package structs import ( "fmt" "strings" "testing" "github.com/hashicorp/consul/acl" "github.com/stretchr/testify/require" ) func TestStructs_ACLToken_PolicyIDs(t *testing.T) { t.Run("Basic", func(t *testing.T) { token := &ACLToken{ Policies: []ACLTokenPolicyLink{ { ID: "one", }, { ID: "two", }, { ID: "three", }, }, } policyIDs := token.PolicyIDs() require.Len(t, policyIDs, 3) require.Equal(t, "one", policyIDs[0]) require.Equal(t, "two", policyIDs[1]) require.Equal(t, "three", policyIDs[2]) }) t.Run("Legacy Management", func(t *testing.T) { a := &ACL{ ID: "root", Type: ACLTokenTypeManagement, Name: "management", } token := a.Convert() policyIDs := token.PolicyIDs() require.Len(t, policyIDs, 0) embedded := token.EmbeddedPolicy() require.NotNil(t, embedded) require.Equal(t, ACLPolicyGlobalManagement, embedded.Rules) }) t.Run("Legacy Management With Rules", func(t *testing.T) { a := &ACL{ ID: "root", Type: ACLTokenTypeManagement, Name: "management", Rules: "operator = \"write\"", } token := a.Convert() policyIDs := token.PolicyIDs() require.Len(t, policyIDs, 0) embedded := token.EmbeddedPolicy() require.NotNil(t, embedded) require.Equal(t, ACLPolicyGlobalManagement, embedded.Rules) }) t.Run("No Policies", func(t *testing.T) { token := &ACLToken{} policyIDs := token.PolicyIDs() require.Len(t, policyIDs, 0) }) } func TestStructs_ACLToken_EmbeddedPolicy(t *testing.T) { t.Run("No Rules", func(t *testing.T) { token := &ACLToken{} require.Nil(t, token.EmbeddedPolicy()) }) t.Run("Legacy Client", func(t *testing.T) { // None of the other fields should be considered token := &ACLToken{ Type: ACLTokenTypeClient, Rules: `acl = "read"`, } policy := token.EmbeddedPolicy() require.NotNil(t, policy) require.NotEqual(t, "", policy.ID) require.True(t, strings.HasPrefix(policy.Name, "legacy-policy-")) require.Equal(t, token.Rules, policy.Rules) require.Equal(t, policy.Syntax, acl.SyntaxLegacy) require.NotNil(t, policy.Hash) require.NotEqual(t, []byte{}, policy.Hash) }) t.Run("Same Policy for Tokens with same Rules", func(t *testing.T) { token1 := &ACLToken{ AccessorID: "f55b260c-5e05-418e-ab19-d421d1ab4b52", SecretID: "b2165bac-7006-459b-8a72-7f549f0f06d6", Description: "token 1", Type: ACLTokenTypeClient, Rules: `acl = "read"`, } token2 := &ACLToken{ AccessorID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", SecretID: "65e98e67-9b29-470c-8ffa-7c5a23cc67c8", Description: "token 2", Type: ACLTokenTypeClient, Rules: `acl = "read"`, } policy1 := token1.EmbeddedPolicy() policy2 := token2.EmbeddedPolicy() require.Equal(t, policy1, policy2) }) } func TestStructs_ACLServiceIdentity_SyntheticPolicy(t *testing.T) { cases := []struct { serviceName string datacenters []string expectRules string }{ {"web", nil, aclServiceIdentityRules("web", nil)}, {"companion-cube-99", []string{"dc1", "dc2"}, aclServiceIdentityRules("companion-cube-99", nil)}, } for _, test := range cases { name := test.serviceName if len(test.datacenters) > 0 { name += " [" + strings.Join(test.datacenters, ", ") + "]" } t.Run(name, func(t *testing.T) { svcid := &ACLServiceIdentity{ ServiceName: test.serviceName, Datacenters: test.datacenters, } expect := &ACLPolicy{ Syntax: acl.SyntaxCurrent, Datacenters: test.datacenters, Description: "synthetic policy", Rules: test.expectRules, } got := svcid.SyntheticPolicy(nil) require.NotEmpty(t, got.ID) require.True(t, strings.HasPrefix(got.Name, "synthetic-policy-")) // strip irrelevant fields before equality got.ID = "" got.Name = "" got.Hash = nil require.Equal(t, expect, got) }) } } func TestStructs_ACLToken_SetHash(t *testing.T) { token := ACLToken{ AccessorID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", SecretID: "65e98e67-9b29-470c-8ffa-7c5a23cc67c8", Description: "test", Policies: []ACLTokenPolicyLink{ { ID: "one", }, { ID: "two", }, { ID: "three", }, }, } t.Run("Nil Hash - Generate", func(t *testing.T) { require.Nil(t, token.Hash) h := token.SetHash(false) require.NotNil(t, h) require.NotEqual(t, []byte{}, h) require.Equal(t, h, token.Hash) }) t.Run("Hash Set - Dont Generate", func(t *testing.T) { original := token.Hash h := token.SetHash(false) require.Equal(t, original, h) token.Description = "changed" h = token.SetHash(false) require.Equal(t, original, h) }) t.Run("Hash Set - Generate", func(t *testing.T) { original := token.Hash h := token.SetHash(true) require.NotEqual(t, original, h) }) } func TestStructs_ACLToken_EstimateSize(t *testing.T) { // estimated size here should token := ACLToken{ AccessorID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", SecretID: "65e98e67-9b29-470c-8ffa-7c5a23cc67c8", Description: "test", Policies: []ACLTokenPolicyLink{ { ID: "one", }, { ID: "two", }, { ID: "three", }, }, } // this test is very contrived. Basically just tests that the // math is okay and returns the value. require.Equal(t, 128, token.EstimateSize()) } func TestStructs_ACLToken_Stub(t *testing.T) { t.Run("Basic", func(t *testing.T) { token := ACLToken{ AccessorID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", SecretID: "65e98e67-9b29-470c-8ffa-7c5a23cc67c8", Description: "test", Policies: []ACLTokenPolicyLink{ { ID: "one", }, { ID: "two", }, { ID: "three", }, }, } stub := token.Stub() require.Equal(t, token.AccessorID, stub.AccessorID) require.Equal(t, token.Description, stub.Description) require.Equal(t, token.Policies, stub.Policies) require.Equal(t, token.Local, stub.Local) require.Equal(t, token.CreateTime, stub.CreateTime) require.Equal(t, token.Hash, stub.Hash) require.Equal(t, token.CreateIndex, stub.CreateIndex) require.Equal(t, token.ModifyIndex, stub.ModifyIndex) require.False(t, stub.Legacy) }) t.Run("Legacy", func(t *testing.T) { token := ACLToken{ AccessorID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", SecretID: "65e98e67-9b29-470c-8ffa-7c5a23cc67c8", Description: "test", Type: ACLTokenTypeClient, Rules: `key "" { policy = "read" }`, } stub := token.Stub() require.Equal(t, token.AccessorID, stub.AccessorID) require.Equal(t, token.Description, stub.Description) require.Equal(t, token.Policies, stub.Policies) require.Equal(t, token.Local, stub.Local) require.Equal(t, token.CreateTime, stub.CreateTime) require.Equal(t, token.Hash, stub.Hash) require.Equal(t, token.CreateIndex, stub.CreateIndex) require.Equal(t, token.ModifyIndex, stub.ModifyIndex) require.True(t, stub.Legacy) }) } func TestStructs_ACLTokens_Sort(t *testing.T) { tokens := ACLTokens{ &ACLToken{ AccessorID: "9db509a9-c809-48c1-895d-99f845b7a9d5", }, &ACLToken{ AccessorID: "6bd01084-1695-43b8-898d-b2dd7874754d", }, &ACLToken{ AccessorID: "614a4cef-9149-4271-b878-7edb1ad661f8", }, &ACLToken{ AccessorID: "c9dd9980-8d54-472f-9e5e-74c02143e1f4", }, } tokens.Sort() require.Equal(t, tokens[0].AccessorID, "614a4cef-9149-4271-b878-7edb1ad661f8") require.Equal(t, tokens[1].AccessorID, "6bd01084-1695-43b8-898d-b2dd7874754d") require.Equal(t, tokens[2].AccessorID, "9db509a9-c809-48c1-895d-99f845b7a9d5") require.Equal(t, tokens[3].AccessorID, "c9dd9980-8d54-472f-9e5e-74c02143e1f4") } func TestStructs_ACLTokenListStubs_Sort(t *testing.T) { tokens := ACLTokenListStubs{ &ACLTokenListStub{ AccessorID: "9db509a9-c809-48c1-895d-99f845b7a9d5", }, &ACLTokenListStub{ AccessorID: "6bd01084-1695-43b8-898d-b2dd7874754d", }, &ACLTokenListStub{ AccessorID: "614a4cef-9149-4271-b878-7edb1ad661f8", }, &ACLTokenListStub{ AccessorID: "c9dd9980-8d54-472f-9e5e-74c02143e1f4", }, } tokens.Sort() require.Equal(t, tokens[0].AccessorID, "614a4cef-9149-4271-b878-7edb1ad661f8") require.Equal(t, tokens[1].AccessorID, "6bd01084-1695-43b8-898d-b2dd7874754d") require.Equal(t, tokens[2].AccessorID, "9db509a9-c809-48c1-895d-99f845b7a9d5") require.Equal(t, tokens[3].AccessorID, "c9dd9980-8d54-472f-9e5e-74c02143e1f4") } func