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loop/lsat/satisfier.go

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package lsat
import (
"fmt"
"strings"
)
// Satisfier provides a generic interface to satisfy a caveat based on its
// condition.
type Satisfier struct {
// Condition is the condition of the caveat we'll attempt to satisfy.
Condition string
// SatisfyPrevious ensures a caveat is in accordance with a previous one
// with the same condition. This is needed since caveats of the same
// condition can be used multiple times as long as they enforce more
// permissions than the previous.
//
// For example, we have a caveat that only allows us to use an LSAT for
// 7 more days. We can add another caveat that only allows for 3 more
// days of use and lend it to another party.
SatisfyPrevious func(previous Caveat, current Caveat) error
// SatisfyFinal satisfies the final caveat of an LSAT. If multiple
// caveats with the same condition exist, this will only be executed
// once all previous caveats are also satisfied.
SatisfyFinal func(Caveat) error
}
// NewServicesSatisfier implements a satisfier to determine whether the target
// service is authorized for a given LSAT.
//
// TODO(wilmer): Add tier verification?
func NewServicesSatisfier(targetService string) Satisfier {
return Satisfier{
Condition: CondServices,
SatisfyPrevious: func(prev, cur Caveat) error {
// Construct a set of the services we were previously
// allowed to access.
prevServices, err := decodeServicesCaveatValue(prev.Value)
if err != nil {
return err
}
prevAllowed := make(map[string]struct{}, len(prevServices))
for _, service := range prevServices {
prevAllowed[service.Name] = struct{}{}
}
// The caveat should not include any new services that
// weren't previously allowed.
currentServices, err := decodeServicesCaveatValue(cur.Value)
if err != nil {
return err
}
for _, service := range currentServices {
if _, ok := prevAllowed[service.Name]; !ok {
return fmt.Errorf("service %v not "+
"previously allowed", service)
}
}
return nil
},
SatisfyFinal: func(c Caveat) error {
services, err := decodeServicesCaveatValue(c.Value)
if err != nil {
return err
}
for _, service := range services {
if service.Name == targetService {
return nil
}
}
return fmt.Errorf("target service %v not authorized",
targetService)
},
}
}
// NewCapabilitiesSatisfier implements a satisfier to determine whether the
// target capability for a service is authorized for a given LSAT.
func NewCapabilitiesSatisfier(service string, targetCapability string) Satisfier {
return Satisfier{
Condition: service + CondCapabilitiesSuffix,
SatisfyPrevious: func(prev, cur Caveat) error {
// Construct a set of the service's capabilities we were
// previously allowed to access.
prevCapabilities := strings.Split(prev.Value, ",")
allowed := make(map[string]struct{}, len(prevCapabilities))
for _, capability := range prevCapabilities {
allowed[capability] = struct{}{}
}
// The caveat should not include any new service
// capabilities that weren't previously allowed.
currentCapabilities := strings.Split(cur.Value, ",")
for _, capability := range currentCapabilities {
if _, ok := allowed[capability]; !ok {
return fmt.Errorf("capability %v not "+
"previously allowed", capability)
}
}
return nil
},
SatisfyFinal: func(c Caveat) error {
capabilities := strings.Split(c.Value, ",")
for _, capability := range capabilities {
if capability == targetCapability {
return nil
}
}
return fmt.Errorf("target capability %v not authorized",
targetCapability)
},
}
}