package consul import ( "encoding/json" "errors" "fmt" "io/ioutil" "os" "path/filepath" "regexp" "time" metrics "github.com/armon/go-metrics" "github.com/hashicorp/consul/acl" "github.com/hashicorp/consul/agent/consul/authmethod" "github.com/hashicorp/consul/agent/consul/state" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/lib" "github.com/hashicorp/go-bexpr" "github.com/hashicorp/go-hclog" memdb "github.com/hashicorp/go-memdb" uuid "github.com/hashicorp/go-uuid" ) const ( // aclBootstrapReset is the file name to create in the data dir. It's only contents // should be the reset index aclBootstrapReset = "acl-bootstrap-reset" ) // Regex for matching var ( validPolicyName = regexp.MustCompile(`^[A-Za-z0-9\-_]{1,128}$`) validServiceIdentityName = regexp.MustCompile(`^[a-z0-9]([a-z0-9\-_]*[a-z0-9])?$`) serviceIdentityNameMaxLength = 256 validRoleName = regexp.MustCompile(`^[A-Za-z0-9\-_]{1,256}$`) validAuthMethod = regexp.MustCompile(`^[A-Za-z0-9\-_]{1,128}$`) ) // ACL endpoint is used to manipulate ACLs type ACL struct { srv *Server logger hclog.Logger } // fileBootstrapResetIndex retrieves the reset index specified by the administrator from // the file on disk. // // Q: What is the bootstrap reset index? // A: If you happen to lose acess to all tokens capable of ACL management you need a way // to get back into your system. This allows an admin to write the current // bootstrap "index" into a special file on disk to override the mechanism preventing // a second token bootstrap. The index will be retrieved by a API call to /v1/acl/bootstrap // When already bootstrapped this API will return the reset index necessary within // the error response. Once set in the file, the bootstrap API can be used again to // get a new token. // // Q: Why is the reset index not in the config? // A: We want to be able to remove the reset index once we have used it. This prevents // accidentally allowing bootstrapping yet again after a snapshot restore. // func (a *ACL) fileBootstrapResetIndex() uint64 { // Determine the file path to check path := filepath.Join(a.srv.config.DataDir, aclBootstrapReset) // Read the file raw, err := ioutil.ReadFile(path) if err != nil { if !os.IsNotExist(err) { a.logger.Error("bootstrap: failed to read path", "path", path, "error", err, ) } return 0 } // Attempt to parse the file var resetIdx uint64 if _, err := fmt.Sscanf(string(raw), "%d", &resetIdx); err != nil { a.logger.Error("failed to parse bootstrap reset index path", "path", path, "error", err) return 0 } // Return the reset index a.logger.Debug("parsed bootstrap reset index path", "path", path, "reset_index", resetIdx) return resetIdx } func (a *ACL) removeBootstrapResetFile() { if err := os.Remove(filepath.Join(a.srv.config.DataDir, aclBootstrapReset)); err != nil { a.logger.Warn("failed to remove bootstrap file", "error", err) } } func (a *ACL) aclPreCheck() error { if !a.srv.ACLsEnabled() { return acl.ErrDisabled } if a.srv.UseLegacyACLs() { return fmt.Errorf("The ACL system is currently in legacy mode.") } return nil } // Bootstrap is used to perform a one-time ACL bootstrap operation on // a cluster to get the first management token. func (a *ACL) BootstrapTokens(args *structs.DCSpecificRequest, reply *structs.ACLToken) error { if err := a.aclPreCheck(); err != nil { return err } if done, err := a.srv.forward("ACL.BootstrapTokens", args, args, reply); done { return err } // Verify we are allowed to serve this request if !a.srv.InACLDatacenter() { return acl.ErrDisabled } // By doing some pre-checks we can head off later bootstrap attempts // without having to run them through Raft, which should curb abuse. state := a.srv.fsm.State() allowed, resetIdx, err := state.CanBootstrapACLToken() if err != nil { return err } var specifiedIndex uint64 = 0 if !allowed { // Check if there is a reset index specified specifiedIndex = a.fileBootstrapResetIndex() if specifiedIndex == 0 { return fmt.Errorf("ACL bootstrap no longer allowed (reset index: %d)", resetIdx) } else if specifiedIndex != resetIdx { return fmt.Errorf("Invalid bootstrap reset index (specified %d, reset index: %d)", specifiedIndex, resetIdx) } } // remove the bootstrap override file now that we have the index from it and it was valid. // whether bootstrapping works or not is irrelevant as we really don't want this file hanging around // in case a snapshot restore is done. In that case we don't want to accidentally allow re-bootstrapping // just because the file was unchanged. a.removeBootstrapResetFile() accessor, err := lib.GenerateUUID(a.srv.checkTokenUUID) if err != nil { return err } secret, err := lib.GenerateUUID(a.srv.checkTokenUUID) if err != nil { return err } req := structs.ACLTokenBootstrapRequest{ Token: structs.ACLToken{ AccessorID: accessor, SecretID: secret, Description: "Bootstrap Token (Global Management)", Policies: []structs.ACLTokenPolicyLink{ { ID: structs.ACLPolicyGlobalManagementID, }, }, CreateTime: time.Now(), Local: false, // DEPRECATED (ACL-Legacy-Compat) - This is used so that the bootstrap token is still visible via the v1 acl APIs Type: structs.ACLTokenTypeManagement, EnterpriseMeta: *structs.DefaultEnterpriseMeta(), }, ResetIndex: specifiedIndex, } req.Token.SetHash(true) resp, err := a.srv.raftApply(structs.ACLBootstrapRequestType, &req) if err != nil { return err } if err, ok := resp.(error); ok { return err } if _, token, err := state.ACLTokenGetByAccessor(nil, accessor, structs.DefaultEnterpriseMeta()); err == nil { *reply = *token } a.logger.Info("ACL bootstrap completed") return nil } func (a *ACL) TokenRead(args *structs.ACLTokenGetRequest, reply *structs.ACLTokenResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } // clients will not know whether the server has local token store. In the case // where it doesn't we will transparently forward requests. if !a.srv.LocalTokensEnabled() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.TokenRead", args, args, reply); done { return err } var authz acl.Authorizer if args.TokenIDType == structs.ACLTokenAccessor { var err error var authzContext acl.AuthorizerContext // Only ACLRead privileges are required to list tokens // However if you do not have ACLWrite as well the token // secrets will be redacted if authz, err = a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { var index uint64 var token *structs.ACLToken var err error if args.TokenIDType == structs.ACLTokenAccessor { index, token, err = state.ACLTokenGetByAccessor(ws, args.TokenID, &args.EnterpriseMeta) if token != nil { a.srv.filterACLWithAuthorizer(authz, &token) // token secret was redacted if token.SecretID == redactedToken { reply.Redacted = true } } } else { index, token, err = state.ACLTokenGetBySecret(ws, args.TokenID, nil) // no extra validation is needed here. If you have the secret ID you can read it. } if token != nil && token.IsExpired(time.Now()) { token = nil } if err != nil { return err } reply.Index, reply.Token = index, token return nil }) } func (a *ACL) TokenClone(args *structs.ACLTokenSetRequest, reply *structs.ACLToken) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.ACLToken.EnterpriseMeta, true); err != nil { return err } // clients will not know whether the server has local token store. In the case // where it doesn't we will transparently forward requests. if !a.srv.LocalTokensEnabled() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.TokenClone", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "token", "clone"}, time.Now()) var