271 строка
9.7 KiB
C
271 строка
9.7 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Copyright IBM Corp. 2019
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* Author(s): Harald Freudenberger <freude@linux.ibm.com>
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* Ingo Franzki <ifranzki@linux.ibm.com>
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*
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* Collection of CCA misc functions used by zcrypt and pkey
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*/
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#ifndef _ZCRYPT_CCAMISC_H_
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#define _ZCRYPT_CCAMISC_H_
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#include <asm/zcrypt.h>
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#include <asm/pkey.h>
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/* Key token types */
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#define TOKTYPE_NON_CCA 0x00 /* Non-CCA key token */
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#define TOKTYPE_CCA_INTERNAL 0x01 /* CCA internal sym key token */
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#define TOKTYPE_CCA_INTERNAL_PKA 0x1f /* CCA internal asym key token */
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/* For TOKTYPE_NON_CCA: */
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#define TOKVER_PROTECTED_KEY 0x01 /* Protected key token */
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#define TOKVER_CLEAR_KEY 0x02 /* Clear key token */
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/* For TOKTYPE_CCA_INTERNAL: */
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#define TOKVER_CCA_AES 0x04 /* CCA AES key token */
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#define TOKVER_CCA_VLSC 0x05 /* var length sym cipher key token */
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/* Max size of a cca variable length cipher key token */
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#define MAXCCAVLSCTOKENSIZE 725
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/* header part of a CCA key token */
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struct keytoken_header {
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u8 type; /* one of the TOKTYPE values */
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u8 res0[1];
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u16 len; /* vlsc token: total length in bytes */
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u8 version; /* one of the TOKVER values */
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u8 res1[3];
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} __packed;
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/* inside view of a CCA secure key token (only type 0x01 version 0x04) */
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struct secaeskeytoken {
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u8 type; /* 0x01 for internal key token */
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u8 res0[3];
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u8 version; /* should be 0x04 */
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u8 res1[1];
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u8 flag; /* key flags */
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u8 res2[1];
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u64 mkvp; /* master key verification pattern */
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u8 key[32]; /* key value (encrypted) */
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u8 cv[8]; /* control vector */
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u16 bitsize; /* key bit size */
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u16 keysize; /* key byte size */
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u8 tvv[4]; /* token validation value */
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} __packed;
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/* inside view of a variable length symmetric cipher AES key token */
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struct cipherkeytoken {
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u8 type; /* 0x01 for internal key token */
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u8 res0[1];
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u16 len; /* total key token length in bytes */
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u8 version; /* should be 0x05 */
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u8 res1[3];
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u8 kms; /* key material state, 0x03 means wrapped with MK */
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u8 kvpt; /* key verification pattern type, should be 0x01 */
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u64 mkvp0; /* master key verification pattern, lo part */
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u64 mkvp1; /* master key verification pattern, hi part (unused) */
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u8 eskwm; /* encrypted section key wrapping method */
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u8 hashalg; /* hash algorithmus used for wrapping key */
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u8 plfver; /* pay load format version */
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u8 res2[1];
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u8 adsver; /* associated data section version */
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u8 res3[1];
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u16 adslen; /* associated data section length */
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u8 kllen; /* optional key label length */
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u8 ieaslen; /* optional extended associated data length */
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u8 uadlen; /* optional user definable associated data length */
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u8 res4[1];
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u16 wpllen; /* wrapped payload length in bits: */
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/* plfver 0x00 0x01 */
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/* AES-128 512 640 */
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/* AES-192 576 640 */
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/* AES-256 640 640 */
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u8 res5[1];
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u8 algtype; /* 0x02 for AES cipher */
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u16 keytype; /* 0x0001 for 'cipher' */
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u8 kufc; /* key usage field count */
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u16 kuf1; /* key usage field 1 */
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u16 kuf2; /* key usage field 2 */
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u8 kmfc; /* key management field count */
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u16 kmf1; /* key management field 1 */
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u16 kmf2; /* key management field 2 */
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u16 kmf3; /* key management field 3 */
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u8 vdata[]; /* variable part data follows */
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} __packed;
