crowdsec/pkg/database/alerts.go
2023-12-18 09:35:28 +01:00

1217 lines
35 KiB
Go

package database
import (
"context"
"encoding/json"
"fmt"
"sort"
"strconv"
"strings"
"time"
"github.com/mattn/go-sqlite3"
"github.com/davecgh/go-spew/spew"
"github.com/pkg/errors"
log "github.com/sirupsen/logrus"
"github.com/crowdsecurity/go-cs-lib/slicetools"
"github.com/crowdsecurity/crowdsec/pkg/database/ent"
"github.com/crowdsecurity/crowdsec/pkg/database/ent/alert"
"github.com/crowdsecurity/crowdsec/pkg/database/ent/decision"
"github.com/crowdsecurity/crowdsec/pkg/database/ent/event"
"github.com/crowdsecurity/crowdsec/pkg/database/ent/meta"
"github.com/crowdsecurity/crowdsec/pkg/database/ent/predicate"
"github.com/crowdsecurity/crowdsec/pkg/models"
"github.com/crowdsecurity/crowdsec/pkg/types"
)
const (
paginationSize = 100 // used to queryAlert to avoid 'too many SQL variable'
defaultLimit = 100 // default limit of element to returns when query alerts
bulkSize = 50 // bulk size when create alerts
maxLockRetries = 10 // how many times to retry a bulk operation when sqlite3.ErrBusy is encountered
)
func formatAlertCN(source models.Source) string {
cn := source.Cn
if source.AsNumber != "" {
cn += "/" + source.AsNumber
}
return cn
}
func formatAlertSource(alert *models.Alert) string {
if alert.Source == nil || alert.Source.Scope == nil || *alert.Source.Scope == "" {
return "empty source"
}
if *alert.Source.Scope == types.Ip {
ret := "ip " + *alert.Source.Value
cn := formatAlertCN(*alert.Source)
if cn != "" {
ret += " (" + cn + ")"
}
return ret
}
if *alert.Source.Scope == types.Range {
ret := "range " + *alert.Source.Value
cn := formatAlertCN(*alert.Source)
if cn != "" {
ret += " (" + cn + ")"
}
return ret
}
return *alert.Source.Scope + " " + *alert.Source.Value
}
func formatAlertAsString(machineID string, alert *models.Alert) []string {
src := formatAlertSource(alert)
/**/
msg := ""
if alert.Scenario != nil && *alert.Scenario != "" {
msg = *alert.Scenario
} else if alert.Message != nil && *alert.Message != "" {
msg = *alert.Message
} else {
msg = "empty scenario"
}
reason := fmt.Sprintf("%s by %s", msg, src)
if len(alert.Decisions) == 0 {
return []string{fmt.Sprintf("(%s) alert : %s", machineID, reason)}
}
var retStr []string
if alert.Decisions[0].Origin != nil && *alert.Decisions[0].Origin == types.CscliImportOrigin {
return []string{fmt.Sprintf("(%s) alert : %s", machineID, reason)}
}
for i, decisionItem := range alert.Decisions {
decision := ""
if alert.Simulated != nil && *alert.Simulated {
decision = "(simulated alert)"
} else if decisionItem.Simulated != nil && *decisionItem.Simulated {
decision = "(simulated decision)"
}
if log.GetLevel() >= log.DebugLevel {
/*spew is expensive*/
log.Debugf("%s", spew.Sdump(decisionItem))
}
if len(alert.Decisions) > 1 {
reason = fmt.Sprintf("%s for %d/%d decisions", msg, i+1, len(alert.Decisions))
}
machineIDOrigin := ""
if machineID == "" {
machineIDOrigin = *decisionItem.Origin
} else {
machineIDOrigin = fmt.Sprintf("%s/%s", machineID, *decisionItem.Origin)
}
decision += fmt.Sprintf("%s %s on %s %s", *decisionItem.Duration,
*decisionItem.Type, *decisionItem.Scope, *decisionItem.Value)
retStr = append(retStr,
fmt.Sprintf("(%s) %s : %s", machineIDOrigin, reason, decision))
}
return retStr
}
// CreateOrUpdateAlert is specific to PAPI : It checks if alert already exists, otherwise inserts it
// if alert already exists, it checks it associated decisions already exists
// if some associated decisions are missing (ie. previous insert ended up in error) it inserts them
func (c *Client) CreateOrUpdateAlert(machineID string, alertItem *models.Alert) (string, error) {
if alertItem.UUID == "" {
return "", fmt.Errorf("alert UUID is empty")
}
alerts, err := c.Ent.Alert.Query().Where(alert.UUID(alertItem.UUID)).WithDecisions().All(c.CTX)
if err != nil && !ent.IsNotFound(err) {
return "", fmt.Errorf("unable to query alerts for uuid %s: %w", alertItem.UUID, err)
}
//alert wasn't found, insert it (expected hotpath)
if ent.IsNotFound(err) || len(alerts) == 0 {
alertIDs, err := c.CreateAlert(machineID, []*models.Alert{alertItem})
if err != nil {
return "", fmt.Errorf("unable to create alert: %w", err)
}
return alertIDs[0], nil
}
//this should never happen
if len(alerts) > 1 {
return "", fmt.Errorf("multiple alerts found for uuid %s", alertItem.UUID)
}
log.Infof("Alert %s already exists, checking associated decisions", alertItem.UUID)
//alert is found, check for any missing decisions
newUuids := make([]string, len(alertItem.Decisions))
for i, decItem := range alertItem.Decisions {
