open-vault/vault/activity_log_util_common.go

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// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: MPL-2.0
package vault
import (
"context"
"errors"
"fmt"
"io"
"sort"
"strings"
"time"
"github.com/axiomhq/hyperloglog"
"github.com/hashicorp/vault/helper/timeutil"
"github.com/hashicorp/vault/sdk/logical"
"github.com/hashicorp/vault/vault/activity"
"google.golang.org/protobuf/proto"
)
type HLLGetter func(ctx context.Context, startTime time.Time) (*hyperloglog.Sketch, error)
// computeCurrentMonthForBillingPeriod computes the current month's data with respect
// to a billing period.
func (a *ActivityLog) computeCurrentMonthForBillingPeriod(ctx context.Context, byMonth map[int64]*processMonth, startTime time.Time, endTime time.Time) (*activity.MonthRecord, error) {
return a.computeCurrentMonthForBillingPeriodInternal(ctx, byMonth, a.CreateOrFetchHyperlogLog, startTime, endTime)
}
// CreateOrFetchHyperlogLog creates a new hyperlogLog for each startTime (month) if it does not exist in storage.
// hyperlogLog is used here to solve count-distinct problem i.e, to count the number of distinct clients
// In activity log, hyperloglog is a sketch containing clientID's in a given month
func (a *ActivityLog) CreateOrFetchHyperlogLog(ctx context.Context, startTime time.Time) (*hyperloglog.Sketch, error) {
monthlyHLLPath := fmt.Sprintf("%s%d", distinctClientsBasePath, startTime.Unix())
hll := hyperloglog.New()
data, err := a.view.Get(ctx, monthlyHLLPath)
if err != nil {
// If there is no hll, we should log the error, as having this fire multiple times
// is a sign that something is wrong with hll store/get. However, this is not a
// critical failure (in fact it is expected during the first month rotation after
// this code is deployed), so we will not throw an error.
a.logger.Warn("fetch of hyperloglog threw an error at path", monthlyHLLPath, "error", err)
}
if data == nil {
a.logger.Trace("creating hyperloglog ", "path", monthlyHLLPath)
err = a.StoreHyperlogLog(ctx, startTime, hll)
if err != nil {
return hll, fmt.Errorf("error storing hyperloglog at path %s: error %w", monthlyHLLPath, err)
}
} else {
err = hll.UnmarshalBinary(data.Value)
if err != nil {
return hll, fmt.Errorf("error unmarshaling hyperloglog at path %s: error %w", monthlyHLLPath, err)
}
}
return hll, nil
}
// StoreHyperlogLog stores the hyperloglog (a sketch containing client IDs) for startTime (month) in storage
func (a *ActivityLog) StoreHyperlogLog(ctx context.Context, startTime time.Time, newHll *hyperloglog.Sketch) error {
monthlyHLLPath := fmt.Sprintf("%s%d", distinctClientsBasePath, startTime.Unix())
a.logger.Trace("storing hyperloglog ", "path", monthlyHLLPath)
marshalledHll, err := newHll.MarshalBinary()
if err != nil {
return err
}
err = a.view.Put(ctx, &logical.StorageEntry{
Key: monthlyHLLPath,
Value: marshalledHll,
})
if err != nil {
return err
}
return nil
}
func (a *ActivityLog) computeCurrentMonthForBillingPeriodInternal(ctx context.Context, byMonth map[int64]*processMonth, hllGetFunc HLLGetter, startTime time.Time, endTime time.Time) (*activity.MonthRecord, error) {
if timeutil.IsCurrentMonth(startTime, a.clock.Now().UTC()) {
2022-08-16 23:38:11 +00:00
monthlyComputation := a.transformMonthBreakdowns(byMonth)
if len(monthlyComputation) > 1 {
a.logger.Warn("monthly in-memory activitylog computation returned multiple months of data", "months returned", len(byMonth))
}
if len(monthlyComputation) > 0 {
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return monthlyComputation[0], nil
}
}
// Fetch all hyperloglogs for months from startMonth to endMonth. If a month doesn't have an associated
// hll, warn and continue.
