Commit graph

25 commits

Author SHA1 Message Date
Neil Armstrong
0270b9f5a4 Rm useless use of MD in PKCS#1v2.1 test functions
We had a message in the data file, and were computing its hash in the
test function. It is more efficient (and simpler when it comes to
dependencies) to directly have the message hash in the data file.

It was probably this way because some test vectors provide the message
for the sake of all-in-one implementation that hash-and-sign at once.
But our API gets a hash as the input and signs it. In unit tests, this
should be reflected in the signature of the test function, which should
take a hash as input.

The changes to the .data file were done using the following python
script:

import hashlib

suite = 'pkcs1_v21'

functions = {
        'pkcs1_rsassa_pss_sign': (6, 8),
        'pkcs1_rsassa_pss_verify': (4, 6),
        'pkcs1_rsassa_pss_verify_ext': (4, 8),
}

def hash_ctx(s):
    if s == 'MBEDTLS_MD_MD5':
        return hashlib.md5()
    if s == 'MBEDTLS_MD_SHA1':
        return hashlib.sha1()
    if s == 'MBEDTLS_MD_SHA224':
        return hashlib.sha224()
    if s == 'MBEDTLS_MD_SHA256':
        return hashlib.sha256()
    if s == 'MBEDTLS_MD_SHA384':
        return hashlib.sha384()
    if s == 'MBEDTLS_MD_SHA512':
        return hashlib.sha512()

def fix(l):
    parts = l.rstrip().split(":")

    fun = parts[0]
    if fun not in functions:
        return l

    (digest_idx, msg_idx) = functions[fun]

    alg_str = parts[digest_idx]
    if alg_str == "MBEDTLS_MD_NONE":
        return l
    h = hash_ctx(alg_str)

    msg_str = parts[msg_idx]
    msg_hex = msg_str[1:-1]
    msg = bytes.fromhex(msg_hex)
    h.update(msg)
    msg_hash = h.hexdigest()
    msg_hash_str = '"' + msg_hash + '"'

    parts[msg_idx] = msg_hash_str
    return ":".join(parts) + '\n'

filename = 'tests/suites/test_suite_' + suite + '.data'
with open(filename) as f:
    lines = f.readlines()

lines = [fix(l) for l in lines]

with open(filename, 'w') as f:
    f.writelines(lines)

Signed-off-by: Neil Armstrong <narmstrong@baylibre.com>
2022-07-20 09:34:20 +02:00
Mateusz Starzyk
e3c48b4a88 Separate SHA224 from SHA256 config options.
These options are still dependant on each other.
This is an intermediate step.

Signed-off-by: Mateusz Starzyk <mateusz.starzyk@mobica.com>
2021-04-28 14:38:37 +02:00
Mateusz Starzyk
3352a53475 Modify config option for SHA384.
Although SHA512 is currently required to enable SHA384, this
is expected to change in the future. This commit is an
intermediate step towards fully separating SHA384 and SHA512.

check_config is the only module which enforces that SHA512 is
enabled together with SHA384.

Signed-off-by: Mateusz Starzyk <mateusz.starzyk@mobica.com>
2021-04-28 14:38:37 +02:00
Cédric Meuter
333727f35a Added random material in the pkcs1 v21 salt length = max tests
Signed-off-by: Cédric Meuter <cedric.meuter@gmail.com>
2021-01-10 16:31:09 +01:00
Cédric Meuter
46bad3375f Added more negative test cases for pkcs1_rsassa_pss_sign
- removed the check on saltlen > 0 and added tests
  positive test cases for this.
- added negative test cases when even saltlen == 0
  is not enough. This allowed to uncover an underflow bu
  in the slen check (when olen-slen-2 is negative)
- fixed the saltlen check to avoid underflow
- added more test cases where saltlen is the maximum
  possible value and one above the maximum possible value
  (different hash, different key size)

Signed-off-by: Cédric Meuter <cedric.meuter@gmail.com>
2021-01-10 13:20:35 +01:00
Cédric Meuter
61adfd6ac0 Avoid duplicated test function between pkcs1_rsassa_pss_sign / sign_ext
Signed-off-by: Cédric Meuter <cedric.meuter@gmail.com>
2021-01-10 13:20:05 +01:00
Cédric Meuter
c5eea8f361 Improved description and fixed typo in test_suite_pkcs1_v21.data
Signed-off-by: Cédric Meuter <cedric.meuter@gmail.com>
2021-01-10 13:19:40 +01:00
Cédric Meuter
bc13cd9b1a Replaced ascii hex input by binary input for all key material
This results in smaller test binaries which is a plus on
target with limited resources.

