dex/storage/storage.go

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package storage
import (
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"crypto/rsa"
"encoding/base32"
"errors"
"fmt"
"io"
"strings"
"time"
jose "gopkg.in/square/go-jose.v2"
)
var (
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// ErrNotFound is the error returned by storages if a resource cannot be found.
ErrNotFound = errors.New("not found")
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// ErrAlreadyExists is the error returned by storages if a resource ID is taken during a create.
ErrAlreadyExists = errors.New("ID already exists")
)
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// Kubernetes only allows lower case letters for names.
//
// TODO(ericchiang): refactor ID creation onto the storage.
var encoding = base32.NewEncoding("abcdefghijklmnopqrstuvwxyz234567")
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// NewID returns a random string which can be used as an ID for objects.
func NewID() string {
buff := make([]byte, 16) // 128 bit random ID.
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if _, err := io.ReadFull(rand.Reader, buff); err != nil {
panic(err)
}
// Trim padding
return strings.TrimRight(encoding.EncodeToString(buff), "=")
}
// GCResult returns the number of objects deleted by garbage collection.
type GCResult struct {
AuthRequests int64
AuthCodes int64
}
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// Storage is the storage interface used by the server. Implementations, at minimum
// require compare-and-swap atomic actions.
//
// Implementations are expected to perform their own garbage collection of
// expired objects (expect keys, which are handled by the server).
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type Storage interface {
Close() error
// TODO(ericchiang): Let the storages set the IDs of these objects.
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CreateAuthRequest(a AuthRequest) error
CreateClient(c Client) error
CreateAuthCode(c AuthCode) error
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CreateRefresh(r RefreshToken) error
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CreatePassword(p Password) error
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// TODO(ericchiang): return (T, bool, error) so we can indicate not found
// requests that way instead of using ErrNotFound.
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GetAuthRequest(id string) (AuthRequest, error)
GetAuthCode(id string) (AuthCode, error)
GetClient(id string) (Client, error)
GetKeys() (Keys, error)
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GetRefresh(id string) (RefreshToken, error)
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GetPassword(email string) (Password, error)
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ListClients() ([]Client, error)
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ListRefreshTokens() ([]RefreshToken, error)
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// Delete methods MUST be atomic.
DeleteAuthRequest(id string) error
DeleteAuthCode(code string) error
DeleteClient(id string) error
DeleteRefresh(id string) error
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DeletePassword(email string) error
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// Update functions are assumed to be a performed within a single object transaction.
//
// updaters may be called multiple times.
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UpdateClient(id string, updater func(old Client) (Client, error)) error
UpdateKeys(updater func(old Keys) (Keys, error)) error
UpdateAuthRequest(id string, updater func(a AuthRequest) (AuthRequest, error)) error
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UpdatePassword(email string, updater func(p Password) (Password, error)) error
// GarbageCollect deletes all expired AuthCodes and AuthRequests.
GarbageCollect(now time.Time) (GCResult, error)
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}
// Client represents an OAuth2 client.
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//
// For further reading see:
// * Trusted peers: https://developers.google.com/identity/protocols/CrossClientAuth
// * Public clients: https://developers.google.com/api-client-library/python/auth/installed-app
type Client struct {
// Client ID and secret used to identify the client.
ID string `json:"id" yaml:"id"`
Secret string `json:"secret" yaml:"secret"`
// A registered set of redirect URIs. When redirecting from dex to the client, the URI
// requested to redirect to MUST match one of these values, unless the client is "public".
RedirectURIs []string `json:"redirectURIs" yaml:"redirectURIs"`
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// TrustedPeers are a list of peers which can issue tokens on this client's behalf using
// the dynamic "oauth2:server:client_id:(client_id)" scope. If a peer makes such a request,
// this client's ID will appear as the ID Token's audience.
//
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// Clients inherently trust themselves.
TrustedPeers []string `json:"trustedPeers" yaml:"trustedPeers"`
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// Public clients must use either use a redirectURL 127.0.0.1:X or "urn:ietf:wg:oauth:2.0:oob"
Public bool `json:"public" yaml:"public"`
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// Name and LogoURL used when displaying this client to the end user.
Name string `json:"name" yaml:"name"`
LogoURL string `json:"logoURL" yaml:"logoURL"`
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}
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// Claims represents the ID Token claims supported by the server.
type Claims struct {
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UserID string
Username string
Email string
EmailVerified bool
Groups []string
}
// AuthRequest represents a OAuth2 client authorization request. It holds the state
// of a single auth flow up to the point that the user authorizes the client.
type AuthRequest struct {
// ID used to identify the authorization request.
ID string
// ID of the client requesting authorization from a user.
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ClientID string
// Values parsed from the initial request. These describe the resources the client is
// requesting as well as values describing the form of the response.
