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loop/lsat/caveat.go

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package lsat
import (
"errors"
"fmt"
"strings"
"gopkg.in/macaroon.v2"
)
const (
// PreimageKey is the key used for a payment preimage caveat.
PreimageKey = "preimage"
)
var (
// ErrInvalidCaveat is an error returned when we attempt to decode a
// caveat with an invalid format.
ErrInvalidCaveat = errors.New("caveat must be of the form " +
"\"condition=value\"")
)
// Caveat is a predicate that can be applied to an LSAT in order to restrict its
// use in some form. Caveats are evaluated during LSAT verification after the
// LSAT's signature is verified. The predicate of each caveat must hold true in
// order to successfully validate an LSAT.
type Caveat struct {
// Condition serves as a way to identify a caveat and how to satisfy it.
Condition string
// Value is what will be used to satisfy a caveat. This can be as
// flexible as needed, as long as it can be encoded into a string.
Value string
}
// NewCaveat construct a new caveat with the given condition and value.
func NewCaveat(condition string, value string) Caveat {
return Caveat{Condition: condition, Value: value}
}
// String returns a user-friendly view of a caveat.
func (c Caveat) String() string {
return EncodeCaveat(c)
}
// EncodeCaveat encodes a caveat into its string representation.
func EncodeCaveat(c Caveat) string {
return fmt.Sprintf("%v=%v", c.Condition, c.Value)
}
// DecodeCaveat decodes a caveat from its string representation.
func DecodeCaveat(s string) (Caveat, error) {
parts := strings.SplitN(s, "=", 2)
if len(parts) != 2 {
return Caveat{}, ErrInvalidCaveat
}
return Caveat{Condition: parts[0], Value: parts[1]}, nil
}
// AddFirstPartyCaveats adds a set of caveats as first-party caveats to a
// macaroon.
func AddFirstPartyCaveats(m *macaroon.Macaroon, caveats ...Caveat) error {
for _, c := range caveats {
rawCaveat := []byte(EncodeCaveat(c))
if err := m.AddFirstPartyCaveat(rawCaveat); err != nil {
return err
}
}
return nil
}
// HasCaveat checks whether the given macaroon has a caveat with the given
// condition, and if so, returns its value. If multiple caveats with the same
// condition exist, then the value of the last one is returned.
func HasCaveat(m *macaroon.Macaroon, cond string) (string, bool) {
var value *string
for _, rawCaveat := range m.Caveats() {
caveat, err := DecodeCaveat(string(rawCaveat.Id))
if err != nil {
// Ignore any unknown caveats as we can't decode them.
continue
}
if caveat.Condition == cond {
value = &caveat.Value
}
}
if value == nil {
return "", false
}
return *value, true
}
// VerifyCaveats determines whether every relevant caveat of an LSAT holds true.
// A caveat is considered relevant if a satisfier is provided for it, which is
// what we'll use as their evaluation.
//
// NOTE: The caveats provided should be in the same order as in the LSAT to
// ensure the correctness of each satisfier's SatisfyPrevious.
func VerifyCaveats(caveats []Caveat, satisfiers ...Satisfier) error {
// Construct a set of our satisfiers to determine which caveats we know
// how to satisfy.
caveatSatisfiers := make(map[string]Satisfier, len(satisfiers))
for _, satisfier := range satisfiers {
caveatSatisfiers[satisfier.Condition] = satisfier
}
relevantCaveats := make(map[string][]Caveat)
for _, caveat := range caveats {
if _, ok := caveatSatisfiers[caveat.Condition]; !ok {
continue
}
relevantCaveats[caveat.Condition] = append(
relevantCaveats[caveat.Condition], caveat,
)
}
for condition, caveats := range relevantCaveats {
satisfier := caveatSatisfiers[condition]
// Since it's possible for a chain of caveat to exist for the
// same condition as a way to demote privileges, we'll ensure
// each one satisfies its previous.
for i, j := 0, 1; j < len(caveats); i, j = i+1, j+1 {
prevCaveat := caveats[i]
curCaveat := caveats[j]
err := satisfier.SatisfyPrevious(prevCaveat, curCaveat)
if err != nil {
return err
}
}
// Once we verify the previous ones, if any, we can proceed to
// verify the final one, which is the decision maker.
err := satisfier.SatisfyFinal(caveats[len(caveats)-1])
if err != nil {
return err
}
}
return nil
}