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ed448goldilocks/HISTORY.txt

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  1. October 13, 2017:

  2.     OK, back to preparations for 1.0, today with major changes.

  3.     

  4.     Another group (Isis Lovecruft and Henry de Valence) implemented

  5.     Decaf for Ed25519, whereas this code was implemented for IsoEd25519.

  6.     

  7.     These curves are isogenous, but not exactly the same, so the

  8.     encodings all came out differently.

  9.      

  10.     To harmonize these two so that there is only one implementation

  11.     for Ed25519, we've hammered out a compromise implementation called

  12.     Ristretto.  This is different from the old Decaf encoding in two

  13.     major ways:

  14.         * It checks the sign of x on Ed25519 instead of IsoEd25519.

  15.         * It considers a number "negative" if its low bit is set,

  16.           instead of its high bit.

  17.     

  18.     To avoid extra branches in the code, Ed448Goldilocks is also

  19.     getting these changes to match Ristretto.

  20.     

  21.     The C++ class is also renamed to Ristretto, but IsoEd25519 is a

  22.     synonym for that class.

  23.     

  24.     We might need to check the high bit again instead of low bit if

  25.     E-521 is ever implemented, but I'll special case it then.

  26. 

  27. April 22, 2017:

  28.     Remove STROBE in preparation for 1.0 release.  STROBE has its own

  29.     repo now at https://strobe.sourceforge.io.  I might re-integrate

  30.     it into Decaf once I have produced a version that matches the

  31.     STROBE v1 spec, but it's just confusing to keep v0.2 in here.

  32.     

  33.     Change x{25519,448}_generate_key to _derive_public_key.

  34. 

  35. January 15, 2016:

  36.     Lots of changes since the last entry in HISTORY.TXT.

  37.     

  38.     Pushing eventually toward a 1.0 release, at least for the curves

  39.     themselves (i.e. not for STROBE), still a fair amount of stuff to

  40.     do.

  41.     

  42.     I have pretty much all the functions I want implemented, except

  43.     that maybe there should be a compatibility mode for whatever CFRG

  44.     decides the real life format should be.

  45.     

  46.     The library now supports multiple curves at once.  A decaffeinated

  47.     curve isogenous to Curve25519 is now supported, but not especially

  48.     fast.  This is all still a little rough around the edges.  To make

  49.     it work in a sane way, most of the headers are generated using

  50.     Python templates.  Probably those should be turned back into .h

  51.     files for syntax hilighting purposes; the code generation system

  52.     in general needs quite a tuneup.

  53.     

  54.     The plus side is that this reduces the source code size, especially

  55.     for supporting many curves over many fields.

  56.     

  57.     Currently the code only kind of halfway works on ARM, and not as

  58.     fast as it used to (on NEON anyway), by maybe 15-20%.  I'm

  59.     investigating why.  It's about as fast as it used to be on x86,

  60.     maybe a hair slower.

  61.     

  62.     Montgomery ladder is currently out.  Putting it back in might help

  63.     pin down the ARM NEON performance regression.

  64. 

  65.     The BAT is currently broken.

  66.     

  67.     Tracking at 55 TODO items, about half of which are important-ish.

  68.     Source code size is currently 12.8k wc-lines, including tests and

  69.     old fields (p480 and p521).  I'm still trying to get that down, but

  70.     with things like 600 lines of NEON f_impl.c, that's not an easy task.

  71. 

  72. April 23, 2015:

  73.     Removed the original Goldilocks code; Decaf now stands on its own.

  74.     This cuts the source code approximately in half, to a still-large

  75.     13.7k wc-lines.  (Most of these lines are in the arch-specific

  76.     field implementations.)

  77.     

  78.     Note that the decaf_crypto routines are not intended to set

  79.     standards.  They should be secure, but they're intended more as

  80.     examples of how the core ECC library could be used.

  81.     

  82.     The SHAKE stuff is also mostly an experiment, particularly the

  83.     STROBE protocol/mode stuff.  This is all fine, because the ECC

  84.     library itself is the core, and doesn't require the SHAKE stuff.

  85.     (Except for the C++ header, which should probably also be factored

  86.     so that it doesn't need the SHAKE stuff.)

  87.     

  88.     I've started work on making a Decaf BAT, but not done yet.

  89.     

  90.     I haven't ripped out all old multi-field code, because I intend

  91.     to add support for other fields eventually.  Maybe properly this

  92.     time, instead of with a million compile flags like the original.

  93. 

