1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
981
982
983
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
1046
1047
1048
1049
1050
1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
1092
1093
1094
1095
1096
1097
1098
1099
1100
1101
1102
1103
1104
1105
1106
1107
1108
1109
1110
1111
1112
1113
1114
1115
1116
1117
1118
1119
1120
1121
1122
1123
1124
1125
1126
1127
1128
1129
1130
1131
1132
1133
1134
1135
1136
1137
1138
1139
1140
1141
1142
1143
1144
1145
1146
1147
1148
1149
1150
1151
1152
1153
1154
1155
1156
1157
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176
1177
1178
1179
1180
1181
1182
1183
1184
1185
1186
1187
1188
1189
1190
1191
1192
1193
1194
1195
1196
1197
1198
1199
1200
1201
1202
1203
1204
1205
1206
1207
1208
1209
1210
1211
1212
1213
1214
1215
1216
1217
1218
1219
1220
1221
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
1246
1247
1248
1249
1250
1251
1252
1253
1254
1255
1256
1257
1258
1259
1260
1261
1262
1263
1264
1265
1266
1267
1268
1269
1270
1271
1272
1273
1274
1275
1276
1277
1278
1279
1280
1281
1282
1283
1284
1285
1286
1287
1288
1289
1290
1291
1292
1293
1294
1295
1296
1297
1298
1299
1300
1301
1302
1303
1304
1305
1306
1307
1308
1309
1310
1311
1312
1313
1314
1315
1316
1317
1318
1319
1320
1321
1322
1323
1324
1325
1326
1327
1328
1329
1330
1331
1332
1333
1334
1335
1336
1337
1338
1339
1340
1341
1342
1343
1344
1345
1346
1347
1348
1349
1350
1351
1352
1353
1354
1355
1356
1357
1358
1359
1360
1361
1362
1363
1364
1365
1366
1367
1368
1369
1370
1371
1372
1373
1374
1375
1376
1377
1378
1379
1380
1381
1382
1383
1384
1385
1386
1387
1388
1389
1390
1391
1392
1393
1394
1395
1396
1397
1398
1399
1400
1401
1402
1403
1404
1405
1406
1407
1408
1409
1410
1411
1412
1413
1414
1415
1416
1417
1418
1419
1420
1421
1422
1423
1424
1425
1426
1427
1428
1429
1430
1431
1432
1433
1434
1435
1436
1437
1438
1439
1440
1441
1442
1443
1444
1445
1446
1447
1448
1449
1450
1451
1452
1453
1454
1455
1456
1457
1458
1459
1460
1461
1462
1463
1464
1465
1466
1467
1468
1469
1470
1471
1472
1473
1474
1475
1476
1477
1478
1479
1480
1481
1482
1483
1484
1485
1486
1487
1488
1489
1490
1491
1492
1493
1494
1495
1496
1497
1498
1499
1500
1501
1502
1503
1504
1505
1506
1507
1508
1509
1510
1511
1512
1513
1514
1515
1516
1517
1518
1519
1520
1521
1522
1523
1524
1525
1526
1527
1528
1529
1530
1531
1532
1533
1534
1535
1536
1537
1538
1539
1540
1541
1542
1543
1544
1545
1546
1547
1548
1549
1550
1551
1552
1553
1554
1555
1556
1557
1558
1559
1560
1561
1562
1563
1564
1565
1566
1567
1568
1569
1570
1571
1572
1573
1574
1575
1576
1577
1578
1579
1580
1581
1582
1583
1584
1585
1586
1587
1588
1589
1590
1591
1592
1593
1594
1595
1596
1597
1598
1599
1600
1601
1602
1603
1604
1605
1606
1607
1608
1609
1610
1611
1612
1613
1614
1615
1616
1617
1618
1619
1620
1621
1622
1623
1624
1625
1626
1627
1628
1629
1630
1631
1632
1633
1634
1635
1636
1637
1638
1639
1640
1641
1642
1643
1644
1645
1646
1647
1648
1649
1650
1651
1652
1653
1654
1655
1656
1657
1658
1659
1660
1661
1662
1663
1664
1665
1666
1667
1668
1669
1670
1671
1672
1673
1674
1675
1676
1677
1678
1679
1680
1681
1682
1683
1684
1685
1686
1687
1688
1689
1690
1691
1692
1693
1694
1695
1696
1697
1698
1699
1700
1701
1702
1703
1704
1705
1706
1707
1708
1709
1710
1711
1712
1713
1714
1715
1716
1717
1718
1719
1720
1721
1722
1723
1724
1725
1726
1727
1728
1729
1730
1731
1732
1733
1734
1735
1736
1737
1738
1739
1740
1741
1742
1743
1744
1745
1746
1747
1748
1749
1750
1751
1752
1753
1754
1755
1756
1757
1758
1759
1760
1761
1762
1763
1764
1765
1766
1767
1768
1769
1770
1771
1772
1773
1774
1775
1776
1777
1778
1779
1780
1781
1782
1783
1784
1785
1786
1787
1788
1789
1790
1791
1792
1793
1794
1795
1796
1797
1798
1799
1800
1801
1802
1803
1804
1805
1806
1807
1808
1809
1810
1811
1812
1813
1814
1815
1816
1817
1818
1819
1820
1821
1822
1823
1824
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842
1843
1844
1845
1846
1847
1848
1849
1850
1851
1852
1853
1854
1855
1856
1857
1858
1859
1860
1861
1862
1863
1864
1865
1866
1867
1868
1869
1870
1871
1872
1873
1874
1875
1876
1877
1878
1879
1880
1881
1882
1883
1884
1885
1886
1887
1888
1889
1890
1891
1892
1893
1894
1895
1896
1897
1898
1899
1900
1901
1902
1903
1904
1905
1906
1907
1908
1909
1910
1911
1912
1913
1914
1915
1916
1917
1918
1919
1920
1921
1922
1923
1924
1925
1926
1927
1928
1929
1930
1931
1932
1933
1934
1935
1936
1937
1938
1939
1940
1941
1942
1943
1944
1945
1946
1947
1948
1949
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
2031
2032
2033
2034
2035
2036
2037
2038
2039
2040
2041
2042
2043
2044
2045
2046
2047
2048
2049
2050
2051
2052
2053
2054
2055
2056
2057
2058
2059
2060
2061
2062
2063
2064
2065
2066
2067
2068
2069
2070
2071
2072
2073
2074
2075
2076
2077
2078
2079
2080
2081
2082
2083
2084
2085
2086
2087
2088
2089
2090
2091
2092
2093
2094
2095
2096
2097
2098
2099
2100
2101
2102
2103
2104
2105
2106
2107
2108
2109
2110
2111
2112
2113
2114
2115
2116
2117
2118
2119
2120
2121
2122
2123
2124
2125
2126
2127
2128
2129
2130
2131
2132
2133
2134
2135
2136
2137
2138
2139
2140
2141
2142
2143
2144
2145
2146
2147
2148
2149
2150
2151
2152
2153
2154
2155
2156
2157
2158
2159
2160
2161
2162
2163
2164
2165
2166
2167
2168
2169
2170
2171
2172
2173
2174
2175
2176
2177
2178
2179
2180
2181
2182
2183
2184
2185
2186
2187
2188
2189
2190
2191
2192
2193
2194
2195
2196
2197
2198
2199
2200
2201
2202
2203
2204
2205
2206
2207
2208
2209
2210
2211
2212
2213
2214
2215
2216
2217
2218
2219
2220
2221
2222
2223
2224
2225
2226
2227
2228
2229
2230
2231
2232
2233
2234
2235
2236
2237
2238
2239
2240
2241
2242
2243
2244
2245
2246
2247
2248
2249
2250
2251
2252
2253
2254
2255
2256
2257
2258
2259
2260
2261
2262
2263
2264
2265
2266
2267
2268
2269
2270
2271
2272
2273
2274
2275
2276
2277
2278
2279
2280
2281
2282
2283
2284
2285
2286
2287
2288
2289
2290
2291
2292
2293
2294
2295
2296
2297
2298
2299
2300
2301
2302
2303
2304
2305
2306
2307
2308
2309
2310
2311
2312
2313
2314
2315
2316
2317
2318
2319
2320
2321
2322
2323
2324
2325
2326
2327
2328
2329
2330
2331
2332
2333
2334
2335
2336
2337
2338
2339
2340
2341
2342
2343
2344
2345
2346
2347
2348
2349
2350
2351
2352
2353
2354
2355
2356
2357
2358
2359
2360
2361
2362
2363
2364
2365
2366
2367
2368
2369
2370
2371
2372
2373
2374
2375
2376
2377
2378
2379
2380
2381
2382
2383
2384
2385
2386
2387
2388
2389
2390
2391
2392
2393
2394
2395
2396
2397
2398
2399
2400
2401
2402
2403
2404
2405
2406
2407
2408
2409
2410
2411
2412
2413
2414
2415
2416
2417
2418
2419
2420
2421
2422
2423
2424
2425
2426
2427
2428
2429
2430
2431
2432
2433
2434
2435
2436
2437
2438
2439
2440
2441
2442
2443
2444
2445
2446
2447
2448
2449
2450
2451
2452
2453
2454
2455
2456
2457
2458
2459
2460
2461
2462
2463
2464
2465
2466
2467
2468
2469
2470
2471
2472
2473
2474
2475
2476
2477
2478
2479
2480
2481
2482
2483
2484
2485
2486
2487
2488
2489
2490
2491
2492
2493
2494
2495
2496
2497
2498
2499
2500
2501
2502
2503
2504
2505
2506
2507
2508
2509
2510
2511
2512
2513
2514
2515
2516
2517
2518
2519
2520
2521
2522
2523
2524
2525
2526
2527
2528
2529
2530
2531
2532
2533
2534
2535
2536
2537
2538
2539
2540
2541
2542
2543
2544
2545
2546
2547
2548
2549
2550
2551
2552
2553
2554
2555
2556
2557
2558
2559
2560
2561
2562
2563
2564
2565
2566
2567
2568
2569
2570
2571
2572
2573
2574
2575
2576
2577
2578
2579
2580
2581
2582
2583
2584
2585
2586
2587
2588
2589
2590
2591
2592
2593
2594
2595
2596
2597
2598
2599
2600
2601
2602
2603
2604
2605
2606
2607
2608
2609
2610
2611
2612
2613
2614
2615
2616
2617
2618
2619
2620
2621
2622
2623
2624
2625
2626
2627
2628
2629
2630
2631
2632
2633
2634
2635
2636
2637
2638
2639
2640
2641
2642
2643
2644
2645
2646
2647
2648
2649
2650
2651
2652
2653
2654
2655
2656
2657
2658
2659
2660
2661
2662
2663
2664
2665
2666
2667
2668
2669
2670
2671
2672
2673
2674
2675
2676
2677
2678
2679
2680
2681
2682
2683
2684
2685
2686
2687
2688
2689
2690
2691
2692
2693
2694
2695
2696
2697
2698
2699
2700
2701
2702
2703
2704
2705
2706
2707
2708
2709
2710
2711
2712
2713
2714
2715
2716
2717
2718
2719
2720
2721
2722
2723
2724
2725
2726
2727
2728
2729
2730
2731
2732
2733
2734
2735
2736
2737
2738
2739
2740
2741
2742
2743
2744
2745
2746
2747
2748
2749
2750
2751
2752
2753
2754
2755
2756
2757
2758
2759
2760
2761
2762
2763
2764
2765
2766
2767
2768
2769
2770
2771
2772
2773
2774
2775
2776
2777
2778
2779
2780
2781
2782
2783
2784
2785
2786
2787
2788
2789
2790
2791
2792
2793
2794
2795
2796
2797
2798
2799
2800
2801
2802
2803
2804
2805
2806
2807
2808
2809
2810
2811
2812
2813
2814
2815
2816
2817
2818
2819
2820
2821
2822
2823
2824
2825
2826
2827
2828
2829
2830
2831
2832
2833
2834
2835
2836
2837
2838
2839
2840
2841
2842
2843
2844
2845
2846
2847
2848
2849
2850
2851
2852
2853
2854
2855
2856
2857
2858
2859
2860
2861
2862
2863
2864
2865
2866
2867
2868
2869
2870
2871
2872
2873
2874
2875
2876
2877
2878
2879
2880
2881
2882
2883
2884
2885
2886
2887
2888
2889
2890
2891
2892
2893
2894
2895
2896
2897
2898
2899
2900
2901
2902
2903
2904
2905
2906
2907
2908
2909
2910
2911
2912
2913
2914
2915
2916
2917
2918
2919
2920
2921
2922
2923
2924
2925
2926
2927
2928
2929
2930
2931
2932
2933
2934
2935
2936
2937
2938
2939
2940
2941
2942
2943
2944
2945
2946
2947
2948
2949
2950
2951
2952
2953
2954
2955
2956
2957
2958
2959
2960
2961
2962
2963
2964
2965
2966
2967
2968
2969
2970
2971
2972
2973
2974
2975
2976
2977
2978
2979
2980
2981
2982
2983
2984
2985
2986
2987
2988
2989
2990
2991
2992
2993
2994
2995
2996
2997
2998
2999
3000
3001
3002
3003
3004
3005
3006
3007
3008
3009
3010
3011
3012
3013
3014
3015
3016
3017
3018
3019
3020
3021
3022
3023
3024
3025
3026
3027
3028
3029
3030
3031
3032
3033
3034
3035
3036
3037
3038
3039
3040
3041
3042
3043
3044
3045
3046
3047
3048
3049
3050
3051
3052
3053
3054
3055
3056
3057
3058
3059
3060
3061
3062
3063
3064
3065
3066
3067
3068
3069
3070
3071
3072
3073
3074
3075
3076
3077
3078
3079
3080
3081
3082
3083
3084
3085
3086
3087
3088
3089
3090
3091
3092
3093
3094
3095
3096
3097
3098
3099
3100
3101
3102
3103
3104
3105
3106
3107
3108
3109
3110
3111
3112
3113
3114
3115
3116
3117
3118
3119
3120
3121
3122
3123
3124
3125
3126
3127
3128
3129
3130
3131
3132
3133
3134
3135
3136
3137
3138
3139
3140
3141
3142
3143
3144
3145
3146
3147
3148
3149
3150
3151
3152
3153
3154
3155
3156
3157
3158
3159
3160
3161
3162
3163
3164
3165
3166
3167
3168
3169
3170
3171
3172
3173
3174
3175
3176
3177
3178
3179
3180
3181
3182
3183
3184
3185
3186
3187
3188
3189
3190
3191
3192
3193
3194
3195
3196
3197
3198
3199
3200
3201
3202
3203
3204
3205
3206
3207
3208
3209
3210
3211
3212
3213
3214
3215
3216
3217
3218
3219
3220
3221
3222
3223
3224
3225
3226
3227
3228
3229
3230
3231
3232
3233
3234
3235
3236
3237
3238
3239
3240
3241
3242
3243
3244
3245
3246
3247
3248
3249
3250
3251
3252
3253
3254
3255
3256
3257
3258
3259
3260
3261
3262
3263
3264
3265
3266
3267
3268
3269
3270
3271
3272
3273
3274
3275
3276
3277
3278
3279
3280
3281
3282
3283
3284
3285
3286
3287
3288
3289
3290
3291
3292
3293
3294
3295
3296
3297
3298
3299
3300
3301
3302
3303
3304
3305
3306
3307
3308
3309
3310
3311
3312
3313
3314
3315
3316
3317
3318
3319
3320
3321
3322
3323
3324
3325
3326
3327
3328
3329
3330
3331
3332
3333
3334
3335
3336
3337
3338
3339
3340
3341
3342
3343
3344
3345
3346
3347
3348
3349
3350
3351
3352
3353
3354
3355
3356
3357
3358
3359
3360
3361
3362
3363
3364
3365
3366
3367
3368
3369
3370
3371
3372
3373
3374
3375
3376
3377
3378
3379
3380
3381
3382
3383
3384
3385
3386
3387
3388
3389
3390
3391
3392
3393
3394
3395
3396
3397
3398
3399
3400
3401
3402
3403
3404
3405
3406
3407
3408
3409
3410
3411
3412
3413
3414
3415
3416
3417
3418
3419
3420
3421
3422
3423
3424
3425
3426
3427
3428
3429
3430
3431
3432
3433
3434
3435
3436
3437
3438
3439
3440
3441
3442
3443
3444
3445
3446
3447
3448
3449
3450
3451
3452
3453
3454
3455
3456
3457
3458
3459
3460
3461
3462
3463
3464
3465
3466
3467
3468
3469
3470
3471
3472
3473
3474
3475
3476
3477
3478
3479
3480
3481
3482
3483
3484
3485
3486
3487
3488
3489
3490
3491
3492
3493
3494
3495
3496
3497
3498
3499
3500
3501
3502
3503
3504
3505
3506
3507
3508
3509
3510
3511
3512
3513
3514
3515
3516
3517
3518
3519
3520
3521
3522
3523
3524
3525
3526
3527
3528
3529
3530
3531
3532
3533
3534
3535
3536
3537
3538
3539
3540
3541
3542
3543
3544
3545
3546
3547
3548
3549
3550
3551
3552
3553
3554
3555
3556
3557
3558
3559
3560
3561
3562
3563
3564
3565
3566
3567
3568
3569
3570
3571
3572
3573
3574
3575
3576
3577
3578
3579
3580
3581
3582
3583
3584
3585
3586
3587
3588
3589
3590
3591
3592
3593
3594
3595
3596
3597
3598
3599
3600
3601
3602
3603
3604
3605
3606
3607
3608
3609
3610
3611
3612
3613
3614
3615
3616
3617
3618
3619
3620
3621
3622
3623
3624
3625
3626
3627
3628
3629
3630
3631
3632
3633
3634
3635
3636
3637
3638
3639
3640
3641
3642
3643
3644
3645
3646
3647
3648
3649
3650
3651
3652
3653
3654
3655
3656
3657
3658
3659
3660
3661
3662
3663
3664
3665
3666
3667
3668
3669
3670
3671
3672
3673
3674
3675
3676
3677
3678
3679
3680
3681
3682
3683
3684
3685
3686
3687
3688
3689
3690
3691
3692
3693
3694
3695
3696
3697
3698
3699
3700
3701
3702
3703
3704
3705
3706
3707
3708
3709
3710
3711
3712
3713
3714
3715
3716
3717
3718
3719
3720
3721
3722
3723
3724
3725
3726
3727
3728
3729
3730
3731
3732
3733
3734
3735
3736
3737
3738
3739
3740
3741
3742
3743
3744
3745
3746
3747
3748
3749
3750
3751
3752
3753
3754
3755
3756
3757
3758
3759
3760
3761
3762
3763
3764
3765
3766
3767
3768
3769
3770
3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
3781
3782
3783
3784
3785
3786
3787
3788
3789
3790
3791
3792
3793
3794
3795
3796
3797
3798
3799
3800
3801
3802
3803
3804
3805
3806
3807
3808
3809
3810
3811
3812
3813
3814
3815
3816
3817
3818
3819
3820
3821
3822
3823
3824
3825
3826
3827
3828
3829
3830
3831
3832
3833
3834
3835
3836
3837
3838
3839
3840
3841
3842
3843
3844
3845
3846
3847
3848
3849
3850
3851
3852
3853
3854
3855
3856
3857
3858
3859
3860
3861
3862
3863
3864
3865
3866
3867
3868
3869
3870
3871
3872
3873
3874
3875
3876
3877
3878
3879
3880
3881
3882
3883
3884
3885
3886
3887
3888
3889
3890
3891
3892
3893
3894
3895
3896
3897
3898
3899
3900
3901
3902
3903
3904
3905
3906
3907
3908
3909
3910
3911
3912
3913
3914
3915
3916
3917
3918
3919
3920
3921
3922
3923
3924
3925
3926
3927
3928
3929
3930
3931
3932
3933
3934
3935
3936
3937
3938
3939
3940
3941
3942
3943
3944
3945
3946
3947
3948
3949
3950
3951
3952
3953
3954
3955
3956
3957
3958
3959
3960
3961
3962
3963
3964
3965
3966
3967
3968
3969
3970
3971
3972
3973
3974
3975
3976
3977
3978
3979
3980
3981
3982
3983
3984
3985
3986
3987
3988
3989
3990
3991
3992
3993
3994
3995
3996
3997
3998
3999
4000
4001
4002
4003
4004
4005
4006
4007
4008
4009
4010
4011
4012
4013
4014
4015
4016
4017
4018
4019
4020
4021
4022
4023
4024
4025
4026
4027
4028
4029
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
4042
4043
4044
4045
4046
4047
4048
4049
4050
4051
4052
4053
4054
4055
4056
4057
4058
4059
4060
4061
4062
4063
4064
4065
4066
4067
4068
4069
4070
4071
4072
4073
4074
4075
4076
4077
4078
4079
4080
4081
4082
4083
4084
4085
4086
4087
4088
4089
4090
4091
4092
4093
4094
4095
4096
4097
4098
4099
4100
4101
4102
4103
4104
4105
4106
4107
4108
4109
4110
4111
4112
4113
4114
4115
4116
4117
4118
4119
4120
4121
4122
4123
4124
4125
4126
4127
4128
4129
4130
4131
4132
4133
4134
4135
4136
4137
4138
4139
4140
4141
4142
4143
4144
4145
4146
4147
4148
4149
4150
4151
4152
4153
4154
4155
4156
4157
4158
4159
4160
4161
4162
4163
4164
4165
4166
4167
4168
4169
4170
4171
4172
4173
4174
4175
4176
4177
4178
4179
4180
4181
4182
4183
4184
4185
4186
4187
4188
4189
4190
4191
4192
4193
4194
4195
4196
4197
4198
4199
4200
4201
4202
4203
4204
4205
4206
4207
4208
4209
4210
4211
4212
4213
4214
4215
4216
4217
4218
4219
4220
4221
4222
4223
4224
4225
4226
4227
4228
4229
4230
4231
4232
4233
4234
4235
4236
4237
4238
4239
4240
4241
4242
4243
4244
4245
4246
4247
4248
4249
4250
4251
4252
4253
4254
4255
4256
4257
4258
4259
4260
4261
4262
4263
4264
4265
4266
4267
4268
4269
4270
4271
4272
4273
4274
4275
4276
4277
4278
4279
4280
4281
4282
4283
4284
4285
4286
4287
4288
4289
4290
4291
4292
4293
4294
4295
4296
4297
4298
4299
4300
4301
4302
4303
4304
4305
4306
4307
4308
4309
4310
4311
4312
4313
4314
4315
4316
4317
4318
4319
4320
4321
4322
4323
4324
4325
4326
4327
4328
4329
4330
4331
4332
4333
4334
4335
4336
4337
4338
4339
4340
4341
4342
4343
4344
4345
4346
4347
4348
4349
4350
4351
4352
4353
4354
4355
4356
4357
4358
4359
4360
4361
4362
4363
4364
4365
4366
4367
4368
4369
4370
4371
4372
4373
4374
4375
4376
4377
4378
4379
4380
4381
4382
4383
4384
4385
4386
4387
4388
4389
4390
4391
4392
4393
4394
4395
4396
4397
4398
4399
4400
4401
4402
4403
4404
4405
4406
4407
4408
4409
4410
4411
4412
4413
4414
4415
4416
4417
4418
4419
4420
4421
4422
4423
4424
4425
4426
4427
4428
4429
4430
4431
4432
4433
4434
4435
4436
4437
4438
4439
4440
4441
4442
4443
4444
4445
4446
4447
4448
4449
4450
4451
4452
4453
4454
4455
4456
4457
4458
4459
4460
4461
4462
4463
4464
4465
4466
4467
4468
4469
4470
4471
4472
4473
4474
4475
4476
4477
4478
4479
4480
4481
4482
4483
4484
4485
4486
4487
4488
4489
4490
4491
4492
4493
4494
4495
4496
4497
4498
4499
4500
4501
4502
4503
4504
4505
4506
4507
4508
4509
4510
4511
4512
4513
4514
4515
4516
4517
4518
4519
4520
4521
4522
4523
4524
4525
4526
4527
4528
4529
4530
4531
4532
4533
4534
4535
4536
4537
4538
4539
4540
4541
4542
4543
4544
4545
4546
4547
4548
4549
4550
4551
4552
4553
4554
4555
4556
4557
4558
4559
4560
4561
4562
4563
4564
4565
4566
4567
4568
4569
4570
4571
4572
4573
4574
4575
4576
4577
4578
4579
4580
4581
4582
4583
4584
4585
4586
4587
4588
4589
4590
4591
4592
4593
4594
4595
4596
4597
4598
4599
4600
4601
4602
4603
4604
4605
4606
4607
4608
4609
4610
4611
4612
4613
4614
4615
4616
4617
4618
4619
4620
4621
4622
4623
4624
4625
4626
4627
4628
4629
4630
4631
4632
4633
4634
4635
4636
4637
4638
4639
4640
4641
4642
4643
4644
4645
4646
4647
4648
4649
4650
4651
4652
4653
4654
4655
4656
4657
4658
4659
4660
4661
4662
4663
4664
4665
4666
4667
4668
4669
4670
4671
4672
4673
4674
4675
4676
4677
4678
4679
4680
4681
4682
4683
4684
4685
4686
4687
4688
4689
4690
4691
4692
4693
4694
4695
4696
4697
4698
4699
4700
4701
4702
4703
4704
4705
4706
4707
4708
4709
4710
4711
4712
4713
4714
4715
4716
4717
4718
4719
4720
4721
4722
4723
4724
4725
4726
4727
4728
4729
4730
4731
4732
4733
4734
4735
4736
4737
4738
4739
4740
4741
4742
4743
4744
4745
4746
4747
4748
4749
4750
4751
4752
4753
4754
4755
4756
4757
4758
4759
4760
4761
4762
4763
4764
4765
4766
4767
4768
4769
4770
4771
4772
4773
4774
4775
4776
4777
4778
4779
4780
4781
4782
4783
4784
4785
4786
4787
4788
4789
4790
4791
4792
4793
4794
4795
4796
4797
4798
4799
4800
4801
4802
4803
4804
4805
4806
4807
4808
4809
4810
4811
4812
4813
4814
4815
4816
4817
4818
4819
4820
4821
4822
4823
4824
4825
4826
4827
4828
4829
4830
4831
4832
4833
4834
4835
4836
4837
4838
4839
4840
4841
4842
4843
4844
4845
4846
4847
4848
4849
4850
4851
4852
4853
4854
4855
4856
4857
4858
4859
4860
4861
4862
4863
4864
4865
4866
4867
4868
4869
4870
4871
4872
4873
4874
4875
4876
4877
4878
4879
4880
4881
4882
4883
4884
4885
4886
4887
4888
4889
4890
4891
4892
4893
4894
4895
4896
4897
4898
4899
4900
4901
4902
4903
4904
4905
4906
4907
4908
4909
4910
4911
4912
4913
4914
4915
4916
4917
4918
4919
4920
4921
4922
4923
4924
4925
4926
4927
4928
4929
4930
4931
4932
4933
4934
4935
4936
4937
4938
4939
4940
4941
4942
4943
4944
4945
4946
4947
4948
4949
4950
4951
4952
4953
4954
4955
4956
4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967
4968
4969
4970
4971
4972
4973
4974
4975
4976
4977
4978
4979
4980
4981
4982
4983
4984
4985
4986
4987
4988
4989
4990
4991
4992
4993
4994
4995
4996
4997
4998
4999
5000
5001
5002
5003
5004
5005
5006
5007
5008
5009
5010
5011
5012
5013
5014
5015
5016
5017
5018
5019
5020
5021
5022
5023
5024
5025
5026
5027
5028
5029
5030
5031
5032
5033
5034
5035
5036
5037
5038
5039
5040
5041
5042
5043
5044
5045
5046
5047
5048
|
#!/usr/bin/env python
import logging
import os
import os.path
import re
import shutil
import sys
import tempfile
import time
import unittest
from platform import architecture
from cli_common import (file_text, find_utility, is_windows, list_upto,
path_for_gpg, pswd_pipe, raise_err, random_text,
run_proc, decode_string_escape, CONSOLE_ENCODING,
set_workdir)
from gnupg import GnuPG as GnuPG
from rnp import Rnp as Rnp
WORKDIR = ''
RNP = ''
RNPK = ''
GPG = ''
GPGCONF = ''
RNPDIR = ''
GPGHOME = None
PASSWORD = 'password'
RMWORKDIR = True
GPG_AEAD = False
GPG_AEAD_EAX = False
GPG_AEAD_OCB = False
GPG_NO_OLD = False
GPG_BRAINPOOL = False
TESTS_SUCCEEDED = []
TESTS_FAILED = []
TEST_WORKFILES = []
# Supported features
RNP_TWOFISH = True
RNP_BRAINPOOL = True
RNP_AEAD_EAX = True
RNP_AEAD_OCB = True
RNP_AEAD_OCB_AES = False
RNP_AEAD = True
RNP_IDEA = True
RNP_BLOWFISH = True
RNP_CAST5 = True
RNP_RIPEMD160 = True
if sys.version_info >= (3,):
unichr = chr
def escape_regex(str):
return '^' + ''.join((c, "[\\x{:02X}]".format(ord(c)))[0 <= ord(c) <= 0x20 \
or c in ['[',']','(',')','|','"','$','.','*','^','$','\\','+','?','{','}']] for c in str) + '$'
UNICODE_LATIN_CAPITAL_A_GRAVE = unichr(192)
UNICODE_LATIN_SMALL_A_GRAVE = unichr(224)
UNICODE_LATIN_CAPITAL_A_MACRON = unichr(256)
UNICODE_LATIN_SMALL_A_MACRON = unichr(257)
UNICODE_GREEK_CAPITAL_HETA = unichr(880)
UNICODE_GREEK_SMALL_HETA = unichr(881)
UNICODE_GREEK_CAPITAL_OMEGA = unichr(937)
UNICODE_GREEK_SMALL_OMEGA = unichr(969)
UNICODE_CYRILLIC_CAPITAL_A = unichr(0x0410)
UNICODE_CYRILLIC_SMALL_A = unichr(0x0430)
UNICODE_CYRILLIC_CAPITAL_YA = unichr(0x042F)
UNICODE_CYRILLIC_SMALL_YA = unichr(0x044F)
UNICODE_SEQUENCE_1 = UNICODE_LATIN_CAPITAL_A_GRAVE + UNICODE_LATIN_SMALL_A_MACRON \
+ UNICODE_GREEK_CAPITAL_HETA + UNICODE_GREEK_SMALL_OMEGA \
+ UNICODE_CYRILLIC_CAPITAL_A + UNICODE_CYRILLIC_SMALL_YA
UNICODE_SEQUENCE_2 = UNICODE_LATIN_SMALL_A_GRAVE + UNICODE_LATIN_CAPITAL_A_MACRON \
+ UNICODE_GREEK_SMALL_HETA + UNICODE_GREEK_CAPITAL_OMEGA \
+ UNICODE_CYRILLIC_SMALL_A + UNICODE_CYRILLIC_CAPITAL_YA
WEIRD_USERID_UNICODE_1 = unichr(160) + unichr(161) \
+ UNICODE_SEQUENCE_1 + unichr(40960) + u'@rnp'
WEIRD_USERID_UNICODE_2 = unichr(160) + unichr(161) \
+ UNICODE_SEQUENCE_2 + unichr(40960) + u'@rnp'
WEIRD_USERID_SPECIAL_CHARS = '\\}{][)^*.+(\t\n|$@rnp'
WEIRD_USERID_SPACE = ' '
WEIRD_USERID_QUOTE = '"'
WEIRD_USERID_SPACE_AND_QUOTE = ' "'
WEIRD_USERID_QUOTE_AND_SPACE = '" '
WEIRD_USERID_TOO_LONG = 'x' * 125 + '@rnp' # totaling 129 (MAX_USER_ID + 1)
# Key userids
KEY_ENCRYPT = 'encryption@rnp'
KEY_SIGN_RNP = 'signing@rnp'
KEY_SIGN_GPG = 'signing@gpg'
KEY_ENC_RNP = 'enc@rnp'
AT_EXAMPLE = '@example.com'
# Keyrings
PUBRING = 'pubring.gpg'
SECRING = 'secring.gpg'
PUBRING_1 = 'keyrings/1/pubring.gpg'
SECRING_1 = 'keyrings/1/secring.gpg'
KEYRING_DIR_1 = 'keyrings/1'
KEYRING_DIR_3 = 'keyrings/3'
SECRING_G10 = 'test_stream_key_load/g10'
KEY_ALICE_PUB = 'test_key_validity/alice-pub.asc'
KEY_ALICE_SUB_PUB = 'test_key_validity/alice-sub-pub.pgp'
KEY_ALICE_SEC = 'test_key_validity/alice-sec.asc'
KEY_ALICE_SUB_SEC = 'test_key_validity/alice-sub-sec.pgp'
KEY_ALICE = 'Alice <alice@rnp>'
KEY_25519_NOTWEAK_SEC = 'test_key_edge_cases/key-25519-non-tweaked-sec.asc'
# Messages
MSG_TXT = 'test_messages/message.txt'
MSG_ES_25519 = 'test_messages/message.txt.enc-sign-25519'
MSG_SIG_CRCR = 'test_messages/message.text-sig-crcr.sig'
# Extensions
EXT_SIG = '.txt.sig'
EXT_ASC = '.txt.asc'
EXT_PGP = '.txt.pgp'
# Misc
GPG_LOOPBACK = '--pinentry-mode=loopback'
# Regexps
RE_RSA_KEY = r'(?s)^' \
r'# .*' \
r':public key packet:\s+' \
r'version 4, algo 1, created \d+, expires 0\s+' \
r'pkey\[0\]: \[(\d{4}) bits\]\s+' \
r'pkey\[1\]: \[17 bits\]\s+' \
r'keyid: ([0-9A-F]{16})\s+' \
r'# .*' \
r':user ID packet: "(.+)"\s+' \
r'# .*' \
r':signature packet: algo 1, keyid \2\s+' \
r'.*' \
r'# .*' \
r':public sub key packet:' \
r'.*' \
r':signature packet: algo 1, keyid \2\s+' \
