// SPDX-License-Identifier: GPL-2.0+ /* * zcrypt 2.1.0 * * Copyright IBM Corp. 2001, 2006 * Author(s): Robert Burroughs * Eric Rossman (edrossma@us.ibm.com) * * Hotplug & misc device support: Jochen Roehrig (roehrig@de.ibm.com) * Major cleanup & driver split: Martin Schwidefsky */ #ifndef _ZCRYPT_CCA_KEY_H_ #define _ZCRYPT_CCA_KEY_H_ struct T6_keyBlock_hdr { unsigned short blen; unsigned short ulen; unsigned short flags; }; /** * mapping for the cca private ME key token. * Three parts of interest here: the header, the private section and * the public section. * * mapping for the cca key token header */ struct cca_token_hdr { unsigned char token_identifier; unsigned char version; unsigned short token_length; unsigned char reserved[4]; } __attribute__((packed)); #define CCA_TKN_HDR_ID_EXT 0x1E #define CCA_PVT_USAGE_ALL 0x80 /** * mapping for the cca public section * In a private key, the modulus doesn't appear in the public * section. So, an arbitrary public exponent of 0x010001 will be * used, for a section length of 0x0F always. */ struct cca_public_sec { unsigned char section_identifier; unsigned char version; unsigned short section_length; unsigned char reserved[2]; unsigned short exponent_len; unsigned short modulus_bit_len; unsigned short modulus_byte_len; /* In a private key, this is 0 */ } __attribute__((packed)); /** * mapping for the cca private CRT key 'token' * The first three parts (the only parts considered in this release) * are: the header, the private section and the public section. * The header and public section are the same as for the * struct cca_private_ext_ME * * Following the structure are the quantities p, q, dp, dq, u, pad, * and modulus, in that order, where pad_len is the modulo 8 * complement of the residue modulo 8 of the sum of * (p_len + q_len + dp_len + dq_len + u_len). */ struct cca_pvt_ext_CRT_sec { unsigned char section_identifier; unsigned char version; unsigned short section_length; unsigned char private_key_hash[20]; unsigned char reserved1[4]; unsigned char key_format; unsigned char reserved2; unsigned char key_name_hash[20]; unsigned char key_use_flags[4]; unsigned short p_len; unsigned short q_len; unsigned short dp_len; unsigned short dq_len; unsigned short u_len; unsigned short mod_len; unsigned char reserved3[4]; unsigned short pad_len; unsigned char reserved4[52]; unsigned char confounder[8]; } __attribute__((packed)); #define CCA_PVT_EXT_CRT_SEC_ID_PVT 0x08 #define CCA_PVT_EXT_CRT_SEC_FMT_CL 0x40 /** * Set up private key fields of a type6 MEX message. The _pad variant * strips leading zeroes from the b_key. * Note that all numerics in the key token are big-endian, * while the entries in the key block header are little-endian. * * @mex: pointer to user input data * @p: pointer to memory area for the key * * Returns the size of the key area or negative errno value. */ static inline int zcrypt_type6_mex_key_en(struct ica_rsa_modexpo *mex, void *p) { static struct cca_token_hdr static_pub_hdr = { .token_identifier = 0x1E, }; static struct cca_public_sec static_pub_sec = { .section_identifier = 0x04, }; struct { struct T6_keyBlock_hdr t6_hdr; struct cca_token_hdr pubHdr; struct cca_public_sec pubSec; char exponent[0]; } __attribute__((packed)) *key = p; unsigned char *temp; int i; /* * The inputdatalength was a selection criteria in the dispatching * function zcrypt_rsa_modexpo(). However, do a plausibility check * here to make sure the following copy_from_user() can't be utilized * to compromise the system. */ if (WARN_ON_ONCE(mex->inputdatalength > 512)) return -EINVAL; memset(key, 0, sizeof(*key)); key->pubHdr = static_pub_hdr; key->pubSec = static_pub_sec; /* key parameter block */ temp = key->exponent; if (copy_from_user(temp, mex->b_key, mex->inputdatalength)) return -EFAULT; /* Strip leading zeroes from b_key. */ for (i = 0; i < mex->inputdatalength; i++) if (temp[i]) break; if (i >= mex->inputdatalength) return -EINVAL; memmove(temp, temp + i, mex->inputdatalength - i); temp += mex->inputdatalength - i; /* modulus */ if (copy_from_user(temp, mex->n_modulus, mex->inputdatalength)) return -EFAULT; key->pubSec.modulus_bit_len = 8 * mex->inputdatalength; key->pubSec.modulus_byte_len = mex->inputdatalength; key->pubSec.exponent_len = mex->inputdatalength - i; key->pubSec.section_length = sizeof(key->pubSec) + 2*mex->inputdatalength - i; key->pubHdr.token_length = key->pubSec.section_length + sizeof(key->pubHdr); key->t6_hdr.ulen = key->pubHdr.token_length + 4; key->t6_hdr.blen = key->pubHdr.token_length + 6; return sizeof(*key) + 2*mex->inputdatalength - i; } /** * Set up private key fields of a type6 CRT message. * Note that all numerics in the key token are big-endian, * while the entries in the key block header are little-endian. * * @mex: pointer to user input data * @p: pointer to memory area for the key * * Returns the size of the key area or -EFAULT */ static inline int zcrypt_type6_crt_key(struct ica_rsa_modexpo_crt *crt, void *p) { static struct cca_public_sec static_cca_pub_sec = { .section_identifier = 4, .section_length = 0x000f, .exponent_len = 0x0003, }; static char pk_exponent[3] = { 0x01, 0x00, 0x01 }; struct { struct T6_keyBlock_hdr t6_hdr; struct cca_token_hdr token; struct cca_pvt_ext_CRT_sec pvt; char key_parts[0]; } __attribute__((packed)) *key = p; struct cca_public_sec *pub; int short_len, long_len, pad_len, key_len, size; /* * The inputdatalength was a selection criteria in the dispatching * function zcrypt_rsa_crt(). However, do a plausibility check * here to make sure the following copy_from_user() can't be utilized * to compromise the system. */ if (WARN_ON_ONCE(crt->inputdatalength > 512)) return -EINVAL; memset(key, 0, sizeof(*key)); short_len = (crt->inputdatalength + 1) / 2; long_len = short_len + 8; pad_len = -(3*long_len + 2*short_len) & 7; key_len = 3*long_len + 2*short_len + pad_len + crt->inputdatalength; size = sizeof(*key) + key_len + sizeof(*pub) + 3; /* parameter block.key block */ key->t6_hdr.blen = size; key->t6_hdr.ulen = size - 2; /* key token header */ key->token.token_identifier = CCA_TKN_HDR_ID_EXT; key->token.token_length = size - 6; /* private section */ key->pvt.section_identifier = CCA_PVT_EXT_CRT_SEC_ID_PVT; key->pvt.section_length = sizeof(key->pvt) + key_len; key->pvt.key_format = CCA_PVT_EXT_CRT_SEC_FMT_CL; key->pvt.key_use_flags[0] = CCA_PVT_USAGE_ALL; key->pvt.p_len = key->pvt.dp_len = key->pvt.u_len = long_len; key->pvt.q_len = key->pvt.dq_len = short_len; key->pvt.mod_len = crt->inputdatalength; key->pvt.pad_len = pad_len; /* key parts */ if (copy_from_user(key->key_parts, crt->np_prime, long_len) || copy_from_user(key->key_parts + long_len, crt->nq_prime, short_len) || copy_from_user(key->key_parts + long_len + short_len, crt->bp_key, long_len) || copy_from_user(key->key_parts + 2*long_len + short_len, crt->bq_key, short_len) || copy_from_user(key->key_parts + 2*long_len + 2*short_len, crt->u_mult_inv, long_len)) return -EFAULT; memset(key->key_parts + 3*long_len + 2*short_len + pad_len, 0xff, crt->inputdatalength); pub = (struct cca_public_sec *)(key->key_parts + key_len); *pub = static_cca_pub_sec; pub->modulus_bit_len = 8 * crt->inputdatalength; /* * In a private key, the modulus doesn't appear in the public * section. So, an arbitrary public exponent of 0x010001 will be * used. */ memcpy((char *) (pub + 1), pk_exponent, 3); return size; } #endif /* _ZCRYPT_CCA_KEY_H_ */