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consul/acl/policy_merger.go

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10 KiB

// Copyright (c) HashiCorp, Inc.
[COMPLIANCE] License changes (#18443) * Adding explicit MPL license for sub-package This directory and its subdirectories (packages) contain files licensed with the MPLv2 `LICENSE` file in this directory and are intentionally licensed separately from the BSL `LICENSE` file at the root of this repository. * Adding explicit MPL license for sub-package This directory and its subdirectories (packages) contain files licensed with the MPLv2 `LICENSE` file in this directory and are intentionally licensed separately from the BSL `LICENSE` file at the root of this repository. * Updating the license from MPL to Business Source License Going forward, this project will be licensed under the Business Source License v1.1. Please see our blog post for more details at <Blog URL>, FAQ at www.hashicorp.com/licensing-faq, and details of the license at www.hashicorp.com/bsl. * add missing license headers * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 * Update copyright file headers to BUSL-1.1 --------- Co-authored-by: hashicorp-copywrite[bot] <110428419+hashicorp-copywrite[bot]@users.noreply.github.com>
1 year ago
// SPDX-License-Identifier: BUSL-1.1
package acl
type policyRulesMergeContext struct {
aclRule string
agentRules map[string]*AgentRule
agentPrefixRules map[string]*AgentRule
eventRules map[string]*EventRule
eventPrefixRules map[string]*EventRule
identityRules map[string]*IdentityRule
identityPrefixRules map[string]*IdentityRule
keyringRule string
keyRules map[string]*KeyRule
keyPrefixRules map[string]*KeyRule
meshRule string
peeringRule string
nodeRules map[string]*NodeRule
nodePrefixRules map[string]*NodeRule
operatorRule string
preparedQueryRules map[string]*PreparedQueryRule
preparedQueryPrefixRules map[string]*PreparedQueryRule
serviceRules map[string]*ServiceRule
servicePrefixRules map[string]*ServiceRule
sessionRules map[string]*SessionRule
sessionPrefixRules map[string]*SessionRule
// namespaceRule is an enterprise-only field
namespaceRule string
}
func (p *policyRulesMergeContext) init() {
p.aclRule = ""
p.agentRules = make(map[string]*AgentRule)
p.agentPrefixRules = make(map[string]*AgentRule)
p.eventRules = make(map[string]*EventRule)
p.eventPrefixRules = make(map[string]*EventRule)
p.identityRules = make(map[string]*IdentityRule)
p.identityPrefixRules = make(map[string]*IdentityRule)
p.keyringRule = ""
p.keyRules = make(map[string]*KeyRule)
p.keyPrefixRules = make(map[string]*KeyRule)
p.meshRule = ""
p.peeringRule = ""
p.nodeRules = make(map[string]*NodeRule)
p.nodePrefixRules = make(map[string]*NodeRule)
p.operatorRule = ""
p.preparedQueryRules = make(map[string]*PreparedQueryRule)
p.preparedQueryPrefixRules = make(map[string]*PreparedQueryRule)
p.serviceRules = make(map[string]*ServiceRule)
p.servicePrefixRules = make(map[string]*ServiceRule)
p.sessionRules = make(map[string]*SessionRule)
p.sessionPrefixRules = make(map[string]*SessionRule)
}
func (p *policyRulesMergeContext) merge(policy *PolicyRules) {
if takesPrecedenceOver(policy.ACL, p.aclRule) {
p.aclRule = policy.ACL
}
for _, ap := range policy.Agents {
update := true
if permission, found := p.agentRules[ap.Node]; found {
update = takesPrecedenceOver(ap.Policy, permission.Policy)
}
if update {
p.agentRules[ap.Node] = ap
}
}
for _, ap := range policy.AgentPrefixes {
update := true
if permission, found := p.agentPrefixRules[ap.Node]; found {
update = takesPrecedenceOver(ap.Policy, permission.Policy)
}
if update {
p.agentPrefixRules[ap.Node] = ap
}
}
for _, ep := range policy.Events {