Signed-off-by: Cédric Meuter <cedric.meuter@worldline.com>
2020-12-28 14:39:33 +01:00
Cédric Meuter
d2dc1f1a83 Fixed test_suite_pkcs1_v21.data for build witout SHA35
The test suite assumed that if SHA512 was enabled, then
SHA384 was also available. This is not true. There is
config MBEDTLS_SHA512_NO_SHA384 which allows precisely
to add SHA512 and not SHA384.

This commits adds the necessary `depends_on` clause,
to avoid running the SHA384 tests when config
MBEDTLS_SHA512_NO_SHA384 is set.

Signed-off-by: Cédric Meuter <cedric.meuter@gmail.com>
2020-12-24 13:16:05 +01:00
Cédric Meuter
668a78d952 Added sppecific test cases for mbedtls_rsa_rsassa_pss_sign_ext()
- all positibe test cases were sampled from the CAVP test suite
  (SigGenPSS_186-2.txt, SigGenPSS_186-3.txt)
  Only kept one representative for each triple (modlen, sha, saltlen)
- two extra test cases were added to cover the maximum salt length
  (slen=olen-slen-2 and slen=(olen-slen-2)-1)
- in rsa.c, the salt intermediate buffer was too small to cover cases
  where slen > hlen. So reworked the code to generate the salt in the
  encoded message directly. This has the advantage to remove a memcpy
  and a memset.

Signed-off-by: Cédric Meuter <cedric.meuter@gmail.com>
2020-12-24 11:30:08 +01:00
Gilles Peskine
f3eddd68bb pkcs1_v21: Fix copypasta in test case
There should have been a good-saltlen test case and a bad-saltlen test
case for both sizes 522 and 528, but the 522-bad-saltlen test case was
missing and the 528-good-saltlen test case was repeated. Fix this.
2019-09-20 15:58:54 +02:00
Gilles Peskine
85a6dd40ba Add tests for RSA encrypt/decrypt with NULL for empty message 2019-02-19 18:33:57 +01:00
Jaeden Amero
65593d2ddd rsa: pss: Add no possible salt size tests
Add signing tests with 528-bit and 520-bit RSA keys with SHA-512. These
selections of key and hash size should lead to an error returned, as
there is not enough room for our chosen minimum salt size of two bytes
less than the hash size. These test the boundary around an available
salt length of 0 or -1 bytes.

The RSA keys were generated with OpenSSL 1.1.1-pre8.

    $ openssl genrsa 520
    Generating RSA private key, 520 bit long modulus (2 primes)
    .............++++++++++++
    .................++++++++++++
    e is 65537 (0x010001)
    -----BEGIN RSA PRIVATE KEY-----
    MIIBPwIBAAJCANWgb4bludh0KFQBZcqWb6iJOmLipZ0L/XYXeAuwOfkWWjc6jhGd
    B2b43lVnEPM/ZwGRU7rYIjd155fUUdSCBvO/AgMBAAECQgDOMq+zy6XZEjWi8D5q
    j05zpRGgRRiKP/qEtB6BWbZ7gUV9DDgZhD4FFsqfanwjWNG52LkM9D1OQmUOtGGq
    a9COwQIhD+6l9iIPrCkblQjsK6jtKB6zmu5NXcaTJUEGgW68cA7PAiENaJGHhcOq
    /jHqqi2NgVbc5kWUD/dzSkVzN6Ub0AvIiBECIQIeL2Gw1XSFYm1Fal/DbQNQUX/e
    /dnhc94X7s118wbScQIhAMPVgbDc//VurZ+155vYc9PjZlYe3QIAwlkLX3HYKkGx
    AiEND8ndKyhkc8jLGlh8aRP8r03zpDIiZNKqCKiijMWVRYQ=
    -----END RSA PRIVATE KEY-----