newUuids[i] = decItem.UUID
}
foundAlert := alerts[0]
foundUuids := make([]string, len(foundAlert.Edges.Decisions))
for i, decItem := range foundAlert.Edges.Decisions {
foundUuids[i] = decItem.UUID
}
sort.Strings(foundUuids)
sort.Strings(newUuids)
missingUuids := []string{}
for idx, uuid := range newUuids {
if len(foundUuids) < idx+1 || uuid != foundUuids[idx] {
log.Warningf("Decision with uuid %s not found in alert %s", uuid, foundAlert.UUID)
missingUuids = append(missingUuids, uuid)
}
}
if len(missingUuids) == 0 {
log.Warningf("alert %s was already complete with decisions %+v", alertItem.UUID, foundUuids)
return "", nil
}
// add any and all missing decisions based on their uuids
// prepare missing decisions
missingDecisions := []*models.Decision{}
for _, uuid := range missingUuids {
for _, newDecision := range alertItem.Decisions {
if newDecision.UUID == uuid {
missingDecisions = append(missingDecisions, newDecision)
}
}
}
//add missing decisions
log.Debugf("Adding %d missing decisions to alert %s", len(missingDecisions), foundAlert.UUID)
decisionBuilders := make([]*ent.DecisionCreate, len(missingDecisions))
for i, decisionItem := range missingDecisions {
var start_ip, start_sfx, end_ip, end_sfx int64
var sz int
/*if the scope is IP or Range, convert the value to integers */
if strings.ToLower(*decisionItem.Scope) == "ip" || strings.ToLower(*decisionItem.Scope) == "range" {
sz, start_ip, start_sfx, end_ip, end_sfx, err = types.Addr2Ints(*decisionItem.Value)
if err != nil {
return "", errors.Wrapf(InvalidIPOrRange, "invalid addr/range %s : %s", *decisionItem.Value, err)
}
}
decisionDuration, err := time.ParseDuration(*decisionItem.Duration)
if err != nil {
log.Warningf("invalid duration %s for decision %s", *decisionItem.Duration, decisionItem.UUID)
continue
}
//use the created_at from the alert instead
alertTime, err := time.Parse(time.RFC3339, alertItem.CreatedAt)
if err != nil {
log.Errorf("unable to parse alert time %s : %s", alertItem.CreatedAt, err)
alertTime = time.Now()
}
decisionUntil := alertTime.UTC().Add(decisionDuration)
decisionBuilder := c.Ent.Decision.Create().
SetUntil(decisionUntil).
SetScenario(*decisionItem.Scenario).
SetType(*decisionItem.Type).
SetStartIP(start_ip).
SetStartSuffix(start_sfx).
SetEndIP(end_ip).
SetEndSuffix(end_sfx).
SetIPSize(int64(sz)).
SetValue(*decisionItem.Value).
SetScope(*decisionItem.Scope).
SetOrigin(*decisionItem.Origin).
SetSimulated(*alertItem.Simulated).
SetUUID(decisionItem.UUID)
decisionBuilders[i] = decisionBuilder
}
decisions := []*ent.Decision{}
builderChunks := slicetools.Chunks(decisionBuilders, c.decisionBulkSize)
for _, builderChunk := range builderChunks {
decisionsCreateRet, err := c.Ent.Decision.CreateBulk(builderChunk...).Save(c.CTX)
if err != nil {
return "", fmt.Errorf("creating alert decisions: %w", err)
}
decisions = append(decisions, decisionsCreateRet...)
}
//now that we bulk created missing decisions, let's update the alert
decisionChunks := slicetools.Chunks(decisions, c.decisionBulkSize)
for _, decisionChunk := range decisionChunks {
err = c.Ent.Alert.Update().Where(alert.UUID(alertItem.UUID)).AddDecisions(decisionChunk...).Exec(c.CTX)
if err != nil {
return "", fmt.Errorf("updating alert %s: %w", alertItem.UUID, err)
}
}
return "", nil
}
// UpdateCommunityBlocklist is called to update either the community blocklist (or other lists the user subscribed to)
// it takes care of creating the new alert with the associated decisions, and it will as well deleted the "older" overlapping decisions:
// 1st pull, you get decisions [1,2,3]. it inserts [1,2,3]
// 2nd pull, you get decisions [1,2,3,4]. it inserts [1,2,3,4] and will try to delete [1,2,3,4] with a different alert ID and same origin
func (c *Client) UpdateCommunityBlocklist(alertItem *models.Alert) (int, int, int, error) {
if alertItem == nil {
return 0, 0, 0, fmt.Errorf("nil alert")
}
if alertItem.StartAt == nil {
return 0, 0, 0, fmt.Errorf("nil start_at")
}
startAtTime, err := time.Parse(time.RFC3339, *alertItem.StartAt)
if err != nil {
return 0, 0, 0, errors.Wrapf(ParseTimeFail, "start_at field time '%s': %s", *alertItem.StartAt, err)
}
if alertItem.StopAt == nil {
return 0, 0, 0, fmt.Errorf("nil stop_at")
}
stopAtTime, err := time.Parse(time.RFC3339, *alertItem.StopAt)
if err != nil {
return 0, 0, 0, errors.Wrapf(ParseTimeFail, "stop_at field time '%s': %s", *alertItem.StopAt, err)
}
ts, err := time.Parse(time.RFC3339, *alertItem.StopAt)
if err != nil {
c.Log.Errorf("While parsing StartAt of item %s : %s", *alertItem.StopAt, err)
ts = time.Now().UTC()
}
alertB := c.Ent.Alert.
