use std::collections::{BTreeMap, BTreeSet};
use std::sync::Arc;
use hyper::{Body, Response};
use garage_util::error::Error as GarageError;
use garage_util::time::*;
use garage_model::garage::Garage;
use garage_model::object_table::*;
use garage_table::DeletedFilter;
use crate::encoding::*;
use crate::error::*;
use crate::s3_xml;
#[derive(Debug)]
pub struct ListObjectsQuery {
pub is_v2: bool,
pub bucket: String,
pub delimiter: Option<String>,
pub max_keys: usize,
pub prefix: String,
pub marker: Option<String>,
pub continuation_token: Option<String>,
pub start_after: Option<String>,
pub urlencode_resp: bool,
}
#[derive(Debug)]
struct ListResultInfo {
last_modified: u64,
size: u64,
etag: String,
}
pub async fn handle_list(
garage: Arc<Garage>,
query: &ListObjectsQuery,
) -> Result<Response<Body>, Error> {
let mut result_keys = BTreeMap::<String, ListResultInfo>::new();
let mut result_common_prefixes = BTreeSet::<String>::new();
// Determine the key from where we want to start fetch objects
// from the database, and whether the object at this key must
// be included or excluded from the response.
// This key can be the prefix in the base case, or intermediate
// points in the dataset if we are continuing a previous listing.
#[allow(clippy::collapsible_else_if)]
let (mut next_chunk_start, mut next_chunk_exclude_start) = if query.is_v2 {
if let Some(ct) = &query.continuation_token {
// In V2 mode, the continuation token is defined as an opaque
// string in the spec, so we can do whatever we want with it.
// In our case, it is defined as either [ or ] (for include
// and exclude, respectively), followed by a base64 string
// representing the key to start with.
let exclude = match &ct[..1] {
"[" => false,
"]" => true,
_ => return Err(Error::BadRequest("Invalid continuation token".to_string())),
};
(
String::from_utf8(base64::decode(ct[1..].as_bytes())?)?,
exclude,
)
} else if let Some(sa) = &query.start_after {
// StartAfter has defined semantics in the spec:
// start listing at the first key immediately after.
(sa.clone(), true)
} else {
// In the case where neither is specified, we start
// listing at the specified prefix. If an object has this
// exact same key, we include it. (TODO is this correct?)
(query.prefix.clone(), false)
}
} else {
if let Some(mk) = &query.marker {
// In V1 mode, the spec defines the Marker value to mean
// the same thing as the StartAfter value in V2 mode.
(mk.clone(), true)
} else {
// Base case, same as in V2 mode
(query.prefix.clone(), false)
}
};
debug!(
"List request: `{:?}` {} `{}`, start from {}, exclude first {}",
query.delimiter, query.max_keys, query.prefix, next_chunk_start, next_chunk_exclude_start
);
// `truncated` is a boolean that determines whether there are
// more items to be added.
let truncated;
// `last_processed_item` is the key of the last item
// that was included in the listing before truncating.
let mut last_processed_item = None;
'query_loop: loop {
// Fetch objects
let objects = garage
.object_table
.get_range(
&query.bucket,
Some(next_chunk_start.clone()),
Some(DeletedFilter::NotDeleted),
query.max_keys + 1,
)
.await?;
debug!(
"List: get range {} (max {}), results: {}",
next_chunk_start,
query.max_keys + 1,
objects.len()
);
let current_chunk_start = next_chunk_start.clone();
// Iterate on returned objects and add them to the response.
// If a delimiter is specified, we take care of grouping objects
// into CommonPrefixes.
for object in objects.iter() {
// If we have retrieved an object that doesn't start with
// the prefix, we know we have finished listing our stuff.
if !object.key.starts_with(&query.prefix) {
truncated = false;
break 'query_loop;
}
// Exclude the starting key if we have to.
if object.key == next_chunk_start && next_chunk_exclude_start {
continue;
}
// Find if this object has a currently valid (non-deleted,
// non-still-uploading) version. If not, skip it.
let version = match object.versions().iter().find(|x| x.is_data()) {
Some(v) => v,
None => continue,
};
// If we don't have space to add this object to our response,
// we will need to stop here and mark the key of this object
// as the marker from where
// we want to start again in the next list call.
let cannot_add = result_keys.len() + result_common_prefixes.len() >= query.max_keys;
// Determine whether this object should be grouped inside
// a CommonPrefix because it contains the delimiter,
// or if it should be returned as an object.
let common_prefix = match &query.delimiter {
Some(delimiter) => object.key[query.prefix.len()..]
