use std::collections::HashMap;
use std::time::Duration;
use format_table::format_table;
use garage_util::background::*;
use garage_util::crdt::*;
use garage_util::data::*;
use garage_util::error::*;
use garage_util::time::*;
use garage_block::manager::BlockResyncErrorInfo;
use garage_model::bucket_table::*;
use garage_model::key_table::*;
use garage_model::s3::mpu_table::{self, MultipartUpload};
use garage_model::s3::object_table;
use garage_model::s3::version_table::*;
use crate::cli::structs::WorkerListOpt;
pub fn print_bucket_list(bl: Vec<Bucket>) {
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::<Vec<_>>();
let local_aliases_n = match &bucket
.local_aliases()
.iter()
.filter(|(_, _, active)| *active)
.collect::<Vec<_>>()[..]
{
[] => "".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<Uuid, Bucket>) {
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::<Vec<_>>()
.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::<Vec<_>>()
.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<String, Key>,
counters: &HashMap<String, i64>,
mpu_counters: &HashMap<String, i64>,
) {
let key_name = |k| {
relevant_keys
.get(k)
.map(|k| k.params().unwrap().name.get().as_str())
.unwrap_or("<deleted>")
};
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(object_table::BYTES).unwrap_or(&0) as u64);
println!(
"\nSize: {} ({})",
size.to_string_as(true),
size.to_string_as(false)
);
println!(
"Objects: {}",
*counters.get(object_table::OBJECTS).unwrap_or(&0)
);
println!(
"Unfinished uploads (multipart and non-multipart): {}",
*counters.get(object_table::UNFINISHED_UPLOADS).unwrap_or(&0)
);
println!(
"Unfinished multipart uploads: {}",
*mpu_counters.get(mpu_table::UPLOADS).unwrap_or(&0)
);
let mpu_size =
bytesize::ByteSize::b(*mpu_counters.get(mpu_table::BYTES).unwrap_or(&0) as u64);
println!(
"Size of unfinished multipart uploads: {} ({})",
mpu_size.to_string_as(true),
mpu_size.to_string_as(false),
);
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<Item = Uuid>,
pattern: &str,
) -> Result<Uuid, Error> {
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_list(wi: HashMap<usize, WorkerInfo>, wlo: WorkerListOpt) {
let mut wi = wi.into_iter().collect::<Vec<_>>();
wi.sort_by_key(|(tid, info)| {
(
match info.state {
WorkerState::Busy | WorkerState::Throttled(_) => 0,
WorkerState::Idle => 1,
WorkerState::Done => 2,
},
*tid,
)
});
let mut table = vec!["TID\tState\tName\tTranq\tDone\tQueue\tErrors\tConsec\tLast".to_string()];
for (tid, info) in wi.iter() {
if wlo.busy && !matches!(info.state, WorkerState::Busy | WorkerState::Throttled(_)) {
continue;
}
if wlo.errors && info.errors == 0 {
continue;
}
let tf = timeago::Formatter::new();
let err_ago = info
.last_error
.as_ref()
.map(|(_, t)| tf.convert(Duration::from_millis(now_msec() - t)))
.unwrap_or_default();
let (total_err, consec_err) = if info.errors > 0 {
(info.errors.to_string(), info.consecutive_errors.to_string())
} else {
("-".into(), "-".into())
};
table.push(format!(
"{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}\t{}",
tid,
info.state,
info.name,
info.status
.tranquility
.as_ref()
.map(ToString::to_string)
.unwrap_or_else(|| "-".into()),
info.status.progress.as_deref().unwrap_or("-"),
info.status
.queue_length
.as_ref()
.map(ToString::to_string)
.unwrap_or_else(|| "-".into()),
total_err,
consec_err,
