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authorJack Lloyd <[email protected]>2017-05-27 08:46:15 -0400
committerJack Lloyd <[email protected]>2017-05-27 08:46:15 -0400
commitce5253938fd5df031db1ee1cb7443c685fd8746e (patch)
tree8a2ffdb067d589d30678e931c101f461c085431c /src/lib/pbkdf/pgp_s2k
parent360769bc65057ac44013f93a25ff9a06d971acae (diff)
Document that timed calibration is not available for PGP-S2K
Made a try at implementing it but its a huge pain due to the combination of the iteration count being the byte count and that we have to end on exactly an encodable iteration count.
Diffstat (limited to 'src/lib/pbkdf/pgp_s2k')
-rw-r--r--src/lib/pbkdf/pgp_s2k/pgp_s2k.cpp55
-rw-r--r--src/lib/pbkdf/pgp_s2k/pgp_s2k.h7
2 files changed, 51 insertions, 11 deletions
diff --git a/src/lib/pbkdf/pgp_s2k/pgp_s2k.cpp b/src/lib/pbkdf/pgp_s2k/pgp_s2k.cpp
index d8b5d770e..7677c4e96 100644
--- a/src/lib/pbkdf/pgp_s2k/pgp_s2k.cpp
+++ b/src/lib/pbkdf/pgp_s2k/pgp_s2k.cpp
@@ -9,6 +9,46 @@
namespace Botan {
+/*
+PGP stores the iteration count as a single byte
+Thus it can only actually take on one of 256 values, based on the
+formula in RFC 4880 section 3.6.1.3
+*/
+static const uint32_t OPENPGP_S2K_ITERS[256] = {
+ 1024, 1088, 1152, 1216, 1280, 1344, 1408, 1472, 1536, 1600,
+ 1664, 1728, 1792, 1856, 1920, 1984, 2048, 2176, 2304, 2432,
+ 2560, 2688, 2816, 2944, 3072, 3200, 3328, 3456, 3584, 3712,
+ 3840, 3968, 4096, 4352, 4608, 4864, 5120, 5376, 5632, 5888,
+ 6144, 6400, 6656, 6912, 7168, 7424, 7680, 7936, 8192, 8704,
+ 9216, 9728, 10240, 10752, 11264, 11776, 12288, 12800, 13312,
+ 13824, 14336, 14848, 15360, 15872, 16384, 17408, 18432, 19456,
+ 20480, 21504, 22528, 23552, 24576, 25600, 26624, 27648, 28672,
+ 29696, 30720, 31744, 32768, 34816, 36864, 38912, 40960, 43008,
+ 45056, 47104, 49152, 51200, 53248, 55296, 57344, 59392, 61440,
+ 63488, 65536, 69632, 73728, 77824, 81920, 86016, 90112, 94208,
+ 98304, 102400, 106496, 110592, 114688, 118784, 122880, 126976,
+ 131072, 139264, 147456, 155648, 163840, 172032, 180224, 188416,
+ 196608, 204800, 212992, 221184, 229376, 237568, 245760, 253952,
+ 262144, 278528, 294912, 311296, 327680, 344064, 360448, 376832,
+ 393216, 409600, 425984, 442368, 458752, 475136, 491520, 507904,
+ 524288, 557056, 589824, 622592, 655360, 688128, 720896, 753664,
+ 786432, 819200, 851968, 884736, 917504, 950272, 983040, 1015808,
+ 1048576, 1114112, 1179648, 1245184, 1310720, 1376256, 1441792,
+ 1507328, 1572864, 1638400, 1703936, 1769472, 1835008, 1900544,
+ 1966080, 2031616, 2097152, 2228224, 2359296, 2490368, 2621440,
+ 2752512, 2883584, 3014656, 3145728, 3276800, 3407872, 3538944,
+ 3670016, 3801088, 3932160, 4063232, 4194304, 4456448, 4718592,
+ 4980736, 5242880, 5505024, 5767168, 6029312, 6291456, 6553600,
+ 6815744, 7077888, 7340032, 7602176, 7864320, 8126464, 8388608,
+ 8912896, 9437184, 9961472, 10485760, 11010048, 11534336,
+ 12058624, 12582912, 13107200, 13631488, 14155776, 14680064,
+ 15204352, 15728640, 16252928, 16777216, 17825792, 18874368,
+ 19922944, 20971520, 22020096, 23068672, 24117248, 25165824,
+ 26214400, 27262976, 28311552, 29360128, 30408704, 31457280,
+ 32505856, 33554432, 35651584, 37748736, 39845888, 41943040,
+ 44040192, 46137344, 48234496, 50331648, 52428800, 54525952,
+ 56623104, 58720256, 60817408, 62914560, 65011712 };
+
//static
uint8_t OpenPGP_S2K::encode_count(size_t desired_iterations)
{
@@ -17,17 +57,18 @@ uint8_t OpenPGP_S2K::encode_count(size_t desired_iterations)
*/
for(size_t c = 0; c < 256; ++c)
{
- size_t decoded_iter = OpenPGP_S2K::decode_count(c);
+ size_t decoded_iter = OPENPGP_S2K_ITERS[c];
if(decoded_iter >= desired_iterations)
return c;
}
+
+ return 255;
}
//static
size_t OpenPGP_S2K::decode_count(uint8_t iter)
{
- // See RFC 4880 section 3.7.1.3
- return (16 + (iter & 0x0F)) << ((iter >> 4) + 6);
+ return OPENPGP_S2K_ITERS[iter];
}
size_t OpenPGP_S2K::pbkdf(uint8_t output_buf[], size_t output_len,
@@ -51,11 +92,6 @@ size_t OpenPGP_S2K::pbkdf(uint8_t output_buf[], size_t output_len,
passphrase.size());
}
- /*
- The input is always fully processed even if iterations is very small
- */
- const size_t to_hash = std::max(iterations, input_buf.size());
-
secure_vector<uint8_t> hash_buf(m_hash->output_length());
size_t pass = 0;
@@ -70,7 +106,8 @@ size_t OpenPGP_S2K::pbkdf(uint8_t output_buf[], size_t output_len,
std::vector<uint8_t> zero_padding(pass);
m_hash->update(zero_padding);
- size_t left = to_hash;
+ // The input is always fully processed even if iterations is very small
+ size_t left = std::max(iterations, input_buf.size());
while(left > 0)
{
const size_t input_to_take = std::min(left, input_buf.size());
diff --git a/src/lib/pbkdf/pgp_s2k/pgp_s2k.h b/src/lib/pbkdf/pgp_s2k/pgp_s2k.h
index 3d85ba306..7d8e60a82 100644
--- a/src/lib/pbkdf/pgp_s2k/pgp_s2k.h
+++ b/src/lib/pbkdf/pgp_s2k/pgp_s2k.h
@@ -21,8 +21,11 @@ namespace Botan {
* If the salt is non-empty and iterations == 1, "salted" S2K is used
* If the salt is non-empty and iterations > 1, "iterated" S2K is used
*
-* If iterations == 0 and msec.count() > 0, "iterated" S2K is assumed,
-* and the number of iterations performed is returned.
+* Due to complexities of the PGP S2K algorithm, time-based derivation
+* is not supported. So if iterations == 0 and msec.count() > 0, an
+* exception is thrown. In the future this may be supported, in which
+* case "iterated" S2K will be used and the number of iterations
+* performed is returned.
*
* Note that unlike PBKDF2, OpenPGP S2K's "iterations" are defined as
* the number of bytes hashed.