consul/agent/structs/connect_ca.go

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// 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>
2023-08-11 13:12:13 +00:00
// SPDX-License-Identifier: BUSL-1.1
package structs
import (
"fmt"
Fix CA pruning when CA config uses string durations. (#4669) * Fix CA pruning when CA config uses string durations. The tl;dr here is: - Configuring LeafCertTTL with a string like "72h" is how we do it by default and should be supported - Most of our tests managed to escape this by defining them as time.Duration directly - Out actual default value is a string - Since this is stored in a map[string]interface{} config, when it is written to Raft it goes through a msgpack encode/decode cycle (even though it's written from server not over RPC). - msgpack decode leaves the string as a `[]uint8` - Some of our parsers required string and failed - So after 1 hour, a default configured server would throw an error about pruning old CAs - If a new CA was configured that set LeafCertTTL as a time.Duration, things might be OK after that, but if a new CA was just configured from config file, intialization would cause same issue but always fail still so would never prune the old CA. - Mostly this is just a janky error that got passed tests due to many levels of complicated encoding/decoding. tl;dr of the tl;dr: Yay for type safety. Map[string]interface{} combined with msgpack always goes wrong but we somehow get bitten every time in a new way :D We already fixed this once! The main CA config had the same problem so @kyhavlov already wrote the mapstructure DecodeHook that fixes it. It wasn't used in several places it needed to be and one of those is notw in `structs` which caused a dependency cycle so I've moved them. This adds a whole new test thta explicitly tests the case that broke here. It also adds tests that would have failed in other places before (Consul and Vaul provider parsing functions). I'm not sure if they would ever be affected as it is now as we've not seen things broken with them but it seems better to explicitly test that and support it to not be bitten a third time! * Typo fix * Fix bad Uint8 usage
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"reflect"
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"time"
"github.com/mitchellh/mapstructure"
"github.com/hashicorp/consul/acl"
"github.com/hashicorp/consul/lib"
"github.com/hashicorp/consul/lib/stringslice"
)
const (
DefaultLeafCertTTL = "72h"
DefaultIntermediateCertTTL = "8760h" // ~ 1 year = 365 * 24h
DefaultRootCertTTL = "87600h" // ~ 10 years = 365 * 24h * 10
)
// IndexedCARoots is the list of currently trusted CA Roots.
type IndexedCARoots struct {
// ActiveRootID is the ID of a root in Roots that is the active CA root.
// Other roots are still valid if they're in the Roots list but are in
// the process of being rotated out.
ActiveRootID string
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// TrustDomain is the identification root for this Consul cluster. All
// certificates signed by the cluster's CA must have their identifying URI in
// this domain.
//
// This does not include the protocol (currently spiffe://) since we may
// implement other protocols in future with equivalent semantics. It should be
// compared against the "authority" section of a URI (i.e. host:port).
//
// We need to support migrating a cluster between trust domains to support
// Multi-DC migration in Enterprise. In this case the current trust domain is
// here but entries in Roots may also have ExternalTrustDomain set to a
// non-empty value implying they were previous roots that are still trusted
// but under a different trust domain.
//
// Note that we DON'T validate trust domain during AuthZ since it causes
// issues of loss of connectivity during migration between trust domains. The
// only time the additional validation adds value is where the cluster shares
// an external root (e.g. organization-wide root) with another distinct Consul
// cluster or PKI system. In this case, x509 Name Constraints can be added to
// enforce that Consul's CA can only validly sign or trust certs within the
// same trust-domain. Name constraints as enforced by TLS handshake also allow
// seamless rotation between trust domains thanks to cross-signing.
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TrustDomain string
// Roots is a list of root CA certs to trust.
Roots []*CARoot
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// QueryMeta contains the meta sent via a header. We ignore for JSON
// so this whole structure can be returned.
QueryMeta `json:"-"`
}
func (r IndexedCARoots) Active() *CARoot {
for _, root := range r.Roots {
if root.ID == r.ActiveRootID {
return root
}
}
return nil
}
// CARoot represents a root CA certificate that is trusted.
type CARoot struct {
// ID is a globally unique ID (UUID) representing this CA chain. It is
// calculated from the SHA1 of the primary CA certificate.
ID string
// Name is a human-friendly name for this CA root. This value is
// opaque to Consul and is not used for anything internally.