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ResponseTypes []string
Scopes []string
RedirectURI string
Nonce string
State string
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// The client has indicated that the end user must be shown an approval prompt
// on all requests. The server cannot cache their initial action for subsequent
// attempts.
ForceApprovalPrompt bool
Expiry time.Time
// Has the user proved their identity through a backing identity provider?
//
// If false, the following fields are invalid.
LoggedIn bool
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// The identity of the end user. Generally nil until the user authenticates
// with a backend.
Claims Claims
// The connector used to login the user and any data the connector wishes to persists.
// Set when the user authenticates.
ConnectorID string
ConnectorData []byte
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}
// AuthCode represents a code which can be exchanged for an OAuth2 token response.
//
// This value is created once an end user has authorized a client, the server has
// redirect the end user back to the client, but the client hasn't exchanged the
// code for an access_token and id_token.
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type AuthCode struct {
// Actual string returned as the "code" value.
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ID string
// The client this code value is valid for. When exchanging the code for a
// token response, the client must use its client_secret to authenticate.
ClientID string
// As part of the OAuth2 spec when a client makes a token request it MUST
// present the same redirect_uri as the initial redirect. This values is saved
// to make this check.
//
// https://tools.ietf.org/html/rfc6749#section-4.1.3
RedirectURI string
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// If provided by the client in the initial request, the provider MUST create
// a ID Token with this nonce in the JWT payload.
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Nonce string
// Scopes authorized by the end user for the client.
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Scopes []string
// Authentication data provided by an upstream source.
ConnectorID string
ConnectorData []byte
Claims Claims
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Expiry time.Time
}
// RefreshToken is an OAuth2 refresh token which allows a client to request new
// tokens on the end user's behalf.
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type RefreshToken struct {
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// The actual refresh token.
RefreshToken string
// Client this refresh token is valid for.
ClientID string
// Authentication data provided by an upstream source.
ConnectorID string
ConnectorData []byte
Claims Claims
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// Scopes present in the initial request. Refresh requests may specify a set
// of scopes different from the initial request when refreshing a token,
// however those scopes must be encompassed by this set.
Scopes []string
// Nonce value supplied during the initial redirect. This is required to be part
// of the claims of any future id_token generated by the client.
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Nonce string
}
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// Password is an email to password mapping managed by the storage.
type Password struct {
// Email and identifying name of the password. Emails are assumed to be valid and
// determining that an end-user controls the address is left to an outside application.
//
// Emails are case insensitive and should be standardized by the storage.
//
// Storages that don't support an extended character set for IDs, such as '.' and '@'
// (cough cough, kubernetes), must map this value appropriately.
Email string `yaml:"email"`
// Bcrypt encoded hash of the password. This package enforces a min cost value of 10
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Hash []byte `yaml:"hash"`
// Optional username to display. NOT used during login.
Username string `yaml:"username"`
// Randomly generated user ID. This is NOT the primary ID of the Password object.
UserID string `yaml:"userID"`
}
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// VerificationKey is a rotated signing key which can still be used to verify
// signatures.
type VerificationKey struct {
PublicKey *jose.JSONWebKey `json:"publicKey"`
Expiry time.Time `json:"expiry"`
}
// Keys hold encryption and signing keys.
type Keys struct {
// Key for creating and verifying signatures. These may be nil.
SigningKey *jose.JSONWebKey
SigningKeyPub *jose.JSONWebKey
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// Old signing keys which have been rotated but can still be used to validate
// existing signatures.
VerificationKeys []VerificationKey
// The next time the signing key will rotate.
//
// For caching purposes, implementations MUST NOT update keys before this time.
NextRotation time.Time
}
// Sign creates a JWT using the signing key.
func (k Keys) Sign(payload []byte) (jws string, err error) {
if k.SigningKey == nil {
return "", fmt.Errorf("no key to sign payload with")
}
signingKey := jose.SigningKey{Key: k.SigningKey}
switch key := k.SigningKey.Key.(type) {
case *rsa.PrivateKey:
// TODO(ericchiang): Allow different cryptographic hashes.
signingKey.Algorithm = jose.RS256
case *ecdsa.PrivateKey:
switch key.Params() {
case elliptic.P256().Params():
signingKey.Algorithm = jose.ES256
case elliptic.P384().Params():
signingKey.Algorithm = jose.ES384
case elliptic.P521().Params():
signingKey.Algorithm = jose.ES512
default:
return "", errors.New("unsupported ecdsa curve")
}
}
signer, err := jose.NewSigner(signingKey, &jose.SignerOptions{})
if err != nil {
return "", fmt.Errorf("new signier: %v", err)
}
signature, err := signer.Sign(payload)
if err != nil {
return "", fmt.Errorf("signing payload: %v", err)
}
return signature.CompactSerialize()
}