Create().
SetScenario(*alertItem.Scenario).
SetMessage(*alertItem.Message).
SetEventsCount(*alertItem.EventsCount).
SetStartedAt(startAtTime).
SetStoppedAt(stopAtTime).
SetSourceScope(*alertItem.Source.Scope).
SetSourceValue(*alertItem.Source.Value).
SetSourceIp(alertItem.Source.IP).
SetSourceRange(alertItem.Source.Range).
SetSourceAsNumber(alertItem.Source.AsNumber).
SetSourceAsName(alertItem.Source.AsName).
SetSourceCountry(alertItem.Source.Cn).
SetSourceLatitude(alertItem.Source.Latitude).
SetSourceLongitude(alertItem.Source.Longitude).
SetCapacity(*alertItem.Capacity).
SetLeakSpeed(*alertItem.Leakspeed).
SetSimulated(*alertItem.Simulated).
SetScenarioVersion(*alertItem.ScenarioVersion).
SetScenarioHash(*alertItem.ScenarioHash)
alertRef, err := alertB.Save(c.CTX)
if err != nil {
return 0, 0, 0, errors.Wrapf(BulkError, "error creating alert : %s", err)
}
if len(alertItem.Decisions) == 0 {
return alertRef.ID, 0, 0, nil
}
txClient, err := c.Ent.Tx(c.CTX)
if err != nil {
return 0, 0, 0, errors.Wrapf(BulkError, "error creating transaction : %s", err)
}
DecOrigin := CapiMachineID
if *alertItem.Decisions[0].Origin == CapiMachineID || *alertItem.Decisions[0].Origin == CapiListsMachineID {
DecOrigin = *alertItem.Decisions[0].Origin
} else {
log.Warningf("unexpected origin %s", *alertItem.Decisions[0].Origin)
}
deleted := 0
inserted := 0
decisionBuilders := make([]*ent.DecisionCreate, 0, len(alertItem.Decisions))
valueList := make([]string, 0, len(alertItem.Decisions))
for _, decisionItem := range alertItem.Decisions {
var start_ip, start_sfx, end_ip, end_sfx int64
var sz int
if decisionItem.Duration == nil {
log.Warning("nil duration in community decision")
continue
}
duration, err := time.ParseDuration(*decisionItem.Duration)
if err != nil {
rollbackErr := txClient.Rollback()
if rollbackErr != nil {
log.Errorf("rollback error: %s", rollbackErr)
}
return 0, 0, 0, errors.Wrapf(ParseDurationFail, "decision duration '%+v' : %s", *decisionItem.Duration, err)
}
if decisionItem.Scope == nil {
log.Warning("nil scope in community decision")
continue
}
/*if the scope is IP or Range, convert the value to integers */
if strings.ToLower(*decisionItem.Scope) == "ip" || strings.ToLower(*decisionItem.Scope) == "range" {
sz, start_ip, start_sfx, end_ip, end_sfx, err = types.Addr2Ints(*decisionItem.Value)
if err != nil {
rollbackErr := txClient.Rollback()
if rollbackErr != nil {
log.Errorf("rollback error: %s", rollbackErr)
}
return 0, 0, 0, errors.Wrapf(InvalidIPOrRange, "invalid addr/range %s : %s", *decisionItem.Value, err)
}
}
/*bulk insert some new decisions*/
decisionBuilder := c.Ent.Decision.Create().
SetUntil(ts.Add(duration)).
SetScenario(*decisionItem.Scenario).
SetType(*decisionItem.Type).
SetStartIP(start_ip).
SetStartSuffix(start_sfx).
SetEndIP(end_ip).
SetEndSuffix(end_sfx).
SetIPSize(int64(sz)).
SetValue(*decisionItem.Value).
SetScope(*decisionItem.Scope).
SetOrigin(*decisionItem.Origin).
SetSimulated(*alertItem.Simulated).
SetOwner(alertRef)
decisionBuilders = append(decisionBuilders, decisionBuilder)
/*for bulk delete of duplicate decisions*/
if decisionItem.Value == nil {
log.Warning("nil value in community decision")
continue
}
valueList = append(valueList, *decisionItem.Value)
}
deleteChunks := slicetools.Chunks(valueList, c.decisionBulkSize)
for _, deleteChunk := range deleteChunks {
// Deleting older decisions from capi
deletedDecisions, err := txClient.Decision.Delete().