  94. March 23, 2015:

  95.     I've been fleshing out Decaf, and hopefully the API is somewhere

  96.     near final.  I will probably move a few things around and add a

  97.     scalar inversion command (for AugPAKE and such).

  98.     

  99.     I've built a "decaf_fast" implementation which is about as fast as

  100.     Goldilocks, except that verification still isn't as fast, because

  101.     it needs a precomputed wNAF table which I haven't implemented yet.

  102.     Precomputation is noticeably faster than in Goldilocks; while

  103.     neither is especially optimized, the extended point format works

  104.     slightly better for that purpose.

  105.     

  106.     While optimizing decaf_fast I also found a minor perf problem in

  107.     the constant time lookup code, so that's fixed (I hope?) and

  108.     everything is faster at least on my test machine.

  109.     

  110.     At some point soon-ish, I'd like to start removing the base

  111.     Goldilocks code from this branch.  That will require porting more

  112.     of the tests.  I might make a C++ header for Decaf, which would

  113.     definitely simplify testing.

  114. 

  115. March 1, 2015:

  116.     While by no means complete or stable, I've done most of the ground

  117.     work to implement the "Decaf" point encoding.  This point encoding

  118.     essentially divides the cofactor by 4, turning Goldilocks (or

  119.     Ridinghood or E-521) into a prime-order group.  Furthermore, like

  120.     the Goldilocks encoding, this encoding avoids incompleteness in

  121.     the twisted Edwards formulas with a=-1 by sticking to the order-2q

  122.     subgroup.

  123. 

  124.     Because the group is prime order, and because the "isogeny strategy"

  125.     is not needed, the decaf API can be very simple.  I'm still working

  126.     on exactly what it should be though.  The goal is to have a single-

  127.     file (or a few files) for a "ref" version, which is designed for

  128.     auditability.  The ref version won't be quite so simple as TweetNaCl,

  129.     but nearly so simple and much better commented.  Then there can also

  130.     be an optimized version, perhaps per-platform, which is as fast as

  131.     the original Goldilocks code but hopefully still simpler.

  132. 

  133.     I'm experimenting with SHAKE as the hash function here.  Possibly I

  134.     will also add Keyak as an encryption primitive, so that everything

  135.     can be based on Keccak-f, but I'm open to suggestions.  For example,

  136.     if there's a way to make BLAKE2 as simple and useful as SHAKE

  137.     (including in oversized curves like E-521), then the extra speed

  138.     would certainly be welcome.

  139. 

  140. October 27, 2014:

  141.     Added more support for >512-bit primes.  Changed shared secret

  142.     to not overflow the buffer in this case.  Changed hashing to

  143.     SHA512-PRNG; this doesn't change the behavior in the case that

  144.     only one block is required.

  145. 

  146.     E-521 appears to be working.  Needs more testing, and maybe some

  147.     careful analysis since the carry-handling bounds are awfully tight

  148.     under the current analysis (the "< 5<<57" that it #if0 asserts is

  149.     not actually tight enough under the current analysis; need

  150.     it to be < (1+epsilon) << 59).

  151.     

  152.     So you actually do need to reduce often, at least in the x86_64_r12

  153.     version.

  154.     

  155.     p521/arch_ref64: simple and relatively slow impl.  Like

  156.     p448/arch_ref64, this arch reduces after every add or sub.

  157.     

  158.     p521/arch_x86_64_r12: aggressive, fast implementation.  This impl

  159.     stores 521 bits not in 9 limbs, but 12!  Limbs 3,7,11 are 0, and

  160.     are there only for vector alignment.  (TODO: remove those limbs

  161.     from precomputed tables, so that we don't have to look them up!).

  162.     The carry handling on this build is very tight, and probably could

  163.     stand more analysis.  This is why I have the careful balancing of

  164.     "hexad" and "nonad" multiplies in its Chung-Hasan mul routine.

  165.     

  166.     (TODO: reconsider whether this is even worthwhile on machines

  167.     without AVX2.)

  168.     

  169.     The 'r12 build is a work in progress, and currently only works on

  170.     clang (because it rearranges vectors in the timesW function).

  171.     

  172.     Timings for the fast, aggressive arch on Haswell:

  173.         mul:    146cy

  174.         sqr:    111cy

  175.         invert: 62kcy

  176.         

  177.         keygen: 270kcy

  178.         ecdh:   803kcy

  179.         sign:   283kcy

  180.         verif:  907kcy

  181.         