Name string
// SerialNumber is the x509 serial number of the primary CA certificate.
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SerialNumber uint64
// SigningKeyID is the connect.HexString encoded id of the public key that
// corresponds to the private key used to sign leaf certificates in the
// local datacenter.
//
// The value comes from x509.Certificate.SubjectKeyId of the local leaf
// signing cert.
//
// See https://www.rfc-editor.org/rfc/rfc3280#section-4.2.1.1 for more detail.
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SigningKeyID string
// ExternalTrustDomain is the trust domain this root was generated under. It
// is usually empty implying "the current cluster trust-domain". It is set
// only in the case that a cluster changes trust domain and then all old roots
// that are still trusted have the old trust domain set here.
//
// We currently DON'T validate these trust domains explicitly anywhere, see
// IndexedRoots.TrustDomain doc. We retain this information for debugging and
// future flexibility.
ExternalTrustDomain string
// NotBefore is the x509.Certificate.NotBefore value of the primary CA
// certificate. This value should generally be a time in the past.
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NotBefore time.Time
// NotAfter is the x509.Certificate.NotAfter value of the primary CA
// certificate. This is the time when the certificate will expire.
NotAfter time.Time
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// RootCert is the PEM-encoded public certificate for the root CA. The
// certificate is the same for all federated clusters.
RootCert string
// IntermediateCerts is a list of PEM-encoded intermediate certs to
// attach to any leaf certs signed by this CA. The list may include a
// certificate cross-signed by an old root CA, any subordinate CAs below the
// root CA, and the intermediate CA used to sign leaf certificates in the
// local Datacenter.
//
// If the provider which created this root uses an intermediate to sign
// leaf certificates (Vault provider), or this is a secondary Datacenter then
// the intermediate used to sign leaf certificates will be the last in the
// list.
IntermediateCerts []string
// SigningCert is the PEM-encoded signing certificate and SigningKey
// is the PEM-encoded private key for the signing certificate. These
// may actually be empty if the CA plugin in use manages these for us.
SigningCert string `json:",omitempty"`
SigningKey string `json:",omitempty"`
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// Active is true if this is the current active CA. This must only
// be true for exactly one CA. For any method that modifies roots in the
// state store, tests should be written to verify that multiple roots
// cannot be active.
Active bool
// RotatedOutAt is the time at which this CA was removed from the state.
// This will only be set on roots that have been rotated out from being the
// active root.
RotatedOutAt time.Time `json:"-"`
// PrivateKeyType is the type of the private key used to sign certificates. It
// may be "rsa" or "ec". This is provided as a convenience to avoid parsing
// the public key to from the certificate to infer the type.
PrivateKeyType string
// PrivateKeyBits is the length of the private key used to sign certificates.
// This is provided as a convenience to avoid parsing the public key from the
// certificate to infer the type.
PrivateKeyBits int
RaftIndex
}
func (c *CARoot) Clone() *CARoot {
if c == nil {
return nil
}
newCopy := *c
auto-reload configuration when config files change (#12329) * add config watcher to the config package * add logging to watcher * add test and refactor to add WatcherEvent. * add all API calls and fix a bug with recreated files * add tests for watcher * remove the unnecessary use of context * Add debug log and a test for file rename * use inode to detect if the file is recreated/replaced and only listen to create events. * tidy ups (#1535) * tidy ups * Add tests for inode reconcile * fix linux vs windows syscall * fix linux vs windows syscall * fix windows compile error * increase timeout * use ctime ID * remove remove/creation test as it's a use case that fail in linux * fix linux/windows to use Ino/CreationTime * fix the watcher to only overwrite current file id * fix linter error * fix remove/create test * set reconcile loop to 200 Milliseconds * fix watcher to not trigger event on remove, add more tests * on a remove event try to add the file back to the watcher and trigger the handler if success * fix race condition * fix flaky test * fix race conditions * set level to info * fix when file is removed and get an event for it after * fix to trigger handler when we get a remove but re-add fail * fix error message * add tests for directory watch and fixes * detect if a file is a symlink and return