* Deduplicate NodeID list prior to fetching IPs.
* Use NodeSelectionCache for fetching reliable IPs.
* Return number of segements, reliable pieces and all pieces.
Change-Id: I13e679caab275488b4037624b840a4068dad9589
For being able to have resilient multi-region satellites we cannot stop
processing uploads/download client request when Redis isn't responding
properly.
These changes avoid to stop the processing of the client requests when
we cannot check if the client exceeds its storage or bandwidth limits
and we cannot update its used storage/bandwidth limits because Redis is
not responding successfully or the satellite database returns an error.
Change-Id: Ia7f12c07fc9ffdfad0e7ff052ff3fd81eca0f0e3
Respond to the HTTP clients which request the project usage limits with
different status codes depending of the error class returned by the
satellite/accounting Service.
Change-Id: I6f486ea55517f616c7cec81dbbe77e997484180f
This is the first step in the removal of uptime columns on the
nodes table. These columns are no longer used:
uptime_success_count
total_uptime_count
uptime_reputation_alpha
uptime_reputation_beta
In order to avoid breaking backwards compatibility, we need to
remove all references to these columns before removing the columns
themselves from the database. However, since uptime_success_count
and total_uptime_count are NOT NULLABLE, we can't remove them from
the insert statements in the overlay. So we can't remove the columns
because of the references, and we can't remove the references because
the columns can't be null. What a pickle. To remedy this, we will set a
default on the columns. Then we should be able to remove them from the
insert statements
Change-Id: I75f6c56fb7897835bbf29869f86f39de1d9dd345
We have to adapt the live accounting to allow the packages that use it
to differentiate about errors for being able to ignore them and make our
satellite resilient to Redis downtime.
For differentiating errors we should make changes in the live accounting
but also in the storage/redis.Client, however, we may need to do some
dirty workarounds or break other parts of the implementation that
depends on it.
On the other hand we want to get rid of the storage/redis.Client because
it has more functionality that the one that we are using and some
process has been started to remove it.
Hence, we have refactored the live accounting to directly use the Redis
client library for later on (in a future commit) adapt the satellite for
being resilient to Redis downtime.
Last but not least, a test for expired bandwidth keys have been added
and with it a bug was spotted and fix it.
Change-Id: Ibd191522cd20f6a9a15e5ccb7beb83a678e530ff
GetSuccessfulNodeNotCheckedInSince and GetOfflineNodesLimited are overlay methods
which were only used by the previous downtime tracking system which has been removed.
These methods should also be removed.
Change-Id: Idb829d742e1f987e095604423fff656fe581183e
SatelliteAddress in OrderLimit is not being used anymore and some
satellite addresses may consume too much bytes.
Change-Id: Ic7a0efe5b6211c2f3b91af67b293cde98b29d074
Avoid using project uuid string representation, because
it uses more bandwidth.
This reduces the encrypted metadata size from 118 -> 97 bytes.
Change-Id: Ic53a81b83acc065f24f28cd404f9c0b1fe592594
Do not insert the number of healthy pieces for segment health anymore.
Rather, insert the segment health calculated by our new priority
function.
Change-Id: Ieee7fb2deee89f4d79ae85bac7f577befa2a0c7f
Full prefix: satellite/{overlay,nodestats},storagenode/{reputation,nodestats}
Allow the storagenode to receive its audit history data from the
satellite via the satellite's GetStats endpoint.
The storagenode does not save this data for use in the API yet.
Change-Id: I9488f4d7a4ccb4ccf8336b8e4aeb3e5beee54979
* Separate audit history interface into its own file in the overlay
package
* Add overlay.AuditHistory struct so that internalpb.AuditHistory is
only used from within the database layer
* Add overlay.GetAuditHistory function for features that will require
access to detailed audit history information
* Do not return full audit history from UpdateAuditHistory - callers to
that function only need to know the online score and whether a full
tracking period has been completed
* Move audit history tests out of satellite/satellitedb, since they are
independent of database implementation
Change-Id: I35b0c4ac23bbaabd80624f8a9631c3cb1a1f33bd
Now that the deprecated downtime tracking service is removed
(3fc76f4ffe), we can safely remove
the nodes_offline_times table.
Change-Id: Ia7c6efe32ba104dff5a830af5f2beee3337eefe5
Nodes which are offline_suspended will no longer be considered for new
uploads. The current threshold that enters a node into offline
suspension is 0.6. Disqualification for offline suspension is still
disabled.