authzContext acl.AuthorizerContext authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.ACLToken.EnterpriseMeta, &authzContext) if err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } _, token, err := a.srv.fsm.State().ACLTokenGetByAccessor(nil, args.ACLToken.AccessorID, &args.ACLToken.EnterpriseMeta) if err != nil { return err } else if token == nil || token.IsExpired(time.Now()) { return acl.ErrNotFound } else if !a.srv.InACLDatacenter() && !token.Local { // global token writes must be forwarded to the primary DC args.Datacenter = a.srv.config.ACLDatacenter return a.srv.forwardDC("ACL.TokenClone", a.srv.config.ACLDatacenter, args, reply) } if token.AuthMethod != "" { return fmt.Errorf("Cannot clone a token created from an auth method") } if token.Rules != "" { return fmt.Errorf("Cannot clone a legacy ACL with this endpoint") } cloneReq := structs.ACLTokenSetRequest{ Datacenter: args.Datacenter, ACLToken: structs.ACLToken{ Policies: token.Policies, ServiceIdentities: token.ServiceIdentities, Local: token.Local, Description: token.Description, ExpirationTime: token.ExpirationTime, EnterpriseMeta: args.ACLToken.EnterpriseMeta, }, WriteRequest: args.WriteRequest, } if args.ACLToken.Description != "" { cloneReq.ACLToken.Description = args.ACLToken.Description } return a.tokenSetInternal(&cloneReq, reply, false) } func (a *ACL) TokenSet(args *structs.ACLTokenSetRequest, reply *structs.ACLToken) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.ACLToken.EnterpriseMeta, true); err != nil { return err } // Global token creation/modification always goes to the ACL DC if !args.ACLToken.Local { args.Datacenter = a.srv.config.ACLDatacenter } else if !a.srv.LocalTokensEnabled() { return fmt.Errorf("Local tokens are disabled") } if done, err := a.srv.forward("ACL.TokenSet", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "token", "upsert"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.ACLToken.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.tokenSetInternal(args, reply, false) } func (a *ACL) tokenSetInternal(args *structs.ACLTokenSetRequest, reply *structs.ACLToken, fromLogin bool) error { token := &args.ACLToken if !a.srv.LocalTokensEnabled() { // local token operations return fmt.Errorf("Cannot upsert tokens within this datacenter") } else if !a.srv.InACLDatacenter() && !token.Local { return fmt.Errorf("Cannot upsert global tokens within this datacenter") } state := a.srv.fsm.State() var accessorMatch *structs.ACLToken var secretMatch *structs.ACLToken var err error if token.AccessorID != "" { _, accessorMatch, err = state.ACLTokenGetByAccessor(nil, token.AccessorID, nil) if err != nil { return fmt.Errorf("Failed acl token lookup by accessor: %v", err) } } if token.SecretID != "" { _, secretMatch, err = state.ACLTokenGetBySecret(nil, token.SecretID, nil) if err != nil { return fmt.Errorf("Failed acl token lookup by secret: %v", err) } } if token.AccessorID == "" || args.Create { // Token Create // Generate the AccessorID if not specified if token.AccessorID == "" { token.AccessorID, err = lib.GenerateUUID(a.srv.checkTokenUUID) if err != nil { return err } } else if _, err := uuid.ParseUUID(token.AccessorID); err != nil { return fmt.Errorf("Invalid Token: AccessorID is not a valid UUID") } else if accessorMatch != nil { return fmt.Errorf("Invalid Token: AccessorID is already in use") } else if _, match, err := state.ACLTokenGetBySecret(nil, token.AccessorID, nil); err != nil || match != nil { if err != nil { return fmt.Errorf("Failed to lookup the acl token: %v", err) } return fmt.Errorf("Invalid Token: AccessorID is already in use") } else if structs.ACLIDReserved(token.AccessorID) { return fmt.Errorf("Invalid Token: UUIDs with the prefix %q are reserved", structs.ACLReservedPrefix) } // Generate the SecretID if not specified if token.SecretID == "" { token.SecretID, err = lib.GenerateUUID(a.srv.checkTokenUUID) if err != nil { return err } } else if _, err := uuid.ParseUUID(token.SecretID); err != nil { return fmt.Errorf("Invalid Token: SecretID is not a valid UUID") } else if secretMatch != nil { return fmt.Errorf("Invalid Token: SecretID is already in use") } else if _, match, err := state.ACLTokenGetByAccessor(nil, token.SecretID, nil); err != nil || match != nil { if err != nil { return fmt.Errorf("Failed to lookup the acl token: %v", err) } return fmt.Errorf("Invalid Token: SecretID is already in use") } else if structs.ACLIDReserved(token.SecretID) { return fmt.Errorf("Invalid Token: UUIDs with the prefix %q are reserved", structs.ACLReservedPrefix) } token.CreateTime = time.Now() if fromLogin { if token.AuthMethod == "" { return fmt.Errorf("AuthMethod field is required during Login") } if !token.Local { return fmt.Errorf("Cannot create Global token via Login") } } else { if token.AuthMethod != "" { return fmt.Errorf("AuthMethod field is disallowed outside of Login") } } // Ensure an ExpirationTTL is valid if provided. if token.ExpirationTTL != 0 { if token.ExpirationTTL < 0 { return fmt.Errorf("Token Expiration TTL '%s' should be > 0", token.ExpirationTTL) } if token.HasExpirationTime() { return fmt.Errorf("Token Expiration TTL and Expiration Time cannot both be set") } token.ExpirationTime = timePointer(token.CreateTime.Add(token.ExpirationTTL)) token.ExpirationTTL = 0 } if token.HasExpirationTime() { if token.CreateTime.After(*token.ExpirationTime) { return fmt.Errorf("ExpirationTime cannot be before CreateTime") } expiresIn := token.ExpirationTime.Sub(token.CreateTime) if expiresIn > a.srv.config.ACLTokenMaxExpirationTTL { return fmt.Errorf("ExpirationTime cannot be more than %s in the future (was %s)", a.srv.config.ACLTokenMaxExpirationTTL, expiresIn) } else if expiresIn < a.srv.config.ACLTokenMinExpirationTTL { return fmt.Errorf("ExpirationTime cannot be less than %s in the future (was %s)", a.srv.config.ACLTokenMinExpirationTTL, expiresIn) } } } else { // Token Update if _, err := uuid.ParseUUID(token.AccessorID); err != nil { return fmt.Errorf("AccessorID is not a valid UUID") } // DEPRECATED (ACL-Legacy-Compat) - maybe get rid of this in the future // and instead do a ParseUUID check. New tokens will not have // secrets generated by users but rather they will always be UUIDs. // However if users just continue the upgrade cycle they may still // have tokens using secrets that are not UUIDS // The RootAuthorizer checks that the SecretID is not "allow", "deny" // or "manage" as a precaution against something accidentally using // one of these root policies by setting the secret to it. if acl.RootAuthorizer(token.SecretID) != nil { return acl.PermissionDeniedError{Cause: "Cannot modify root ACL"} } // Verify the token exists if accessorMatch == nil || accessorMatch.IsExpired(time.Now()) { return fmt.Errorf("Cannot find token %q", token.AccessorID) } if token.SecretID == "" { token.SecretID = accessorMatch.SecretID } else if accessorMatch.SecretID != token.SecretID { return fmt.Errorf("Changing a tokens SecretID is not permitted") } // Cannot toggle the "Global" mode if token.Local != accessorMatch.Local { return fmt.Errorf("cannot toggle local mode of %s", token.AccessorID) } if token.AuthMethod == "" { token.AuthMethod = accessorMatch.AuthMethod } else if token.AuthMethod != accessorMatch.AuthMethod { return fmt.Errorf("Cannot change AuthMethod of %s", token.AccessorID) } if token.ExpirationTTL != 0 { return fmt.Errorf("Cannot