1 files changed, 194 insertions, 85 deletions

diff --git a/src/leap/common/keymanager/openpgp.py b/src/leap/common/keymanager/openpgp.py
index 0fd314a..0cb1308 100644
--- a/src/leap/common/keymanager/openpgp.py
+++ b/src/leap/common/keymanager/openpgp.py
@@ -29,7 +29,11 @@ from leap.common.check import leap_assert, leap_assert_type
 from leap.common.keymanager.errors import (
     KeyNotFound,
     KeyAlreadyExists,
-    KeyAttributesDiffer
+    KeyAttributesDiffer,
+    InvalidSignature,
+    EncryptionFailed,
+    DecryptionFailed,
+    SignFailed,
 )
 from leap.common.keymanager.keys import (
     EncryptionKey,
@@ -45,84 +49,163 @@ from leap.common.keymanager.gpg import GPGWrapper
 # API functions
 #
 
-def encrypt_sym(data, passphrase):
+def encrypt_sym(data, passphrase, sign=None):
     """
-    Encrypt C{data} with C{passphrase}.
+    Encrypt C{data} with C{passphrase} and sign with C{sign} private key.
 
     @param data: The data to be encrypted.
     @type data: str
     @param passphrase: The passphrase used to encrypt C{data}.
     @type passphrase: str
+    @param sign: The private key used for signing.
+    @type sign: OpenPGPKey
 
     @return: The encrypted data.
     @rtype: str
     """
+    leap_assert_type(passphrase, str)
+    if sign is not None:
+        leap_assert_type(sign, OpenPGPKey)
+        leap_assert(sign.private == True)
 
     def _encrypt_cb(gpg):
-        return gpg.encrypt(
-                data, None, passphrase=passphrase, symmetric=True).data
-
-    return _safe_call(_encrypt_cb)
-
-
-def decrypt_sym(data, passphrase):
+        result = gpg.encrypt(
+            data, None,
+            sign=sign.key_id if sign else None,
+            passphrase=passphrase, symmetric=True)
+        # Here we cannot assert for correctness of sig because the sig is in
+        # the ciphertext.
+        # result.ok    - (bool) indicates if the operation succeeded
+        # result.data  - (bool) contains the result of the operation
+        if result.ok is False:
+            raise EncryptionFailed('Failed to encrypt: %s' % result.stderr)
+        return result.data
+
+    return _safe_call(_encrypt_cb, [sign])
+
+
+def decrypt_sym(data, passphrase, verify=None):
     """
-    Decrypt C{data} with C{passphrase}.
+    Decrypt C{data} with C{passphrase} and verify with C{verify} public
+    key.
 
     @param data: The data to be decrypted.
     @type data: str
     @param passphrase: The passphrase used to decrypt C{data}.
     @type passphrase: str
+    @param verify: The key used to verify a signature.
+    @type verify: OpenPGPKey
 
     @return: The decrypted data.
     @rtype: str
+
+    @raise InvalidSignature: Raised if unable to verify the signature with
+        C{verify} key.
     """
+    leap_assert_type(passphrase, str)
+    if verify is not None:
+        leap_assert_type(verify, OpenPGPKey)
+        leap_assert(verify.private == False)
 
     def _decrypt_cb(gpg):
-        return gpg.decrypt(data, passphrase=passphrase).data
-
-    return _safe_call(_decrypt_cb)
-
-
-def encrypt_asym(data, key):
+        result = gpg.decrypt(data, passphrase=passphrase)
+        # result.ok    - (bool) indicates if the operation succeeded
+        # result.valid - (bool) indicates if the signature was verified
+        # result.data  - (bool) contains the result of the operation
+        # result.pubkey_fingerpring  - (str) contains the fingerprint of the
+        #                              public key that signed this data.
+        if result.ok is False:
+            raise DecryptionFailed('Failed to decrypt: %s', result.stderr)
+        if verify is not None:
+            if result.valid is False or \
+                    verify.fingerprint != result.pubkey_fingerprint:
+                raise InvalidSignature(
+                    'Failed to verify signature with key %s: %s' %
+                    (verify.key_id, result.stderr))
+        return result.data
+
+    return _safe_call(_decrypt_cb, [verify])
+
+
+def encrypt_asym(data, pubkey, sign=None):
     """
-    Encrypt C{data} using public @{key}.
+    Encrypt C{data} using public @{key} and sign with C{sign} key.
 
