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|
use std::pin::Pin;
use std::time::{Duration, SystemTime, UNIX_EPOCH};
use futures::{stream, stream::Stream, StreamExt, TryStreamExt};
use bytes::Bytes;
use hyper::{Request, Response};
use serde::Serialize;
use garage_net::bytes_buf::BytesBuf;
use garage_net::stream::read_stream_to_end;
use garage_rpc::rpc_helper::OrderTag;
use garage_table::*;
use garage_util::data::*;
use garage_util::error::Error as GarageError;
use garage_util::time::*;
use garage_model::s3::block_ref_table::*;
use garage_model::s3::mpu_table::*;
use garage_model::s3::object_table::*;
use garage_model::s3::version_table::*;
use crate::helpers::*;
use crate::s3::api_server::{ReqBody, ResBody};
use crate::s3::checksum::*;
use crate::s3::encryption::EncryptionParams;
use crate::s3::error::*;
use crate::s3::get::full_object_byte_stream;
use crate::s3::multipart;
use crate::s3::put::{get_headers, save_stream, ChecksumMode, SaveStreamResult};
use crate::s3::xml::{self as s3_xml, xmlns_tag};
// -------- CopyObject ---------
pub async fn handle_copy(
ctx: ReqCtx,
req: &Request<ReqBody>,
dest_key: &str,
) -> Result<Response<ResBody>, Error> {
let copy_precondition = CopyPreconditionHeaders::parse(req)?;
let checksum_algorithm = request_checksum_algorithm(req.headers())?;
let source_object = get_copy_source(&ctx, req).await?;
let (source_version, source_version_data, source_version_meta) =
extract_source_info(&source_object)?;
// Check precondition, e.g. x-amz-copy-source-if-match
copy_precondition.check(source_version, &source_version_meta.etag)?;
// Determine encryption parameters
let (source_encryption, source_object_meta_inner) =
EncryptionParams::check_decrypt_for_copy_source(
&ctx.garage,
req.headers(),
&source_version_meta.encryption,
)?;
let dest_encryption = EncryptionParams::new_from_headers(&ctx.garage, req.headers())?;
// Extract source checksum info before source_object_meta_inner is consumed
let source_checksum = source_object_meta_inner.checksum;
let source_checksum_algorithm = source_checksum.map(|x| x.algorithm());
// If source object has a checksum, the destination object must as well.
// The x-amz-checksum-algorihtm header allows to change that algorithm,
// but if it is absent, we must use the same as before
let checksum_algorithm = checksum_algorithm.or(source_checksum_algorithm);
// Determine metadata of destination object
let was_multipart = source_version_meta.etag.contains('-');
let dest_object_meta = ObjectVersionMetaInner {
headers: match req.headers().get("x-amz-metadata-directive") {
Some(v) if v == hyper::header::HeaderValue::from_static("REPLACE") => {
get_headers(req.headers())?
}
_ => source_object_meta_inner.into_owned().headers,
},
checksum: source_checksum,
};
// Do actual object copying
//
// In any of the following scenarios, we need to read the whole object
// data and re-write it again:
//
// - the data needs to be decrypted or encrypted
// - the requested checksum algorithm requires us to recompute a checksum
// - the original object was a multipart upload and a checksum algorithm
// is defined (AWS specifies that in this case, we must recompute the
// checksum from scratch as if this was a single big object and not
// a multipart object, as the checksums are not computed in the same way)
//
// In other cases, we can just copy the metadata and reference the same blocks.
//
// See: https://docs.aws.amazon.com/AmazonS3/latest/userguide/checking-object-integrity.html
let must_recopy = !EncryptionParams::is_same(&source_encryption, &dest_encryption)
|| source_checksum_algorithm != checksum_algorithm
|| (was_multipart && checksum_algorithm.is_some());
let res = if !must_recopy {
// In most cases, we can just copy the metadata and link blocks of the
// old object from the new object.
handle_copy_metaonly(
ctx,
dest_key,
dest_object_meta,
dest_encryption,
source_version,
source_version_data,
source_version_meta,
)
.await?