an error on Add * rename Watcher to FileWatcher and remove symlink deref * add fsnotify@v1.5.1 * fix go mod * do not reset timer on errors, rename OS specific files * rename New func * events trigger on write and rename * add missing test * fix flaking tests * fix flaky test * check reconcile when removed * delete invalid file * fix test to create files with different mod time. * back date file instead of sleeping * add watching file in agent command. * fix watcher call to use new API * add configuration and stop watcher when server stop * add certs as watched files * move FileWatcher to the agent start instead of the command code * stop watcher before replacing it * save watched files in agent * add add and remove interfaces to the file watcher * fix remove to not return an error * use `Add` and `Remove` to update certs files * fix tests * close events channel on the file watcher even when the context is done * extract `NotAutoReloadableRuntimeConfig` is a separate struct * fix linter errors * add Ca configs and outgoing verify to the not auto reloadable config * add some logs and fix to use background context * add tests to auto-config reload * remove stale test * add tests to changes to config files * add check to see if old cert files still trigger updates * rename `NotAutoReloadableRuntimeConfig` to `StaticRuntimeConfig` * fix to re add both key and cert file. Add test to cover this case. * review suggestion Co-authored-by: R.B. Boyer <4903+rboyer@users.noreply.github.com> * add check to static runtime config changes * fix test * add changelog file * fix review comments * Apply suggestions from code review Co-authored-by: R.B. Boyer <4903+rboyer@users.noreply.github.com> * update flag description Co-authored-by: FFMMM <FFMMM@users.noreply.github.com> * fix compilation error * add static runtime config support * fix test * fix review comments * fix log test * Update .changelog/12329.txt Co-authored-by: Dan Upton <daniel@floppy.co> * transfer tests to runtime_test.go * fix filewatcher Replace to not deadlock. * avoid having lingering locks Co-authored-by: R.B. Boyer <4903+rboyer@users.noreply.github.com> * split ReloadConfig func * fix warning message Co-authored-by: R.B. Boyer <4903+rboyer@users.noreply.github.com> * convert `FileWatcher` into an interface * fix compilation errors * fix tests * extract func for adding and removing files Co-authored-by: Ashwin Venkatesh <ashwin@hashicorp.com> Co-authored-by: R.B. Boyer <4903+rboyer@users.noreply.github.com> Co-authored-by: FFMMM <FFMMM@users.noreply.github.com> Co-authored-by: Daniel Upton <daniel@floppy.co>
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newCopy.IntermediateCerts = stringslice.CloneStringSlice(c.IntermediateCerts)
return &newCopy
}
// CARoots is a list of CARoot structures.
type CARoots []*CARoot
// Active returns the single CARoot that is marked as active, or nil if there
// is no active root (ex: when they are no roots).
func (c CARoots) Active() *CARoot {
if c == nil {
return nil
}
for _, r := range c {
if r.Active {
return r
}
}
return nil
}
// CASignRequest is the request for signing a service certificate.
type CASignRequest struct {
// Datacenter is the target for this request.
Datacenter string
// CSR is the PEM-encoded CSR.
CSR string
// WriteRequest is a common struct containing ACL tokens and other
// write-related common elements for requests.
WriteRequest
}
// RequestDatacenter returns the datacenter for a given request.
func (q *CASignRequest) RequestDatacenter() string {
return q.Datacenter
}
// IssuedCert is a certificate that has been issued by a Connect CA.
type IssuedCert struct {
// SerialNumber is the unique serial number for this certificate.
// This is encoded in standard hex separated by :.
SerialNumber string
// CertPEM is a PEM encoded bundle of a leaf certificate, optionally followed
// by one or more intermediate certificates that will form a chain of trust
// back to a root CA.
//
// This field is not persisted in the state store, but is present in the
// sign API response.
CertPEM string `json:",omitempty"`
// PrivateKeyPEM is the PEM encoded private key associated with CertPEM.
PrivateKeyPEM string `json:",omitempty"`
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// Service is the name of the service for which the cert was issued.
Service string `json:",omitempty"`
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// ServiceURI is the cert URI value.
ServiceURI string `json:",omitempty"`
// Agent is the name of the node for which the cert was issued.
Agent string `json:",omitempty"`
// AgentURI is the cert URI value.
AgentURI string `json:",omitempty"`
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// ServerURI is the URI value of a cert issued for a server agent.
// The same URI is shared by all servers in a Consul datacenter.