r'.*$'
RE_RSA_KEY_LIST = r'^\s*' \
r'2 keys found\s+' \
r'pub\s+(\d{4})/RSA ([0-9a-z]{16}) \d{4}-\d{2}-\d{2} \[.*\]\s+' \
r'([0-9a-z]{40})\s+' \
r'uid\s+(.+)\s+' \
r'sub.+\s+' \
r'[0-9a-z]{40}\s+$'
RE_MULTIPLE_KEY_LIST = r'(?s)^\s*(\d+) (?:key|keys) found.*$'
RE_MULTIPLE_KEY_5 = r'(?s)^\s*' \
r'10 keys found.*' \
r'.+uid\s+0@rnp-multiple' \
r'.+uid\s+1@rnp-multiple' \
r'.+uid\s+2@rnp-multiple' \
r'.+uid\s+3@rnp-multiple' \
r'.+uid\s+4@rnp-multiple.*$'
RE_MULTIPLE_SUBKEY_3 = r'(?s)^\s*' \
r'3 keys found.*$'
RE_MULTIPLE_SUBKEY_8 = r'(?s)^\s*' \
r'8 keys found.*$'
RE_GPG_SINGLE_RSA_KEY = r'(?s)^\s*' \
r'.+-+\s*' \
r'pub\s+rsa.+' \
r'\s+([0-9A-F]{40})\s*' \
r'uid\s+.+rsakey@gpg.*'
RE_GPG_GOOD_SIGNATURE = r'(?s)^.*' \
r'gpg: Signature made .*' \
r'gpg: Good signature from "(.*)".*'
RE_RNP_GOOD_SIGNATURE = r'(?s)^.*' \
r'Good signature made .*' \
r'using .* key .*' \
r'pub .*' \
r'uid\s+(.*)\s*' \
r'Signature\(s\) verified successfully.*$'
RE_RNP_ENCRYPTED_KEY = r'(?s)^.*' \
r'Secret key packet.*' \
r'secret key material:.*' \
r'encrypted secret key data:.*' \
r'UserID packet.*' \
r'id: enc@rnp.*' \
r'Secret subkey packet.*' \
r'secret key material:.*' \
r'encrypted secret key data:.*$'
RE_RNP_REVOCATION_SIG = r'(?s)' \
r':armored input\n' \
r':off 0: packet header .* \(tag 2, len .*' \
r'Signature packet.*' \
r'version: 4.*' \
r'type: 32 \(Key revocation signature\).*' \
r'public key algorithm:.*' \
r'hashed subpackets:.*' \
r':type 33, len 21.*' \
r'issuer fingerprint:.*' \
r':type 2, len 4.*' \
r'signature creation time:.*' \
r':type 29.*' \
r'reason for revocation: (.*)' \
r'message: (.*)' \
r'unhashed subpackets:.*' \
r':type 16, len 8.*' \
r'issuer key ID: .*$'
RE_GPG_REVOCATION_IMPORT = r'(?s)^.*' \
r'key 0451409669FFDE3C: "Alice <alice@rnp>" revocation certificate imported.*' \
r'Total number processed: 1.*' \
r'new key revocations: 1.*$'
RE_SIG_1_IMPORT = r'(?s)^.*Import finished: 1 new signature, 0 unchanged, 0 unknown.*'
RE_KEYSTORE_INFO = r'(?s)^.*fatal: cannot set keystore info'
RNP_TO_GPG_ZALGS = { 'zip' : '1', 'zlib' : '2', 'bzip2' : '3' }
# These are mostly identical
RNP_TO_GPG_CIPHERS = {'AES' : 'aes128', 'AES192' : 'aes192', 'AES256' : 'aes256',
'TWOFISH' : 'twofish', 'CAMELLIA128' : 'camellia128',
'CAMELLIA192' : 'camellia192', 'CAMELLIA256' : 'camellia256',
'IDEA' : 'idea', '3DES' : '3des', 'CAST5' : 'cast5',
'BLOWFISH' : 'blowfish'}
# Error messages
RNP_DATA_DIFFERS = 'rnp decrypted data differs'
GPG_DATA_DIFFERS = 'gpg decrypted data differs'
KEY_GEN_FAILED = 'key generation failed'
KEY_LIST_FAILED = 'key list failed'
KEY_LIST_WRONG = 'wrong key list output'
PKT_LIST_FAILED = 'packet listing failed'
ALICE_IMPORT_FAIL = 'Alice key import failed'
ENC_FAILED = 'encryption failed'
DEC_FAILED = 'decryption failed'
DEC_DIFFERS = 'Decrypted data differs'
GPG_IMPORT_FAILED = 'gpg key import failed'
def check_packets(fname, regexp):
ret, output, err = run_proc(GPG, ['--homedir', '.',
'--list-packets', path_for_gpg(fname)])
if ret != 0:
logging.error(err)
return None
else:
result = re.match(regexp, output)
if not result:
logging.debug('Wrong packets:')
logging.debug(output)
return result
def clear_keyrings():
shutil.rmtree(RNPDIR, ignore_errors=True)
os.mkdir(RNPDIR, 0o700)
run_proc(GPGCONF, ['--homedir', GPGHOME, '--kill', 'gpg-agent'])
while os.path.isdir(GPGDIR):
try:
shutil.rmtree(GPGDIR)
except Exception:
time.sleep(0.1)
os.mkdir(GPGDIR, 0o700)
def allow_y2k38_on_32bit(filename):
if architecture()[0] == '32bit':
return [filename, filename + '_y2k38']
else:
return [filename]
def compare_files(src, dst, message):
if file_text(src) != file_text(dst):
raise_err(message)
def compare_file(src, string, message):
if file_text(src) != string:
raise_err(message)
def compare_file_any(srcs, string, message):
for src in srcs:
if file_text(src) == string:
return
raise_err(message)
def compare_file_ex(src, string, message, symbol='?'):
ftext = file_text(src)
if len(ftext) != len(string):
raise_err(message)
for i in range(0, len(ftext)):
if (ftext[i] != symbol[0]) and (ftext[i] != string[i]):
raise_err(message)
def remove_files(*args):
for fpath in args:
try:
os.remove(fpath)
except Exception:
# Ignore if file cannot be removed
pass
def reg_workfiles(mainname, *exts):
global TEST_WORKFILES
res = []
for ext in exts:
fpath = os.path.join(WORKDIR, mainname + ext)
if fpath in TEST_WORKFILES:
logging.warn('Warning! Path {} is already in TEST_WORKFILES'.format(fpath))
else:
TEST_WORKFILES += [fpath]
res += [fpath]
return res
def clear_workfiles():
global TEST_WORKFILES
remove_files(*TEST_WORKFILES)
TEST_WORKFILES = []
def rnp_genkey_rsa(userid, bits=2048, pswd=PASSWORD):
pipe = pswd_pipe(pswd)
ret, _, err = run_proc(RNPK, ['--numbits', str(bits), '--homedir', RNPDIR, '--pass-fd', str(pipe),
'--notty', '--s2k-iterations', '50000', '--userid', userid, '--generate-key'])
os.close(pipe)
if ret != 0:
raise_err('rsa key generation failed', err)
def rnp_params_insert_z(params, pos, z):
if z:
if len(z) > 0 and z[0] != None:
params[pos:pos] = ['--' + z[0]]
if len(z) > 1 and z[1] != None:
params[pos:pos] = ['-z', str(z[1])]
def rnp_params_insert_aead(params, pos, aead):
if aead != None:
params[pos:pos] = ['--aead=' + aead[0]] if len(aead) > 0 and aead[0] != None else ['--aead']
if len(aead) > 1 and aead[1] != None:
params[pos + 1:pos + 1] = ['--aead-chunk-bits=' + str(aead[1])]
def rnp_encrypt_file_ex(src, dst, recipients=None, passwords=None, aead=None, cipher=None,
z=None, armor=False, s2k_iter=False, s2k_msec=False):
params = ['--homedir', RNPDIR, src, '--output', dst]
# Recipients. None disables PK encryption, [] to use default key. Otherwise list of ids.
if recipients != None:
params[2:2] = ['--encrypt']
for userid in reversed(recipients):
params[2:2] = ['-r', escape_regex(userid)]
# Passwords to encrypt to. None or [] disables password encryption.
if passwords:
if recipients is None:
params[2:2] = ['-c']
if s2k_iter != False:
params += ['--s2k-iterations', str(s2k_iter)]
if s2k_msec != False:
params += ['--s2k-msec', str(s2k_msec)]
pipe = pswd_pipe('\n'.join(passwords))
params[2:2] = ['--pass-fd', str(pipe), '--passwords', str(len(passwords))]
# Cipher or None for default
if cipher: params[2:2] = ['--cipher', cipher]
# Armor
if armor: params += ['--armor']
rnp_params_insert_aead(params, 2, aead)
rnp_params_insert_z(params, 2, z)
ret, _, err = run_proc(RNP, params)
if passwords: os.close(pipe)
if ret != 0:
raise_err('rnp encryption failed with ' + cipher, err)
def rnp_encrypt_and_sign_file(src, dst, recipients, encrpswd, signers, signpswd,
aead=None, cipher=None, z=None, armor=False):
params = ['--homedir', RNPDIR, '--sign', '--encrypt', src, '--output', dst]
pipe = pswd_pipe('\n'.join(encrpswd + signpswd))
params[2:2] = ['--pass-fd', str(pipe)]
# Encrypting passwords if any
if encrpswd:
params[2:2] = ['--passwords', str(len(encrpswd))]
# Adding recipients. If list is empty then default will be used.
for userid in reversed(recipients):
params[2:2] = ['-r', escape_regex(userid)]
# Adding signers. If list is empty then default will be used.
for signer in reversed(signers):
params[2:2] = ['-u', escape_regex(signer)]
# Cipher or None for default
if cipher: params[2:2] = ['--cipher', cipher]
# Armor
if armor: params += ['--armor']
rnp_params_insert_aead(params, 2, aead)
rnp_params_insert_z(params, 2, z)
ret, _, err = run_proc(RNP, params)
os.close(pipe)
if ret != 0:
raise_err('rnp encrypt-and-sign failed', err)
def rnp_decrypt_file(src, dst, password = PASSWORD):
pipe = pswd_pipe(password)
ret, out, err = run_proc(
RNP, ['--homedir', RNPDIR, '--pass-fd', str(pipe), '--decrypt', src, '--output', dst])
os.close(pipe)
if ret != 0:
raise_err('rnp decryption failed', out + err)
def rnp_sign_file_ex(src, dst, signers, passwords, options = None):
pipe = pswd_pipe('\n'.join(passwords))
params = ['--homedir', RNPDIR, '--pass-fd', str(pipe), src]
if dst: params += ['--output', dst]
if 'cleartext' in options:
params[4:4] = ['--clearsign']
else:
params[4:4] = ['--sign']
if 'armor' in options: params += ['--armor']
if 'detached' in options: params += ['--detach']
for signer in reversed(signers):
params[4:4] = ['--userid', escape_regex(signer)]
ret, _, err = run_proc(RNP, params)
os.close(pipe)
if ret != 0:
raise_err('rnp signing failed', err)
def rnp_sign_file(src, dst, signers, passwords, armor=False):
options = []
if armor: options += ['armor']
rnp_sign_file_ex(src, dst, signers, passwords, options)
def rnp_sign_detached(src, signers, passwords, armor=False):
options = ['detached']
if armor: options += ['armor']
rnp_sign_file_ex(src, None, signers, passwords, options)
def rnp_sign_cleartext(src, dst, signers, passwords):
rnp_sign_file_ex(src, dst, signers, passwords, ['cleartext'])
def rnp_verify_file(src, dst, signer=None):
params = ['--homedir', RNPDIR, '--verify-cat', src, '--output', dst]
ret, out, err = run_proc(RNP, params)
if ret != 0:
raise_err('rnp verification failed', err + out)
# Check RNP output
match = re.match(RE_RNP_GOOD_SIGNATURE, err)
if not match:
raise_err('wrong rnp verification output', err)
if signer and (match.group(1).strip() != signer.strip()):
raise_err('rnp verification failed, wrong signer')
def rnp_verify_detached(sig, signer=None):
ret, out, err = run_proc(RNP, ['--homedir', RNPDIR, '--verify', sig])
if ret != 0:
raise_err('rnp detached verification failed', err + out)
# Check RNP output
match = re.match(RE_RNP_GOOD_SIGNATURE, err)
if not match:
raise_err('wrong rnp detached verification output', err)
if signer and (match.group(1).strip() != signer.strip()):
raise_err('rnp detached verification failed, wrong signer'.format())
def rnp_verify_cleartext(src, signer=None):
params = ['--homedir', RNPDIR, '--verify', src]
ret, out, err = run_proc(RNP, params)
if ret != 0:
raise_err('rnp verification failed', err + out)
# Check RNP output
match = re.match(RE_RNP_GOOD_SIGNATURE, err)
if not match:
raise_err('wrong rnp verification output', err)
if signer and (match.group(1).strip() != signer.strip()):
raise_err('rnp verification failed, wrong signer')
def gpg_import_pubring(kpath=None):
if not kpath:
kpath = os.path.join(RNPDIR, PUBRING)
ret, _, err = run_proc(
GPG, ['--display-charset', CONSOLE_ENCODING, '--batch', '--homedir', GPGHOME, '--import', kpath])
if ret != 0:
raise_err(GPG_IMPORT_FAILED, err)
def gpg_import_secring(kpath=None, password = PASSWORD):
if not kpath:
kpath = os.path.join(RNPDIR, SECRING)
ret, _, err = run_proc(
GPG, ['--display-charset', CONSOLE_ENCODING, '--batch', '--passphrase', password, '--homedir', GPGHOME, '--import', kpath])
if ret != 0:
raise_err('gpg secret key import failed', err)
def gpg_export_secret_key(userid, password, keyfile):
ret, _, err = run_proc(GPG, ['--batch', '--homedir', GPGHOME, GPG_LOOPBACK,
'--yes', '--passphrase', password, '--output',
path_for_gpg(keyfile), '--export-secret-key', userid])
if ret != 0:
raise_err('gpg secret key export failed', err)
def gpg_params_insert_z(params, pos, z):
if z:
if len(z) > 0 and z[0] != None:
params[pos:pos] = ['--compress-algo', RNP_TO_GPG_ZALGS[z[0]]]
if len(z) > 1 and z[1] != None:
params[pos:pos] = ['-z', str(z[1])]
def gpg_encrypt_file(src, dst, cipher=None, z=None, armor=False):
src = path_for_gpg(src)
dst = path_for_gpg(dst)
params = ['--homedir', GPGHOME, '-e', '-r', KEY_ENCRYPT, '--batch',
'--trust-model', 'always', '--output', dst, src]
if z: gpg_params_insert_z(params, 3, z)
if cipher: params[3:3] = ['--cipher-algo', RNP_TO_GPG_CIPHERS[cipher]]
if armor: params[2:2] = ['--armor']
if GPG_NO_OLD: params[2:2] = ['--allow-old-cipher-algos']
ret, out, err = run_proc(GPG, params)
if ret != 0:
raise_err('gpg encryption failed for cipher ' + cipher, err)
def gpg_symencrypt_file(src, dst, cipher=None, z=None, armor=False, aead=None):
src = path_for_gpg(src)
dst = path_for_gpg(dst)
params = ['--homedir', GPGHOME, '-c', '--s2k-count', '65536', '--batch',
'--passphrase', PASSWORD, '--output', dst, src]
if z: gpg_params_insert_z(params, 3, z)
if cipher: params[3:3] = ['--cipher-algo', RNP_TO_GPG_CIPHERS[cipher]]
if GPG_NO_OLD: params[3:3] = ['--allow-old-cipher-algos']
if armor: params[2:2] = ['--armor']
if aead != None:
if len(aead) > 0 and aead[0] != None:
params[3:3] = ['--aead-algo', aead[0]]
if len(aead) > 1 and aead[1] != None:
params[3:3] = ['--chunk-size', str(aead[1] + 6)]
params[3:3] = ['--rfc4880bis', '--force-aead']
ret, out, err = run_proc(GPG, params)
if ret != 0:
raise_err('gpg symmetric encryption failed for cipher ' + cipher, err)
def gpg_decrypt_file(src, dst, keypass):
src = path_for_gpg(src)
dst = path_for_gpg(dst)
ret, out, err = run_proc(GPG, ['--display-charset', CONSOLE_ENCODING, '--homedir', GPGHOME, GPG_LOOPBACK, '--batch',
'--yes', '--passphrase', keypass, '--trust-model',
'always', '-o', dst, '-d', src])
if ret != 0:
raise_err('gpg decryption failed', err)
def gpg_verify_file(src, dst, signer=None):
src = path_for_gpg(src)
dst = path_for_gpg(dst)
ret, out, err = run_proc(GPG, ['--display-charset', CONSOLE_ENCODING, '--homedir', GPGHOME, '--batch',
'--yes', '--trust-model', 'always', '-o', dst, '--verify', src])
if ret != 0:
raise_err('gpg verification failed', err)
# Check GPG output
match = re.match(RE_GPG_GOOD_SIGNATURE, err)
if not match:
raise_err('wrong gpg verification output', err)
if signer and (match.group(1) != signer):
raise_err('gpg verification failed, wrong signer')
def gpg_verify_detached(src, sig, signer=None):
src = path_for_gpg(src)
sig = path_for_gpg(sig)
ret, _, err = run_proc(GPG, ['--display-charset', CONSOLE_ENCODING, '--homedir', GPGHOME, '--batch', '--yes', '--trust-model',
'always', '--verify', sig, src])
if ret != 0:
raise_err('gpg detached verification failed', err)
# Check GPG output
match = re.match(RE_GPG_GOOD_SIGNATURE, err)
if not match:
raise_err('wrong gpg detached verification output', err)
if signer and (match.group(1) != signer):
raise_err('gpg detached verification failed, wrong signer')
def gpg_verify_cleartext(src, signer=None):
src = path_for_gpg(src)
ret, _, err = run_proc(
GPG, ['--display-charset', CONSOLE_ENCODING, '--homedir', GPGHOME, '--batch', '--yes', '--trust-model', 'always', '--verify', src])
if ret != 0:
raise_err('gpg cleartext verification failed', err)
# Check GPG output
match = re.match(RE_GPG_GOOD_SIGNATURE, err)
if not match:
raise_err('wrong gpg verification output', err)
if signer and (match.group(1) != signer):
raise_err('gpg verification failed, wrong signer')
def gpg_sign_file(src, dst, signer, z=None, armor=False):
src = path_for_gpg(src)
dst = path_for_gpg(dst)
params = ['--homedir', GPGHOME, GPG_LOOPBACK, '--batch', '--yes',
'--passphrase', PASSWORD, '--trust-model', 'always', '-u', signer, '-o',
dst, '-s', src]
if z: gpg_params_insert_z(params, 3, z)
if armor: params.insert(2, '--armor')
ret, _, err = run_proc(GPG, params)
if ret != 0:
raise_err('gpg signing failed', err)
def gpg_sign_detached(src, signer, armor=False, textsig=False):
src = path_for_gpg(src)
params = ['--homedir', GPGHOME, GPG_LOOPBACK, '--batch', '--yes',
'--passphrase', PASSWORD, '--trust-model', 'always', '-u', signer,
'--detach-sign', src]
if armor: params.insert(2, '--armor')
if textsig: params.insert(2, '--text')
ret, _, err = run_proc(GPG, params)
if ret != 0:
raise_err('gpg detached signing failed', err)
def gpg_sign_cleartext(src, dst, signer):
src = path_for_gpg(src)
dst = path_for_gpg(dst)
params = ['--homedir', GPGHOME, GPG_LOOPBACK, '--batch', '--yes', '--passphrase',
PASSWORD, '--trust-model', 'always', '-u', signer, '-o', dst, '--clearsign', src]
ret, _, err = run_proc(GPG, params)
if ret != 0:
raise_err('gpg cleartext signing failed', err)
def gpg_agent_clear_cache():
run_proc(GPGCONF, ['--homedir', GPGHOME, '--kill', 'gpg-agent'])
'''
Things to try here later on:
- different symmetric algorithms
- different file sizes (block len/packet len tests)
- different public key algorithms
- different compression levels/algorithms
'''
def gpg_to_rnp_encryption(filesize, cipher=None, z=None):
'''
Encrypts with GPG and decrypts with RNP
'''
src, dst, dec = reg_workfiles('cleartext', '.txt', '.gpg', '.rnp')
# Generate random file of required size
random_text(src, filesize)
for armor in [False, True]:
# Encrypt cleartext file with GPG
gpg_encrypt_file(src, dst, cipher, z, armor)
# Decrypt encrypted file with RNP
rnp_decrypt_file(dst, dec)
compare_files(src, dec, RNP_DATA_DIFFERS)
remove_files(dst, dec)
clear_workfiles()
def file_encryption_rnp_to_gpg(filesize, z=None):
'''
Encrypts with RNP and decrypts with GPG and RNP
'''
# TODO: Would be better to do "with reg_workfiles() as src,dst,enc ... and
# do cleanup at the end"
src, dst, enc = reg_workfiles('cleartext', '.txt', '.gpg', '.rnp')
# Generate random file of required size
random_text(src, filesize)
for armor in [False, True]:
# Encrypt cleartext file with RNP
rnp_encrypt_file_ex(src, enc, [KEY_ENCRYPT], None, None, None, z, armor)
# Decrypt encrypted file with GPG
gpg_decrypt_file(enc, dst, PASSWORD)
compare_files(src, dst, GPG_DATA_DIFFERS)
remove_files(dst)
# Decrypt encrypted file with RNP
rnp_decrypt_file(enc, dst)
compare_files(src, dst, RNP_DATA_DIFFERS)
remove_files(enc, dst)
clear_workfiles()
'''
Things to try later:
- different public key algorithms
- decryption with generated by GPG and imported keys
'''
def rnp_sym_encryption_gpg_to_rnp(filesize, cipher = None, z = None):
src, dst, dec = reg_workfiles('cleartext', '.txt', '.gpg', '.rnp')
# Generate random file of required size
random_text(src, filesize)
for armor in [False, True]:
# Encrypt cleartext file with GPG
gpg_symencrypt_file(src, dst, cipher, z, armor)
# Decrypt encrypted file with RNP
rnp_decrypt_file(dst, dec)
compare_files(src, dec, RNP_DATA_DIFFERS)
remove_files(dst, dec)
clear_workfiles()
def rnp_sym_encryption_rnp_to_gpg(filesize, cipher = None, z = None, s2k_iter = False, s2k_msec = False):
src, dst, enc = reg_workfiles('cleartext', '.txt', '.gpg', '.rnp')
# Generate random file of required size
random_text(src, filesize)
for armor in [False, True]:
# Encrypt cleartext file with RNP
rnp_encrypt_file_ex(src, enc, None, [PASSWORD], None, cipher, z, armor, s2k_iter, s2k_msec)
# Decrypt encrypted file with GPG
gpg_decrypt_file(enc, dst, PASSWORD)
compare_files(src, dst, GPG_DATA_DIFFERS)
remove_files(dst)
# Decrypt encrypted file with RNP
rnp_decrypt_file(enc, dst)
compare_files(src, dst, RNP_DATA_DIFFERS)
remove_files(enc, dst)
clear_workfiles()
def rnp_sym_encryption_rnp_aead(filesize, cipher = None, z = None, aead = None, usegpg = False):
src, dst, enc = reg_workfiles('cleartext', '.txt', '.rnp', '.enc')
# Generate random file of required size
random_text(src, filesize)
# Encrypt cleartext file with RNP
rnp_encrypt_file_ex(src, enc, None, [PASSWORD], aead, cipher, z)
# Decrypt encrypted file with RNP
rnp_decrypt_file(enc, dst)
compare_files(src, dst, RNP_DATA_DIFFERS)
remove_files(dst)
if usegpg:
# Decrypt encrypted file with GPG
gpg_decrypt_file(enc, dst, PASSWORD)
compare_files(src, dst, GPG_DATA_DIFFERS)
remove_files(dst, enc)
# Encrypt cleartext file with GPG
gpg_symencrypt_file(src, enc, cipher, z, False, aead)
# Decrypt encrypted file with RNP
rnp_decrypt_file(enc, dst)
compare_files(src, dst, RNP_DATA_DIFFERS)
clear_workfiles()
def rnp_signing_rnp_to_gpg(filesize):
src, sig, ver = reg_workfiles('cleartext', '.txt', '.sig', '.ver')
# Generate random file of required size
random_text(src, filesize)
for armor in [False, True]:
# Sign file with RNP
rnp_sign_file(src, sig, [KEY_SIGN_RNP], [PASSWORD], armor)
# Verify signed file with RNP
rnp_verify_file(sig, ver, KEY_SIGN_RNP)
compare_files(src, ver, 'rnp verified data differs')
remove_files(ver)
# Verify signed message with GPG
gpg_verify_file(sig, ver, KEY_SIGN_RNP)
compare_files(src, ver, 'gpg verified data differs')
remove_files(sig, ver)
clear_workfiles()
def rnp_detached_signing_rnp_to_gpg(filesize):
src, sig, asc = reg_workfiles('cleartext', '.txt', EXT_SIG, EXT_ASC)
# Generate random file of required size
random_text(src, filesize)
for armor in [True, False]:
# Sign file with RNP
rnp_sign_detached(src, [KEY_SIGN_RNP], [PASSWORD], armor)
sigpath = asc if armor else sig
# Verify signature with RNP
rnp_verify_detached(sigpath, KEY_SIGN_RNP)
# Verify signed message with GPG
gpg_verify_detached(src, sigpath, KEY_SIGN_RNP)
remove_files(sigpath)
clear_workfiles()
def rnp_cleartext_signing_rnp_to_gpg(filesize):
src, asc = reg_workfiles('cleartext', '.txt', EXT_ASC)
# Generate random file of required size
random_text(src, filesize)
# Sign file with RNP
rnp_sign_cleartext(src, asc, [KEY_SIGN_RNP], [PASSWORD])
# Verify signature with RNP
rnp_verify_cleartext(asc, KEY_SIGN_RNP)
# Verify signed message with GPG
gpg_verify_cleartext(asc, KEY_SIGN_RNP)
clear_workfiles()
def rnp_signing_gpg_to_rnp(filesize, z=None):
src, sig, ver = reg_workfiles('cleartext', '.txt', '.sig', '.ver')
# Generate random file of required size
random_text(src, filesize)
for armor in [True, False]:
# Sign file with GPG
gpg_sign_file(src, sig, KEY_SIGN_GPG, z, armor)
# Verify file with RNP
rnp_verify_file(sig, ver, KEY_SIGN_GPG)
compare_files(src, ver, 'rnp verified data differs')
remove_files(sig, ver)
clear_workfiles()
def rnp_detached_signing_gpg_to_rnp(filesize, textsig=False):
src, sig, asc = reg_workfiles('cleartext', '.txt', EXT_SIG, EXT_ASC)
# Generate random file of required size
random_text(src, filesize)
for armor in [True, False]:
# Sign file with GPG
gpg_sign_detached(src, KEY_SIGN_GPG, armor, textsig)
sigpath = asc if armor else sig
# Verify file with RNP
rnp_verify_detached(sigpath, KEY_SIGN_GPG)
clear_workfiles()
def rnp_cleartext_signing_gpg_to_rnp(filesize):
src, asc = reg_workfiles('cleartext', '.txt', EXT_ASC)
# Generate random file of required size
random_text(src, filesize)
# Sign file with GPG
gpg_sign_cleartext(src, asc, KEY_SIGN_GPG)
# Verify signature with RNP
rnp_verify_cleartext(asc, KEY_SIGN_GPG)
# Verify signed message with GPG
gpg_verify_cleartext(asc, KEY_SIGN_GPG)
clear_workfiles()
def gpg_check_features():
global GPG_AEAD, GPG_AEAD_EAX, GPG_AEAD_OCB, GPG_NO_OLD, GPG_BRAINPOOL
_, out, _ = run_proc(GPG, ["--version"])
# AEAD
GPG_AEAD_EAX = re.match(r'(?s)^.*AEAD:.*EAX.*', out) is not None
GPG_AEAD_OCB = re.match(r'(?s)^.*AEAD:.*OCB.*', out) is not None
# Version 2.3.0-beta1598 and up drops support of 64-bit block algos
match = re.match(r'(?s)^.*gpg \(GnuPG\) (\d+)\.(\d+)\.(\d+)(-beta(\d+))?.*$', out)
if not match:
raise_err('Failed to parse GnuPG version.')
ver = [int(match.group(1)), int(match.group(2)), int(match.group(3))]
beta = int(match.group(5)) if match.group(5) else 0
if not beta:
GPG_NO_OLD = ver >= [2, 3, 0]
else:
GPG_NO_OLD = ver == [2, 3, 0] and (beta >= 1598)
# Version 2.4.0 and up doesn't support EAX and doesn't has AEAD in output
if ver >= [2, 4, 0]:
GPG_AEAD_OCB = True
GPG_AEAD_EAX = False
GPG_AEAD = GPG_AEAD_OCB or GPG_AEAD_EAX
# Check whether Brainpool curves are supported
_, out, _ = run_proc(GPG, ["--with-colons", "--list-config", "curve"])
GPG_BRAINPOOL = re.match(r'(?s)^.*brainpoolP256r1.*', out) is not None
print('GPG_AEAD_EAX: ' + str(GPG_AEAD_EAX))
print('GPG_AEAD_OCB: ' + str(GPG_AEAD_OCB))
print('GPG_NO_OLD: ' + str(GPG_NO_OLD))
print('GPG_BRAINPOOL: ' + str(GPG_BRAINPOOL))
def rnp_check_features():
global RNP_TWOFISH, RNP_BRAINPOOL, RNP_AEAD, RNP_AEAD_EAX, RNP_AEAD_OCB, RNP_AEAD_OCB_AES, RNP_IDEA, RNP_BLOWFISH, RNP_CAST5, RNP_RIPEMD160
ret, out, _ = run_proc(RNP, ['--version'])
if ret != 0:
raise_err('Failed to get RNP version.')