} else {
let expected_checksum = ExpectedChecksums {
md5: None,
sha256: None,
extra: source_checksum,
};
let checksum_mode = if was_multipart || source_checksum_algorithm != checksum_algorithm {
ChecksumMode::Calculate(checksum_algorithm)
} else {
ChecksumMode::Verify(&expected_checksum)
};
// If source and dest encryption use different keys,
// we must decrypt content and re-encrypt, so rewrite all data blocks.
handle_copy_reencrypt(
ctx,
dest_key,
dest_object_meta,
dest_encryption,
source_version,
source_version_data,
source_encryption,
checksum_mode,
)
.await?
};
let last_modified = msec_to_rfc3339(res.version_timestamp);
let result = CopyObjectResult {
last_modified: s3_xml::Value(last_modified),
etag: s3_xml::Value(format!("\"{}\"", res.etag)),
};
let xml = s3_xml::to_xml_with_header(&result)?;
let mut resp = Response::builder()
.header("Content-Type", "application/xml")
.header("x-amz-version-id", hex::encode(res.version_uuid))
.header(
"x-amz-copy-source-version-id",
hex::encode(source_version.uuid),
);
dest_encryption.add_response_headers(&mut resp);
Ok(resp.body(string_body(xml))?)
}
async fn handle_copy_metaonly(
ctx: ReqCtx,
dest_key: &str,
dest_object_meta: ObjectVersionMetaInner,
dest_encryption: EncryptionParams,
source_version: &ObjectVersion,
source_version_data: &ObjectVersionData,
source_version_meta: &ObjectVersionMeta,
) -> Result<SaveStreamResult, Error> {
let ReqCtx {
garage,
bucket_id: dest_bucket_id,
..
} = ctx;
// Generate parameters for copied object
let new_uuid = gen_uuid();
let new_timestamp = now_msec();
let new_meta = ObjectVersionMeta {
encryption: dest_encryption.encrypt_meta(dest_object_meta)?,
size: source_version_meta.size,
etag: source_version_meta.etag.clone(),
};
let res = SaveStreamResult {
version_uuid: new_uuid,
version_timestamp: new_timestamp,
etag: new_meta.etag.clone(),
};
// Save object copy
match source_version_data {
ObjectVersionData::DeleteMarker => unreachable!(),
ObjectVersionData::Inline(_meta, bytes) => {
// bytes is either plaintext before&after or encrypted with the
// same keys, so it's ok to just copy it as is
let dest_object_version = ObjectVersion {
uuid: new_uuid,
timestamp: new_timestamp,
state: ObjectVersionState::Complete(ObjectVersionData::Inline(
new_meta,
bytes.clone(),
)),
};
let dest_object = Object::new(
dest_bucket_id,
dest_key.to_string(),
vec![dest_object_version],
);
garage.object_table.insert(&dest_object).await?;
}
ObjectVersionData::FirstBlock(_meta, first_block_hash) => {
// Get block list from source version
let source_version = garage
.version_table
.get(&source_version.uuid, &EmptyKey)
.await?;
let source_version = source_version.ok_or(Error::NoSuchKey)?;
// Write an "uploading" marker in Object table
// This holds a reference to the object in the Version table
// so that it won't be deleted, e.g. by repair_versions.
let tmp_dest_object_version = ObjectVersion {
uuid: new_uuid,
timestamp: new_timestamp,
state: ObjectVersionState::Uploading {
encryption: new_meta.encryption.clone(),
checksum_algorithm: None,
multipart: false,
},
};
let tmp_dest_object = Object::new(
dest_bucket_id,
dest_key.to_string(),
vec![tmp_dest_object_version],
);
garage.object_table.insert(&tmp_dest_object).await?;
// Write version in the version table. Even with empty block list,
// this means that the BlockRef entries linked to this version cannot be
// marked as deleted (they are marked as deleted only if the Version
// doesn't exist or is marked as deleted).