ServerURI string `json:",omitempty"`
// Kind is the kind of service for which the cert was issued.
Kind ServiceKind `json:",omitempty"`
// KindURI is the cert URI value.
KindURI string `json:",omitempty"`
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// ValidAfter and ValidBefore are the validity periods for the
// certificate.
ValidAfter time.Time
ValidBefore time.Time
// EnterpriseMeta is the Consul Enterprise specific metadata
acl.EnterpriseMeta
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RaftIndex
}
xds controller: setup watches for and compute leaf cert references in ProxyStateTemplate, and wire up leaf cert manager dependency (#18756) * Refactors the leafcert package to not have a dependency on agent/consul and agent/cache to avoid import cycles. This way the xds controller can just import the leafcert package to use the leafcert manager. The leaf cert logic in the controller: * Sets up watches for leaf certs that are referenced in the ProxyStateTemplate (which generates the leaf certs too). * Gets the leaf cert from the leaf cert cache * Stores the leaf cert in the ProxyState that's pushed to xds * For the cert watches, this PR also uses a bimapper + a thin wrapper to map leaf cert events to related ProxyStateTemplates Since bimapper uses a resource.Reference or resource.ID to map between two resource types, I've created an internal type for a leaf certificate to use for the resource.Reference, since it's not a v2 resource. The wrapper allows mapping events to resources (as opposed to mapping resources to resources) The controller tests: Unit: Ensure that we resolve leaf cert references Lifecycle: Ensure that when the CA is updated, the leaf cert is as well Also adds a new spiffe id type, and adds workload identity and workload identity URI to leaf certs. This is so certs are generated with the new workload identity based SPIFFE id. * Pulls out some leaf cert test helpers into a helpers file so it can be used in the xds controller tests. * Wires up leaf cert manager dependency * Support getting token from proxytracker * Add workload identity spiffe id type to the authorize and sign functions --------- Co-authored-by: John Murret <john.murret@hashicorp.com>
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func (i *IssuedCert) Key() string {
return fmt.Sprintf("%s",
i.SerialNumber,
)
}
// CAOp is the operation for a request related to intentions.
type CAOp string
const (
CAOpSetRoots CAOp = "set-roots"
CAOpSetConfig CAOp = "set-config"
CAOpSetProviderState CAOp = "set-provider-state"
CAOpDeleteProviderState CAOp = "delete-provider-state"
CAOpSetRootsAndConfig CAOp = "set-roots-config"
CAOpIncrementProviderSerialNumber CAOp = "increment-provider-serial"
)
// CARequest is used to modify connect CA data. This is used by the
// FSM (agent/consul/fsm) to apply changes.
type CARequest struct {
// Op is the type of operation being requested. This determines what
// other fields are required.
Op CAOp
// Datacenter is the target for this request.
Datacenter string
// Index is used by CAOpSetRoots and CAOpSetConfig for a CAS operation.
Index uint64
// Roots is a list of roots. This is used for CAOpSet. One root must
// always be active.
Roots []*CARoot
// Config is the configuration for the current CA plugin.
Config *CAConfiguration
// ProviderState is the state for the builtin CA provider.
ProviderState *CAConsulProviderState
// WriteRequest is a common struct containing ACL tokens and other
// write-related common elements for requests.
WriteRequest
}
// RequestDatacenter returns the datacenter for a given request.
func (q *CARequest) RequestDatacenter() string {
return q.Datacenter
}
const (
ConsulCAProvider = "consul"
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VaultCAProvider = "vault"
AWSCAProvider = "aws-pca"
)
// CAConfiguration is the configuration for the current CA plugin.
type CAConfiguration struct {
// ClusterID is a unique identifier for the cluster
ClusterID string `json:"-"`
// Provider is the CA provider implementation to use.
Provider string
// Configuration is arbitrary configuration for the provider. This
// should only contain primitive values and containers (such as lists
// and maps).
Config map[string]interface{}
// State is optionally used by the provider to persist information it needs
// between reloads like UUIDs of resources it manages. It only supports string
// values to avoid gotchas with interface{} since this is encoded through
// msgpack when it's written through raft. For example if providers used a
// custom struct or even a simple `int` type, msgpack with loose type
// information during encode/decode and providers will end up getting back
// different types have have to remember to test multiple variants of state
// handling to account for cases where it's been through msgpack or not.
