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and X509_VERIFY_PARAM_set_auth_level(3). Document them.
For the latter, i included a few sentences from the OpenSSL 1.1.1
branch, which is still under a free license.
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Or should we call it a centipede?
Feedback and OK on a previous version from jsing@
and from our chief myriapodologist, tb@.
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Avoid undefined behaviour/integer overflow by casting an int64_t to
uint64_t before negating.
Fixes oss-fuzz #49043
ok tb@
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EVP_PKEY_param_check(3), and EVP_PKEY_security_bits(3) from scratch.
Move the documentation of EVP_PKEY_size(3) and EVP_PKEY_bits(3)
to the new manual page EVP_PKEY_size(3).
Merge the documentation of the related function pointers
from the OpenSSL 1.1.1 branch, which is still under a free license.
OK tb@ on the new page EVP_PKEY_size(3).
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ok jsing
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tb@ recently added these functions to libcrypto
and also provided feedback on my first draft of this page.
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We do not intend to make this a compile-time option.
Reminded by schwarze who asked about it
ok jsing
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provided the new public function DH_check_pub_key(3) in <openssl/dh.h>.
Sorry for being a bit tardy in documenting the new function.
Then again, OpenSSL doesn't document it either, yet.
While here, drop a HISTORY entry about a constant that
was renamed in OpenSSL 0.9.5. That's no longer relevant.
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ok jsing
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ok jsing
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ok jsing
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It has long been known that pure Miller-Rabin primality tests are
insufficient. "Prime and Prejudice: Primality Testing Under Adversarial
Conditions" https://eprint.iacr.org/2018/749 points out severe flaws
in many widely used libraries. In particular, they exhibited a method to
generate 2048-bit composites that bypass the default OpenSSL (and hence
LibreSSL) primality test with a probability of 1/16 (!).
As a remedy, the authors recommend switching to using BPSW wherever
possible. This possibility has always been there, but someone had to
sit down and actually implement a properly licensed piece of code.
Fortunately, espie suggested to Martin Grenouilloux to do precisely this
after asking us whether we would be interested. Of course we were!
After a good first implementation from Martin and a lot of back and
forth, we came up with the present version.
This implementation is ~50% slower than the current default Miller-Rabin
test, but that is a small price to pay given the improvements.
Thanks to Martin Grenouilloux <martin.grenouilloux () lse ! epita ! fr>
for this awesome work, to espie without whom it wouldn't have happened,
and to djm for pointing us at this problem a long time back.
ok jsing
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ok jsing
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This adds an implementation of the integer square root using a variant
of Newton's method with adaptive precision. The implementation is based
on a pure Python description of cpython's math.isqrt(). This algorithm
is proven to be correct with a tricky but very neat loop invariant:
https://github.com/mdickinson/snippets/blob/master/proofs/isqrt/src/isqrt.lean
Using this algorithm instead of Newton method, implement Algorithm 1.7.3
(square test) from H. Cohen, "A course in computational algebraic number
theory" to detect perfect squares.
ok jsing
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ok jsing
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This script is not used at all and files are edited by hand instead.
Thus remove misleading comments incl. the obsolete script/config.