let mut dest_version = Version::new(
new_uuid,
VersionBacklink::Object {
bucket_id: dest_bucket_id,
key: dest_key.to_string(),
},
false,
);
garage.version_table.insert(&dest_version).await?;
// Fill in block list for version and insert block refs
for (bk, bv) in source_version.blocks.items().iter() {
dest_version.blocks.put(*bk, *bv);
}
let dest_block_refs = dest_version
.blocks
.items()
.iter()
.map(|b| BlockRef {
block: b.1.hash,
version: new_uuid,
deleted: false.into(),
})
.collect::<Vec<_>>();
futures::try_join!(
garage.version_table.insert(&dest_version),
garage.block_ref_table.insert_many(&dest_block_refs[..]),
)?;
// Insert final object
// We do this last because otherwise there is a race condition in the case where
// the copy call has the same source and destination (this happens, rclone does
// it to update the modification timestamp for instance). If we did this concurrently
// with the stuff before, the block's reference counts could be decremented before
// they are incremented again for the new version, leading to data being deleted.
let dest_object_version = ObjectVersion {
uuid: new_uuid,
timestamp: new_timestamp,
state: ObjectVersionState::Complete(ObjectVersionData::FirstBlock(
new_meta,
*first_block_hash,
)),
};
let dest_object = Object::new(
dest_bucket_id,
dest_key.to_string(),
vec![dest_object_version],
);
garage.object_table.insert(&dest_object).await?;
}
}
Ok(res)
}
async fn handle_copy_reencrypt(
ctx: ReqCtx,
dest_key: &str,
dest_object_meta: ObjectVersionMetaInner,
dest_encryption: EncryptionParams,
source_version: &ObjectVersion,
source_version_data: &ObjectVersionData,
source_encryption: EncryptionParams,
checksum_mode: ChecksumMode<'_>,
) -> Result<SaveStreamResult, Error> {
// basically we will read the source data (decrypt if necessary)
// and save that in a new object (encrypt if necessary),
// by combining the code used in getobject and putobject
let source_stream = full_object_byte_stream(
ctx.garage.clone(),
source_version,
source_version_data,
source_encryption,
);
save_stream(
&ctx,
dest_object_meta,
dest_encryption,
source_stream.map_err(|e| Error::from(GarageError::from(e))),
&dest_key.to_string(),
checksum_mode,
)
.await
}
// -------- UploadPartCopy ---------
pub async fn handle_upload_part_copy(
ctx: ReqCtx,
req: &Request<ReqBody>,
dest_key: &str,
part_number: u64,
upload_id: &str,
) -> Result<Response<ResBody>, Error> {
let copy_precondition = CopyPreconditionHeaders::parse(req)?;
let dest_upload_id = multipart::decode_upload_id(upload_id)?;
let dest_key = dest_key.to_string();
let (source_object, (_, dest_version, mut dest_mpu)) = futures::try_join!(
get_copy_source(&ctx, req),
multipart::get_upload(&ctx, &dest_key, &dest_upload_id)
)?;
let ReqCtx { garage, .. } = ctx;
let (source_object_version, source_version_data, source_version_meta) =
extract_source_info(&source_object)?;
// Check precondition on source, e.g. x-amz-copy-source-if-match
copy_precondition.check(source_object_version, &source_version_meta.etag)?;
// Determine encryption parameters
let (source_encryption, _) = EncryptionParams::check_decrypt_for_copy_source(
&garage,
req.headers(),
&source_version_meta.encryption,
)?;
let (dest_object_encryption, dest_object_checksum_algorithm) = match dest_version.state {
ObjectVersionState::Uploading {
encryption,
checksum_algorithm,
..
} => (encryption, checksum_algorithm),
_ => unreachable!(),
};
let (dest_encryption, _) =
EncryptionParams::check_decrypt(&garage, req.headers(), &dest_object_encryption)?;
let same_encryption = EncryptionParams::is_same(&source_encryption, &dest_encryption);
// Check source range is valid
let source_range = match req.headers().get("x-amz-copy-source-range") {
Some(range) => {
let range_str = range.to_str()?;
let mut ranges = http_range::HttpRange::parse(range_str, source_version_meta.size)
.map_err(|e| (e, source_version_meta.size))?;
if ranges.len() != 1 {
return Err(Error::bad_request(
"Invalid x-amz-copy-source-range header: exactly 1 range must be given",
));
} else {
ranges.pop().unwrap()
}
}
None => http_range::HttpRange {
start: 0,
length: source_version_meta.size,
},
};
// Check source version is not inlined
if matches!(source_version_data, ObjectVersionData::Inline(_, _)) {
// This is only for small files, we don't bother handling this.