change expiration time of %s", token.AccessorID) } if !token.HasExpirationTime() { token.ExpirationTime = accessorMatch.ExpirationTime } else if !accessorMatch.HasExpirationTime() { return fmt.Errorf("Cannot change expiration time of %s", token.AccessorID) } else if !token.ExpirationTime.Equal(*accessorMatch.ExpirationTime) { return fmt.Errorf("Cannot change expiration time of %s", token.AccessorID) } token.CreateTime = accessorMatch.CreateTime } policyIDs := make(map[string]struct{}) var policies []structs.ACLTokenPolicyLink // Validate all the policy names and convert them to policy IDs for _, link := range token.Policies { if link.ID == "" { _, policy, err := state.ACLPolicyGetByName(nil, link.Name, &token.EnterpriseMeta) if err != nil { return fmt.Errorf("Error looking up policy for name %q: %v", link.Name, err) } if policy == nil { return fmt.Errorf("No such ACL policy with name %q", link.Name) } link.ID = policy.ID } else { _, policy, err := state.ACLPolicyGetByID(nil, link.ID, &token.EnterpriseMeta) if err != nil { return fmt.Errorf("Error looking up policy for id %q: %v", link.ID, err) } if policy == nil { return fmt.Errorf("No such ACL policy with ID %q", link.ID) } } // Do not store the policy name within raft/memdb as the policy could be renamed in the future. link.Name = "" // dedup policy links by id if _, ok := policyIDs[link.ID]; !ok { policies = append(policies, link) policyIDs[link.ID] = struct{}{} } } token.Policies = policies roleIDs := make(map[string]struct{}) var roles []structs.ACLTokenRoleLink // Validate all the role names and convert them to role IDs. for _, link := range token.Roles { if link.ID == "" { _, role, err := state.ACLRoleGetByName(nil, link.Name, &token.EnterpriseMeta) if err != nil { return fmt.Errorf("Error looking up role for name %q: %v", link.Name, err) } if role == nil { return fmt.Errorf("No such ACL role with name %q", link.Name) } link.ID = role.ID } else { _, role, err := state.ACLRoleGetByID(nil, link.ID, &token.EnterpriseMeta) if err != nil { return fmt.Errorf("Error looking up role for id %q: %v", link.ID, err) } if role == nil { return fmt.Errorf("No such ACL role with ID %q", link.ID) } } // Do not store the role name within raft/memdb as the role could be renamed in the future. link.Name = "" // dedup role links by id if _, ok := roleIDs[link.ID]; !ok { roles = append(roles, link) roleIDs[link.ID] = struct{}{} } } token.Roles = roles for _, svcid := range token.ServiceIdentities { if svcid.ServiceName == "" { return fmt.Errorf("Service identity is missing the service name field on this token") } if token.Local && len(svcid.Datacenters) > 0 { return fmt.Errorf("Service identity %q cannot specify a list of datacenters on a local token", svcid.ServiceName) } if !isValidServiceIdentityName(svcid.ServiceName) { return fmt.Errorf("Service identity %q has an invalid name. Only alphanumeric characters, '-' and '_' are allowed", svcid.ServiceName) } } token.ServiceIdentities = dedupeServiceIdentities(token.ServiceIdentities) if token.Rules != "" { return fmt.Errorf("Rules cannot be specified for this token") } if token.Type != "" { return fmt.Errorf("Type cannot be specified for this token") } token.SetHash(true) // validate the enterprise meta err = state.ACLTokenUpsertValidateEnterprise(token, accessorMatch) if err != nil { return err } req := &structs.ACLTokenBatchSetRequest{ Tokens: structs.ACLTokens{token}, CAS: false, } if fromLogin { // Logins may attempt to link to roles that do not exist. These // may be persisted, but don't allow tokens to be created that // have no privileges (i.e. role links that point nowhere). req.AllowMissingLinks = true req.ProhibitUnprivileged = true } resp, err := a.srv.raftApply(structs.ACLTokenSetRequestType, req) if err != nil { return fmt.Errorf("Failed to apply token write request: %v", err) } // Purge the identity from the cache to prevent using the previous definition of the identity a.srv.acls.cache.RemoveIdentity(tokenSecretCacheID(token.SecretID)) if respErr, ok := resp.(error); ok { return respErr } // Don't check expiration times here as it doesn't really matter. if _, updatedToken, err := a.srv.fsm.State().ACLTokenGetByAccessor(nil, token.AccessorID, nil); err == nil && updatedToken != nil { *reply = *updatedToken } else { return fmt.Errorf("Failed to retrieve the token after insertion") } return nil } func validateBindingRuleBindName(bindType, bindName string, availableFields []string) (bool, error) { if bindType == "" || bindName == "" { return false, nil } fakeVarMap := make(map[string]string) for _, v := range availableFields { fakeVarMap[v] = "fake" } _, valid, err := computeBindingRuleBindName(bindType, bindName, fakeVarMap) if err != nil { return false, err } return valid, nil } // computeBindingRuleBindName processes the HIL for the provided bind type+name // using the verified fields. // // - If the HIL is invalid ("", false, AN_ERROR) is returned. // - If the computed name is not valid for the type ("INVALID_NAME", false, nil) is returned. // - If the computed name is valid for the type ("VALID_NAME", true, nil) is returned. func computeBindingRuleBindName(bindType, bindName string, verifiedFields map[string]string) (string, bool, error) { bindName, err := InterpolateHIL(bindName, verifiedFields) if err != nil { return "", false, err } valid := false switch bindType { case structs.BindingRuleBindTypeService: valid = isValidServiceIdentityName(bindName) case structs.BindingRuleBindTypeRole: valid = validRoleName.MatchString(bindName) default: return "", false, fmt.Errorf("unknown binding rule bind type: %s", bindType) } return bindName, valid, nil } // isValidServiceIdentityName returns true if the provided name can be used as // an ACLServiceIdentity ServiceName. This is more restrictive than standard // catalog registration, which basically takes the view that "everything is // valid". func isValidServiceIdentityName(name string) bool { if len(name) < 1 || len(name) > serviceIdentityNameMaxLength { return false } return validServiceIdentityName.MatchString(name) } func (a *ACL) TokenDelete(args *structs.ACLTokenDeleteRequest, reply *string) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, true); err != nil { return err } if !a.srv.LocalTokensEnabled() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.TokenDelete", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "token", "delete"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } if _, err := uuid.ParseUUID(args.TokenID); err != nil { return fmt.Errorf("Accessor ID is missing or an invalid UUID") } if args.TokenID == structs.ACLTokenAnonymousID { return fmt.Errorf("Delete operation not permitted on the anonymous token") } // grab the token here so we can invalidate our cache later on _, token, err := a.srv.fsm.State().ACLTokenGetByAccessor(nil, args.TokenID, &args.EnterpriseMeta) if err != nil { return err } if token != nil { if args.Token == token.SecretID { return fmt.Errorf("Deletion of the request's authorization token is not permitted") } // No need to check expiration time because it's being deleted. // token found in secondary DC but its not local so it must be deleted in the primary if !a.srv.InACLDatacenter() && !token.Local { args.Datacenter = a.srv.config.ACLDatacenter return a.srv.forwardDC("ACL.TokenDelete", a.srv.config.ACLDatacenter, args, reply) } } else if !a.srv.InACLDatacenter() { // token not found in secondary DC - attempt to delete within the primary args.Datacenter = a.srv.config.ACLDatacenter return a.srv.forwardDC("ACL.TokenDelete", a.srv.config.ACLDatacenter, args, reply) } else { // in Primary Datacenter but the token does not exist - return early as there is nothing to do. return nil } req := &structs.ACLTokenBatchDeleteRequest{ TokenIDs: []string{args.TokenID}, } resp, err := a.srv.raftApply(structs.ACLTokenDeleteRequestType, req) if err != nil { return fmt.Errorf("Failed to apply token delete request: %v", err) } // Purge the identity from the cache to prevent using the previous definition of the identity a.srv.acls.cache.RemoveIdentity(tokenSecretCacheID(token.SecretID)) if respErr, ok := resp.