// Keeping this as strings only forces compatibility and leaves the input
// Providers have to work with unambiguous - they can parse ints or other
// types as they need. We expect this only to be used to store a handful of
// identifiers anyway so this is simpler.
State map[string]string
// ForceWithoutCrossSigning indicates that the CA reconfiguration should go
// ahead even if the current CA is unable to cross sign certificates. This
// risks temporary connection failures during the rollout as new leafs will be
// rejected by proxies that have not yet observed the new root cert but is the
// only option if a CA that doesn't support cross signing needs to be
// reconfigured or mirated away from.
ForceWithoutCrossSigning bool
RaftIndex
}
func (c *CAConfiguration) UnmarshalJSON(data []byte) (err error) {
type Alias CAConfiguration
aux := &struct {
ForceWithoutCrossSigningSnake bool `json:"force_without_cross_signing"`
*Alias
}{
Alias: (*Alias)(c),
}
if err = lib.UnmarshalJSON(data, &aux); err != nil {
return err
}
if aux.ForceWithoutCrossSigningSnake {
c.ForceWithoutCrossSigning = aux.ForceWithoutCrossSigningSnake
}
return nil
}
func (c *CAConfiguration) GetCommonConfig() (*CommonCAProviderConfig, error) {
if c == nil {
return nil, fmt.Errorf("config map was nil")
}
var config CommonCAProviderConfig
// Set Defaults
config.CSRMaxPerSecond = 50 // See doc comment for rationale here.
decodeConf := &mapstructure.DecoderConfig{
Fix CA pruning when CA config uses string durations. (#4669) * Fix CA pruning when CA config uses string durations. The tl;dr here is: - Configuring LeafCertTTL with a string like "72h" is how we do it by default and should be supported - Most of our tests managed to escape this by defining them as time.Duration directly - Out actual default value is a string - Since this is stored in a map[string]interface{} config, when it is written to Raft it goes through a msgpack encode/decode cycle (even though it's written from server not over RPC). - msgpack decode leaves the string as a `[]uint8` - Some of our parsers required string and failed - So after 1 hour, a default configured server would throw an error about pruning old CAs - If a new CA was configured that set LeafCertTTL as a time.Duration, things might be OK after that, but if a new CA was just configured from config file, intialization would cause same issue but always fail still so would never prune the old CA. - Mostly this is just a janky error that got passed tests due to many levels of complicated encoding/decoding. tl;dr of the tl;dr: Yay for type safety. Map[string]interface{} combined with msgpack always goes wrong but we somehow get bitten every time in a new way :D We already fixed this once! The main CA config had the same problem so @kyhavlov already wrote the mapstructure DecodeHook that fixes it. It wasn't used in several places it needed to be and one of those is notw in `structs` which caused a dependency cycle so I've moved them. This adds a whole new test thta explicitly tests the case that broke here. It also adds tests that would have failed in other places before (Consul and Vaul provider parsing functions). I'm not sure if they would ever be affected as it is now as we've not seen things broken with them but it seems better to explicitly test that and support it to not be bitten a third time! * Typo fix * Fix bad Uint8 usage
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DecodeHook: ParseDurationFunc(),
Result: &config,
WeaklyTypedInput: true,
}
decoder, err := mapstructure.NewDecoder(decodeConf)
if err != nil {
return nil, err
}
if err := decoder.Decode(c.Config); err != nil {
return nil, fmt.Errorf("error decoding config: %s", err)
}
return &config, nil
}
type CommonCAProviderConfig struct {
LeafCertTTL time.Duration
RootCertTTL time.Duration
// IntermediateCertTTL is only valid in the primary datacenter, and determines
// the duration that any signed intermediates are valid for.
IntermediateCertTTL time.Duration
SkipValidate bool
// CSRMaxPerSecond is a rate limit on processing Connect Certificate Signing
// Requests on the servers. It applies to all CA providers so can be used to
// limit rate to an external CA too. 0 disables the rate limit. Defaults to 50
// which is low enough to prevent overload of a reasonably sized production
// server while allowing a cluster with 1000 service instances to complete a
// rotation in 20 seconds. For reference a quad-core 2017 MacBook pro can
// process 100 signing RPCs a second while using less than half of one core.