TestStructs_ACLPolicy_Stub(t *testing.T) { policy := &ACLPolicy{ ID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", Name: "test", Description: "test", Rules: `acl = "read"`, } stub := policy.Stub() require.Equal(t, policy.ID, stub.ID) require.Equal(t, policy.Name, stub.Name) require.Equal(t, policy.Description, stub.Description) require.Equal(t, policy.Datacenters, stub.Datacenters) require.Equal(t, policy.Hash, stub.Hash) require.Equal(t, policy.CreateIndex, stub.CreateIndex) require.Equal(t, policy.ModifyIndex, stub.ModifyIndex) } func TestStructs_ACLPolicy_SetHash(t *testing.T) { policy := &ACLPolicy{ ID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", Name: "test", Description: "test", Rules: `acl = "read"`, } t.Run("Nil Hash - Generate", func(t *testing.T) { require.Nil(t, policy.Hash) h := policy.SetHash(false) require.NotNil(t, h) require.NotEqual(t, []byte{}, h) require.Equal(t, h, policy.Hash) }) t.Run("Hash Set - Dont Generate", func(t *testing.T) { original := policy.Hash h := policy.SetHash(false) require.Equal(t, original, h) policy.Description = "changed" h = policy.SetHash(false) require.Equal(t, original, h) }) t.Run("Hash Set - Generate", func(t *testing.T) { original := policy.Hash h := policy.SetHash(true) require.NotEqual(t, original, h) }) } func TestStructs_ACLPolicy_EstimateSize(t *testing.T) { policy := ACLPolicy{ ID: "09d1c059-961a-46bd-a2e4-76adebe35fa5", Name: "test", Description: "test", Rules: `acl = "read"`, } // this test is very contrived. Basically just tests that the // math is okay and returns the value. require.Equal(t, 84, policy.EstimateSize()) policy.Datacenters = []string{"dc1", "dc2"} require.Equal(t, 90, policy.EstimateSize()) } func TestStructs_ACLPolicies_Sort(t *testing.T) { policies := ACLPolicies{ &ACLPolicy{ ID: "9db509a9-c809-48c1-895d-99f845b7a9d5", }, &ACLPolicy{ ID: "6bd01084-1695-43b8-898d-b2dd7874754d", }, &ACLPolicy{ ID: "614a4cef-9149-4271-b878-7edb1ad661f8", }, &ACLPolicy{ ID: "c9dd9980-8d54-472f-9e5e-74c02143e1f4", }, } policies.Sort() require.Equal(t, policies[0].ID, "614a4cef-9149-4271-b878-7edb1ad661f8") require.Equal(t, policies[1].ID, "6bd01084-1695-43b8-898d-b2dd7874754d") require.Equal(t, policies[2].ID, "9db509a9-c809-48c1-895d-99f845b7a9d5") require.Equal(t, policies[3].ID, "c9dd9980-8d54-472f-9e5e-74c02143e1f4") } func TestStructs_ACLPolicyListStubs_Sort(t *testing.T) { policies := ACLPolicyListStubs{ &ACLPolicyListStub{ ID: "9db509a9-c809-48c1-895d-99f845b7a9d5", }, &ACLPolicyListStub{ ID: "6bd01084-1695-43b8-898d-b2dd7874754d", }, &ACLPolicyListStub{ ID: "614a4cef-9149-4271-b878-7edb1ad661f8", }, &ACLPolicyListStub{ ID: "c9dd9980-8d54-472f-9e5e-74c02143e1f4", }, } policies.Sort() require.Equal(t, policies[0].ID, "614a4cef-9149-4271-b878-7edb1ad661f8") require.Equal(t, policies[1].ID, "6bd01084-1695-43b8-898d-b2dd7874754d") require.Equal(t, policies[2].ID, "9db509a9-c809-48c1-895d-99f845b7a9d5") require.Equal(t, policies[3].ID, "c9dd9980-8d54-472f-9e5e-74c02143e1f4") } func TestStructs_ACLPolicies_resolveWithCache(t *testing.T) { config := ACLCachesConfig{ Identities: 0, Policies: 0, ParsedPolicies: 4, Authorizers: 0, Roles: 0, } cache, err := NewACLCaches(&config) require.NoError(t, err) testPolicies := ACLPolicies{ &ACLPolicy{ ID: "5d5653a1-2c2b-4b36-b083-fc9f1398eb7b", Name: "policy1", Description: "policy1", Rules: `node_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 1, ModifyIndex: 2, }, }, &ACLPolicy{ ID: "b35541f0-a88a-48da-bc66-43553c60b628", Name: "policy2", Description: "policy2", Rules: `agent_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 3, ModifyIndex: 4, }, }, &ACLPolicy{ ID: "383abb79-94ca-46c6-89b7-8ecb69046de9", Name: "policy3", Description: "policy3", Rules: `key_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 5, ModifyIndex: 6, }, }, &ACLPolicy{ ID: "8bf38965-95e5-4e86-9be7-f6070cc0708b", Name: "policy4", Description: "policy4", Rules: `service_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 7, ModifyIndex: 8, }, }, } t.Run("Cache Misses", func(t *testing.T) { policies, err := testPolicies.resolveWithCache(cache, nil) require.NoError(t, err) require.Len(t, policies, 4) for i := range testPolicies { require.Equal(t, testPolicies[i].ID, policies[i].ID) require.Equal(t, testPolicies[i].ModifyIndex, policies[i].Revision) } }) t.Run("Check Cache", func(t *testing.T) { for i := range testPolicies { entry := cache.GetParsedPolicy(fmt.Sprintf("%x", testPolicies[i].Hash)) require.NotNil(t, entry) require.Equal(t, testPolicies[i].ID, entry.Policy.ID) require.Equal(t, testPolicies[i].ModifyIndex, entry.Policy.Revision) // set this to detect using from the cache next time entry.Policy.Revision = 9999 } }) t.Run("Cache Hits", func(t *testing.T) { policies, err := testPolicies.resolveWithCache(cache, nil) require.NoError(t, err) require.Len(t, policies, 4) for i := range testPolicies { require.Equal(t, testPolicies[i].ID, policies[i].ID) require.Equal(t, uint64(9999), policies[i].Revision) } }) } func TestStructs_ACLPolicies_Compile(t *testing.T) { config := ACLCachesConfig{ Identities: 0, Policies: 0, ParsedPolicies: 4, Authorizers: 2, Roles: 0, } cache, err := NewACLCaches(&config) require.NoError(t, err) testPolicies := ACLPolicies{ &ACLPolicy{ ID: "5d5653a1-2c2b-4b36-b083-fc9f1398eb7b", Name: "policy1", Description: "policy1", Rules: `node_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 1, ModifyIndex: 2, }, }, &ACLPolicy{ ID: "b35541f0-a88a-48da-bc66-43553c60b628", Name: "policy2", Description: "policy2", Rules: `agent_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 3, ModifyIndex: 4, }, }, &ACLPolicy{ ID: "383abb79-94ca-46c6-89b7-8ecb69046de9", Name: "policy3", Description: "policy3", Rules: `key_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 5, ModifyIndex: 6, }, }, &ACLPolicy{ ID: "8bf38965-95e5-4e86-9be7-f6070cc0708b", Name: "policy4", Description: "policy4", Rules: `service_prefix "" { policy = "read" }`, Syntax: acl.SyntaxCurrent, RaftIndex: RaftIndex{ CreateIndex: 7, ModifyIndex: 8, }, }, } t.Run("Cache Miss", func(t *testing.T) { authz, err := testPolicies.Compile(cache, nil) require.NoError(t, err) require.NotNil(t, authz) require.Equal(t, acl.Allow, authz.NodeRead("foo", nil)) require.Equal(t, acl.Allow, authz.AgentRead("foo", nil)) require.Equal(t, acl.Allow, authz.KeyRead("foo", nil)) require.Equal(t, acl.Allow, authz.ServiceRead("foo", nil)) require.Equal(t, acl.Default, authz.ACLRead(nil)) }) t.Run("Check Cache", func(t *testing.T) { entry := cache.GetAuthorizer(testPolicies.HashKey()) require.NotNil(t, entry) authz := entry.Authorizer require.NotNil(t, authz) require.Equal(t, acl.Allow, authz.NodeRead("foo", nil)) require.Equal(t, acl.Allow, authz.AgentRead("foo", nil)) require.Equal(t, acl.Allow, authz.KeyRead("foo", nil)) require.Equal(t, acl.Allow, authz.ServiceRead("foo", nil)) require.Equal(t, acl.Default, authz.ACLRead(nil)) // setup the cache for the next test cache.PutAuthorizer(testPolicies.HashKey(), acl.DenyAll()) }) t.Run("Cache Hit", func(t *testing.T) { authz, err := testPolicies.Compile(cache, nil) require.NoError(t, err) require.NotNil(t, authz) // we reset the Authorizer in the cache so now everything should be defaulted require.Equal(t, acl.Deny, authz.NodeRead("foo", nil)) require.Equal(t, acl.Deny, authz.AgentRead("foo", nil)) require.Equal(t, acl.Deny, authz.KeyRead("foo", nil)) require.Equal(t, acl.Deny, authz.ServiceRead("foo", nil)) require.Equal(t, acl.Deny, authz.ACLRead(nil)) }) }