     @param data: The data to be encrypted.
     @type data: str
-    @param key: The key used to encrypt.
-    @type key: OpenPGPKey
+    @param pubkey: The key used to encrypt.
+    @type pubkey: OpenPGPKey
+    @param sign: The key used for signing.
+    @type sign: OpenPGPKey
 
     @return: The encrypted data.
     @rtype: str
     """
-    leap_assert(key.private is False, 'Key is not public.')
+    leap_assert_type(pubkey, OpenPGPKey)
+    leap_assert(pubkey.private is False, 'Key is not public.')
+    if sign is not None:
+        leap_assert_type(sign, OpenPGPKey)
+        leap_assert(sign.private == True)
 
     def _encrypt_cb(gpg):
-        return gpg.encrypt(
-                data, key.fingerprint, symmetric=False).data
-
-    return _safe_call(_encrypt_cb, key.key_data)
-
-
-def decrypt_asym(data, key):
+        result = gpg.encrypt(
+            data, pubkey.fingerprint,
+            sign=sign.key_id if sign else None,
+            symmetric=False)
+        # Here we cannot assert for correctness of sig because the sig is in
+        # the ciphertext.
+        # result.ok    - (bool) indicates if the operation succeeded
+        # result.data  - (bool) contains the result of the operation
+        if result.ok is False:
+            raise EncryptionFailed(
+                'Failed to encrypt with key %s: %s' %
+                (pubkey.key_id, result.stderr))
+        return result.data
+
+    return _safe_call(_encrypt_cb, [pubkey, sign])
+
+
+def decrypt_asym(data, privkey, verify=None):
     """
-    Decrypt C{data} using private @{key}.
+    Decrypt C{data} using private @{key} and verify with C{verify} key.
 
     @param data: The data to be decrypted.
     @type data: str
-    @param key: The key used to decrypt.
-    @type key: OpenPGPKey
+    @param privkey: The key used to decrypt.
+    @type privkey: OpenPGPKey
+    @param verify: The key used to verify a signature.
+    @type verify: OpenPGPKey
 
     @return: The decrypted data.
     @rtype: str
+
+    @raise InvalidSignature: Raised if unable to verify the signature with
+        C{verify} key.
     """
-    leap_assert(key.private is True, 'Key is not private.')
+    leap_assert(privkey.private is True, 'Key is not private.')
+    if verify is not None:
+        leap_assert_type(verify, OpenPGPKey)
+        leap_assert(verify.private == False)
 
     def _decrypt_cb(gpg):
-        return gpg.decrypt(data).data
-
-    return _safe_call(_decrypt_cb, key.key_data)
+        result = gpg.decrypt(data)
+        # result.ok    - (bool) indicates if the operation succeeded
+        # result.valid - (bool) indicates if the signature was verified
+        # result.data  - (bool) contains the result of the operation
+        # result.pubkey_fingerpring  - (str) contains the fingerprint of the
+        #                              public key that signed this data.
+        if result.ok is False:
+            raise DecryptionFailed('Failed to decrypt with key %s: %s' %
+                                   (privkey.key_id, result.stderr))
+        if verify is not None:
+            if result.valid is False or \
+                    verify.fingerprint != result.pubkey_fingerprint:
+                raise InvalidSignature(
+                    'Failed to verify signature with key %s: %s' %
+                    (verify.key_id, result.stderr))
+        return result.data
+
+    return _safe_call(_decrypt_cb, [privkey, verify])
 
 
 def is_encrypted(data):
@@ -175,45 +258,61 @@ def is_encrypted_asym(data):
 
     return _safe_call(_is_encrypted_cb)
 
-def sign(data, key):
+def sign(data, privkey):
     """
-    Sign C{data} with C{key}.
+    Sign C{data} with C{privkey}.
 