  182.     Same rules as other Goldi benchmarks.  Turbo off, HT off,

  183.     timing-channel protected (no dataflow from secrets to branches,

  184.     memory lookups or known vt instructions), compressed points.

  185.     

  186. 

  187. October 23, 2014:

  188.     Pushing through changes for curve flexibility.  First up is

  189.     Ed480-Ridinghood, because it has the same number of words.  Next

  190.     is E-521.

  191.     

  192.     Experimental support for Ed480-Ridinghood.  To use, compile with

  193.         make ... FIELD=p480 -XCFLAGS=-DGOLDI_FIELD_BITS=480

  194.     

  195.     I still need to figure out what to do about the fact that the library

  196.     is called "goldilocks", but in will soon support curves that are not

  197.     ed448-goldilocks, at least experimentally.

  198.         

  199.     Currently the whole system's header "goldilocks.h" doesn't have

  200.     a simpler way to override field size, but it does work (as a hack)

  201.     with -DGOLDI_FIELD_BITS=...

  202.     

  203.     There is no support yet for coexistence of multiple fields in one

  204.     library.  The field routines will have unique names, but scalarmul*

  205.     won't, and the top-level goldilocks routines have fixed names.

  206.     

  207.     Current timings on Haswell:

  208.         Goldilocks: 178kcy keygen, 536kcy ecdh

  209.         Ridinghood: 193kcy keygen, 617kcy ecdh

  210.     

  211.     Note that Ridinghood ECDH does worse than 480/448.  This is at least

  212.     in part because I haven't calculated the overflow handling limits yet

  213.     in ec_point.h (this is a disadvantage of dropping the automated

  214.     tool for generating that file).  So I'm reducing much more often

  215.     than I need to.  (There's a really loud TODO in ec_point.h for that.)

  216.     

  217.     Also, I haven't tested the limits on these reductions in a while, so

  218.     it could be that there are actual (security-critical) bugs in this

  219.     area, at least for p448.  Now that there's field flexibility, it's

  220.     probably a good idea to make a field impl with extra words to check

  221.     this.

  222.     

  223.     Furthermore, field_mulw_scc will perform differently on these two

  224.     curves based on whether the curve constant is positive or negative.

  225.     I should probably go optimize the "hot" routines like montgomery_step

  226.     to have separate cases for positive and negative.

  227. 

  228. September 29, 2014:

  229.     Yesterday I put in some more architecture detection, but it should

  230.     really be based on the arch directory, because what's in there really

  231.     was a terrible hack.  So I've changed it to use $arch/arch_config.h

  232.     to get WORD_BITS.

  233.     

  234.     I've tweaked the eBAT construction code to rename the architectures

  235.     using test/batarch.map.  Maybe I should also rename them internally,

  236.     but not yet.

  237.     

  238.     I added some new TODO.txt items.  Some folks have been asking for a

  239.     more factored library, instead of this combined arithmetic, curve code,

  240.     encodings and protocol all-in-one jumble.  Likewise the hash and RNG

  241.     should be flexible.

  242.     

  243.     I've also been meaning to put more work in on SPAKE2EE, which would

  244.     also mean finalizing the Elligator code.

  245. 

  246. September 18, 2014:

  247.     Begin work on a "ref" implementation.  Currently this is just the

  248.     arch_ref64 architecture.  The ref implementation always weak_reduces

  249.     after arithmetic, and doesn't use vectors or other hackery.  Currently

  250.     it still must declare field elements as vector aligned, though,

  251.     other code outside the arch directory can be vectorized.

  252. 

  253.     Change goldilocks.c to use field_eq instead of calling deep into field

  254.     apis.

  255. 

  256. September 6, 2014:

  257.     Pull in minor changes from David Leon Gil and Nicholas Wilson, with

  258.     some adjustments.  I hope the adjustments don't break their compiles.

  259. 

  260.     `make bat` now makes a bat which passes supercop-fastbuild, though

  261.     the benchmarks are rather different from `make bench`.  I need to track

  262.     down why.

  263. 

  264. August 4, 2014:

  265.     Experiments and bug fixes.

  266. 

  267.     Add really_memset = memset_s (except not because I'm setting -std=c99),

  268.     thanks David Leon Gil.  I think I put it in the right places.

  269. 

  270.     Try to work around what I think is a compiler bug in GCC -O3 on non-AVX

  271.     platforms.  I can't seem to work around it as -Os, so I'm just flagging

  272.     a warning (-Werror makes it an error) for now.  Will take more

  273.     investigation.  Thanks Samuel Neves.

  274. 

