GIF89a=( õ' 7IAXKgNgYvYx\%wh…hŽth%ˆs%—x¨}9®Œ©€&©‰%¶†(¹–.¹5·œD¹&Çš)ÇŸ5ǘ;Í£*È¡&Õ²)ׯ7×µ<Ñ»4ï°3ø‘HÖ§KͯT÷¨Yÿšqÿ»qÿÔFØ !ù ' !ÿ NETSCAPE2.0 , =( þÀ“pH,È¤rÉl:ŸÐ¨tJ­Z¯Ø¬vËíz¿à°xL.›Ïè´zÍn»ßð¸|N¯Ûïø¼~Ïïûÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§gª«ªE¯°¨¬ª±²Œ¹º¹E¾­”´ÂB¶¯ §Åȸ»ÑD¾¿Á•ÄÅ®° ÝH¾ÒLÀÆDÙ«D¶BÝïðÀ¾DÑÑÔTÌÍíH òGö¨A RÎڐ |¥ ٭&ºìE8œ¹kGÔAÞpx­a¶­ã R2XB®åE8I€Õ6Xî:vT)äžþÀq¦è³¥ì仕F~%xñ  4#ZÔ‰O|-4Bs‘X:= QÉ œš lºÒyXJŠGȦ|s hÏíK–3l7·B|¥$'7Jީܪ‰‡àá”Dæn=Pƒ ¤Òëí‰`䌨ljóá¯Éüv>á–Á¼5 ½.69ûϸd«­ºÀûnlv©‹ªîf{¬ÜãPbŸ  l5‘Ž¯pß ´ ˜3aÅùäI«O’ý·‘áÞ‡˜¾Æ‚ÙÏiÇÿ‹Àƒ #öó)pâš Þ½ ‘Ý{ó)vmÞü%D~ 6f s}ŃƒDØW Eþ`‡þ À…L8xá†ç˜{)x`X/> Ì}mø‚–RØ‘*|`D=‚Ø_ ^ð5 !_…'aä“OÚ—7âcð`D”Cx`ÝÂ¥ä‹éY¹—F¼¤¥Š?¡Õ™ n@`} lď’ÄÉ@4>ñd œ à‘vÒxNÃ×™@žd=ˆgsžG±æ ´²æud &p8Qñ)ˆ«lXD©øÜéAžHìySun jª×k*D¤LH] †¦§C™Jä–´Xb~ʪwStŽ6K,°£qÁœ:9ت:¨þªl¨@¡`‚ûÚ ».Û¬¯t‹ÆSÉ[:°=Š‹„‘Nåû”Ìî{¿ÂA ‡Rà›ÀÙ6úë°Ÿð0Ä_ ½;ÃϱîÉì^ÇÛÇ#Ëë¼ôº!±Ä˜íUîÅÇ;0L1óÁµö«p% AÀºU̬ݵ¼á%霼€‡¯Á~`ÏG¯»À× ­²± =4ªnpð3¾¤³¯­ü¾¦îuÙuµÙ®|%2ÊIÿür¦#0·ÔJ``8È@S@5ê¢ ö×Þ^`8EÜ]ý.뜃Âç 7 ú ȉÞj œ½Dç zý¸iþœÑÙûÄë!ˆÞÀl§Ïw‹*DçI€nEX¯¬¼ &A¬Go¼QföõFç°¯;é¦÷îŽêJ°îúôF5¡ÌQ|îúöXªæ»TÁÏyñêï]ê² o óÎC=öõ›ÒÓPB@ D×½œä(>èCÂxŽ`±«Ÿ–JЀ»Û á¤±p+eE0`ëŽ`A Ú/NE€Ø†À9‚@¤à H½7”à‡%B‰`Àl*ƒó‘–‡8 2ñ%¸ —€:Ù1Á‰E¸àux%nP1ð!‘ðC)¾P81lÑɸF#ˆ€{´âé°ÈB„0>±û °b¡Š´±O‚3È–Ù()yRpbµ¨E.Z‘D8ÊH@% òŒx+%Ù˜Æcü »¸˜fõ¬b·d`Fê™8èXH"ÉÈ-±|1Ô6iI, 2““¬$+](A*jÐ QTÂo‰.ÛU슬Œã„Ž`¯SN¡–¶Äåyše¯ª’­¬‚´b¦Éož œ)åyâ@Ì®3 ÎtT̉°&Ø+žLÀf"Ø-|žçÔ>‡Ðv¦Ðžì\‚ Q1)Ž@Žh#aP72”ˆ™¨$‚ !ù " , =( …7IAXG]KgNgYvYxR"k\%w]'}hŽth%ˆg+ˆs%—r.—m3šx3˜x¨}9®€&©€+¨‡7§‰%¶†(¹–.¹œD¹&ǘ;Í•&ײ)×»4ïÌ6ò§KÍ þ@‘pH,È¤rÉl:ŸÐ¨tJ­Z¯Ø¬vËíz¿à°xL.›Ïè´zÍn»ßð¸|N¯Ûïø¼~Ïïûÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§g «¬ E ±± ¨­¶°ººE Á´”·®C¬²§Ç¶Œ»ÓDÃÕƷ¯Ê±H½ºM×ÁGÚ¬D¶BËÁ½î½DÓôTÏÛßîG»ôõC×CÌ l&âž:'òtU³6ɹ#·Ø)€'Ü.6±&ëÍÈ» K(8p0N?!æ2"ÛˆNIJX>R¼ÐO‚M '¡¨2¸*Ÿþ>#n↠å@‚<[:¡Iïf’ ¤TÚ˘CdbÜÙ“[«ŽEú5MBo¤×@€`@„€Êt W-3 ¶Ÿ¡BíêäjIÝ…Eò9[T…$íêﯧ„…•s»Óȳ¹€ÅÚdc®UUρ#±Ùïldj?´í¼²`\ŽÁðÞu|3'ÖŒ]ë6 ¶S#²‡˜FKLÈ *N E´‘áäŠ$˜›eÄYD„ºq«.è촁ƒs \-ÔjA 9²õ÷å- üúM[Âx(ís÷ì®x€|í¡Ù’p¦‚ ŽkÛTÇDpE@WÜ ²Ç]kŠ1¨ þ€·Yb ÓÁ‰l°*n0 ç™—žzBdОu¾7ĉBl€â‰-ºx~|UåU‰  h*Hœ|e"#"?vpÄiŠe6^ˆ„+qâŠm8 #VÇá ‘å–ÄV„œ|Šè•m"сœn|@›U¶ÆΞ—Špb¥G¨ED”€±Úê2FÌIç? >Éxå Œ± ¡¤„%‘žjŸ‘ꄯ<Ìaà9ijÐ2˜D¦È&›†Z`‚å]wþ¼Â:ç6àB¤7eFJ|õÒ§Õ,¨äàFÇ®cS·Ê¶+B°,‘Þ˜ºNûãØ>PADÌHD¹æž«ÄÀnÌ¥}­#Ë’ë QÀÉSÌÂÇ2ÌXÀ{æk²lQÁ2«ÊðÀ¯w|2Í h‹ÄÂG€,m¾¶ë3ÐÙ6-´ÅE¬L°ÆIij*K½ÀÇqï`DwVÍQXœÚÔpeœ±¬Ñ q˜§Tœ½µƒ°Œìu Â<¶aØ*At¯lmEØ ü ôÛN[P1ÔÛ¦­±$ÜÆ@`ùåDpy¶yXvCAyåB`ŽD¶ 0QwG#¯ æš[^Äþ $ÀÓÝǦ{„L™[±úKÄgÌ;ï£S~¹ìGX.