mirror of https://github.com/docker/cli.git
305 lines
12 KiB
Go
305 lines
12 KiB
Go
package trustpinning
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import (
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"crypto/x509"
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"errors"
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"fmt"
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"strings"
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"github.com/Sirupsen/logrus"
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"github.com/docker/notary/tuf/data"
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"github.com/docker/notary/tuf/signed"
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"github.com/docker/notary/tuf/utils"
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)
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const wildcard = "*"
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// ErrValidationFail is returned when there is no valid trusted certificates
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// being served inside of the roots.json
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type ErrValidationFail struct {
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Reason string
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}
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// ErrValidationFail is returned when there is no valid trusted certificates
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// being served inside of the roots.json
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func (err ErrValidationFail) Error() string {
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return fmt.Sprintf("could not validate the path to a trusted root: %s", err.Reason)
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}
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// ErrRootRotationFail is returned when we fail to do a full root key rotation
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// by either failing to add the new root certificate, or delete the old ones
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type ErrRootRotationFail struct {
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Reason string
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}
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// ErrRootRotationFail is returned when we fail to do a full root key rotation
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// by either failing to add the new root certificate, or delete the old ones
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func (err ErrRootRotationFail) Error() string {
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return fmt.Sprintf("could not rotate trust to a new trusted root: %s", err.Reason)
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}
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func prettyFormatCertIDs(certs map[string]*x509.Certificate) string {
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ids := make([]string, 0, len(certs))
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for id := range certs {
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ids = append(ids, id)
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}
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return strings.Join(ids, ", ")
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}
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/*
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ValidateRoot receives a new root, validates its correctness and attempts to
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do root key rotation if needed.
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First we check if we have any trusted certificates for a particular GUN in
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a previous root, if we have one. If the previous root is not nil and we find
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certificates for this GUN, we've already seen this repository before, and
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have a list of trusted certificates for it. In this case, we use this list of
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certificates to attempt to validate this root file.
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If the previous validation succeeds, we check the integrity of the root by
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making sure that it is validated by itself. This means that we will attempt to
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validate the root data with the certificates that are included in the root keys
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themselves.
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However, if we do not have any current trusted certificates for this GUN, we
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check if there are any pinned certificates specified in the trust_pinning section
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of the notary client config. If this section specifies a Certs section with this
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GUN, we attempt to validate that the certificates present in the downloaded root
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file match the pinned ID.
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If the Certs section is empty for this GUN, we check if the trust_pinning
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section specifies a CA section specified in the config for this GUN. If so, we check
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that the specified CA is valid and has signed a certificate included in the downloaded
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root file. The specified CA can be a prefix for this GUN.
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If both the Certs and CA configs do not match this GUN, we fall back to the TOFU
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section in the config: if true, we trust certificates specified in the root for
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this GUN. If later we see a different certificate for that certificate, we return
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an ErrValidationFailed error.
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Note that since we only allow trust data to be downloaded over an HTTPS channel
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we are using the current public PKI to validate the first download of the certificate
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adding an extra layer of security over the normal (SSH style) trust model.
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We shall call this: TOFUS.
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Validation failure at any step will result in an ErrValidationFailed error.
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*/
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func ValidateRoot(prevRoot *data.SignedRoot, root *data.Signed, gun data.GUN, trustPinning TrustPinConfig) (*data.SignedRoot, error) {
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logrus.Debugf("entered ValidateRoot with dns: %s", gun)
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signedRoot, err := data.RootFromSigned(root)
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if err != nil {
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return nil, err
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}
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rootRole, err := signedRoot.BuildBaseRole(data.CanonicalRootRole)
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if err != nil {
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return nil, err
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}
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// Retrieve all the leaf and intermediate certificates in root for which the CN matches the GUN
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allLeafCerts, allIntCerts := parseAllCerts(signedRoot)
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certsFromRoot, err := validRootLeafCerts(allLeafCerts, gun, true)
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validIntCerts := validRootIntCerts(allIntCerts)
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if err != nil {
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logrus.Debugf("error retrieving valid leaf certificates for: %s, %v", gun, err)
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return nil, &ErrValidationFail{Reason: "unable to retrieve valid leaf certificates"}
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}
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logrus.Debugf("found %d leaf certs, of which %d are valid leaf certs for %s", len(allLeafCerts), len(certsFromRoot), gun)
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// If we have a previous root, let's try to use it to validate that this new root is valid.