     @param data: The data to be signed.
     @type data: str
-    @param key: The key to be used to sign.
-    @type key: OpenPGPKey
+    @param privkey: The private key to be used to sign.
+    @type privkey: OpenPGPKey
 
     @return: The ascii-armored signed data.
     @rtype: str
     """
-    leap_assert_type(key, OpenPGPKey)
-    leap_assert(key.private == True)
+    leap_assert_type(privkey, OpenPGPKey)
+    leap_assert(privkey.private == True)
 
     def _sign_cb(gpg):
-        return gpg.sign(data, keyid=key.key_id).data
+        result = gpg.sign(data, keyid=privkey.key_id)
+        # result.fingerprint - contains the fingerprint of the key used to
+        #                      sign.
+        if result.fingerprint is None:
+            raise SignFailed(
+                'Failed to sign with key %s: %s' %
+                (privkey.key_id, result.stderr))
+        leap_assert(
+            result.fingerprint == privkey.fingerprint,
+            'Signature and private key fingerprints mismatch: %s != %s' %
+            (result.fingerprint, privkey.fingerprint))
+        return result.data
 
-    return _safe_call(_sign_cb, key.key_data)
+    return _safe_call(_sign_cb, [privkey])
 
-def verify(data, key):
+def verify(data, pubkey):
     """
-    Verify signed C{data} with C{key}.
+    Verify signed C{data} with C{pubkey}.
 
     @param data: The data to be verified.
     @type data: str
-    @param key: The key to be used on verification.
-    @type key: OpenPGPKey
+    @param pubkey: The public key to be used on verification.
+    @type pubkey: OpenPGPKey
 
     @return: The ascii-armored signed data.
     @rtype: str
     """
-    leap_assert_type(key, OpenPGPKey)
-    leap_assert(key.private == False)
+    leap_assert_type(pubkey, OpenPGPKey)
+    leap_assert(pubkey.private == False)
 
     def _verify_cb(gpg):
-        return gpg.verify(data).valid
+        result = gpg.verify(data)
+        if result.valid is False or \
+                result.fingerprint != pubkey.fingerprint:
+            raise InvalidSignature(
+                'Failed to verify signature with key %s.' % pubkey.key_id)
+        return True
 
-    return _safe_call(_verify_cb, key.key_data)
+    return _safe_call(_verify_cb, [pubkey])
 
 #
 # Helper functions
@@ -248,35 +347,48 @@ def _build_key_from_gpg(address, key, key_data):
     )
 
 
-def _build_unitary_gpgwrapper(key_data=None):
+def _build_keyring(keys=[]):
     """
-    Return a temporary GPG wrapper keyring containing exactly zero or one
-    keys.
 
-    Temporary unitary keyrings allow the to use GPG's facilities for exactly
-    one key. This function creates an empty temporary keyring and imports
-    C{key_data} if it is not None.
+    Create an empty GPG keyring and import C{keys} into it.
+
+    @param keys: List of keys to add to the keyring.
+    @type keys: list of OpenPGPKey
 