  275.     Added an experimental (not ready yet!) ARM NEON implementation in

  276.     arch_neon_experimental.  This implementation seems to work, but needs

  277.     more testing.  It is currently asm-heavy and not GCC clean.  I am

  278.     planning to have a flag for it to use intrinsics instead of asm;

  279.     currently the intrinsics are commented out.  On clang this does ECDH

  280.     in 1850kcy on my BeagleBone Black, comparable to Curve41417.  Once this

  281.     is ready, I will probably move it to arch_neon proper, since arch_neon

  282.     isn't particularly tuned.

  283. 

  284. July 11, 2014:

  285.     This is mostly a cleanup release.

  286. 

  287.     Added CRANDOM_MIGHT_IS_MUST config flag (default: 1).  When set, this

  288.     causes crandom to assume that all features in the target arch will

  289.     be available, instead of detecting them.  This makes sense because

  290.     the rest of the Goldilocks code is not (yet?) able to detect features.

  291.     Also, I'd like to submit this to SUPERCOP eventually, and SUPERCOP won't

  292.     pass -DMUST_HAVE_XXX on the command line the way the Makefile here did.

  293.     

  294.     Flag EXPERIMENT_CRANDOM_BUFFER_CUTOFF_BYTES to disable the crandom

  295.     output buffer.  This buffer improves performance (very marginally at

  296.     Goldilocks sizes), but can cause problems with forking and VM

  297.     snapshotting.  By default, the buffer is now disabled.

  298.     

  299.     I've slightly tweaked the Elligator implementation (which is still

  300.     unused) to make it easier to invert.  This makes anything using Elligator

  301.     (i.e. nothing) incompatible with previous releases.

  302.     

  303.     I've been factoring "magic" constants such as curve orders, window sizes,

  304.     etc into a few headers, to reduce the effort to port the code to other

  305.     primes, curves, etc.  For example, I could test the Microsoft curves, and

  306.     something like:

  307.         x^2 + y^2 = 1 +- 5382[45] x^2 y^2 mod 2^480-2^240-1

  308.     ("Goldeneye"? "Ridinghood"?) might be a reasonable thing to try for

  309.     64-bit CPUs.

  310.     

  311.     In a similar vein, most of the internal code has been changed to say

  312.     "field" instead of p448, so that a future version of magic.h can decide

  313.     which field header to include.

  314.     

  315.     You can now `make bat` to create an eBAT in build/ed448-goldilocks.  This

  316.     is only minimally tested, though, because SUPERCOP doesn't work on my

  317.     machine and I'm too lazy to reverse engineer it.  It sets a new macro,

  318.     SUPERCOP_WONT_LET_ME_OPEN_FILES, which causes goldilocks_init() to fall

  319.     back to something horribly insecure if crandom_init_from_file raises

  320.     EMFILE.

  321.     

  322.     Slightly improved documentation.

  323.     

  324.     Removed some old commented-out code; restored the /* C-style */ comment

  325.     discipline.

  326.     

  327.     The AMD-64 version should now be GCC clean, at least for reasonably

  328.     recent GCC (tested on OS X.9.3, Haswell, gcc-4.9).

  329.     

  330.     History no longer says "2104".

  331. 

  332. May 3, 2014:

  333.     Minor changes to internal routines mean that this version is not

  334.     compatible with the previous one.

  335. 

  336.     Added ARM NEON code.

  337.     

  338.     Added the ability to precompute multiples of a partner's public key.  This

  339.     takes slightly longer than a signature verification, but reduces future

  340.     verifications with the precomputed key by ~63% and ECDH by ~70%.

  341.     

  342.         goldilocks_precompute_public_key

  343.         goldilocks_destroy_precomputed_public_key

  344.         goldilocks_verify_precomputed

  345.         goldilocks_shared_secret_precomputed

  346.     

  347.     The precomputation feature are is protected by a macro

  348.         GOLDI_IMPLEMENT_PRECOMPUTED_KEYS

  349.     which can be #defined to 0 to compile these functions out.  Unlike most

  350.     of Goldilocks' functions, goldilocks_precompute_public_key uses malloc()

  351.     (and goldilocks_destroy_precomputed_public_key uses free()).

  352.     

  353.     Changed private keys to be derived from just the symmetric part.  This

  354.     means that you can compress them to 32 bytes for cold storage, or derive

  355.     keypairs from crypto secrets from other systems.

  356.         goldilocks_derive_private_key

  357.         goldilocks_underive_private_key

  358.         goldilocks_private_to_public

  359.     

