* Allow a maximum of 10 seconds to start profiling operations.
* Download up to 16 profiles concurrently, but only allow 10 seconds for
each (does not include write time).
* Add cluster info as the first operation.
* Ignore remote download errors.
* Stop remote profiles if the request is terminated.
If the site replication is enabled and the code tries to extract jwt
claims while the site replication service account credentials are still
not loaded yet, the code will enter an infinite loop, causing in a
high CPU usage.
Another possibility of the infinite loop is having some service accounts
created by an old deployment version where the service account JWT was
signed by the root credentials, but not anymore.
This commit will remove the possibility of the infinite loop in the code
and add root credential fallback to extract claims from old service
accounts.
move away from map[string]interface{} to map[string]string
to simplify the audit, and also provide concise information.
avoids large allocations under load(), reduces the amount
of audit information generated, as the current implementation
was a bit free-form. instead all datastructures must be
flattened.
Previously, we checked if we had a quorum on the DataDir value.
We are removing this check, which allows reading objects with different
DataDir values in a few drives (due to a rebalance-stop race bug)
provided their eTags or ModTimes match.
Since a lot of operations load from storage, do remote calls, add a 10 second timeout to each operation.
This should make `mc admin info` return values even under extreme conditions.
- optimize writing part.N.meta by writing both part.N
and its meta in sequence without network component.
- remove part.N.meta, part.N which were partially success
ful, in quorum loss situations during renamePart()
- allow for strict read quorum check arbitrated via ETag
for the given part number, this makes it double safer
upon final commit.
- return an appropriate error when read quorum is missing,
instead of returning InvalidPart{}, which is non-retryable
error. This kind of situation can happen when many
nodes are going offline in rotation, an example of such
a restart() behavior is statefulset updates in k8s.
fixes#20091
during rebalance stop, it can possibly happen that
Put() would race by overwriting the same object again.
This may very well if done "successfully" it can
potentially proceed to delete the object from the pool,
causing data loss.
This PR enhances #20233 to handle more scenarios such
as these.
Rebalance-stop can race with ongoing rebalance operations. This change
prevents these operations from overwriting objects by checking the source
and destination pool indices are different.
This commit replaces the LDAP client TLS config and
adds a custom list of TLS cipher suites which support
RSA key exchange (RSA kex).
Some LDAP server connections experience a significant slowdown
when these cipher suites are not available. The Go TLS stack
disables them by default. (Can be enabled via GODEBUG=tlsrsakex=1).
fixes https://github.com/minio/minio/issues/20214
With a custom list of TLS ciphers, Go can pick the TLS RSA key-exchange
cipher. Ref:
```
if c.CipherSuites != nil {
return c.CipherSuites
}
if tlsrsakex.Value() == "1" {
return defaultCipherSuitesWithRSAKex
}
```
Ref: https://cs.opensource.google/go/go/+/refs/tags/go1.22.5:src/crypto/tls/common.go;l=1017
Signed-off-by: Andreas Auernhammer <github@aead.dev>
this allows for de-duplicating the callers when called
concurrently, allowing for bucketmetadata reads to be
single call. All concurrent callers will get the same data
as the first one.
Fix a regression in #19733 where TTFB metrics for all APIs except
GetObject were removed in v2 and v3 metrics. This causes breakage for
existing v2 metrics users. Instead we continue to send TTFB for all APIs
in V2 but only send for GetObject in V3.
allow multipart uploads expiration to be dyamic
It would seem like the new values will take effect
only after a restart for changes in multipart_expiration.
This PR fixes this by making it dynamic as it should have
been.
deadlines per moveToTrash() allows for a more granular timeout
approach for syscalls, instead of an aggregate timeout.
This PR also enhances multipart state cleanup to be optimal by
removing 100's of multipart network rename() calls into single
network call.
context deadline was introduced to avoid a slow transfer from blocking
replication queue(s) shared by other buckets that may not be under throttling.
This PR removes this context deadline for larger objects since they are
anyway restricted to a limited set of workers. Otherwise, objects would
get dequeued when the throttle limit is exceeded and cannot proceed
within the deadline.
epoll contention on TCP causes latency build-up when
we have high volume ingress. This PR is an attempt to
relieve this pressure.
upstream issue https://github.com/golang/go/issues/65064
It seems to be a deeper problem; haven't yet tried the fix
provide in this issue, but however this change without
changing the compiler helps.
Of course, this is a workaround for now, hoping for a
more comprehensive fix from Go runtime.
- ReadVersion
- ReadFile
- ReadXL
Further changes include to
- Compact internode resource RPC paths
- Compact internode query params
To optimize on parsing by gorilla/mux as the
length of this string increases latency in
gorilla/mux - reduce to a meaningful string.
the main reason is to let Go net/http perform necessary
book keeping properly, and in essential from consistency
point of view its GETs all the way.
Deprecate sendFile() as its buggy inside Go runtime.
For a non-tiered object, MinIO requires that EcM (# of data blocks) of
xl.meta agree, corresponding to the number of data blocks needed to
read this object.
OTOH, tiered objects have metadata in the hot tier and data in the
warm tier. The data and its integrity are offloaded to the warm tier. This
allows us to reduce the read quorum from EcM (typically > N/2, where N -
erasure stripe width) to N/2 + 1. The simple majority of metadata
ensures consensus on what the object is and where it is
located.