// (in AWS UploadPartCopy works for parts at least 5MB which
// is never the case of an inline object)
return Err(Error::bad_request(
"Source object is too small (minimum part size is 5Mb)",
));
}
// Fetch source version with its block list
let source_version = garage
.version_table
.get(&source_object_version.uuid, &EmptyKey)
.await?
.ok_or(Error::NoSuchKey)?;
// We want to reuse blocks from the source version as much as possible.
// However, we still need to get the data from these blocks
// because we need to know it to calculate the MD5sum of the part
// which is used as its ETag. For encrypted sources or destinations,
// we must always read(+decrypt) and then write(+encrypt), so we
// can never reuse data blocks as is.
// First, calculate what blocks we want to keep,
// and the subrange of the block to take, if the bounds of the
// requested range are in the middle.
let (range_begin, range_end) = (source_range.start, source_range.start + source_range.length);
let mut blocks_to_copy = vec![];
let mut current_offset = 0;
for (_bk, block) in source_version.blocks.items().iter() {
let (block_begin, block_end) = (current_offset, current_offset + block.size);
if block_begin < range_end && block_end > range_begin {
let subrange_begin = if block_begin < range_begin {
Some(range_begin - block_begin)
} else {
None
};
let subrange_end = if block_end > range_end {
Some(range_end - block_begin)
} else {
None
};
let range_to_copy = match (subrange_begin, subrange_end) {
(Some(b), Some(e)) => Some(b as usize..e as usize),
(None, Some(e)) => Some(0..e as usize),
(Some(b), None) => Some(b as usize..block.size as usize),
(None, None) => None,
};
blocks_to_copy.push((block.hash, range_to_copy));
}
current_offset = block_end;
}
// Calculate the identity of destination part: timestamp, version id
let dest_version_id = gen_uuid();
let dest_mpu_part_key = MpuPartKey {
part_number,
timestamp: dest_mpu.next_timestamp(part_number),
};
// Create the uploaded part
dest_mpu.parts.clear();
dest_mpu.parts.put(
dest_mpu_part_key,
MpuPart {
version: dest_version_id,
// These are all filled in later (bottom of this function)
etag: None,
checksum: None,
size: None,
},
);
garage.mpu_table.insert(&dest_mpu).await?;
let mut dest_version = Version::new(
dest_version_id,
VersionBacklink::MultipartUpload {
upload_id: dest_upload_id,
},
false,
);
// write an empty version now to be the parent of the block_ref entries
garage.version_table.insert(&dest_version).await?;
// Now, actually copy the blocks
let mut checksummer = Checksummer::init(&Default::default(), !dest_encryption.is_encrypted())
.add(dest_object_checksum_algorithm);
// First, create a stream that is able to read the source blocks
// and extract the subrange if necessary.
// The second returned value is an Option<Hash>, that is Some
// if and only if the block returned is a block that already existed
// in the Garage data store and can be reused as-is instead of having
// to save it again. This excludes encrypted source blocks that we had
// to decrypt.
let garage2 = garage.clone();
let order_stream = OrderTag::stream();
let source_blocks = stream::iter(blocks_to_copy)
.enumerate()
.map(|(i, (block_hash, range_to_copy))| {
let garage3 = garage2.clone();
async move {
let stream = source_encryption
.get_block(&garage3, &block_hash, Some(order_stream.order(i as u64)))
.await?;
let data = read_stream_to_end(stream).await?.into_bytes();
// For each item, we return a tuple of:
// 1. the full data block (decrypted)
// 2. an Option<Hash> that indicates the hash of the block in the block store,
// only if it can be re-used as-is in the copied object
match range_to_copy {
Some(r) => {
// If we are taking a subslice of the data, we cannot reuse the block as-is
Ok((data.slice(r), None))
}
None if same_encryption => {
// If the data is unencrypted before & after, or if we are using
// the same encryption key, we can reuse the stored block, no need
// to re-send it to storage nodes.
