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[ed25519 ](https://ed25519.cr.yp.to ) is an
[Elliptic Curve Digital Signature Algortithm ](https://en.wikipedia.org/wiki/Elliptic_Curve_Digital_Signature_Algorithm ),
developed by [Dan Bernstein ](https://cr.yp.to/djb.html ),
[Niels Duif ](https://www.nielsduif.nl ),
[Tanja Lange ](https://hyperelliptic.org/tanja ),
[Peter Schwabe ](https://cryptojedi.org/peter ),
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and [Bo-Yin Yang ](https://www.iis.sinica.edu.tw/pages/byyang ).
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This project provides performant, portable 32-bit & 64-bit implementations. All implementations are
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of course constant time in regard to secret data.
#### Performance
SSE2 code and benches have not been updated yet. I will do those next.
Compilers versions are gcc 4.6.3, icc 13.1.1, clang 3.4-1~exp1.
Batch verification time (in parentheses) is the average time per 1 verification in a batch of 64 signatures. Counts are in thousands of cycles.
Note that SSE2 performance may be less impressive on AMD & older CPUs with slower SSE ops!
Visual Studio performance for `ge25519_scalarmult_base_niels` will lag behind a bit until optimized assembler versions of `ge25519_scalarmult_base_choose_niels`
are made.
##### E5200 @ 2.5ghz, march=core2
< table >
< thead > < tr > < th > Implementation< / th > < th > Sign< / th > < th > gcc< / th > < th > icc< / th > < th > clang< / th > < th > Verify< / th > < th > gcc< / th > < th > icc< / th > < th > clang< / th > < / tr > < / thead >
< tbody >
< tr > < td > ed25519-donna 64bit < / td > < td > < / td > < td > 100k< / td > < td > 110k< / td > < td > 137k< / td > < td > < / td > < td > 327k (144k) < / td > < td > 342k (163k) < / td > < td > 422k (194k) < / td > < / tr >
< tr > < td > amd64-64-24k < / td > < td > < / td > < td > 102k< / td > < td > < / td > < td > < / td > < td > < / td > < td > 355k (158k) < / td > < td > < / td > < td > < / td > < / tr >
< tr > < td > ed25519-donna-sse2 64bit< / td > < td > < / td > < td > 108k< / td > < td > 111k< / td > < td > 116k< / td > < td > < / td > < td > 353k (155k) < / td > < td > 345k (154k) < / td > < td > 360k (161k) < / td > < / tr >
< tr > < td > amd64-51-32k < / td > < td > < / td > < td > 116k< / td > < td > < / td > < td > < / td > < td > < / td > < td > 380k (175k) < / td > < td > < / td > < td > < / td > < / tr >
< tr > < td > ed25519-donna-sse2 32bit< / td > < td > < / td > < td > 147k< / td > < td > 147k< / td > < td > 156k< / td > < td > < / td > < td > 380k (178k) < / td > < td > 381k (173k) < / td > < td > 430k (192k) < / td > < / tr >
< tr > < td > ed25519-donna 32bit < / td > < td > < / td > < td > 597k< / td > < td > 335k< / td > < td > 380k< / td > < td > < / td > < td > 1693k (720k)< / td > < td > 1052k (453k)< / td > < td > 1141k (493k)< / td > < / tr >
< / tbody >
< / table >
##### E3-1270 @ 3.4ghz, march=corei7-avx
< table >
< thead > < tr > < th > Implementation< / th > < th > Sign< / th > < th > gcc< / th > < th > icc< / th > < th > clang< / th > < th > Verify< / th > < th > gcc< / th > < th > icc< / th > < th > clang< / th > < / tr > < / thead >
< tbody >
< tr > < td > amd64-64-24k < / td > < td > < / td > < td > 68k< / td > < td > < / td > < td > < / td > < td > < / td > < td > 225k (104k) < / td > < td > < / td > < td > < / td > < / tr >
< tr > < td > ed25519-donna 64bit < / td > < td > < / td > < td > 71k< / td > < td > 75k< / td > < td > 90k< / td > < td > < / td > < td > 226k (105k) < / td > < td > 226k (112k) < / td > < td > 277k (125k) < / td > < / tr >
< tr > < td > amd64-51-32k < / td > < td > < / td > < td > 72k< / td > < td > < / td > < td > < / td > < td > < / td > < td > 218k (107k) < / td > < td > < / td > < td > < / td > < / tr >
< tr > < td > ed25519-donna-sse2 64bit< / td > < td > < / td > < td > 79k< / td > < td > 82k< / td > < td > 92k< / td > < td > < / td > < td > 252k (122k) < / td > < td > 259k (124k) < / td > < td > 282k (131k) < / td > < / tr >
< tr > < td > ed25519-donna-sse2 32bit< / td > < td > < / td > < td > 94k< / td > < td > 95k< / td > < td > 103k< / td > < td > < / td > < td > 296k (146k) < / td > < td > 294k (137k) < / td > < td > 306k (147k) < / td > < / tr >
< tr > < td > ed25519-donna 32bit < / td > < td > < / td > < td > 525k< / td > < td > 299k< / td > < td > 316k< / td > < td > < / td > < td > 1502k (645k)< / td > < td > 959k (418k) < / td > < td > 954k (416k) < / td > < / tr >
< / tbody >
< / table >
#### Compilation
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No configuration is needed **if you are compiling against OpenSSL** .