ôgoT.»åˆ°ùŸûù¡?1zö¦Ÿž:ÅgÁ|ìL¹ „®£œŠ‚à0œ]PÁ^p F<"•ç?!,ñ‡N4—…PÄ Á„ö¨Û:Tè@hÀ‹%táÿ:ø-žI<`þ‹p I….)^ 40D#p@ƒj4–؀:²‰1Øâr˜¼F2oW¼#Z†;$Q q” ‘ ÂK¦ñNl#29 !’F@¥Bh·ᏀL!—XFóLH‘Kh¤.«hE&JòG¨¥<™WN!€ÑÙÚˆY„@†>Œž19J" 2,/ &.GXB%ÌRÈ9B6¹W]’î×ÔW¥’IÎ$ ñ‹ÓŒE8YÆ ¼³™ñA5“à®Q.aŸB€&Ø©³ JÁ—! ¦t)K%tœ-¦JF bòNMxLôþ)ÐR¸Ð™‘ èÝ6‘O!THÌ„HÛ ‰ !ù ) , =( …AXKgNgYvYxR"k\%wh…hŽh%ˆg+ˆs%—r.—x3˜x¨}9®€&©€+¨Œ,©‡7§‰%¶†(¹–.¹5·&Çš)ǘ;Í•&×£*Ȳ)ׯ7×»4ï°3øÌ6ò‘HÖ§KÍ»Hó¯T÷¨Yÿ»qÿÇhÿ þÀ”pH,È¤rÉl:ŸÐ¨tJ­Z¯Ø¬vËíz¿à°xL.›Ïè´zÍn»ßð¸|N¯Ûïø¼~Ïïûÿ€‚ƒ„…†‡ˆ‰Š‹ŒŽ‘’“”•–—˜™š›œžŸ ¡¢£¤¥¦§g ª« E$±²¨ª­ · °²½$E$ÂÕ««D· Í ¿¦Ç¶¸ÌŒ¾³CÃÅÆ E ééH½MÛÂGâªD­ çBêêϾD²ÒaÀà€Š1r­ðÓ¤ ÔožzU!L˜C'¾yW½UGtäÇïÙllê0×àÂuGþ)AÀs[þ·xì ÁxO%ƒûX2ó—  P£n›R/¡ÑšHše+êDm?# —‘Ç£6¡8íJ¡ŸâDiäªM¥Ö„ôj“¬¹£5oQ7°- <‡ *´lãÓŒ2r/a!l)dÈ A™ÈE¢ôÔ͆…ð ;Ö˜c ¡%ß‚’Ùˆâ¸b½—pe~C"BíëÚHïeF2§æŠ8qb t_`urŠeü wÅu3êæPv§h•"ß`íÍxçLĹÜÖ3á  ~Öº“®›¸ÏMDfJÙ °„ÛµáWõ%§œ‚à©–‚X Ó؁)@®Ñ›Eþ´wëuÅSxb8y\mÖzœ¥§ZbºE—ÂLªÌw!y(>¡™wú=Ç|ÅÝs¢d €CÁW)HÜcC$€L Ä7„r.á\{)@ð` @ äXÈ$PD” `šaG:§æˆOˆ72EÐamn]ù"ŒcÊxÑŒ° &dR8`g«iÙŸLR!¦P …d’ä¡“¦ðÎTƒ¦ià|À _ ¥ Qi#¦Šg›Æ ›noMµ ›V ã£)p ç£ÎW…š=Âeªk§†j„ ´®1ß²sÉxéW«jšl|0¯B0Û, \jÛ´›6±¬¶C ÛíWþï|ëÙ‹¸ñzĸV {ì;Ýñn¼òVˆm³I¼³.Ðã¤PN¥ ²µ¼„µCã+¹ÍByî£Ñ¾HŸ›ëê 7ìYÆFTk¨SaoaY$Dµœìï¿Ã29RÈkt Çïfñ ÇÒ:ÀÐSp¹3ÇI¨â¥DZÄ ü9Ïýögñ½­uÔ*3)O‘˜Ö[_hv ,àî×Et Ÿé¶BH€ Õ[ü±64M@ÔSÌM7dÐl5-ÄÙU܍´©zߌ3Ô€3ž„ „ ¶ÛPô½5×g› êÚ˜kN„Ý…0Îj4€Ìë°“#{þÕ3S2çKÜ'ợlø¼Ú2K{° {Û¶?žm𸧠ËI¼nEò='êüóºè^üæÃ_Û=°óž‚ì#Oý¿Í'¡½áo..ÏYìnüñCœO±Áa¿¢Kô½o,üÄËbö²çºíï{ËC Ú— "”Ï{ËK ÍÒw„õ±Oz dÕ¨à:$ ƒô—«v»] A#ð «€¿šéz)Rx׿ˆ¥‚d``èw-îyÏf×K!ð€þ­Ð|ìPľ„=Ì`ý(f” 'Pa ¥ÐBJa%Ðâf§„%Š¡}FàáÝ×6>ÉäŠG"éŽè=ø!oŠ°^FP¼Ø©Q„ÀCÙÁ`(Ž\ÄÝ® ©Â$<n@dÄ E#ììUÒI! ‚#lù‹`k¦ÐÇ'Rró’ZýNBÈMF Í[¤+‹ðɈ-áwj¨¥þ8¾rá ,VÂh„"|½œ=×G_¦Ñ™EØ 0i*%̲˜Æda0mV‚k¾)›;„&6 p>ÓjK “¦Ç# âDÂ:ûc?:R Ó¬fÞéI-Ì“•Ã<ä=™Ï7˜3œ¨˜c2ŒW ,ˆ”8(T™P‰F¡Jhç"‚ ; 403WebShell
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# ===================================================================
#
# Copyright (c) 2015, Legrandin <[email protected]>
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# 1. Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in
#    the documentation and/or other materials provided with the
#    distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
# BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
# ===================================================================

