const std = @import("std"); const Aes128Gcm = std.crypto.aead.aes_gcm.Aes128Gcm; const Aes256Gcm = std.crypto.aead.aes_gcm.Aes256Gcm; const Aes128Ocb = std.crypto.aead.aes_ocb.Aes128Ocb; const Aes256Ocb = std.crypto.aead.aes_ocb.Aes256Ocb; const Aegis128L = std.crypto.aead.aegis.Aegis128L_256; const Aegis256 = std.crypto.aead.aegis.Aegis256_256; const CmacAes128 = std.crypto.auth.cmac.CmacAes128; const modes = std.crypto.core.modes; pub const std_options = .{ .side_channels_mitigations = .none }; // AES128-GCM export fn aes128gcm_encrypt( c: [*c]u8, c_len: usize, tag: [*c][Aes128Gcm.tag_length]u8, m: [*c]const u8, m_len: usize, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes128Gcm.nonce_length]u8, k: [*c]const [Aes128Gcm.key_length]u8, ) callconv(.C) i32 { Aes128Gcm.encrypt(c[0..c_len], tag, m[0..m_len], ad[0..ad_len], nonce.*, k.*); return 0; } export fn aes128gcm_decrypt( m: [*c]u8, m_len: usize, c: [*c]const u8, c_len: usize, tag: [*c]const [Aes128Gcm.tag_length]u8, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes128Gcm.nonce_length]u8, k: [*c]const [Aes128Gcm.key_length]u8, ) callconv(.C) i32 { Aes128Gcm.decrypt(m[0..m_len], c[0..c_len], tag.*, ad[0..ad_len], nonce.*, k.*) catch return -1; return 0; } // AES256-GCM export fn aes256gcm_encrypt( c: [*c]u8, c_len: usize, tag: [*c][Aes256Gcm.tag_length]u8, m: [*c]const u8, m_len: usize, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes256Gcm.nonce_length]u8, k: [*c]const [Aes256Gcm.key_length]u8, ) callconv(.C) i32 { Aes256Gcm.encrypt(c[0..c_len], tag, m[0..m_len], ad[0..ad_len], nonce.*, k.*); return 0; } export fn aes256gcm_decrypt( m: [*c]u8, m_len: usize, c: [*c]const u8, c_len: usize, tag: [*c]const [Aes256Gcm.tag_length]u8, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes256Gcm.nonce_length]u8, k: [*c]const [Aes256Gcm.key_length]u8, ) callconv(.C) i32 { Aes256Gcm.decrypt(m[0..m_len], c[0..c_len], tag.*, ad[0..ad_len], nonce.*, k.*) catch return -1; return 0; } // AES128-OCB export fn aes128ocb_encrypt( c: [*c]u8, c_len: usize, tag: [*c][Aes128Ocb.tag_length]u8, m: [*c]const u8, m_len: usize, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes128Ocb.nonce_length]u8, k: [*c]const [Aes128Ocb.key_length]u8, ) callconv(.C) i32 { Aes128Ocb.encrypt(c[0..c_len], tag, m[0..m_len], ad[0..ad_len], nonce.*, k.*); return 0; } export fn aes128ocb_decrypt( m: [*c]u8, m_len: usize, c: [*c]const u8, c_len: usize, tag: [*c]const [Aes128Ocb.tag_length]u8, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes128Ocb.nonce_length]u8, k: [*c]const [Aes128Ocb.key_length]u8, ) callconv(.C) i32 { Aes128Ocb.decrypt(m[0..m_len], c[0..c_len], tag.*, ad[0..ad_len], nonce.*, k.*) catch return -1; return 0; } // AES256-OCB export fn aes256ocb_encrypt( c: [*c]u8, c_len: usize, tag: [*c][Aes256Ocb.tag_length]u8, m: [*c]const u8, m_len: usize, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes256Ocb.nonce_length]u8, k: [*c]const [Aes256Ocb.key_length]u8, ) callconv(.C) i32 { Aes256Ocb.encrypt(c[0..c_len], tag, m[0..m_len], ad[0..ad_len], nonce.*, k.*); return 0; } export fn aes256ocb_decrypt( m: [*c]u8, m_len: usize, c: [*c]const u8, c_len: usize, tag: [*c]const [Aes256Ocb.tag_length]u8, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aes256Ocb.nonce_length]u8, k: [*c]const [Aes256Ocb.key_length]u8, ) callconv(.C) i32 { Aes256Ocb.decrypt(m[0..m_len], c[0..c_len], tag.*, ad[0..ad_len], nonce.*, k.*) catch return -1; return 0; } // AEGIS-128L export fn aegis128l_encrypt( c: [*c]u8, c_len: usize, tag: [*c][Aegis128L.tag_length]u8, m: [*c]const u8, m_len: usize, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aegis128L.nonce_length]u8, k: [*c]const [Aegis128L.key_length]u8, ) callconv(.C) i32 { Aegis128L.encrypt(c[0..c_len], tag, m[0..m_len], ad[0..ad_len], nonce.*, k.*); return 0; } export fn aegis128l_decrypt( m: [*c]u8, m_len: usize, c: [*c]const u8, c_len: usize, tag: [*c]const [Aegis128L.tag_length]u8, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aegis128L.nonce_length]u8, k: [*c]const [Aegis128L.key_length]u8, ) callconv(.C) i32 { Aegis128L.decrypt(m[0..m_len], c[0..c_len], tag.*, ad[0..ad_len], nonce.*, k.*) catch return -1; return 0; } // AEGIS-256 export fn aegis256_encrypt( c: [*c]u8, c_len: usize, tag: [*c][Aegis256.tag_length]u8, m: [*c]const u8, m_len: usize, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aegis256.nonce_length]u8, k: [*c]const [Aegis256.key_length]u8, ) callconv(.C) i32 { Aegis256.encrypt(c[0..c_len], tag, m[0..m_len], ad[0..ad_len], nonce.*, k.*); return 0; } export fn aegis256_decrypt( m: [*c]u8, m_len: usize, c: [*c]const u8, c_len: usize, tag: [*c]const [Aegis256.tag_length]u8, ad: [*c]const u8, ad_len: usize, nonce: [*c]const [Aegis256.nonce_length]u8, k: [*c]const [Aegis256.key_length]u8, ) callconv(.C) i32 { Aegis256.decrypt(m[0..m_len], c[0..c_len], tag.*, ad[0..ad_len], nonce.*, k.*) catch return -1; return 0; } // AES-128-CTR export fn aes128ctr( out: [*c]u8, out_len: usize, in: [*c]const u8, in_len: usize, iv: [*c]const [16]u8, k: [*c]const [16]u8, ) callconv(.C) i32 { const aes = std.crypto.core.aes.Aes128.initEnc(k.*); modes.ctr(@TypeOf(aes), aes, out[0..out_len], in[0..in_len], iv.*, std.builtin.Endian.big); return 0; } // AES-256-CTR export fn aes256ctr( out: [*c]u8, out_len: usize, in: [*c]const u8, in_len: usize, iv: [*c]const [16]u8, k: [*c]const [32]u8, ) callconv(.C) i32 { const aes = std.crypto.core.aes.Aes256.initEnc(k.*); modes.ctr(@TypeOf(aes), aes, out[0..out_len], in[0..in_len], iv.*, std.builtin.Endian.big); return 0; } // CMAC-AES128 export fn cmac_aes128( out: [*c][CmacAes128.mac_length]u8, in: [*c]const u8, in_len: usize, k: [*c]const [CmacAes128.key_length]u8, ) callconv(.C) i32 { CmacAes128.create(out, in[0..in_len], k); return 0; }