# AEAD
RNP_AEAD_EAX = re.match(r'(?s)^.*AEAD:.*EAX.*', out) is not None
RNP_AEAD_OCB = re.match(r'(?s)^.*AEAD:.*OCB.*', out) is not None
RNP_AEAD = RNP_AEAD_EAX or RNP_AEAD_OCB
RNP_AEAD_OCB_AES = RNP_AEAD_OCB and re.match(r'(?s)^.*Backend.*OpenSSL.*', out) is not None
# Twofish
RNP_TWOFISH = re.match(r'(?s)^.*Encryption:.*TWOFISH.*', out) is not None
# Brainpool curves
RNP_BRAINPOOL = re.match(r'(?s)^.*Curves:.*brainpoolP256r1.*brainpoolP384r1.*brainpoolP512r1.*', out) is not None
# IDEA encryption algorithm
RNP_IDEA = re.match(r'(?s)^.*Encryption:.*IDEA.*', out) is not None
RNP_BLOWFISH = re.match(r'(?s)^.*Encryption:.*BLOWFISH.*', out) is not None
RNP_CAST5 = re.match(r'(?s)^.*Encryption:.*CAST5.*', out) is not None
RNP_RIPEMD160 = re.match(r'(?s)^.*Hash:.*RIPEMD160.*', out) is not None
print('RNP_TWOFISH: ' + str(RNP_TWOFISH))
print('RNP_BLOWFISH: ' + str(RNP_BLOWFISH))
print('RNP_IDEA: ' + str(RNP_IDEA))
print('RNP_CAST5: ' + str(RNP_CAST5))
print('RNP_RIPEMD160: ' + str(RNP_RIPEMD160))
print('RNP_BRAINPOOL: ' + str(RNP_BRAINPOOL))
print('RNP_AEAD_EAX: ' + str(RNP_AEAD_EAX))
print('RNP_AEAD_OCB: ' + str(RNP_AEAD_OCB))
print('RNP_AEAD_OCB_AES: ' + str(RNP_AEAD_OCB_AES))
def setup(loglvl):
# Setting up directories.
global RMWORKDIR, WORKDIR, RNPDIR, RNP, RNPK, GPG, GPGDIR, GPGHOME, GPGCONF
logging.basicConfig(stream=sys.stderr, format="%(message)s")
logging.getLogger().setLevel(loglvl)
WORKDIR = tempfile.mkdtemp(prefix='rnpctmp')
set_workdir(WORKDIR)
RMWORKDIR = True
logging.info('Running in ' + WORKDIR)
RNPDIR = os.path.join(WORKDIR, '.rnp')
RNP = os.getenv('RNP_TESTS_RNP_PATH') or 'rnp'
RNPK = os.getenv('RNP_TESTS_RNPKEYS_PATH') or 'rnpkeys'
shutil.rmtree(RNPDIR, ignore_errors=True)
os.mkdir(RNPDIR, 0o700)
os.environ["RNP_LOG_CONSOLE"] = "1"
GPGDIR = os.path.join(WORKDIR, '.gpg')
GPGHOME = path_for_gpg(GPGDIR) if is_windows() else GPGDIR
GPG = os.getenv('RNP_TESTS_GPG_PATH') or find_utility('gpg')
GPGCONF = os.getenv('RNP_TESTS_GPGCONF_PATH') or find_utility('gpgconf')
gpg_check_features()
rnp_check_features()
shutil.rmtree(GPGDIR, ignore_errors=True)
os.mkdir(GPGDIR, 0o700)
def data_path(subpath):
''' Constructs path to the tests data file/dir'''
return os.path.join(os.path.dirname(os.path.realpath(__file__)), 'data', subpath)
def key_path(file_base_name, secret):
''' Constructs path to the .gpg file'''
path=os.path.join(os.path.dirname(os.path.realpath(__file__)), 'data/cli_EncryptSign',
file_base_name)
return ''.join([path, '-sec' if secret else '', '.gpg'])
def rnp_supported_ciphers(aead = False):
ciphers = ['AES', 'AES192', 'AES256']
if aead and RNP_AEAD_OCB_AES:
return ciphers
ciphers += ['CAMELLIA128', 'CAMELLIA192', 'CAMELLIA256']
if RNP_TWOFISH:
ciphers += ['TWOFISH']
# AEAD supports only 128-bit block ciphers
if aead:
return ciphers
ciphers += ['3DES']
if RNP_IDEA:
ciphers += ['IDEA']
if RNP_BLOWFISH:
ciphers += ['BLOWFISH']
if RNP_CAST5:
ciphers += ['CAST5']
return ciphers
class TestIdMixin(object):
@property
def test_id(self):
return "".join(self.id().split('.')[1:3])
class KeyLocationChooserMixin(object):
def __init__(self):
# If set it will try to import a key from provided location
# otherwise it will try to generate a key
self.__op_key_location = None
self.__op_key_gen_cmd = None
@property
def operation_key_location(self):
return self.__op_key_location
@operation_key_location.setter
def operation_key_location(self, key):
if (type(key) is not tuple): raise RuntimeError("Key must be tuple(pub,sec)")
self.__op_key_location = key
self.__op_key_gen_cmd = None
@property
def operation_key_gencmd(self):
return self.__op_key_gen_cmd
@operation_key_gencmd.setter
def operation_key_gencmd(self, cmd):
self.__op_key_gen_cmd = cmd
self.__op_key_location = None
'''
Things to try here later on:
- different public key algorithms
- different key protection levels/algorithms
- armored import/export
'''
class Keystore(unittest.TestCase):
@classmethod
def setUpClass(cls):
clear_keyrings()
@classmethod
def tearDownClass(cls):
clear_keyrings()
def tearDown(self):
clear_workfiles()
def _rnpkey_generate_rsa(self, bits= None):
# Setup command line params
if bits:
params = ['--numbits', str(bits)]
else:
params = []
bits = 2048
userid = str(bits) + '@rnptest'
# Open pipe for password
pipe = pswd_pipe(PASSWORD)
params = params + ['--homedir', RNPDIR, '--pass-fd', str(pipe),
'--userid', userid, '--s2k-iterations', '50000', '--generate-key']
# Run key generation
ret, _, _ = run_proc(RNPK, params)
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Check packets using the gpg
match = check_packets(os.path.join(RNPDIR, PUBRING), RE_RSA_KEY)
self.assertTrue(match, 'generated key check failed')
keybits = int(match.group(1))
self.assertLessEqual(keybits, bits, 'too much bits')
self.assertGreater(keybits, bits - 8, 'too few bits')
keyid = match.group(2)
self.assertEqual(match.group(3), userid, 'wrong user id')
# List keys using the rnpkeys
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
match = re.match(RE_RSA_KEY_LIST, out)
# Compare key ids
self.assertTrue(match, 'wrong RSA key list output')
self.assertEqual(match.group(3)[-16:], match.group(2), 'wrong fp')
self.assertEqual(match.group(2), keyid.lower(), 'wrong keyid')
self.assertEqual(match.group(1), str(bits), 'wrong key bits in list')
# Import key to the gnupg
ret, _, _ = run_proc(GPG, ['--batch', '--passphrase', PASSWORD, '--homedir',
GPGHOME, '--import',
path_for_gpg(os.path.join(RNPDIR, PUBRING)),
path_for_gpg(os.path.join(RNPDIR, SECRING))])
self.assertEqual(ret, 0, GPG_IMPORT_FAILED)
# Cleanup and return
clear_keyrings()
def test_generate_default_rsa_key(self):
self._rnpkey_generate_rsa()
def test_rnpkeys_keygen_invalid_parameters(self):
# Pass invalid numbits
ret, _, err = run_proc(RNPK, ['--numbits', 'wrong', '--homedir', RNPDIR, '--password', 'password',
'--userid', 'wrong', '--generate-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong bits value: wrong.*')
# Too small
ret, _, err = run_proc(RNPK, ['--numbits', '768', '--homedir', RNPDIR, '--password', 'password',
'--userid', '768', '--generate-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong bits value: 768.*')
# Wrong hash algorithm
ret, _, err = run_proc(RNPK, ['--hash', 'BAD_HASH', '--homedir', RNPDIR, '--password', 'password',
'--userid', 'bad_hash', '--generate-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported hash algorithm: BAD_HASH.*')
# Wrong S2K iterations
ret, _, err = run_proc(RNPK, ['--s2k-iterations', 'WRONG_ITER', '--homedir', RNPDIR, '--password', 'password',
'--userid', 'wrong_iter', '--generate-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Wrong iterations value: WRONG_ITER.*')
# Wrong S2K msec
ret, _, err = run_proc(RNPK, ['--s2k-msec', 'WRONG_MSEC', '--homedir', RNPDIR, '--password', 'password',
'--userid', 'wrong_msec', '--generate-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Invalid s2k msec value: WRONG_MSEC.*')
# Wrong cipher
ret, _, err = run_proc(RNPK, ['--cipher', 'WRONG_AES', '--homedir', RNPDIR, '--password', 'password',
'--userid', 'wrong_aes', '--generate-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported encryption algorithm: WRONG_AES.*Failed to process argument --cipher.*')
def test_generate_multiple_rsa_key__check_if_available(self):
'''
Generate multiple RSA keys and check if they are all available
'''
clear_keyrings()
# Generate 5 keys with different user ids
for i in range(0, 5):
# generate the next key
pipe = pswd_pipe(PASSWORD)
userid = str(i) + '@rnp-multiple'
ret, _, _ = run_proc(RNPK, ['--numbits', '2048', '--homedir', RNPDIR, '--s2k-msec', '100',
'--cipher', 'AES-128', '--pass-fd', str(pipe), '--userid', userid,
'--generate-key'])
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# list keys using the rnpkeys, checking whether it reports correct key
# number
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
match = re.match(RE_MULTIPLE_KEY_LIST, out)
self.assertTrue(match, KEY_LIST_WRONG)
self.assertEqual(match.group(1), str((i + 1) * 2), 'wrong key count')
# Checking the 5 keys output
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
self.assertRegex(out, RE_MULTIPLE_KEY_5, KEY_LIST_WRONG)
# Cleanup and return
clear_keyrings()
def test_generate_key_with_gpg_import_to_rnp(self):
'''
Generate key with GnuPG and import it to rnp
'''
# Generate key in GnuPG
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--passphrase',
'', '--quick-generate-key', 'rsakey@gpg', 'rsa'])
self.assertEqual(ret, 0, 'gpg key generation failed')
# Getting fingerprint of the generated key
ret, out, err = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--list-keys'])
match = re.match(RE_GPG_SINGLE_RSA_KEY, out)
self.assertTrue(match, 'wrong gpg key list output')
keyfp = match.group(1)
# Exporting generated public key
ret, out, err = run_proc(
GPG, ['--batch', '--homedir', GPGHOME, '--armor', '--export', keyfp])
self.assertEqual(ret, 0, 'gpg : public key export failed')
pubpath = os.path.join(RNPDIR, keyfp + '-pub.asc')
with open(pubpath, 'w+') as f:
f.write(out)
# Exporting generated secret key
ret, out, err = run_proc(
GPG, ['--batch', '--homedir', GPGHOME, '--armor', '--export-secret-key', keyfp])
self.assertEqual(ret, 0, 'gpg : secret key export failed')
secpath = os.path.join(RNPDIR, keyfp + '-sec.asc')
with open(secpath, 'w+') as f:
f.write(out)
# Importing public key to rnp
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', pubpath])
self.assertEqual(ret, 0, 'rnp : public key import failed')
# Importing secret key to rnp
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', secpath])
self.assertEqual(ret, 0, 'rnp : secret key import failed')
def test_generate_with_rnp_import_to_gpg(self):
'''
Generate key with RNP and export it and then import to GnuPG
'''
# Open pipe for password
pipe = pswd_pipe(PASSWORD)
# Run key generation
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe),
'--userid', 'rsakey@rnp', '--generate-key'])
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Export key
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'rsakey@rnp'])
self.assertEqual(ret, 0, 'key export failed')
pubpath = os.path.join(RNPDIR, 'rnpkey-pub.asc')
with open(pubpath, 'w+') as f:
f.write(out)
# Import key with GPG
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import',
path_for_gpg(pubpath)])
self.assertEqual(ret, 0, 'gpg : public key import failed')
def test_generate_to_kbx(self):
'''
Generate KBX with RNP and ensurethat the key can be read with GnuPG
'''
clear_keyrings()
pipe = pswd_pipe(PASSWORD)
kbx_userid_tracker = 'kbx_userid_tracker@rnp'
# Run key generation
ret, out, err = run_proc(RNPK, ['--gen-key', '--keystore-format', 'GPG21',
'--userid', kbx_userid_tracker, '--homedir',
RNPDIR, '--pass-fd', str(pipe)])
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Read KBX with GPG
ret, out, err = run_proc(GPG, ['--homedir', path_for_gpg(RNPDIR), '--list-keys'])
self.assertEqual(ret, 0, 'gpg : failed to read KBX')
self.assertTrue(kbx_userid_tracker in out, 'gpg : failed to read expected key from KBX')
clear_keyrings()
def test_generate_protection_pass_fd(self):
'''
Generate key with RNP, using the --pass-fd parameter, and make sure key is encrypted
'''
clear_keyrings()
# Open pipe for password
pipe = pswd_pipe(PASSWORD)
# Run key generation
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe),
'--userid', KEY_ENC_RNP, '--generate-key'])
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Check packets using the gpg
params = ['--homedir', RNPDIR, '--list-packets', os.path.join(RNPDIR, SECRING)]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, RE_RNP_ENCRYPTED_KEY, 'wrong encrypted secret key listing')
def test_generate_protection_password(self):
'''
Generate key with RNP, using the --password parameter, and make sure key is encrypted
'''
clear_keyrings()
params = ['--homedir', RNPDIR, '--password', 'password', '--userid', KEY_ENC_RNP, '--generate-key']
ret, _, _ = run_proc(RNPK, params)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Check packets using the gpg
params = ['--homedir', RNPDIR, '--list-packets', os.path.join(RNPDIR, SECRING)]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, RE_RNP_ENCRYPTED_KEY, 'wrong encrypted secret key listing')
def test_generate_unprotected_key(self):
'''
Generate key with RNP, using the --password parameter, and make sure key is encrypted
'''
clear_keyrings()
params = ['--homedir', RNPDIR, '--password=', '--userid', KEY_ENC_RNP, '--generate-key']
ret, _, _ = run_proc(RNPK, params)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Check packets using the gpg
params = ['--homedir', RNPDIR, '--list-packets', os.path.join(RNPDIR, SECRING)]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertNotRegex(out, RE_RNP_ENCRYPTED_KEY, 'wrong unprotected secret key listing')
def test_generate_preferences(self):
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe), '--userid',
'eddsa_25519_prefs', '--generate-key', '--expert'], '22\n')
os.close(pipe)
self.assertEqual(ret, 0)
ret, out, _ = run_proc(RNP, ['--list-packets', os.path.join(RNPDIR, PUBRING)])
self.assertRegex(out, r'.*preferred symmetric algorithms: AES-256, AES-192, AES-128 \(9, 8, 7\).*')
self.assertRegex(out, r'.*preferred hash algorithms: SHA256, SHA384, SHA512, SHA224 \(8, 9, 10, 11\).*')
def test_import_signatures(self):
clear_keyrings()
RE_SIG_2_UNCHANGED = r'(?s)^.*Import finished: 0 new signatures, 2 unchanged, 0 unknown.*'
# Import command without the path parameter
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-sigs'])
self.assertNotEqual(ret, 0, 'Sigs import without file failed')
self.assertRegex(err, r'(?s)^.*Import path isn\'t specified.*', 'Sigs import without file wrong output')
# Import command with invalid path parameter
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-sigs', data_path('test_key_validity/alice-rev-no-file.pgp')])
self.assertNotEqual(ret, 0, 'Sigs import with invalid path failed')
self.assertRegex(err, r'(?s)^.*Failed to create input for .*', 'Sigs import with invalid path wrong output')
# Try to import signature to empty keyring
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-sigs', data_path('test_key_validity/alice-rev.pgp')])
self.assertEqual(ret, 0, 'Alice key rev import failed')
self.assertRegex(err, r'(?s)^.*Import finished: 0 new signatures, 0 unchanged, 1 unknown.*', 'Alice key rev import wrong output')
# Import Basil's key
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/basil-pub.asc')])
self.assertEqual(ret, 0, 'Basil key import failed')
# Try to import Alice's signatures with Basil's key only
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/alice-sigs.pgp')])
self.assertEqual(ret, 0, 'Alice sigs import failed')
self.assertRegex(err, r'(?s)^.*Import finished: 0 new signatures, 0 unchanged, 2 unknown.*', 'Alice sigs import wrong output')
# Import Alice's key without revocation/direct-key signatures
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 0, ALICE_IMPORT_FAIL)
# Import key revocation signature
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-sigs', data_path('test_key_validity/alice-rev.pgp')])
self.assertEqual(ret, 0, 'Alice key rev import failed')
self.assertRegex(err, RE_SIG_1_IMPORT, 'Alice key rev import wrong output')
# Import direct-key signature
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/alice-revoker-sig.pgp')])
self.assertEqual(ret, 0, 'Alice direct-key sig import failed')
self.assertRegex(err, RE_SIG_1_IMPORT, 'Alice direct-key sig import wrong output')
# Try to import two signatures again
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/alice-sigs.pgp')])
self.assertEqual(ret, 0, 'Alice sigs reimport failed')
self.assertRegex(err, RE_SIG_2_UNCHANGED, 'Alice sigs file reimport wrong output')
# Import two signatures again via stdin
stext = file_text(data_path('test_key_validity/alice-sigs.asc'))
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', '-'], stext)
self.assertEqual(ret, 0, 'Alice sigs stdin reimport failed')
self.assertRegex(err, RE_SIG_2_UNCHANGED, 'Alice sigs stdin reimport wrong output')
# Import two signatures via env variable
os.environ["SIG_FILE"] = stext
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', 'env:SIG_FILE'])
self.assertEqual(ret, 0, 'Alice sigs env reimport failed')
self.assertRegex(err, RE_SIG_2_UNCHANGED, 'Alice sigs var reimport wrong output')
# Try to import malformed signatures
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/alice-sigs-malf.pgp')])
self.assertNotEqual(ret, 0, 'Alice malformed sigs import failed')
self.assertRegex(err, r'(?s)^.*Failed to import signatures from .*', 'Alice malformed sigs wrong output')
def test_export_revocation(self):
clear_keyrings()
OUT_NO_REV = 'no-revocation.pgp'
OUT_ALICE_REV = 'alice-revocation.pgp'
# Import Alice's public key and be unable to export revocation
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 0, ALICE_IMPORT_FAIL)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', 'alice'])
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Revoker secret key not found.*', 'Wrong pubkey revocation export output')
# Import Alice's secret key and subkey
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_SEC)])
self.assertEqual(ret, 0, 'Alice secret key import failed')
# Attempt to export revocation without specifying key
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*You need to specify key to generate revocation for.*', 'Wrong no key revocation export output')
# Attempt to export revocation for unknown key
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', 'basil'])
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Key matching \'basil\' not found.*', 'Wrong unknown key revocation export output')
# Attempt to export revocation for subkey
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', 'DD23CEB7FEBEFF17'])
os.close(pipe)
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Key matching \'DD23CEB7FEBEFF17\' not found.*', 'Wrong subkey revocation export output')
# Attempt to export revocation with too broad search
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/basil-sec.asc')])
self.assertEqual(ret, 0, 'Basil secret key import failed')
pipe = pswd_pipe(PASSWORD)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', 'rnp', '--pass-fd', str(pipe),
'--output', OUT_NO_REV, '--force'])
os.close(pipe)
self.assertNotEqual(ret, 0, 'Failed to fail to export revocation')
self.assertFalse(os.path.isfile(OUT_NO_REV), 'Failed to fail to export revocation')
self.assertRegex(err, r'(?s)^.*Ambiguous input: too many keys found for \'rnp\'.*', 'Wrong revocation export output')
# Finally successfully export revocation
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', '0451409669FFDE3C', '--pass-fd', str(pipe),
'--output', OUT_ALICE_REV, '--overwrite'])
os.close(pipe)
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(OUT_ALICE_REV))
with open(OUT_ALICE_REV, "rb") as armored:
self.assertRegex(armored.read().decode('utf-8'), r'-----END PGP PUBLIC KEY BLOCK-----\r\n$', 'Armor tail not found')
# Check revocation contents
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '--list-packets', OUT_ALICE_REV])
self.assertEqual(ret, 0)
self.assertNotEqual(len(out), 0)
match = re.match(RE_RNP_REVOCATION_SIG, out)
self.assertTrue(match, 'Wrong revocation signature contents')
self.assertEqual(match.group(1).strip(), '0 (No reason)', 'Wrong revocation signature reason')
self.assertEqual(match.group(2).strip(), '', 'Wrong revocation signature message')
# Make sure it can be imported back
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-sigs', OUT_ALICE_REV])
self.assertEqual(ret, 0, 'Failed to import revocation back')
self.assertRegex(err, RE_SIG_1_IMPORT, 'Revocation import wrong output')
# Make sure file will not be overwritten with --force parameter
with open(OUT_ALICE_REV, 'w+') as f:
f.truncate(10)
pipe = pswd_pipe(PASSWORD)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', '0451409669FFDE3C', '--pass-fd', str(pipe), '--output', OUT_ALICE_REV, '--force', '--notty'], '\n\n')
os.close(pipe)
self.assertNotEqual(ret, 0, 'Revocation was overwritten with --force')
self.assertEqual(10, os.stat(OUT_ALICE_REV).st_size, 'Revocation was overwritten with --force')
# Make sure file will not be overwritten without --overwrite parameter
pipe = pswd_pipe(PASSWORD)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', '0451409669FFDE3C', '--pass-fd', str(pipe), '--output', OUT_ALICE_REV, '--notty'], '\n\n')
os.close(pipe)
self.assertNotEqual(ret, 0, 'Revocation was overwritten without --overwrite and --force')
self.assertTrue(os.path.isfile(OUT_ALICE_REV), 'Revocation was overwritten without --overwrite')
self.assertEqual(10, os.stat(OUT_ALICE_REV).st_size, 'Revocation was overwritten without --overwrite')
# Make sure file will be overwritten with --overwrite parameter
pipe = pswd_pipe(PASSWORD)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', '0451409669FFDE3C', '--pass-fd', str(pipe), '--output', OUT_ALICE_REV, '--overwrite'])
os.close(pipe)
self.assertEqual(ret, 0)
self.assertGreater(os.stat(OUT_ALICE_REV).st_size, 10)
# Create revocation with wrong code - 'no longer valid' (which is usable only for userid)
pipe = pswd_pipe(PASSWORD)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', 'alice', '--rev-type', 'no longer valid',
'--pass-fd', str(pipe), '--output', OUT_NO_REV, '--force'])
os.close(pipe)
self.assertNotEqual(ret, 0, 'Failed to use wrong revocation reason')
self.assertFalse(os.path.isfile(OUT_NO_REV))
self.assertRegex(err, r'(?s)^.*Wrong key revocation code: 32.*', 'Wrong revocation export output')
# Create revocation without rev-code parameter
pipe = pswd_pipe(PASSWORD)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', 'alice', '--pass-fd', str(pipe),
'--output', OUT_NO_REV, '--force', '--rev-type'])
os.close(pipe)
self.assertNotEqual(ret, 0, 'Failed to use rev-type without parameter')
self.assertFalse(os.path.isfile(OUT_NO_REV), 'Failed to use rev-type without parameter')
# Create another revocation with custom code/reason
revcodes = {"0" : "0 (No reason)", "1" : "1 (Superseded)", "2" : "2 (Compromised)",
"3" : "3 (Retired)", "no" : "0 (No reason)", "superseded" : "1 (Superseded)",
"compromised" : "2 (Compromised)", "retired" : "3 (Retired)"}
for revcode in revcodes:
revreason = 'Custom reason: ' + revcode
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-rev', '0451409669FFDE3C', '--pass-fd', str(pipe),
'--output', OUT_ALICE_REV, '--overwrite', '--rev-type', revcode, '--rev-reason', revreason])
os.close(pipe)
self.assertEqual(ret, 0, 'Failed to export revocation with code ' + revcode)
self.assertTrue(os.path.isfile(OUT_ALICE_REV), 'Failed to export revocation with code ' + revcode)
# Check revocation contents
with open(OUT_ALICE_REV, "rb") as armored:
self.assertRegex(armored.read().decode('utf-8'), r'-----END PGP PUBLIC KEY BLOCK-----\r\n$', 'Armor tail not found')
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '--list-packets', OUT_ALICE_REV])
self.assertEqual(ret, 0, 'Failed to list exported revocation packets')
self.assertNotEqual(len(out), 0, 'Failed to list exported revocation packets')
match = re.match(RE_RNP_REVOCATION_SIG, out)
self.assertTrue(match)
self.assertEqual(match.group(1).strip(), revcodes[revcode], 'Wrong revocation signature revcode')
self.assertEqual(match.group(2).strip(), revreason, 'Wrong revocation signature reason')
# Make sure it is also imported back
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-sigs', OUT_ALICE_REV])
self.assertEqual(ret, 0)
self.assertRegex(err, RE_SIG_1_IMPORT, 'Revocation import wrong output')
# Now let's import it with GnuPG
gpg_import_pubring(data_path(KEY_ALICE_PUB))
ret, _, err = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', OUT_ALICE_REV])
self.assertEqual(ret, 0, 'gpg signature revocation import failed')
self.assertRegex(err, RE_GPG_REVOCATION_IMPORT, 'Wrong gpg revocation import output')
os.remove(OUT_ALICE_REV)
clear_keyrings()
def test_import_keys(self):
clear_keyrings()
# try to import non-existing file
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path('thiskeyfiledoesnotexist')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Failed to create input for .*thiskeyfiledoesnotexist.*')
# try malformed file
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path('test_key_validity/alice-sigs-malf.pgp')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*failed to import key\(s\) from .*test_key_validity/alice-sigs-malf.pgp, stopping\..*')
self.assertRegex(err, r'(?s)^.*Import finished: 0 keys processed, 0 new public keys, 0 new secret keys, 0 updated, 0 unchanged\..*')
# try --import
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 2 keys processed, 2 new public keys, 0 new secret keys, 0 updated, 0 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 2 keys processed, 0 new public keys, 0 new secret keys, 0 updated, 2 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_stream_key_merge/key-both.asc')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 6 keys processed, 3 new public keys, 3 new secret keys, 0 updated, 0 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_stream_key_merge/key-both.asc')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 6 keys processed, 0 new public keys, 0 new secret keys, 0 updated, 6 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/alice-sign-sub-exp-pub.asc')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 2 keys processed, 1 new public keys, 0 new secret keys, 1 updated, 0 unchanged\..*')
clear_keyrings()
# try --import-key
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 2 keys processed, 2 new public keys, 0 new secret keys, 0 updated, 0 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 2 keys processed, 0 new public keys, 0 new secret keys, 0 updated, 2 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path('test_stream_key_merge/key-both.asc')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 6 keys processed, 3 new public keys, 3 new secret keys, 0 updated, 0 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path('test_stream_key_merge/key-both.asc')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 6 keys processed, 0 new public keys, 0 new secret keys, 0 updated, 6 unchanged\..*')
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-key', data_path('test_key_validity/alice-sign-sub-exp-pub.asc')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Import finished: 2 keys processed, 1 new public keys, 0 new secret keys, 1 updated, 0 unchanged\..*')
clear_keyrings()
def test_export_keys(self):
PUB_KEY = r'(?s)^.*' \
r'-----BEGIN PGP PUBLIC KEY BLOCK-----.*' \
r'-----END PGP PUBLIC KEY BLOCK-----.*$'
PUB_KEY_PKTS = r'(?s)^.*' \
r'Public key packet.*' \
r'keyid: 0x0451409669ffde3c.*' \
r'Public subkey packet.*' \
r'keyid: 0xdd23ceb7febeff17.*$'
SEC_KEY = r'(?s)^.*' \
r'-----BEGIN PGP PRIVATE KEY BLOCK-----.*' \
r'-----END PGP PRIVATE KEY BLOCK-----.*$'
SEC_KEY_PKTS = r'(?s)^.*' \
r'Secret key packet.*' \
r'keyid: 0x0451409669ffde3c.*' \
r'Secret subkey packet.*' \
r'keyid: 0xdd23ceb7febeff17.*$'
KEY_OVERWRITE = r'(?s)^.*' \
r'File \'.*alice-key.pub.asc\' already exists.*' \
r'Would you like to overwrite it\? \(y/N\).*' \
r'Please enter the new filename:.*$'
clear_keyrings()
# Import Alice's public key
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0)
# Attempt to export no key
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*No key specified\.$')
# Attempt to export wrong key
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'boris'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Key\(s\) matching \'boris\' not found\.$')
# Export it to the stdout
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice'])
self.assertEqual(ret, 0)
self.assertRegex(out, PUB_KEY)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', '-'])
self.assertEqual(ret, 0)
self.assertRegex(out, PUB_KEY)
# Export key via --userid parameter
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', '--userid', 'alice'])
self.assertEqual(ret, 0)
self.assertRegex(out, PUB_KEY)
# Export with empty --userid parameter
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', '--userid'])
self.assertNotEqual(ret, 0)
# Export it to the file
kpub, ksec, kren = reg_workfiles('alice-key', '.pub.asc', '.sec.asc', '.pub.ren-asc')
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', kpub])
self.assertEqual(ret, 0)
self.assertRegex(file_text(kpub), PUB_KEY)
# Try to export again to the same file without additional parameters
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', kpub, '--notty'], '\n\n')
self.assertNotEqual(ret, 0)
self.assertRegex(out, KEY_OVERWRITE)
self.assertRegex(err, r'(?s)^.*Operation failed: file \'.*alice-key.pub.asc\' already exists.*$')
# Try to export with --force parameter
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', kpub, '--force', '--notty'], '\n\n')
self.assertNotEqual(ret, 0)
self.assertRegex(out, KEY_OVERWRITE)
self.assertRegex(err, r'(?s)^.*Operation failed: file \'.*alice-key.pub.asc\' already exists.*$')
# Export with --overwrite parameter
with open(kpub, 'w+') as f:
f.truncate(10)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', kpub, '--overwrite'])
self.assertEqual(ret, 0)
# Re-import it, making sure file was correctly overwritten
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', kpub])
self.assertEqual(ret, 0)
# Enter 'y' in ovewrite prompt
with open(kpub, 'w+') as f:
f.truncate(10)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', kpub, '--notty'], 'y\n')
self.assertEqual(ret, 0)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', kpub])
self.assertEqual(ret, 0)
# Enter new filename in overwrite prompt
with open(kpub, 'w+') as f:
f.truncate(10)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', kpub, '--notty'], 'n\n' + kren + '\n')
self.assertEqual(ret, 0)
self.assertEqual(os.path.getsize(kpub), 10)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', kren])
self.assertEqual(ret, 0)
# Attempt to export secret key
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', '--secret', 'alice'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Key\(s\) matching \'alice\' not found\.$')
# Import Alice's secret key and subkey
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_SEC)])
self.assertEqual(ret, 0)
# Make sure secret key is not exported when public is requested
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', 'alice', '--output', ksec])
self.assertEqual(ret, 0)
self.assertRegex(file_text(ksec), PUB_KEY)
ret, out, _ = run_proc(RNP, ['--list-packets', ksec])
self.assertEqual(ret, 0)
self.assertRegex(out, PUB_KEY_PKTS)
# Make sure secret key is correctly exported
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export-key', '--secret', 'alice', '--output', ksec, '--overwrite'])
self.assertEqual(ret, 0)
self.assertRegex(file_text(ksec), SEC_KEY)
ret, out, _ = run_proc(RNP, ['--list-packets', ksec])
self.assertEqual(ret, 0)
self.assertRegex(out, SEC_KEY_PKTS)
clear_keyrings()
def test_userid_escape(self):
clear_keyrings()
tracker_beginning = 'tracker'
tracker_end = '@rnp'
tracker_1 = tracker_beginning + ''.join(map(chr, range(1,0x10))) + tracker_end
tracker_2 = tracker_beginning + ''.join(map(chr, range(0x10,0x20))) + tracker_end
#Run key generation
rnp_genkey_rsa(tracker_1, 1024)
rnp_genkey_rsa(tracker_2, 1024)
#Read with rnpkeys
ret, out_rnp, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, 'rnpkeys : failed to read keystore')
#Read with GPG
ret, out_gpg, _ = run_proc(GPG, ['--homedir', path_for_gpg(RNPDIR), '--list-keys'])
self.assertEqual(ret, 0, 'gpg : failed to read keystore')
tracker_rnp = re.findall(r'' + tracker_beginning + '.*' + tracker_end + '', out_rnp)
tracker_gpg = re.findall(r'' + tracker_beginning + '.*' + tracker_end + '', out_gpg)
self.assertEqual(len(tracker_rnp), 2, 'failed to find expected rnp userids')
self.assertEqual(len(tracker_gpg), 2, 'failed to find expected gpg userids')
self.assertEqual(tracker_rnp, tracker_gpg, 'userids from rnpkeys and gpg don\'t match')
clear_keyrings()
def test_key_revoke(self):
clear_keyrings()
# Import Alice's public key and be unable to revoke
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 0, ALICE_IMPORT_FAIL)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke-key', 'alice'])
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Revoker secret key not found.*Failed to revoke a key.*')
# Import Alice's secret key and subkey
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_SEC)])
self.assertEqual(ret, 0)
# Attempt to revoke without specifying a key
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*You need to specify key or subkey to revoke.*')
# Attempt to revoke unknown key
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', 'basil'])
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Key matching \'basil\' not found.*')
# Attempt to revoke with too broad search
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_validity/basil-sec.asc')])
self.assertEqual(ret, 0)
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', 'rnp', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertRegex(err, r'(?s)^.*Ambiguous input: too many keys found for \'rnp\'.*')
# Revoke a primary key
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', '0451409669FFDE3C', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertEqual(ret, 0)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*pub.*0451409669ffde3c.*\[REVOKED\].*73edcc9119afc8e2dbbdcde50451409669ffde3c.*')
# Try again without the '--force' parameter
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', '0451409669FFDE3C', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Error: key \'0451409669FFDE3C\' is revoked already. Use --force to generate another revocation signature.*')
# Try again with --force parameter
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', '0451409669FFDE3C', '--pass-fd', str(pipe), "--force", "--rev-type", "3", "--rev-reason", "Custom"])
os.close(pipe)
self.assertEqual(ret, 0)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*pub.*0451409669ffde3c.*\[REVOKED\].*73edcc9119afc8e2dbbdcde50451409669ffde3c.*')
# Revoke a subkey
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', 'DD23CEB7FEBEFF17', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertEqual(ret, 0)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*sub.*dd23ceb7febeff17.*\[REVOKED\].*a4bbb77370217bca2307ad0ddd23ceb7febeff17.*')
# Try again without the '--force' parameter
pipe = pswd_pipe(PASSWORD)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', 'DD23CEB7FEBEFF17', '--pass-fd', str(pipe)])
os.close(pipe)
self.assertNotEqual(ret, 0)
self.assertEqual(len(out), 0)
self.assertRegex(err, r'(?s)^.*Error: key \'DD23CEB7FEBEFF17\' is revoked already. Use --force to generate another revocation signature.*', err)
# Try again with --force parameter
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--revoke', 'DD23CEB7FEBEFF17', '--pass-fd', str(pipe), "--force", "--rev-type", "2", "--rev-reason", "Other"])
os.close(pipe)
self.assertEqual(ret, 0)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*sub.*dd23ceb7febeff17.*\[REVOKED\].*a4bbb77370217bca2307ad0ddd23ceb7febeff17.*')
def _test_userid_genkey(self, userid_beginning, weird_part, userid_end, weird_part2=''):
clear_keyrings()
USERS = [userid_beginning + weird_part + userid_end]
if weird_part2:
USERS.append(userid_beginning + weird_part2 + userid_end)
# Run key generation
for userid in USERS:
rnp_genkey_rsa(userid, 1024)
# Read with GPG
ret, out, err = run_proc(GPG, ['--homedir', path_for_gpg(RNPDIR), '--list-keys', '--charset', CONSOLE_ENCODING])
self.assertEqual(ret, 0, 'gpg : failed to read keystore')
tracker_escaped = re.findall(r'' + userid_beginning + '.*' + userid_end + '', out)
tracker_gpg = list(map(decode_string_escape, tracker_escaped))
self.assertEqual(tracker_gpg, USERS, 'gpg : failed to find expected userids from keystore')
# Read with rnpkeys
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, 'rnpkeys : failed to read keystore')
tracker_escaped = re.findall(r'' + userid_beginning + '.*' + userid_end + '', out)
tracker_rnp = list(map(decode_string_escape, tracker_escaped))
self.assertEqual(tracker_rnp, USERS, 'rnpkeys : failed to find expected userids from keystore')
clear_keyrings()
def test_userid_unicode_genkeys(self):
self._test_userid_genkey('track', WEIRD_USERID_UNICODE_1, 'end', WEIRD_USERID_UNICODE_2)
def test_userid_special_chars_genkeys(self):
self._test_userid_genkey('track', WEIRD_USERID_SPECIAL_CHARS, 'end')
self._test_userid_genkey('track', WEIRD_USERID_SPACE, 'end')
self._test_userid_genkey('track', WEIRD_USERID_QUOTE, 'end')
self._test_userid_genkey('track', WEIRD_USERID_SPACE_AND_QUOTE, 'end')
def test_userid_too_long_genkeys(self):
clear_keyrings()
userid = WEIRD_USERID_TOO_LONG
# Open pipe for password
pipe = pswd_pipe(PASSWORD)
# Run key generation
ret, _, _ = run_proc(RNPK, ['--gen-key', '--userid', userid,
'--homedir', RNPDIR, '--pass-fd', str(pipe)])
os.close(pipe)
self.assertNotEqual(ret, 0, 'should have failed on too long id')
def test_key_remove(self):
if RNP_CAST5:
MSG_KEYS_NOT_FOUND = r'Key\(s\) not found\.'
