {}", counters .get(UNFINISHED_UPLOADS) .cloned() .unwrap_or_default() ); println!("\nWebsite access: {}", p.website_config.get().is_some()); let quotas = p.quotas.get(); if quotas.max_size.is_some() || quotas.max_objects.is_some() { println!("\nQuotas:"); if let Some(ms) = quotas.max_size { let ms = bytesize::ByteSize::b(ms); println!( " maximum size: {} ({})", ms.to_string_as(true), ms.to_string_as(false) ); } if let Some(mo) = quotas.max_objects { println!(" maximum number of objects: {}", mo); } } println!("\nGlobal aliases:"); for (alias, _, active) in p.aliases.items().iter() { if *active { println!(" {}", alias); } } println!("\nKey-specific aliases:"); let mut table = vec![]; for ((key_id, alias), _, active) in p.local_aliases.items().iter() { if *active { table.push(format!("\t{} ({})\t{}", key_id, key_name(key_id), alias)); } } format_table(table); println!("\nAuthorized keys:"); let mut table = vec![]; for (k, perm) in p.authorized_keys.items().iter() { if !perm.is_any() { continue; } let rflag = if perm.allow_read { "R" } else { " " }; let wflag = if perm.allow_write { "W" } else { " " }; let oflag = if perm.allow_owner { "O" } else { " " }; table.push(format!( "\t{}{}{}\t{}\t{}", rflag, wflag, oflag, k, key_name(k) )); } format_table(table); } }; } pub fn find_matching_node( cand: impl std::iter::Iterator, pattern: &str, ) -> Result { let mut candidates = vec![]; for c in cand { if hex::encode(&c).starts_with(&pattern) && !candidates.contains(&c) { candidates.push(c); } } if candidates.len() != 1 { Err(Error::Message(format!( "{} nodes match '{}'", candidates.len(), pattern, ))) } else { Ok(candidates[0]) } } pub fn print_worker_info(wi: HashMap) { let mut wi = wi.into_iter().collect::>(); wi.sort_by_key(|(tid, info)| { ( match info.status { WorkerStatus::Busy => 0, WorkerStatus::Idle => 1, WorkerStatus::Done => 2, }, *tid, ) }); let mut table = vec![]; for (tid, info) in wi.iter() { table.push(format!("{}\t{:?}\t{}", tid, info.status, info.name)); if let Some(i) = &info.info { table.push(format!("\t\t{}", i)); } } format_table(table); }