Ok((data, Some(block_hash)))
}
None => {
// If we are decrypting / (re)encrypting with different keys,
// we cannot reuse the block as-is
Ok((data, None))
}
}
}
})
.buffered(2)
.peekable();
// The defragmenter is a custom stream (defined below) that concatenates
// consecutive block parts when they are too small.
// It returns a series of (Vec<u8>, Option<Hash>).
// When it is done, it returns an empty vec.
// Same as the previous iterator, the Option is Some(_) if and only if
// it's an existing block of the Garage data store that can be reused.
let mut defragmenter = Defragmenter::new(garage.config.block_size, Box::pin(source_blocks));
let mut current_offset = 0;
let mut next_block = defragmenter.next().await?;
// TODO this could be optimized similarly to read_and_put_blocks
// low priority because uploadpartcopy is rarely used
loop {
let (data, existing_block_hash) = next_block;
if data.is_empty() {
break;
}
let data_len = data.len() as u64;
let (checksummer_updated, (data_to_upload, final_hash)) =
tokio::task::spawn_blocking(move || {
checksummer.update(&data[..]);
let tup = match existing_block_hash {
Some(hash) if same_encryption => (None, hash),
_ => {
let data_enc = dest_encryption.encrypt_block(data)?;
let hash = blake2sum(&data_enc);
(Some(data_enc), hash)
}
};
Ok::<_, Error>((checksummer, tup))
})
.await
.unwrap()?;
checksummer = checksummer_updated;
dest_version.blocks.clear();
dest_version.blocks.put(
VersionBlockKey {
part_number,
offset: current_offset,
},
VersionBlock {
hash: final_hash,
size: data_len,
},
);
current_offset += data_len;
let block_ref = BlockRef {
block: final_hash,
version: dest_version_id,
deleted: false.into(),
};
let (_, _, _, next) = futures::try_join!(
// Thing 1: if the block is not exactly a block that existed before,
// we need to insert that data as a new block.
async {
if let Some(final_data) = data_to_upload {
garage
.block_manager
.rpc_put_block(final_hash, final_data, dest_encryption.is_encrypted(), None)
.await
} else {
Ok(())
}
},
// Thing 2: we need to insert the block in the version
garage.version_table.insert(&dest_version),
// Thing 3: we need to add a block reference
garage.block_ref_table.insert(&block_ref),
// Thing 4: we need to read the next block
defragmenter.next(),
)?;
next_block = next;
}
assert_eq!(current_offset, source_range.length);
let checksums = checksummer.finalize();
let etag = dest_encryption.etag_from_md5(&checksums.md5);
let checksum = checksums.extract(dest_object_checksum_algorithm);
// Put the part's ETag in the Versiontable
dest_mpu.parts.put(
dest_mpu_part_key,
MpuPart {
version: dest_version_id,
etag: Some(etag.clone()),
checksum,
size: Some(current_offset),
},
);
garage.mpu_table.insert(&dest_mpu).await?;
// LGTM
let resp_xml = s3_xml::to_xml_with_header(&CopyPartResult {
xmlns: (),
etag: s3_xml::Value(format!("\"{}\"", etag)),
last_modified: s3_xml::Value(msec_to_rfc3339(source_object_version.timestamp)),
})?;
let mut resp = Response::builder()
.header("Content-Type", "application/xml")
.header(
"x-amz-copy-source-version-id",
hex::encode(source_object_version.uuid),
);
dest_encryption.add_response_headers(&mut resp);
Ok(resp.body(string_body(resp_xml))?)
}
async fn get_copy_source(ctx: &ReqCtx, req: &Request<ReqBody>) -> Result<Object, Error> {
let ReqCtx {
garage, api_key, ..