-    @param key_data: ASCII armored key data.
-    @type key_data: str
     @return: A GPG wrapper with a unitary keyring.
     @rtype: gnupg.GPG
     """
+    privkeys = filter(lambda key: key.private == True, keys)
+    pubkeys = filter(lambda key: key.private == False, keys)
+    # here we filter out public keys that have a correspondent private key in
+    # the list because the private key_data by itself is enough to also have
+    # the public key in the keyring, and we want to count the keys afterwards.
+    privaddrs = map(lambda privkey: privkey.address, privkeys)
+    pubkeys = filter(lambda pubkey: pubkey.address not in privaddrs, pubkeys)
+    # create temporary dir for temporary gpg keyring
     tmpdir = tempfile.mkdtemp()
     gpg = GPGWrapper(gnupghome=tmpdir)
     leap_assert(len(gpg.list_keys()) is 0, 'Keyring not empty.')
-    if key_data:
-        gpg.import_keys(key_data)
-        leap_assert(
-            len(gpg.list_keys()) is 1,
-            'Unitary keyring has wrong number of keys: %d.'
-            % len(gpg.list_keys()))
+    # import keys into the keyring
+    gpg.import_keys(
+        reduce(
+            lambda x, y: x+y,
+            [key.key_data for key in pubkeys+privkeys], ''))
+    # assert the number of keys in the keyring
+    leap_assert(
+        len(gpg.list_keys()) == len(pubkeys)+len(privkeys),
+        'Wrong number of public keys in keyring: %d, should be %d)' %
+        (len(gpg.list_keys()), len(pubkeys)+len(privkeys)))
+    leap_assert(
+        len(gpg.list_keys(secret=True)) == len(privkeys),
+        'Wrong number of private keys in keyring: %d, should be %d)' %
+        (len(gpg.list_keys(secret=True)), len(privkeys)))
     return gpg
 
 
-def _destroy_unitary_gpgwrapper(gpg):
+def _destroy_keyring(gpg):
     """
-    Securely erase a unitary keyring.
+    Securely erase a keyring.
 
     @param gpg: A GPG wrapper instance.
     @type gpg: gnupg.GPG
@@ -292,23 +404,21 @@ def _destroy_unitary_gpgwrapper(gpg):
     shutil.rmtree(gpg.gnupghome)
 
 
-def _safe_call(callback, key_data=None, **kwargs):
+def _safe_call(callback, keys=[]):
     """
-    Run C{callback} in an unitary keyring containing C{key_data}.
+    Run C{callback} over a keyring containing C{keys}.
 
     @param callback: Function whose first argument is the gpg keyring.
     @type callback: function(gnupg.GPG)
-    @param key_data: ASCII armored key data.
-    @type key_data: str
-    @param **kwargs: Other eventual parameters for the callback.
-    @type **kwargs: **dict
+    @param keys: List of keys to add to the keyring.
+    @type keys: list of OpenPGPKey
 
     @return: The results of the callback.
     @rtype: str or bool
     """
-    gpg = _build_unitary_gpgwrapper(key_data)
-    val = callback(gpg, **kwargs)
-    _destroy_unitary_gpgwrapper(gpg)
+    gpg = _build_keyring(filter(lambda key: key is not None, keys))
+    val = callback(gpg)
+    _destroy_keyring(gpg)
     return val
 
 
@@ -404,18 +514,17 @@ class OpenPGPScheme(EncryptionScheme):
             raise KeyNotFound(address)
         return build_key_from_dict(OpenPGPKey, address, doc.content)
 
-    def put_key_raw(self, data):
+    def put_ascii_key(self, key_data):
         """
-        Put key contained in raw C{data} in local storage.
+        Put key contained in ascii-armored C{key_data} in local storage.
 
-        @param data: The key data to be stored.
-        @type data: str
+        @param key_data: The key data to be stored.
+        @type key_data: str
         """
-        # TODO: add more checks for correct key data.
-        leap_assert(data is not None, 'Data does not represent a key.')
-
-        def _put_key_raw_cb(gpg):
+        leap_assert_type(key_data, str)
 
+        def _put_ascii_key_cb(gpg):
+            gpg.import_keys(key_data)
             privkey = None
             pubkey = None
             try:
@@ -449,7 +558,7 @@ class OpenPGPScheme(EncryptionScheme):
                 gpg.export_keys(pubkey['fingerprint'], secret=False))
             self.put_key(openpgp_pubkey)
 
-        _safe_call(_put_key_raw_cb, data)
+        _safe_call(_put_ascii_key_cb)
 
     def put_key(self, key):
         """