(error); ok { return respErr } if reply != nil { *reply = token.AccessorID } return nil } func (a *ACL) TokenList(args *structs.ACLTokenListRequest, reply *structs.ACLTokenListResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if !a.srv.LocalTokensEnabled() { if args.Datacenter != a.srv.config.ACLDatacenter { args.Datacenter = a.srv.config.ACLDatacenter args.IncludeLocal = false args.IncludeGlobal = true } args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.TokenList", args, args, reply); done { return err } var authzContext acl.AuthorizerContext var requestMeta structs.EnterpriseMeta authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &requestMeta, &authzContext) if err != nil { return err } // merge the token default meta into the requests meta args.EnterpriseMeta.Merge(&requestMeta) args.EnterpriseMeta.FillAuthzContext(&authzContext) if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } var methodMeta *structs.EnterpriseMeta if args.AuthMethod != "" { methodMeta = args.ACLAuthMethodEnterpriseMeta.ToEnterpriseMeta() // attempt to merge in the overall meta, wildcards will not be merged methodMeta.MergeNoWildcard(&args.EnterpriseMeta) // in the event that the meta above didn't merge due to being a wildcard // we ensure that proper token based meta inference occurs methodMeta.Merge(&requestMeta) } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, tokens, err := state.ACLTokenList(ws, args.IncludeLocal, args.IncludeGlobal, args.Policy, args.Role, args.AuthMethod, methodMeta, &args.EnterpriseMeta) if err != nil { return err } now := time.Now() stubs := make([]*structs.ACLTokenListStub, 0, len(tokens)) for _, token := range tokens { if token.IsExpired(now) { continue } stubs = append(stubs, token.Stub()) } // filter down to just the tokens that the requester has permissions to read if err := a.srv.filterACLWithAuthorizer(authz, &stubs); err != nil { return err } reply.Index, reply.Tokens = index, stubs return nil }) } func (a *ACL) TokenBatchRead(args *structs.ACLTokenBatchGetRequest, reply *structs.ACLTokenBatchResponse) error { if err := a.aclPreCheck(); err != nil { return err } if !a.srv.LocalTokensEnabled() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.TokenBatchRead", args, args, reply); done { return err } authz, err := a.srv.ResolveToken(args.Token) if err != nil { return err } else if authz == nil { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, tokens, err := state.ACLTokenBatchGet(ws, args.AccessorIDs) if err != nil { return err } // This RPC is used for replication, so don't filter out expired tokens here. // Filter the tokens down to just what we have permission to see - also redact // secrets based on allowed permissions. We could just call filterACLWithAuthorizer // on the whole token list but then it would require another pass through the token // list to determine if any secrets were redacted. Its a small amount of code to // process the loop so it was duplicated here and we instead call the filter func // with just a single token. ret := make(structs.ACLTokens, 0, len(tokens)) for _, token := range tokens { final := token a.srv.filterACLWithAuthorizer(authz, &final) if final != nil { ret = append(ret, final) if final.SecretID == redactedToken { reply.Redacted = true } } else { reply.Removed = true } } reply.Index, reply.Tokens = index, ret return nil }) } func (a *ACL) PolicyRead(args *structs.ACLPolicyGetRequest, reply *structs.ACLPolicyResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if done, err := a.srv.forward("ACL.PolicyRead", args, args, reply); done { return err } var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, policy, err := state.ACLPolicyGetByID(ws, args.PolicyID, &args.EnterpriseMeta) if err != nil { return err } reply.Index, reply.Policy = index, policy return nil }) } func (a *ACL) PolicyBatchRead(args *structs.ACLPolicyBatchGetRequest, reply *structs.ACLPolicyBatchResponse) error { if err := a.aclPreCheck(); err != nil { return err } if done, err := a.srv.forward("ACL.PolicyBatchRead", args, args, reply); done { return err } authz, err := a.srv.ResolveToken(args.Token) if err != nil { return err } else if authz == nil { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, policies, err := state.ACLPolicyBatchGet(ws, args.PolicyIDs) if err != nil { return err } a.srv.filterACLWithAuthorizer(authz, &policies) reply.Index, reply.Policies = index, policies return nil }) } func (a *ACL) PolicySet(args *structs.ACLPolicySetRequest, reply *structs.ACLPolicy) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.Policy.EnterpriseMeta, true); err != nil { return err } if !a.srv.InACLDatacenter() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.PolicySet", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "policy", "upsert"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.Policy.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } policy := &args.Policy state := a.srv.fsm.State() // Almost all of the checks here are also done in the state store. However, // we want to prevent the raft operations when we know they are going to fail // so we still do them here. // ensure a name is set if policy.Name == "" { return fmt.Errorf("Invalid Policy: no Name is set") } if !validPolicyName.MatchString(policy.Name) { return fmt.Errorf("Invalid Policy: invalid Name. Only alphanumeric characters, '-' and '_' are allowed") } var idMatch *structs.ACLPolicy var nameMatch *structs.ACLPolicy var err error if policy.ID != "" { if _, err := uuid.ParseUUID(policy.ID); err != nil { return fmt.Errorf("Policy ID invalid UUID") } _, idMatch, err = state.ACLPolicyGetByID(nil, policy.ID, nil) if err != nil { return fmt.Errorf("acl policy lookup by id failed: %v", err) } } _, nameMatch, err = state.ACLPolicyGetByName(nil, policy.Name, &policy.EnterpriseMeta) if err != nil { return fmt.Errorf("acl policy lookup by name failed: %v", err) } if policy.ID == "" { // with no policy ID one will be generated var err error policy.ID, err = lib.GenerateUUID(a.srv.checkPolicyUUID) if err != nil { return err } // validate the name is unique if nameMatch != nil { return fmt.Errorf("Invalid Policy: A Policy with Name %q already exists", policy.Name) } } else { // Verify the policy exists if idMatch == nil { return fmt.Errorf("cannot find policy %s", policy.ID) } // Verify that the name isn't changing or that the name is not already used if idMatch.Name != policy.Name && nameMatch != nil { return fmt.Errorf("Invalid Policy: A policy with name %q already exists", policy.Name) } if policy.ID == structs.ACLPolicyGlobalManagementID { if policy.Datacenters != nil || len(policy.Datacenters) > 0 { return fmt.Errorf("Changing the Datacenters of the builtin global-management policy is not permitted") } if policy.Rules != idMatch.Rules { return fmt.Errorf("Changing the Rules for the builtin global-management policy is not permitted") } } } // validate the rules _, err = acl.NewPolicyFromSource("", 0, policy.Rules, policy.Syntax, a.srv.aclConfig, policy.EnterprisePolicyMeta()) if err != nil { return err } // validate the enterprise meta err = state.ACLPolicyUpsertValidateEnterprise(policy, idMatch) if err != nil { return err } // calculate the hash for this policy policy.SetHash(true) req := &structs.ACLPolicyBatchSetRequest{ Policies: structs.ACLPolicies{policy}, } resp, err := a.srv.raftApply(structs.ACLPolicySetRequestType, req) if err != nil { return fmt.Errorf("Failed to apply policy upsert request: %v", err) } // Remove from the cache to prevent stale cache usage a.srv.acls.cache.RemovePolicy(policy.ID) if respErr, ok := resp.