err_ago,
));
}
format_table(table);
}
pub fn print_worker_info(tid: usize, info: WorkerInfo) {
let mut table = vec![];
table.push(format!("Task id:\t{}", tid));
table.push(format!("Worker name:\t{}", info.name));
match info.state {
WorkerState::Throttled(t) => {
table.push(format!(
"Worker state:\tBusy (throttled, paused for {:.3}s)",
t
));
}
s => {
table.push(format!("Worker state:\t{}", s));
}
};
if let Some(tql) = info.status.tranquility {
table.push(format!("Tranquility:\t{}", tql));
}
table.push("".into());
table.push(format!("Total errors:\t{}", info.errors));
table.push(format!("Consecutive errs:\t{}", info.consecutive_errors));
if let Some((s, t)) = info.last_error {
table.push(format!("Last error:\t{}", s));
let tf = timeago::Formatter::new();
table.push(format!(
"Last error time:\t{}",
tf.convert(Duration::from_millis(now_msec() - t))
));
}
table.push("".into());
if let Some(p) = info.status.progress {
table.push(format!("Progress:\t{}", p));
}
if let Some(ql) = info.status.queue_length {
table.push(format!("Queue length:\t{}", ql));
}
if let Some(pe) = info.status.persistent_errors {
table.push(format!("Persistent errors:\t{}", pe));
}
for (i, s) in info.status.freeform.iter().enumerate() {
if i == 0 {
if table.last() != Some(&"".into()) {
table.push("".into());
}
table.push(format!("Message:\t{}", s));
} else {
table.push(format!("\t{}", s));
}
}
format_table(table);
}
pub fn print_worker_vars(wv: Vec<(Uuid, String, String)>) {
let table = wv
.into_iter()
.map(|(n, k, v)| format!("{:?}\t{}\t{}", n, k, v))
.collect::<Vec<_>>();
format_table(table);
}
pub fn print_block_error_list(el: Vec<BlockResyncErrorInfo>) {
let now = now_msec();
let tf = timeago::Formatter::new();
let mut tf2 = timeago::Formatter::new();
tf2.ago("");
let mut table = vec!["Hash\tRC\tErrors\tLast error\tNext try".into()];
for e in el {
let next_try = if e.next_try > now {
tf2.convert(Duration::from_millis(e.next_try - now))
} else {
"asap".to_string()
};
table.push(format!(
"{}\t{}\t{}\t{}\tin {}",
hex::encode(e.hash.as_slice()),
e.refcount,
e.error_count,
tf.convert(Duration::from_millis(now - e.last_try)),
next_try
));
}
format_table(table);
}
pub fn print_block_info(
hash: Hash,
refcount: u64,
versions: Vec<Result<Version, Uuid>>,
uploads: Vec<MultipartUpload>,
) {
println!("Block hash: {}", hex::encode(hash.as_slice()));
println!("Refcount: {}", refcount);
println!();
let mut table = vec!["Version\tBucket\tKey\tMPU\tDeleted".into()];
let mut nondeleted_count = 0;
for v in versions.iter() {
match v {
Ok(ver) => {
match &ver.backlink {
VersionBacklink::Object { bucket_id, key } => {
table.push(format!(
"{:?}\t{:?}\t{}\t\t{:?}",
ver.uuid,
bucket_id,
key,
ver.deleted.get()
));
}
VersionBacklink::MultipartUpload { upload_id } => {
let upload = uploads.iter().find(|x| x.upload_id == *upload_id);
table.push(format!(
"{:?}\t{:?}\t{}\t{:?}\t{:?}",
ver.uuid,
upload.map(|u| u.bucket_id).unwrap_or_default(),
upload.map(|u| u.key.as_str()).unwrap_or_default(),
upload_id,
ver.deleted.get()
));
}
}
if !ver.deleted.get() {
nondeleted_count += 1;
}
}
Err(vh) => {
table.push(format!("{:?}\t\t\t\tyes", vh));
}
}
}
format_table(table);
if refcount != nondeleted_count {
println!();
println!(
"Warning: refcount does not match number of non-deleted versions, you should try `garage repair block-rc`."
);
}
}