    $ openssl genrsa 528
    Generating RSA private key, 528 bit long modulus (2 primes)
    .........++++++++++++
    ....++++++++++++
    e is 65537 (0x010001)
    -----BEGIN RSA PRIVATE KEY-----
    MIIBQgIBAAJDAKJVTrpxW/ZuXs3z1tcY4+XZB+hmbnv1p2tBUQbgTrgn7EyyGZz/
    ZkkdRUGQggWapbVLDPXu9EQ0AvMEfAsObwJQgQIDAQABAkJhHVXvFjglElxnK7Rg
    lERq0k73yqfYQts4wCegTHrrkv3HzqWQVVi29mGLSXTqoQ45gzWZ5Ru5NKjkTjko
    YtWWIVECIgDScqoo7SCFrG3zwFxnGe7V3rYYr6LkykpvczC0MK1IZy0CIgDFeINr
    qycUXbndZvF0cLYtSmEA+MoN7fRX7jY5w7lZYyUCIUxyiOurEDhe5eY5B5gQbJlW
    ePHIw7S244lO3+9lC12U1QIhWgzQ8YKFObZcEejl5xGXIiQvBEBv89Y1fPu2YrUs
    iuS5AiFE64NJs8iI+zZxp72esKHPXq/chJ1BvhHsXI0y1OBK8m8=
    -----END RSA PRIVATE KEY-----
2018-09-27 18:23:08 +01:00
Jaeden Amero
80d99ea038 rsa: pss: Extend tests for variable salt length
Since we wish to generate RSASSA-PSS signatures even when hashes are
relatively large for the chosen RSA key size, we need some tests. Our
main focus will be on 1024-bit keys and the couple key sizes larger than
it. For example, we test for a signature generated using a salt length
of 63 when a 1032-bit key is used. Other tests check the boundary
conditions around other key sizes. We want to make sure we don't use a
salt length larger than the hash length (because FIPS 186-4 requires
this). We also want to make sure we don't use a salt that is too small
(no smaller than 2 bytes away from the hash length).

Test RSASSA-PSS signatures with:
 - 1024-bit key and SHA-512 (slen 62)
 - 1032-bit key and SHA-512 (slen 63)
 - 1040-bit key and SHA-512 (slen 64)
 - 1048-bit key and SHA-512 (slen 64)

The tests also verify that we can properly verify the RSASSA-PSS
signatures we've generated.

We've manually verified that OpenSSL 1.1.1-pre8 can verify the
RSASSA-PSS signatures we've generated.

    $ openssl rsa -in rsa1024.pem -pubout -out pub1024.pem
    writing RSA key
    $ openssl rsa -in rsa1032.pem -pubout -out pub1032.pem
    writing RSA key
    $ openssl rsa -in rsa1040.pem -pubout -out pub1040.pem
    writing RSA key
    $ openssl rsa -in rsa1048.pem -pubout -out pub1048.pem
    writing RSA key
    $ cat message.bin | openssl dgst -sha512 -sigopt rsa_padding_mode:pss -sigopt rsa_pss_saltlen:62 -verify pub1024.pem -signature valid1024.bin
    Verified OK
    $ cat message.bin | openssl dgst -sha512 -sigopt rsa_padding_mode:pss -sigopt rsa_pss_saltlen:63 -verify pub1032.pem -signature valid1032.bin
    Verified OK
    $ cat message.bin | openssl dgst -sha512 -sigopt rsa_padding_mode:pss -sigopt rsa_pss_saltlen:64 -verify pub1040.pem -signature valid1040.bin
    Verified OK
    $ cat message.bin | openssl dgst -sha512 -sigopt rsa_padding_mode:pss -sigopt rsa_pss_saltlen:64 -verify pub1048.pem -signature valid1048.bin
    Verified OK

We've also added a new test that ensures we can properly validate a
RSASSA-PSS 1032-bit signature with SHA-512 generated by OpenSSL. This
has been added as the "RSASSA-PSS Verify OpenSSL-generated Signature
1032-bit w/SHA-512" test. The signature to verify was generated with the
following command line.

