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CVSS: 3.7EPSS: 0%CPEs: 3EXPL: 0

Issue summary: Some non-default TLS server configurations can cause unbounded memory growth when processing TLSv1.3 sessions Impact summary: An attacker may exploit certain server configurations to trigger unbounded memory growth that would lead to a Denial of Service This problem can occur in TLSv1.3 if the non-default SSL_OP_NO_TICKET option is being used (but not if early_data support is also configured and the default anti-replay protection is in use). In this case, under certain conditions, the session cache can get into an incorrect state and it will fail to flush properly as it fills. The session cache will continue to grow in an unbounded manner. A malicious client could deliberately create the scenario for this failure to force a Denial of Service. It may also happen by accident in normal operation. This issue only affects TLS servers supporting TLSv1.3. • http://www.openwall.com/lists/oss-security/2024/04/08/5 https://github.com/openssl/openssl/commit/7e4d731b1c07201ad9374c1cd9ac5263bdf35bce https://github.com/openssl/openssl/commit/b52867a9f618bb955bed2a3ce3db4d4f97ed8e5d https://github.com/openssl/openssl/commit/e9d7083e241670332e0443da0f0d4ffb52829f08 https://github.openssl.org/openssl/extended-releases/commit/5f8d25770ae6437db119dfc951e207271a326640 https://security.netapp.com/advisory/ntap-20240503-0013 https://www.openssl.org/news/secadv/20240408.txt https://access.redhat.com/security&#x • CWE-400: Uncontrolled Resource Consumption CWE-1325: Improperly Controlled Sequential Memory Allocation •

CVSS: 5.5EPSS: 0%CPEs: 5EXPL: 0

Issue summary: Processing a maliciously formatted PKCS12 file may lead OpenSSL to crash leading to a potential Denial of Service attack Impact summary: Applications loading files in the PKCS12 format from untrusted sources might terminate abruptly. A file in PKCS12 format can contain certificates and keys and may come from an untrusted source. The PKCS12 specification allows certain fields to be NULL, but OpenSSL does not correctly check for this case. This can lead to a NULL pointer dereference that results in OpenSSL crashing. If an application processes PKCS12 files from an untrusted source using the OpenSSL APIs then that application will be vulnerable to this issue. OpenSSL APIs that are vulnerable to this are: PKCS12_parse(), PKCS12_unpack_p7data(), PKCS12_unpack_p7encdata(), PKCS12_unpack_authsafes() and PKCS12_newpass(). We have also fixed a similar issue in SMIME_write_PKCS7(). However since this function is related to writing data we do not consider it security significant. The FIPS modules in 3.2, 3.1 and 3.0 are not affected by this issue. • http://www.openwall.com/lists/oss-security/2024/03/11/1 https://github.com/openssl/openssl/commit/09df4395b5071217b76dc7d3d2e630eb8c5a79c2 https://github.com/openssl/openssl/commit/775acfdbd0c6af9ac855f34969cdab0c0c90844a https://github.com/openssl/openssl/commit/d135eeab8a5dbf72b3da5240bab9ddb7678dbd2c https://github.openssl.org/openssl/extended-releases/commit/03b3941d60c4bce58fab69a0c22377ab439bc0e8 https://github.openssl.org/openssl/extended-releases/commit/aebaa5883e31122b404e450732dc833dc9dee539 https://security.netapp.com/advisory/ntap-20240208-0006 https&# • CWE-476: NULL Pointer Dereference •

CVSS: 5.9EPSS: 0%CPEs: 3EXPL: 0

Issue summary: Checking excessively long invalid RSA public keys may take a long time. Impact summary: Applications that use the function EVP_PKEY_public_check() to check RSA public keys may experience long delays. Where the key that is being checked has been obtained from an untrusted source this may lead to a Denial of Service. When function EVP_PKEY_public_check() is called on RSA public keys, a computation is done to confirm that the RSA modulus, n, is composite. For valid RSA keys, n is a product of two or more large primes and this computation completes quickly. However, if n is an overly large prime, then this computation would take a long time. An application that calls EVP_PKEY_public_check() and supplies an RSA key obtained from an untrusted source could be vulnerable to a Denial of Service attack. The function EVP_PKEY_public_check() is not called from other OpenSSL functions however it is called from the OpenSSL pkey command line application. For that reason that application is also vulnerable if used with the '-pubin' and '-check' options on untrusted data. The OpenSSL SSL/TLS implementation is not affected by this issue. The OpenSSL 3.0 and 3.1 FIPS providers are affected by this issue. Resumen del problema: la comprobación de claves públicas RSA inválidas excesivamente largas puede llevar mucho tiempo. • http://www.openwall.com/lists/oss-security/2024/03/11/1 https://github.com/openssl/openssl/commit/0b0f7abfb37350794a4b8960fafc292cd5d1b84d https://github.com/openssl/openssl/commit/18c02492138d1eb8b6548cb26e7b625fb2414a2a https://github.com/openssl/openssl/commit/a830f551557d3d66a84bbb18a5b889c640c36294 https://security.netapp.com/advisory/ntap-20240531-0007 https://www.openssl.org/news/secadv/20240115.txt https://access.redhat.com/security/cve/CVE-2023-6237 https://bugzilla.redhat.com/show_bug.cgi?id=2258502 • CWE-400: Uncontrolled Resource Consumption CWE-606: Unchecked Input for Loop Condition •

