open-consul/agent/structs/intention.go

package structs

import (
	"fmt"
	"strconv"
	"strings"
	"time"

	"github.com/hashicorp/consul/agent/cache"
	"github.com/hashicorp/go-multierror"
	"github.com/mitchellh/hashstructure"
)

const (
	// IntentionWildcard is the wildcard value.
	IntentionWildcard = "*"

	// IntentionDefaultNamespace is the default namespace value.
	// NOTE(mitchellh): This is only meant to be a temporary constant.
	// When namespaces are introduced, we should delete this constant and
	// fix up all the places where this was used with the proper namespace
	// value.
	IntentionDefaultNamespace = "default"
)

// Intention defines an intention for the Connect Service Graph. This defines
// the allowed or denied behavior of a connection between two services using
// Connect.
type Intention struct {
	// ID is the UUID-based ID for the intention, always generated by Consul.
	ID string

	// Description is a human-friendly description of this intention.
	// It is opaque to Consul and is only stored and transferred in API
	// requests.
	Description string

	// SourceNS, SourceName are the namespace and name, respectively, of
	// the source service. Either of these may be the wildcard "*", but only
	// the full value can be a wildcard. Partial wildcards are not allowed.
	// The source may also be a non-Consul service, as specified by SourceType.
	//
	// DestinationNS, DestinationName is the same, but for the destination
	// service. The same rules apply. The destination is always a Consul
	// service.
	SourceNS, SourceName           string
	DestinationNS, DestinationName string

	// SourceType is the type of the value for the source.
	SourceType IntentionSourceType

	// Action is whether this is a whitelist or blacklist intention.
	Action IntentionAction

	// DefaultAddr, DefaultPort of the local listening proxy (if any) to
	// make this connection.
	DefaultAddr string
	DefaultPort int

	// Meta is arbitrary metadata associated with the intention. This is
	// opaque to Consul but is served in API responses.
	Meta map[string]string

	// CreatedAt and UpdatedAt keep track of when this record was created
	// or modified.
	CreatedAt, UpdatedAt time.Time `mapstructure:"-"`

	RaftIndex
}

// Validate returns an error if the intention is invalid for inserting
// or updating.
func (x *Intention) Validate() error {
	var result error

	// Empty values
	if x.SourceNS == "" {
		result = multierror.Append(result, fmt.Errorf("SourceNS must be set"))
	}
	if x.SourceName == "" {
		result = multierror.Append(result, fmt.Errorf("SourceName must be set"))
	}
	if x.DestinationNS == "" {
		result = multierror.Append(result, fmt.Errorf("DestinationNS must be set"))
	}
	if x.DestinationName == "" {
		result = multierror.Append(result, fmt.Errorf("DestinationName must be set"))
	}

	// Wildcard usage verification
	if x.SourceNS != IntentionWildcard {
		if strings.Contains(x.SourceNS, IntentionWildcard) {
			result = multierror.Append(result, fmt.Errorf(
				"SourceNS: wildcard character '*' cannot be used with partial values"))
		}
	}
	if x.SourceName != IntentionWildcard {
		if strings.Contains(x.SourceName, IntentionWildcard) {
			result = multierror.Append(result, fmt.Errorf(
				"SourceName: wildcard character '*' cannot be used with partial values"))
		}

		if x.SourceNS == IntentionWildcard {
			result = multierror.Append(result, fmt.Errorf(
				"SourceName: exact value cannot follow wildcard namespace"))
		}
	}
	if x.DestinationNS != IntentionWildcard {
		if strings.Contains(x.DestinationNS, IntentionWildcard) {
			result = multierror.Append(result, fmt.Errorf(
				"DestinationNS: wildcard character '*' cannot be used with partial values"))
		}
	}
	if x.DestinationName != IntentionWildcard {
		if strings.Contains(x.DestinationName, IntentionWildcard) {
			result = multierror.Append(result, fmt.Errorf(
				"DestinationName: wildcard character '*' cannot be used with partial values"))
		}

		if x.DestinationNS == IntentionWildcard {
			result = multierror.Append(result, fmt.Errorf(
				"DestinationName: exact value cannot follow wildcard namespace"))
		}
	}