    $ cat message.bin | openssl dgst -sha512 -sigopt rsa_padding_mode:pss -sigopt rsa_pss_saltlen:63 -sign rsa1032.pem > valid.bin

The RSA private keys used by these tests were generated with OpenSSL
1.1.1-pre8.

    $ openssl genrsa 1024
    Generating RSA private key, 1024 bit long modulus (2 primes)
    ........................................++++++
    ......++++++
    e is 65537 (0x010001)
    -----BEGIN RSA PRIVATE KEY-----
    MIICWwIBAAKBgQDDyYc1SFQ1kcH5R+QSwz2la50blKWML0EKimIOm08dkZdkPr9S
    f19isgK51noyZU0F8yapth4BBu/fSClnPE89I2VZluJCQFmRarR6pn5AbBKWeeWX
    nKRnCIZmCP+iH2GYQ7lZtEQuQiWYovqrVKjO8fExmSZ30s9byvK1Vk90GQIDAQAB
    AoGAG1BnO4i+rsaJ8DQWXoO8evJ7dZiUS+1fvo+1xGHodLCWFVcnq+O3M/avqKuC
    WruFNlpIv453ux7zogvYMt3YE+ny//kgh5gUh0O1mXPbZtF4gGxsqXdV13lMW9dK
    ZH2ltN94MwynrXl74m2P4uCHWIHLE9+ZyWRzwH/c/o1E4n0CQQDo+VpxbBJ9UUfc
    wkGnwf6NVIez6LbpXkioMzTSHQDHmtCpDimUHAxTBlsgBZ3pXp5AYGFBb3rBLtyh
    mDue4ozDAkEA1yNIspfn5dxDKfarh0sXmCWE4KtDF0Bwqb6YPA8EAyDW+JPEDScX
    yzBEOAyzIwtxM2IescVaPqVtDnzuaUtd8wJAdOP3XwUsWbgYaEkHDBank12gIMJY
    U8q8hbf7fpiStZOVsdyrO+a+wEFmIzDuRBL3L7Gr2lsGqjrK9EEfWN6uZQJAOJml
    1Ka2cfkDCpVFB3EwIe0tClbEbeecPGxSbOqeaZxIMlnd6H/yeJiYOg7NSlkGTThx
    Tt/XIEgxavBfYQBdFQJAMFmLr9DL5lWAZNAHspJ8R5NdoOcsrKV9tb24cu0YapuZ
    rSPwmebskHyinvoBsD2CthUtpSo3NE+xZ6HcfYca9w==
    -----END RSA PRIVATE KEY-----

    $ openssl genrsa 1032
    Generating RSA private key, 1032 bit long modulus (2 primes)
    ....................++++++
    .................................++++++
    e is 65537 (0x010001)
    -----BEGIN RSA PRIVATE KEY-----
    MIICYAIBAAKBggCqlKuRtMJr4lfkaVKCKMSwtrTJnnOoSicrMQGJLAdAaRE3K4Ps
    SnuBkfC6S0y0yztzIHTpbGaCl+EyO4rQgip+FRGC3vA4caZqR7cEuShFxhlBQtTu
    2hmQPgQENYH3qDXcKIEXhj0hlEw67e1RhFjxowpBx2OKpOCYqI/fLCCXJw0CAwEA
    AQKBgWcY+CFWePOvl6OrrHySm16a7uW06P5b4xSNx/naLH/XgNoxaMiVs9P6Gt7d
    x/y1oLbSdRbnt4VSun8b0ah4I6qEyk3MdfiNnhy24LlCuv0TOLbQVibjH+5Q+iP2
    995ssUrkfPa/QAA95nPVaDhcsATSh32JagE0rkItukalyc/IGQJBDfrttwmtohBS
    I+XndkpfMdB656N73HtKVsJJnhFzFHvNyxZbj7AaJSgZDLaHRlapNkkYmPyjMNuK
    9antVBcmjtcCQQwznFZ5epDGQSklYNDvZ19xrCyZ/KumJgw45PFn39F563qeJV+b
    28VJ5BgfmioZsfMKgLKS1e8a11ueZY6qb7C7AkEExSw7mmfOtrbwXNAfwry8qKBn
    TZdD4iW5eM3Zy6ZyxNOxik1vt+0T5Jy3g8igrY1LYqGsAfhFAYRm0raSTNvxPQJB
    AUcOIYfKq4n2nKZLQtUuT7IJQwpEiHx3E2SJpDUqHDbVzxrr8tzQ4BFijpwQekQC
    e94np4r0V3rJ/c/R9mQmGa0CQQrd2veAgj1F7Rma7zE4vYhvCf0XB1rshw972xGo
    BTAU4BagC7/vht1YXhhdz1FC36DrWm3veTwLLuNUQTJWsYIH
    -----END RSA PRIVATE KEY-----