import unittest
from binascii import unhexlify

from Crypto.SelfTest.st_common import list_test_cases
from Crypto.SelfTest.loader import load_test_vectors_wycheproof
from Crypto.Util.py3compat import tobytes, bchr
from Crypto.Cipher import AES, DES3
from Crypto.Hash import SHAKE128

from Crypto.Util.strxor import strxor


def get_tag_random(tag, length):
    return SHAKE128.new(data=tobytes(tag)).read(length)


class EaxTests(unittest.TestCase):

    key_128 = get_tag_random("key_128", 16)
    key_192 = get_tag_random("key_192", 16)
    nonce_96 = get_tag_random("nonce_128", 12)
    data_128 = get_tag_random("data_128", 16)

    def test_loopback_128(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        pt = get_tag_random("plaintext", 16 * 100)
        ct = cipher.encrypt(pt)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        pt2 = cipher.decrypt(ct)
        self.assertEqual(pt, pt2)

    def test_loopback_64(self):
        cipher = DES3.new(self.key_192, DES3.MODE_EAX, nonce=self.nonce_96)
        pt = get_tag_random("plaintext", 8 * 100)
        ct = cipher.encrypt(pt)

        cipher = DES3.new(self.key_192, DES3.MODE_EAX, nonce=self.nonce_96)
        pt2 = cipher.decrypt(ct)
        self.assertEqual(pt, pt2)