update := true
if permission, found := p.eventRules[ep.Event]; found {
update = takesPrecedenceOver(ep.Policy, permission.Policy)
}
if update {
p.eventRules[ep.Event] = ep
}
}
for _, ep := range policy.EventPrefixes {
update := true
if permission, found := p.eventPrefixRules[ep.Event]; found {
update = takesPrecedenceOver(ep.Policy, permission.Policy)
}
if update {
p.eventPrefixRules[ep.Event] = ep
}
}
for _, id := range policy.Identities {
existing, found := p.identityRules[id.Name]
if !found {
p.identityRules[id.Name] = id
continue
}
if takesPrecedenceOver(id.Policy, existing.Policy) {
existing.Policy = id.Policy
existing.EnterpriseRule = id.EnterpriseRule
}
if takesPrecedenceOver(id.Intentions, existing.Intentions) {
existing.Intentions = id.Intentions
}
}
for _, id := range policy.IdentityPrefixes {
existing, found := p.identityPrefixRules[id.Name]
if !found {
p.identityPrefixRules[id.Name] = id
continue
}
if takesPrecedenceOver(id.Policy, existing.Policy) {
existing.Policy = id.Policy
existing.EnterpriseRule = id.EnterpriseRule
}
if takesPrecedenceOver(id.Intentions, existing.Intentions) {
existing.Intentions = id.Intentions
}
}
if takesPrecedenceOver(policy.Keyring, p.keyringRule) {
p.keyringRule = policy.Keyring
}
for _, kp := range policy.Keys {
update := true
if permission, found := p.keyRules[kp.Prefix]; found {
update = takesPrecedenceOver(kp.Policy, permission.Policy)
}
if update {
p.keyRules[kp.Prefix] = kp
}
}
for _, kp := range policy.KeyPrefixes {
update := true
if permission, found := p.keyPrefixRules[kp.Prefix]; found {
update = takesPrecedenceOver(kp.Policy, permission.Policy)
}
if update {
p.keyPrefixRules[kp.Prefix] = kp
}
}
for _, np := range policy.Nodes {
update := true
if permission, found := p.nodeRules[np.Name]; found {
update = takesPrecedenceOver(np.Policy, permission.Policy)
}
if update {
p.nodeRules[np.Name] = np
}
}
for _, np := range policy.NodePrefixes {
update := true
if permission, found := p.nodePrefixRules[np.Name]; found {
update = takesPrecedenceOver(np.Policy, permission.Policy)
}
if update {
p.nodePrefixRules[np.Name] = np
}
}
if takesPrecedenceOver(policy.Mesh, p.meshRule) {
p.meshRule = policy.Mesh
}
if takesPrecedenceOver(policy.Peering, p.peeringRule) {
p.peeringRule = policy.Peering
}
if takesPrecedenceOver(policy.Operator, p.operatorRule) {
p.operatorRule = policy.Operator
}
for _, qp := range policy.PreparedQueries {
update := true
if permission, found := p.preparedQueryRules[qp.Prefix]; found {
update = takesPrecedenceOver(qp.Policy, permission.Policy)
}
if update {
p.preparedQueryRules[qp.Prefix] = qp
}
}
for _, qp := range policy.PreparedQueryPrefixes {
update := true
if permission, found := p.preparedQueryPrefixRules[qp.Prefix]; found {
update = takesPrecedenceOver(qp.Policy, permission.Policy)
}
if update {
p.preparedQueryPrefixRules[qp.Prefix] = qp
}
}
for _, sp := range policy.Services {
existing, found := p.serviceRules[sp.Name]
if !found {
p.serviceRules[sp.Name] = sp
continue
}
if takesPrecedenceOver(sp.Policy, existing.Policy) {
existing.Policy = sp.Policy
existing.EnterpriseRule = sp.EnterpriseRule
}
if takesPrecedenceOver(sp.Intentions, existing.Intentions) {
existing.Intentions = sp.Intentions
}
}
for _, sp := range policy.ServicePrefixes {
existing, found := p.servicePrefixRules[sp.Name]
if !found {
p.servicePrefixRules[sp.Name] = sp
continue
}
if takesPrecedenceOver(sp.Policy, existing.Policy) {
existing.Policy = sp.Policy
existing.EnterpriseRule = sp.EnterpriseRule
}
if takesPrecedenceOver(sp.Intentions, existing.Intentions) {
existing.Intentions = sp.Intentions
}
}
for _, sp := range policy.Sessions {
update := true
if permission, found := p.sessionRules[sp.Node]; found {