clear_keyrings()
# Import public keyring
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(PUBRING_1)])
self.assertEqual(ret, 0)
# Remove without parameters
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key'])
self.assertNotEqual(ret, 0)
# Remove all imported public keys with subkeys
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', '7bc6709b15c23a4a', '2fcadf05ffa501bb'])
self.assertEqual(ret, 0)
# Check that keyring is empty
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertNotEqual(ret, 0)
self.assertRegex(out, MSG_KEYS_NOT_FOUND, 'Invalid no-keys output')
# Import secret keyring
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('keyrings/1/secring.gpg')])
self.assertEqual(ret, 0, 'Secret keyring import failed')
# Remove all secret keys with subkeys
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', '7bc6709b15c23a4a', '2fcadf05ffa501bb', '--force'])
self.assertEqual(ret, 0, 'Failed to remove 2 secret keys')
# Check that keyring is empty
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertNotEqual(ret, 0)
self.assertRegex(out, MSG_KEYS_NOT_FOUND, 'Failed to remove secret keys')
# Import public keyring
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(PUBRING_1)])
self.assertEqual(ret, 0, 'Public keyring import failed')
# Remove all subkeys
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key',
'326ef111425d14a5', '54505a936a4a970e', '8a05b89fad5aded1', '1d7e8a5393c997a8', '1ed63ee56fadc34d'])
self.assertEqual(ret, 0, 'Failed to remove 5 keys')
# Check that subkeys are removed
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'2 keys found', 'Failed to remove subkeys')
self.assertFalse(re.search('326ef111425d14a5|54505a936a4a970e|8a05b89fad5aded1|1d7e8a5393c997a8|1ed63ee56fadc34d', out))
# Remove remaining public keys
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', '7bc6709b15c23a4a', '2fcadf05ffa501bb'])
self.assertEqual(ret, 0, 'Failed to remove public keys')
# Try to remove again
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', '7bc6709b15c23a4a'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'Key matching \'7bc6709b15c23a4a\' not found\.', 'Unexpected result')
# Check that keyring is empty
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertRegex(out, MSG_KEYS_NOT_FOUND, 'Failed to list empty keyring')
# Import public keyring
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(PUBRING_1)])
self.assertEqual(ret, 0, 'Public keyring import failed')
# Try to remove by uid substring, should match multiple keys and refuse to remove
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', 'uid0'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'Ambiguous input: too many keys found for \'uid0\'\.', 'Unexpected result')
# Remove keys by uids
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', 'key0-uid0', 'key1-uid1'])
self.assertEqual(ret, 0, 'Failed to remove keys')
# Check that keyring is empty
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertNotEqual(ret, 0)
self.assertRegex(out, MSG_KEYS_NOT_FOUND, 'Failed to remove keys')
def test_additional_subkeys_default(self):
'''
Generate default key (primary + sub) then add more subkeys.
'''
# Open pipe for password
pipe = pswd_pipe(PASSWORD)
# Run key generation
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe),
'--userid', 'primary_for_many_subs@rnp', '--generate-key'])
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Edit generated key, generate & add one more subkey with default parameters
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe),
'--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertEqual(ret, 0, 'Failed to add new subkey')
# list keys, check result
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
self.assertRegex(out, RE_MULTIPLE_SUBKEY_3, KEY_LIST_WRONG)
clear_keyrings()
def test_additional_subkeys_invalid_parameters(self):
# Run primary key generation
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'primary_for_many_subs@rnp', '--generate-key'])
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Attempt to generate subkey for non-existing key
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', PASSWORD,
'--edit-key', '--add-subkey', 'unknown'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'Secret keys matching \'unknown\' not found.')
# Attempt to generate subkey using the invalid password
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', 'wrong',
'--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)Failed to unlock primary key.*Subkey generation failed')
# Attempt to generate subkey using the invalid password, asked via tty
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key',
'--add-subkey', 'primary_for_many_subs@rnp'], 'password2\n')
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)Failed to unlock primary key.*Subkey generation failed')
# Attempt to generate ECDH subkey with invalid curve
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', PASSWORD, '--edit-key', '--add-subkey',
'primary_for_many_subs@rnp', '--expert'],
'\n\n0\n101\n18\n-10\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n')
self.assertEqual(ret, 1)
self.assertRegex(out, r'(?s)Too many attempts. Aborting.')
self.assertRegex(err, r'(?s)Subkey generation setup failed')
# Attempt to generate ECDSA subkey with invalid curve
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', PASSWORD, '--edit-key', '--add-subkey',
'primary_for_many_subs@rnp', '--expert'],
'19\n-10\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n0\n')
self.assertEqual(ret, 1)
self.assertRegex(out, r'(?s)Too many attempts. Aborting.')
self.assertRegex(err, r'(?s)Subkey generation setup failed')
# Pass invalid numbits
ret, _, err = run_proc(RNPK, ['--numbits', 'wrong', '--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'wrong', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong bits value: wrong.*')
# Too small
ret, _, err = run_proc(RNPK, ['--numbits', '768', '--homedir', RNPDIR, '--password', PASSWORD,
'--userid', '768', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong bits value: 768.*')
# ElGamal too large and wrong numbits
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', 'wrong', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '16\n2048zzz\n99999999999999999999999999\n2048\n')
self.assertRegex(err, r'(?s)Unexpected end of line.*Number out of range.*')
self.assertEqual(ret, 1)
# Wrong hash algorithm
ret, _, err = run_proc(RNPK, ['--hash', 'BAD_HASH', '--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'bad_hash', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported hash algorithm: BAD_HASH.*')
# Wrong S2K iterations
ret, _, err = run_proc(RNPK, ['--s2k-iterations', 'WRONG_ITER', '--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'wrong_iter', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Wrong iterations value: WRONG_ITER.*')
# Wrong S2K msec
ret, _, err = run_proc(RNPK, ['--s2k-msec', 'WRONG_MSEC', '--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'wrong_msec', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Invalid s2k msec value: WRONG_MSEC.*')
# Wrong cipher
ret, _, err = run_proc(RNPK, ['--cipher', 'WRONG_AES', '--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'wrong_aes', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported encryption algorithm: WRONG_AES.*Failed to process argument --cipher.*')
# Ambiguous primary key
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password', PASSWORD,
'--userid', 'primary_for_many_subs2@rnp', '--generate-key'])
self.assertEqual(ret, 0, KEY_GEN_FAILED)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', PASSWORD,
'--edit-key', '--add-subkey', 'primary_for_many'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'Ambiguous input: too many keys found for \'primary_for_many\'')
clear_keyrings()
def test_additional_subkeys_expert_mode(self):
# Run primary key generation
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=',
'--userid', 'primary_for_many_subs@rnp', '--generate-key'])
# RSA subkey
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '\n\n0\n101\n1\n1023\n4097\n3072\n')
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# ElGamal subkey
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '\n\n0\n101\n16\n1023\n4097\n1025\n')
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# DSA subkey
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '\n\n0\n101\n17\n1023\n3073\n1025\n')
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# ECDH subkey
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '\n\n0\n101\n18\n0\n8\n1\n')
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# ECDSA subkey
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '\n\n0\n101\n19\n0\n8\n1\n')
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# EDDSA subkey
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp',
'--expert'], '\n\n0\n101\n22\n')
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# list keys, check result
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
self.assertRegex(out, RE_MULTIPLE_SUBKEY_8, KEY_LIST_WRONG)
clear_keyrings()
def test_additional_subkeys_reuse_password(self):
pipe = pswd_pipe('primarypassword')
# Primary key with password
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe),
'--userid', 'primary_for_many_subs@rnp', '--generate-key'])
os.close(pipe)
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Provide password to add subkey, reuse password for subkey, say "yes"
stdinstr = 'primarypassword\ny\n'
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'],
stdinstr)
self.assertEqual(ret, 0, 'Failed to add new subkey')
self.assertRegex(out, r'Would you like to use the same password to protect subkey')
# Do not reuse same password for subkey, say "no"
stdinstr = 'primarypassword\nN\nsubkeypassword\nsubkeypassword\n'
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key', '--add-subkey', 'primary_for_many_subs@rnp'],
stdinstr)
self.assertEqual(ret, 0)
# Primary key with empty password
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=',
'--userid', 'primary_with_empty_password@rnp', '--generate-key'])
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Set empty password for generated subkey
stdinstr = '\n\ny\n'
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key', '--add-subkey', 'primary_with_empty_password@rnp'],
stdinstr)
self.assertEqual(ret, 0)
# Set password for generated subkey
stdinstr = 'subkeypassword\nsubkeypassword\n'
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key', '--add-subkey', 'primary_with_empty_password@rnp'],
stdinstr)
self.assertEqual(ret, 0)
clear_keyrings()
def test_edit_key_single_option(self):
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_25519_NOTWEAK_SEC)])
self.assertEqual(ret, 0)
# Try to pass multiple --edit-key sub-options at once
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--check-cv25519-bits', '--fix-cv25519-bits',
'--add-subkey', '--set-expire', '0', '3176fc1486aa2528'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Only one key edit option can be executed at a time..*$')
clear_keyrings()
def test_set_expire(self):
kpath = os.path.join(RNPDIR, PUBRING)
# Primary key with empty password
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=',
'--userid', 'primary_with_empty_password@rnp', '--generate-key'])
self.assertEqual(ret, 0, KEY_GEN_FAILED)
# Wrong expiration argument
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '-1', 'primary_with_empty_password@rnp'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'Failed to set key expiration.')
ret, out, _ = run_proc(RNP, ['--list-packets', kpath])
self.assertEqual(ret, 0)
matches = re.findall(r'(key expiration time: 63072000 seconds \(730 days\))', out)
self.assertEqual(len(matches), 2)
# Non-existing key argument
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '0', 'wrongkey'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'Secret keys matching \'wrongkey\' not found.')
# Remove expiration date
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '0', 'primary_with_empty_password@rnp'])
self.assertEqual(ret, 0)
self.assertNotRegex(out, r'(?s)^.*\[EXPIRES .*', 'Failed to remove expiration!')
ret, out, _ = run_proc(RNP, ['--list-packets', kpath])
self.assertEqual(ret, 0)
matches = re.findall(r'(key expiration time: 63072000 seconds \(730 days\))', out)
self.assertEqual(len(matches), 1)
# Expires in 10 seconds
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '10', 'primary_with_empty_password@rnp'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*\[EXPIRES .*')
ret, out, _ = run_proc(RNP, ['--list-packets', kpath])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*key expiration time: 10 seconds \(0 days\).*')
# Expires in 10 hours
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '10h', 'primary_with_empty_password@rnp'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*\[EXPIRES .*')
ret, out, _ = run_proc(RNP, ['--list-packets', kpath])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*key expiration time: 36000 seconds \(0 days\).*')
# Expires in 10 months
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '10m', 'primary_with_empty_password@rnp'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*\[EXPIRES .*')
ret, out, _ = run_proc(RNP, ['--list-packets', kpath])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*key expiration time: 26784000 seconds \(310 days\).*')
# Expires in 10 years
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '10y', 'primary_with_empty_password@rnp'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*\[EXPIRES .*')
ret, out, _ = run_proc(RNP, ['--list-packets', kpath])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*key expiration time: 315360000 seconds \(3650 days\).*')
# Additional primary for ambiguous key uid
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password=',
'--userid', 'primary2@rnp', '--generate-key'])
self.assertEqual(ret, 0, KEY_GEN_FAILED)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--set-expire', '0', 'primary'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'Ambiguous input: too many keys found for \'primary\'')
clear_keyrings()
class Misc(unittest.TestCase):
@classmethod
def setUpClass(cls):
rnp_genkey_rsa(KEY_ENCRYPT)
rnp_genkey_rsa(KEY_SIGN_GPG)
gpg_import_pubring()
gpg_import_secring()
@classmethod
def tearDownClass(cls):
clear_keyrings()
def tearDown(self):
clear_workfiles()
def test_encryption_unicode(self):
if sys.version_info >= (3,):
filename = UNICODE_SEQUENCE_1
else:
filename = UNICODE_SEQUENCE_1.encode(CONSOLE_ENCODING)
src, dst, dec = reg_workfiles(filename, '.txt', '.rnp', '.dec')
# Generate random file of required size
random_text(src, 128000)
rnp_encrypt_file_ex(src, dst, [KEY_ENCRYPT])
rnp_decrypt_file(dst, dec)
compare_files(src, dec, RNP_DATA_DIFFERS)
remove_files(src, dst, dec)
def test_encryption_no_mdc(self):
src, dst, dec = reg_workfiles('cleartext', '.txt', '.gpg', '.rnp')
# Generate random file of required size
random_text(src, 64000)
# Encrypt cleartext file with GPG
params = ['--homedir', GPGHOME, '-c', '-z', '0', '--disable-mdc', '--s2k-count',
'65536', '--batch', '--passphrase', PASSWORD, '--output',
path_for_gpg(dst), path_for_gpg(src)]
ret, _, _ = run_proc(GPG, params)
self.assertEqual(ret, 0, 'gpg symmetric encryption failed')
# Decrypt encrypted file with RNP
rnp_decrypt_file(dst, dec)
compare_files(src, dec, RNP_DATA_DIFFERS)
def test_encryption_s2k(self):
src, dst, dec = reg_workfiles('cleartext', '.txt', '.gpg', '.rnp')
random_text(src, 1000)
ciphers = rnp_supported_ciphers(False)
hashes = ['SHA1', 'RIPEMD160', 'SHA256', 'SHA384', 'SHA512', 'SHA224']
s2kmodes = [0, 1, 3]
if not RNP_RIPEMD160:
hashes.remove('RIPEMD160')
def rnp_encryption_s2k_gpg(cipher, hash_alg, s2k=None, iterations=None):
params = ['--homedir', GPGHOME, '-c', '--s2k-cipher-algo', cipher,
'--s2k-digest-algo', hash_alg, '--batch', '--passphrase', PASSWORD,
'--output', dst, src]
if s2k is not None:
params.insert(7, '--s2k-mode')
params.insert(8, str(s2k))
if iterations is not None:
params.insert(9, '--s2k-count')
params.insert(10, str(iterations))
if GPG_NO_OLD:
params.insert(3, '--allow-old-cipher-algos')
ret, _, _ = run_proc(GPG, params)
self.assertEqual(ret, 0, 'gpg symmetric encryption failed')
rnp_decrypt_file(dst, dec)
compare_files(src, dec, RNP_DATA_DIFFERS)
remove_files(dst, dec)
for i in range(0, 20):
rnp_encryption_s2k_gpg(ciphers[i % len(ciphers)], hashes[
i % len(hashes)], s2kmodes[i % len(s2kmodes)])
def test_armor(self):
src_beg, dst_beg, dst_mid, dst_fin = reg_workfiles('beg', '.src', '.dst',
'.mid.dst', '.fin.dst')
armor_types = [('msg', 'MESSAGE'), ('pubkey', 'PUBLIC KEY BLOCK'),
('seckey', 'PRIVATE KEY BLOCK'), ('sign', 'SIGNATURE')]
random_text(src_beg, 1000)
# Wrong armor type
ret, _, err = run_proc(RNP, ['--enarmor=wrong', src_beg, '--output', dst_beg])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Wrong enarmor argument: wrong.*$')
# Default armor type
ret, _, _ = run_proc(RNP, ['--enarmor', src_beg, '--output', dst_beg])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Wrong enarmor argument: wrong.*$')
txt = file_text(dst_beg).strip('\r\n')
self.assertTrue(txt.startswith('-----BEGIN PGP MESSAGE-----'), 'wrong armor header')
self.assertTrue(txt.endswith('-----END PGP MESSAGE-----'), 'wrong armor trailer')
remove_files(dst_beg)
for data_type, header in armor_types:
prefix = '-----BEGIN PGP ' + header + '-----'
suffix = '-----END PGP ' + header + '-----'
ret, _, _ = run_proc(RNP, ['--enarmor=' + data_type, src_beg, '--output', dst_beg])
self.assertEqual(ret, 0)
txt = file_text(dst_beg).strip('\r\n')
self.assertTrue(txt.startswith(prefix), 'wrong armor header')
self.assertTrue(txt.endswith(suffix), 'wrong armor trailer')
ret, _, _ = run_proc(RNP, ['--dearmor', dst_beg, '--output', dst_mid])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(RNP, ['--enarmor=' + data_type, dst_mid, '--output', dst_fin])
self.assertEqual(ret, 0)
compare_files(dst_beg, dst_fin, "RNP armor/dearmor test failed")
compare_files(src_beg, dst_mid, "RNP armor/dearmor test failed")
remove_files(dst_beg, dst_mid, dst_fin)
# 3-byte last chunk with missing crc
msg = '-----BEGIN PGP MESSAGE-----\n\nMTIzNDU2Nzg5\n-----END PGP MESSAGE-----\n'
ret, out, err = run_proc(RNP, ['--dearmor'], msg)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*123456789.*')
self.assertRegex(err, r'(?s)^.*Warning: missing or malformed CRC line.*')
# No invalid CRC message
R_CRC = r'(?s)^.*Warning: CRC mismatch.*$'
dec = 'decoded.pgp'
ret, _, err = run_proc(RNP, ['--dearmor', data_path('test_stream_key_load/ecc-25519-pub.asc'), '--output', dec])
remove_files(dec)
self.assertEqual(ret, 0)
self.assertNotRegex(err, R_CRC)
# Invalid CRC message
ret, _, err = run_proc(RNP, ['--dearmor', data_path('test_stream_armor/ecc-25519-pub-bad-crc.asc'), '--output', dec])
remove_files(dec)
self.assertEqual(ret, 0)
self.assertRegex(err, R_CRC)
def test_rnpkeys_lists(self):
KEYRING_1 = data_path(KEYRING_DIR_1)
KEYRING_2 = data_path('keyrings/2')
KEYRING_3 = data_path(KEYRING_DIR_3)
KEYRING_5 = data_path('keyrings/5')
path = data_path('test_cli_rnpkeys') + '/'
if RNP_CAST5:
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '--list-keys'])
compare_file_any(allow_y2k38_on_32bit(path + 'keyring_1_list_keys'), out, 'keyring 1 key listing failed')
_, out, _ = run_proc(RNPK, ['--home', KEYRING_1, '-l', '--with-sigs'])
compare_file_any(allow_y2k38_on_32bit(path + 'keyring_1_list_sigs'), out, 'keyring 1 sig listing failed')
_, out, _ = run_proc(RNPK, ['--home', KEYRING_1, '--list-keys', '--secret'])
compare_file_any(allow_y2k38_on_32bit(path + 'keyring_1_list_keys_sec'), out, 'keyring 1 sec key listing failed')
_, out, _ = run_proc(RNPK, ['--home', KEYRING_1, '--list-keys',
'--secret', '--with-sigs'])
compare_file_any(allow_y2k38_on_32bit(path + 'keyring_1_list_sigs_sec'), out, 'keyring 1 sec sig listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_2, '--list-keys'])
compare_file(path + 'keyring_2_list_keys', out, 'keyring 2 key listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_2, '-l', '--with-sigs'])
compare_file(path + 'keyring_2_list_sigs', out, 'keyring 2 sig listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_3, '--list-keys'])
compare_file_any(allow_y2k38_on_32bit(path + 'keyring_3_list_keys'), out, 'keyring 3 key listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_3, '-l', '--with-sigs'])
compare_file_any(allow_y2k38_on_32bit(path + 'keyring_3_list_sigs'), out, 'keyring 3 sig listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_5, '--list-keys'])
compare_file(path + 'keyring_5_list_keys', out, 'keyring 5 key listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_5, '-l', '--with-sigs'])
compare_file(path + 'keyring_5_list_sigs', out, 'keyring 5 sig listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', data_path(SECRING_G10),
'--list-keys'])
if RNP_BRAINPOOL:
self.assertEqual(file_text(path + 'test_stream_key_load_keys'), out, 'g10 keyring key listing failed')
else:
self.assertEqual(file_text(path + 'test_stream_key_load_keys_no_bp'), out, 'g10 keyring key listing failed')
_, out, _ = run_proc(RNPK, ['--homedir', data_path(SECRING_G10),
'-l', '--with-sigs'])
if RNP_BRAINPOOL:
self.assertEqual(file_text(path + 'test_stream_key_load_sigs'), out, 'g10 keyring sig listing failed')
else:
self.assertEqual(file_text(path + 'test_stream_key_load_sigs_no_bp'), out, 'g10 keyring sig listing failed')
# Below are disabled until we have some kind of sorting which doesn't depend on
# readdir order
#_, out, _ = run_proc(RNPK, ['--homedir', data_path(SECRING_G10),
# '-l', '--secret'])
#compare_file(path + 'test_stream_key_load_keys_sec', out,
# 'g10 sec keyring key listing failed')
#_, out, _ = run_proc(RNPK, ['--homedir', data_path(SECRING_G10),
# '-l', '--secret', '--with-sigs'])
#compare_file(path + 'test_stream_key_load_sigs_sec', out,
# 'g10 sec keyring sig listing failed')
if RNP_CAST5:
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '-l', '2fcadf05ffa501bb'])
compare_file_any(allow_y2k38_on_32bit(path + 'getkey_2fcadf05ffa501bb'), out, 'list key 2fcadf05ffa501bb failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '-l',
'--with-sigs', '2fcadf05ffa501bb'])
compare_file_any(allow_y2k38_on_32bit(path + 'getkey_2fcadf05ffa501bb_sig'), out, 'list sig 2fcadf05ffa501bb failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '-l',
'--secret', '2fcadf05ffa501bb'])
compare_file_any(allow_y2k38_on_32bit(path + 'getkey_2fcadf05ffa501bb_sec'), out, 'list sec 2fcadf05ffa501bb failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '-l', '00000000'])
compare_file(path + 'getkey_00000000', out, 'list key 00000000 failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '-l', 'zzzzzzzz'])
compare_file(path + 'getkey_zzzzzzzz', out, 'list key zzzzzzzz failed')
_, out, _ = run_proc(RNPK, ['--homedir', KEYRING_1, '-l', '--userid', '2fcadf05ffa501bb'])
compare_file_any(allow_y2k38_on_32bit(path + 'getkey_2fcadf05ffa501bb'), out, 'list key 2fcadf05ffa501bb failed')
def test_rnpkeys_list_invalid_keys(self):
RNPDIR2 = RNPDIR + '2'
os.mkdir(RNPDIR2, 0o700)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR2, '--import', data_path('test_forged_keys/eddsa-2012-md5-pub.pgp')])
self.assertEqual(ret, 0)
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR2, '--list-keys', '--with-sigs'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)2 keys found.*8801eafbd906bd21.*\[INVALID\].*expired-md5-key-sig.*\[INVALID\].*sig.*\[unknown\] \[invalid\]')
self.assertRegex(err, r'(?s)Insecure hash algorithm 1, marking signature as invalid')
shutil.rmtree(RNPDIR2, ignore_errors=True)
def test_rnpkeys_g10_list_order(self):
ret, out, _ = run_proc(RNPK, ['--homedir', data_path(SECRING_G10), '--list-keys'])
self.assertEqual(ret, 0)
if RNP_BRAINPOOL:
self.assertEqual(file_text(data_path('test_cli_rnpkeys/g10_list_keys')), out, 'g10 key listing failed')
else:
self.assertEqual(file_text(data_path('test_cli_rnpkeys/g10_list_keys_no_bp')), out, 'g10 key listing failed')
ret, out, _ = run_proc(RNPK, ['--homedir', data_path(SECRING_G10), '--secret', '--list-keys'])
self.assertEqual(ret, 0)
if RNP_BRAINPOOL:
self.assertEqual(file_text(data_path('test_cli_rnpkeys/g10_list_keys_sec')), out, 'g10 secret key listing failed')
else:
self.assertEqual(file_text(data_path('test_cli_rnpkeys/g10_list_keys_sec_no_bp')), out, 'g10 secret key listing failed')
def test_rnpkeys_g10_def_key(self):
RE_SIG = r'(?s)^.*' \
r'Good signature made .*' \
r'using (.*) key (.*)' \
r'pub .*' \
r'b54fdebbb673423a5d0aa54423674f21b2441527.*' \
r'uid\s+(ecc-p256)\s*' \
r'Signature\(s\) verified successfully.*$'
src, dst = reg_workfiles('cleartext', '.txt', '.rnp')
random_text(src, 1000)
# Sign file with rnp using the default g10 key
params = ['--homedir', data_path('test_cli_g10_defkey/g10'),
'--password', PASSWORD, '--output', dst, '-s', src]
ret, _, err = run_proc(RNP, params)
self.assertEqual(ret, 0, 'rnp signing failed')
# Verify signed file
params = ['--homedir', data_path('test_cli_g10_defkey/g10'), '-v', dst]
ret, _, err = run_proc(RNP, params)
self.assertEqual(ret, 0, 'verification failed')
self.assertRegex(err, RE_SIG, 'wrong rnp g10 verification output')
def test_large_packet(self):
# Verifying large packet file with GnuPG
kpath = path_for_gpg(data_path(PUBRING_1))
dpath = path_for_gpg(data_path('test_large_packet/4g.bzip2.gpg'))
ret, _, _ = run_proc(GPG, ['--homedir', GPGHOME, '--no-default-keyring', '--keyring', kpath, '--verify', dpath])
self.assertEqual(ret, 0, 'large packet verification failed')
def test_partial_length_signature(self):
# Verifying partial length signature with GnuPG
kpath = path_for_gpg(data_path(PUBRING_1))
mpath = path_for_gpg(data_path('test_partial_length/message.txt.partial-signed'))
ret, _, _ = run_proc(GPG, ['--homedir', GPGHOME, '--no-default-keyring', '--keyring', kpath, '--verify', mpath])
self.assertNotEqual(ret, 0, 'partial length signature packet should result in failure but did not')
def test_partial_length_public_key(self):
# Reading keyring that has a public key packet with partial length using GnuPG
kpath = data_path('test_partial_length/pubring.gpg.partial')
ret, _, _ = run_proc(GPG, ['--homedir', GPGHOME, '--no-default-keyring', '--keyring', kpath, '--list-keys'])
self.assertNotEqual(ret, 0, 'partial length public key packet should result in failure but did not')
def test_partial_length_zero_last_chunk(self):
# Verifying message in partial packets having 0-size last chunk with GnuPG
kpath = path_for_gpg(data_path(PUBRING_1))
mpath = path_for_gpg(data_path('test_partial_length/message.txt.partial-zero-last'))
ret, _, _ = run_proc(GPG, ['--homedir', GPGHOME, '--no-default-keyring', '--keyring', kpath, '--verify', mpath])
self.assertEqual(ret, 0, 'message in partial packets having 0-size last chunk verification failed')
def test_partial_length_largest(self):
# Verifying message having largest possible partial packet with GnuPG
kpath = path_for_gpg(data_path(PUBRING_1))
mpath = path_for_gpg(data_path('test_partial_length/message.txt.partial-1g'))
ret, _, _ = run_proc(GPG, ['--homedir', GPGHOME, '--no-default-keyring', '--keyring', kpath, '--verify', mpath])
self.assertEqual(ret, 0, 'message having largest possible partial packet verification failed')
def test_rnp_single_export(self):
# Import key with subkeys, then export it, test that it is exported once.
# See issue #1153
clear_keyrings()
# Import Alice's secret key and subkey
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_SEC)])
self.assertEqual(ret, 0, 'Alice secret key import failed')
# Export key
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export', 'Alice'])
self.assertEqual(ret, 0, 'key export failed')
pubpath = os.path.join(RNPDIR, 'Alice-export-test.asc')
with open(pubpath, 'w+') as f:
f.write(out)
# List exported key packets
params = ['--list-packets', pubpath]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_single_export_subkeys/list_key_export_single.txt'), out,
'exported packets mismatch')
def test_rnp_permissive_key_import(self):
# Import keys while skipping bad packets, see #1160
clear_keyrings()
# Try to import without --permissive option, should fail.
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_key_edge_cases/pubring-malf-cert.pgp')])
self.assertNotEqual(ret, 0, 'Imported bad packets without --permissive option set!')