    def test_nonce(self):
        # If not passed, the nonce is created randomly
        cipher = AES.new(self.key_128, AES.MODE_EAX)
        nonce1 = cipher.nonce
        cipher = AES.new(self.key_128, AES.MODE_EAX)
        nonce2 = cipher.nonce
        self.assertEqual(len(nonce1), 16)
        self.assertNotEqual(nonce1, nonce2)

        cipher = AES.new(self.key_128, AES.MODE_EAX, self.nonce_96)
        ct = cipher.encrypt(self.data_128)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertEqual(ct, cipher.encrypt(self.data_128))

    def test_nonce_must_be_bytes(self):
        self.assertRaises(TypeError, AES.new, self.key_128, AES.MODE_EAX,
                          nonce=u'test12345678')

    def test_nonce_length(self):
        # nonce can be of any length (but not empty)
        self.assertRaises(ValueError, AES.new, self.key_128, AES.MODE_EAX,
                          nonce=b"")

        for x in range(1, 128):
            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=bchr(1) * x)
            cipher.encrypt(bchr(1))

    def test_block_size_128(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertEqual(cipher.block_size, AES.block_size)

    def test_block_size_64(self):
        cipher = DES3.new(self.key_192, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertEqual(cipher.block_size, DES3.block_size)

    def test_nonce_attribute(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertEqual(cipher.nonce, self.nonce_96)

        # By default, a 16 bytes long nonce is randomly generated
        nonce1 = AES.new(self.key_128, AES.MODE_EAX).nonce
        nonce2 = AES.new(self.key_128, AES.MODE_EAX).nonce
        self.assertEqual(len(nonce1), 16)
        self.assertNotEqual(nonce1, nonce2)

    def test_unknown_parameters(self):
        self.assertRaises(TypeError, AES.new, self.key_128, AES.MODE_EAX,
                          self.nonce_96, 7)
        self.assertRaises(TypeError, AES.new, self.key_128, AES.MODE_EAX,
                          nonce=self.nonce_96, unknown=7)

        # But some are only known by the base cipher
        # (e.g. use_aesni consumed by the AES module)
        AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96,
                use_aesni=False)

    def test_null_encryption_decryption(self):
        for func in "encrypt", "decrypt":
            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
            result = getattr(cipher, func)(b"")
            self.assertEqual(result, b"")

    def test_either_encrypt_or_decrypt(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.encrypt(b"")
        self.assertRaises(TypeError, cipher.decrypt, b"")

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.decrypt(b"")
        self.assertRaises(TypeError, cipher.encrypt, b"")

    def test_data_must_be_bytes(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(TypeError, cipher.encrypt, u'test1234567890-*')

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(TypeError, cipher.decrypt, u'test1234567890-*')

    def test_mac_len(self):
        # Invalid MAC length
        self.assertRaises(ValueError, AES.new, self.key_128, AES.MODE_EAX,
                          nonce=self.nonce_96, mac_len=2-1)
        self.assertRaises(ValueError, AES.new, self.key_128, AES.MODE_EAX,
                          nonce=self.nonce_96, mac_len=16+1)

        # Valid MAC length
        for mac_len in range(2, 16 + 1):
            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96,
                             mac_len=mac_len)
            _, mac = cipher.encrypt_and_digest(self.data_128)
            self.assertEqual(len(mac), mac_len)

        # Default MAC length
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        _, mac = cipher.encrypt_and_digest(self.data_128)
        self.assertEqual(len(mac), 16)

    def test_invalid_mac(self):
        from Crypto.Util.strxor import strxor_c
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        ct, mac = cipher.encrypt_and_digest(self.data_128)

        invalid_mac = strxor_c(mac, 0x01)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(ValueError, cipher.decrypt_and_verify, ct,
                          invalid_mac)

    def test_hex_mac(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        mac_hex = cipher.hexdigest()
        self.assertEqual(cipher.digest(), unhexlify(mac_hex))

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.hexverify(mac_hex)

    def test_message_chunks(self):
        # Validate that both associated data and plaintext/ciphertext
        # can be broken up in chunks of arbitrary length

        auth_data = get_tag_random("authenticated data", 127)
        plaintext = get_tag_random("plaintext", 127)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.update(auth_data)
        ciphertext, ref_mac = cipher.encrypt_and_digest(plaintext)

        def break_up(data, chunk_length):
            return [data[i:i+chunk_length] for i in range(0, len(data),
                    chunk_length)]

        # Encryption
        for chunk_length in 1, 2, 3, 7, 10, 13, 16, 40, 80, 128:

            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)

            for chunk in break_up(auth_data, chunk_length):
                cipher.update(chunk)
            pt2 = b""
            for chunk in break_up(ciphertext, chunk_length):
                pt2 += cipher.decrypt(chunk)
            self.assertEqual(plaintext, pt2)
            cipher.verify(ref_mac)