} = ctx;
let copy_source = req.headers().get("x-amz-copy-source").unwrap().to_str()?;
let copy_source = percent_encoding::percent_decode_str(copy_source).decode_utf8()?;
let (source_bucket, source_key) = parse_bucket_key(©_source, None)?;
let source_bucket_id = garage
.bucket_helper()
.resolve_bucket(&source_bucket.to_string(), api_key)
.await?;
if !api_key.allow_read(&source_bucket_id) {
return Err(Error::forbidden(format!(
"Reading from bucket {} not allowed for this key",
source_bucket
)));
}
let source_key = source_key.ok_or_bad_request("No source key specified")?;
let source_object = garage
.object_table
.get(&source_bucket_id, &source_key.to_string())
.await?
.ok_or(Error::NoSuchKey)?;
Ok(source_object)
}
fn extract_source_info(
source_object: &Object,
) -> Result<(&ObjectVersion, &ObjectVersionData, &ObjectVersionMeta), Error> {
let source_version = source_object
.versions()
.iter()
.rev()
.find(|v| v.is_complete())
.ok_or(Error::NoSuchKey)?;
let source_version_data = match &source_version.state {
ObjectVersionState::Complete(x) => x,
_ => unreachable!(),
};
let source_version_meta = match source_version_data {
ObjectVersionData::DeleteMarker => {
return Err(Error::NoSuchKey);
}
ObjectVersionData::Inline(meta, _bytes) => meta,
ObjectVersionData::FirstBlock(meta, _fbh) => meta,
};
Ok((source_version, source_version_data, source_version_meta))
}
struct CopyPreconditionHeaders {
copy_source_if_match: Option<Vec<String>>,
copy_source_if_modified_since: Option<SystemTime>,
copy_source_if_none_match: Option<Vec<String>>,
copy_source_if_unmodified_since: Option<SystemTime>,
}
impl CopyPreconditionHeaders {
fn parse(req: &Request<ReqBody>) -> Result<Self, Error> {
Ok(Self {
copy_source_if_match: req
.headers()
.get("x-amz-copy-source-if-match")
.map(|x| x.to_str())
.transpose()?
.map(|x| {
x.split(',')
.map(|m| m.trim().trim_matches('"').to_string())
.collect::<Vec<_>>()
}),
copy_source_if_modified_since: req
.headers()
.get("x-amz-copy-source-if-modified-since")
.map(|x| x.to_str())
.transpose()?
.map(httpdate::parse_http_date)
.transpose()
.ok_or_bad_request("Invalid date in x-amz-copy-source-if-modified-since")?,
copy_source_if_none_match: req
.headers()
.get("x-amz-copy-source-if-none-match")
.map(|x| x.to_str())
.transpose()?
.map(|x| {
x.split(',')
.map(|m| m.trim().trim_matches('"').to_string())
.collect::<Vec<_>>()
}),
copy_source_if_unmodified_since: req
.headers()
.get("x-amz-copy-source-if-unmodified-since")
.map(|x| x.to_str())
.transpose()?
.map(httpdate::parse_http_date)
.transpose()
.ok_or_bad_request("Invalid date in x-amz-copy-source-if-unmodified-since")?,
})
}
fn check(&self, v: &ObjectVersion, etag: &str) -> Result<(), Error> {
let v_date = UNIX_EPOCH + Duration::from_millis(v.timestamp);
let ok = match (
&self.copy_source_if_match,
&self.copy_source_if_unmodified_since,
&self.copy_source_if_none_match,
&self.copy_source_if_modified_since,
) {
// TODO I'm not sure all of the conditions are evaluated correctly here
// If we have both if-match and if-unmodified-since,
// basically we don't care about if-unmodified-since,
// because in the spec it says that if if-match evaluates to
// true but if-unmodified-since evaluates to false,
// the copy is still done.