    $ openssl genkey 1040
    Generating RSA private key, 1040 bit long modulus
    ........++++++
    ........++++++
    e is 65537 (0x10001)
    -----BEGIN RSA PRIVATE KEY-----
    MIICZgIBAAKBgwDSNAU4Ix3NWmHt+Dq5Sy5LOnhDlMTtNaQkwFDClBV7diX5rKgl
    jCHi0Keqm3ydtXZATmMJDbpQ2Zj5o+xysaXPKNgyUauTNBx9LBqQQD1w9nvBqeQT
    vGL6zMtSRB4kw/K8n97KGngwEucLlSgXYmBYDE4QJsWCCejcxN478/W+VWXpAgMB
    AAECgYMAutjQ1uCoKhSwPgbLtE92vBoiMvh3v99Ro/VrFDrriY4xHWlzIcUZjfMp
    Rsblk45sqabD85VHS3zQtP8YO69bkvK+r5upGfzLtzX8r5BVuO1+7oO+/jbRHLYJ
    ieBoFZbUc27YcKzR35Iv78d+KjygYIsWgt7W2Yqf6qt98r43WcrYsQJCAPx/S0kL
    TT73Kdsj+1r7tfL8YgpHI0LYuP8xDP3BJL523CKrb0vjWjjd0x8k1/ZNMQ9nqzo3
    XoP04FWeTLXcQ+h1AkIA1R6GgKtx3AHhqKaKKYY2uxZYz6uNc85SimJpdyLUhauQ
    za/F4ndot2GDn/k0IEWK5V8VppRl28DHtSTcmjhf+SUCQT4RVIJaItztiP5zc+BD
    q9BVNgxsvEA8Yg1pE1Z1WgDv2uEy3yL6ej0sWi93sRa8lujAhRjEb5lkYpjpVtYF
    lTPZAkIAlt1yB3nWMxEd5l5mZbi927iZDAF8M+N1aML7t7tvSGTIL+LjKUqwVUhx
    ffhSXxn7lh22XOKmLGcOuHussnt/7QUCQS2GWdSBu7DGZ5uIvZVj+5KPTwv3Pw9+
    uuj12Z3shojl1iVije7nsBK1q3NbrXksEiQ4QJIoK2V2quqD58O2/K8T
    -----END RSA PRIVATE KEY-----