Where(decision.And(
decision.OriginEQ(DecOrigin),
decision.Not(decision.HasOwnerWith(alert.IDEQ(alertRef.ID))),
decision.ValueIn(deleteChunk...),
)).Exec(c.CTX)
if err != nil {
rollbackErr := txClient.Rollback()
if rollbackErr != nil {
log.Errorf("rollback error: %s", rollbackErr)
}
return 0, 0, 0, fmt.Errorf("while deleting older community blocklist decisions: %w", err)
}
deleted += deletedDecisions
}
builderChunks := slicetools.Chunks(decisionBuilders, c.decisionBulkSize)
for _, builderChunk := range builderChunks {
insertedDecisions, err := txClient.Decision.CreateBulk(builderChunk...).Save(c.CTX)
if err != nil {
rollbackErr := txClient.Rollback()
if rollbackErr != nil {
log.Errorf("rollback error: %s", rollbackErr)
}
return 0, 0, 0, fmt.Errorf("while bulk creating decisions: %w", err)
}
inserted += len(insertedDecisions)
}
log.Debugf("deleted %d decisions for %s vs %s", deleted, DecOrigin, *alertItem.Decisions[0].Origin)
err = txClient.Commit()
if err != nil {
rollbackErr := txClient.Rollback()
if rollbackErr != nil {
log.Errorf("rollback error: %s", rollbackErr)
}
return 0, 0, 0, fmt.Errorf("error committing transaction: %w", err)
}
return alertRef.ID, inserted, deleted, nil
}
func (c *Client) createDecisionChunk(simulated bool, stopAtTime time.Time, decisions []*models.Decision) ([]*ent.Decision, error) {
decisionCreate := make([]*ent.DecisionCreate, len(decisions))
for i, decisionItem := range decisions {
var start_ip, start_sfx, end_ip, end_sfx int64
var sz int
duration, err := time.ParseDuration(*decisionItem.Duration)
if err != nil {
return nil, errors.Wrapf(ParseDurationFail, "decision duration '%+v' : %s", *decisionItem.Duration, err)
}
/*if the scope is IP or Range, convert the value to integers */
if strings.ToLower(*decisionItem.Scope) == "ip" || strings.ToLower(*decisionItem.Scope) == "range" {
sz, start_ip, start_sfx, end_ip, end_sfx, err = types.Addr2Ints(*decisionItem.Value)
if err != nil {
return nil, fmt.Errorf("%s: %w", *decisionItem.Value, InvalidIPOrRange)
}
}
newDecision := c.Ent.Decision.Create().
SetUntil(stopAtTime.Add(duration)).
SetScenario(*decisionItem.Scenario).
SetType(*decisionItem.Type).
SetStartIP(start_ip).
SetStartSuffix(start_sfx).
SetEndIP(end_ip).
SetEndSuffix(end_sfx).
SetIPSize(int64(sz)).
SetValue(*decisionItem.Value).
SetScope(*decisionItem.Scope).
SetOrigin(*decisionItem.Origin).
SetSimulated(simulated).
SetUUID(decisionItem.UUID)
decisionCreate[i] = newDecision
}
ret, err := c.Ent.Decision.CreateBulk(decisionCreate...).Save(c.CTX)
if err != nil {
return nil, err
}
return ret, nil
}
func (c *Client) createAlertChunk(machineID string, owner *ent.Machine, alerts []*models.Alert) ([]string, error) {
alertBuilders := make([]*ent.AlertCreate, len(alerts))
alertDecisions := make([][]*ent.Decision, len(alerts))
for i, alertItem := range alerts {
var metas []*ent.Meta
var events []*ent.Event
startAtTime, err := time.Parse(time.RFC3339, *alertItem.StartAt)
if err != nil {
c.Log.Errorf("CreateAlertBulk: Failed to parse startAtTime '%s', defaulting to now: %s", *alertItem.StartAt, err)
startAtTime = time.Now().UTC()
}
stopAtTime, err := time.Parse(time.RFC3339, *alertItem.StopAt)
if err != nil {
c.Log.Errorf("CreateAlertBulk: Failed to parse stopAtTime '%s', defaulting to now: %s", *alertItem.StopAt, err)
stopAtTime = time.Now().UTC()
}
/*display proper alert in logs*/
for _, disp := range formatAlertAsString(machineID, alertItem) {
c.Log.Info(disp)
}
//let's track when we strip or drop data, notify outside of loop to avoid spam
stripped := false
dropped := false
if len(alertItem.Events) > 0 {
eventBulk := make([]*ent.EventCreate, len(alertItem.Events))
for i, eventItem := range alertItem.Events {
ts, err := time.Parse(time.RFC3339, *eventItem.Timestamp)
if err != nil {
c.Log.Errorf("CreateAlertBulk: Failed to parse event timestamp '%s', defaulting to now: %s", *eventItem.Timestamp, err)
ts = time.Now().UTC()
}
marshallMetas, err := json.Marshal(eventItem.Meta)
if err != nil {
return nil, errors.Wrapf(MarshalFail, "event meta '%v' : %s", eventItem.Meta, err)
}
//the serialized field is too big, let's try to progressively strip it
if event.SerializedValidator(string(marshallMetas)) != nil {
stripped = true
valid := false
stripSize := 2048
for !valid && stripSize > 0 {
for _, serializedItem := range eventItem.Meta {
if len(serializedItem.Value) > stripSize*2 {
serializedItem.Value = serializedItem.Value[:stripSize] + "<stripped>"
}
}
marshallMetas, err = json.Marshal(eventItem.Meta)
if err != nil {
return nil, errors.Wrapf(MarshalFail, "event meta '%v' : %s", eventItem.Meta, err)
}
if event.SerializedValidator(string(marshallMetas)) == nil {
valid = true
}
stripSize /= 2
}
//nothing worked, drop it
if !valid {
dropped = true
stripped = false
marshallMetas = []byte("")
}
}
eventBulk[i] = c.Ent.Event.Create().