// For large clusters with powerful servers it's advisable to increase this
// rate or to disable this limit and instead rely on CSRMaxConcurrent to only
// consume a subset of the server's cores.
CSRMaxPerSecond float32
// CSRMaxConcurrent is a limit on how many concurrent CSR signing requests
// will be processed in parallel. New incoming signing requests will try for
// `consul.csrSemaphoreWait` (currently 500ms) for a slot before being
// rejected with a "rate limited" backpressure response. This effectively sets
// how many CPU cores can be occupied by Connect CA signing activity and
// should be a (small) subset of your server's available cores to allow other
// tasks to complete when a barrage of CSRs come in (e.g. after a CA root
// rotation). Setting to 0 disables the limit, attempting to sign certs
// immediately in the RPC goroutine. This is 0 by default and CSRMaxPerSecond
// is used. This is ignored if CSRMaxPerSecond is non-zero.
CSRMaxConcurrent int
// PrivateKeyType specifies which type of key the CA should generate. It only
// applies when the provider is generating its own key and is ignored if the
// provider already has a key or an external key is provided. Supported values
// are "ec" or "rsa". "ec" is the default and will generate a NIST P-256
// Elliptic key.
PrivateKeyType string
// PrivateKeyBits specifies the number of bits the CA's private key should
// use. For RSA, supported values are 2048 and 4096. For EC, supported values
// are 224, 256, 384 and 521 and correspond to the NIST P-* curve of the same
// name. As with PrivateKeyType this is only relevant whan the provier is
// generating new CA keys (root or intermediate).
PrivateKeyBits int
}
var MinLeafCertTTL = time.Hour
var MaxLeafCertTTL = 365 * 24 * time.Hour
// intermediateCertRenewInterval is the interval at which the expiration
// of the intermediate cert is checked and renewed if necessary.
var IntermediateCertRenewInterval = time.Hour
func (c CommonCAProviderConfig) Validate() error {
if c.SkipValidate {
return nil
}
// it's sufficient to check that the root cert ttl >= intermediate cert ttl
// since intermediate cert ttl >= 3* leaf cert ttl; so root cert ttl >= 3 * leaf cert ttl > leaf cert ttl
if c.RootCertTTL < c.IntermediateCertTTL {
return fmt.Errorf("root cert TTL is set and is not greater than intermediate cert ttl. root cert ttl: %s, intermediate cert ttl: %s", c.RootCertTTL, c.IntermediateCertTTL)
}
if c.LeafCertTTL < MinLeafCertTTL {
return fmt.Errorf("leaf cert TTL must be greater or equal than %s", MinLeafCertTTL)
}
if c.LeafCertTTL > MaxLeafCertTTL {
return fmt.Errorf("leaf cert TTL must be less than %s", MaxLeafCertTTL)
}
if c.IntermediateCertTTL < (3 * IntermediateCertRenewInterval) {
// Intermediate Certificates are checked every
// hour(intermediateCertRenewInterval) if they are about to
// expire. Recreating an intermediate certs is started once
// more than half its lifetime has passed.
// If it would be 2h, worst case is that the check happens
// right before half time and when the check happens again, the
// certificate is very close to expiring, leaving only a small
// timeframe to renew. 3h leaves more than 30min to recreate.
// Right now the minimum LeafCertTTL is 1h, which means this
// check not strictly needed, because the same thing is covered
// in the next check too. But just in case minimum LeafCertTTL
// changes at some point, this validation must still be
// performed.
return fmt.Errorf("Intermediate Cert TTL must be greater or equal than %dh", 3*int(IntermediateCertRenewInterval.Hours()))
}
if c.IntermediateCertTTL < (3 * c.LeafCertTTL) {
// Intermediate Certificates are being sent to the proxy when
// the Leaf Certificate changes because they are bundled
// together.