    $ openssl genrsa 1048
    Generating RSA private key, 1048 bit long modulus (2 primes)
    ...............................++++++
    .++++++
    e is 65537 (0x010001)
    -----BEGIN RSA PRIVATE KEY-----
    MIICaQIBAAKBhADHXQ+foX0dJLk5U3pDQBfzkMZgRETDWhM2DWsfyYa69AFZuEJ1
    03uIMnjfUGTdnrDymw0yWsx5DEtZZyc32786y4j14vLVTJGcr9ByJyxJRZHVLhWJ
    kzFeceLKYLHHT+/489d4QrQV1OcXNKSYIGpc2TFch7I+WD4l60ypcFa0XJaFbQID
    AQABAoGDSqKtUa6sXze7XBnDYN/i151wluOX9qaHIKo/W4Qfu2fUBZm0z9Wfnqp+
    k+PODyX0yq5/b0WM3RhcMRksFn5fBgzYHEmAj8IHhDsjavNtiv8nIl6EF2PfuT1p
    6iEpo8IS15dp6j5AKH4Zmnq6TRYiqdaz/ry/kpQrmeJym83KksujZWUCQg85t5gJ
    UWvswuNIG2tHWEqiKZvSAnq4owO53lsK3LSl04447bjB+sPqHb1+HVC4QyPjYs/0
    3z9aUYLa+pu5IXpz1wJCDRgWT4vQ1Y0BmZjIyxfEwDVOYripRirMowgWiU+YLCrh
    FOc5k+MGmJMEN7TuxErewk0yzLy658xMn4kRseshAGhbAkIBClKPIuPbWfwfB4hI
    FkHkJ5xsNzdQJ1mMIaEd22olNcd0ylMD8s0tocuSbRGXuF9uDlVsHDE85PD43fmN
    tmKhOVUCQgG6H5c2VcEU7BUaNcGzzNudLE2RFaKPmpYWRwKtYODSdwWOyeVbmE8f
    dPrz/lodlewCyqR+cBiKtcCFD7Rr0tp+6QJCALZlz954leZ6UKkdeOiTb+fVFpsq
    DNNALCL4VJ7XcJJMpjgSKYv9sr1C43nifr1M4YDH+B3NFRF+FWdVodaseOKF
    -----END RSA PRIVATE KEY-----
2018-09-27 18:23:08 +01:00
Jaeden Amero
3725bb2d6d rsa: pss: Enable use of big hashes with small keys
It should be valid to RSASSA-PSS sign a SHA-512 hash with a 1024-bit or
1032-bit RSA key, but with the salt size being always equal to the hash
size, this isn't possible: the key is too small.

To enable use of hashes that are relatively large compared to the key
size, allow reducing the salt size to no less than the hash size minus 2
bytes. We don't allow salt sizes smaller than the hash size minus 2
bytes because that too significantly changes the security guarantees the
library provides compared to the previous implementation which always
used a salt size equal to the hash size. The new calculated salt size
remains compliant with FIPS 186-4.

We also need to update the "hash too large" test, since we now reduce
the salt size when certain key sizes are used. We used to not support
1024-bit keys with SHA-512, but now we support this by reducing the salt
size to 62. Update the "hash too large" test to use a 1016-bit RSA key
with SHA-512, which still has too large of a hash because we will not
reduce the salt size further than 2 bytes shorter than the hash size.

The RSA private key used for the test was generated using "openssl
genrsa 1016" using OpenSSL 1.1.1-pre8.