(Some(im), _, None, None) => im.iter().any(|x| x == etag || x == "*"),
(None, Some(ius), None, None) => v_date <= *ius,
// If we have both if-none-match and if-modified-since,
// then both of the two conditions must evaluate to true
(None, None, Some(inm), Some(ims)) => {
!inm.iter().any(|x| x == etag || x == "*") && v_date > *ims
}
(None, None, Some(inm), None) => !inm.iter().any(|x| x == etag || x == "*"),
(None, None, None, Some(ims)) => v_date > *ims,
(None, None, None, None) => true,
_ => {
return Err(Error::bad_request(
"Invalid combination of x-amz-copy-source-if-xxxxx headers",
))
}
};
if ok {
Ok(())
} else {
Err(Error::PreconditionFailed)
}
}
}
type BlockStreamItemOk = (Bytes, Option<Hash>);
type BlockStreamItem = Result<BlockStreamItemOk, garage_util::error::Error>;
struct Defragmenter<S: Stream<Item = BlockStreamItem>> {
block_size: usize,
block_stream: Pin<Box<stream::Peekable<S>>>,
buffer: BytesBuf,
hash: Option<Hash>,
}
impl<S: Stream<Item = BlockStreamItem>> Defragmenter<S> {
fn new(block_size: usize, block_stream: Pin<Box<stream::Peekable<S>>>) -> Self {
Self {
block_size,
block_stream,
buffer: BytesBuf::new(),
hash: None,
}
}
async fn next(&mut self) -> BlockStreamItem {
// Fill buffer while we can
while let Some(res) = self.block_stream.as_mut().peek().await {
let (peeked_next_block, _) = match res {
Ok(t) => t,
Err(_) => {
self.block_stream.next().await.unwrap()?;
unreachable!()
}
};
if self.buffer.is_empty() {
let (next_block, next_block_hash) = self.block_stream.next().await.unwrap()?;
self.buffer.extend(next_block);
self.hash = next_block_hash;
} else if self.buffer.len() + peeked_next_block.len() > self.block_size {
break;
} else {
let (next_block, _) = self.block_stream.next().await.unwrap()?;
self.buffer.extend(next_block);
self.hash = None;
}
}
Ok((self.buffer.take_all(), self.hash.take()))
}
}
#[derive(Debug, Serialize, PartialEq, Eq)]
pub struct CopyObjectResult {
#[serde(rename = "LastModified")]
pub last_modified: s3_xml::Value,
#[serde(rename = "ETag")]
pub etag: s3_xml::Value,
}
#[derive(Debug, Serialize, PartialEq, Eq)]
pub struct CopyPartResult {
#[serde(serialize_with = "xmlns_tag")]
pub xmlns: (),
#[serde(rename = "LastModified")]
pub last_modified: s3_xml::Value,
#[serde(rename = "ETag")]
pub etag: s3_xml::Value,
}
#[cfg(test)]
mod tests {
use super::*;
use crate::s3::xml::to_xml_with_header;
#[test]
fn copy_object_result() -> Result<(), Error> {
let copy_result = CopyObjectResult {
last_modified: s3_xml::Value(msec_to_rfc3339(0)),
etag: s3_xml::Value("\"9b2cf535f27731c974343645a3985328\"".to_string()),
};
assert_eq!(
to_xml_with_header(©_result)?,
"<?xml version=\"1.0\" encoding=\"UTF-8\"?>\
<CopyObjectResult>\
<LastModified>1970-01-01T00:00:00.000Z</LastModified>\
<ETag>"9b2cf535f27731c974343645a3985328"</ETag>\
</CopyObjectResult>\
"
);
Ok(())
}
#[test]
fn serialize_copy_part_result() -> Result<(), Error> {
let expected_retval = "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\
<CopyPartResult xmlns=\"http://s3.amazonaws.com/doc/2006-03-01/\">\
<LastModified>2011-04-11T20:34:56.000Z</LastModified>\
<ETag>"9b2cf535f27731c974343645a3985328"</ETag>\
</CopyPartResult>";
let v = CopyPartResult {
xmlns: (),
last_modified: s3_xml::Value("2011-04-11T20:34:56.000Z".into()),
etag: s3_xml::Value("\"9b2cf535f27731c974343645a3985328\"".into()),
};
assert_eq!(to_xml_with_header(&v)?, expected_retval);
Ok(())
}
}
|