SetTime(ts).
SetSerialized(string(marshallMetas))
}
if stripped {
c.Log.Warningf("stripped 'serialized' field (machine %s / scenario %s)", machineID, *alertItem.Scenario)
}
if dropped {
c.Log.Warningf("dropped 'serialized' field (machine %s / scenario %s)", machineID, *alertItem.Scenario)
}
events, err = c.Ent.Event.CreateBulk(eventBulk...).Save(c.CTX)
if err != nil {
return nil, errors.Wrapf(BulkError, "creating alert events: %s", err)
}
}
if len(alertItem.Meta) > 0 {
metaBulk := make([]*ent.MetaCreate, len(alertItem.Meta))
for i, metaItem := range alertItem.Meta {
metaBulk[i] = c.Ent.Meta.Create().
SetKey(metaItem.Key).
SetValue(metaItem.Value)
}
metas, err = c.Ent.Meta.CreateBulk(metaBulk...).Save(c.CTX)
if err != nil {
return nil, errors.Wrapf(BulkError, "creating alert meta: %s", err)
}
}
decisions := []*ent.Decision{}
decisionChunks := slicetools.Chunks(alertItem.Decisions, c.decisionBulkSize)
for _, decisionChunk := range decisionChunks {
decisionRet, err := c.createDecisionChunk(*alertItem.Simulated, stopAtTime, decisionChunk)
if err != nil {
return nil, fmt.Errorf("creating alert decisions: %w", err)
}
decisions = append(decisions, decisionRet...)
}
alertBuilder := c.Ent.Alert.
Create().
SetScenario(*alertItem.Scenario).
SetMessage(*alertItem.Message).
SetEventsCount(*alertItem.EventsCount).
SetStartedAt(startAtTime).
SetStoppedAt(stopAtTime).
SetSourceScope(*alertItem.Source.Scope).
SetSourceValue(*alertItem.Source.Value).
SetSourceIp(alertItem.Source.IP).
SetSourceRange(alertItem.Source.Range).
SetSourceAsNumber(alertItem.Source.AsNumber).
SetSourceAsName(alertItem.Source.AsName).
SetSourceCountry(alertItem.Source.Cn).
SetSourceLatitude(alertItem.Source.Latitude).
SetSourceLongitude(alertItem.Source.Longitude).
SetCapacity(*alertItem.Capacity).
SetLeakSpeed(*alertItem.Leakspeed).
SetSimulated(*alertItem.Simulated).
SetScenarioVersion(*alertItem.ScenarioVersion).
SetScenarioHash(*alertItem.ScenarioHash).
SetUUID(alertItem.UUID).
AddEvents(events...).
AddMetas(metas...)
if owner != nil {
alertBuilder.SetOwner(owner)
}
alertBuilders[i] = alertBuilder
alertDecisions[i] = decisions
}
alertsCreateBulk, err := c.Ent.Alert.CreateBulk(alertBuilders...).Save(c.CTX)
if err != nil {
return nil, errors.Wrapf(BulkError, "bulk creating alert : %s", err)
}
ret := make([]string, len(alertsCreateBulk))
for i, a := range alertsCreateBulk {
ret[i] = strconv.Itoa(a.ID)
d := alertDecisions[i]
decisionsChunk := slicetools.Chunks(d, c.decisionBulkSize)
for _, d2 := range decisionsChunk {
retry := 0
for retry < maxLockRetries {
// so much for the happy path... but sqlite3 errors work differently
_, err := c.Ent.Alert.Update().Where(alert.IDEQ(a.ID)).AddDecisions(d2...).Save(c.CTX)
if err == nil {
break
}
if sqliteErr, ok := err.(sqlite3.Error); ok {
if sqliteErr.Code == sqlite3.ErrBusy {
// sqlite3.Error{
// Code: 5,
// ExtendedCode: 5,
// SystemErrno: 0,
// err: "database is locked",
// }
retry++
log.Warningf("while updating decisions, sqlite3.ErrBusy: %s, retry %d of %d", err, retry, maxLockRetries)
time.Sleep(1 * time.Second)
continue
}
}
return nil, fmt.Errorf("error while updating decisions: %w", err)
}
}
}
return ret, nil
}
func (c *Client) CreateAlert(machineID string, alertList []*models.Alert) ([]string, error) {
var owner *ent.Machine
var err error
if machineID != "" {
owner, err = c.QueryMachineByID(machineID)
if err != nil {
if !errors.Is(err, UserNotExists) {
return nil, fmt.Errorf("machine '%s': %w", machineID, err)
}
c.Log.Debugf("CreateAlertBulk: Machine Id %s doesn't exist", machineID)
owner = nil
}
}
c.Log.Debugf("writing %d items", len(alertList))
alertChunks := slicetools.Chunks(alertList, bulkSize)
alertIDs := []string{}
for _, alertChunk := range alertChunks {
ids, err := c.createAlertChunk(machineID, owner, alertChunk)
if err != nil {
return nil, fmt.Errorf("machine '%s': %w", machineID, err)
}
alertIDs = append(alertIDs, ids...)