(error); ok { return respErr } if _, policy, err := a.srv.fsm.State().ACLPolicyGetByID(nil, policy.ID, &policy.EnterpriseMeta); err == nil && policy != nil { *reply = *policy } return nil } func (a *ACL) PolicyDelete(args *structs.ACLPolicyDeleteRequest, reply *string) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, true); err != nil { return err } if !a.srv.InACLDatacenter() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.PolicyDelete", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "policy", "delete"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } _, policy, err := a.srv.fsm.State().ACLPolicyGetByID(nil, args.PolicyID, &args.EnterpriseMeta) if err != nil { return err } if policy == nil { return nil } if policy.ID == structs.ACLPolicyGlobalManagementID { return fmt.Errorf("Delete operation not permitted on the builtin global-management policy") } req := structs.ACLPolicyBatchDeleteRequest{ PolicyIDs: []string{args.PolicyID}, } resp, err := a.srv.raftApply(structs.ACLPolicyDeleteRequestType, &req) if err != nil { return fmt.Errorf("Failed to apply policy delete request: %v", err) } a.srv.acls.cache.RemovePolicy(policy.ID) if respErr, ok := resp.(error); ok { return respErr } if policy != nil { *reply = policy.Name } return nil } func (a *ACL) PolicyList(args *structs.ACLPolicyListRequest, reply *structs.ACLPolicyListResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if done, err := a.srv.forward("ACL.PolicyList", args, args, reply); done { return err } var authzContext acl.AuthorizerContext authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext) if err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, policies, err := state.ACLPolicyList(ws, &args.EnterpriseMeta) if err != nil { return err } // filter down to just what the requester has permissions to see a.srv.filterACLWithAuthorizer(authz, &policies) var stubs structs.ACLPolicyListStubs for _, policy := range policies { stubs = append(stubs, policy.Stub()) } reply.Index, reply.Policies = index, stubs return nil }) } // PolicyResolve is used to retrieve a subset of the policies associated with a given token // The policy ids in the args simply act as a filter on the policy set assigned to the token func (a *ACL) PolicyResolve(args *structs.ACLPolicyBatchGetRequest, reply *structs.ACLPolicyBatchResponse) error { if err := a.aclPreCheck(); err != nil { return err } if done, err := a.srv.forward("ACL.PolicyResolve", args, args, reply); done { return err } // get full list of policies for this token identity, policies, err := a.srv.acls.resolveTokenToIdentityAndPolicies(args.Token) if err != nil { return err } entIdentity, entPolicies, err := a.srv.acls.resolveEnterpriseIdentityAndPolicies(identity) if err != nil { return err } idMap := make(map[string]*structs.ACLPolicy) for _, policyID := range identity.PolicyIDs() { idMap[policyID] = nil } if entIdentity != nil { for _, policyID := range entIdentity.PolicyIDs() { idMap[policyID] = nil } } for _, policy := range policies { idMap[policy.ID] = policy } for _, policy := range entPolicies { idMap[policy.ID] = policy } for _, policyID := range args.PolicyIDs { if policy, ok := idMap[policyID]; ok { // only add non-deleted policies if policy != nil { reply.Policies = append(reply.Policies, policy) } } else { // send a permission denied to indicate that the request included // policy ids not associated with this token return acl.ErrPermissionDenied } } a.srv.setQueryMeta(&reply.QueryMeta) return nil } // makeACLETag returns an ETag for the given parent and policy. func makeACLETag(parent string, policy *acl.Policy) string { return fmt.Sprintf("%s:%s", parent, policy.ID) } // GetPolicy is used to retrieve a compiled policy object with a TTL. Does not // support a blocking query. func (a *ACL) GetPolicy(args *structs.ACLPolicyResolveLegacyRequest, reply *structs.ACLPolicyResolveLegacyResponse) error { if done, err := a.srv.forward("ACL.GetPolicy", args, args, reply); done { return err } // Verify we are allowed to serve this request if a.srv.config.ACLDatacenter != a.srv.config.Datacenter { return acl.ErrDisabled } // Get the policy via the cache parent := a.srv.config.ACLDefaultPolicy policy, err := a.srv.acls.GetMergedPolicyForToken(args.ACL) if err != nil { return err } // translates the structures internals to most closely match what could be expressed in the original rule language policy = policy.ConvertToLegacy() // Generate an ETag etag := makeACLETag(parent, policy) // Setup the response reply.ETag = etag reply.TTL = a.srv.config.ACLTokenTTL a.srv.setQueryMeta(&reply.QueryMeta) // Only send the policy on an Etag mis-match if args.ETag != etag { reply.Parent = parent reply.Policy = policy } return nil } // ReplicationStatus is used to retrieve the current ACL replication status. func (a *ACL) ReplicationStatus(args *structs.DCSpecificRequest, reply *structs.ACLReplicationStatus) error { // This must be sent to the leader, so we fix the args since we are // re-using a structure where we don't support all the options. args.RequireConsistent = true args.AllowStale = false if done, err := a.srv.forward("ACL.ReplicationStatus", args, args, reply); done { return err } // There's no ACL token required here since this doesn't leak any // sensitive information, and we don't want people to have to use // management tokens if they are querying this via a health check. // Poll the latest status. a.srv.aclReplicationStatusLock.RLock() *reply = a.srv.aclReplicationStatus a.srv.aclReplicationStatusLock.RUnlock() return nil } func timePointer(t time.Time) *time.Time { return &t } func (a *ACL) RoleRead(args *structs.ACLRoleGetRequest, reply *structs.ACLRoleResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if done, err := a.srv.forward("ACL.RoleRead", args, args, reply); done { return err } var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { var ( index uint64 role *structs.ACLRole err error ) if args.RoleID != "" { index, role, err = state.ACLRoleGetByID(ws, args.RoleID, &args.EnterpriseMeta) } else { index, role, err = state.ACLRoleGetByName(ws, args.RoleName, &args.EnterpriseMeta) } if err != nil { return err } reply.Index, reply.Role = index, role return nil }) } func (a *ACL) RoleBatchRead(args *structs.ACLRoleBatchGetRequest, reply *structs.ACLRoleBatchResponse) error { if err := a.aclPreCheck(); err != nil { return err } if done, err := a.srv.forward("ACL.RoleBatchRead", args, args, reply); done { return err } authz, err := a.srv.ResolveToken(args.Token) if err != nil { return err } else if authz == nil { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, roles, err := state.ACLRoleBatchGet(ws, args.RoleIDs) if err != nil { return err } a.srv.filterACLWithAuthorizer(authz, &roles) reply.Index, reply.Roles = index, roles return nil }) } func (a *ACL) RoleSet(args *structs.ACLRoleSetRequest, reply *structs.ACLRole) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.Role.EnterpriseMeta, true); err != nil { return err } if !a.srv.InACLDatacenter() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.RoleSet", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "role", "upsert"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.Role.