use std::collections::{BTreeMap, HashMap}; use std::sync::Arc; use base64::prelude::*; use futures::prelude::*; use hyper::body::{Body, Bytes}; use hyper::header::{HeaderMap, HeaderValue}; use hyper::{Request, Response}; use md5::{digest::generic_array::*, Digest as Md5Digest, Md5}; use sha2::Sha256; use opentelemetry::{ trace::{FutureExt as OtelFutureExt, TraceContextExt, Tracer}, Context, }; use garage_rpc::netapp::bytes_buf::BytesBuf; use garage_table::*; use garage_util::async_hash::*; use garage_util::data::*; use garage_util::error::Error as GarageError; use garage_util::time::*; use garage_block::manager::INLINE_THRESHOLD; use garage_model::bucket_table::Bucket; use garage_model::garage::Garage; use garage_model::index_counter::CountedItem; use garage_model::s3::block_ref_table::*; use garage_model::s3::object_table::*; use garage_model::s3::version_table::*; use crate::s3::error::*; pub async fn handle_put( garage: Arc, req: Request, bucket: &Bucket, key: &str, content_sha256: Option, ) -> Result, Error> { // Retrieve interesting headers from request let headers = get_headers(req.headers())?; debug!("Object headers: {:?}", headers); let content_md5 = match req.headers().get("content-md5") { Some(x) => Some(x.to_str()?.to_string()), None => None, }; let (_head, body) = req.into_parts(); let body = body.map_err(Error::from); save_stream( garage, headers, body, bucket, key, content_md5, content_sha256, ) .await .map(|(uuid, md5)| put_response(uuid, md5)) } pub(crate) async fn save_stream> + Unpin>( garage: Arc, headers: ObjectVersionHeaders, body: S, bucket: &Bucket, key: &str, content_md5: Option, content_sha256: Option, ) -> Result<(Uuid, String), Error> { // Generate identity of new version let version_uuid = gen_uuid(); let version_timestamp = now_msec(); let mut chunker = StreamChunker::new(body, garage.config.block_size); let first_block = chunker.next().await?.unwrap_or_default(); // If body is small enough, store it directly in the object table // as "inline data". We can then return immediately. if first_block.len() < INLINE_THRESHOLD { let mut md5sum = Md5::new(); md5sum.update(&first_block[..]); let data_md5sum = md5sum.finalize(); let data_md5sum_hex = hex::encode(data_md5sum); let data_sha256sum = sha256sum(&first_block[..]); let size = first_block.len() as u64; ensure_checksum_matches( data_md5sum.as_slice(), data_sha256sum, content_md5.as_deref(), content_sha256, )?; check_quotas(&garage, bucket, key, size).await?; let object_version = ObjectVersion { uuid: version_uuid, timestamp: version_timestamp, state: ObjectVersionState::Complete(ObjectVersionData::Inline( ObjectVersionMeta { headers, size, etag: data_md5sum_hex.clone(), }, first_block.to_vec(), )), }; let object = Object::new(bucket.id, key.into(), vec![object_version]); garage.object_table.insert(&object).await?; return Ok((version_uuid, data_md5sum_hex)); } // The following consists in many steps that can each fail. // Keep track that some cleanup will be needed if things fail // before everything is finished (cleanup is done using the Drop trait). let mut interrupted_cleanup = InterruptedCleanup(Some(( garage.clone(), bucket.id, key.into(), version_uuid, version_timestamp, ))); // Write version identifier in object table so that we have a trace // that we are uploading something let mut object_version = ObjectVersion { uuid: version_uuid, timestamp: version_timestamp, state: ObjectVersionState::Uploading { headers: headers.clone(), multipart: false, }, }; let object = Object::new(bucket.id, key.into(), vec![object_version.clone()]); garage.object_table.insert(&object).await?; // Initialize corresponding entry in version table // Write this entry now, even with empty block list, // to prevent block_ref entries from being deleted (they can be deleted // if the reference a version that isn't found in the version table) let version = Version::new( version_uuid, VersionBacklink::Object { bucket_id: bucket.id, key: key.into(), }, false, ); garage.version_table.insert(&version).await?; // Transfer data and verify checksum let first_block_hash = async_blake2sum(first_block.clone()).await; let (total_size, data_md5sum, data_sha256sum) = read_and_put_blocks( &garage, &version, 1, first_block, first_block_hash, &mut chunker, ) .await?; ensure_checksum_matches( data_md5sum.as_slice(), data_sha256sum, content_md5.as_deref(), content_sha256, )?; check_quotas(&garage, bucket, key, total_size).await?; // Save final object state, marked as Complete let md5sum_hex = hex::encode(data_md5sum); object_version.state = ObjectVersionState::Complete(ObjectVersionData::FirstBlock( ObjectVersionMeta { headers, size: total_size, etag: md5sum_hex.clone(), }, first_block_hash, )); let object = Object::new(bucket.id, key.into(), vec![object_version]); garage.object_table.insert(&object).await?; // We were not interrupted, everything went fine. // We won't have to clean up on drop. interrupted_cleanup.cancel(); Ok((version_uuid, md5sum_hex)) } /// Validate MD5 sum against content-md5 header /// and sha256sum against signed content-sha256 pub(crate) fn ensure_checksum_matches( data_md5sum: &[u8], data_sha256sum: garage_util::data::FixedBytes32, content_md5: Option<&str>, content_sha256: Option, ) -> Result<(), Error> { if let Some(expected_sha256) = content_sha256 { if expected_sha256 != data_sha256sum { return Err(Error::bad_request( "Unable to validate x-amz-content-sha256", )); } else { trace!("Successfully validated x-amz-content-sha256"); } } if let Some(expected_md5) = content_md5 { if expected_md5.trim_matches('"') != BASE64_STANDARD.encode(data_md5sum) { return Err(Error::bad_request("Unable to validate content-md5")); } else { trace!("Successfully validated content-md5"); } } Ok(()) } /// Check that inserting this object with this size doesn't exceed bucket quotas pub(crate) async fn check_quotas( garage: &Arc, bucket: &Bucket, key: &str, size: u64, ) -> Result<(), Error> { let quotas = bucket.state.as_option().unwrap().quotas.get(); if quotas.max_objects.is_none() && quotas.max_size.is_none() { return Ok(()); }; let key = key.to_string(); let (prev_object, counters) = futures::try_join!( garage.object_table.get(&bucket.id, &key), garage.object_counter_table.table.get(&bucket.id, &EmptyKey), )?; let counters = counters .map(|x| x.filtered_values(&garage.system.ring.borrow())) .unwrap_or_default(); let (prev_cnt_obj, prev_cnt_size) = match prev_object { Some(o) => { let prev_cnt = o.counts().into_iter().collect::>(); ( prev_cnt.get(OBJECTS).cloned().unwrap_or_default(), prev_cnt.get(BYTES).cloned().unwrap_or_default(), ) } None => (0, 0), }; let cnt_obj_diff = 1 - prev_cnt_obj; let cnt_size_diff = size as i64 - prev_cnt_size; if let Some(mo) = quotas.max_objects { let current_objects = counters.get(OBJECTS).cloned().unwrap_or_default(); if cnt_obj_diff > 0 && current_objects + cnt_obj_diff > mo as i64 { return Err(Error::forbidden(format!( "Object quota is reached, maximum objects for this bucket: {}", mo ))); } } if let Some(ms) = quotas.max_size { let current_size = counters.get(BYTES).cloned().unwrap_or_default(); if cnt_size_diff > 0 && current_size + cnt_size_diff > ms as i64 { return Err(Error::forbidden(format!( "Bucket size quota is reached, maximum total size of objects for this bucket: {}. The bucket is already {} bytes, and this object would add {} bytes.", ms, current_size, size ))); } } Ok(()) } pub(crate) async fn read_and_put_blocks> + Unpin>( garage: &Garage, version: &Version, part_number: u64, first_block: Bytes, first_block_hash: Hash, chunker: &mut StreamChunker, ) -> Result<(u64, GenericArray, Hash), Error> { let tracer = opentelemetry::global::tracer("garage"); let md5hasher = AsyncHasher::::new(); let sha256hasher = AsyncHasher::::new(); futures::future::join( md5hasher.update(first_block.clone()), sha256hasher.update(first_block.clone()), ) .with_context(Context::current_with_span( tracer.start("Hash first block (md5, sha256)"), )) .await; let mut next_offset = first_block.len(); let mut put_curr_version_block = put_block_meta( garage, version, part_number, 0, first_block_hash, first_block.len() as u64, ); let mut put_curr_block = garage .block_manager .rpc_put_block(first_block_hash, first_block); loop { let (_, _, next_block) = futures::try_join!