}
return alertIDs, nil
}
func AlertPredicatesFromFilter(filter map[string][]string) ([]predicate.Alert, error) {
predicates := make([]predicate.Alert, 0)
var err error
var start_ip, start_sfx, end_ip, end_sfx int64
var hasActiveDecision bool
var ip_sz int
var contains = true
/*if contains is true, return bans that *contains* the given value (value is the inner)
else, return bans that are *contained* by the given value (value is the outer)*/
/*the simulated filter is a bit different : if it's not present *or* set to false, specifically exclude records with simulated to true */
if v, ok := filter["simulated"]; ok {
if v[0] == "false" {
predicates = append(predicates, alert.SimulatedEQ(false))
}
}
if _, ok := filter["origin"]; ok {
filter["include_capi"] = []string{"true"}
}
for param, value := range filter {
switch param {
case "contains":
contains, err = strconv.ParseBool(value[0])
if err != nil {
return nil, errors.Wrapf(InvalidFilter, "invalid contains value : %s", err)
}
case "scope":
var scope = value[0]
if strings.ToLower(scope) == "ip" {
scope = types.Ip
} else if strings.ToLower(scope) == "range" {
scope = types.Range
}
predicates = append(predicates, alert.SourceScopeEQ(scope))
case "value":
predicates = append(predicates, alert.SourceValueEQ(value[0]))
case "scenario":
predicates = append(predicates, alert.HasDecisionsWith(decision.ScenarioEQ(value[0])))
case "ip", "range":
ip_sz, start_ip, start_sfx, end_ip, end_sfx, err = types.Addr2Ints(value[0])
if err != nil {
return nil, errors.Wrapf(InvalidIPOrRange, "unable to convert '%s' to int: %s", value[0], err)
}
case "since":
duration, err := ParseDuration(value[0])
if err != nil {
return nil, fmt.Errorf("while parsing duration: %w", err)
}
since := time.Now().UTC().Add(-duration)
if since.IsZero() {
return nil, fmt.Errorf("empty time now() - %s", since.String())
}
predicates = append(predicates, alert.StartedAtGTE(since))
case "created_before":
duration, err := ParseDuration(value[0])
if err != nil {
return nil, fmt.Errorf("while parsing duration: %w", err)
}
since := time.Now().UTC().Add(-duration)
if since.IsZero() {
return nil, fmt.Errorf("empty time now() - %s", since.String())
}
predicates = append(predicates, alert.CreatedAtLTE(since))
case "until":
duration, err := ParseDuration(value[0])
if err != nil {
return nil, fmt.Errorf("while parsing duration: %w", err)
}
until := time.Now().UTC().Add(-duration)
if until.IsZero() {
return nil, fmt.Errorf("empty time now() - %s", until.String())
}
predicates = append(predicates, alert.StartedAtLTE(until))
case "decision_type":
predicates = append(predicates, alert.HasDecisionsWith(decision.TypeEQ(value[0])))
case "origin":
predicates = append(predicates, alert.HasDecisionsWith(decision.OriginEQ(value[0])))
case "include_capi": //allows to exclude one or more specific origins
if value[0] == "false" {
predicates = append(predicates, alert.And(
//do not show alerts with active decisions having origin CAPI or lists
alert.And(
alert.Not(alert.HasDecisionsWith(decision.OriginEQ(types.CAPIOrigin))),
alert.Not(alert.HasDecisionsWith(decision.OriginEQ(types.ListOrigin))),
),
alert.Not(
alert.And(
//do not show neither alerts with no decisions if the Source Scope is lists: or CAPI
alert.Not(alert.HasDecisions()),
alert.Or(
alert.SourceScopeHasPrefix(types.ListOrigin+":"),
alert.SourceScopeEQ(types.CommunityBlocklistPullSourceScope),
),
),
),
),
)
} else if value[0] != "true" {
log.Errorf("Invalid bool '%s' for include_capi", value[0])
}
case "has_active_decision":
if hasActiveDecision, err = strconv.ParseBool(value[0]); err != nil {
return nil, errors.Wrapf(ParseType, "'%s' is not a boolean: %s", value[0], err)
}
if hasActiveDecision {
predicates = append(predicates, alert.HasDecisionsWith(decision.UntilGTE(time.Now().UTC())))
} else {
predicates = append(predicates, alert.Not(alert.HasDecisions()))
}
case "limit":
continue
case "sort":
continue
case "simulated":
continue
case "with_decisions":
continue
default:
return nil, errors.Wrapf(InvalidFilter, "Filter parameter '%s' is unknown (=%s)", param, value[0])