  360.     Fixed a number of bugs related to vector alignment on Sandy Bridge, which

  361.     has AVX but uses SSE2 alignment (because it doesn't have AVX2).  Maybe I

  362.     should just switch it to use AVX2 alignment?

  363.     

  364.     Beginning to factor out curve-specific magic, so as to build other curves

  365.     with the Goldilocks framework.  That would enable fair tests against eg

  366.     E-521, Ed25519 etc.  Still would be a lot of work.

  367.     

  368.     More thorough testing of arithmetic.  Now uses GMP for testing framework,

  369.     but not in the actual library.

  370.     

  371.     Added some high-level tests for the whole library, including some (bs)

  372.     negative testing.  Obviously, effective negative testing is a very difficult

  373.     proposition in a crypto library.

  374. 

  375. March 29, 2014:

  376.     Added a test directory with various tests.  Currently testing SHA512 Monte

  377.     Carlo, compatibility of the different scalarmul functions, and some

  378.     identities on EC point ops.  Began moving these tests out of benchmarker.

  379.     

  380.     Added scan-build support.

  381.     

  382.     Improved some internal interfaces.  Made a structure for Barrett primes

  383.     instead of passing parameters individually.  Moved some field operations

  384.     to places that make more sense, eg Barrett serialize and deserialize.  The

  385.     deserialize operation now checks that its argument is in [0,q).

  386.     

  387.     Added more documentation.

  388.     

  389.     Changed the names of a bunch of functions.  Still not entirely consistent,

  390.     but getting more so.

  391.     

  392.     Some minor speed improvements.  For example, multiply is now a couple cycles

  393.     faster.

  394.     

  395.     Added a hackish attempt at thread-safety and initialization sanity checking

  396.     in the Goldilocks top-level routines.

  397.     

  398.     Fixed some vector alignment bugs.  Compiling with -O0 should now work.

  399.     

  400.     Slightly simplified recode_wnaf.

  401. 

  402.     Add a config.h file for future configuration.  EXPERIMENT flags moved here.

  403.     

  404.     I've decided against major changes to SHA512 for the moment.  They add speed

  405.     but also significantly bloat the code, which is going to hurt L1 cache

  406.     performance.  Perhaps we should link to OpenSSL if a faster SHA512 is desired.

  407.     

  408.     Reorganize the source tree into src, test; factor arch stuff into src/arch_*.

  409.     

  410.     Make most of the code 32-bit clean.  There's now a 32-bit generic and 32-bit

  411.     vectorless ARM version.  No NEON version yet because I don't have a test

  412.     machine (could use my phone in a pinch I guess?).  The 32-bit version still

  413.     isn't heavily optimized, but on ARM it's using a nicely reworked signed/phi-adic

  414.     multiplier.  The squaring is also based on this, but could really stand some

  415.     improvement.

  416.     

  417.     When passed an even exponent (or extra doubles), the Montgomery ladder should

  418.     now be accept points if and only if they lie on the curve.  This needs

  419.     additional testing, but it passes the zero bit exponent test.

  420.     

  421.     On 32-bit, use 8x4x14 instead of 5x5x18 table organization.  Probably there's

  422.     a better heuristic.

  423. 

  424. March 5, 2014:

  425.     First revision.

  426.     

  427.     Private keys are now longer.  They now store a copy of the public key, and

  428.     a secret symmetric key for signing purposes.

  429.     

  430.     Signatures are now supported, though like everything else in this library,

  431.     their format is not stable.  They use a deterministic Schnorr mode,

  432.     similar to EdDSA.  Precomputed low-latency signing is not supported (yet?).

  433.     The hash function is SHA-512.

  434.     

  435.     The deterministic hashing mode needs to be changed to HMAC (TODO!).  It's

  436.     currently envelope-MAC.

  437.     

  438.     Probably in the future there will be a distinction between ECDH key and

  439.     signing keys (and possibly also MQV keys etc).

  440.     

  441.     Began renaming internal functions.  Removing p448_ prefixes from EC point

  442.     operations.  Trying to put the verb first.  For example,

  443.     "p448_isogeny_un_to_tw" is now called "twist_and_double".

  444.     

  445.     Began documenting with Doxygen.  Use "make doc" to make a very incomplete

  446.     documentation directory.

  447.     

  448.     There have been many other internal changes.

  449. 

  450. Feb 21, 2014:

  451.     Initial import and benchmarking scripts.

  452.     

  453.     Keygen and ECDH are implemented, but there's no hash function.