	// Length of opaque values
	if len(x.Description) > metaValueMaxLength {
		result = multierror.Append(result, fmt.Errorf(
			"Description exceeds maximum length %d", metaValueMaxLength))
	}
	if len(x.Meta) > metaMaxKeyPairs {
		result = multierror.Append(result, fmt.Errorf(
			"Meta exceeds maximum element count %d", metaMaxKeyPairs))
	}
	for k, v := range x.Meta {
		if len(k) > metaKeyMaxLength {
			result = multierror.Append(result, fmt.Errorf(
				"Meta key %q exceeds maximum length %d", k, metaKeyMaxLength))
		}
		if len(v) > metaValueMaxLength {
			result = multierror.Append(result, fmt.Errorf(
				"Meta value for key %q exceeds maximum length %d", k, metaValueMaxLength))
		}
	}

	switch x.Action {
	case IntentionActionAllow, IntentionActionDeny:
	default:
		result = multierror.Append(result, fmt.Errorf(
			"Action must be set to 'allow' or 'deny'"))
	}

	switch x.SourceType {
	case IntentionSourceConsul:
	default:
		result = multierror.Append(result, fmt.Errorf(
			"SourceType must be set to 'consul'"))
	}

	return result
}

// GetACLPrefix returns the prefix to look up the ACL policy for this
// intention, and a boolean noting whether the prefix is valid to check
// or not. You must check the ok value before using the prefix.
func (x *Intention) GetACLPrefix() (string, bool) {
	return x.DestinationName, x.DestinationName != ""
}

// String returns a human-friendly string for this intention.
func (x *Intention) String() string {
	return fmt.Sprintf("%s %s/%s => %s/%s (ID: %s)",
		strings.ToUpper(string(x.Action)),
		x.SourceNS, x.SourceName,
		x.DestinationNS, x.DestinationName,
		x.ID)
}

// IntentionAction is the action that the intention represents. This
// can be "allow" or "deny" to whitelist or blacklist intentions.
type IntentionAction string

const (
	IntentionActionAllow IntentionAction = "allow"
	IntentionActionDeny  IntentionAction = "deny"
)

// IntentionSourceType is the type of the source within an intention.
type IntentionSourceType string

const (
	// IntentionSourceConsul is a service within the Consul catalog.
	IntentionSourceConsul IntentionSourceType = "consul"
)

// Intentions is a list of intentions.
type Intentions []*Intention

// IndexedIntentions represents a list of intentions for RPC responses.
type IndexedIntentions struct {
	Intentions Intentions
	QueryMeta
}

// IndexedIntentionMatches represents the list of matches for a match query.
type IndexedIntentionMatches struct {
	Matches []Intentions
	QueryMeta
}

// IntentionOp is the operation for a request related to intentions.
type IntentionOp string

const (
	IntentionOpCreate IntentionOp = "create"
	IntentionOpUpdate IntentionOp = "update"
	IntentionOpDelete IntentionOp = "delete"
)

// IntentionRequest is used to create, update, and delete intentions.
type IntentionRequest struct {
	// Datacenter is the target for this request.
	Datacenter string

	// Op is the type of operation being requested.
	Op IntentionOp

	// Intention is the intention.
	Intention *Intention

	// 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 *IntentionRequest) RequestDatacenter() string {
	return q.Datacenter
}

// IntentionMatchType is the target for a match request. For example,
// matching by source will look for all intentions that match the given
// source value.
type IntentionMatchType string

const (
	IntentionMatchSource      IntentionMatchType = "source"
	IntentionMatchDestination IntentionMatchType = "destination"
)

// IntentionQueryRequest is used to query intentions.
type IntentionQueryRequest struct {
	// Datacenter is the target this request is intended for.
	Datacenter string