}
}
if ip_sz == 4 {
if contains { /*decision contains {start_ip,end_ip}*/
predicates = append(predicates, alert.And(
alert.HasDecisionsWith(decision.StartIPLTE(start_ip)),
alert.HasDecisionsWith(decision.EndIPGTE(end_ip)),
alert.HasDecisionsWith(decision.IPSizeEQ(int64(ip_sz))),
))
} else { /*decision is contained within {start_ip,end_ip}*/
predicates = append(predicates, alert.And(
alert.HasDecisionsWith(decision.StartIPGTE(start_ip)),
alert.HasDecisionsWith(decision.EndIPLTE(end_ip)),
alert.HasDecisionsWith(decision.IPSizeEQ(int64(ip_sz))),
))
}
} else if ip_sz == 16 {
if contains { /*decision contains {start_ip,end_ip}*/
predicates = append(predicates, alert.And(
//matching addr size
alert.HasDecisionsWith(decision.IPSizeEQ(int64(ip_sz))),
alert.Or(
//decision.start_ip < query.start_ip
alert.HasDecisionsWith(decision.StartIPLT(start_ip)),
alert.And(
//decision.start_ip == query.start_ip
alert.HasDecisionsWith(decision.StartIPEQ(start_ip)),
//decision.start_suffix <= query.start_suffix
alert.HasDecisionsWith(decision.StartSuffixLTE(start_sfx)),
)),
alert.Or(
//decision.end_ip > query.end_ip
alert.HasDecisionsWith(decision.EndIPGT(end_ip)),
alert.And(
//decision.end_ip == query.end_ip
alert.HasDecisionsWith(decision.EndIPEQ(end_ip)),
//decision.end_suffix >= query.end_suffix
alert.HasDecisionsWith(decision.EndSuffixGTE(end_sfx)),
),
),
))
} else { /*decision is contained within {start_ip,end_ip}*/
predicates = append(predicates, alert.And(
//matching addr size
alert.HasDecisionsWith(decision.IPSizeEQ(int64(ip_sz))),
alert.Or(
//decision.start_ip > query.start_ip
alert.HasDecisionsWith(decision.StartIPGT(start_ip)),
alert.And(
//decision.start_ip == query.start_ip
alert.HasDecisionsWith(decision.StartIPEQ(start_ip)),
//decision.start_suffix >= query.start_suffix
alert.HasDecisionsWith(decision.StartSuffixGTE(start_sfx)),
)),
alert.Or(
//decision.end_ip < query.end_ip
alert.HasDecisionsWith(decision.EndIPLT(end_ip)),
alert.And(
//decision.end_ip == query.end_ip
alert.HasDecisionsWith(decision.EndIPEQ(end_ip)),
//decision.end_suffix <= query.end_suffix
alert.HasDecisionsWith(decision.EndSuffixLTE(end_sfx)),
),
),
))
}
} else if ip_sz != 0 {
return nil, errors.Wrapf(InvalidFilter, "Unknown ip size %d", ip_sz)
}
return predicates, nil
}
func BuildAlertRequestFromFilter(alerts *ent.AlertQuery, filter map[string][]string) (*ent.AlertQuery, error) {
preds, err := AlertPredicatesFromFilter(filter)
if err != nil {
return nil, err
}
return alerts.Where(preds...), nil
}
func (c *Client) AlertsCountPerScenario(filters map[string][]string) (map[string]int, error) {
var res []struct {
Scenario string
Count int
}
ctx := context.Background()
query := c.Ent.Alert.Query()
query, err := BuildAlertRequestFromFilter(query, filters)
if err != nil {
return nil, fmt.Errorf("failed to build alert request: %w", err)
}
err = query.GroupBy(alert.FieldScenario).Aggregate(ent.Count()).Scan(ctx, &res)
if err != nil {
return nil, fmt.Errorf("failed to count alerts per scenario: %w", err)
}
counts := make(map[string]int)
for _, r := range res {
counts[r.Scenario] = r.Count
}
return counts, nil
}
func (c *Client) TotalAlerts() (int, error) {
return c.Ent.Alert.Query().Count(c.CTX)
}
func (c *Client) QueryAlertWithFilter(filter map[string][]string) ([]*ent.Alert, error) {
sort := "DESC" // we sort by desc by default
if val, ok := filter["sort"]; ok {
if val[0] != "ASC" && val[0] != "DESC" {
c.Log.Errorf("invalid 'sort' parameter: %s", val)
} else {
sort = val[0]
}
}
limit := defaultLimit
if val, ok := filter["limit"]; ok {
limitConv, err := strconv.Atoi(val[0])
if err != nil {
return nil, errors.Wrapf(QueryFail, "bad limit in parameters: %s", val)
}
limit = limitConv
}
offset := 0
ret := make([]*ent.Alert, 0)
for {
alerts := c.Ent.Alert.Query()
alerts, err := BuildAlertRequestFromFilter(alerts, filter)
if err != nil {
return nil, err
}
//only if with_decisions is present and set to false, we exclude this
if val, ok := filter["with_decisions"]; ok && val[0] == "false" {
c.Log.Debugf("skipping decisions")
} else {
alerts = alerts.