# Import with --permissive
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', '--permissive',data_path('test_key_edge_cases/pubring-malf-cert.pgp')])
self.assertEqual(ret, 0, 'Failed to import keys with --permissive option')
# List imported keys and sigs
params = ['--homedir', RNPDIR, '--list-keys', '--with-sigs']
ret, out, _ = run_proc(RNPK, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_any(allow_y2k38_on_32bit(data_path('test_cli_rnpkeys/pubring-malf-cert-permissive-import.txt')),
out, 'listing mismatch')
def test_rnp_autocrypt_key_import(self):
R_25519 = r'(?s)^.*pub.*255/EdDSA.*21fc68274aae3b5de39a4277cc786278981b0728.*$'
R_256K1 = r'(?s)^.*pub.*3ea5bb6f9692c1a0.*7635401f90d3e533.*$'
# Import misc configurations of base64-encoded autocrypt keys
clear_keyrings()
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_key_load/ecc-25519-pub.b64')])
self.assertEqual(ret, 0)
self.assertRegex(out, R_25519)
# No trailing EOL after the base64 data
clear_keyrings()
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_key_load/ecc-25519-pub-2.b64')])
self.assertEqual(ret, 0)
self.assertRegex(out, R_25519)
# Extra spaces/eols/tabs after the base64 data
clear_keyrings()
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_key_load/ecc-25519-pub-3.b64')])
self.assertEqual(ret, 0)
self.assertRegex(out, R_25519)
# Invalid symbols after the base64 data
clear_keyrings()
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_key_load/ecc-25519-pub-4.b64')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*wrong base64 padding: ==zz.*Failed to init/check dearmor.*failed to import key\(s\) from .*, stopping.*')
# Binary data size is multiple of 3, single base64 line
clear_keyrings()
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_key_load/ecc-p256k1-pub.b64')])
self.assertEqual(ret, 0)
self.assertRegex(out, R_256K1)
# Binary data size is multiple of 3, multiple base64 lines
clear_keyrings()
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_key_load/ecc-p256k1-pub-2.b64')])
self.assertEqual(ret, 0)
self.assertRegex(out, R_256K1)
# Too long base64 trailer ('===')
clear_keyrings()
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_armor/long_b64_trailer.b64')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*wrong base64 padding length 3.*Failed to init/check dearmor.*$')
# Extra data after the base64-encoded data
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import-keys', data_path('test_stream_armor/b64_trailer_extra_data.b64')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*warning: extra data after the base64 stream.*Failed to init/check dearmor.*warning: not all data was processed.*')
self.assertRegex(out, R_25519)
def test_rnp_list_packets(self):
KEY_P256 = data_path('test_list_packets/ecc-p256-pub.asc')
# List packets in humand-readable format
params = ['--list-packets', KEY_P256]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_list_packets/list_standard.txt'), out,
'standard listing mismatch')
# List packets with mpi values
params = ['--mpi', '--list-packets', KEY_P256]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'packet listing with mpi failed')
compare_file_ex(data_path('test_list_packets/list_mpi.txt'), out, 'mpi listing mismatch')
# List packets with grip/fingerprint values
params = ['--list-packets', KEY_P256, '--grips']
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'packet listing with grips failed')
compare_file_ex(data_path('test_list_packets/list_grips.txt'), out,
'grips listing mismatch')
# List packets with raw packet contents
params = ['--list-packets', KEY_P256, '--raw']
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'packet listing with raw packets failed')
compare_file_ex(data_path('test_list_packets/list_raw.txt'), out, 'raw listing mismatch')
# List packets with all options enabled
params = ['--list-packets', KEY_P256, '--grips', '--raw', '--mpi']
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'packet listing with all options failed')
compare_file_ex(data_path('test_list_packets/list_all.txt'), out, 'all listing mismatch')
# List packets with JSON output
params = ['--json', '--list-packets', KEY_P256]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'json packet listing failed')
compare_file_ex(data_path('test_list_packets/list_json.txt'), out, 'json listing mismatch')
# List packets with mpi values, JSON output
params = ['--json', '--mpi', '--list-packets', KEY_P256]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'json mpi packet listing failed')
compare_file_ex(data_path('test_list_packets/list_json_mpi.txt'), out,
'json mpi listing mismatch')
# List packets with grip/fingerprint values, JSON output
params = ['--json', '--grips', '--list-packets', KEY_P256]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'json grips packet listing failed')
compare_file_ex(data_path('test_list_packets/list_json_grips.txt'), out,
'json grips listing mismatch')
# List packets with raw packet values, JSON output
params = ['--json', '--raw', '--list-packets', KEY_P256]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'json raw packet listing failed')
compare_file_ex(data_path('test_list_packets/list_json_raw.txt'), out,
'json raw listing mismatch')
# List packets with all values, JSON output
params = ['--json', '--raw', '--list-packets', KEY_P256, '--mpi', '--grips']
ret, out, err = run_proc(RNP, params)
self.assertEqual(ret, 0, 'json all listing failed')
compare_file_ex(data_path('test_list_packets/list_json_all.txt'), out,
'json all listing mismatch')
# List packets with notations
params = ['--list-packets', data_path('test_key_edge_cases/key-critical-notations.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*notation data: critical text = critical value.*$')
self.assertRegex(out, r'(?s)^.*notation data: critical binary = 0x000102030405060708090a0b0c0d0e0f \(16 bytes\).*$')
# List packets with notations via JSON
params = ['--list-packets', '--json', data_path('test_key_edge_cases/key-critical-notations.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*\"human\":true.*\"name\":\"critical text\".*\"value\":\"critical value\".*$')
self.assertRegex(out, r'(?s)^.*\"human\":false.*\"name\":\"critical binary\".*\"value\":\"000102030405060708090a0b0c0d0e0f\".*$')
# List test file with critical notation
params = ['--list-packets', data_path('test_messages/message.txt.signed.crit-notation')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*:type 20, len 35, critical.*notation data: critical text = critical value.*$')
# List signature with signer's userid subpacket
params = ['--list-packets', data_path(MSG_SIG_CRCR)]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*:type 28, len 9.*signer\'s user ID: alice@rnp.*$')
# JSON list signature with signer's userid subpacket
params = ['--list-packets', '--json', data_path(MSG_SIG_CRCR)]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*"type.str":"signer\'s user ID".*"length":9.*"uid":"alice@rnp".*$')
# List signature with reason for revocation subpacket
params = ['--list-packets', data_path('test_uid_validity/key-sig-revocation.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*:type 29, len 24.*reason for revocation: 32 \(No longer valid\).*message: Testing revoked userid.*$')
# JSON list signature with reason for revocation subpacket
params = ['--list-packets', '--json', data_path('test_uid_validity/key-sig-revocation.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*"type.str":"reason for revocation".*"code":32.*"message":"Testing revoked userid.".*$')
def test_rnp_list_packets_edge_cases(self):
KEY_EMPTY_UID = data_path('test_key_edge_cases/key-empty-uid.pgp')
# List empty key packets
params = ['--list-packets', data_path('test_key_edge_cases/key-empty-packets.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-empty-packets.txt'), out,
'key-empty-packets listing mismatch')
# List empty key packets json
params = ['--list-packets', '--json', data_path('test_key_edge_cases/key-empty-packets.pgp')]
ret, _, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
# List empty uid
params = ['--list-packets', KEY_EMPTY_UID]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-empty-uid.txt'), out,
'key-empty-uid listing mismatch')
# List empty uid with raw packet contents
params = ['--list-packets', '--raw', KEY_EMPTY_UID]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-empty-uid-raw.txt'), out,
'key-empty-uid-raw listing mismatch')
# List empty uid packet contents to JSON
params = ['--list-packets', '--json', KEY_EMPTY_UID]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-empty-uid.json'), out,
'key-empty-uid json listing mismatch')
# List experimental subpackets
params = ['--list-packets', data_path('test_key_edge_cases/key-subpacket-101-110.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-subpacket-101-110.txt'), out,
'key-subpacket-101-110 listing mismatch')
# List experimental subpackets JSON
params = ['--list-packets', '--json', data_path('test_key_edge_cases/key-subpacket-101-110.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-subpacket-101-110.json'), out,
'key-subpacket-101-110 json listing mismatch')
# List malformed signature
params = ['--list-packets', data_path('test_key_edge_cases/key-malf-sig.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-malf-sig.txt'), out,
'key-malf-sig listing mismatch')
# List malformed signature JSON
params = ['--list-packets', '--json', data_path('test_key_edge_cases/key-malf-sig.pgp')]
ret, out, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, PKT_LIST_FAILED)
compare_file_ex(data_path('test_key_edge_cases/key-malf-sig.json'), out,
'key-malf-sig json listing mismatch')
def test_debug_log(self):
if RNP_CAST5:
run_proc(RNPK, ['--homedir', data_path(KEYRING_DIR_1), '--list-keys', '--debug', '--all'])
run_proc(RNPK, ['--homedir', data_path('keyrings/2'), '--list-keys', '--debug', '--all'])
run_proc(RNPK, ['--homedir', data_path(KEYRING_DIR_3), '--list-keys', '--debug', '--all'])
run_proc(RNPK, ['--homedir', data_path(SECRING_G10),
'--list-keys', '--debug', '--all'])
def test_pubring_loading(self):
NO_PUBRING = r'(?s)^.*warning: keyring at path \'.*/pubring.gpg\' doesn\'t exist.*$'
EMPTY_HOME = r'(?s)^.*Keyring directory .* is empty.*rnpkeys.*GnuPG.*'
NO_USERID = 'No userid or default key for operation'
test_dir = tempfile.mkdtemp(prefix='rnpctmp')
test_data = data_path(MSG_TXT)
output = os.path.join(test_dir, 'output')
params = ['--symmetric', '--password', 'pass', '--homedir', test_dir, test_data, '--output', output]
ret, _, err = run_proc(RNP, ['--encrypt'] + params)
self.assertEqual(ret, 1, 'encrypt w/o pubring didn\'t fail')
self.assertNotRegex(err, NO_PUBRING, 'wrong no-keyring message')
self.assertRegex(err, EMPTY_HOME)
self.assertIn(NO_USERID, err, 'Unexpected no key output')
self.assertIn('Failed to build recipients key list', err, 'Unexpected key list output')
ret, _, err = run_proc(RNP, ['--sign'] + params)
self.assertEqual(ret, 1, 'sign w/o pubring didn\'t fail')
self.assertNotRegex(err, NO_PUBRING, 'wrong failure output')
self.assertRegex(err, EMPTY_HOME)
self.assertIn(NO_USERID, err, 'wrong no userid message')
self.assertIn('Failed to build signing keys list', err, 'wrong signing list failure message')
ret, _, err = run_proc(RNP, ['--clearsign'] + params)
self.assertEqual(ret, 1, 'clearsign w/o pubring didn\'t fail')
self.assertNotRegex(err, NO_PUBRING, 'wrong clearsign no pubring message')
self.assertRegex(err, EMPTY_HOME)
self.assertIn(NO_USERID, err, 'Unexpected clearsign no key output')
self.assertIn('Failed to build signing keys list', err, 'Unexpected clearsign key list output')
ret, _, _ = run_proc(RNP, params)
self.assertEqual(ret, 0, 'symmetric w/o pubring failed')
shutil.rmtree(test_dir)
def test_homedir_accessibility(self):
ret, _, err = run_proc(RNPK, ['--homedir', os.path.join(RNPDIR, 'non-existing'), '--generate', '--password=none'])
self.assertNotEqual(ret, 0, 'failed to check for homedir accessibility')
self.assertRegex(err, r'(?s)^.*Home directory .*.rnp.non-existing.* does not exist or is not writable!')
self.assertRegex(err, RE_KEYSTORE_INFO)
os.mkdir(os.path.join(RNPDIR, 'existing'), 0o700)
ret, _, err = run_proc(RNPK, ['--homedir', os.path.join(RNPDIR, 'existing'), '--generate', '--password=none'])
self.assertEqual(ret, 0, 'failed to use writeable and existing homedir')
self.assertNotRegex(err, r'(?s)^.*Home directory .* does not exist or is not writable!')
self.assertNotRegex(err, RE_KEYSTORE_INFO)
def test_no_home_dir(self):
home = os.environ['HOME']
del os.environ['HOME']
ret, _, err = run_proc(RNP, ['-v', 'non-existing.pgp'])
os.environ['HOME'] = home
self.assertEqual(ret, 2, 'failed to run without HOME env variable')
self.assertRegex(err, r'(?s)^.*Home directory .* does not exist or is not writable!')
self.assertRegex(err, RE_KEYSTORE_INFO)
def test_exit_codes(self):
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--help'])
self.assertEqual(ret, 0, 'invalid exit code of \'rnp --help\'')
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--help'])
self.assertEqual(ret, 0, 'invalid exit code of \'rnpkeys --help\'')
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--unknown-option', '--help'])
self.assertNotEqual(ret, 0, 'rnp should return non-zero exit code for unknown command line options')
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--unknown-option', '--help'])
self.assertNotEqual(ret, 0, 'rnpkeys should return non-zero exit code for unknown command line options')
def test_input_from_specifier(self):
KEY_LIST = r'(?s)^.*' \
r'1 key found.*' \
r'pub .*255/EdDSA.*0451409669ffde3c.*' \
r'73edcc9119afc8e2dbbdcde50451409669ffde3c.*$'
NO_KEY_LIST = r'(?s)^.*' \
r'Key\(s\) not found.*$'
WRONG_VAR = r'(?s)^.*' \
r'Failed to get value of the environment variable \'SOMETHING_UNSET\'.*' \
r'Failed to create input for env:SOMETHING_UNSET.*$'
WRONG_DATA = r'(?s)^.*' \
r'failed to import key\(s\) from env:KEY_FILE, stopping.*$'
PGP_MSG = r'(?s)^.*' \
r'-----BEGIN PGP MESSAGE-----.*' \
r'-----END PGP MESSAGE-----.*$'
ENV_KEY = 'env:KEY_FILE'
clear_keyrings()
# Import key from the stdin
ktext = file_text(data_path(KEY_ALICE_SEC))
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', '-'], ktext)
self.assertEqual(ret, 0, 'failed to import key from stdin')
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
self.assertRegex(out, KEY_LIST, KEY_LIST_WRONG)
# Cleanup and import key from the env variable
clear_keyrings()
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertNotEqual(ret, 0, 'no key list failed')
self.assertRegex(out, NO_KEY_LIST, KEY_LIST_WRONG)
# Pass unset variable
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', 'env:SOMETHING_UNSET'])
self.assertNotEqual(ret, 0, 'key import from env must fail')
self.assertRegex(err, WRONG_VAR, 'wrong output')
# Pass incorrect value in environment variable
os.environ['KEY_FILE'] = "something"
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', ENV_KEY])
self.assertNotEqual(ret, 0, 'key import failed')
self.assertRegex(err, WRONG_DATA, 'wrong output')
# Now import the correct key
os.environ['KEY_FILE'] = ktext
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', ENV_KEY])
self.assertEqual(ret, 0, 'key import failed')
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0, KEY_LIST_FAILED)
self.assertRegex(out, KEY_LIST, KEY_LIST_WRONG)
# Sign message from the stdin, using the env keyfile
ret, out, _ = run_proc(RNP, ['-s', '-', '--password', 'password', '--armor', '--keyfile', ENV_KEY], 'Message to sign')
self.assertEqual(ret, 0, 'Message signing failed')
self.assertRegex(out, PGP_MSG, 'wrong signing output')
os.environ['SIGN_MSG'] = out
# Verify message from the env variable
ret, out, _ = run_proc(RNP, ['-d', 'env:SIGN_MSG', '--keyfile', ENV_KEY])
self.assertEqual(ret, 0, 'Message verification failed')
self.assertEqual(out, 'Message to sign', 'wrong verification output')
def test_output_to_specifier(self):
src, enc, encasc, dec = reg_workfiles('source', '.txt', EXT_PGP, EXT_ASC, '.dec')
with open(src, 'w+') as f:
f.write('Hello world')
# Encrypt file and make sure result is stored with .pgp extension
ret, out, _ = run_proc(RNP, ['-c', src, '--password', 'password'])
self.assertEqual(ret, 0, ENC_FAILED)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '-d', enc, '--output', dec, '--password', 'password'])
self.assertEqual(ret, 0, DEC_FAILED)
self.assertEqual(file_text(src), file_text(dec), DEC_DIFFERS)
remove_files(enc, dec)
# Encrypt file with armor and make sure result is stored with .asc extension
ret, _, _ = run_proc(RNP, ['-c', src, '--armor', '--password', 'password'])
self.assertEqual(ret, 0, ENC_FAILED)
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '-d', encasc, '--output', '-', '--password', 'password'])
self.assertEqual(ret, 0, DEC_FAILED)
self.assertEqual(file_text(src), out, DEC_DIFFERS)
remove_files(encasc)
# Encrypt file and write result to the stdout
ret, out, _ = run_proc(RNP, ['-c', src, '--armor', '--output', '-', '--password', 'password'])
self.assertEqual(ret, 0, ENC_FAILED)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '-d', '--output', dec, '--password', 'password', '-'], out)
self.assertEqual(ret, 0, DEC_FAILED)
self.assertEqual(file_text(src), file_text(dec), DEC_DIFFERS)
remove_files(dec)
# Encrypt file and write armored result to the stdout
ret, out, _ = run_proc(RNP, ['-c', src, '--armor','--output', '-', '--password', 'password'])
self.assertEqual(ret, 0, ENC_FAILED)
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '-d', '--output', '-', '--password', 'password', '-'], out)
self.assertEqual(ret, 0, DEC_FAILED)
self.assertEqual(file_text(src), out, DEC_DIFFERS)
# Encrypt stdin and write result to the stdout
srctxt = file_text(src)
ret, out, _ = run_proc(RNP, ['-c', '--armor', '--password', 'password'], srctxt)
self.assertEqual(ret, 0, ENC_FAILED)
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '-d', '--password', 'password'], out)
self.assertEqual(ret, 0, DEC_FAILED)
self.assertEqual(out, srctxt, DEC_DIFFERS)
# Encrypt stdin and attempt to write to non-existing dir
ret, _, err = run_proc(RNP, ['-c', '--armor', '--password', 'password', '--output', 'nonexisting/output.pgp'], srctxt)
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*init_file_dest.*failed to create file.*output.pgp.*Error 2.*$')
self.assertNotRegex(err, r'(?s)^.*failed to initialize encryption.*$')
self.assertRegex(err, r'(?s)^.*failed to open source or create output.*$')
# Sign stdin and then verify it using non-existing directory for output
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '--armor', '--password', 'password', '-s'], srctxt)
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*BEGIN PGP MESSAGE.*END PGP MESSAGE.*$')
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '-v', '--output', 'nonexisting/output.pgp'], out)
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*init_file_dest.*failed to create file.*output.pgp.*Error 2.*$')
def test_literal_filename(self):
EMPTY_FNAME = r'(?s)^.*literal data packet.*mode b.*created 0, name="".*$'
HELLO_FNAME = r'(?s)^.*literal data packet.*mode b.*created 0, name="hello".*$'
src, enc, dec = reg_workfiles('source', '.txt', EXT_PGP, '.dec')
with open(src, 'w+') as f:
f.write('Literal filename check')
# Encrypt file and make sure it's name is stored in literal data packet
ret, out, _ = run_proc(RNP, ['-c', src, '--password', 'password'])
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*literal data packet.*mode b.*created \d+.*name="source.txt".*$')
remove_files(enc)
# Encrypt file, overriding it's name
ret, out, _ = run_proc(RNP, ['--set-filename', 'hello', '-c', src, '--password', 'password'])
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, HELLO_FNAME)
remove_files(enc)
# Encrypt file, using empty name
ret, out, _ = run_proc(RNP, ['--set-filename', '', '-c', src, '--password', 'password'])
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, EMPTY_FNAME)
remove_files(enc)
# Encrypt stdin, making sure empty name is stored
ret, out, _ = run_proc(RNP, ['-c', '--password', 'password', '--output', enc], 'Data from stdin')
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, EMPTY_FNAME)
remove_files(enc)
# Encrypt stdin, setting the file name
ret, out, _ = run_proc(RNP, ['--set-filename', 'hello', '-c', '--password', 'password', '--output', enc], 'Data from stdin')
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, HELLO_FNAME)
remove_files(enc)
# Encrypt env, making sure empty name is stored
ret, out, _ = run_proc(RNP, ['-c', 'env:HOME', '--password', 'password', '--output', enc])
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, EMPTY_FNAME)
remove_files(enc)
# Encrypt env, setting the file name
ret, out, _ = run_proc(RNP, ['--set-filename', 'hello', '-c', 'env:HOME', '--password', 'password', '--output', enc])
self.assertEqual(ret, 0)
ret, out, err = run_proc(GPG, ['--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', 'password', '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, HELLO_FNAME)
remove_files(enc)
def test_empty_keyrings(self):
NO_KEYRING = r'(?s)^.*' \
r'warning: keyring at path \'.*.\.rnp.pubring\.gpg\' doesn\'t exist.*' \
r'warning: keyring at path \'.*.\.rnp.secring\.gpg\' doesn\'t exist.*$'
EMPTY_KEYRING = r'(?s)^.*' \
r'Warning: no keys were loaded from the keyring \'.*.\.rnp.pubring\.gpg\'.*' \
r'Warning: no keys were loaded from the keyring \'.*.\.rnp.secring\.gpg\'.*$'
PUB_IMPORT= r'(?s)^.*pub\s+255/EdDSA 0451409669ffde3c .* \[SC\].*$'
EMPTY_SECRING = r'(?s)^.*Warning: no keys were loaded from the keyring \'.*\.rnp.secring.gpg\'.*$'
SEC_IMPORT= r'(?s)^.*sec\s+255/EdDSA 0451409669ffde3c .* \[SC\].*$'
EMPTY_HOME = r'(?s)^.*Keyring directory .* is empty.*rnpkeys.*GnuPG.*'
os.rename(RNPDIR, RNPDIR + '-old')
home = os.environ['HOME']
os.environ['HOME'] = WORKDIR
try:
self.assertFalse(os.path.isdir(RNPDIR), '.rnp directory should not exists')
src, enc, dec = reg_workfiles('source', '.txt', EXT_PGP, '.dec')
random_text(src, 2000)
# Run symmetric encryption/decryption without .rnp home directory
ret, _, err = run_proc(RNP, ['-c', src, '--password', 'password'])
self.assertEqual(ret, 0, 'Symmetric encryption without home failed')
self.assertNotRegex(err, NO_KEYRING, 'No keyring msg in encryption output')
ret, _, err = run_proc(RNP, ['-d', enc, '--password', 'password', '--output', dec])
self.assertEqual(ret, 0, 'Symmetric decryption without home failed')
self.assertNotRegex(err, NO_KEYRING, 'No keyring msg in decryption output')
self.assertRegex(err, EMPTY_HOME)
self.assertIn(WORKDIR, err, 'No workdir in decryption output')
compare_files(src, dec, DEC_DIFFERS)
remove_files(enc, dec)
# Import key without .rnp home directory
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 0, 'Key import failed without home')
self.assertNotRegex(err, NO_KEYRING, 'No keyring msg in key import output')
self.assertRegex(err, EMPTY_HOME)
self.assertIn(WORKDIR, err, 'No workdir in key import output')
self.assertRegex(out, PUB_IMPORT, 'Wrong key import output')
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_SEC)])
self.assertEqual(ret, 0, 'Secret key import without home failed')
self.assertNotRegex(err, NO_KEYRING, 'no keyring message in key import output')
self.assertNotRegex(err, EMPTY_HOME)
self.assertRegex(err, EMPTY_SECRING, 'no empty secring in key import output')
self.assertIn(WORKDIR, err, 'no workdir in key import output')
self.assertRegex(out, SEC_IMPORT, 'Wrong secret key import output')
# Run with empty .rnp home directory
shutil.rmtree(RNPDIR, ignore_errors=True)
os.mkdir(RNPDIR, 0o700)
ret, _, err = run_proc(RNP, ['-c', src, '--password', 'password'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, NO_KEYRING)
ret, out, err = run_proc(RNP, ['-d', enc, '--password', 'password', '--output', dec])
self.assertEqual(ret, 0, 'Symmetric decryption failed')
self.assertRegex(err, EMPTY_HOME)
self.assertNotRegex(err, NO_KEYRING, 'No keyring message in decryption output')
self.assertIn(WORKDIR, err, 'No workdir in decryption output')
compare_files(src, dec, DEC_DIFFERS)
remove_files(enc, dec)
# Import key with empty .rnp home directory
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 0, 'Public key import with empty home failed')
self.assertNotRegex(err, NO_KEYRING, 'No keyring message in key import output')
self.assertRegex(err, EMPTY_HOME)
self.assertIn(WORKDIR, err, 'No workdir in key import output')
self.assertRegex(out, PUB_IMPORT, 'Wrong pub key import output')
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_SEC)])
self.assertEqual(ret, 0, 'Secret key import failed')
self.assertNotRegex(err, NO_KEYRING, 'No-keyring message in secret key import output')
self.assertRegex(err, EMPTY_SECRING, 'No empty secring msg in secret key import output')
self.assertNotRegex(err, EMPTY_HOME)
self.assertIn(WORKDIR, err, 'No workdir in secret key import output')
self.assertRegex(out, SEC_IMPORT, 'wrong secret key import output')
if not is_windows():
# Attempt ro run with non-writable HOME
newhome = os.path.join(WORKDIR, 'new')
os.mkdir(newhome, 0o400)
os.environ['HOME'] = newhome
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Home directory \'.*new\' does not exist or is not writable!')
self.assertRegex(err, RE_KEYSTORE_INFO)
self.assertIn(WORKDIR, err)
os.environ['HOME'] = WORKDIR
shutil.rmtree(newhome, ignore_errors=True)
# Attempt to load keyring with invalid permissions
os.chmod(os.path.join(RNPDIR, PUBRING), 0o000)
ret, out, err = run_proc(RNPK, ['--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Warning: failed to open keyring at path \'.*pubring\.gpg\' for reading.')
self.assertRegex(out, r'(?s)^.*Alice <alice@rnp>')
os.chmod(os.path.join(RNPDIR, SECRING), 0o000)
ret, out, err = run_proc(RNPK, ['--list-keys'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Warning: failed to open keyring at path \'.*pubring\.gpg\' for reading.')
self.assertRegex(err, r'(?s)^.*Warning: failed to open keyring at path \'.*secring\.gpg\' for reading.')
self.assertRegex(out, r'(?s)^.*Key\(s\) not found.')
# Attempt to load keyring with random data
shutil.rmtree(RNPDIR, ignore_errors=True)
os.mkdir(RNPDIR, 0o700)
random_text(os.path.join(RNPDIR, PUBRING), 1000)
random_text(os.path.join(RNPDIR, SECRING), 1000)
ret, out, err = run_proc(RNPK, ['--list-keys'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Error: failed to load keyring from \'.*pubring\.gpg\'')
self.assertNotRegex(err, r'(?s)^.*Error: failed to load keyring from \'.*secring\.gpg\'')
self.assertRegex(out, r'(?s)^.*Key\(s\) not found.')