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/* inside view of an CCA secure ECC private key */
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struct eccprivkeytoken {
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u8 type; /* 0x1f for internal asym key token */
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u8 version; /* should be 0x00 */
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u16 len; /* total key token length in bytes */
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u8 res1[4];
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u8 secid; /* 0x20 for ECC priv key section marker */
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u8 secver; /* section version */
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u16 seclen; /* section length */
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u8 wtype; /* wrapping method, 0x00 clear, 0x01 AES */
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u8 htype; /* hash method, 0x02 for SHA-256 */
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u8 res2[2];
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u8 kutc; /* key usage and translation control */
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u8 ctype; /* curve type */
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u8 kfs; /* key format and security */
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u8 ksrc; /* key source */
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u16 pbitlen; /* length of prime p in bits */
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u16 ibmadlen; /* IBM associated data length in bytes */
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u64 mkvp; /* master key verification pattern */
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u8 opk[48]; /* encrypted object protection key data */
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u16 adatalen; /* associated data length in bytes */
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u16 fseclen; /* formated section length in bytes */
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u8 more_data[]; /* more data follows */
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} __packed;
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/* Some defines for the CCA AES cipherkeytoken kmf1 field */
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#define KMF1_XPRT_SYM 0x8000
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#define KMF1_XPRT_UASY 0x4000
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#define KMF1_XPRT_AASY 0x2000
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#define KMF1_XPRT_RAW 0x1000
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#define KMF1_XPRT_CPAC 0x0800
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#define KMF1_XPRT_DES 0x0080
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#define KMF1_XPRT_AES 0x0040
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#define KMF1_XPRT_RSA 0x0008
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/*
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* Simple check if the token is a valid CCA secure AES data key
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* token. If keybitsize is given, the bitsize of the key is
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* also checked. Returns 0 on success or errno value on failure.
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*/
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int cca_check_secaeskeytoken(debug_info_t *dbg, int dbflvl,
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const u8 *token, int keybitsize);
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/*
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* Simple check if the token is a valid CCA secure AES cipher key
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* token. If keybitsize is given, the bitsize of the key is
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* also checked. If checkcpacfexport is enabled, the key is also
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* checked for the export flag to allow CPACF export.
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* Returns 0 on success or errno value on failure.
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*/
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int cca_check_secaescipherkey(debug_info_t *dbg, int dbflvl,
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const u8 *token, int keybitsize,
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int checkcpacfexport);
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/*
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* Simple check if the token is a valid CCA secure ECC private
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* key token. Returns 0 on success or errno value on failure.
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*/
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int cca_check_sececckeytoken(debug_info_t *dbg, int dbflvl,
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const u8 *token, size_t keysize,
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int checkcpacfexport);
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/*
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* Generate (random) CCA AES DATA secure key.
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*/
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int cca_genseckey(u16 cardnr, u16 domain, u32 keybitsize, u8 *seckey);
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/*
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* Generate CCA AES DATA secure key with given clear key value.
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*/
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int cca_clr2seckey(u16 cardnr, u16 domain, u32 keybitsize,
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const u8 *clrkey, u8 *seckey);
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/*
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* Derive proteced key from an CCA AES DATA secure key.
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*/
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int cca_sec2protkey(u16 cardnr, u16 domain,
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const u8 *seckey, u8 *protkey, u32 *protkeylen,
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u32 *protkeytype);
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/*
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* Generate (random) CCA AES CIPHER secure key.
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*/
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int cca_gencipherkey(u16 cardnr, u16 domain, u32 keybitsize, u32 keygenflags,
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u8 *keybuf, size_t *keybufsize);
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/*
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* Derive proteced key from CCA AES cipher secure key.
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*/
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int cca_cipher2protkey(u16 cardnr, u16 domain, const u8 *ckey,
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u8 *protkey, u32 *protkeylen, u32 *protkeytype);
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/*
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* Build CCA AES CIPHER secure key with a given clear key value.
