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Code Activity
kyverno/pkg/webhooks/generation.go
shuting ed52bd3d9f
Add policy cache based on policyType (#960) 
* add policy cache based on policyType

* fetch policy from cache in webhook

* add unit test for policy cache

* update log for exclude resources filter

* skip webhook mutation on DELETE operation

* remove duplicate k8s version check

* add description
2020-07-02 12:49:10 -07:00

164 lines
5.1 KiB
Go
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package webhooks
import (
"reflect"
"sort"
"time"
kyverno "github.com/nirmata/kyverno/pkg/api/kyverno/v1"
v1 "github.com/nirmata/kyverno/pkg/api/kyverno/v1"
"github.com/nirmata/kyverno/pkg/engine"
"github.com/nirmata/kyverno/pkg/engine/context"
"github.com/nirmata/kyverno/pkg/engine/response"
"github.com/nirmata/kyverno/pkg/engine/utils"
"github.com/nirmata/kyverno/pkg/webhooks/generate"
v1beta1 "k8s.io/api/admission/v1beta1"
)
//HandleGenerate handles admission-requests for policies with generate rules
func (ws *WebhookServer) HandleGenerate(request *v1beta1.AdmissionRequest, policies []*kyverno.ClusterPolicy, ctx *context.Context, userRequestInfo kyverno.RequestInfo) (bool, string) {
logger := ws.log.WithValues("action", "generation", "uid", request.UID, "kind", request.Kind, "namespace", request.Namespace, "name", request.Name, "operation", request.Operation)
logger.V(4).Info("incoming request")
var engineResponses []response.EngineResponse
if len(policies) == 0 {
return true, ""
}
// convert RAW to unstructured
resource, err := utils.ConvertToUnstructured(request.Object.Raw)
if err != nil {
//TODO: skip applying the admission control ?
logger.Error(err, "failed to convert RAR resource to unstructured format")
return true, ""
}
// CREATE resources, do not have name, assigned in admission-request
policyContext := engine.PolicyContext{
NewResource: *resource,
AdmissionInfo: userRequestInfo,
Context: ctx,
}
// engine.Generate returns a list of rules that are applicable on this resource
for _, policy := range policies {
policyContext.Policy = *policy
engineResponse := engine.Generate(policyContext)
if len(engineResponse.PolicyResponse.Rules) > 0 {
// some generate rules do apply to the resource
engineResponses = append(engineResponses, engineResponse)
ws.statusListener.Send(generateStats{
resp: engineResponse,
})
}
}
// Adds Generate Request to a channel(queue size 1000) to generators
if err := applyGenerateRequest(ws.grGenerator, userRequestInfo, request.Operation, engineResponses...); err != nil {
//TODO: send appropriate error
return false, "Kyverno blocked: failed to create Generate Requests"
}
// Generate Stats wont be used here, as we delegate the generate rule
// - Filter policies that apply on this resource
// - - build CR context(userInfo+roles+clusterRoles)
// - Create CR
// - send Success
// HandleGeneration always returns success
// Filter Policies
return true, ""
}
func applyGenerateRequest(gnGenerator generate.GenerateRequests, userRequestInfo kyverno.RequestInfo, action v1beta1.Operation, engineResponses ...response.EngineResponse) error {
for _, er := range engineResponses {
if err := gnGenerator.Apply(transform(userRequestInfo, er), action); err != nil {
return err
}
}
return nil
}
func transform(userRequestInfo kyverno.RequestInfo, er response.EngineResponse) kyverno.GenerateRequestSpec {
gr := kyverno.GenerateRequestSpec{
Policy: er.PolicyResponse.Policy,
Resource: kyverno.ResourceSpec{
Kind: er.PolicyResponse.Resource.Kind,
Namespace: er.PolicyResponse.Resource.Namespace,
Name: er.PolicyResponse.Resource.Name,
},
Context: kyverno.GenerateRequestContext{
UserRequestInfo: userRequestInfo,
},
}
return gr
}
type generateStats struct {
resp response.EngineResponse
}
func (gs generateStats) PolicyName() string {
return gs.resp.PolicyResponse.Policy
}
func (gs generateStats) UpdateStatus(status kyverno.PolicyStatus) kyverno.PolicyStatus {
if reflect.DeepEqual(response.EngineResponse{}, gs.resp) {
return status
}
var nameToRule = make(map[string]v1.RuleStats)
for _, rule := range status.Rules {
nameToRule[rule.Name] = rule
}
for _, rule := range gs.resp.PolicyResponse.Rules {
ruleStat := nameToRule[rule.Name]
ruleStat.Name = rule.Name
averageOver := int64(ruleStat.AppliedCount + ruleStat.FailedCount)
ruleStat.ExecutionTime = updateAverageTime(
rule.ProcessingTime,
ruleStat.ExecutionTime,
averageOver).String()
if rule.Success {
status.RulesAppliedCount++
ruleStat.AppliedCount++
} else {
status.RulesFailedCount++
ruleStat.FailedCount++
}
nameToRule[rule.Name] = ruleStat
}
var policyAverageExecutionTime time.Duration
var ruleStats = make([]v1.RuleStats, 0, len(nameToRule))
for _, ruleStat := range nameToRule {
executionTime, err := time.ParseDuration(ruleStat.ExecutionTime)
if err == nil {
policyAverageExecutionTime += executionTime
}
ruleStats = append(ruleStats, ruleStat)
}
sort.Slice(ruleStats, func(i, j int) bool {
return ruleStats[i].Name < ruleStats[j].Name
})
status.AvgExecutionTime = policyAverageExecutionTime.String()
status.Rules = ruleStats
return status
}
func updateAverageTime(newTime time.Duration, oldAverageTimeString string, averageOver int64) time.Duration {
if averageOver == 0 {
return newTime
}
oldAverageExecutionTime, _ := time.ParseDuration(oldAverageTimeString)
numerator := (oldAverageExecutionTime.Nanoseconds() * averageOver) + newTime.Nanoseconds()
denominator := averageOver + 1
newAverageTimeInNanoSeconds := numerator / denominator
return time.Duration(newAverageTimeInNanoSeconds) * time.Nanosecond
}
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