# Run with .rnp home directory with empty keyrings
shutil.rmtree(RNPDIR, ignore_errors=True)
os.mkdir(RNPDIR, 0o700)
random_text(os.path.join(RNPDIR, PUBRING), 0)
random_text(os.path.join(RNPDIR, SECRING), 0)
ret, out, err = run_proc(RNP, ['-c', src, '--password', 'password'])
self.assertEqual(ret, 0, 'Symmetric encryption failed')
self.assertNotRegex(err, EMPTY_KEYRING, 'Invalid encryption output')
ret, out, err = run_proc(RNP, ['-d', enc, '--password', 'password', '--output', dec])
self.assertEqual(ret, 0, 'Symmetric decryption failed')
self.assertRegex(err, EMPTY_KEYRING, 'wrong decryption output')
self.assertIn(WORKDIR, err, 'wrong decryption output')
compare_files(src, dec, DEC_DIFFERS)
remove_files(enc, dec)
# Import key with empty keyrings in .rnp home directory
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_PUB)])
self.assertEqual(ret, 0, 'Public key import failed')
self.assertRegex(err, EMPTY_KEYRING, 'No empty keyring msg in key import output')
self.assertIn(WORKDIR, err, 'No workdir in empty keyring key import output')
self.assertRegex(out, PUB_IMPORT, 'Wrong pubkey import output')
ret, out, err = run_proc(RNPK, ['--import', data_path(KEY_ALICE_SEC)])
self.assertEqual(ret, 0, 'Secret key import failed')
self.assertNotRegex(err, EMPTY_KEYRING, 'No empty keyring in key import output')
self.assertRegex(err, EMPTY_SECRING, 'No empty secring in key import output')
self.assertIn(WORKDIR, err, 'wrong key import output')
self.assertRegex(out, SEC_IMPORT, 'wrong secret key import output')
finally:
os.environ['HOME'] = home
shutil.rmtree(RNPDIR, ignore_errors=True)
os.rename(RNPDIR + '-old', RNPDIR)
clear_workfiles()
def test_alg_aliases(self):
src, enc = reg_workfiles('source', '.txt', EXT_PGP)
with open(src, 'w+') as f:
f.write('Hello world')
# Encrypt file but forget to pass cipher name
ret, _, err = run_proc(RNP, ['-c', src, '--password', 'password', '--cipher'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*rnp(|\.exe): option( .--cipher.|) requires an argument.*')
# Encrypt file using the unknown symmetric algorithm
ret, _, err = run_proc(RNP, ['-c', src, '--cipher', 'bad', '--password', 'password'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported encryption algorithm: bad.*$')
# Encrypt file but forget to pass hash algorithm name
ret, _, err = run_proc(RNP, ['-c', src, '--password', 'password', '--hash'])
self.assertNotEqual(ret, 0)
# Encrypt file using the unknown hash algorithm
ret, _, err = run_proc(RNP, ['-c', src, '--hash', 'bad', '--password', 'password'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported hash algorithm: bad.*$')
# Encrypt file using the AES algorithm instead of AES-128
ret, _, err = run_proc(RNP, ['-c', src, '--cipher', 'AES', '--password', 'password'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, r'(?s)^.*Warning, unsupported encryption algorithm: AES.*$')
self.assertNotRegex(err, r'(?s)^.*Unsupported encryption algorithm: AES.*$')
# Make sure AES-128 was used
ret, out, _ = run_proc(RNP, ['--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out,r'(?s)^.*Symmetric-key encrypted session key packet.*symmetric algorithm: 7 \(AES-128\).*$')
remove_files(enc)
# Encrypt file using the 3DES instead of tripledes
ret, _, err = run_proc(RNP, ['-c', src, '--cipher', '3DES', '--password', 'password'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, r'(?s)^.*Warning, unsupported encryption algorithm: 3DES.*$')
self.assertNotRegex(err, r'(?s)^.*Unsupported encryption algorithm: 3DES.*$')
# Make sure 3DES was used
ret, out, _ = run_proc(RNP, ['--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out,r'(?s)^.*Symmetric-key encrypted session key packet.*symmetric algorithm: 2 \(TripleDES\).*$')
remove_files(enc)
if RNP_RIPEMD160:
# Use ripemd-160 hash instead of RIPEMD160
ret, _, err = run_proc(RNP, ['-c', src, '--hash', 'ripemd-160', '--password', 'password'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, r'(?s)^.*Unsupported hash algorithm: ripemd-160.*$')
# Make sure RIPEMD160 was used
ret, out, _ = run_proc(RNP, ['--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out,r'(?s)^.*Symmetric-key encrypted session key packet.*s2k hash algorithm: 3 \(RIPEMD160\).*$')
remove_files(enc)
def test_core_dumps(self):
CORE_DUMP = r'(?s)^.*warning: core dumps may be enabled, sensitive data may be leaked to disk.*$'
NO_CORE_DUMP = r'(?s)^.*warning: --coredumps doesn\'t make sense on windows systems.*$'
# Check rnpkeys for the message
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, CORE_DUMP)
# Check rnp for the message
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--armor', '--password', 'password', '-c'], 'message')
self.assertEqual(ret, 0)
self.assertNotRegex(err, CORE_DUMP)
# Enable coredumps for rnpkeys
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--list-keys', '--coredumps'])
self.assertEqual(ret, 0)
if is_windows():
self.assertNotRegex(err, CORE_DUMP)
self.assertRegex(err, NO_CORE_DUMP)
else:
self.assertRegex(err, CORE_DUMP)
self.assertNotRegex(err, NO_CORE_DUMP)
# Enable coredumps for rnp
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--armor', '--password', 'password', '-c', '--coredumps'], 'message')
self.assertEqual(ret, 0)
if is_windows():
self.assertNotRegex(err, CORE_DUMP)
self.assertRegex(err, NO_CORE_DUMP)
else:
self.assertRegex(err, CORE_DUMP)
self.assertNotRegex(err, NO_CORE_DUMP)
def test_backend_version(self):
BOTAN_BACKEND_VERSION = r'(?s)^.*.' \
'Backend: Botan.*' \
'Backend version: ([a-zA-z\.0-9]+).*$'
OPENSSL_BACKEND_VERSION = r'(?s)^.*' \
'Backend: OpenSSL.*' \
'Backend version: ([a-zA-z\.0-9]+).*$'
# Run without parameters and make sure it matches
ret, out, _ = run_proc(RNP, [])
self.assertNotEqual(ret, 0)
match = re.match(BOTAN_BACKEND_VERSION, out) or re.match(OPENSSL_BACKEND_VERSION, out)
self.assertTrue(match)
# Run with version parameters
ret, out, err = run_proc(RNP, ['--version'])
self.assertEqual(ret, 0)
match = re.match(BOTAN_BACKEND_VERSION, out)
backend_prog = 'botan'
if not match:
match = re.match(OPENSSL_BACKEND_VERSION, out)
backend_prog = 'openssl'
openssl_root = os.getenv('OPENSSL_ROOT_DIR')
else:
openssl_root = None
self.assertTrue(match)
# check there is no unexpected output
self.assertNotRegex(err, r'(?is)^.*Unsupported.*$')
self.assertNotRegex(err, r'(?is)^.*pgp_sa_to_openssl_string.*$')
# In case when there are several openssl installations
# testing environment is supposed to point to the right one
# through OPENSSL_ROOT_DIR environment variable
if openssl_root is not None:
backen_prog_ext = shutil.which(backend_prog, path = openssl_root + '/bin')
else:
# In all other cases
# check that botan or openssl executable binary exists in PATH
backen_prog_ext = shutil.which(backend_prog)
if backen_prog_ext is not None:
ret, out, _ = run_proc(backen_prog_ext, ['version'])
self.assertEqual(ret, 0)
self.assertIn(match.group(1), out)
def test_help_message(self):
# rnp help message
# short -h option
ret, out, _ = run_proc(RNP, ['-h'])
self.assertEqual(ret, 0)
short_h = out
# long --help option
ret, out, _ = run_proc(RNP, ['--help'])
self.assertEqual(ret, 0)
long_h = out
self.assertEqual(short_h, long_h)
# rnpkeys help message
# short -h option
ret, out, _ = run_proc(RNPK, ['-h'])
self.assertEqual(ret, 0)
short_h = out
# long --help options
ret, out, _ = run_proc(RNPK, ['--help'])
self.assertEqual(ret, 0)
long_h = out
self.assertEqual(short_h, long_h)
def test_wrong_mpi_bit_count(self):
WRONG_MPI_BITS = r'(?s)^.*Warning! Wrong mpi bit count: got [0-9]+, but actual is [0-9]+.*$'
# Make sure message is not displayed on normal keys
ret, _, err = run_proc(RNP, ['--list-packets', data_path(PUBRING_1)])
self.assertEqual(ret, 0)
self.assertNotRegex(err, WRONG_MPI_BITS)
# Make sure message is displayed on wrong mpi
ret, _, err = run_proc(RNP, ['--list-packets', data_path('test_key_edge_cases/alice-wrong-mpi-bit-count.pgp')])
self.assertEqual(ret, 0)
self.assertRegex(err, WRONG_MPI_BITS)
def test_eddsa_small_x(self):
os.rename(RNPDIR, RNPDIR + '-old')
home = os.environ['HOME']
os.environ['HOME'] = WORKDIR
try:
self.assertFalse(os.path.isdir(RNPDIR), '.rnp directory should not exists')
src, sig, ver = reg_workfiles('source', '.txt', EXT_PGP, '.dec')
random_text(src, 2000)
# load just public key and verify pre-signed message
ret, _, _ = run_proc(RNPK, ['--import', data_path('test_key_edge_cases/key-eddsa-small-x-pub.asc')])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--verify', data_path('test_messages/message.txt.sign-small-eddsa-x')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature made .*using EdDSA key 7bc55b9bdce36e18.*$')
# load secret key and sign message
ret, out, _ = run_proc(RNPK, ['--import', data_path('test_key_edge_cases/key-eddsa-small-x-sec.asc')])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*sec.*255/EdDSA.*7bc55b9bdce36e18.*eddsa_small_x.*ssb.*c6c35ea115368a0b.*$')
ret, _, _ = run_proc(RNP, ['--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
# verify back
ret, _, err = run_proc(RNP, ['--verify', sig, '--output', ver])
self.assertEqual(ret, 0)
self.assertEqual(file_text(src), file_text(ver))
self.assertRegex(err, r'(?s)^.*Good signature made .*using EdDSA key 7bc55b9bdce36e18.*$')
# verify back with GnuPG
os.remove(ver)
gpg_import_pubring(data_path('test_key_edge_cases/key-eddsa-small-x-pub.asc'))
gpg_verify_file(sig, ver, 'eddsa_small_x')
finally:
os.environ['HOME'] = home
shutil.rmtree(RNPDIR, ignore_errors=True)
os.rename(RNPDIR + '-old', RNPDIR)
clear_workfiles()
def test_cv25519_bit_fix(self):
RE_NOT_25519 = r'(?s)^.*Error: specified key is not Curve25519 ECDH subkey.*$'
# Import and tweak non-protected secret key
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_25519_NOTWEAK_SEC)])
self.assertEqual(ret, 0)
# Check some --edit-key invalid options combinations
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*You need to specify a key or subkey to edit.*$')
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '3176fc1486aa2528'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*You should specify one of the editing options for --edit-key.*$')
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--check-cv25519-bits'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*You need to specify a key or subkey to edit.*$')
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--check-cv25519-bits', 'key'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Secret keys matching \'key\' not found.*$')
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--check-cv25519-bits', 'eddsa-25519-non-tweaked'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, RE_NOT_25519)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--check-cv25519-bits', '3176fc1486aa2528'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, RE_NOT_25519)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key', '--check-cv25519-bits', '950ee0cd34613dba'])
self.assertNotEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Warning: Cv25519 key bits need fixing.*$')
# Tweak bits
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--fix-cv25519-bits', '3176fc1486aa2528'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, RE_NOT_25519)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--edit-key', '--fix-cv25519-bits', '950ee0cd34613dba'])
self.assertEqual(ret, 0)
# Make sure bits are correctly tweaked and key may be used to decrypt and imported to GnuPG
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--edit-key', '--check-cv25519-bits', '950ee0cd34613dba'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Cv25519 key bits are set correctly and do not require fixing.*$')
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', os.path.join(RNPDIR, SECRING)])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
# Remove key
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--yes', '--delete-secret-key', 'dde0ee539c017d2bd3f604a53176fc1486aa2528'])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', '--force', 'dde0ee539c017d2bd3f604a53176fc1486aa2528'])
self.assertEqual(ret, 0)
# Make sure protected secret key works the same way
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_edge_cases/key-25519-non-tweaked-sec-prot.asc')])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', 'wrong', '--edit-key', '--check-cv25519-bits', '950ee0cd34613dba'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Error: failed to unlock key. Did you specify valid password\\?.*$')
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password', 'password', '--notty', '--edit-key', '--check-cv25519-bits', '950ee0cd34613dba'])
self.assertNotEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Warning: Cv25519 key bits need fixing.*$')
# Tweak bits
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--password', 'wrong', '--edit-key', '--fix-cv25519-bits', '950ee0cd34613dba'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Error: failed to unlock key. Did you specify valid password\\?.*$')
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--password', 'password', '--edit-key', '--fix-cv25519-bits', '950ee0cd34613dba'])
self.assertEqual(ret, 0)
# Make sure key is protected with the same options
ret, out, _ = run_proc(RNP, ['--list-packets', os.path.join(RNPDIR, SECRING)])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Secret subkey packet.*254.*AES-256.*3.*SHA256.*58720256.*0x950ee0cd34613dba.*$')
# Make sure bits are correctly tweaked and key may be used to decrypt and imported to GnuPG
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--password', 'password', '--edit-key', '--check-cv25519-bits', '950ee0cd34613dba'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Cv25519 key bits are set correctly and do not require fixing.*$')
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', 'password', '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--batch', '--passphrase', 'password', '--import', os.path.join(RNPDIR, SECRING)])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, GPG_LOOPBACK, '--batch', '--passphrase', 'password',
'--trust-model', 'always', '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
# Remove key
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--yes', '--delete-secret-key', 'dde0ee539c017d2bd3f604a53176fc1486aa2528'])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', '--force', 'dde0ee539c017d2bd3f604a53176fc1486aa2528'])
self.assertEqual(ret, 0)
def test_aead_last_chunk_zero_length(self):
# Cover case with last AEAD chunk of the zero size
os.rename(RNPDIR, RNPDIR + '-old')
os.mkdir(RNPDIR)
try:
dec, enc = reg_workfiles('cleartext', '.dec', '.enc')
srctxt = data_path('test_messages/message.aead-last-zero-chunk.txt')
srceax = data_path('test_messages/message.aead-last-zero-chunk.enc')
srcocb = data_path('test_messages/message.aead-last-zero-chunk.enc-ocb')
eax_size = os.path.getsize(srceax)
ocb_size = os.path.getsize(srcocb)
self.assertEqual(eax_size - 1, ocb_size)
# Import Alice's key
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_ALICE_SUB_SEC)])
self.assertEqual(ret, 0)
# Decrypt already existing file
if RNP_AEAD_EAX and RNP_BRAINPOOL:
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-d', srceax, '--output', dec])
self.assertEqual(ret, 0)
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(dec)
if RNP_AEAD_OCB and RNP_BRAINPOOL:
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-d', srcocb, '--output', dec])
self.assertEqual(ret, 0)
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(dec)
# Decrypt with gnupg
if GPG_AEAD and GPG_BRAINPOOL:
ret, _, _ = run_proc(GPG, ['--batch', '--passphrase', PASSWORD, '--homedir',
GPGHOME, '--import', data_path(KEY_ALICE_SUB_SEC)])
self.assertEqual(ret, 0, GPG_IMPORT_FAILED)
if GPG_AEAD_EAX:
gpg_decrypt_file(srceax, dec, PASSWORD)
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(dec)
if GPG_AEAD_OCB:
gpg_decrypt_file(srcocb, dec, PASSWORD)
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(dec)
if RNP_AEAD_EAX and RNP_BRAINPOOL:
# Encrypt with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-z', '0', '-r', 'alice', '--aead=eax',
'--set-filename', 'cleartext-z0.txt', '--aead-chunk-bits=1', '-e', srctxt, '--output', enc])
self.assertEqual(ret, 0)
self.assertEqual(os.path.getsize(enc), eax_size)
# Decrypt with RNP again
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-d', enc, '--output', dec])
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(dec)
if GPG_AEAD_EAX and GPG_BRAINPOOL:
# Decrypt with GnuPG
gpg_decrypt_file(enc, dec, PASSWORD)
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(enc)
if RNP_AEAD_OCB and RNP_BRAINPOOL:
# Encrypt with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-z', '0', '-r', 'alice', '--aead=ocb',
'--set-filename', 'cleartext-z0.txt', '--aead-chunk-bits=1', '-e', srctxt, '--output', enc])
self.assertEqual(ret, 0)
self.assertEqual(os.path.getsize(enc), ocb_size)
# Decrypt with RNP again
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-d', enc, '--output', dec])
self.assertEqual(file_text(srctxt), file_text(dec))
os.remove(dec)
if GPG_AEAD_OCB and GPG_BRAINPOOL:
# Decrypt with GnuPG
gpg_decrypt_file(enc, dec, PASSWORD)
self.assertEqual(file_text(srctxt), file_text(dec))
finally:
shutil.rmtree(RNPDIR, ignore_errors=True)
os.rename(RNPDIR + '-old', RNPDIR)
clear_workfiles()
def test_text_sig_crcr(self):
# Cover case with line ending with multiple CRs
srcsig = data_path(MSG_SIG_CRCR)
srctxt = data_path('test_messages/message.text-sig-crcr')
# Verify with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', data_path(KEY_ALICE_SUB_PUB), '-v', srcsig])
self.assertEqual(ret, 0)
# Verify with GPG
if GPG_BRAINPOOL:
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0, GPG_IMPORT_FAILED)
gpg_verify_detached(srctxt, srcsig, KEY_ALICE)
def test_encrypted_password_wrong(self):
# Test symmetric decryption with wrong password used
srcenc = data_path('test_messages/message.enc-password')
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', 'password1', '-d', srcenc])
self.assertNotEqual(ret, 0)
self.assertIn('checksum check failed', err)
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', 'password', '-d', srcenc, '--output', 'decrypted'])
self.assertEqual(ret, 0)
os.remove('decrypted')
def test_clearsign_long_lines(self):
# Cover case with cleartext signed file with long lines and filesize > 32k (buffer size)
[sig] = reg_workfiles('cleartext', '.sig')
srctxt = data_path('test_messages/message.4k-long-lines')
srcsig = data_path('test_messages/message.4k-long-lines.asc')
pubkey = data_path(KEY_ALICE_SUB_PUB)
seckey = data_path(KEY_ALICE_SUB_SEC)
# Verify already existing file
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', pubkey, '-v', srcsig])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature made.*73edcc9119afc8e2dbbdcde50451409669ffde3c.*')
# Verify with gnupg
if GPG_BRAINPOOL:
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', pubkey])
self.assertEqual(ret, 0, GPG_IMPORT_FAILED)
gpg_verify_cleartext(srcsig, KEY_ALICE)
# Sign again with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', seckey, '--password', PASSWORD, '--clearsign', srctxt, '--output', sig])
self.assertEqual(ret, 0)
# Verify with RNP again
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature made.*73edcc9119afc8e2dbbdcde50451409669ffde3c.*')
# Verify with gnupg again
if GPG_BRAINPOOL:
gpg_verify_cleartext(sig, KEY_ALICE)
clear_workfiles()
def test_eddsa_sig_lead_zero(self):
# Cover case with lead zeroes in EdDSA signature
srcs = data_path('test_messages/eddsa-zero-s.txt.sig')
srcr = data_path('test_messages/eddsa-zero-r.txt.sig')
# Verify with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', data_path(KEY_ALICE_SUB_PUB), '-v', srcs])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', data_path(KEY_ALICE_SUB_PUB), '-v', srcr])
self.assertEqual(ret, 0)
# Verify with GPG
if GPG_BRAINPOOL:
[dst] = reg_workfiles('eddsa-zero', '.txt')
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', data_path(KEY_ALICE_SUB_PUB)])
self.assertEqual(ret, 0, GPG_IMPORT_FAILED)
gpg_verify_file(srcs, dst, KEY_ALICE)
os.remove(dst)
gpg_verify_file(srcr, dst, KEY_ALICE)
clear_workfiles()
def test_eddsa_seckey_lead_zero(self):
# Load and use *unencrypted* EdDSA secret key with 2 leading zeroes
seckey = data_path('test_stream_key_load/eddsa-00-sec.pgp')
pubkey = data_path('test_stream_key_load/eddsa-00-pub.pgp')
src, sig = reg_workfiles('source', '.txt', '.sig')
random_text(src, 2000)
# Sign with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', seckey, '-s', src, '--output', sig])
self.assertEqual(ret, 0)
# Verify with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
# Verify with GnuPG
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', pubkey])
ret, _, err = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--verify', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Signature made.*8BF2223370F61F8D965B.*Good signature from "eddsa-lead-zero".*$')
clear_workfiles()
def test_verify_detached_source(self):
if RNP_CAST5:
# Test --source parameter for the detached signature verification.
src = data_path(MSG_TXT)
sig = data_path(MSG_TXT + '.sig')
sigasc = data_path(MSG_TXT + '.asc')
keys = data_path(KEYRING_DIR_1)
# Just verify
ret, _, err = run_proc(RNP, ['--homedir', keys, '-v', sig])
self.assertEqual(ret, 0)
R_GOOD = r'(?s)^.*Good signature made.*e95a3cbf583aa80a2ccc53aa7bc6709b15c23a4a.*'
self.assertRegex(err, R_GOOD)
# Verify .asc
ret, _, err = run_proc(RNP, ['--homedir', keys, '-v', sigasc])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD)
# Do not provide source
ret, _, err = run_proc(RNP, ['--homedir', keys, '-v', sig, '--source'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*rnp(|\.exe): option( .--source.|) requires an argument.*')
# Verify by specifying the correct path
ret, _, err = run_proc(RNP, ['--homedir', keys, '--source', src, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD)
# Verify by specifying the incorrect path
ret, _, err = run_proc(RNP, ['--homedir', keys, '--source', src + '.wrong', '-v', sig])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Failed to open source for detached signature verification.*')
# Verify detached signature with non-asc/sig extension
[csig] = reg_workfiles('message', '.dat')
shutil.copy(sig, csig)
ret, _, err = run_proc(RNP, ['--homedir', keys, '-v', csig])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Unsupported detached signature extension. Use --source to override.*')
# Verify by reading data from stdin
srcdata = ""
with open(src, "rb") as srcf:
srcdata = srcf.read().decode('utf-8')
ret, _, err = run_proc(RNP, ['--homedir', keys, '--source', '-', '-v', csig], srcdata)
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD)
# Verify by reading data from env
os.environ["SIGNED_DATA"] = srcdata
ret, _, err = run_proc(RNP, ['--homedir', keys, '--source', 'env:SIGNED_DATA', '-v', csig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD)
del os.environ["SIGNED_DATA"]
# Attempt to verify by specifying bot sig and data from stdin
sigtext = file_text(sigasc)
ret, _, err = run_proc(RNP, ['--homedir', keys, '--source', '-', '-v'], sigtext)
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Detached signature and signed source cannot be both stdin.*')
clear_workfiles()
def test_onepass_edge_cases(self):
key = data_path('test_key_validity/alice-pub.asc')
onepass22 = data_path('test_messages/message.txt.signed-2-2-onepass-v10')
# Verify one-pass which doesn't match the signature - different keyid
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-wrong-onepass')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Warning: signature doesn\'t match one-pass.*Good signature made.*0451409669ffde3c.*')
# Verify one-pass with unknown hash algorithm
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-unknown-onepass-hash')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Failed to create hash 136 for onepass 0.*')
# Verify one-pass with hash algorithm which doesn't match sig's one
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-wrong-onepass-hash')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*failed to get hash context.*BAD signature.*0451409669ffde3c.*')
# Extra one-pass without the corresponding signature
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-2-onepass')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Warning: premature end of signatures.*Good signature made.*0451409669ffde3c.*')
# Two one-passes and two equal signatures
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-2-2-onepass')])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature made.*0451409669ffde3c.*Good signature made.*0451409669ffde3c.*')
# Two one-passes and two sigs, but first one-pass is of unknown version
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', onepass22])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong packet version.*warning: unexpected data on the stream end.*Good signature made.*0451409669ffde3c.*')
# Dump it as well
ret, out, err = run_proc(RNP, ['--list-packets', onepass22])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong packet version.*failed to process packet.*')
self.assertRegex(out, r'(?s)^.*:off 0: packet header 0xc40d.*:off 15: packet header 0xc40d.*One-pass signature packet.*')
# Dump it in JSON
ret, out, err = run_proc(RNP, ['--list-packets', '--json', onepass22])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*wrong packet version.*failed to process packet.*')
self.assertRegex(out, r'(?s)^.*"offset":0.*"tag":4.*"offset":15.*"tag":4.*"version":3.*"nested":true.*')
# Two one-passes and sig of the unknown version
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-2-2-sig-v10')])
self.assertEqual(ret, 1)
R_VER_10 = r'(?s)^.*unknown signature version: 10.*failed to parse signature.*UNKNOWN signature.*Good signature made.*0451409669ffde3c.*'
R_1_UNK = r'(?s)^.*Signature verification failure: 1 unknown signature.*'
self.assertRegex(err, R_VER_10)
self.assertRegex(err, R_1_UNK)
# Two one-passes and sig of the unknown version (second)
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.signed-2-2-sig-v10-2')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*unknown signature version: 10.*failed to parse signature.*Good signature made.*0451409669ffde3c.*UNKNOWN signature.*')
self.assertRegex(err, R_1_UNK)
# 2 detached signatures, first is of version 10
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.2sigs'), '--source', data_path(MSG_TXT)])
self.assertEqual(ret, 1)
self.assertRegex(err, R_VER_10)
self.assertRegex(err, R_1_UNK)
# 2 detached signatures, second is of version 10
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.2sigs-2'), '--source', data_path(MSG_TXT)])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*unknown signature version: 10.*failed to parse signature.*Good signature made.*0451409669ffde3c.*UNKNOWN signature.*')
self.assertRegex(err, R_1_UNK)
# Two cleartext signatures, first is of unknown version
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.clear-2-sigs')])
self.assertEqual(ret, 1)
self.assertRegex(err, R_VER_10)
self.assertRegex(err, R_1_UNK)
# Two cleartext signatures, second is of unknown version
ret, _, err = run_proc(RNP, ['--keyfile', key, '-v', data_path('test_messages/message.txt.clear-2-sigs-2')])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*unknown signature version: 11.*failed to parse signature.*Good signature made.*0451409669ffde3c.*UNKNOWN signature.*')
self.assertRegex(err, R_1_UNK)
def test_pkesk_skesk_wrong_version(self):
key = data_path('test_stream_key_load/ecc-p256-sec.asc')
msg = data_path('test_messages/message.txt.pkesk-skesk-v10')
msg2 = data_path('test_messages/message.txt.pkesk-skesk-v10-only')
# Decrypt with secret key
ret, out, err = run_proc(RNP, ['--keyfile', key, '--password', PASSWORD, '-d', msg])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*This is test message to be signed, and/or encrypted, cleartext signed and detached signed.*')
self.assertRegex(err, r'(?s)^.*wrong packet version.*Failed to parse PKESK, skipping.*wrong packet version.*Failed to parse SKESK, skipping.*')
# Decrypt with password
ret, out, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '-d', msg])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*This is test message to be signed, and/or encrypted, cleartext signed and detached signed.*')
self.assertRegex(err, r'(?s)^.*wrong packet version.*Failed to parse PKESK, skipping.*wrong packet version.*Failed to parse SKESK, skipping.*')
# Attempt to decrypt message with only invalid PKESK/SKESK
ret, _, err = run_proc(RNP, ['--keyfile', key, '--password', PASSWORD, '-d', msg2])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*wrong packet version.*Failed to parse PKESK, skipping.*wrong packet version.*Failed to parse SKESK, skipping.*failed to obtain decrypting key or password.*')
def test_ext_adding_stripping(self):
# Check whether rnp correctly strip .pgp/.gpg/.asc extension
seckey = data_path('test_stream_key_load/ecc-p256-sec.asc')
pubkey = data_path('test_stream_key_load/ecc-p256-pub.asc')
src, src2, asc, pgp, gpg, some = reg_workfiles('cleartext', '.txt', '.txt2', '.txt.asc', '.txt.pgp', '.txt.gpg', '.txt.some')
with open(src, 'w+') as f:
f.write('Hello world')
# Encrypt with binary output
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', pubkey, '-e', src])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(pgp))
# Decrypt binary output, it must be put in cleartext.txt if it doesn't exists
os.remove(src)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', seckey, '--password', PASSWORD, '-d', pgp])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(src))
# Decrypt binary output with the rename prompt
ret, out, _ = run_proc(RNP, ['--keyfile', seckey, '--password', PASSWORD, '--notty', '-d', pgp], "n\n" + src2 + "\n")
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(src2))
self.assertRegex(out, r'(?s)^.*File.*cleartext.txt.*already exists. Would you like to overwrite it.*Please enter the new filename:.*$')
self.assertIn(src, out)
self.assertTrue(os.path.isfile(src2))
os.remove(src2)
# Rename from .pgp to .gpg and try again
os.remove(src)
os.rename(pgp, gpg)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', seckey, '--password', PASSWORD, '-d', gpg])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(src))
# Rename from .pgp to .some and check that all is put in stdout
os.rename(gpg, some)
ret, out, _ = run_proc(RNP, ['--keyfile', seckey, '--password', PASSWORD, '--notty', '-d', some], "\n\n")
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^\s*Hello world\s*$')
os.remove(some)
# Encrypt with armored output
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', pubkey, '-e', src, '--armor'])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(asc))
# Decrypt armored output, it must be put in cleartext.txt if it doesn't exists
os.remove(src)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--keyfile', seckey, '--password', PASSWORD, '-d', asc])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(src))
# Enarmor - must be put in .asc file
os.remove(asc)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--enarmor=msg', src])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(asc))
# Dearmor asc - must be outputed to src
os.remove(src)
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '--dearmor', asc])
self.assertEqual(ret, 0)
self.assertTrue(os.path.isfile(src))
# Dearmor unknown extension - must be put to stdout
os.rename(asc, some)
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '--dearmor', some])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^\s*Hello world\s*$')
def test_interactive_password(self):
# Reuse password for subkey, say "yes"
stdinstr = 'password\npassword\ny\n'
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--generate-key'], stdinstr)
self.assertEqual(ret, 0)
# Do not reuse same password for subkey, say "no"
stdinstr = 'password\npassword\nN\nsubkeypassword\nsubkeypassword\n'
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--generate-key'], stdinstr)
self.assertEqual(ret, 0)
# Set empty password and reuse it
stdinstr = '\n\ny\ny\n'
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--notty', '--generate-key'], stdinstr)
self.assertEqual(ret, 0)
def test_set_current_time(self):
RNP2 = RNPDIR + '2'
os.mkdir(RNP2, 0o700)
# Generate key back in the past
ret, out, _ = run_proc(RNPK, ['--homedir', RNP2, '--notty', '--password', PASSWORD, '--generate-key', '--current-time', '2015-02-02', '--userid', 'key-2015'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Generating a new key\.\.\..*sec.*2015\-02\-0.*EXPIRES 2017\-.*ssb.*2015\-02\-0.*EXPIRES 2017\-.*$')
# List keys
ret, out, _ = run_proc(RNPK, ['--homedir', RNP2, '--notty', '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*pub.*2015-02-0.*EXPIRED 2017.*sub.*2015-02-0.* \[EXPIRED 2017.*$')
self.assertNotRegex(out, r'(?s)^.*\[INVALID\].*$')
ret, out, _ = run_proc(RNPK, ['--homedir', RNP2, '--notty', '--current-time', '2015-02-04', '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*pub.*2015-02-0.*EXPIRES 2017.*sub.*2015-02-0.*EXPIRES 2017.*$')
# Create workfile
src, sig, enc = reg_workfiles('cleartext', '.txt', '.txt.sig', '.txt.enc')
with open(src, 'w+') as f:
f.write('Hello world')
# Sign with key from the past
ret, _, err = run_proc(RNP, ['--homedir', RNP2, '--password', PASSWORD, '-u', 'key-2015', '-s', src, '--output', sig])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Failed to add signature.*$')
ret, _, _ = run_proc(RNP, ['--homedir', RNP2, '--password', PASSWORD, '-u', 'key-2015', '--current-time', '2015-02-03', '-s', src, '--output', sig])
self.assertEqual(ret, 0)
# List packets
ret, out, _ = run_proc(RNP, ['--homedir', RNP2, '--list-packets', sig])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*signature creation time.*2015\).*signature expiration time.*$')
# Verify with the expired key
ret, out, err = run_proc(RNP, ['--homedir', RNP2, '-v', sig, '--output', '-'])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature made.*2015.*pub.*\[SC\] \[EXPIRED 2017.*$')
self.assertRegex(out, r'(?s)^.*Hello world.*$')
# Encrypt with the expired key
ret, _, err = run_proc(RNP, ['--homedir', RNP2, '-r', 'key-2015', '-e', src, '--output', enc])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Failed to add recipient.*$')
ret, _, _ = run_proc(RNP, ['--homedir', RNP2, '-r', 'key-2015', '--current-time', '2015-02-03', '-e', src, '--output', enc])
self.assertEqual(ret, 0)
# Decrypt with the expired key
ret, out, _ = run_proc(RNP, ['--homedir', RNP2, '--password', PASSWORD, '-d', enc, '--output', '-'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*Hello world.*$')
shutil.rmtree(RNP2, ignore_errors=True)
clear_workfiles()
def test_wrong_passfd(self):
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', '999', '--userid',
'test_wrong_passfd', '--generate-key', '--expert'], '22\n')
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Cannot open fd 999 for reading')
self.assertRegex(err, r'(?s)^.*fatal: failed to initialize rnpkeys')
def test_keystore_formats(self):
# Use wrong keystore format
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--keystore-format', 'WRONG', '--list-keys'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Unsupported keystore format: "WRONG"')
# Use G10 keystore format
RNPG10 = RNPDIR + '/g10'
#os.mkdir(RNPG10, 0o700)
kring = shutil.copytree(data_path(KEYRING_DIR_3), RNPG10)
ret, _, err = run_proc(RNPK, ['--homedir', kring, '--keystore-format', 'G10', '--list-keys'])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Warning: no keys were loaded from the keyring \'.*private-keys-v1.d\'')
# Use G21 keystore format
ret, out, _ = run_proc(RNPK, ['--homedir', kring, '--keystore-format', 'GPG21', '--list-keys'])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*2 keys found')
shutil.rmtree(RNPG10, ignore_errors=True)
def test_no_twofish(self):
if (RNP_TWOFISH):
return
src, dst, dec = reg_workfiles('cleartext', '.txt', '.pgp', '.dec')
random_text(src, 100)
# Attempt to encrypt to twofish
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--cipher', 'twofish', '--output', dst, '-e', src])
self.assertEqual(ret, 2)
self.assertFalse(os.path.isfile(dst))
self.assertRegex(err, r'(?s)^.*Unsupported encryption algorithm: twofish')
# Symmetrically encrypt with GnuPG
gpg_symencrypt_file(src, dst, 'TWOFISH')
# Attempt to decrypt
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', dec, '-d', dst])
self.assertEqual(ret, 1)
self.assertFalse(os.path.isfile(dec))
self.assertRegex(err, r'(?s)^.*failed to start cipher')
# Public-key encrypt with GnuPG
kpath = path_for_gpg(data_path(PUBRING_1))
os.remove(dst)
ret, _, _ = run_proc(GPG, ['--homedir', GPGHOME, '--no-default-keyring', '--batch', '--keyring', kpath, '-r', 'key0-uid0',
'--trust-model', 'always', '--cipher-algo', 'TWOFISH', '--output', dst, '-e', src])
self.assertEqual(ret, 0)
# Attempt to decrypt
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--output', dec, '-d', dst])
self.assertEqual(ret, 1)
self.assertFalse(os.path.isfile(dec))
self.assertRegex(err, r'(?s)^.*Unsupported symmetric algorithm 10')
clear_workfiles()
def test_no_idea(self):
if (RNP_IDEA):
return
src, dst, dec = reg_workfiles('cleartext', '.txt', '.pgp', '.dec')
random_text(src, 100)
# Attempt to encrypt to twofish
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--cipher', 'idea', '--output', dst, '-e', src])
self.assertEqual(ret, 2)
self.assertFalse(os.path.isfile(dst))
self.assertRegex(err, r'(?s)^.*Unsupported encryption algorithm: idea')
# Symmetrically encrypt with GnuPG
gpg_symencrypt_file(src, dst, 'IDEA')
# Attempt to decrypt
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', dec, '-d', dst])
self.assertEqual(ret, 1)
self.assertFalse(os.path.isfile(dec))
self.assertRegex(err, r'(?s)^.*failed to start cipher')
# Public-key encrypt with GnuPG
kpath = path_for_gpg(data_path(PUBRING_1))
os.remove(dst)
params = ['--no-default-keyring', '--batch', '--keyring', kpath, '-r', 'key0-uid0', '--trust-model', 'always', '--cipher-algo', 'IDEA', '--output', dst, '-e', src]
if GPG_NO_OLD:
params.insert(1, '--allow-old-cipher-algos')
ret, _, _ = run_proc(GPG, params)
self.assertEqual(ret, 0)
# Attempt to decrypt
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--output', dec, '-d', dst])
self.assertEqual(ret, 1)
self.assertFalse(os.path.isfile(dec))
self.assertRegex(err, r'(?s)^.*Unsupported symmetric algorithm 1')
# List secret key, encrypted with IDEA
ret, out, err = run_proc(RNP, ['--homedir', RNPDIR, '--list-packets', data_path('keyrings/4/rsav3-s.asc')])
self.assertEqual(ret, 0)
self.assertNotRegex(out, r'(?s)^.*failed to process packet')
self.assertRegex(out, r'(?s)^.*secret key material.*symmetric algorithm: 1 .IDEA.')