        # Decryption
        for chunk_length in 1, 2, 3, 7, 10, 13, 16, 40, 80, 128:

            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)

            for chunk in break_up(auth_data, chunk_length):
                cipher.update(chunk)
            ct2 = b""
            for chunk in break_up(plaintext, chunk_length):
                ct2 += cipher.encrypt(chunk)
            self.assertEqual(ciphertext, ct2)
            self.assertEqual(cipher.digest(), ref_mac)

    def test_bytearray(self):

        # Encrypt
        key_ba = bytearray(self.key_128)
        nonce_ba = bytearray(self.nonce_96)
        header_ba = bytearray(self.data_128)
        data_ba = bytearray(self.data_128)

        cipher1 = AES.new(self.key_128,
                          AES.MODE_EAX,
                          nonce=self.nonce_96)
        cipher1.update(self.data_128)
        ct = cipher1.encrypt(self.data_128)
        tag = cipher1.digest()

        cipher2 = AES.new(key_ba,
                          AES.MODE_EAX,
                          nonce=nonce_ba)
        key_ba[:3] = b'\xFF\xFF\xFF'
        nonce_ba[:3] = b'\xFF\xFF\xFF'
        cipher2.update(header_ba)
        header_ba[:3] = b'\xFF\xFF\xFF'
        ct_test = cipher2.encrypt(data_ba)
        data_ba[:3] = b'\x99\x99\x99'
        tag_test = cipher2.digest()

        self.assertEqual(ct, ct_test)
        self.assertEqual(tag, tag_test)
        self.assertEqual(cipher1.nonce, cipher2.nonce)

        # Decrypt
        key_ba = bytearray(self.key_128)
        nonce_ba = bytearray(self.nonce_96)
        header_ba = bytearray(self.data_128)
        ct_ba = bytearray(ct)
        tag_ba = bytearray(tag)
        del data_ba

        cipher3 = AES.new(key_ba,
                          AES.MODE_EAX,
                          nonce=nonce_ba)
        key_ba[:3] = b'\xFF\xFF\xFF'
        nonce_ba[:3] = b'\xFF\xFF\xFF'
        cipher3.update(header_ba)
        header_ba[:3] = b'\xFF\xFF\xFF'
        pt_test = cipher3.decrypt(ct_ba)
        ct_ba[:3] = b'\xFF\xFF\xFF'
        cipher3.verify(tag_ba)

        self.assertEqual(pt_test, self.data_128)

    def test_memoryview(self):

        # Encrypt
        key_mv = memoryview(bytearray(self.key_128))
        nonce_mv = memoryview(bytearray(self.nonce_96))
        header_mv = memoryview(bytearray(self.data_128))
        data_mv = memoryview(bytearray(self.data_128))

        cipher1 = AES.new(self.key_128,
                          AES.MODE_EAX,
                          nonce=self.nonce_96)
        cipher1.update(self.data_128)
        ct = cipher1.encrypt(self.data_128)
        tag = cipher1.digest()

        cipher2 = AES.new(key_mv,
                          AES.MODE_EAX,
                          nonce=nonce_mv)
        key_mv[:3] = b'\xFF\xFF\xFF'
        nonce_mv[:3] = b'\xFF\xFF\xFF'
        cipher2.update(header_mv)
        header_mv[:3] = b'\xFF\xFF\xFF'
        ct_test = cipher2.encrypt(data_mv)
        data_mv[:3] = b'\x99\x99\x99'
        tag_test = cipher2.digest()

        self.assertEqual(ct, ct_test)
        self.assertEqual(tag, tag_test)
        self.assertEqual(cipher1.nonce, cipher2.nonce)

        # Decrypt
        key_mv = memoryview(bytearray(self.key_128))
        nonce_mv = memoryview(bytearray(self.nonce_96))
        header_mv = memoryview(bytearray(self.data_128))
        ct_mv = memoryview(bytearray(ct))
        tag_mv = memoryview(bytearray(tag))
        del data_mv

        cipher3 = AES.new(key_mv,
                          AES.MODE_EAX,
                          nonce=nonce_mv)
        key_mv[:3] = b'\xFF\xFF\xFF'
        nonce_mv[:3] = b'\xFF\xFF\xFF'
        cipher3.update(header_mv)
        header_mv[:3] = b'\xFF\xFF\xFF'
        pt_test = cipher3.decrypt(ct_mv)
        ct_mv[:3] = b'\x99\x99\x99'
        cipher3.verify(tag_mv)

        self.assertEqual(pt_test, self.data_128)

    def test_output_param(self):

        pt = b'5' * 128
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        ct = cipher.encrypt(pt)
        tag = cipher.digest()

        output = bytearray(128)
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        res = cipher.encrypt(pt, output=output)
        self.assertEqual(ct, output)
        self.assertEqual(res, None)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        res = cipher.decrypt(ct, output=output)
        self.assertEqual(pt, output)
        self.assertEqual(res, None)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        res, tag_out = cipher.encrypt_and_digest(pt, output=output)
        self.assertEqual(ct, output)
        self.assertEqual(res, None)
        self.assertEqual(tag, tag_out)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        res = cipher.decrypt_and_verify(ct, tag, output=output)
        self.assertEqual(pt, output)
        self.assertEqual(res, None)

    def test_output_param_memoryview(self):

        pt = b'5' * 128
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        ct = cipher.encrypt(pt)

        output = memoryview(bytearray(128))
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.encrypt(pt, output=output)
        self.assertEqual(ct, output)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.decrypt(ct, output=output)
        self.assertEqual(pt, output)

    def test_output_param_neg(self):
        LEN_PT = 16

        pt = b'5' * LEN_PT
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        ct = cipher.encrypt(pt)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(TypeError, cipher.encrypt, pt, output=b'0' * LEN_PT)