// hllMonthlyTimestamp is the start time of the month corresponding to which a hyperloglog of that month's
// client data is stored. The path at which the hyperloglog for a month is stored containes this timestamp.
hllMonthlyTimestamp := timeutil.StartOfMonth(startTime)
billingPeriodHLL := hyperloglog.New()
for hllMonthlyTimestamp.Before(timeutil.StartOfMonth(endTime)) {
monthSketch, err := hllGetFunc(ctx, hllMonthlyTimestamp)
// If there's an error with the hyperloglog fetch, we should still deduplicate on
// the hlls that we have so we will warn that we couldn't find a hll for the month
// and continue.
if err != nil {
a.logger.Warn("no hyperloglog associated with timestamp", "timestamp", hllMonthlyTimestamp)
hllMonthlyTimestamp = timeutil.StartOfNextMonth(hllMonthlyTimestamp)
continue
}
// Union the monthly hll into the billing period's hll
err = billingPeriodHLL.Merge(monthSketch)
if err != nil {
// In this case we can't afford to fail silently. Since this error indicates
// data corruption, we should not try to do any further deduplication
return nil, err
}
hllMonthlyTimestamp = timeutil.StartOfNextMonth(hllMonthlyTimestamp)
}
// Now we will add the clients for the current month to a copy of the billing period's hll to
// see how the cardinality grows.
billingPeriodHLLWithCurrentMonthEntityClients := billingPeriodHLL.Clone()
billingPeriodHLLWithCurrentMonthNonEntityClients := billingPeriodHLL.Clone()
// There's at most one month of data here. We should validate this assumption explicitly
if len(byMonth) > 1 {
return nil, errors.New(fmt.Sprintf("multiple months of data found in partial month's client count breakdowns: %+v\n", byMonth))
}
totalEntities := 0
totalNonEntities := 0
for _, month := range byMonth {
if month.NewClients == nil || month.NewClients.Counts == nil || month.Counts == nil {
return nil, errors.New("malformed current month used to calculate current month's activity")
}
// Note that the following calculations assume that all clients seen are currently in
// the NewClients section of byMonth. It is best to explicitly check this, just verify
// our assumptions about the passed in byMonth argument.
if len(month.Counts.Entities) != len(month.NewClients.Counts.Entities) ||
len(month.Counts.NonEntities) != len(month.NewClients.Counts.NonEntities) {
return nil, errors.New("current month clients cache assumes billing period")
}
// All the clients for the current month are in the newClients section, initially.
// We need to deduplicate these clients across the billing period by adding them
// into the billing period hyperloglogs.
entities := month.NewClients.Counts.Entities
nonEntities := month.NewClients.Counts.NonEntities
if entities != nil {
for entityID := range entities {
billingPeriodHLLWithCurrentMonthEntityClients.Insert([]byte(entityID))
totalEntities += 1
}
}
if nonEntities != nil {
for nonEntityID := range nonEntities {
billingPeriodHLLWithCurrentMonthNonEntityClients.Insert([]byte(nonEntityID))
totalNonEntities += 1
}
}
}
// The number of new entities for the current month is approximately the size of the hll with
// the current month's entities minus the size of the initial billing period hll.
currentMonthNewEntities := billingPeriodHLLWithCurrentMonthEntityClients.Estimate() - billingPeriodHLL.Estimate()
currentMonthNewNonEntities := billingPeriodHLLWithCurrentMonthNonEntityClients.Estimate() - billingPeriodHLL.Estimate()
return &activity.MonthRecord{
Timestamp: timeutil.StartOfMonth(endTime).UTC().Unix(),
NewClients: &activity.NewClientRecord{Counts: &activity.CountsRecord{EntityClients: int(currentMonthNewEntities), NonEntityClients: int(currentMonthNewNonEntities)}},
Counts: &activity.CountsRecord{EntityClients: totalEntities, NonEntityClients: totalNonEntities},
}, nil
}
// sortALResponseNamespaces sorts the namespaces for activity log responses.