update = takesPrecedenceOver(sp.Policy, permission.Policy)
}
if update {
p.sessionRules[sp.Node] = sp
}
}
for _, sp := range policy.SessionPrefixes {
update := true
if permission, found := p.sessionPrefixRules[sp.Node]; found {
update = takesPrecedenceOver(sp.Policy, permission.Policy)
}
if update {
p.sessionPrefixRules[sp.Node] = sp
}
}
}
func (p *policyRulesMergeContext) fill(merged *PolicyRules) {
merged.ACL = p.aclRule
merged.Keyring = p.keyringRule
merged.Operator = p.operatorRule
merged.Mesh = p.meshRule
merged.Peering = p.peeringRule
// All the for loop appends are ugly but Go doesn't have a way to get
// a slice of all values within a map so this is necessary
merged.Agents = []*AgentRule{}
for _, policy := range p.agentRules {
merged.Agents = append(merged.Agents, policy)
}
merged.AgentPrefixes = []*AgentRule{}
for _, policy := range p.agentPrefixRules {
merged.AgentPrefixes = append(merged.AgentPrefixes, policy)
}
merged.Events = []*EventRule{}
for _, policy := range p.eventRules {
merged.Events = append(merged.Events, policy)
}
merged.EventPrefixes = []*EventRule{}
for _, policy := range p.eventPrefixRules {
merged.EventPrefixes = append(merged.EventPrefixes, policy)
}
merged.Identities = []*IdentityRule{}
for _, policy := range p.identityRules {
merged.Identities = append(merged.Identities, policy)
}
merged.IdentityPrefixes = []*IdentityRule{}
for _, policy := range p.identityPrefixRules {
merged.IdentityPrefixes = append(merged.IdentityPrefixes, policy)
}
merged.Keys = []*KeyRule{}
for _, policy := range p.keyRules {
merged.Keys = append(merged.Keys, policy)
}
merged.KeyPrefixes = []*KeyRule{}
for _, policy := range p.keyPrefixRules {
merged.KeyPrefixes = append(merged.KeyPrefixes, policy)
}
merged.Nodes = []*NodeRule{}
for _, policy := range p.nodeRules {
merged.Nodes = append(merged.Nodes, policy)
}
merged.NodePrefixes = []*NodeRule{}
for _, policy := range p.nodePrefixRules {
merged.NodePrefixes = append(merged.NodePrefixes, policy)
}
merged.PreparedQueries = []*PreparedQueryRule{}
for _, policy := range p.preparedQueryRules {
merged.PreparedQueries = append(merged.PreparedQueries, policy)
}
merged.PreparedQueryPrefixes = []*PreparedQueryRule{}
for _, policy := range p.preparedQueryPrefixRules {
merged.PreparedQueryPrefixes = append(merged.PreparedQueryPrefixes, policy)
}
merged.Services = []*ServiceRule{}
for _, policy := range p.serviceRules {
merged.Services = append(merged.Services, policy)
}
merged.ServicePrefixes = []*ServiceRule{}
for _, policy := range p.servicePrefixRules {
merged.ServicePrefixes = append(merged.ServicePrefixes, policy)
}
merged.Sessions = []*SessionRule{}
for _, policy := range p.sessionRules {
merged.Sessions = append(merged.Sessions, policy)
}
merged.SessionPrefixes = []*SessionRule{}
for _, policy := range p.sessionPrefixRules {
merged.SessionPrefixes = append(merged.SessionPrefixes, policy)
}
}
type PolicyMerger struct {
policyRulesMergeContext
enterprisePolicyRulesMergeContext
}
func (m *PolicyMerger) init() {
m.policyRulesMergeContext.init()
m.enterprisePolicyRulesMergeContext.init()
}
func (m *PolicyMerger) Merge(policy *Policy) {
m.policyRulesMergeContext.merge(&policy.PolicyRules)
m.enterprisePolicyRulesMergeContext.merge(&policy.EnterprisePolicyRules)
}
// Policy outputs the merged policy
func (m *PolicyMerger) Policy() *Policy {
merged := &Policy{}
m.policyRulesMergeContext.fill(&merged.PolicyRules)
m.enterprisePolicyRulesMergeContext.fill(&merged.EnterprisePolicyRules)
return merged
}
func MergePolicies(policies []*Policy) *Policy {
var merger PolicyMerger
merger.init()
for _, p := range policies {
merger.Merge(p)
}
return merger.Policy()
}