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(TypeError, cipher.decrypt, ct, output=b'0' * LEN_PT)

        shorter_output = bytearray(LEN_PT - 1)
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(ValueError, cipher.encrypt, pt, output=shorter_output)
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        self.assertRaises(ValueError, cipher.decrypt, ct, output=shorter_output)


class EaxFSMTests(unittest.TestCase):

    key_128 = get_tag_random("key_128", 16)
    nonce_96 = get_tag_random("nonce_128", 12)
    data_128 = get_tag_random("data_128", 16)

    def test_valid_init_encrypt_decrypt_digest_verify(self):
        # No authenticated data, fixed plaintext
        # Verify path INIT->ENCRYPT->DIGEST
        cipher = AES.new(self.key_128, AES.MODE_EAX,
                         nonce=self.nonce_96)
        ct = cipher.encrypt(self.data_128)
        mac = cipher.digest()

        # Verify path INIT->DECRYPT->VERIFY
        cipher = AES.new(self.key_128, AES.MODE_EAX,
                         nonce=self.nonce_96)
        cipher.decrypt(ct)
        cipher.verify(mac)

    def test_valid_init_update_digest_verify(self):
        # No plaintext, fixed authenticated data
        # Verify path INIT->UPDATE->DIGEST
        cipher = AES.new(self.key_128, AES.MODE_EAX,
                         nonce=self.nonce_96)
        cipher.update(self.data_128)
        mac = cipher.digest()

        # Verify path INIT->UPDATE->VERIFY
        cipher = AES.new(self.key_128, AES.MODE_EAX,
                         nonce=self.nonce_96)
        cipher.update(self.data_128)
        cipher.verify(mac)

    def test_valid_full_path(self):
        # Fixed authenticated data, fixed plaintext
        # Verify path INIT->UPDATE->ENCRYPT->DIGEST
        cipher = AES.new(self.key_128, AES.MODE_EAX,
                         nonce=self.nonce_96)
        cipher.update(self.data_128)
        ct = cipher.encrypt(self.data_128)
        mac = cipher.digest()

        # Verify path INIT->UPDATE->DECRYPT->VERIFY
        cipher = AES.new(self.key_128, AES.MODE_EAX,
                         nonce=self.nonce_96)
        cipher.update(self.data_128)
        cipher.decrypt(ct)
        cipher.verify(mac)

    def test_valid_init_digest(self):
        # Verify path INIT->DIGEST
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.digest()

    def test_valid_init_verify(self):
        # Verify path INIT->VERIFY
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        mac = cipher.digest()

        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.verify(mac)

    def test_valid_multiple_encrypt_or_decrypt(self):
        for method_name in "encrypt", "decrypt":
            for auth_data in (None, b"333", self.data_128,
                              self.data_128 + b"3"):
                if auth_data is None:
                    assoc_len = None
                else:
                    assoc_len = len(auth_data)
                cipher = AES.new(self.key_128, AES.MODE_EAX,
                                 nonce=self.nonce_96)
                if auth_data is not None:
                    cipher.update(auth_data)
                method = getattr(cipher, method_name)
                method(self.data_128)
                method(self.data_128)
                method(self.data_128)
                method(self.data_128)

    def test_valid_multiple_digest_or_verify(self):
        # Multiple calls to digest
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.update(self.data_128)
        first_mac = cipher.digest()
        for x in range(4):
            self.assertEqual(first_mac, cipher.digest())

        # Multiple calls to verify
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.update(self.data_128)
        for x in range(5):
            cipher.verify(first_mac)

    def test_valid_encrypt_and_digest_decrypt_and_verify(self):
        # encrypt_and_digest
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.update(self.data_128)
        ct, mac = cipher.encrypt_and_digest(self.data_128)

        # decrypt_and_verify
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        cipher.update(self.data_128)
        pt = cipher.decrypt_and_verify(ct, mac)
        self.assertEqual(self.data_128, pt)

    def test_invalid_mixing_encrypt_decrypt(self):
        # Once per method, with or without assoc. data
        for method1_name, method2_name in (("encrypt", "decrypt"),
                                           ("decrypt", "encrypt")):
            for assoc_data_present in (True, False):
                cipher = AES.new(self.key_128, AES.MODE_EAX,
                                 nonce=self.nonce_96)
                if assoc_data_present:
                    cipher.update(self.data_128)
                getattr(cipher, method1_name)(self.data_128)
                self.assertRaises(TypeError, getattr(cipher, method2_name),
                                  self.data_128)

    def test_invalid_encrypt_or_update_after_digest(self):
        for method_name in "encrypt", "update":
            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
            cipher.encrypt(self.data_128)
            cipher.digest()
            self.assertRaises(TypeError, getattr(cipher, method_name),
                              self.data_128)