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*/
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int cca_clr2cipherkey(u16 cardnr, u16 domain, u32 keybitsize, u32 keygenflags,
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const u8 *clrkey, u8 *keybuf, size_t *keybufsize);
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/*
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* Derive proteced key from CCA ECC secure private key.
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*/
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int cca_ecc2protkey(u16 cardnr, u16 domain, const u8 *key,
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u8 *protkey, u32 *protkeylen, u32 *protkeytype);
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/*
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* Query cryptographic facility from CCA adapter
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*/
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int cca_query_crypto_facility(u16 cardnr, u16 domain,
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const char *keyword,
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u8 *rarray, size_t *rarraylen,
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u8 *varray, size_t *varraylen);
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/*
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* Search for a matching crypto card based on the Master Key
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* Verification Pattern provided inside a secure key.
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* Works with CCA AES data and cipher keys.
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* Returns < 0 on failure, 0 if CURRENT MKVP matches and
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* 1 if OLD MKVP matches.
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*/
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int cca_findcard(const u8 *key, u16 *pcardnr, u16 *pdomain, int verify);
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/*
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* Build a list of cca apqns meeting the following constrains:
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* - apqn is online and is in fact a CCA apqn
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* - if cardnr is not FFFF only apqns with this cardnr
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* - if domain is not FFFF only apqns with this domainnr
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* - if minhwtype > 0 only apqns with hwtype >= minhwtype
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* - if cur_mkvp != 0 only apqns where cur_mkvp == mkvp
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* - if old_mkvp != 0 only apqns where old_mkvp == mkvp
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* - if verify is enabled and a cur_mkvp and/or old_mkvp
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* value is given, then refetch the cca_info and make sure the current
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* cur_mkvp or old_mkvp values of the apqn are used.
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* The mktype determines which set of master keys to use:
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* 0 = AES_MK_SET - AES MK set, 1 = APKA MK_SET - APKA MK set
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* The array of apqn entries is allocated with kmalloc and returned in *apqns;
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* the number of apqns stored into the list is returned in *nr_apqns. One apqn
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* entry is simple a 32 bit value with 16 bit cardnr and 16 bit domain nr and
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* may be casted to struct pkey_apqn. The return value is either 0 for success
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* or a negative errno value. If no apqn meeting the criterias is found,
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* -ENODEV is returned.
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*/
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int cca_findcard2(u32 **apqns, u32 *nr_apqns, u16 cardnr, u16 domain,
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int minhwtype, int mktype, u64 cur_mkvp, u64 old_mkvp,
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int verify);
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#define AES_MK_SET 0
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#define APKA_MK_SET 1
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/* struct to hold info for each CCA queue */
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struct cca_info {
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int hwtype; /* one of the defined AP_DEVICE_TYPE_* */
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char new_aes_mk_state; /* '1' empty, '2' partially full, '3' full */
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char cur_aes_mk_state; /* '1' invalid, '2' valid */
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char old_aes_mk_state; /* '1' invalid, '2' valid */
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char new_apka_mk_state; /* '1' empty, '2' partially full, '3' full */
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char cur_apka_mk_state; /* '1' invalid, '2' valid */
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char old_apka_mk_state; /* '1' invalid, '2' valid */
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u64 new_aes_mkvp; /* truncated sha256 of new aes master key */
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u64 cur_aes_mkvp; /* truncated sha256 of current aes master key */
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u64 old_aes_mkvp; /* truncated sha256 of old aes master key */
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u64 new_apka_mkvp; /* truncated sha256 of new apka master key */
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u64 cur_apka_mkvp; /* truncated sha256 of current apka mk */
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u64 old_apka_mkvp; /* truncated sha256 of old apka mk */
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char serial[9]; /* serial number (8 ascii numbers + 0x00) */
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};
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/*
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* Fetch cca information about an CCA queue.
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*/
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int cca_get_info(u16 card, u16 dom, struct cca_info *ci, int verify);
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void zcrypt_ccamisc_exit(void);
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#endif /* _ZCRYPT_CCAMISC_H_ */
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