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } role := &args.Role state := a.srv.fsm.State() // Almost all of the checks here are also done in the state store. However, // we want to prevent the raft operations when we know they are going to fail // so we still do them here. // ensure a name is set if role.Name == "" { return fmt.Errorf("Invalid Role: no Name is set") } if !validRoleName.MatchString(role.Name) { return fmt.Errorf("Invalid Role: invalid Name. Only alphanumeric characters, '-' and '_' are allowed") } var existing *structs.ACLRole var err error if role.ID == "" { // with no role ID one will be generated role.ID, err = lib.GenerateUUID(a.srv.checkRoleUUID) if err != nil { return err } // validate the name is unique if _, existing, err = state.ACLRoleGetByName(nil, role.Name, &role.EnterpriseMeta); err != nil { return fmt.Errorf("acl role lookup by name failed: %v", err) } else if existing != nil { return fmt.Errorf("Invalid Role: A Role with Name %q already exists", role.Name) } } else { if _, err := uuid.ParseUUID(role.ID); err != nil { return fmt.Errorf("Role ID invalid UUID") } // Verify the role exists _, existing, err = state.ACLRoleGetByID(nil, role.ID, nil) if err != nil { return fmt.Errorf("acl role lookup failed: %v", err) } else if existing == nil { return fmt.Errorf("cannot find role %s", role.ID) } if existing.Name != role.Name { if _, nameMatch, err := state.ACLRoleGetByName(nil, role.Name, &role.EnterpriseMeta); err != nil { return fmt.Errorf("acl role lookup by name failed: %v", err) } else if nameMatch != nil { return fmt.Errorf("Invalid Role: A role with name %q already exists", role.Name) } } } // validate the enterprise meta if err := state.ACLRoleUpsertValidateEnterprise(role, existing); err != nil { return err } policyIDs := make(map[string]struct{}) var policies []structs.ACLRolePolicyLink // Validate all the policy names and convert them to policy IDs for _, link := range role.Policies { if link.ID == "" { _, policy, err := state.ACLPolicyGetByName(nil, link.Name, &role.EnterpriseMeta) if err != nil { return fmt.Errorf("Error looking up policy for name %q: %v", link.Name, err) } if policy == nil { return fmt.Errorf("No such ACL policy with name %q", link.Name) } link.ID = policy.ID } // Do not store the policy name within raft/memdb as the policy could be renamed in the future. link.Name = "" // dedup policy links by id if _, ok := policyIDs[link.ID]; !ok { policies = append(policies, link) policyIDs[link.ID] = struct{}{} } } role.Policies = policies for _, svcid := range role.ServiceIdentities { if svcid.ServiceName == "" { return fmt.Errorf("Service identity is missing the service name field on this role") } if !isValidServiceIdentityName(svcid.ServiceName) { return fmt.Errorf("Service identity %q has an invalid name. Only alphanumeric characters, '-' and '_' are allowed", svcid.ServiceName) } } role.ServiceIdentities = dedupeServiceIdentities(role.ServiceIdentities) // calculate the hash for this role role.SetHash(true) req := &structs.ACLRoleBatchSetRequest{ Roles: structs.ACLRoles{role}, } resp, err := a.srv.raftApply(structs.ACLRoleSetRequestType, req) if err != nil { return fmt.Errorf("Failed to apply role upsert request: %v", err) } // Remove from the cache to prevent stale cache usage a.srv.acls.cache.RemoveRole(role.ID) if respErr, ok := resp.(error); ok { return respErr } if _, role, err := a.srv.fsm.State().ACLRoleGetByID(nil, role.ID, &role.EnterpriseMeta); err == nil && role != nil { *reply = *role } return nil } func (a *ACL) RoleDelete(args *structs.ACLRoleDeleteRequest, reply *string) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, true); err != nil { return err } if !a.srv.InACLDatacenter() { args.Datacenter = a.srv.config.ACLDatacenter } if done, err := a.srv.forward("ACL.RoleDelete", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "role", "delete"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } _, role, err := a.srv.fsm.State().ACLRoleGetByID(nil, args.RoleID, &args.EnterpriseMeta) if err != nil { return err } if role == nil { return nil } req := structs.ACLRoleBatchDeleteRequest{ RoleIDs: []string{args.RoleID}, } resp, err := a.srv.raftApply(structs.ACLRoleDeleteRequestType, &req) if err != nil { return fmt.Errorf("Failed to apply role delete request: %v", err) } a.srv.acls.cache.RemoveRole(role.ID) if respErr, ok := resp.(error); ok { return respErr } if role != nil { *reply = role.Name } return nil } func (a *ACL) RoleList(args *structs.ACLRoleListRequest, reply *structs.ACLRoleListResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if done, err := a.srv.forward("ACL.RoleList", args, args, reply); done { return err } var authzContext acl.AuthorizerContext authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext) if err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, roles, err := state.ACLRoleList(ws, args.Policy, &args.EnterpriseMeta) if err != nil { return err } a.srv.filterACLWithAuthorizer(authz, &roles) reply.Index, reply.Roles = index, roles return nil }) } // RoleResolve is used to retrieve a subset of the roles associated with a given token // The role ids in the args simply act as a filter on the role set assigned to the token func (a *ACL) RoleResolve(args *structs.ACLRoleBatchGetRequest, reply *structs.ACLRoleBatchResponse) error { if err := a.aclPreCheck(); err != nil { return err } if done, err := a.srv.forward("ACL.RoleResolve", args, args, reply); done { return err } // get full list of roles for this token identity, roles, err := a.srv.acls.resolveTokenToIdentityAndRoles(args.Token) if err != nil { return err } entIdentity, entRoles, err := a.srv.acls.resolveEnterpriseIdentityAndRoles(identity) if err != nil { return err } idMap := make(map[string]*structs.ACLRole) for _, roleID := range identity.RoleIDs() { idMap[roleID] = nil } if entIdentity != nil { for _, roleID := range entIdentity.RoleIDs() { idMap[roleID] = nil } } for _, role := range roles { idMap[role.ID] = role } for _, role := range entRoles { idMap[role.ID] = role } for _, roleID := range args.RoleIDs { if role, ok := idMap[roleID]; ok { // only add non-deleted roles if role != nil { reply.Roles = append(reply.Roles, role) } } else { // send a permission denied to indicate that the request included // role ids not associated with this token return acl.ErrPermissionDenied } } a.srv.setQueryMeta(&reply.QueryMeta) return nil } var errAuthMethodsRequireTokenReplication = errors.New("Token replication is required for auth methods to function") func (a *ACL) BindingRuleRead(args *structs.ACLBindingRuleGetRequest, reply *structs.ACLBindingRuleResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.BindingRuleRead", args, args, reply); done { return err } var authzContext acl.AuthorizerContext authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext) if err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, rule, err := state.ACLBindingRuleGetByID(ws, args.BindingRuleID, &args.EnterpriseMeta) if err != nil { return err } reply.Index, reply.BindingRule = index, rule return nil }) } func (a *ACL) BindingRuleSet(args *structs.ACLBindingRuleSetRequest, reply *structs.ACLBindingRule) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.BindingRule.EnterpriseMeta, true); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.BindingRuleSet", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "bindingrule", "upsert"}, time.Now()) var authzContext acl.AuthorizerContext // Verify token is permitted to modify ACLs if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.BindingRule.