// That means that the Intermediate Certificate TTL must be at
// a minimum of 3 * Leaf Certificate TTL to ensure that the new
// Intermediate is being set together with the Leaf Certificate
// before it expires.
return fmt.Errorf("Intermediate Cert TTL must be greater or equal than 3 * LeafCertTTL (>=%s).", 3*c.LeafCertTTL)
}
switch c.PrivateKeyType {
case "ec":
if c.PrivateKeyBits != 224 && c.PrivateKeyBits != 256 && c.PrivateKeyBits != 384 && c.PrivateKeyBits != 521 {
return fmt.Errorf("EC key length must be one of (224, 256, 384, 521) bits")
}
case "rsa":
if c.PrivateKeyBits != 2048 && c.PrivateKeyBits != 4096 {
return fmt.Errorf("RSA key length must be 2048 or 4096 bits")
}
default:
return fmt.Errorf("private key type must be either 'ec' or 'rsa'")
}
return nil
}
type ConsulCAProviderConfig struct {
CommonCAProviderConfig `mapstructure:",squash"`
PrivateKey string
RootCert string
// DisableCrossSigning is really only useful in test code to use the built in
// provider while exercising logic that depends on the CA provider ability to
// cross sign. We don't document this config field publicly or make any
// attempt to parse it from snake case unlike other fields here.
DisableCrossSigning bool
}
func (c *ConsulCAProviderConfig) Validate() error {
return nil
}
// CAConsulProviderState is used to track the built-in Consul CA provider's state.
type CAConsulProviderState struct {
ID string
PrivateKey string
RootCert string
IntermediateCert string
RaftIndex
}
2018-06-13 08:40:03 +00:00
type VaultCAProviderConfig struct {
CommonCAProviderConfig `mapstructure:",squash"`
Address string
Token string
RootPKIPath string
RootPKINamespace string
IntermediatePKIPath string
IntermediatePKINamespace string
Namespace string
CAFile string
CAPath string
CertFile string
KeyFile string
TLSServerName string
TLSSkipVerify bool
AuthMethod *VaultAuthMethod `alias:"auth_method"`
}
type VaultAuthMethod struct {
Type string
MountPath string `alias:"mount_path"`
Params map[string]interface{}
2018-06-13 08:40:03 +00:00
}
Fix CA pruning when CA config uses string durations. (#4669) * Fix CA pruning when CA config uses string durations. The tl;dr here is: - Configuring LeafCertTTL with a string like "72h" is how we do it by default and should be supported - Most of our tests managed to escape this by defining them as time.Duration directly - Out actual default value is a string - Since this is stored in a map[string]interface{} config, when it is written to Raft it goes through a msgpack encode/decode cycle (even though it's written from server not over RPC). - msgpack decode leaves the string as a `[]uint8` - Some of our parsers required string and failed - So after 1 hour, a default configured server would throw an error about pruning old CAs - If a new CA was configured that set LeafCertTTL as a time.Duration, things might be OK after that, but if a new CA was just configured from config file, intialization would cause same issue but always fail still so would never prune the old CA. - Mostly this is just a janky error that got passed tests due to many levels of complicated encoding/decoding. tl;dr of the tl;dr: Yay for type safety. Map[string]interface{} combined with msgpack always goes wrong but we somehow get bitten every time in a new way :D We already fixed this once! The main CA config had the same problem so @kyhavlov already wrote the mapstructure DecodeHook that fixes it. It wasn't used in several places it needed to be and one of those is notw in `structs` which caused a dependency cycle so I've moved them. This adds a whole new test thta explicitly tests the case that broke here. It also adds tests that would have failed in other places before (Consul and Vaul provider parsing functions). I'm not sure if they would ever be affected as it is now as we've not seen things broken with them but it seems better to explicitly test that and support it to not be bitten a third time! * Typo fix * Fix bad Uint8 usage
2018-09-13 14:43:00 +00:00
type AWSCAProviderConfig struct {
CommonCAProviderConfig `mapstructure:",squash"`
ExistingARN string
DeleteOnExit bool
}
// CALeafOp is the operation for a request related to leaf certificates.
type CALeafOp string
const (
CALeafOpIncrementIndex CALeafOp = "increment-index"
)
// CALeafRequest is used to modify connect CA leaf data. This is used by the
// FSM (agent/consul/fsm) to apply changes.
type CALeafRequest struct {
// Op is the type of operation being requested. This determines what
// other fields are required.
Op CALeafOp
// Datacenter is the target for this request.
Datacenter string
// WriteRequest is a common struct containing ACL tokens and other
// write-related common elements for requests.