WithDecisions()
}
alerts = alerts.
WithEvents().
WithMetas().
WithOwner()
if limit == 0 {
limit, err = alerts.Count(c.CTX)
if err != nil {
return nil, fmt.Errorf("unable to count nb alerts: %s", err)
}
}
if sort == "ASC" {
alerts = alerts.Order(ent.Asc(alert.FieldCreatedAt), ent.Asc(alert.FieldID))
} else {
alerts = alerts.Order(ent.Desc(alert.FieldCreatedAt), ent.Desc(alert.FieldID))
}
result, err := alerts.Limit(paginationSize).Offset(offset).All(c.CTX)
if err != nil {
return nil, errors.Wrapf(QueryFail, "pagination size: %d, offset: %d: %s", paginationSize, offset, err)
}
if diff := limit - len(ret); diff < paginationSize {
if len(result) < diff {
ret = append(ret, result...)
c.Log.Debugf("Pagination done, %d < %d", len(result), diff)
break
}
ret = append(ret, result[0:diff]...)
} else {
ret = append(ret, result...)
}
if len(ret) == limit || len(ret) == 0 || len(ret) < paginationSize {
c.Log.Debugf("Pagination done len(ret) = %d", len(ret))
break
}
offset += paginationSize
}
return ret, nil
}
func (c *Client) DeleteAlertGraphBatch(alertItems []*ent.Alert) (int, error) {
idList := make([]int, 0)
for _, alert := range alertItems {
idList = append(idList, alert.ID)
}
_, err := c.Ent.Event.Delete().
Where(event.HasOwnerWith(alert.IDIn(idList...))).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraphBatch : %s", err)
return 0, errors.Wrapf(DeleteFail, "alert graph delete batch events")
}
_, err = c.Ent.Meta.Delete().
Where(meta.HasOwnerWith(alert.IDIn(idList...))).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraphBatch : %s", err)
return 0, errors.Wrapf(DeleteFail, "alert graph delete batch meta")
}
_, err = c.Ent.Decision.Delete().
Where(decision.HasOwnerWith(alert.IDIn(idList...))).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraphBatch : %s", err)
return 0, errors.Wrapf(DeleteFail, "alert graph delete batch decisions")
}
deleted, err := c.Ent.Alert.Delete().
Where(alert.IDIn(idList...)).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraphBatch : %s", err)
return deleted, errors.Wrapf(DeleteFail, "alert graph delete batch")
}
c.Log.Debug("Done batch delete alerts")
return deleted, nil
}
func (c *Client) DeleteAlertGraph(alertItem *ent.Alert) error {
// delete the associated events
_, err := c.Ent.Event.Delete().
Where(event.HasOwnerWith(alert.IDEQ(alertItem.ID))).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraph : %s", err)
return errors.Wrapf(DeleteFail, "event with alert ID '%d'", alertItem.ID)
}
// delete the associated meta
_, err = c.Ent.Meta.Delete().
Where(meta.HasOwnerWith(alert.IDEQ(alertItem.ID))).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraph : %s", err)
return errors.Wrapf(DeleteFail, "meta with alert ID '%d'", alertItem.ID)
}
// delete the associated decisions
_, err = c.Ent.Decision.Delete().
Where(decision.HasOwnerWith(alert.IDEQ(alertItem.ID))).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraph : %s", err)
return errors.Wrapf(DeleteFail, "decision with alert ID '%d'", alertItem.ID)
}
// delete the alert
err = c.Ent.Alert.DeleteOne(alertItem).Exec(c.CTX)
if err != nil {
c.Log.Warningf("DeleteAlertGraph : %s", err)
return errors.Wrapf(DeleteFail, "alert with ID '%d'", alertItem.ID)
}
return nil
}
func (c *Client) DeleteAlertByID(id int) error {
alertItem, err := c.Ent.Alert.Query().Where(alert.IDEQ(id)).Only(c.CTX)
if err != nil {
return err
}
return c.DeleteAlertGraph(alertItem)
}
func (c *Client) DeleteAlertWithFilter(filter map[string][]string) (int, error) {
preds, err := AlertPredicatesFromFilter(filter)
if err != nil {
return 0, err
}
return c.Ent.Alert.Delete().Where(preds...).Exec(c.CTX)
}
func (c *Client) GetAlertByID(alertID int) (*ent.Alert, error) {
alert, err := c.Ent.Alert.Query().Where(alert.IDEQ(alertID)).WithDecisions().WithEvents().WithMetas().WithOwner().First(c.CTX)
if err != nil {
/*record not found, 404*/
if ent.IsNotFound(err) {
log.Warningf("GetAlertByID (not found): %s", err)
return &ent.Alert{}, ItemNotFound
}
c.Log.Warningf("GetAlertByID : %s", err)
return &ent.Alert{}, QueryFail
}
return alert, nil
}