CVSS: 6.5EPSS: 0%CPEs: 3EXPL: 0

Issue summary: The POLY1305 MAC (message authentication code) implementation contains a bug that might corrupt the internal state of applications running on PowerPC CPU based platforms if the CPU provides vector instructions. Impact summary: If an attacker can influence whether the POLY1305 MAC algorithm is used, the application state might be corrupted with various application dependent consequences. The POLY1305 MAC (message authentication code) implementation in OpenSSL for PowerPC CPUs restores the contents of vector registers in a different order than they are saved. Thus the contents of some of these vector registers are corrupted when returning to the caller. The vulnerable code is used only on newer PowerPC processors supporting the PowerISA 2.07 instructions. The consequences of this kind of internal application state corruption can be various - from no consequences, if the calling application does not depend on the contents of non-volatile XMM registers at all, to the worst consequences, where the attacker could get complete control of the application process. However unless the compiler uses the vector registers for storing pointers, the most likely consequence, if any, would be an incorrect result of some application dependent calculations or a crash leading to a denial of service. The POLY1305 MAC algorithm is most frequently used as part of the CHACHA20-POLY1305 AEAD (authenticated encryption with associated data) algorithm. The most common usage of this AEAD cipher is with TLS protocol versions 1.2 and 1.3. • http://www.openwall.com/lists/oss-security/2024/03/11/1 https://github.com/openssl/openssl/commit/050d26383d4e264966fb83428e72d5d48f402d35 https://github.com/openssl/openssl/commit/5b139f95c9a47a55a0c54100f3837b1eee942b04 https://github.com/openssl/openssl/commit/f3fc5808fe9ff74042d639839610d03b8fdcc015 https://security.netapp.com/advisory/ntap-20240216-0009 https://security.netapp.com/advisory/ntap-20240426-0008 https://security.netapp.com/advisory/ntap-20240426-0013 https://security.netapp.com/advisory/ntap-20240503-0011 https: • CWE-328: Use of Weak Hash CWE-440: Expected Behavior Violation CWE-787: Out-of-bounds Write •

CVSS: 5.3EPSS: 0%CPEs: 4EXPL: 0

Issue summary: Generating excessively long X9.42 DH keys or checking excessively long X9.42 DH keys or parameters may be very slow. Impact summary: Applications that use the functions DH_generate_key() to generate an X9.42 DH key may experience long delays. Likewise, applications that use DH_check_pub_key(), DH_check_pub_key_ex() or EVP_PKEY_public_check() to check an X9.42 DH key or X9.42 DH parameters may experience long delays. Where the key or parameters that are being checked have been obtained from an untrusted source this may lead to a Denial of Service. While DH_check() performs all the necessary checks (as of CVE-2023-3817), DH_check_pub_key() doesn't make any of these checks, and is therefore vulnerable for excessively large P and Q parameters. Likewise, while DH_generate_key() performs a check for an excessively large P, it doesn't check for an excessively large Q. An application that calls DH_generate_key() or DH_check_pub_key() and supplies a key or parameters obtained from an untrusted source could be vulnerable to a Denial of Service attack. DH_generate_key() and DH_check_pub_key() are also called by a number of other OpenSSL functions. An application calling any of those other functions may similarly be affected. The other functions affected by this are DH_check_pub_key_ex(), EVP_PKEY_public_check(), and EVP_PKEY_generate(). Also vulnerable are the OpenSSL pkey command line application when using the "-pubcheck" option, as well as the OpenSSL genpkey command line application. The OpenSSL SSL/TLS implementation is not affected by this issue. The OpenSSL 3.0 and 3.1 FIPS providers are not affected by this issue. Resumen del problema: generar claves X9.42 DH excesivamente largas o comprobar claves o parámetros X9.42 DH excesivamente largos puede ser muy lento. • http://www.openwall.com/lists/oss-security/2024/03/11/1 https://git.openssl.org/gitweb/?p=openssl.git;a=commitdiff;h=34efaef6c103d636ab507a0cc34dca4d3aecc055 https://git.openssl.org/gitweb/?p=openssl.git;a=commitdiff;h=710fee740904b6290fef0dd5536fbcedbc38ff0c https://git.openssl.org/gitweb/?p=openssl.git;a=commitdiff;h=db925ae2e65d0d925adef429afc37f75bd1c2017 https://git.openssl.org/gitweb/?p=openssl.git;a=commitdiff;h=ddeb4b6c6d527e54ce9a99cba785c0f7776e54b6 https://security.netapp.com/advisory/ntap-20231130-0010 https:/ • CWE-325: Missing Cryptographic Step CWE-606: Unchecked Input for Loop Condition CWE-754: Improper Check for Unusual or Exceptional Conditions •