func (a *ActivityLog) sortALResponseNamespaces(byNamespaceResponse []*ResponseNamespace) {
sort.Slice(byNamespaceResponse, func(i, j int) bool {
return byNamespaceResponse[i].Counts.Clients > byNamespaceResponse[j].Counts.Clients
})
}
// transformALNamespaceBreakdowns takes the namespace breakdowns stored in the intermediary
// struct used in precomputation segment traversal and to store the current month data and
// reorganizes it into query structs. This helper is used by the partial month endpoint so as to
// not have to maintain two separate response data computations for two separate APIs.
func (a *ActivityLog) transformALNamespaceBreakdowns(nsData map[string]*processByNamespace) []*activity.NamespaceRecord {
byNamespace := make([]*activity.NamespaceRecord, 0)
for nsID, ns := range nsData {
nsRecord := activity.NamespaceRecord{
NamespaceID: nsID,
Entities: uint64(len(ns.Counts.Entities)),
NonEntityTokens: uint64(len(ns.Counts.NonEntities) + int(ns.Counts.Tokens)),
Mounts: a.transformActivityLogMounts(ns.Mounts),
}
byNamespace = append(byNamespace, &nsRecord)
}
return byNamespace
}
// limitNamespacesInALResponse will truncate the number of namespaces shown in the activity
// endpoints to the number specified in limitNamespaces (the API filtering parameter)
func (a *ActivityLog) limitNamespacesInALResponse(byNamespaceResponse []*ResponseNamespace, limitNamespaces int) (int, int, []*ResponseNamespace) {
if limitNamespaces > len(byNamespaceResponse) {
limitNamespaces = len(byNamespaceResponse)
}
byNamespaceResponse = byNamespaceResponse[:limitNamespaces]
// recalculate total entities and tokens
totalEntities := 0
totalTokens := 0
for _, namespaceData := range byNamespaceResponse {
totalEntities += namespaceData.Counts.DistinctEntities
totalTokens += namespaceData.Counts.NonEntityTokens
}
return totalEntities, totalTokens, byNamespaceResponse
}
// transformActivityLogMounts is a helper used to reformat data for transformMonthlyNamespaceBreakdowns.
// For more details, please see the function comment for transformMonthlyNamespaceBreakdowns
func (a *ActivityLog) transformActivityLogMounts(mts map[string]*processMount) []*activity.MountRecord {
mounts := make([]*activity.MountRecord, 0)
for mountAccessor, mountCounts := range mts {
mount := activity.MountRecord{
MountPath: a.mountAccessorToMountPath(mountAccessor),
Counts: &activity.CountsRecord{
EntityClients: len(mountCounts.Counts.Entities),
NonEntityClients: len(mountCounts.Counts.NonEntities) + int(mountCounts.Counts.Tokens),
},
}
mounts = append(mounts, &mount)
}
return mounts
}
// sortActivityLogMonthsResponse contains the sorting logic for the months
// portion of the activity log response.
func (a *ActivityLog) sortActivityLogMonthsResponse(months []*ResponseMonth) {
// Sort the months in ascending order of timestamps
sort.Slice(months, func(i, j int) bool {
firstTimestamp, errOne := time.Parse(time.RFC3339, months[i].Timestamp)
secondTimestamp, errTwo := time.Parse(time.RFC3339, months[j].Timestamp)
if errOne == nil && errTwo == nil {
return firstTimestamp.Before(secondTimestamp)
}
// Keep the nondeterministic ordering in storage
a.logger.Error("unable to parse activity log timestamps", "timestamp",
months[i].Timestamp, "error", errOne, "timestamp", months[j].Timestamp, "error", errTwo)
return i < j
})
// Within each month sort everything by descending order of activity
for _, month := range months {
sort.Slice(month.Namespaces, func(i, j int) bool {
return month.Namespaces[i].Counts.Clients > month.Namespaces[j].Counts.Clients
})
for _, ns := range month.Namespaces {
sort.Slice(ns.Mounts, func(i, j int) bool {
return ns.Mounts[i].Counts.Clients > ns.Mounts[j].Counts.Clients
})
}
sort.Slice(month.NewClients.Namespaces, func(i, j int) bool {
return month.NewClients.Namespaces[i].Counts.Clients > month.NewClients.Namespaces[j].Counts.Clients
})
for _, ns := range month.NewClients.Namespaces {
sort.Slice(ns.Mounts, func(i, j int) bool {
return ns.Mounts[i].Counts.Clients > ns.Mounts[j].Counts.Clients
})
}
}
}
const (
noMountAccessor = "no mount accessor (pre-1.10 upgrade?)"