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##### Hash Options
If you are not compiling aginst OpenSSL, you will need a hash function.
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To use a simple/**slow** implementation of SHA-512, use `-DED25519_REFHASH` when compiling `ed25519.c` .
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This should never be used except to verify the code works when OpenSSL is not available.
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To use a custom hash function, use `-DED25519_CUSTOMHASH` when compiling `ed25519.c` and put your
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custom hash implementation in ed25519-hash-custom.h. The hash must have a 512bit digest and implement
struct ed25519_hash_context;
void ed25519_hash_init(ed25519_hash_context *ctx);
void ed25519_hash_update(ed25519_hash_context *ctx, const uint8_t *in, size_t inlen);
void ed25519_hash_final(ed25519_hash_context *ctx, uint8_t *hash);
void ed25519_hash(uint8_t *hash, const uint8_t *in, size_t inlen);
##### Random Options
If you are not compiling aginst OpenSSL, you will need a random function for batch verification.
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To use a custom random function, use `-DED25519_CUSTOMRANDOM` when compiling `ed25519.c` and put your
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custom hash implementation in ed25519-randombytes-custom.h. The random function must implement:
void ED25519_FN(ed25519_randombytes_unsafe) (void *p, size_t len);
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Use `-DED25519_TEST` when compiling `ed25519.c` to use a deterministically seeded, non-thread safe CSPRNG
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variant of Bob Jenkins [ISAAC ](https://en.wikipedia.org/wiki/ISAAC_%28cipher%29 )
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##### Minor options
Use `-DED25519_INLINE_ASM` to disable the use of custom assembler routines and instead rely on portable C.
Use `-DED25519_FORCE_32BIT` to force the use of 32 bit routines even when compiling for 64 bit.
##### 32-bit
gcc ed25519.c -m32 -O3 -c
##### 64-bit
gcc ed25519.c -m64 -O3 -c
##### SSE2
gcc ed25519.c -m32 -O3 -c -DED25519_SSE2 -msse2
gcc ed25519.c -m64 -O3 -c -DED25519_SSE2
clang and icc are also supported
#### Usage
To use the code, link against `ed25519.o -mbits` and:
#include "ed25519.h"
Add `-lssl -lcrypto` when using OpenSSL (Some systems don't need -lcrypto? It might be trial and error).
To generate a private key, simply generate 32 bytes from a secure
cryptographic source:
ed25519_secret_key sk;
randombytes(sk, sizeof(ed25519_secret_key));
To generate a public key:
ed25519_public_key pk;
ed25519_publickey(sk, pk);
To sign a message:
ed25519_signature sig;
ed25519_sign(message, message_len, sk, pk, signature);
To verify a signature:
int valid = ed25519_sign_open(message, message_len, pk, signature) == 0;
To batch verify signatures:
const unsigned char *mp[num] = {message1, message2..}
size_t ml[num] = {message_len1, message_len2..}
const unsigned char *pkp[num] = {pk1, pk2..}
const unsigned char *sigp[num] = {signature1, signature2..}
int valid[num]
/* valid[i] will be set to 1 if the individual signature was valid, 0 otherwise */
int all_valid = ed25519_sign_open_batch(mp, ml, pkp, sigp, num, valid) == 0;
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**Note**: Batch verification uses `ed25519_randombytes_unsafe` , implemented in
`ed25519-randombytes.h` , to generate random scalars for the verification code.
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The default implementation now uses OpenSSLs `RAND_bytes` .
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Unlike the [SUPERCOP ](https://bench.cr.yp.to/supercop.html ) version, signatures are
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not appended to messages, and there is no need for padding in front of messages.
Additionally, the secret key does not contain a copy of the public key, so it is
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32 bytes instead of 64 bytes, and the public key must be provided to the signing
function.
##### Curve25519
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Curve25519 public keys can be generated thanks to
[Adam Langley ](https://www.imperialviolet.org/2013/05/10/fastercurve25519.html )
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leveraging Ed25519's precomputed basepoint scalar multiplication.
curved25519_key sk, pk;
randombytes(sk, sizeof(curved25519_key));
curved25519_scalarmult_basepoint(pk, sk);
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Note the name is curved25519, a combination of curve and ed25519, to prevent
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name clashes. Performance is slightly faster than short message ed25519
signing due to both using the same code for the scalar multiply.
#### Testing
Fuzzing against reference implemenations is now available. See [fuzz/README ](fuzz/README.md ).
Building `ed25519.c` with `-DED25519_TEST` and linking with `test.c` will run basic sanity tests
and benchmark each function. `test-batch.c` has been incorporated in to `test.c` .
`test-internals.c` is standalone and built the same way as `ed25519.c` . It tests the math primitives
with extreme values to ensure they function correctly. SSE2 is now supported.
#### Papers
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[Available on the Ed25519 website ](https://ed25519.cr.yp.to/papers.html )