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } var existing *structs.ACLBindingRule rule := &args.BindingRule state := a.srv.fsm.State() if rule.ID == "" { // with no binding rule ID one will be generated var err error rule.ID, err = lib.GenerateUUID(a.srv.checkBindingRuleUUID) if err != nil { return err } } else { if _, err := uuid.ParseUUID(rule.ID); err != nil { return fmt.Errorf("Binding Rule ID invalid UUID") } // Verify the role exists var err error // specifically disregarding the enterprise meta here _, existing, err = state.ACLBindingRuleGetByID(nil, rule.ID, nil) if err != nil { return fmt.Errorf("acl binding rule lookup failed: %v", err) } else if existing == nil { return fmt.Errorf("cannot find binding rule %s", rule.ID) } if rule.AuthMethod == "" { rule.AuthMethod = existing.AuthMethod } else if existing.AuthMethod != rule.AuthMethod { return fmt.Errorf("the AuthMethod field of an Binding Rule is immutable") } } if rule.AuthMethod == "" { return fmt.Errorf("Invalid Binding Rule: no AuthMethod is set") } // this is done early here to produce better errors if err := state.ACLBindingRuleUpsertValidateEnterprise(rule, existing); err != nil { return err } methodIdx, method, err := state.ACLAuthMethodGetByName(nil, rule.AuthMethod, &args.BindingRule.EnterpriseMeta) if err != nil { return fmt.Errorf("acl auth method lookup failed: %v", err) } else if method == nil { return fmt.Errorf("cannot find auth method with name %q", rule.AuthMethod) } validator, err := a.srv.loadAuthMethodValidator(methodIdx, method) if err != nil { return err } if rule.Selector != "" { selectableVars := validator.MakeFieldMapSelectable(map[string]string{}) _, err := bexpr.CreateEvaluatorForType(rule.Selector, nil, selectableVars) if err != nil { return fmt.Errorf("invalid Binding Rule: Selector is invalid: %v", err) } } if rule.BindType == "" { return fmt.Errorf("Invalid Binding Rule: no BindType is set") } if rule.BindName == "" { return fmt.Errorf("Invalid Binding Rule: no BindName is set") } switch rule.BindType { case structs.BindingRuleBindTypeService: case structs.BindingRuleBindTypeRole: default: return fmt.Errorf("Invalid Binding Rule: unknown BindType %q", rule.BindType) } if valid, err := validateBindingRuleBindName(rule.BindType, rule.BindName, validator.AvailableFields()); err != nil { return fmt.Errorf("Invalid Binding Rule: invalid BindName: %v", err) } else if !valid { return fmt.Errorf("Invalid Binding Rule: invalid BindName") } req := &structs.ACLBindingRuleBatchSetRequest{ BindingRules: structs.ACLBindingRules{rule}, } resp, err := a.srv.raftApply(structs.ACLBindingRuleSetRequestType, req) if err != nil { return fmt.Errorf("Failed to apply binding rule upsert request: %v", err) } if respErr, ok := resp.(error); ok { return respErr } if _, rule, err := a.srv.fsm.State().ACLBindingRuleGetByID(nil, rule.ID, &rule.EnterpriseMeta); err == nil && rule != nil { *reply = *rule } return nil } func (a *ACL) BindingRuleDelete(args *structs.ACLBindingRuleDeleteRequest, reply *bool) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, true); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.BindingRuleDelete", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "bindingrule", "delete"}, time.Now()) var authzContext acl.AuthorizerContext // Verify token is permitted to modify ACLs if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } _, rule, err := a.srv.fsm.State().ACLBindingRuleGetByID(nil, args.BindingRuleID, &args.EnterpriseMeta) if err != nil { return err } if rule == nil { return nil } req := structs.ACLBindingRuleBatchDeleteRequest{ BindingRuleIDs: []string{args.BindingRuleID}, } resp, err := a.srv.raftApply(structs.ACLBindingRuleDeleteRequestType, &req) if err != nil { return fmt.Errorf("Failed to apply binding rule delete request: %v", err) } if respErr, ok := resp.(error); ok { return respErr } *reply = true return nil } func (a *ACL) BindingRuleList(args *structs.ACLBindingRuleListRequest, reply *structs.ACLBindingRuleListResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.BindingRuleList", args, args, reply); done { return err } var authzContext acl.AuthorizerContext authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext) if err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, rules, err := state.ACLBindingRuleList(ws, args.AuthMethod, &args.EnterpriseMeta) if err != nil { return err } a.srv.filterACLWithAuthorizer(authz, &rules) reply.Index, reply.BindingRules = index, rules return nil }) } func (a *ACL) AuthMethodRead(args *structs.ACLAuthMethodGetRequest, reply *structs.ACLAuthMethodResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.AuthMethodRead", args, args, reply); done { return err } var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, method, err := state.ACLAuthMethodGetByName(ws, args.AuthMethodName, &args.EnterpriseMeta) if err != nil { return err } reply.Index, reply.AuthMethod = index, method return nil }) } func (a *ACL) AuthMethodSet(args *structs.ACLAuthMethodSetRequest, reply *structs.ACLAuthMethod) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.AuthMethod.EnterpriseMeta, true); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.AuthMethodSet", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "authmethod", "upsert"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.AuthMethod.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } method := &args.AuthMethod state := a.srv.fsm.State() // ensure a name is set if method.Name == "" { return fmt.Errorf("Invalid Auth Method: no Name is set") } if !validAuthMethod.MatchString(method.Name) { return fmt.Errorf("Invalid Auth Method: invalid Name. Only alphanumeric characters, '-' and '_' are allowed") } // Check to see if the method exists first. _, existing, err := state.ACLAuthMethodGetByName(nil, method.Name, &method.EnterpriseMeta) if err != nil { return fmt.Errorf("acl auth method lookup failed: %v", err) } if existing != nil { if method.Type == "" { method.Type = existing.Type } else if existing.Type != method.Type { return fmt.Errorf("the Type field of an Auth Method is immutable") } } if !authmethod.IsRegisteredType(method.Type) { return fmt.Errorf("Invalid Auth Method: Type should be one of: %v", authmethod.Types()) } // Instantiate a validator but do not cache it yet. This will validate the // configuration. if _, err := authmethod.NewValidator(method); err != nil { return fmt.Errorf("Invalid Auth Method: %v", err) } if err := a.srv.fsm.State().ACLAuthMethodUpsertValidateEnterprise(method, existing); err != nil { return err } req := &structs.ACLAuthMethodBatchSetRequest{ AuthMethods: structs.ACLAuthMethods{method}, } resp, err := a.srv.raftApply(structs.ACLAuthMethodSetRequestType, req) if err != nil { return fmt.Errorf("Failed to apply auth method upsert request: %v", err) } if respErr, ok := resp.