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// Copyright (C) 2019 Storj Labs, Inc.
// See LICENSE for copying information.
package audit
import (
"context"
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"time"
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"github.com/zeebo/errs"
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"go.uber.org/zap"
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"storj.io/common/memory"
"storj.io/common/storj"
"storj.io/common/sync2"
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)
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// Error is the default audit errs class.
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var Error = errs . Class ( "audit" )
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// Config contains configurable values for audit chore and workers.
type Config struct {
MaxRetriesStatDB int ` help:"max number of times to attempt updating a statdb batch" default:"3" `
testplanet/satellite: reduce the number of places default values need to be configured
Satellites set their configuration values to default values using
cfgstruct, however, it turns out our tests don't test these values
at all! Instead, they have a completely separate definition system
that is easy to forget about.
As is to be expected, these values have drifted, and it appears
in a few cases test planet is testing unreasonable values that we
won't see in production, or perhaps worse, features enabled in
production were missed and weren't enabled in testplanet.
This change makes it so all values are configured the same,
systematic way, so it's easy to see when test values are different
than dev values or release values, and it's less hard to forget
to enable features in testplanet.
In terms of reviewing, this change should be actually fairly
easy to review, considering private/testplanet/satellite.go keeps
the current config system and the new one and confirms that they
result in identical configurations, so you can be certain that
nothing was missed and the config is all correct.
You can also check the config lock to see what actual config
values changed.
Change-Id: I6715d0794887f577e21742afcf56fd2b9d12170e
2021-05-31 22:15:00 +01:00
MinBytesPerSecond memory . Size ` help:"the minimum acceptable bytes that storage nodes can transfer per second to the satellite" default:"128B" testDefault:"1.00 KB" `
MinDownloadTimeout time . Duration ` help:"the minimum duration for downloading a share from storage nodes before timing out" default:"5m0s" testDefault:"5s" `
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MaxReverifyCount int ` help:"limit above which we consider an audit is failed" default:"3" `
testplanet/satellite: reduce the number of places default values need to be configured
Satellites set their configuration values to default values using
cfgstruct, however, it turns out our tests don't test these values
at all! Instead, they have a completely separate definition system
that is easy to forget about.
As is to be expected, these values have drifted, and it appears
in a few cases test planet is testing unreasonable values that we
won't see in production, or perhaps worse, features enabled in
production were missed and weren't enabled in testplanet.
This change makes it so all values are configured the same,
systematic way, so it's easy to see when test values are different
than dev values or release values, and it's less hard to forget
to enable features in testplanet.
In terms of reviewing, this change should be actually fairly
easy to review, considering private/testplanet/satellite.go keeps
the current config system and the new one and confirms that they
result in identical configurations, so you can be certain that
nothing was missed and the config is all correct.
You can also check the config lock to see what actual config
values changed.
Change-Id: I6715d0794887f577e21742afcf56fd2b9d12170e
2021-05-31 22:15:00 +01:00
ChoreInterval time . Duration ` help:"how often to run the reservoir chore" releaseDefault:"24h" devDefault:"1m" testDefault:"$TESTINTERVAL" `
QueueInterval time . Duration ` help:"how often to recheck an empty audit queue" releaseDefault:"1h" devDefault:"1m" testDefault:"$TESTINTERVAL" `
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Slots int ` help:"number of reservoir slots allotted for nodes, currently capped at 3" default:"3" `
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WorkerConcurrency int ` help:"number of workers to run audits on segments" default:"2" `
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}
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// Worker contains information for populating audit queue and processing audits.
type Worker struct {
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log * zap . Logger
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queues * Queues
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verifier * Verifier
reporter * Reporter
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Loop * sync2 . Cycle
limiter * sync2 . Limiter
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}
// NewWorker instantiates Worker.
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func NewWorker ( log * zap . Logger , queues * Queues , verifier * Verifier , reporter * Reporter , config Config ) ( * Worker , error ) {
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return & Worker {
log : log ,
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queues : queues ,
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verifier : verifier ,
reporter : reporter ,
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Loop : sync2 . NewCycle ( config . QueueInterval ) ,
limiter : sync2 . NewLimiter ( config . WorkerConcurrency ) ,
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} , nil
}
// Run runs audit service 2.0.
func ( worker * Worker ) Run ( ctx context . Context ) ( err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
// Wait for all audits to run.
defer worker . limiter . Wait ( )
return worker . Loop . Run ( ctx , func ( ctx context . Context ) ( err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
err = worker . process ( ctx )
if err != nil {
worker . log . Error ( "process" , zap . Error ( Error . Wrap ( err ) ) )
}
return nil
} )
}
// Close halts the worker.
func ( worker * Worker ) Close ( ) error {
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worker . Loop . Close ( )
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return nil
}
// process repeatedly removes an item from the queue and runs an audit.
func ( worker * Worker ) process ( ctx context . Context ) ( err error ) {
defer mon . Task ( ) ( & ctx ) ( & err )
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// get the current queue
queue := worker . queues . Fetch ( )
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worker . limiter . Wait ( )
for {
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segment , err := queue . Next ( )
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if err != nil {
if ErrEmptyQueue . Has ( err ) {
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// get a new queue and return if empty; otherwise continue working.
queue = worker . queues . Fetch ( )
if queue . Size ( ) == 0 {
return nil
}
continue
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}
return err
}
worker . limiter . Go ( ctx , func ( ) {
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err := worker . work ( ctx , segment )
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if err != nil {
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worker . log . Error ( "error(s) during audit" ,
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zap . String ( "Segment StreamID" , segment . StreamID . String ( ) ) ,
zap . Uint64 ( "Segment Position" , segment . Position . Encode ( ) ) ,
zap . Error ( err ) )
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}
} )
}
}
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func ( worker * Worker ) work ( ctx context . Context , segment Segment ) ( err error ) {
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defer mon . Task ( ) ( & ctx ) ( & err )
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var errlist errs . Group
// First, attempt to reverify nodes for this segment that are in containment mode.
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report , err := worker . verifier . Reverify ( ctx , segment )
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if err != nil {
errlist . Add ( err )
}
// TODO(moby) we need to decide if we want to do something with nodes that the reporter failed to update
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_ , err = worker . reporter . RecordAudits ( ctx , report )
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if err != nil {
errlist . Add ( err )
}
// Skip all reverified nodes in the next Verify step.
skip := make ( map [ storj . NodeID ] bool )
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for _ , nodeID := range report . Successes {
skip [ nodeID ] = true
}
for _ , nodeID := range report . Offlines {
skip [ nodeID ] = true
}
for _ , nodeID := range report . Fails {
skip [ nodeID ] = true
}
for _ , pending := range report . PendingAudits {
skip [ pending . NodeID ] = true
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}
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for _ , nodeID := range report . Unknown {
skip [ nodeID ] = true
}
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// Next, audit the the remaining nodes that are not in containment mode.
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report , err = worker . verifier . Verify ( ctx , segment , skip )
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if err != nil {
errlist . Add ( err )
}
// TODO(moby) we need to decide if we want to do something with nodes that the reporter failed to update
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_ , err = worker . reporter . RecordAudits ( ctx , report )
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if err != nil {
errlist . Add ( err )
}
return errlist . Err ( )
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}