Change-Id: I0da9abf47167dd5bf6bb21e0bc2186e003e38d1a
Currently we do not allow anything other than the "paid" status for invoices when
trying to delete a user. However there can be a couple of other states that are
still fine to accept during deletion of a user. This change reverses the order to
check for the status that we do not want to allow.
Change-Id: I78d85af6438015c55100fa201ccffc731c91de1c
this change isn't the real fix. it's just ignoring the problem.
i don't know what the real fix is. is the problem with the test, or
is there actually a problem with the rollup code?
Change-Id: I552bdd947deadc212cc56efc5f818942b9827126
Query nodes table using AS OF SYSTEM TIME '-10s' (by default) when on CRDB to alleviate contention on the nodes table and minimize CRDB retries. Queries for standard uploads are already cached, and node lookups for graceful exit uploads has retry logic so it isn't necessary for the nodes returned to be current.
Since the Satellite now requires the order encryption functionality (since serial_number table is deprecated) to properly function, we can remove the config flag to turn on/off the feature.
Change-Id: Ie973f72a9a05a81cef9e53dc9c99d22c940c2488
This PR contains the minimum changes needed to stop inserting into the serial_numbers table. This is the first step in completely deprecating that table.
The next step is to create another PR to remove the expiredSerial chore, fix more tests, and remove any other methods on the serial_number table.
Change-Id: I5f12a56ebf3fa4d1a1976141d2911f25a98d2cc3
The chief segment health models we've come up with are the "immediate
danger" model and the "survivability" model. The former calculates the
chance of losing a segment becoming lost in the next time period (using
the CDF of the binomial distribution to estimate the chance of x nodes
failing in that period), while the latter estimates the number of
iterations for which a segment can be expected to survive (using the
mean of the negative binomial distribution). The immediate danger model
was a promising one for comparing segment health across segments with
different RS parameters, as it is more precisely what we want to
prevent, but it turns out that practically all segments in production
have infinite health, as the chance of losing segments with any
reasonable estimate of node failure rate is smaller than DBL_EPSILON,
the smallest possible difference from 1.0 representable in a float64
(about 1e-16).
Leaving aside the wisdom of worrying about the repair of segments that
have less than a 1e-16 chance of being lost, we want to be extremely
conservative and proactive in our repair efforts, and the health of the
segments we have been repairing thus far also evaluates to infinity
under the immediate danger model. Thus, we find ourselves reaching for
an alternative.
Dr. Ben saves the day: the survivability model is a reasonably close
approximation of the immediate danger model, and even better, it is
far simpler to calculate and yields manageable values for real-world
segments. The downside to it is that it requires as input an estimate
of the total number of active nodes.
This change replaces the segment health calculation to use the
survivability model, and reinstates the call to SegmentHealth() where it
was reverted. It gets estimates for the total number of active nodes by
leveraging the reliability cache.
Change-Id: Ia5d9b9031b9f6cf0fa7b9005a7011609415527dc
A few weeks ago it was discovered that the segment health function
was not working as expected with production values. As a bandaid,
we decided to insert the number of healthy pieces into the segment
health column. This should have effectively reverted our means of
prioritizing repair to the previous implementation.
However, it turns out that the bandaid was placed into the code which
removes items from the irreparable db and inserts them into the repair
queue.
This change: insert number of healthy pieces into the repair queue in the
method, RemoteSegment
Change-Id: Iabfc7984df0a928066b69e9aecb6f615253f1ad2
There is a new checker field called statsCollector. This contains
a map of stats pointers where the key is a stringified redundancy
scheme. stats contains all tagged monkit metrics. These metrics exist
under the key name, "tagged_repair_stats", which is tagged with the
name of each metric and a corresponding rs scheme.
As the metainfo observer works on a segment, it checks statsCollector
for a stats corresponding to the segment's redundancy scheme. If one
doesn't exist, it is created and chained to the monkit scope. Now we can call
Observe, Inc, etc on the fields just like before, and they have tags!
durabilityStats has also been renamed to aggregateStats.
At the end of the metainfo loop, we insert the aggregateStats totals into the
corresponding stats fields for metric reporting.
Change-Id: I8aa1918351d246a8ef818b9712ed4cb39d1ea9c6
Make changes so that we only import the necessary files from the console package so that the generated wasm code is as small as possible.
This change gets the compiled wasm code down to 8.6MB uncompressed and 2MB when compressed with `gzip --best`.
https://review.dev.storj.io/c/storj/storj/+/3396
Change-Id: Ifdd4be285810757b46bbbe43327c0d0139e5f8f7
Remove a declared variable that's set by never read nor passed to any
function so it's unused code.
Change-Id: I8daf9d1f71d29ab39d7a80011d1b4813ada1c67d