	// IntentionID is the ID of a specific intention.
	IntentionID string

	// Match is non-nil if we're performing a match query. A match will
	// find intentions that "match" the given parameters. A match includes
	// resolving wildcards.
	Match *IntentionQueryMatch

	// Options for queries
	QueryOptions
}

// RequestDatacenter returns the datacenter for a given request.
func (q *IntentionQueryRequest) RequestDatacenter() string {
	return q.Datacenter
}

// CacheInfo implements cache.Request
func (q *IntentionQueryRequest) CacheInfo() cache.RequestInfo {
	// We only support caching Match queries, so if Match isn't set,
	// then return an empty info object which will cause a pass-through
	// (and likely fail).
	if q.Match == nil {
		return cache.RequestInfo{}
	}

	info := cache.RequestInfo{
		Token:      q.Token,
		Datacenter: q.Datacenter,
		MinIndex:   q.MinQueryIndex,
		Timeout:    q.MaxQueryTime,
	}

	// Calculate the cache key via just hashing the Match struct. This
	// has been configured so things like ordering of entries has no
	// effect (via struct tags).
	v, err := hashstructure.Hash(q.Match, nil)
	if err == nil {
		// If there is an error, we don't set the key. A blank key forces
		// no cache for this request so the request is forwarded directly
		// to the server.
		info.Key = strconv.FormatUint(v, 16)
	}

	return info
}

// IntentionQueryMatch are the parameters for performing a match request
// against the state store.
type IntentionQueryMatch struct {
	Type    IntentionMatchType
	Entries []IntentionMatchEntry
}

// IntentionMatchEntry is a single entry for matching an intention.
type IntentionMatchEntry struct {
	Namespace string
	Name      string
}

// IntentionPrecedenceSorter takes a list of intentions and sorts them
// based on the match precedence rules for intentions. The intentions
// closer to the head of the list have higher precedence. i.e. index 0 has
// the highest precedence.
type IntentionPrecedenceSorter Intentions

func (s IntentionPrecedenceSorter) Len() int { return len(s) }
func (s IntentionPrecedenceSorter) Swap(i, j int) {
	s[i], s[j] = s[j], s[i]
}

func (s IntentionPrecedenceSorter) Less(i, j int) bool {
	a, b := s[i], s[j]

	// First test the # of exact values in destination, since precedence
	// is destination-oriented.
	aExact := s.countExact(a.DestinationNS, a.DestinationName)
	bExact := s.countExact(b.DestinationNS, b.DestinationName)
	if aExact != bExact {
		return aExact > bExact
	}

	// Next test the # of exact values in source
	aExact = s.countExact(a.SourceNS, a.SourceName)
	bExact = s.countExact(b.SourceNS, b.SourceName)
	if aExact != bExact {
		return aExact > bExact
	}

	// Tie break on lexicographic order of the 4-tuple in canonical form (SrcNS,
	// Src, DstNS, Dst). This is arbitrary but it keeps sorting deterministic
	// which is a nice property for consistency. It is arguably open to abuse if
	// implementations rely on this however by definition the order among
	// same-precedence rules is arbitrary and doesn't affect whether an allow or
	// deny rule is acted on since all applicable rules are checked.
	if a.SourceNS != b.SourceNS {
		return a.SourceNS < b.SourceNS
	}
	if a.SourceName != b.SourceName {
		return a.SourceName < b.SourceName
	}
	if a.DestinationNS != b.DestinationNS {
		return a.DestinationNS < b.DestinationNS
	}
	return a.DestinationName < b.DestinationName
}

// countExact counts the number of exact values (not wildcards) in
// the given namespace and name.
func (s IntentionPrecedenceSorter) countExact(ns, n string) int {
	// If NS is wildcard, it must be zero since wildcards only follow exact
	if ns == IntentionWildcard {
		return 0
	}

	// Same reasoning as above, a wildcard can only follow an exact value
	// and an exact value cannot follow a wildcard, so if name is a wildcard
	// we must have exactly one.
	if n == IntentionWildcard {
		return 1
	}

	return 2
}