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havePrevRoot := prevRoot != nil
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if havePrevRoot {
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// Retrieve all the trusted certificates from our previous root
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// Note that we do not validate expiries here since our originally trusted root might have expired certs
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allTrustedLeafCerts, allTrustedIntCerts := parseAllCerts(prevRoot)
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trustedLeafCerts, err := validRootLeafCerts(allTrustedLeafCerts, gun, false)
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if err != nil {
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return nil, &ErrValidationFail{Reason: "could not retrieve trusted certs from previous root role data"}
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}
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// Use the certificates we found in the previous root for the GUN to verify its signatures
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// This could potentially be an empty set, in which case we will fail to verify
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logrus.Debugf("found %d valid root leaf certificates for %s: %s", len(trustedLeafCerts), gun,
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prettyFormatCertIDs(trustedLeafCerts))
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// Extract the previous root's threshold for signature verification
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prevRootRoleData, ok := prevRoot.Signed.Roles[data.CanonicalRootRole]
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if !ok {
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return nil, &ErrValidationFail{Reason: "could not retrieve previous root role data"}
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}
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err = signed.VerifySignatures(
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root, data.BaseRole{Keys: utils.CertsToKeys(trustedLeafCerts, allTrustedIntCerts), Threshold: prevRootRoleData.Threshold})
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if err != nil {
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logrus.Debugf("failed to verify TUF data for: %s, %v", gun, err)
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return nil, &ErrRootRotationFail{Reason: "failed to validate data with current trusted certificates"}
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}
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// Clear the IsValid marks we could have received from VerifySignatures
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for i := range root.Signatures {
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root.Signatures[i].IsValid = false
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}
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}
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// Regardless of having a previous root or not, confirm that the new root validates against the trust pinning
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logrus.Debugf("checking root against trust_pinning config for %s", gun)
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trustPinCheckFunc, err := NewTrustPinChecker(trustPinning, gun, !havePrevRoot)
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if err != nil {
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return nil, &ErrValidationFail{Reason: err.Error()}
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}
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validPinnedCerts := map[string]*x509.Certificate{}
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for id, cert := range certsFromRoot {
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logrus.Debugf("checking trust-pinning for cert: %s", id)
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if ok := trustPinCheckFunc(cert, validIntCerts[id]); !ok {
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logrus.Debugf("trust-pinning check failed for cert: %s", id)
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continue
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}
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validPinnedCerts[id] = cert
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}
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if len(validPinnedCerts) == 0 {
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return nil, &ErrValidationFail{Reason: "unable to match any certificates to trust_pinning config"}
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}
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certsFromRoot = validPinnedCerts
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// Validate the integrity of the new root (does it have valid signatures)
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// Note that certsFromRoot is guaranteed to be unchanged only if we had prior cert data for this GUN or enabled TOFUS
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// If we attempted to pin a certain certificate or CA, certsFromRoot could have been pruned accordingly
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err = signed.VerifySignatures(root, data.BaseRole{
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Keys: utils.CertsToKeys(certsFromRoot, validIntCerts), Threshold: rootRole.Threshold})
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if err != nil {
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logrus.Debugf("failed to verify TUF data for: %s, %v", gun, err)
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return nil, &ErrValidationFail{Reason: "failed to validate integrity of roots"}
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}
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logrus.Debugf("root validation succeeded for %s", gun)
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// Call RootFromSigned to make sure we pick up on the IsValid markings from VerifySignatures
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return data.RootFromSigned(root)
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}
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// MatchCNToGun checks that the common name in a cert is valid for the given gun.
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// This allows wildcards as suffixes, e.g. `namespace/*`
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func MatchCNToGun(commonName string, gun data.GUN) bool {
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if strings.HasSuffix(commonName, wildcard) {
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prefix := strings.TrimRight(commonName, wildcard)
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logrus.Debugf("checking gun %s against wildcard prefix %s", gun, prefix)
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return strings.HasPrefix(gun.String(), prefix)
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}
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return commonName == gun.String()
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}
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// validRootLeafCerts returns a list of possibly (if checkExpiry is true) non-expired, non-sha1 certificates
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// found in root whose Common-Names match the provided GUN. Note that this
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// "validity" alone does not imply any measure of trust.
