# A reasonable default for today's standards. It should provide
# 112-bit security with the exception of SHA1 signatures in DNSSec
# SHA1 is also enabled in HMAC where collision attacks do not matter.

# MACs: all HMAC with SHA1 or better + all modern MACs (Poly1305 etc)
# Curves: all prime >= 255 bits (including Bernstein curves)
# Signature algorithms: with SHA-256 hash or better (no DSA)
# TLS Ciphers: >= 128-bit key, >= 128-bit block (AES, ChaCha20, including AES-CBC)
# non-TLS Ciphers: as TLS Ciphers with added Camellia
# key exchange: ECDHE, RSA, DHE (no DHE-DSS)
# DH params size: >= 2048
# RSA params size: >= 2048
# TLS protocols: TLS >= 1.2, DTLS >= 1.2

mac = AEAD HMAC-SHA2-256 HMAC-SHA1 UMAC-128 HMAC-SHA2-384 HMAC-SHA2-512
mac@Kerberos = HMAC-SHA2-384 HMAC-SHA2-256 AEAD UMAC-128 HMAC-SHA2-512 HMAC-SHA1

group = X25519 SECP256R1 X448 SECP521R1 SECP384R1 \
        FFDHE-2048 FFDHE-3072 FFDHE-4096 FFDHE-6144 FFDHE-8192

hash = SHA2-256 SHA2-384 SHA2-512 SHA3-256 SHA3-384 SHA3-512 SHA2-224 SHA3-224 \
       SHAKE-256

hash@DNSSec = SHA1+  # SHA1 is still prevalent in DNSSec

sign = ECDSA-SHA3-256 ECDSA-SHA2-256 ECDSA-SHA2-256-FIDO \
       ECDSA-SHA3-384 ECDSA-SHA2-384 \
       ECDSA-SHA3-512 ECDSA-SHA2-512 \
       EDDSA-ED25519 EDDSA-ED25519-FIDO EDDSA-ED448 \
       RSA-PSS-SHA3-256 RSA-PSS-SHA2-256 \
       RSA-PSS-SHA3-384 RSA-PSS-SHA2-384 \
       RSA-PSS-SHA3-512 RSA-PSS-SHA2-512 \
       RSA-PSS-RSAE-SHA3-256 RSA-PSS-RSAE-SHA2-256 \
       RSA-PSS-RSAE-SHA3-384 RSA-PSS-RSAE-SHA2-384 \
       RSA-PSS-RSAE-SHA3-512 RSA-PSS-RSAE-SHA2-512 \
       RSA-SHA3-256 RSA-SHA2-256 \
       RSA-SHA3-384 RSA-SHA2-384 \
       RSA-SHA3-512 RSA-SHA2-512 \
       ECDSA-SHA2-224 RSA-PSS-SHA2-224 RSA-SHA2-224 \
       ECDSA-SHA3-224 RSA-PSS-SHA3-224 RSA-SHA3-224
sign@DNSSec = RSA-SHA1+ ECDSA-SHA1+  # SHA1 is still prevalent in DNSSec

cipher = AES-256-GCM AES-256-CCM CHACHA20-POLY1305 CAMELLIA-256-GCM \
    AES-256-CTR AES-256-CBC CAMELLIA-256-CBC AES-128-GCM AES-128-CCM \
    CAMELLIA-128-GCM AES-128-CTR AES-128-CBC CAMELLIA-128-CBC

cipher@TLS = AES-256-GCM AES-256-CCM CHACHA20-POLY1305 AES-256-CBC \
    AES-128-GCM AES-128-CCM AES-128-CBC

cipher@sequoia = AES-256-CFB AES-128-CFB CAMELLIA-256-CFB CAMELLIA-128-CFB
cipher@RPM = AES-256-CFB AES-128-CFB CAMELLIA-256-CFB CAMELLIA-128-CFB

# CBC ciphers in SSH are considered vulnerable to plaintext recovery attacks
# and disabled in client OpenSSH 7.6 (2017) and server OpenSSH 6.7 (2014).
cipher@SSH = -*-CBC

# 'RSA' is intentionally before DHE ciphersuites, as the DHE ciphersuites have
# interoperability issues in TLS.
key_exchange = ECDHE RSA DHE DHE-RSA PSK DHE-PSK ECDHE-PSK RSA-PSK ECDHE-GSS DHE-GSS

protocol@TLS = TLS1.3 TLS1.2 DTLS1.2
protocol@IKE = IKEv2

# Parameter sizes
min_dh_size = 2048
min_dsa_size = 2048
min_rsa_size = 2048

# GnuTLS only for now
sha1_in_certs = 0

arbitrary_dh_groups = 1
ssh_certs = 1
etm@SSH = ANY

# https://pagure.io/fesco/issue/2960
# "RPM must accept SHA-1 hashes and DSA keys for Fedora 38"
sign@RPM = DSA-SHA1+
hash@RPM = SHA1+
min_dsa_size@RPM = 1024