deletedMountFmt = "deleted mount; accessor %q"
)
// mountAccessorToMountPath transforms the mount accessor to the mount path
// returns a placeholder string if the mount accessor is empty or deleted
func (a *ActivityLog) mountAccessorToMountPath(mountAccessor string) string {
var displayPath string
if mountAccessor == "" {
displayPath = noMountAccessor
} else {
valResp := a.core.router.ValidateMountByAccessor(mountAccessor)
if valResp == nil {
displayPath = fmt.Sprintf(deletedMountFmt, mountAccessor)
} else {
displayPath = valResp.MountPath
if !strings.HasSuffix(displayPath, "/") {
displayPath += "/"
}
}
}
return displayPath
}
type singleTypeSegmentReader struct {
basePath string
startTime time.Time
paths []string
currentPathIndex int
a *ActivityLog
}
type segmentReader struct {
tokens *singleTypeSegmentReader
entities *singleTypeSegmentReader
}
// SegmentReader is an interface that provides methods to read tokens and entities in order
type SegmentReader interface {
ReadToken(ctx context.Context) (*activity.TokenCount, error)
ReadEntity(ctx context.Context) (*activity.EntityActivityLog, error)
}
func (a *ActivityLog) NewSegmentFileReader(ctx context.Context, startTime time.Time) (SegmentReader, error) {
entities, err := a.newSingleTypeSegmentReader(ctx, startTime, activityEntityBasePath)
if err != nil {
return nil, err
}
tokens, err := a.newSingleTypeSegmentReader(ctx, startTime, activityTokenBasePath)
if err != nil {
return nil, err
}
return &segmentReader{entities: entities, tokens: tokens}, nil
}
func (a *ActivityLog) newSingleTypeSegmentReader(ctx context.Context, startTime time.Time, prefix string) (*singleTypeSegmentReader, error) {
basePath := prefix + fmt.Sprint(startTime.Unix()) + "/"
pathList, err := a.view.List(ctx, basePath)
if err != nil {
return nil, err
}
return &singleTypeSegmentReader{
basePath: basePath,
startTime: startTime,
paths: pathList,
currentPathIndex: 0,
a: a,
}, nil
}
func (s *singleTypeSegmentReader) nextValue(ctx context.Context, out proto.Message) error {
var raw *logical.StorageEntry
var path string
for raw == nil {
if s.currentPathIndex >= len(s.paths) {
return io.EOF
}
path = s.paths[s.currentPathIndex]
// increment the index to continue iterating for the next read call, even if an error occurs during this call
s.currentPathIndex++
var err error
raw, err = s.a.view.Get(ctx, s.basePath+path)
if err != nil {
return err
}
if raw == nil {
s.a.logger.Warn("expected log segment file has been deleted", "startTime", s.startTime, "segmentPath", path)
}
}
err := proto.Unmarshal(raw.Value, out)
if err != nil {
return fmt.Errorf("unable to parse segment file %v%v: %w", s.basePath, path, err)
}
return nil
}
// ReadToken reads a token from the segment
// If there is none available, then the error will be io.EOF
func (e *segmentReader) ReadToken(ctx context.Context) (*activity.TokenCount, error) {
out := &activity.TokenCount{}
err := e.tokens.nextValue(ctx, out)
if err != nil {
return nil, err
}
return out, nil
}
// ReadEntity reads an entity from the segment
// If there is none available, then the error will be io.EOF
func (e *segmentReader) ReadEntity(ctx context.Context) (*activity.EntityActivityLog, error) {
out := &activity.EntityActivityLog{}
err := e.entities.nextValue(ctx, out)
if err != nil {
return nil, err
}
return out, nil
}