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func validRootLeafCerts(allLeafCerts map[string]*x509.Certificate, gun data.GUN, checkExpiry bool) (map[string]*x509.Certificate, error) {
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validLeafCerts := make(map[string]*x509.Certificate)
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// Go through every leaf certificate and check that the CN matches the gun
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for id, cert := range allLeafCerts {
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// Validate that this leaf certificate has a CN that matches the gun
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if !MatchCNToGun(cert.Subject.CommonName, gun) {
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logrus.Debugf("error leaf certificate CN: %s doesn't match the given GUN: %s",
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cert.Subject.CommonName, gun)
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continue
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}
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// Make sure the certificate is not expired if checkExpiry is true
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// and warn if it hasn't expired yet but is within 6 months of expiry
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if err := utils.ValidateCertificate(cert, checkExpiry); err != nil {
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logrus.Debugf("%s is invalid: %s", id, err.Error())
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continue
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}
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validLeafCerts[id] = cert
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}
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if len(validLeafCerts) < 1 {
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logrus.Debugf("didn't find any valid leaf certificates for %s", gun)
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return nil, errors.New("no valid leaf certificates found in any of the root keys")
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}
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logrus.Debugf("found %d valid leaf certificates for %s: %s", len(validLeafCerts), gun,
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prettyFormatCertIDs(validLeafCerts))
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return validLeafCerts, nil
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}
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// validRootIntCerts filters the passed in structure of intermediate certificates to only include non-expired, non-sha1 certificates
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// Note that this "validity" alone does not imply any measure of trust.
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func validRootIntCerts(allIntCerts map[string][]*x509.Certificate) map[string][]*x509.Certificate {
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validIntCerts := make(map[string][]*x509.Certificate)
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// Go through every leaf cert ID, and build its valid intermediate certificate list
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for leafID, intCertList := range allIntCerts {
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for _, intCert := range intCertList {
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if err := utils.ValidateCertificate(intCert, true); err != nil {
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continue
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}
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validIntCerts[leafID] = append(validIntCerts[leafID], intCert)
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}
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}
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return validIntCerts
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}
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// parseAllCerts returns two maps, one with all of the leafCertificates and one
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// with all the intermediate certificates found in signedRoot
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func parseAllCerts(signedRoot *data.SignedRoot) (map[string]*x509.Certificate, map[string][]*x509.Certificate) {
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if signedRoot == nil {
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return nil, nil
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}
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leafCerts := make(map[string]*x509.Certificate)
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intCerts := make(map[string][]*x509.Certificate)
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// Before we loop through all root keys available, make sure any exist
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rootRoles, ok := signedRoot.Signed.Roles[data.CanonicalRootRole]
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if !ok {
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logrus.Debugf("tried to parse certificates from invalid root signed data")
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return nil, nil
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}
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logrus.Debugf("found the following root keys: %v", rootRoles.KeyIDs)
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// Iterate over every keyID for the root role inside of roots.json
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for _, keyID := range rootRoles.KeyIDs {
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// check that the key exists in the signed root keys map
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key, ok := signedRoot.Signed.Keys[keyID]
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if !ok {
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logrus.Debugf("error while getting data for keyID: %s", keyID)
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continue
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}
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// Decode all the x509 certificates that were bundled with this
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// Specific root key
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decodedCerts, err := utils.LoadCertBundleFromPEM(key.Public())
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if err != nil {
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logrus.Debugf("error while parsing root certificate with keyID: %s, %v", keyID, err)
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continue
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}
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// Get all non-CA certificates in the decoded certificates
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leafCertList := utils.GetLeafCerts(decodedCerts)
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// If we got no leaf certificates or we got more than one, fail
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if len(leafCertList) != 1 {
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logrus.Debugf("invalid chain due to leaf certificate missing or too many leaf certificates for keyID: %s", keyID)
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continue
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}
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// If we found a leaf certificate, assert that the cert bundle started with a leaf
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if decodedCerts[0].IsCA {
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logrus.Debugf("invalid chain due to leaf certificate not being first certificate for keyID: %s", keyID)
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continue
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}
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// Get the ID of the leaf certificate
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leafCert := leafCertList[0]
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// Store the leaf cert in the map
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leafCerts[key.ID()] = leafCert
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// Get all the remainder certificates marked as a CA to be used as intermediates
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intermediateCerts := utils.GetIntermediateCerts(decodedCerts)
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intCerts[key.ID()] = intermediateCerts
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}
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return leafCerts, intCerts
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}
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