# Import secret key - must succeed.
RNP2 = RNPDIR + '2'
os.mkdir(RNP2, 0o700)
ret, out, err = run_proc(RNPK, ['--homedir', RNP2, '--import', data_path('keyrings/4/rsav3-s.asc')])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*sec.*7d0bc10e933404c9.*INVALID')
shutil.rmtree(RNP2, ignore_errors=True)
clear_workfiles()
def test_subkey_binding_on_uid(self):
RNP2 = RNPDIR + '2'
os.mkdir(RNP2, 0o700)
# Import key with deleted subkey packet (so subkey binding is attached to the uid)
ret, out, _ = run_proc(RNPK, ['--homedir', RNP2, '--import', data_path('test_key_edge_cases/alice-uid-binding.pgp')])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*pub.*0451409669ffde3c.*alice@rnp.*$')
# List keys - make sure rnp doesn't attempt to validate wrong sig
ret, out, err = run_proc(RNPK, ['--homedir', RNP2, '--list-keys', '--with-sigs'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, r'(?s)^.*wrong lbits.*$')
self.assertRegex(err, r'(?s)^.*Invalid binding signature key type.*$')
self.assertRegex(out, r'(?s)^.*sig.*alice@rnp.*.*sig.*alice@rnp.*invalid.*$')
shutil.rmtree(RNP2, ignore_errors=True)
def test_key_locate(self):
seckey = data_path(SECRING_1)
pubkey = data_path(PUBRING_1)
src, sig = reg_workfiles('cleartext', '.txt', '.sig')
random_text(src, 1200)
# Try non-existing key
ret, _, err = run_proc(RNP, ['--keyfile', seckey, '-u', 'alice', '--sign', src, '--output', sig])
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Cannot find key matching "alice".*')
# Match via partial uid
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', 'key0', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature made.*7bc6709b15c23a4a.*Signature\(s\) verified successfully.*')
remove_files(sig)
R_GOOD_SIG = r'(?s)^.*Good signature made.*2fcadf05ffa501bb.*Signature\(s\) verified successfully.*'
# Match via keyid with hex prefix
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', '0x2fcadf05ffa501bb', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD_SIG)
remove_files(sig)
# Match via keyid with spaces/tabs
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', '0X 2FCA DF05\tFFA5\t01BB', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD_SIG)
remove_files(sig)
# Match via half of the keyid
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', 'FFA501BB', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD_SIG)
remove_files(sig)
# Match via fingerprint
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', 'be1c4ab9 51F4C2F6 b604c7f8 2FCADF05 ffa501bb', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD_SIG)
remove_files(sig)
# Match via grip
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', '0xb2a7f6c34aa2c15484783e9380671869a977a187', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD_SIG)
remove_files(sig)
# Match via regexp
ret, _, _ = run_proc(RNP, ['--keyfile', seckey, '-u', 'key[12].uid.', '--password', PASSWORD, '--sign', src, '--output', sig])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-v', sig])
self.assertEqual(ret, 0)
self.assertRegex(err, R_GOOD_SIG)
remove_files(sig)
clear_workfiles()
def test_conflicting_commands(self):
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '--generate-key', '--import', '--revoke-key', '--list-keys'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Conflicting commands!*')
ret, _, err = run_proc(RNPK, ['--homedir', RNPDIR, '-g', '-l'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Conflicting commands!*')
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--sign', '--verify', '--decrypt', '--list-packets'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Conflicting commands!*')
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '-s', '-v'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Conflicting commands!*')
def test_hidden_recipient(self):
seckey = data_path(SECRING_1)
msg1 = data_path('test_messages/message.txt.enc-hidden-1')
msg2 = data_path('test_messages/message.txt.enc-hidden-2')
pswd = 'password\n'
pswds = 'password\npassword\npassword\npassword\n'
R_MSG = r'(?s)^.*This is test message to be signed.*'
H_MSG1 = r'(?s)^.*Warning: message has hidden recipient, but it was ignored. Use --allow-hidden to override this.*'
H_MSG2 = r'(?s)^.*This message has hidden recipient. Will attempt to use all secret keys for decryption.*'
# Try to decrypt message without valid key
ret, out, err = run_proc(RNP, ['--keyfile', data_path(KEY_ALICE_SUB_SEC), '--notty', '-d', msg1], pswd)
self.assertEqual(ret, 1)
self.assertNotRegex(out, R_MSG)
self.assertNotRegex(out, r'(?s)^.*Enter password for key.*')
self.assertRegex(err, H_MSG1)
# Try to decrypt message with first recipient hidden, it must not be asked for
ret, out, _ = run_proc(RNP, ['--keyfile', seckey, '--notty', '-d', msg1], pswd)
self.assertEqual(ret, 0)
self.assertRegex(out, R_MSG)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x326EF111425D14A5 to decrypt.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*')
# Try to decrypt message with first recipient hidden, providing wrong password
ret, out, err = run_proc(RNP, ['--keyfile', seckey, '--notty', '-d', msg1], '123\n')
self.assertEqual(ret, 1)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x326EF111425D14A5 to decrypt.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*')
self.assertRegex(err, H_MSG1)
# Try to decrypt message with second recipient hidden
ret, out, _ = run_proc(RNP, ['--keyfile', seckey, '--notty', '-d', msg2], pswd)
self.assertEqual(ret, 0)
self.assertRegex(out, R_MSG)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x8A05B89FAD5ADED1 to decrypt.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*')
# Try to decrypt message with second recipient hidden, wrong password
ret, out, err = run_proc(RNP, ['--keyfile', seckey, '--notty', '-d', msg2], '123\n')
self.assertEqual(ret, 1)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x8A05B89FAD5ADED1 to decrypt.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*')
self.assertRegex(err, H_MSG1)
# Allow hidden recipient, specifying valid password
ret, out, err = run_proc(RNP, ['--keyfile', seckey, '--notty', '--allow-hidden', '-d', msg1], pswds)
self.assertEqual(ret, 0)
self.assertRegex(err, H_MSG2)
self.assertRegex(out, R_MSG)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x1ED63EE56FADC34D.*0x8A05B89FAD5ADED1.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*Enter password.*')
# Allow hidden recipient, specifying all wrong passwords
ret, out, err = run_proc(RNP, ['--keyfile', seckey, '--notty', '--allow-hidden', '-d', msg1], '1\n1\n1\n1\n')
self.assertEqual(ret, 1)
self.assertRegex(err, H_MSG2)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x1ED63EE56FADC34D.*0x8A05B89FAD5ADED1.*0x326EF111425D14A5.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*Enter password.*Enter password.*')
# Allow hidden recipient, specifying invalid password for first recipient and valid password for hidden, message 2
ret, out, err = run_proc(RNP, ['--keyfile', seckey, '--notty', '--allow-hidden', '-d', msg2], '1\npassword\npassword\n')
self.assertEqual(ret, 0)
self.assertRegex(err, H_MSG2)
self.assertRegex(out, R_MSG)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x8A05B89FAD5ADED1.*0x54505A936A4A970E.*0x326EF111425D14A5.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*Enter password.*Enter password.*')
# Allow hidden recipient, specifying invalid password for all, message 2
ret, out, err = run_proc(RNP, ['--keyfile', seckey, '--notty', '--allow-hidden', '-d', msg2], '1\n1\n1\n1\n')
self.assertEqual(ret, 1)
self.assertRegex(err, H_MSG2)
self.assertRegex(out, r'(?s)^.*Enter password for key 0x8A05B89FAD5ADED1.*0x54505A936A4A970E.*0x326EF111425D14A5.*')
self.assertNotRegex(out, r'(?s)^.*Enter password.*Enter password.*Enter password.*Enter password.*')
def test_allow_weak_hash(self):
RNP2 = RNPDIR + '2'
os.mkdir(RNP2, 0o700)
# rnpkeys, force weak hashes for key generation
ret, _, err = run_proc(RNPK, ['--homedir', RNP2, '-g', '--password=', '--hash', 'MD5'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Hash algorithm \'MD5\' is cryptographically weak!.*Weak hash algorithm detected. Pass --allow-weak-hash option if you really want to use it\..*')
ret, _, err = run_proc(RNPK, ['--homedir', RNP2, '-g', '--password=', '--hash', 'MD5', '--allow-weak-hash'])
self.assertEqual(ret, 0)
ret, _, err = run_proc(RNPK, ['--homedir', RNP2, '-g', '--password=', '--hash', 'SHA1'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Hash algorithm \'SHA1\' is cryptographically weak!.*Weak hash algorithm detected. Pass --allow-weak-hash option if you really want to use it\..*')
ret, _, err = run_proc(RNPK, ['--homedir', RNP2, '-g', '--password=', '--hash', 'SHA1', '--allow-weak-hash'])
self.assertEqual(ret, 0)
# check non-weak hash
ret, _, err = run_proc(RNPK, ['--homedir', RNP2, '-g', '--password=', '--hash', 'SHA3-512'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, r'(?s)^.*Hash algorithm \'SHA3\-512\' is cryptographically weak!.*')
ret, _, err = run_proc(RNPK, ['--homedir', RNP2, '-g', '--password=', '--hash', 'SHA3-512', '--allow-weak-hash'])
self.assertEqual(ret, 0)
# rnp, force weak hashes for signature
src, sig = reg_workfiles('cleartext', '.txt', '.sig')
random_text(src, 120)
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--sign', src, '--output', sig, '--hash', 'MD5'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Hash algorithm \'MD5\' is cryptographically weak!.*Weak hash algorithm detected. Pass --allow-weak-hash option if you really want to use it\..*')
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--sign', src, '--output', sig, '--hash', 'MD5', '--allow-weak-hash'])
self.assertEqual(ret, 0)
remove_files(sig)
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--sign', src, '--output', sig, '--hash', 'SHA1'])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Hash algorithm \'SHA1\' is cryptographically weak!.*Weak hash algorithm detected. Pass --allow-weak-hash option if you really want to use it\..*')
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--sign', src, '--output', sig, '--hash', 'SHA1', '--allow-weak-hash'])
self.assertEqual(ret, 0)
remove_files(sig)
# check non-weak hash
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--sign', src, '--output', sig, '--hash', 'SHA3-512'])
self.assertEqual(ret, 0)
self.assertNotRegex(err, r'(?s)^.*Hash algorithm \'SHA3\-512\' is cryptographically weak!.*')
remove_files(sig)
ret, _, err = run_proc(RNP, ['--keyfile', data_path(SECRING_1), '--password', PASSWORD, '--sign', src, '--output', sig, '--hash', 'SHA3-512', '--allow-weak-hash'])
self.assertEqual(ret, 0)
remove_files(sig)
clear_workfiles()
shutil.rmtree(RNP2, ignore_errors=True)
class Encryption(unittest.TestCase):
'''
Things to try later:
- different public key algorithms
- different hash algorithms where applicable
TODO:
Tests in this test case should be split into many algorithm-specific tests
(potentially auto generated)
Reason being - if you have a problem with BLOWFISH size 1000000, you don't want
to wait until everything else gets
tested before your failing BLOWFISH
'''
# Ciphers list tro try during encryption. None will use default
CIPHERS = [None]
SIZES = [20, 40, 120, 600, 1000, 5000, 20000, 250000]
# Compression parameters to try during encryption(s)
Z = [[None, 0], ['zip'], ['zlib'], ['bzip2'], [None, 1], [None, 9]]
# Number of test runs - each run picks next encryption algo and size, wrapping on array
RUNS = 20
@classmethod
def setUpClass(cls):
# Generate keypair in RNP
rnp_genkey_rsa(KEY_ENCRYPT)
# Add some other keys to the keyring
rnp_genkey_rsa('dummy1@rnp', 1024)
rnp_genkey_rsa('dummy2@rnp', 1024)
gpg_import_pubring()
gpg_import_secring()
Encryption.CIPHERS += rnp_supported_ciphers(False)
Encryption.CIPHERS_R = list_upto(Encryption.CIPHERS, Encryption.RUNS)
Encryption.SIZES_R = list_upto(Encryption.SIZES, Encryption.RUNS)
Encryption.Z_R = list_upto(Encryption.Z, Encryption.RUNS)
@classmethod
def tearDownClass(cls):
clear_keyrings()
def tearDown(self):
clear_workfiles()
# Encrypt cleartext file with GPG and decrypt it with RNP,
# using different ciphers and file sizes
def test_file_encryption__gpg_to_rnp(self):
for size, cipher in zip(Encryption.SIZES_R, Encryption.CIPHERS_R):
gpg_to_rnp_encryption(size, cipher)
# Encrypt with RNP and decrypt with GPG
def test_file_encryption__rnp_to_gpg(self):
for size in Encryption.SIZES:
file_encryption_rnp_to_gpg(size)
def test_sym_encryption__gpg_to_rnp(self):
# Encrypt cleartext with GPG and decrypt with RNP
for size, cipher, z in zip(Encryption.SIZES_R, Encryption.CIPHERS_R, Encryption.Z_R):
rnp_sym_encryption_gpg_to_rnp(size, cipher, z)
def test_sym_encryption__rnp_to_gpg(self):
# Encrypt cleartext with RNP and decrypt with GPG
for size, cipher, z in zip(Encryption.SIZES_R, Encryption.CIPHERS_R, Encryption.Z_R):
rnp_sym_encryption_rnp_to_gpg(size, cipher, z, 1024)
def test_sym_encryption_s2k_iter(self):
src, enc = reg_workfiles('cleartext', '.txt', '.gpg')
# Generate random file of required size
random_text(src, 20)
def s2k_iter_run(input_iterations, expected_iterations):
# Encrypt cleartext file with RNP
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--output', enc, '--password', PASSWORD, '-c', '--s2k-iterations', str(input_iterations), src])
if ret != 0:
raise_err('rnp encryption failed', err)
ret, out, _ = run_proc(RNP, ['--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*s2k iterations: [0-9]+ \(encoded as [0-9]+\).*')
matches = re.findall(r'(?s)^.*s2k iterations: ([0-9]+) \(encoded as [0-9]+\).*', out)
if int(matches[0]) != expected_iterations:
raise_err('unexpected iterations number', matches[0])
remove_files(enc)
for iters in [1024, 1088, 0x3e00000]:
s2k_iter_run(iters, iters)
clear_workfiles()
def test_sym_encryption_s2k_msec(self):
src, enc = reg_workfiles('cleartext', '.txt', '.gpg')
# Generate random file of required size
random_text(src, 20)
def s2k_msec_iters(msec):
# Encrypt cleartext file with RNP
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--output', enc, '--password', PASSWORD, '-c', '--s2k-msec', str(msec), src])
if ret != 0:
raise_err('rnp encryption failed', err)
ret, out, _ = run_proc(RNP, ['--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*s2k iterations: [0-9]+ \(encoded as [0-9]+\).*')
matches = re.findall(r'(?s)^.*s2k iterations: ([0-9]+) \(encoded as [0-9]+\).*', out)
remove_files(enc)
return int(matches[0])
iters1msec = s2k_msec_iters(1)
iters10msec = s2k_msec_iters(10)
iters100msec = s2k_msec_iters(100)
disable_test = os.getenv('DISABLE_TEST_S2K_MSEC')
if disable_test is None:
self.assertGreaterEqual(iters10msec, iters1msec)
self.assertGreaterEqual(iters100msec, iters10msec)
clear_workfiles()
def test_sym_encryption_wrong_s2k(self):
src, dst, enc = reg_workfiles('cleartext', '.txt', '.rnp', '.enc')
random_text(src, 1001)
# Wrong S2K iterations
ret, _, err = run_proc(RNP, ['--s2k-iterations', 'WRONG_ITER', '--homedir', RNPDIR, '--password', PASSWORD,
'--output', enc, '-c', src])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Wrong iterations value: WRONG_ITER.*')
# Wrong S2K msec
ret, _, err = run_proc(RNP, ['--s2k-msec', 'WRONG_MSEC', '--homedir', RNPDIR, '--password', PASSWORD,
'--output', enc, '-c', src])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Invalid s2k msec value: WRONG_MSEC.*')
# Overflow
ret, _, err = run_proc(RNP, ['--s2k-iterations', '999999999999', '--homedir', RNPDIR, '--password', PASSWORD,
'--output', enc, '-c', src])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Wrong iterations value: 999999999999.*')
self.assertNotRegex(err, r'(?s)^.*std::out_of_range.*')
ret, _, err = run_proc(RNP, ['--s2k-msec', '999999999999', '--homedir', RNPDIR, '--password', PASSWORD,
'--output', enc, '-c', src])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Invalid s2k msec value: 999999999999.*')
self.assertNotRegex(err, r'(?s)^.*std::out_of_range.*')
remove_files(src, dst, enc)
def test_sym_encryption__rnp_aead(self):
if not RNP_AEAD:
print('AEAD is not available for RNP - skipping.')
return
CIPHERS = rnp_supported_ciphers(True)
AEADS = [None, 'eax', 'ocb']
if not RNP_AEAD_EAX:
AEADS.remove('eax')
AEAD_C = list_upto(CIPHERS, Encryption.RUNS)
AEAD_M = list_upto(AEADS, Encryption.RUNS)
AEAD_B = list_upto([None, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16], Encryption.RUNS)
# Encrypt and decrypt cleartext using the AEAD
for size, cipher, aead, bits, z in zip(Encryption.SIZES_R, AEAD_C,
AEAD_M, AEAD_B, Encryption.Z_R):
rnp_sym_encryption_rnp_aead(size, cipher, z, [aead, bits], GPG_AEAD)
def test_aead_chunk_edge_cases(self):
if not RNP_AEAD:
print('AEAD is not available for RNP - skipping.')
