When a reconnection happens, `handleMessages` must be able to complete and exit.
This can be prevented in a full queue.
Deadlock chain (May 10th release)
```
1 @ 0x44110e 0x453125 0x109f88c 0x109f7d5 0x10a472c 0x10a3f72 0x10a34ed 0x4795e1
# 0x109f88b github.com/minio/minio/internal/grid.(*Connection).send+0x3eb github.com/minio/minio/internal/grid/connection.go:548
# 0x109f7d4 github.com/minio/minio/internal/grid.(*Connection).queueMsg+0x334 github.com/minio/minio/internal/grid/connection.go:586
# 0x10a472b github.com/minio/minio/internal/grid.(*Connection).handleAckMux+0xab github.com/minio/minio/internal/grid/connection.go:1284
# 0x10a3f71 github.com/minio/minio/internal/grid.(*Connection).handleMsg+0x231 github.com/minio/minio/internal/grid/connection.go:1211
# 0x10a34ec github.com/minio/minio/internal/grid.(*Connection).handleMessages.func1+0x6cc github.com/minio/minio/internal/grid/connection.go:1019
---> blocks ---> via (Connection).handleMsgWg
1 @ 0x44110e 0x454165 0x454134 0x475325 0x486b08 0x10a161a 0x10a1465 0x2470e67 0x7395a9 0x20e61af 0x20e5f1f 0x7395a9 0x22f781c 0x7395a9 0x22f89a5 0x7395a9 0x22f6e82 0x7395a9 0x22f49a2 0x7395a9 0x2206e45 0x7395a9 0x22f4d9c 0x7395a9 0x210ba06 0x7395a9 0x23089c2 0x7395a9 0x22f86e9 0x7395a9 0xd42582 0x2106c04
# 0x475324 sync.runtime_Semacquire+0x24 runtime/sema.go:62
# 0x486b07 sync.(*WaitGroup).Wait+0x47 sync/waitgroup.go:116
# 0x10a1619 github.com/minio/minio/internal/grid.(*Connection).reconnected+0xb9 github.com/minio/minio/internal/grid/connection.go:857
# 0x10a1464 github.com/minio/minio/internal/grid.(*Connection).handleIncoming+0x384 github.com/minio/minio/internal/grid/connection.go:825
```
Add a queue cleaner in reconnected that will pop old messages so `handleMessages` can
send messages without blocking and exit appropriately for the connection to be re-established.
Messages are likely dropped by the remote, but we may have some that can succeed,
so we only drop when running out of space.
Add the inlined data as base64 encoded field and try to add a string version if feasible.
Example:
```
λ xl-meta -data xl.meta
{
"8e03504e-1123-4957-b272-7bc53eda0d55": {
"bitrot_valid": true,
"bytes": 58,
"data_base64": "Z29sYW5nLm9yZy94L3N5cyB2MC4xNS4wIC8=",
"data_string": "golang.org/x/sys v0.15.0 /"
}
```
The string will have quotes, newlines escaped to produce valid JSON.
If content isn't valid utf8 or the encoding otherwise fails, only the base64 data will be added.
`-export` can still be used separately to extract the data as files (including bitrot).
* Prevents blocking when losing quorum (standard on cluster restarts).
* Time out to prevent endless buildup. Timed-out remote locks will be canceled because they miss the refresh anyway.
* Reduces latency for all calls since the wall time for the roundtrip to remotes no longer adds to the requests.
since the connection is active, the
response recorder body can grow endlessly
causing leak, as this bytes buffer is
never given back to GC due to an goroutine.
skip healing properly in scanner when drive is hotplugged
due to how the state is passed around the SkipHealing
might not be the true state() of the system always, causing
a situation where we might healing from the scanner on the
same drive which is being. Due to this competing heals get
triggered that slow each other down.
due to a historic bug in CopyObject() where
an inlined object loses its metadata, the
check causes an incorrect fallback verifying
data-dir.
CopyObject() bug was fixed in ffa91f9794 however
the occurrence of this problem is historic, so
the aforementioned check is stretching too much.
Bonus: simplify fileInfoRaw() to read xl.json as well,
also recreate buckets properly.
* Multipart SSEC checksums were not transferred.
* Remove key mismatch logging. This key is user-controlled with SSEC.
* If the source is SSEC and the destination reports ErrSSEEncryptedObject,
assume replication is good.
avoid concurrent callers for LoadUser() to even initiate
object read() requests, if an on-going operation is in progress.
this avoids many callers hitting the drives causing I/O
spikes, also allows for loading credentials faster.
This commit fixes an issue in the KES client configuration
that can cause the following error when connecting to KES:
```
ERROR Failed to connect to KMS: failed to generate data key with KMS key: tls: client certificate is required
```
The Go TLS stack seems to not send a client certificate if it
thinks the client certificate cannot be validated by the peer.
In case of an API key, we don't care about this since we use
public key pinning and the X.509 certificate is just a transport
encoding.
The `GetClientCertificate` seems to be honored always such that
this error does not occur.
Signed-off-by: Andreas Auernhammer <github@aead.dev>
the reason for this is to avoid STS mappings to be
purged without a successful load of other policies,
and all the credentials only loaded successfully
are properly handled.
This also avoids unnecessary cache store which was
implemented earlier for optimization.
Directory objects are used by applications that simulate the folder
structure of an on-disk filesystem. These are zero-byte objects with names
ending with '/'. They are only used to check whether a 'folder' exists in
the namespace.