.find(delimiter)
.map(|i| &object.key[..query.prefix.len() + i + delimiter.len()]),
None => None,
};
if let Some(pfx) = common_prefix {
// In the case where this object must be grouped in a
// common prefix, handle it here.
if !result_common_prefixes.contains(pfx) {
// Determine the first listing key that starts after
// the common prefix, by finding the next possible
// string by alphabetical order.
let mut first_key_after_prefix = pfx.to_string();
let tail = first_key_after_prefix.pop().unwrap();
first_key_after_prefix.push(((tail as u8) + 1) as char);
// If this were the end of the chunk,
// the next chunk should start after this prefix
next_chunk_start = first_key_after_prefix;
next_chunk_exclude_start = false;
if cannot_add {
truncated = true;
break 'query_loop;
}
result_common_prefixes.insert(pfx.to_string());
}
last_processed_item = Some(object.key.clone());
continue;
};
// This is not a common prefix, we want to add it to our
// response directly.
next_chunk_start = object.key.clone();
if cannot_add {
truncated = true;
next_chunk_exclude_start = false;
break 'query_loop;
}
let meta = match &version.state {
ObjectVersionState::Complete(ObjectVersionData::Inline(meta, _)) => meta,
ObjectVersionState::Complete(ObjectVersionData::FirstBlock(meta, _)) => meta,
_ => unreachable!(),
};
let info = match result_keys.get(&object.key) {
None => ListResultInfo {
last_modified: version.timestamp,
size: meta.size,
etag: meta.etag.to_string(),
},
Some(_lri) => {
return Err(Error::InternalError(GarageError::Message(format!(
"Duplicate key?? {} (this is a bug, please report it)",
object.key
))))
}
};
result_keys.insert(object.key.clone(), info);
last_processed_item = Some(object.key.clone());
next_chunk_exclude_start = true;
}
// If our database returned less objects than what we were asking for,
// it means that no more objects are in the bucket. So we stop here.
if objects.len() < query.max_keys + 1 {
truncated = false;
break 'query_loop;
}
// Sanity check: we should have added at least an object
// or a prefix to our returned result.
if next_chunk_start == current_chunk_start || last_processed_item.is_none() {
return Err(Error::InternalError(GarageError::Message(format!(
"S3 ListObject: made no progress, still starting at {} (this is a bug, please report it)", next_chunk_start))));
}
// Loop and fetch more objects
}
let mut result = s3_xml::ListBucketResult {
xmlns: (),
name: s3_xml::Value(query.bucket.to_string()),
prefix: uriencode_maybe(&query.prefix, query.urlencode_resp),
marker: None,
next_marker: None,
start_after: None,
continuation_token: None,
next_continuation_token: None,
max_keys: s3_xml::IntValue(query.max_keys as i64),
delimiter: query
.delimiter
.as_ref()
.map(|x| uriencode_maybe(x, query.urlencode_resp)),
encoding_type: match query.urlencode_resp {
true => Some(s3_xml::Value("url".to_string())),
false => None,
},
key_count: Some(s3_xml::IntValue(
result_keys.len() as i64 + result_common_prefixes.len() as i64,
)),
is_truncated: s3_xml::Value(format!("{}", truncated)),
contents: vec![],
common_prefixes: vec![],
};
if query.is_v2 {
if let Some(ct) = &query.continuation_token {
result.continuation_token = Some(s3_xml::Value(ct.to_string()));
}
if let Some(sa) = &query.start_after {
result.start_after = Some(uriencode_maybe(sa, query.urlencode_resp));
}
if truncated {
let b64 = base64::encode(next_chunk_start.as_bytes());
let nct = if next_chunk_exclude_start {
format!("]{}", b64)
} else {
format!("[{}", b64)
};
result.next_continuation_token = Some(s3_xml::Value(nct));
}
} else {
// TODO: are these supposed to be urlencoded when encoding-type is URL??
if let Some(mkr) = &query.marker {
result.marker = Some(uriencode_maybe(mkr, query.urlencode_resp));
}
if truncated {
if let Some(lpi) = last_processed_item {
result.next_marker = Some(uriencode_maybe(&lpi, query.urlencode_resp));
} else {
return Err(Error::InternalError(GarageError::Message(
"S3 ListObject: last_processed_item is None but the response was truncated, indicating that many items were processed (this is a bug, please report it)".to_string())));
}
}
}
for (key, info) in result_keys.iter() {
result.contents.push(s3_xml::ListBucketItem {
key: uriencode_maybe(key, query.urlencode_resp),
last_modified: s3_xml::Value(msec_to_rfc3339(info.last_modified)),
size: s3_xml::IntValue(info.size as i64),
etag: s3_xml::Value(info.etag.to_string()),
storage_class: s3_xml::Value("STANDARD".to_string()),
});
}
for pfx in result_common_prefixes.iter() {
result.common_prefixes.push(s3_xml::CommonPrefix {
prefix: uriencode_maybe(pfx, query.urlencode_resp),
});
}
let xml = s3_xml::to_xml_with_header(&result)?;
Ok(Response::builder()
.header("Content-Type", "application/xml")
.body(Body::from(xml.into_bytes()))?)
}
fn uriencode_maybe(s: &str, yes: bool) -> s3_xml::Value {
if yes {
s3_xml::Value(uri_encode(s, true))
} else {
s3_xml::Value(s.to_string())
}
}