( put_curr_block.map_err(Error::from), put_curr_version_block.map_err(Error::from), chunker.next(), )?; if let Some(block) = next_block { let (_, _, block_hash) = futures::future::join3( md5hasher.update(block.clone()), sha256hasher.update(block.clone()), async_blake2sum(block.clone()), ) .with_context(Context::current_with_span( tracer.start("Hash block (md5, sha256, blake2)"), )) .await; let block_len = block.len(); put_curr_version_block = put_block_meta( garage, version, part_number, next_offset as u64, block_hash, block_len as u64, ); put_curr_block = garage.block_manager.rpc_put_block(block_hash, block); next_offset += block_len; } else { break; } } let total_size = next_offset as u64; let data_md5sum = md5hasher.finalize().await; let data_sha256sum = sha256hasher.finalize().await; let data_sha256sum = Hash::try_from(&data_sha256sum[..]).unwrap(); Ok((total_size, data_md5sum, data_sha256sum)) } async fn put_block_meta( garage: &Garage, version: &Version, part_number: u64, offset: u64, hash: Hash, size: u64, ) -> Result<(), GarageError> { let mut version = version.clone(); version.blocks.put( VersionBlockKey { part_number, offset, }, VersionBlock { hash, size }, ); let block_ref = BlockRef { block: hash, version: version.uuid, deleted: false.into(), }; futures::try_join!( garage.version_table.insert(&version), garage.block_ref_table.insert(&block_ref), )?; Ok(()) } pub(crate) struct StreamChunker>> { stream: S, read_all: bool, block_size: usize, buf: BytesBuf, } impl> + Unpin> StreamChunker { pub(crate) fn new(stream: S, block_size: usize) -> Self { Self { stream, read_all: false, block_size, buf: BytesBuf::new(), } } pub(crate) async fn next(&mut self) -> Result, Error> { while !self.read_all && self.buf.len() < self.block_size { if let Some(block) = self.stream.next().await { let bytes = block?; trace!("Body next: {} bytes", bytes.len()); self.buf.extend(bytes); } else { self.read_all = true; } } if self.buf.is_empty() { Ok(None) } else { Ok(Some(self.buf.take_max(self.block_size))) } } } pub fn put_response(version_uuid: Uuid, md5sum_hex: String) -> Response { Response::builder() .header("x-amz-version-id", hex::encode(version_uuid)) .header("ETag", format!("\"{}\"", md5sum_hex)) .body(Body::from(vec![])) .unwrap() } struct InterruptedCleanup(Option<(Arc, Uuid, String, Uuid, u64)>); impl InterruptedCleanup { fn cancel(&mut self) { drop(self.0.take()); } } impl Drop for InterruptedCleanup { fn drop(&mut self) { if let Some((garage, bucket_id, key, version_uuid, version_ts)) = self.0.take() { tokio::spawn(async move { let object_version = ObjectVersion { uuid: version_uuid, timestamp: version_ts, state: ObjectVersionState::Aborted, }; let object = Object::new(bucket_id, key, vec![object_version]); if let Err(e) = garage.object_table.insert(&object).await { warn!("Cannot cleanup after aborted PutObject: {}", e); } }); } } } // ============ helpers ============ pub(crate) fn get_mime_type(headers: &HeaderMap) -> Result { Ok(headers .get(hyper::header::CONTENT_TYPE) .map(|x| x.to_str()) .unwrap_or(Ok("blob"))? .to_string()) } pub(crate) fn get_headers(headers: &HeaderMap) -> Result { let content_type = get_mime_type(headers)?; let mut other = BTreeMap::new(); // Preserve standard headers let standard_header = vec![ hyper::header::CACHE_CONTROL, hyper::header::CONTENT_DISPOSITION, hyper::header::CONTENT_ENCODING, hyper::header::CONTENT_LANGUAGE, hyper::header::EXPIRES, ]; for h in standard_header.iter() { if let Some(v) = headers.get(h) { match v.to_str() { Ok(v_str) => { other.insert(h.to_string(), v_str.to_string()); } Err(e) => { warn!("Discarding header {}, error in .to_str(): {}", h, e); } } } } // Preserve x-amz-meta- headers for (k, v) in headers.iter() { if k.as_str().starts_with("x-amz-meta-") { match v.to_str() { Ok(v_str) => { other.insert(k.to_string(), v_str.to_string()); } Err(e) => { warn!("Discarding header {}, error in .to_str(): {}", k, e); } } } } Ok(ObjectVersionHeaders { content_type, other, }) }