            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
            cipher.encrypt_and_digest(self.data_128)

    def test_invalid_decrypt_or_update_after_verify(self):
        cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
        ct = cipher.encrypt(self.data_128)
        mac = cipher.digest()

        for method_name in "decrypt", "update":
            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
            cipher.decrypt(ct)
            cipher.verify(mac)
            self.assertRaises(TypeError, getattr(cipher, method_name),
                              self.data_128)

            cipher = AES.new(self.key_128, AES.MODE_EAX, nonce=self.nonce_96)
            cipher.decrypt_and_verify(ct, mac)
            self.assertRaises(TypeError, getattr(cipher, method_name),
                              self.data_128)


class TestVectorsPaper(unittest.TestCase):
    """Class exercising the EAX test vectors found in
       http://www.cs.ucdavis.edu/~rogaway/papers/eax.pdf"""

    test_vectors_hex = [
        ( '6bfb914fd07eae6b',
          '',
          '',
          'e037830e8389f27b025a2d6527e79d01',
          '233952dee4d5ed5f9b9c6d6ff80ff478',
          '62EC67F9C3A4A407FCB2A8C49031A8B3'
        ),
        (
          'fa3bfd4806eb53fa',
          'f7fb',
          '19dd',
          '5c4c9331049d0bdab0277408f67967e5',
          '91945d3f4dcbee0bf45ef52255f095a4',
          'BECAF043B0A23D843194BA972C66DEBD'
        ),
        ( '234a3463c1264ac6',
          '1a47cb4933',
          'd851d5bae0',
          '3a59f238a23e39199dc9266626c40f80',
          '01f74ad64077f2e704c0f60ada3dd523',
          '70C3DB4F0D26368400A10ED05D2BFF5E'
        ),
        (
          '33cce2eabff5a79d',
          '481c9e39b1',
          '632a9d131a',
          'd4c168a4225d8e1ff755939974a7bede',
          'd07cf6cbb7f313bdde66b727afd3c5e8',
          '8408DFFF3C1A2B1292DC199E46B7D617'
        ),
        (
          'aeb96eaebe2970e9',
          '40d0c07da5e4',
          '071dfe16c675',
          'cb0677e536f73afe6a14b74ee49844dd',
          '35b6d0580005bbc12b0587124557d2c2',
          'FDB6B06676EEDC5C61D74276E1F8E816'
        ),
        (
          'd4482d1ca78dce0f',
          '4de3b35c3fc039245bd1fb7d',
          '835bb4f15d743e350e728414',
          'abb8644fd6ccb86947c5e10590210a4f',
          'bd8e6e11475e60b268784c38c62feb22',
          '6EAC5C93072D8E8513F750935E46DA1B'
        ),
        (
          '65d2017990d62528',
          '8b0a79306c9ce7ed99dae4f87f8dd61636',
          '02083e3979da014812f59f11d52630da30',
          '137327d10649b0aa6e1c181db617d7f2',
          '7c77d6e813bed5ac98baa417477a2e7d',
          '1A8C98DCD73D38393B2BF1569DEEFC19'
        ),
        (
          '54b9f04e6a09189a',
          '1bda122bce8a8dbaf1877d962b8592dd2d56',
          '2ec47b2c4954a489afc7ba4897edcdae8cc3',
          '3b60450599bd02c96382902aef7f832a',
          '5fff20cafab119ca2fc73549e20f5b0d',
          'DDE59B97D722156D4D9AFF2BC7559826'
        ),
        (
          '899a175897561d7e',
          '6cf36720872b8513f6eab1a8a44438d5ef11',
          '0de18fd0fdd91e7af19f1d8ee8733938b1e8',
          'e7f6d2231618102fdb7fe55ff1991700',
          'a4a4782bcffd3ec5e7ef6d8c34a56123',
          'B781FCF2F75FA5A8DE97A9CA48E522EC'
        ),
        (
          '126735fcc320d25a',
          'ca40d7446e545ffaed3bd12a740a659ffbbb3ceab7',
          'cb8920f87a6c75cff39627b56e3ed197c552d295a7',
          'cfc46afc253b4652b1af3795b124ab6e',
          '8395fcf1e95bebd697bd010bc766aac3',
          '22E7ADD93CFC6393C57EC0B3C17D6B44'
        ),
    ]

    test_vectors = [[unhexlify(x) for x in tv] for tv in test_vectors_hex]

    def runTest(self):
        for assoc_data, pt, ct, mac, key, nonce in self.test_vectors:
            # Encrypt
            cipher = AES.new(key, AES.MODE_EAX, nonce, mac_len=len(mac))
            cipher.update(assoc_data)
            ct2, mac2 = cipher.encrypt_and_digest(pt)
            self.assertEqual(ct, ct2)
            self.assertEqual(mac, mac2)