return
src, dst, enc = reg_workfiles('cleartext', '.txt', '.rnp', '.enc')
# Cover lines from src_skip() where > 16 bytes must be skipped
random_text(src, 1001)
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', enc, '--aead=eax', '--aead-chunk-bits', '2', '-z', '0', '-c', src])
if RNP_AEAD_EAX:
self.assertEqual(ret, 0)
rnp_decrypt_file(enc, dst)
remove_files(dst, enc)
else:
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Invalid AEAD algorithm: EAX')
# Check non-AES OCB mode
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', enc, '--cipher', 'CAMELLIA192', '--aead=ocb', '--aead-chunk-bits', '2', '-z', '0', '-c', src])
if RNP_AEAD_OCB_AES:
self.assertEqual(ret, 1)
self.assertRegex(err, r'(?s)^.*Only AES-OCB is supported by the OpenSSL backend')
else:
self.assertEqual(ret, 0)
rnp_decrypt_file(enc, dst)
remove_files(dst, enc)
# Check default (AES) OCB
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', enc, '--aead=ocb', '--aead-chunk-bits', '2', '-z', '0', '-c', src])
self.assertEqual(ret, 0)
rnp_decrypt_file(enc, dst)
remove_files(src, dst, enc)
# Cover case with AEAD chunk start on the data end
random_text(src, 1002)
if RNP_AEAD_EAX:
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', enc, '--aead=eax', '--aead-chunk-bits', '2', '-z', '0', '-c', src])
self.assertEqual(ret, 0)
rnp_decrypt_file(enc, dst)
remove_files(dst, enc)
if RNP_AEAD_OCB:
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', enc, '--aead-chunk-bits', '2', '-z', '0', '-c', src])
self.assertEqual(ret, 0)
rnp_decrypt_file(enc, dst)
remove_files(src, dst, enc)
def fill_aeads(self, runs):
aead = [None, [None]]
if RNP_AEAD_EAX:
aead += [['eax']]
if RNP_AEAD_OCB:
aead += [['ocb']]
return list_upto(aead, runs)
def gpg_supports(self, aead):
if (aead == ['eax']) and not GPG_AEAD_EAX:
return False
if (aead == ['ocb']) and not GPG_AEAD_OCB:
return False
if (aead == [None]) and not GPG_AEAD_OCB:
return False
return True
def test_encryption_multiple_recipients(self):
USERIDS = ['key1@rnp', 'key2@rnp', 'key3@rnp']
KEYPASS = ['key1pass', 'key2pass', 'key3pass']
PASSWORDS = ['password1', 'password2', 'password3']
# Generate multiple keys and import to GnuPG
for uid, pswd in zip(USERIDS, KEYPASS):
rnp_genkey_rsa(uid, 1024, pswd)
gpg_import_pubring()
gpg_import_secring()
KEYPSWD = tuple((t1, t2) for t1 in range(len(USERIDS) + 1)
for t2 in range(len(PASSWORDS) + 1))
KEYPSWD = list_upto(KEYPSWD, Encryption.RUNS)
AEADS = self.fill_aeads(Encryption.RUNS)
src, dst, dec = reg_workfiles('cleartext', '.txt', '.rnp', '.dec')
# Generate random file of required size
random_text(src, 65500)
for kpswd, aead in zip(KEYPSWD, AEADS):
keynum, pswdnum = kpswd
if (keynum == 0) and (pswdnum == 0):
continue
uids = USERIDS[:keynum] if keynum else None
pswds = PASSWORDS[:pswdnum] if pswdnum else None
rnp_encrypt_file_ex(src, dst, uids, pswds, aead)
# Decrypt file with each of the keys, we have different password for each key
# For CFB mode there is ~5% probability that GnuPG will attempt to decrypt
# message's SESK with a wrong password, see T3795 on dev.gnupg.org
first_pass = aead is None and ((pswdnum > 1) or ((pswdnum == 1) and (keynum > 0)))
try_gpg = self.gpg_supports(aead)
for pswd in KEYPASS[:keynum]:
if not first_pass and try_gpg:
gpg_decrypt_file(dst, dec, pswd)
gpg_agent_clear_cache()
remove_files(dec)
rnp_decrypt_file(dst, dec, '\n'.join([pswd] * 5))
remove_files(dec)
# Decrypt file with each of the passwords (with gpg only first password is checked)
if first_pass and try_gpg:
gpg_decrypt_file(dst, dec, PASSWORDS[0])
gpg_agent_clear_cache()
remove_files(dec)
for pswd in PASSWORDS[:pswdnum]:
if not first_pass and try_gpg:
gpg_decrypt_file(dst, dec, pswd)
gpg_agent_clear_cache()
remove_files(dec)
rnp_decrypt_file(dst, dec, '\n'.join([pswd] * 5))
remove_files(dec)
remove_files(dst, dec)
clear_workfiles()
def test_encryption_and_signing(self):
USERIDS = ['enc-sign1@rnp', 'enc-sign2@rnp', 'enc-sign3@rnp']
KEYPASS = ['encsign1pass', 'encsign2pass', 'encsign3pass']
PASSWORDS = ['password1', 'password2', 'password3']
AEAD_C = list_upto(rnp_supported_ciphers(True), Encryption.RUNS)
# Generate multiple keys and import to GnuPG
for uid, pswd in zip(USERIDS, KEYPASS):
rnp_genkey_rsa(uid, 1024, pswd)
gpg_import_pubring()
gpg_import_secring()
SIGNERS = list_upto(range(1, len(USERIDS) + 1), Encryption.RUNS)
KEYPSWD = tuple((t1, t2) for t1 in range(1, len(USERIDS) + 1)
for t2 in range(len(PASSWORDS) + 1))
KEYPSWD = list_upto(KEYPSWD, Encryption.RUNS)
AEADS = self.fill_aeads(Encryption.RUNS)
ZS = list_upto([None, [None, 0]], Encryption.RUNS)
src, dst, dec = reg_workfiles('cleartext', '.txt', '.rnp', '.dec')
# Generate random file of required size
random_text(src, 65500)
for i in range(0, Encryption.RUNS):
signers = USERIDS[:SIGNERS[i]]
signpswd = KEYPASS[:SIGNERS[i]]
keynum, pswdnum = KEYPSWD[i]
recipients = USERIDS[:keynum]
passwords = PASSWORDS[:pswdnum]
aead = AEADS[i]
z = ZS[i]
cipher = AEAD_C[i]
first_pass = aead is None and ((pswdnum > 1) or ((pswdnum == 1) and (keynum > 0)))
try_gpg = self.gpg_supports(aead)
rnp_encrypt_and_sign_file(src, dst, recipients, passwords, signers,
signpswd, aead, cipher, z)
# Decrypt file with each of the keys, we have different password for each key
for pswd in KEYPASS[:keynum]:
if not first_pass and try_gpg:
gpg_decrypt_file(dst, dec, pswd)
gpg_agent_clear_cache()
remove_files(dec)
rnp_decrypt_file(dst, dec, '\n'.join([pswd] * 5))
remove_files(dec)
# GPG decrypts only with first password, see T3795
if first_pass and try_gpg:
gpg_decrypt_file(dst, dec, PASSWORDS[0])
gpg_agent_clear_cache()
remove_files(dec)
# Decrypt file with each of the passwords
for pswd in PASSWORDS[:pswdnum]:
if not first_pass and try_gpg:
gpg_decrypt_file(dst, dec, pswd)
gpg_agent_clear_cache()
remove_files(dec)
rnp_decrypt_file(dst, dec, '\n'.join([pswd] * 5))
remove_files(dec)
remove_files(dst, dec)
def test_encryption_weird_userids_special_1(self):
uid = WEIRD_USERID_SPECIAL_CHARS
pswd = 'encSpecial1Pass'
rnp_genkey_rsa(uid, 1024, pswd)
# Encrypt
src = data_path(MSG_TXT)
dst, dec = reg_workfiles('weird_userids_special_1', '.rnp', '.dec')
rnp_encrypt_file_ex(src, dst, [uid], None, None)
# Decrypt
rnp_decrypt_file(dst, dec, pswd)
compare_files(src, dec, RNP_DATA_DIFFERS)
clear_workfiles()
def test_encryption_weird_userids_special_2(self):
USERIDS = [WEIRD_USERID_SPACE, WEIRD_USERID_QUOTE, WEIRD_USERID_SPACE_AND_QUOTE, WEIRD_USERID_QUOTE_AND_SPACE]
KEYPASS = ['encSpecial2Pass1', 'encSpecial2Pass2', 'encSpecial2Pass3', 'encSpecial2Pass4']
# Generate multiple keys
for uid, pswd in zip(USERIDS, KEYPASS):
rnp_genkey_rsa(uid, 1024, pswd)
# Encrypt to all recipients
src = data_path(MSG_TXT)
dst, dec = reg_workfiles('weird_userids_special_2', '.rnp', '.dec')
rnp_encrypt_file_ex(src, dst, list(map(lambda uid: uid, USERIDS)), None, None)
# Decrypt file with each of the passwords
for pswd in KEYPASS:
multiple_pass_attempts = (pswd + '\n') * len(KEYPASS)
rnp_decrypt_file(dst, dec, multiple_pass_attempts)
compare_files(src, dec, RNP_DATA_DIFFERS)
remove_files(dec)
# Cleanup
clear_workfiles()
def test_encryption_weird_userids_unicode(self):
USERIDS_1 = [
WEIRD_USERID_UNICODE_1, WEIRD_USERID_UNICODE_2]
USERIDS_2 = [
WEIRD_USERID_UNICODE_1, WEIRD_USERID_UNICODE_2]
# The idea is to generate keys with USERIDS_1 and encrypt with USERIDS_2
# (that differ only in case)
# But currently Unicode case-insensitive search is not working,
# so we're encrypting with exactly the same recipient
KEYPASS = ['encUnicodePass1', 'encUnicodePass2']
# Generate multiple keys
for uid, pswd in zip(USERIDS_1, KEYPASS):
rnp_genkey_rsa(uid, 1024, pswd)
# Encrypt to all recipients
src = data_path('test_messages') + '/message.txt'
dst, dec = reg_workfiles('weird_unicode', '.rnp', '.dec')
rnp_encrypt_file_ex(src, dst, list(map(lambda uid: uid, USERIDS_2)), None, None)
# Decrypt file with each of the passwords
for pswd in KEYPASS:
multiple_pass_attempts = (pswd + '\n') * len(KEYPASS)
rnp_decrypt_file(dst, dec, multiple_pass_attempts)
compare_files(src, dec, RNP_DATA_DIFFERS)
remove_files(dec)
# Cleanup
clear_workfiles()
def test_encryption_x25519(self):
# Make sure that we support import and decryption using both tweaked and non-tweaked keys
KEY_IMPORT = r'(?s)^.*' \
r'sec.*255/EdDSA.*3176fc1486aa2528.*' \
r'uid.*eddsa-25519-non-tweaked.*' \
r'ssb.*255/ECDH.*950ee0cd34613dba.*$'
BITS_MSG = r'(?s)^.*Warning: bits of 25519 secret key are not tweaked.*$'
ret, out, err = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path(KEY_25519_NOTWEAK_SEC)])
self.assertEqual(ret, 0)
self.assertRegex(out, KEY_IMPORT)
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
self.assertRegex(err, BITS_MSG)
self.assertRegex(err, r'(?s)^.*Signature\(s\) verified successfully.*$')
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', 'eddsa-25519-non-tweaked', '--force'])
self.assertEqual(ret, 0)
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--import', data_path('test_key_edge_cases/key-25519-tweaked-sec.asc')])
self.assertEqual(ret, 0)
self.assertRegex(out, KEY_IMPORT)
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
self.assertNotRegex(err, BITS_MSG)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--remove-key', 'eddsa-25519-non-tweaked', '--force'])
self.assertEqual(ret, 0)
# Due to issue in GnuPG it reports successful import of non-tweaked secret key in batch mode
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', data_path(KEY_25519_NOTWEAK_SEC)])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '-d', data_path(MSG_ES_25519)])
self.assertNotEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--yes', '--delete-secret-key', 'dde0ee539c017d2bd3f604a53176fc1486aa2528'])
self.assertEqual(ret, 0)
# Make sure GPG imports tweaked key and successfully decrypts message
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import', data_path('test_key_edge_cases/key-25519-tweaked-sec.asc')])
self.assertEqual(ret, 0)
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '-d', data_path(MSG_ES_25519)])
self.assertEqual(ret, 0)
# Generate
pipe = pswd_pipe(PASSWORD)
ret, _, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--pass-fd', str(pipe), '--userid',
'eddsa_25519', '--generate-key', '--expert'], '22\n')
os.close(pipe)
self.assertEqual(ret, 0)
# Export
ret, out, _ = run_proc(RNPK, ['--homedir', RNPDIR, '--export', '--secret', 'eddsa_25519'])
self.assertEqual(ret, 0)
# Import key with GPG
ret, out, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--import'], out)
self.assertEqual(ret, 0)
src, dst, dec = reg_workfiles('cleartext', '.txt', '.rnp', '.dec')
# Generate random file of required size
random_text(src, 1000)
# Encrypt and sign with RNP
ret, out, _ = run_proc(RNP, ['--homedir', RNPDIR, '-es', '-r', 'eddsa_25519', '-u',
'eddsa_25519', '--password', PASSWORD, src, '--output', dst, '--armor'])
# Decrypt and verify with RNP
rnp_decrypt_file(dst, dec, 'password')
self.assertEqual(file_text(src), file_text(dec))
remove_files(dec)
# Decrypt and verify with GPG
gpg_decrypt_file(dst, dec, 'password')
self.assertEqual(file_text(src), file_text(dec))
remove_files(dst, dec)
# Encrypt and sign with GnuPG
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, '--always-trust', '-r', 'eddsa_25519',
'-u', 'eddsa_25519', '--output', dst, '-es', src])
self.assertEqual(ret, 0)
# Decrypt and verify with RNP
rnp_decrypt_file(dst, dec, 'password')
self.assertEqual(file_text(src), file_text(dec))
# Encrypt/decrypt using the p256 key, making sure message is not displayed
key = data_path('test_stream_key_load/ecc-p256-sec.asc')
remove_files(dst, dec)
ret, _, err = run_proc(RNP, ['--keyfile', key, '-es', '-r', 'ecc-p256', '-u', 'ecc-p256', '--password', PASSWORD, src, '--output', dst])
self.assertEqual(ret, 0)
self.assertNotRegex(err, BITS_MSG)
ret, _, err = run_proc(RNP, ['--keyfile', key, '-d', '--password', PASSWORD, dst, '--output', dec])
self.assertEqual(ret, 0)
self.assertNotRegex(err, BITS_MSG)
# Cleanup
clear_workfiles()
def test_encryption_aead_defs(self):
if not RNP_AEAD or not RNP_BRAINPOOL:
return
# Encrypt with RNP
pubkey = data_path(KEY_ALICE_SUB_PUB)
src, enc, dec = reg_workfiles('cleartext', '.txt', '.enc', '.dec')
random_text(src, 120000)
ret, _, _ = run_proc(RNP, ['--keyfile', pubkey, '-z', '0', '-r', 'alice', '--aead', '-e', src, '--output', enc])
self.assertEqual(ret, 0)
# List packets
ret, out, _ = run_proc(RNP, ['--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(out, r'(?s)^.*tag 20, partial len.*AEAD-encrypted data packet.*version: 1.*AES-256.*OCB.*chunk size: 12.*')
# Attempt to encrypt with too high AEAD bits value
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-r', 'alice', '--aead', '--aead-chunk-bits', '17', '-e', src, '--output', enc])
self.assertEqual(ret, 2)
self.assertRegex(err, r'(?s)^.*Wrong argument value 17 for aead-chunk-bits, must be 0..16.*')
# Attempt to encrypt with wrong AEAD bits value
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-r', 'alice', '--aead', '--aead-chunk-bits', 'banana', '-e', src, '--output', enc])
self.assertEqual(ret, 2)
self.assertRegex(err, r'(?s)^.*Wrong argument value banana for aead-chunk-bits, must be 0..16.*')
# Attempt to encrypt with another wrong AEAD bits value
ret, _, err = run_proc(RNP, ['--keyfile', pubkey, '-r', 'alice', '--aead', '--aead-chunk-bits', '5banana', '-e', src, '--output', enc])
self.assertEqual(ret, 2)
self.assertRegex(err, r'(?s)^.*Wrong argument value 5banana for aead-chunk-bits, must be 0..16.*')
clear_workfiles()
def test_encryption_no_wrap(self):
src, sig, enc, dec = reg_workfiles('cleartext', '.txt', '.sig', '.enc', '.dec')
random_text(src, 2000)
# Sign with GnuPG
ret, _, _ = run_proc(GPG, ['--batch', '--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', PASSWORD, '-u', KEY_ENCRYPT, '--output', sig, '-s', src])
# Additionally encrypt with RNP
ret, _, _ = run_proc(RNP, ['--homedir', RNPDIR, '-r', 'dummy1@rnp', '--no-wrap', '-e', sig, '--output', enc])
self.assertEqual(ret, 0)
# List packets
ret, out, err = run_proc(GPG, ['--batch', '--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', PASSWORD, '--list-packets', enc])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*gpg: encrypted with .*dummy1@rnp.*')
self.assertRegex(out, r'(?s)^.*:pubkey enc packet: version 3.*:encrypted data packet:.*mdc_method: 2.*' \
r':compressed packet.*:onepass_sig packet:.*:literal data packet.*:signature packet.*')
# Decrypt with GnuPG
ret, _, err = run_proc(GPG, ['--batch', '--homedir', GPGHOME, GPG_LOOPBACK, '--passphrase', PASSWORD, '--output', dec, '-d', enc])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*gpg: encrypted with .*dummy1@rnp.*gpg: Good signature from "encryption@rnp".*')
self.assertEqual(file_text(dec), file_text(src))
remove_files(dec)
# Decrypt with RNP
ret, _, err = run_proc(RNP, ['--homedir', RNPDIR, '--password', PASSWORD, '--output', dec, '-d', enc])
self.assertEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Good signature.*uid\s+encryption@rnp.*Signature\(s\) verified successfully.*')
self.assertEqual(file_text(dec), file_text(src))
clear_workfiles()
class Compression(unittest.TestCase):
@classmethod
def setUpClass(cls):
# Compression is currently implemented only for encrypted messages
rnp_genkey_rsa(KEY_ENCRYPT)
rnp_genkey_rsa(KEY_SIGN_GPG)
gpg_import_pubring()
gpg_import_secring()
@classmethod
def tearDownClass(cls):
clear_keyrings()
def tearDown(self):
clear_workfiles()
def test_rnp_compression(self):
runs = 30
levels = list_upto([None, 0, 2, 4, 6, 9], runs)
algosrnp = list_upto([None, 'zip', 'zlib', 'bzip2'], runs)
sizes = list_upto([20, 1000, 5000, 15000, 250000], runs)
for level, algo, size in zip(levels, algosrnp, sizes):
z = [algo, level]
gpg_to_rnp_encryption(size, None, z)
file_encryption_rnp_to_gpg(size, z)
rnp_signing_gpg_to_rnp(size, z)
class SignDefault(unittest.TestCase):
'''
Things to try later:
- different public key algorithms
- different hash algorithms where applicable
- cleartext signing/verification
- detached signing/verification
'''
# Message sizes to be tested
SIZES = [20, 1000, 5000, 20000, 150000, 1000000]
@classmethod
def setUpClass(cls):
# Generate keypair in RNP
rnp_genkey_rsa(KEY_SIGN_RNP)
rnp_genkey_rsa(KEY_SIGN_GPG)
gpg_import_pubring()
gpg_import_secring()
@classmethod
def tearDownClass(cls):
clear_keyrings()
# TODO: This script should generate one test case per message size.
# Not sure how to do it yet
def test_rnp_to_gpg_default_key(self):
for size in Sign.SIZES:
rnp_signing_rnp_to_gpg(size)
rnp_detached_signing_rnp_to_gpg(size)
rnp_cleartext_signing_rnp_to_gpg(size)
def test_gpg_to_rnp_default_key(self):
for size in Sign.SIZES:
rnp_signing_gpg_to_rnp(size)
rnp_detached_signing_gpg_to_rnp(size)
rnp_detached_signing_gpg_to_rnp(size, True)
rnp_cleartext_signing_gpg_to_rnp(size)
def test_rnp_multiple_signers(self):
USERIDS = ['sign1@rnp', 'sign2@rnp', 'sign3@rnp']
KEYPASS = ['sign1pass', 'sign2pass', 'sign3pass']
# Generate multiple keys and import to GnuPG
for uid, pswd in zip(USERIDS, KEYPASS):
rnp_genkey_rsa(uid, 1024, pswd)
gpg_import_pubring()
gpg_import_secring()
src, dst, sig, ver = reg_workfiles('cleartext', '.txt', '.rnp', EXT_SIG, '.ver')
# Generate random file of required size
random_text(src, 128000)
for keynum in range(1, len(USERIDS) + 1):
# Normal signing
rnp_sign_file(src, dst, USERIDS[:keynum], KEYPASS[:keynum])
gpg_verify_file(dst, ver)
remove_files(ver)
rnp_verify_file(dst, ver)
remove_files(dst, ver)
# Detached signing
rnp_sign_detached(src, USERIDS[:keynum], KEYPASS[:keynum])
gpg_verify_detached(src, sig)
rnp_verify_detached(sig)
remove_files(sig)
# Cleartext signing
rnp_sign_cleartext(src, dst, USERIDS[:keynum], KEYPASS[:keynum])
gpg_verify_cleartext(dst)
rnp_verify_cleartext(dst)
remove_files(dst)
clear_workfiles()
def test_sign_weird_userids(self):
USERIDS = [WEIRD_USERID_SPECIAL_CHARS, WEIRD_USERID_SPACE, WEIRD_USERID_QUOTE,
WEIRD_USERID_SPACE_AND_QUOTE, WEIRD_USERID_QUOTE_AND_SPACE,
WEIRD_USERID_UNICODE_1, WEIRD_USERID_UNICODE_2]
KEYPASS = ['signUnicodePass1', 'signUnicodePass2', 'signUnicodePass3', 'signUnicodePass4',
'signUnicodePass5', 'signUnicodePass6', 'signUnicodePass7']
# Generate multiple keys
for uid, pswd in zip(USERIDS, KEYPASS):
rnp_genkey_rsa(uid, 1024, pswd)
gpg_import_pubring()
gpg_import_secring()
src, dst, sig, ver = reg_workfiles('cleartext', '.txt', '.rnp', EXT_SIG, '.ver')
# Generate random file of required size
random_text(src, 128000)
for keynum in range(1, len(USERIDS) + 1):
# Normal signing
rnp_sign_file(src, dst, USERIDS[:keynum], KEYPASS[:keynum])
gpg_verify_file(dst, ver)
remove_files(ver)
rnp_verify_file(dst, ver)
remove_files(dst, ver)
# Detached signing
rnp_sign_detached(src, USERIDS[:keynum], KEYPASS[:keynum])
gpg_verify_detached(src, sig)
rnp_verify_detached(sig)
remove_files(sig)
# Cleartext signing
rnp_sign_cleartext(src, dst, USERIDS[:keynum], KEYPASS[:keynum])
gpg_verify_cleartext(dst)
rnp_verify_cleartext(dst)
remove_files(dst)
clear_workfiles()
def test_verify_bad_sig_class(self):
ret, _, err = run_proc(RNP, ['--keyfile', data_path(KEY_ALICE_SEC), '--verify', data_path('test_messages/message.txt.signed-class19')])
self.assertNotEqual(ret, 0)
self.assertRegex(err, r'(?s)^.*Invalid document signature type: 19.*')
self.assertNotRegex(err, r'(?s)^.*Good signature.*')
self.assertRegex(err, r'(?s)^.*BAD signature.*Signature verification failure: 1 invalid signature')
class Encrypt(unittest.TestCase, TestIdMixin, KeyLocationChooserMixin):
def _encrypt_decrypt(self, e1, e2, failenc = False, faildec = False):
keyfile, src, enc_out, dec_out = reg_workfiles(self.test_id, '.gpg',
'.in', '.enc', '.dec')
random_text(src, 0x1337)
if not self.operation_key_location and not self.operation_key_gencmd:
raise RuntimeError("key not found")
if self.operation_key_location:
self.assertTrue(e1.import_key(self.operation_key_location[0]))
self.assertTrue(e1.import_key(self.operation_key_location[1], True))
else:
self.assertTrue(e1.generate_key_batch(self.operation_key_gencmd))
self.assertTrue(e1.export_key(keyfile, False))
self.assertTrue(e2.import_key(keyfile))
self.assertEqual(e2.encrypt(e1.userid, enc_out, src), not failenc)
self.assertEqual(e1.decrypt(dec_out, enc_out), not faildec)
clear_workfiles()
def setUp(self):
KeyLocationChooserMixin.__init__(self)
self.rnp = Rnp(RNPDIR, RNP, RNPK)
self.gpg = GnuPG(GPGHOME, GPG)
self.rnp.password = self.gpg.password = PASSWORD
self.rnp.userid = self.gpg.userid = self.test_id + AT_EXAMPLE
@classmethod
def tearDownClass(cls):
clear_keyrings()
class EncryptElgamal(Encrypt):
GPG_GENERATE_DSA_ELGAMAL_PATTERN = """
Key-Type: dsa
Key-Length: {0}
Key-Usage: sign
Subkey-Type: ELG-E
Subkey-Length: {1}
Subkey-Usage: encrypt
Name-Real: Test Testovich
Expire-Date: 1y
Preferences: aes256 sha256 sha384 sha512 sha1 zlib
Name-Email: {2}
"""
RNP_GENERATE_DSA_ELGAMAL_PATTERN = "16\n{0}\n"
@staticmethod
def key_pfx(sign_key_size, enc_key_size):
return "GnuPG_dsa_elgamal_%d_%d" % (sign_key_size, enc_key_size)
def do_test_encrypt(self, sign_key_size, enc_key_size):
pfx = EncryptElgamal.key_pfx(sign_key_size, enc_key_size)
self.operation_key_location = tuple((key_path(pfx, False), key_path(pfx, True)))
self.rnp.userid = self.gpg.userid = pfx + AT_EXAMPLE
# DSA 1024 key uses SHA-1 as hash but verification would succeed till 2024
self._encrypt_decrypt(self.gpg, self.rnp)
def do_test_decrypt(self, sign_key_size, enc_key_size):
pfx = EncryptElgamal.key_pfx(sign_key_size, enc_key_size)
self.operation_key_location = tuple((key_path(pfx, False), key_path(pfx, True)))
self.rnp.userid = self.gpg.userid = pfx + AT_EXAMPLE
self._encrypt_decrypt(self.rnp, self.gpg)
def test_encrypt_P1024_1024(self): self.do_test_encrypt(1024, 1024)
def test_encrypt_P1024_2048(self): self.do_test_encrypt(1024, 2048)
def test_encrypt_P2048_2048(self): self.do_test_encrypt(2048, 2048)
def test_encrypt_P3072_3072(self): self.do_test_encrypt(3072, 3072)
def test_decrypt_P1024_1024(self): self.do_test_decrypt(1024, 1024)
def test_decrypt_P2048_2048(self): self.do_test_decrypt(2048, 2048)
def test_decrypt_P1234_1234(self): self.do_test_decrypt(1234, 1234)
def test_generate_elgamal_key1024_in_gpg_and_encrypt(self):
cmd = EncryptElgamal.GPG_GENERATE_DSA_ELGAMAL_PATTERN.format(1024, 1024, self.gpg.userid)
self.operation_key_gencmd = cmd
# Will not fail till 2024 since 1024-bit DSA key uses SHA-1 as hash.
self._encrypt_decrypt(self.gpg, self.rnp)
def test_generate_elgamal_key1536_in_gpg_and_encrypt(self):
cmd = EncryptElgamal.GPG_GENERATE_DSA_ELGAMAL_PATTERN.format(1536, 1536, self.gpg.userid)
self.operation_key_gencmd = cmd
self._encrypt_decrypt(self.gpg, self.rnp)
def test_generate_elgamal_key1024_in_rnp_and_decrypt(self):
cmd = EncryptElgamal.RNP_GENERATE_DSA_ELGAMAL_PATTERN.format(1024)
self.operation_key_gencmd = cmd
self._encrypt_decrypt(self.rnp, self.gpg)
class EncryptEcdh(Encrypt):
GPG_GENERATE_ECDH_ECDSA_PATTERN = """
Key-Type: ecdsa
Key-Curve: {0}
Key-Usage: sign auth
Subkey-Type: ecdh
Subkey-Usage: encrypt
Subkey-Curve: {0}
Name-Real: Test Testovich
Expire-Date: 1y
Preferences: aes256 sha256 sha384 sha512 sha1 zlib
Name-Email: {1}"""
RNP_GENERATE_ECDH_ECDSA_PATTERN = "19\n{0}\n"
def test_encrypt_nistP256(self):
self.operation_key_gencmd = EncryptEcdh.GPG_GENERATE_ECDH_ECDSA_PATTERN.format(
"nistp256", self.rnp.userid)
self._encrypt_decrypt(self.gpg, self.rnp)
def test_encrypt_nistP384(self):
self.operation_key_gencmd = EncryptEcdh.GPG_GENERATE_ECDH_ECDSA_PATTERN.format(
"nistp384", self.rnp.userid)
self._encrypt_decrypt(self.gpg, self.rnp)
def test_encrypt_nistP521(self):
self.operation_key_gencmd = EncryptEcdh.GPG_GENERATE_ECDH_ECDSA_PATTERN.format(
"nistp521", self.rnp.userid)
self._encrypt_decrypt(self.gpg, self.rnp)
def test_decrypt_nistP256(self):
self.operation_key_gencmd = EncryptEcdh.RNP_GENERATE_ECDH_ECDSA_PATTERN.format(1)
self._encrypt_decrypt(self.rnp, self.gpg)
def test_decrypt_nistP384(self):
self.operation_key_gencmd = EncryptEcdh.RNP_GENERATE_ECDH_ECDSA_PATTERN.format(2)
self._encrypt_decrypt(self.rnp, self.gpg)
def test_decrypt_nistP521(self):
self.operation_key_gencmd = EncryptEcdh.RNP_GENERATE_ECDH_ECDSA_PATTERN.format(3)
self._encrypt_decrypt(self.rnp, self.gpg)
class Sign(unittest.TestCase, TestIdMixin, KeyLocationChooserMixin):
SIZES = [20, 1000, 5000, 20000, 150000, 1000000]
def _sign_verify(self, e1, e2, failsign = False, failver = False):
'''
Helper function for Sign verification
1. e1 creates/loads key
2. e1 exports key
3. e2 imports key
2. e1 signs message
3. e2 verifies message
eX == entityX
'''
keyfile, src, output = reg_workfiles(self.test_id, '.gpg', '.in', '.out')
random_text(src, 0x1337)
if not self.operation_key_location and not self.operation_key_gencmd:
print(self.operation_key_gencmd)
raise RuntimeError("key not found")
if self.operation_key_location:
self.assertTrue(e1.import_key(self.operation_key_location[0]))
self.assertTrue(e1.import_key(self.operation_key_location[1], True))
else:
self.assertTrue(e1.generate_key_batch(self.operation_key_gencmd))
self.assertTrue(e1.export_key(keyfile, False))
self.assertTrue(e2.import_key(keyfile))
self.assertEqual(e1.sign(output, src), not failsign)
self.assertEqual(e2.verify(output), not failver)
clear_workfiles()
def setUp(self):
KeyLocationChooserMixin.__init__(self)
self.rnp = Rnp(RNPDIR, RNP, RNPK)
self.gpg = GnuPG(GPGHOME, GPG)
self.rnp.password = self.gpg.password = PASSWORD
self.rnp.userid = self.gpg.userid = self.test_id + AT_EXAMPLE
@classmethod
def tearDownClass(cls):
clear_keyrings()
class SignECDSA(Sign):
# {0} must be replaced by ID of the curve 3,4 or 5 (NIST-256,384,521)
#CURVES = ["NIST P-256", "NIST P-384", "NIST P-521"]
GPG_GENERATE_ECDSA_PATTERN = """
Key-Type: ecdsa
Key-Curve: {0}
Key-Usage: sign auth
Name-Real: Test Testovich
Expire-Date: 1y
Preferences: twofish sha512 zlib
Name-Email: {1}"""
# {0} must be replaced by ID of the curve 1,2 or 3 (NIST-256,384,521)
RNP_GENERATE_ECDSA_PATTERN = "19\n{0}\n"
def test_sign_P256(self):
cmd = SignECDSA.RNP_GENERATE_ECDSA_PATTERN.format(1)
self.operation_key_gencmd = cmd
self._sign_verify(self.rnp, self.gpg)
def test_sign_P384(self):
cmd = SignECDSA.RNP_GENERATE_ECDSA_PATTERN.format(2)
self.operation_key_gencmd = cmd
self._sign_verify(self.rnp, self.gpg)
def test_sign_P521(self):
cmd = SignECDSA.RNP_GENERATE_ECDSA_PATTERN.format(3)
self.operation_key_gencmd = cmd
self._sign_verify(self.rnp, self.gpg)
def test_verify_P256(self):
cmd = SignECDSA.GPG_GENERATE_ECDSA_PATTERN.format("nistp256", self.rnp.userid)
self.operation_key_gencmd = cmd
self._sign_verify(self.gpg, self.rnp)
def test_verify_P384(self):
cmd = SignECDSA.GPG_GENERATE_ECDSA_PATTERN.format("nistp384", self.rnp.userid)
self.operation_key_gencmd = cmd
self._sign_verify(self.gpg, self.rnp)
def test_verify_P521(self):
cmd = SignECDSA.GPG_GENERATE_ECDSA_PATTERN.format("nistp521", self.rnp.userid)
self.operation_key_gencmd = cmd
self._sign_verify(self.gpg, self.rnp)
def test_hash_truncation(self):
'''
Signs message hashed with SHA512 with a key of size 256. Implementation
truncates leftmost 256 bits of a hash before signing (see FIPS 186-4, 6.4)
'''
cmd = SignECDSA.RNP_GENERATE_ECDSA_PATTERN.format(1)
rnp = self.rnp.copy()
rnp.hash = 'SHA512'
self.operation_key_gencmd = cmd
self._sign_verify(rnp, self.gpg)
class SignDSA(Sign):
# {0} must be replaced by ID of the curve 3,4 or 5 (NIST-256,384,521)
#CURVES = ["NIST P-256", "NIST P-384", "NIST P-521"]
GPG_GENERATE_DSA_PATTERN = """
Key-Type: dsa
Key-Length: {0}
Key-Usage: sign auth
Name-Real: Test Testovich
Expire-Date: 1y
Preferences: twofish sha256 sha384 sha512 sha1 zlib
Name-Email: {1}"""
# {0} must be replaced by ID of the curve 1,2 or 3 (NIST-256,384,521)
RNP_GENERATE_DSA_PATTERN = "17\n{0}\n"
@staticmethod
def key_pfx(p): return "GnuPG_dsa_elgamal_%d_%d" % (p, p)
def do_test_sign(self, p_size):
pfx = SignDSA.key_pfx(p_size)
self.operation_key_location = tuple((key_path(pfx, False), key_path(pfx, True)))
self.rnp.userid = self.gpg.userid = pfx + AT_EXAMPLE
# DSA 1024-bit key uses SHA-1 so verification would not fail till 2024
self._sign_verify(self.rnp, self.gpg)
def do_test_verify(self, p_size):
pfx = SignDSA.key_pfx(p_size)
self.operation_key_location = tuple((key_path(pfx, False), key_path(pfx, True)))
self.rnp.userid = self.gpg.userid = pfx + AT_EXAMPLE
# DSA 1024-bit key uses SHA-1, but verification would fail since SHA1 is used by GnuPG
self._sign_verify(self.gpg, self.rnp, False, p_size <= 1024)
def test_sign_P1024_Q160(self): self.do_test_sign(1024)
def test_sign_P2048_Q256(self): self.do_test_sign(2048)
def test_sign_P3072_Q256(self): self.do_test_sign(3072)
def test_sign_P2112_Q256(self): self.do_test_sign(2112)
def test_verify_P1024_Q160(self): self.do_test_verify(1024)
def test_verify_P2048_Q256(self): self.do_test_verify(2048)
def test_verify_P3072_Q256(self): self.do_test_verify(3072)
def test_verify_P2112_Q256(self): self.do_test_verify(2112)
def test_sign_P1088_Q224(self):
self.operation_key_gencmd = SignDSA.RNP_GENERATE_DSA_PATTERN.format(1088)
self._sign_verify(self.rnp, self.gpg)
def test_verify_P1088_Q224(self):
self.operation_key_gencmd = SignDSA.GPG_GENERATE_DSA_PATTERN.format("1088", self.rnp.userid)
self._sign_verify(self.gpg, self.rnp)
def test_hash_truncation(self):
'''
Signs message hashed with SHA512 with a key of size 160 bits. Implementation
truncates leftmost 160 bits of a hash before signing (see FIPS 186-4, 4.2)
'''
rnp = self.rnp.copy()
rnp.hash = 'SHA512'
self.operation_key_gencmd = SignDSA.RNP_GENERATE_DSA_PATTERN.format(1024)
self._sign_verify(rnp, self.gpg)
class EncryptSignRSA(Encrypt, Sign):
GPG_GENERATE_RSA_PATTERN = """
Key-Type: rsa
Key-Length: {0}
Key-Usage: sign auth
Subkey-Type: rsa
Subkey-Length: {0}
Subkey-Usage: encrypt
Name-Real: Test Testovich
Expire-Date: 1y
Preferences: twofish sha256 sha384 sha512 sha1 zlib
Name-Email: {1}"""
RNP_GENERATE_RSA_PATTERN = "1\n{0}\n"
@staticmethod
def key_pfx(p): return "GnuPG_rsa_%d_%d" % (p, p)
def do_encrypt_verify(self, key_size):
pfx = EncryptSignRSA.key_pfx(key_size)
self.operation_key_location = tuple((key_path(pfx, False), key_path(pfx, True)))
self.rnp.userid = self.gpg.userid = pfx + AT_EXAMPLE
self._encrypt_decrypt(self.gpg, self.rnp)
self._sign_verify(self.gpg, self.rnp)
def do_rnp_decrypt_sign(self, key_size):
pfx = EncryptSignRSA.key_pfx(key_size)
self.operation_key_location = tuple((key_path(pfx, False), key_path(pfx, True)))
self.rnp.userid = self.gpg.userid = pfx + AT_EXAMPLE
self._encrypt_decrypt(self.rnp, self.gpg)
self._sign_verify(self.rnp, self.gpg)
def test_rnp_encrypt_verify_1024(self): self.do_encrypt_verify(1024)
def test_rnp_encrypt_verify_2048(self): self.do_encrypt_verify(2048)
def test_rnp_encrypt_verify_4096(self): self.do_encrypt_verify(4096)
def test_rnp_decrypt_sign_1024(self): self.do_rnp_decrypt_sign(1024)
def test_rnp_decrypt_sign_2048(self): self.do_rnp_decrypt_sign(2048)
def test_rnp_decrypt_sign_4096(self): self.do_rnp_decrypt_sign(4096)
def setUp(self):
Encrypt.setUp(self)
@classmethod
def tearDownClass(cls):
Encrypt.tearDownClass()
def test_suites(tests):
if hasattr(tests, '__iter__'):
for x in tests:
for y in test_suites(x):
yield y
else:
yield tests.__class__.__name__
# Main thinghy
if __name__ == '__main__':
main = unittest.main
if not hasattr(main, 'USAGE'):
main.USAGE = ''
main.USAGE += ''.join([
"\nRNP test client specific flags:\n",
" -w,\t\t Don't remove working directory\n",
" -d,\t\t Enable debug messages\n"])
LEAVE_WORKING_DIRECTORY = ("-w" in sys.argv)
if LEAVE_WORKING_DIRECTORY:
# -w must be removed as unittest doesn't expect it
sys.argv.remove('-w')
else:
LEAVE_WORKING_DIRECTORY = os.getenv('RNP_KEEP_TEMP') is not None
LVL = logging.INFO
if "-d" in sys.argv:
sys.argv.remove('-d')
LVL = logging.DEBUG
# list suites
if '-ls' in sys.argv:
tests = unittest.defaultTestLoader.loadTestsFromModule(sys.modules[__name__])
for suite in set(test_suites(tests)):
print(suite)
sys.exit(0)
setup(LVL)
res = main(exit=False)
if not LEAVE_WORKING_DIRECTORY:
try:
if RMWORKDIR:
shutil.rmtree(WORKDIR)
else:
shutil.rmtree(RNPDIR)
shutil.rmtree(GPGDIR)
except Exception:
# Ignore exception if something cannot be deleted
pass
sys.exit(not res.result.wasSuccessful())
|