    $ openssl genrsa 1016
    Generating RSA private key, 1016 bit long modulus (2 primes)
    ..............++++++
    ....++++++
    e is 65537 (0x010001)
    -----BEGIN RSA PRIVATE KEY-----
    MIICVwIBAAKBgACu54dKTbLxUQBEQF2ynxTfDze7z2H8vMmUo9McqvhYp0zI8qQK
    yanOeqmgaA9iz52NS4JxFFM/2/hvFvyd/ly/hX2GE1UZpGEf/FnLdHOGFhmnjj7D
    FHFegEz/gtbzLp9X3fOQVjYpiDvTT0Do20EyCbFRzul9gXpdZcfaVHNLAgMBAAEC
    gYAAiWht2ksmnP01B2nF8tGV1RQghhUL90Hd4D/AWFJdX1C4O1qc07jRBd1KLDH0
    fH19WocLCImeSZooGCZn+jveTuaEH14w6I0EfnpKDcpWVAoIP6I8eSdAttrnTyTn
    Y7VgPrcobyq4WkCVCD/jLUbn97CneF7EHNspXGMTvorMeQJADjy2hF5SginhnPsk
    YR5oWawc6n01mStuLnloI8Uq/6A0AOQoMPkGl/CESZw+NYfe/BnnSeckM917cMKL
    DIKAtwJADEj55Frjj9tKUUO+N9eaEM1PH5eC7yakhIpESccs/XEsaDUIGHNjhctK
    mrbbWu+OlsVRA5z8yJFYIa7gae1mDQJABjtQ8JOQreTDGkFbZR84MbgCWClCIq89
    5R3DFZUiAw4OdS1o4ja+Shc+8DFxkWDNm6+C63g/Amy5sVuWHX2p9QI/a69Cxmns
    TxHoXm1w9Azublk7N7DgB26yqxlTfWJo+ysOFmLEk47g0ekoCwLPxkwXlYIEoad2
    JqPh418DwYExAkACcqrd9+rfxtrbCbTXHEizW7aHR+fVOr9lpXXDEZTlDJ57sRkS
    SpjXbAmylqQuKLqH8h/72RbiP36kEm5ptmw2
    -----END RSA PRIVATE KEY-----
2018-09-27 18:23:08 +01:00
Gilles Peskine
b00b0da452 RSA PSS: fix first byte check for keys of size 8N+1
For a key of size 8N+1, check that the first byte after applying the
public key operation is 0 (it could have been 1 instead). The code was
incorrectly doing a no-op check instead, which led to invalid
signatures being accepted. Not a security flaw, since you would need the
private key to craft such an invalid signature, but a bug nonetheless.
2017-10-19 15:23:49 +02:00
Gilles Peskine
139108af94 RSA PSS: fix minimum length check for keys of size 8N+1
The check introduced by the previous security fix was off by one. It
fixed the buffer overflow but was not compliant with the definition of
PSS which technically led to accepting some invalid signatures (but
not signatures made without the private key).
2017-10-18 19:03:42 +02:00
Gilles Peskine
6a54b0240d RSA: Fix another buffer overflow in PSS signature verification
Fix buffer overflow in RSA-PSS signature verification when the masking
operation results in an all-zero buffer. This could happen at any key size.
2017-10-17 19:12:36 +02:00
Gilles Peskine
28a0c72795 RSA: Fix buffer overflow in PSS signature verification
Fix buffer overflow in RSA-PSS signature verification when the hash is
too large for the key size. Found by Seth Terashima, Qualcomm.

Added a non-regression test and a positive test with the smallest
permitted key size for a SHA-512 hash.
2017-10-17 19:01:38 +02:00
Manuel Pégourié-Gonnard
2cf5a7c98e The Great Renaming
A simple execution of tmp/invoke-rename.pl
2015-04-08 13:25:31 +02:00
Manuel Pégourié-Gonnard
5ec628a2b9 Add rsa_rsassa_pss_verify_ext() 2014-06-05 14:02:05 +02:00
Paul Bakker
c70b982056 OID functionality moved to a separate module.
A new OID module has been created that contains the main OID searching
functionality based on type-dependent arrays. A base type is used to
contain the basic values (oid_descriptor_t) and that type is extended to
contain type specific information (like a pk_alg_t).

As a result the rsa sign and verify function prototypes have changed. They
now expect a md_type_t identifier instead of the removed RSA_SIG_XXX
defines.

All OID definitions have been moved to oid.h
All OID matching code is in the OID module.

The RSA PKCS#1 functions cleaned up as a result and adapted to use the
MD layer.

The SSL layer cleanup up as a result and adapted to use the MD layer.

The X509 parser cleaned up and matches OIDs in certificates with new
module and adapted to use the MD layer.

The X509 writer cleaned up and adapted to use the MD layer.

Apps and tests modified accordingly
2013-04-07 22:00:46 +02:00
Paul Bakker
9a73632fd9 - Merged changesets 1399 up to and including 1415 into 1.2 branch 2012-11-14 12:39:52 +00:00
Paul Bakker
5690efccc4 - Fixed a whole bunch of dependencies on defines between files, examples and tests 2011-05-26 13:16:06 +00:00
Paul Bakker
9dcc32236b - Added support for PKCS#1 v2.1 encoding and thus support for the RSAES-OAEP and RSASSA-PSS operations (enabled by POLARSSL_PKCS1_V21) 2011-03-08 14:16:06 +00:00