            # Decrypt
            cipher = AES.new(key, AES.MODE_EAX, nonce, mac_len=len(mac))
            cipher.update(assoc_data)
            pt2 = cipher.decrypt_and_verify(ct, mac)
            self.assertEqual(pt, pt2)


class TestVectorsWycheproof(unittest.TestCase):

    def __init__(self, wycheproof_warnings):
        unittest.TestCase.__init__(self)
        self._wycheproof_warnings = wycheproof_warnings
        self._id = "None"

    def setUp(self):

        def filter_tag(group):
            return group['tagSize'] // 8

        self.tv = load_test_vectors_wycheproof(("Cipher", "wycheproof"),
                                               "aes_eax_test.json",
                                               "Wycheproof EAX",
                                               group_tag={'tag_size': filter_tag})

    def shortDescription(self):
        return self._id

    def warn(self, tv):
        if tv.warning and self._wycheproof_warnings:
            import warnings
            warnings.warn("Wycheproof warning: %s (%s)" % (self._id, tv.comment))

    def test_encrypt(self, tv):
        self._id = "Wycheproof Encrypt EAX Test #" + str(tv.id)

        try:
            cipher = AES.new(tv.key, AES.MODE_EAX, tv.iv, mac_len=tv.tag_size)
        except ValueError as e:
            assert len(tv.iv) == 0 and "Nonce cannot be empty" in str(e)
            return

        cipher.update(tv.aad)
        ct, tag = cipher.encrypt_and_digest(tv.msg)
        if tv.valid:
            self.assertEqual(ct, tv.ct)
            self.assertEqual(tag, tv.tag)
            self.warn(tv)

    def test_decrypt(self, tv):
        self._id = "Wycheproof Decrypt EAX Test #" + str(tv.id)

        try:
            cipher = AES.new(tv.key, AES.MODE_EAX, tv.iv, mac_len=tv.tag_size)
        except ValueError as e:
            assert len(tv.iv) == 0 and "Nonce cannot be empty" in str(e)
            return

        cipher.update(tv.aad)
        try:
            pt = cipher.decrypt_and_verify(tv.ct, tv.tag)
        except ValueError:
            assert not tv.valid
        else:
            assert tv.valid
            self.assertEqual(pt, tv.msg)
            self.warn(tv)

    def test_corrupt_decrypt(self, tv):
        self._id = "Wycheproof Corrupt Decrypt EAX Test #" + str(tv.id)
        if len(tv.iv) == 0 or len(tv.ct) < 1:
            return
        cipher = AES.new(tv.key, AES.MODE_EAX, tv.iv, mac_len=tv.tag_size)
        cipher.update(tv.aad)
        ct_corrupt = strxor(tv.ct, b"\x00" * (len(tv.ct) - 1) + b"\x01")
        self.assertRaises(ValueError, cipher.decrypt_and_verify, ct_corrupt, tv.tag)

    def runTest(self):

        for tv in self.tv:
            self.test_encrypt(tv)
            self.test_decrypt(tv)
            self.test_corrupt_decrypt(tv)


class TestOtherCiphers(unittest.TestCase):

    @classmethod
    def create_test(cls, name, factory, key_size):

        def test_template(self, factory=factory, key_size=key_size):
            cipher = factory.new(get_tag_random("cipher", key_size),
                                 factory.MODE_EAX,
                                 nonce=b"nonce")
            ct, mac = cipher.encrypt_and_digest(b"plaintext")

            cipher = factory.new(get_tag_random("cipher", key_size),
                                 factory.MODE_EAX,
                                 nonce=b"nonce")
            pt2 = cipher.decrypt_and_verify(ct, mac)

            self.assertEqual(b"plaintext", pt2)

        setattr(cls, "test_" + name, test_template)


from Crypto.Cipher import DES, DES3, ARC2, CAST, Blowfish

TestOtherCiphers.create_test("DES_" + str(DES.key_size), DES, DES.key_size)
for ks in DES3.key_size:
    TestOtherCiphers.create_test("DES3_" + str(ks), DES3, ks)
for ks in ARC2.key_size:
    TestOtherCiphers.create_test("ARC2_" + str(ks), ARC2, ks)
for ks in CAST.key_size:
    TestOtherCiphers.create_test("CAST_" + str(ks), CAST, ks)
for ks in Blowfish.key_size:
    TestOtherCiphers.create_test("Blowfish_" + str(ks), Blowfish, ks)


def get_tests(config={}):
    wycheproof_warnings = config.get('wycheproof_warnings')

    tests = []
    tests += list_test_cases(EaxTests)
    tests += list_test_cases(EaxFSMTests)
    tests += [ TestVectorsPaper() ]
    tests += [ TestVectorsWycheproof(wycheproof_warnings) ]
    tests += list_test_cases(TestOtherCiphers)
    return tests


if __name__ == '__main__':
    suite = lambda: unittest.TestSuite(get_tests())
    unittest.main(defaultTest='suite')

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