Feedback OK jsing tb
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remove (expired):
/O=Cybertrust, Inc/CN=Cybertrust Global Root
/OU=GlobalSign Root CA - R2/O=GlobalSign/CN=GlobalSign
remove:
/C=ES/O=Agencia Catalana de Certificacio (NIF Q-0801176-I)/OU=Serveis Publics de Certificacio/OU=Vegeu https://www.catcert.net/verarrel (c)03/OU=Jerarquia Entitats de Certificacio Catalanes/CN=EC-ACC
/C=GB/O=Trustis Limited/OU=Trustis FPS Root CA
add new root (existing CAs):
/C=TW/O=Chunghwa Telecom Co., Ltd./CN=HiPKI Root CA - G1
/C=DE/O=D-Trust GmbH/CN=D-TRUST BR Root CA 1 2020
/C=DE/O=D-Trust GmbH/CN=D-TRUST EV Root CA 1 2020
/C=GR/O=Hellenic Academic and Research Institutions CA/CN=HARICA TLS ECC Root CA 2021
/C=GR/O=Hellenic Academic and Research Institutions CA/CN=HARICA TLS RSA Root CA 2021
/C=US/O=Internet Security Research Group/CN=ISRG Root X2
/C=PL/O=Unizeto Technologies S.A./OU=Certum Certification Authority/CN=Certum Trusted Network CA 2
add (new CAs):
/C=TN/O=Agence Nationale de Certification Electronique/CN=TunTrust Root CA
/serialNumber=G63287510/C=ES/O=ANF Autoridad de Certificacion/OU=ANF CA Raiz/CN=ANF Secure Server Root CA
/C=PL/O=Asseco Data Systems S.A./OU=Certum Certification Authority/CN=Certum EC-384 CA
/C=PL/O=Asseco Data Systems S.A./OU=Certum Certification Authority/CN=Certum Trusted Root CA
/C=AT/O=e-commerce monitoring GmbH/CN=GLOBALTRUST 2020
/C=CN/O=iTrusChina Co.,Ltd./CN=vTrus ECC Root CA
/C=CN/O=iTrusChina Co.,Ltd./CN=vTrus Root CA
/C=FI/O=Telia Finland Oyj/CN=Telia Root CA v2
replace with another cert with same CN (SHA1 vs SHA256):
/C=ES/CN=Autoridad de Certificacion Firmaprofesional CIF A62634068
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ok tb@
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not exposed in the public API.
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and DSA_meth_set1_name(3).
Merge the documentation from the OpenSSL 1.1.1 branch, which
is still under a free license, significantly tweaked by me.
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This is the documented behavior which got lost in the recent rewrite.
Mismatch of documentation and reality pointed out by schwarze
ok jsing
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ASN1_INTEGER_set_uint64(3), ASN1_INTEGER_set_int64(3),
ASN1_ENUMERATED_get_int64(3), and ASN1_ENUMERATED_set_int64(3)
recently provided by tb@.
Even though Dr. Steven Henson also documented these functions in OpenSSL,
the text over there is excessively verbose, repetitive, very badly ordered,
and incomplete, so i chose to instead write this patch from scratch,
also adding some precision in a few places.
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ok jsing
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Contrary to CBS_stow(), CBB_finish() will leak, so ensure we fail if
*out_data is populated.
Discussed with & ok jsing
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Needed for an upcoming diff adding a NULL check to CBB_finish().
ok jsing
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calls.
ok jsing
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that are no longer needed now that libcrypto exposes the necessary
security-bits API.
ok jsing
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ok jsing
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ok jsing
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These are mostly security-level related, but there are also ASN1_TIME
and ASN_INTEGER functions here, as well as some missing accessors.
ok jsing
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The well-known masters of consistency of course use strings that don't
match the names of the errors.
ok jsing
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pointed out by jsing
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Also follow OpenSSL by making the name non-const to avoid ugly casting.
Used by OpenSC's pkcs11-helper, as reported by Fabrice Fontaine in
https://github.com/libressl-portable/openbsd/issues/130
ok jsing sthen
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ok jsing sthen
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A client is required to send an empty list if it does not have a suitable
certificate - handle this case up front, rather than going through the
normal code path and ending up with an empty certificate list. This matches
what we do in the TLSv1.3 stack and will allow for ruther clean up (in
addition to making the code more readable).
Also tidy up the CBS code and remove some unnecessary length checks. Use
'cert' and 'certs' for certificates, rather than 'x' and 'sk'.
ok tb@
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Tidy up CBS code and remove some unnecessary length checks. Use 'cert' and
'certs' for certificates, rather than 'x' and 'sk'.
ok tb@
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