WriteRequest
}
// RequestDatacenter returns the datacenter for a given request.
func (q *CALeafRequest) RequestDatacenter() string {
return q.Datacenter
}
Fix CA pruning when CA config uses string durations. (#4669) * Fix CA pruning when CA config uses string durations. The tl;dr here is: - Configuring LeafCertTTL with a string like "72h" is how we do it by default and should be supported - Most of our tests managed to escape this by defining them as time.Duration directly - Out actual default value is a string - Since this is stored in a map[string]interface{} config, when it is written to Raft it goes through a msgpack encode/decode cycle (even though it's written from server not over RPC). - msgpack decode leaves the string as a `[]uint8` - Some of our parsers required string and failed - So after 1 hour, a default configured server would throw an error about pruning old CAs - If a new CA was configured that set LeafCertTTL as a time.Duration, things might be OK after that, but if a new CA was just configured from config file, intialization would cause same issue but always fail still so would never prune the old CA. - Mostly this is just a janky error that got passed tests due to many levels of complicated encoding/decoding. tl;dr of the tl;dr: Yay for type safety. Map[string]interface{} combined with msgpack always goes wrong but we somehow get bitten every time in a new way :D We already fixed this once! The main CA config had the same problem so @kyhavlov already wrote the mapstructure DecodeHook that fixes it. It wasn't used in several places it needed to be and one of those is notw in `structs` which caused a dependency cycle so I've moved them. This adds a whole new test thta explicitly tests the case that broke here. It also adds tests that would have failed in other places before (Consul and Vaul provider parsing functions). I'm not sure if they would ever be affected as it is now as we've not seen things broken with them but it seems better to explicitly test that and support it to not be bitten a third time! * Typo fix * Fix bad Uint8 usage
2018-09-13 14:43:00 +00:00
// ParseDurationFunc is a mapstructure hook for decoding a string or
// []uint8 into a time.Duration value.
func ParseDurationFunc() mapstructure.DecodeHookFunc {
return func(
f reflect.Type,
t reflect.Type,
data interface{}) (interface{}, error) {
var v time.Duration
if t != reflect.TypeOf(v) {
return data, nil
}
switch {
case f.Kind() == reflect.String:
if dur, err := time.ParseDuration(data.(string)); err != nil {
return nil, err
} else {
v = dur
}
return v, nil
case f == reflect.SliceOf(reflect.TypeOf(uint8(0))):
s := Uint8ToString(data.([]uint8))
if dur, err := time.ParseDuration(s); err != nil {
return nil, err
} else {
v = dur
}
return v, nil
default:
return data, nil
}
}
}
func Uint8ToString(bs []uint8) string {
b := make([]byte, len(bs))
for i, v := range bs {
b[i] = v
Fix CA pruning when CA config uses string durations. (#4669) * Fix CA pruning when CA config uses string durations. The tl;dr here is: - Configuring LeafCertTTL with a string like "72h" is how we do it by default and should be supported - Most of our tests managed to escape this by defining them as time.Duration directly - Out actual default value is a string - Since this is stored in a map[string]interface{} config, when it is written to Raft it goes through a msgpack encode/decode cycle (even though it's written from server not over RPC). - msgpack decode leaves the string as a `[]uint8` - Some of our parsers required string and failed - So after 1 hour, a default configured server would throw an error about pruning old CAs - If a new CA was configured that set LeafCertTTL as a time.Duration, things might be OK after that, but if a new CA was just configured from config file, intialization would cause same issue but always fail still so would never prune the old CA. - Mostly this is just a janky error that got passed tests due to many levels of complicated encoding/decoding. tl;dr of the tl;dr: Yay for type safety. Map[string]interface{} combined with msgpack always goes wrong but we somehow get bitten every time in a new way :D We already fixed this once! The main CA config had the same problem so @kyhavlov already wrote the mapstructure DecodeHook that fixes it. It wasn't used in several places it needed to be and one of those is notw in `structs` which caused a dependency cycle so I've moved them. This adds a whole new test thta explicitly tests the case that broke here. It also adds tests that would have failed in other places before (Consul and Vaul provider parsing functions). I'm not sure if they would ever be affected as it is now as we've not seen things broken with them but it seems better to explicitly test that and support it to not be bitten a third time! * Typo fix * Fix bad Uint8 usage
2018-09-13 14:43:00 +00:00
}
return string(b)
}