(error); ok { return respErr } if _, method, err := a.srv.fsm.State().ACLAuthMethodGetByName(nil, method.Name, &method.EnterpriseMeta); err == nil && method != nil { *reply = *method } return nil } func (a *ACL) AuthMethodDelete(args *structs.ACLAuthMethodDeleteRequest, reply *bool) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, true); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.AuthMethodDelete", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "authmethod", "delete"}, time.Now()) // Verify token is permitted to modify ACLs var authzContext acl.AuthorizerContext if authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext); err != nil { return err } else if authz == nil || authz.ACLWrite(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } _, method, err := a.srv.fsm.State().ACLAuthMethodGetByName(nil, args.AuthMethodName, &args.EnterpriseMeta) if err != nil { return err } if method == nil { return nil } req := structs.ACLAuthMethodBatchDeleteRequest{ AuthMethodNames: []string{args.AuthMethodName}, EnterpriseMeta: args.EnterpriseMeta, } resp, err := a.srv.raftApply(structs.ACLAuthMethodDeleteRequestType, &req) if err != nil { return fmt.Errorf("Failed to apply auth method delete request: %v", err) } if respErr, ok := resp.(error); ok { return respErr } *reply = true return nil } func (a *ACL) AuthMethodList(args *structs.ACLAuthMethodListRequest, reply *structs.ACLAuthMethodListResponse) error { if err := a.aclPreCheck(); err != nil { return err } if err := a.srv.validateEnterpriseRequest(&args.EnterpriseMeta, false); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if done, err := a.srv.forward("ACL.AuthMethodList", args, args, reply); done { return err } var authzContext acl.AuthorizerContext authz, err := a.srv.ResolveTokenAndDefaultMeta(args.Token, &args.EnterpriseMeta, &authzContext) if err != nil { return err } else if authz == nil || authz.ACLRead(&authzContext) != acl.Allow { return acl.ErrPermissionDenied } return a.srv.blockingQuery(&args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, methods, err := state.ACLAuthMethodList(ws, &args.EnterpriseMeta) if err != nil { return err } a.srv.filterACLWithAuthorizer(authz, &methods) var stubs structs.ACLAuthMethodListStubs for _, method := range methods { stubs = append(stubs, method.Stub()) } reply.Index, reply.AuthMethods = index, stubs return nil }) } func (a *ACL) Login(args *structs.ACLLoginRequest, reply *structs.ACLToken) error { if err := a.aclPreCheck(); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if args.Auth == nil { return fmt.Errorf("Invalid Login request: Missing auth parameters") } if err := a.srv.validateEnterpriseRequest(&args.Auth.EnterpriseMeta, true); err != nil { return err } if args.Token != "" { // This shouldn't happen. return errors.New("do not provide a token when logging in") } if done, err := a.srv.forward("ACL.Login", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "login"}, time.Now()) auth := args.Auth // 1. take args.Data.AuthMethod to get an AuthMethod Validator idx, method, err := a.srv.fsm.State().ACLAuthMethodGetByName(nil, auth.AuthMethod, &auth.EnterpriseMeta) if err != nil { return err } else if method == nil { return acl.ErrNotFound } validator, err := a.srv.loadAuthMethodValidator(idx, method) if err != nil { return err } // 2. Send args.Data.BearerToken to method validator and get back a fields map verifiedFields, desiredMeta, err := validator.ValidateLogin(auth.BearerToken) if err != nil { return err } // This always will return a valid pointer targetMeta := method.TargetEnterpriseMeta(desiredMeta) // 3. send map through role bindings serviceIdentities, roleLinks, err := a.srv.evaluateRoleBindings(validator, verifiedFields, &auth.EnterpriseMeta, targetMeta) if err != nil { return err } // We try to prevent the creation of a useless token without taking a trip // through the state store if we can. if len(serviceIdentities) == 0 && len(roleLinks) == 0 { return acl.ErrPermissionDenied } description := "token created via login" loginMeta, err := encodeLoginMeta(auth.Meta) if err != nil { return err } if loginMeta != "" { description += ": " + loginMeta } // 4. create token createReq := structs.ACLTokenSetRequest{ Datacenter: args.Datacenter, ACLToken: structs.ACLToken{ Description: description, Local: true, AuthMethod: auth.AuthMethod, ServiceIdentities: serviceIdentities, Roles: roleLinks, EnterpriseMeta: *targetMeta, }, WriteRequest: args.WriteRequest, } createReq.ACLToken.ACLAuthMethodEnterpriseMeta.FillWithEnterpriseMeta(&auth.EnterpriseMeta) // 5. return token information like a TokenCreate would err = a.tokenSetInternal(&createReq, reply, true) // If we were in a slight race with a role delete operation then we may // still end up failing to insert an unprivileged token in the state // machine instead. Return the same error as earlier so it doesn't // actually matter which one prevents the insertion. if err != nil && err.Error() == state.ErrTokenHasNoPrivileges.Error() { return acl.ErrPermissionDenied } return err } func encodeLoginMeta(meta map[string]string) (string, error) { if len(meta) == 0 { return "", nil } d, err := json.Marshal(meta) if err != nil { return "", err } return string(d), nil } func (a *ACL) Logout(args *structs.ACLLogoutRequest, reply *bool) error { if err := a.aclPreCheck(); err != nil { return err } if !a.srv.LocalTokensEnabled() { return errAuthMethodsRequireTokenReplication } if args.Token == "" { return acl.ErrNotFound } if done, err := a.srv.forward("ACL.Logout", args, args, reply); done { return err } defer metrics.MeasureSince([]string{"acl", "logout"}, time.Now()) _, token, err := a.srv.fsm.State().ACLTokenGetBySecret(nil, args.Token, nil) if err != nil { return err } else if token == nil { return acl.ErrNotFound } else if token.AuthMethod == "" { // Can't "logout" of a token that wasn't a result of login. return acl.ErrPermissionDenied } else if !a.srv.InACLDatacenter() && !token.Local { // global token writes must be forwarded to the primary DC args.Datacenter = a.srv.config.ACLDatacenter return a.srv.forwardDC("ACL.Logout", a.srv.config.ACLDatacenter, args, reply) } // No need to check expiration time because it's being deleted. req := &structs.ACLTokenBatchDeleteRequest{ TokenIDs: []string{token.AccessorID}, } resp, err := a.srv.raftApply(structs.ACLTokenDeleteRequestType, req) if err != nil { return fmt.Errorf("Failed to apply token delete request: %v", err) } // Purge the identity from the cache to prevent using the previous definition of the identity if token != nil { a.srv.acls.cache.RemoveIdentity(tokenSecretCacheID(token.SecretID)) } if respErr, ok := resp.(error); ok { return respErr } *reply = true return nil } func (a *ACL) Authorize(args *structs.RemoteACLAuthorizationRequest, reply *[]structs.ACLAuthorizationResponse) error { if err := a.aclPreCheck(); err != nil { return err } if done, err := a.srv.forward("ACL.Authorize", args, args, reply); done { return err } authz, err := a.srv.ResolveToken(args.Token) if err != nil { return err } else if authz == nil { return fmt.Errorf("Failed to initialize authorizer") } responses, err := structs.CreateACLAuthorizationResponses(authz, args.Requests) if err != nil { return err } *reply = responses return nil }