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|
/* $OpenBSD: cryptosoft.c,v 1.35 2002/04/26 08:43:50 deraadt Exp $ */
/*-
* The author of this code is Angelos D. Keromytis (angelos@cis.upenn.edu)
* Copyright (c) 2002-2006 Sam Leffler, Errno Consulting
*
* This code was written by Angelos D. Keromytis in Athens, Greece, in
* February 2000. Network Security Technologies Inc. (NSTI) kindly
* supported the development of this code.
*
* Copyright (c) 2000, 2001 Angelos D. Keromytis
*
* Permission to use, copy, and modify this software with or without fee
* is hereby granted, provided that this entire notice is included in
* all source code copies of any software which is or includes a copy or
* modification of this software.
*
* THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR
* IMPLIED WARRANTY. IN PARTICULAR, NONE OF THE AUTHORS MAKES ANY
* REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE
* MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR
* PURPOSE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/mbuf.h>
#include <sys/module.h>
#include <sys/sysctl.h>
#include <sys/errno.h>
#include <sys/random.h>
#include <sys/kernel.h>
#include <sys/uio.h>
#include <crypto/blowfish/blowfish.h>
#include <crypto/sha1.h>
#include <opencrypto/rmd160.h>
#include <opencrypto/cast.h>
#include <opencrypto/skipjack.h>
#include <sys/md5.h>
#include <opencrypto/cryptodev.h>
#include <opencrypto/cryptosoft.h>
#include <opencrypto/xform.h>
#include <sys/kobj.h>
#include <sys/bus.h>
#include "cryptodev_if.h"
static int32_t swcr_id;
static struct swcr_data **swcr_sessions = NULL;
static u_int32_t swcr_sesnum;
u_int8_t hmac_ipad_buffer[HMAC_MAX_BLOCK_LEN];
u_int8_t hmac_opad_buffer[HMAC_MAX_BLOCK_LEN];
static int swcr_encdec(struct cryptodesc *, struct swcr_data *, caddr_t, int);
static int swcr_authcompute(struct cryptodesc *, struct swcr_data *, caddr_t, int);
static int swcr_compdec(struct cryptodesc *, struct swcr_data *, caddr_t, int);
static int swcr_freesession(device_t dev, u_int64_t tid);
/*
* Apply a symmetric encryption/decryption algorithm.
*/
static int
swcr_encdec(struct cryptodesc *crd, struct swcr_data *sw, caddr_t buf,
int flags)
{
unsigned char iv[EALG_MAX_BLOCK_LEN], blk[EALG_MAX_BLOCK_LEN], *idat;
unsigned char *ivp, piv[EALG_MAX_BLOCK_LEN];
struct enc_xform *exf;
int i, k, j, blks;
exf = sw->sw_exf;
blks = exf->blocksize;
/* Check for non-padded data */
if (crd->crd_len % blks)
return EINVAL;
/* Initialize the IV */
if (crd->crd_flags & CRD_F_ENCRYPT) {
/* IV explicitly provided ? */
if (crd->crd_flags & CRD_F_IV_EXPLICIT)
bcopy(crd->crd_iv, iv, blks);
else
arc4rand(iv, blks, 0);
/* Do we need to write the IV */
if (!(crd->crd_flags & CRD_F_IV_PRESENT))
crypto_copyback(flags, buf, crd->crd_inject, blks, iv);
} else { /* Decryption */
/* IV explicitly provided ? */
if (crd->crd_flags & CRD_F_IV_EXPLICIT)
bcopy(crd->crd_iv, iv, blks);
else {
/* Get IV off buf */
crypto_copydata(flags, buf, crd->crd_inject, blks, iv);
}
}
if (crd->crd_flags & CRD_F_KEY_EXPLICIT) {
int error;
if (sw->sw_kschedule)
exf->zerokey(&(sw->sw_kschedule));
error = exf->setkey(&sw->sw_kschedule,
crd->crd_key, crd->crd_klen / 8);
if (error)
return (error);
}
ivp = iv;
/*
* xforms that provide a reinit method perform all IV
* handling themselves.
*/
if (exf->reinit)
exf->reinit(sw->sw_kschedule, iv);
if (flags & CRYPTO_F_IMBUF) {
struct mbuf *m = (struct mbuf *) buf;
/* Find beginning of data */
m = m_getptr(m, crd->crd_skip, &k);
if (m == NULL)
return EINVAL;
i = crd->crd_len;
while (i > 0) {
/*
* If there's insufficient data at the end of
* an mbuf, we have to do some copying.
*/
if (m->m_len < k + blks && m->m_len != k) {
m_copydata(m, k, blks, blk);
/* Actual encryption/decryption */
if (exf->reinit) {
if (crd->crd_flags & CRD_F_ENCRYPT) {
exf->encrypt(sw->sw_kschedule,
blk);
} else {
exf->decrypt(sw->sw_kschedule,
blk);
}
} else if (crd->crd_flags & CRD_F_ENCRYPT) {
/* XOR with previous block */
for (j = 0; j < blks; j++)
blk[j] ^= ivp[j];
exf->encrypt(sw->sw_kschedule, blk);
/*
* Keep encrypted block for XOR'ing
* with next block
*/
bcopy(blk, iv, blks);
ivp = iv;
} else { /* decrypt */
/*
* Keep encrypted block for XOR'ing
* with next block
*/
if (ivp == iv)
bcopy(blk, piv, blks);
else
bcopy(blk, iv, blks);
exf->decrypt(sw->sw_kschedule, blk);
/* XOR with previous block */
for (j = 0; j < blks; j++)
blk[j] ^= ivp[j];
if (ivp == iv)
bcopy(piv, iv, blks);
else
ivp = iv;
}
/* Copy back decrypted block */
m_copyback(m, k, blks, blk);
/* Advance pointer */
m = m_getptr(m, k + blks, &k);
if (m == NULL)
return EINVAL;
i -= blks;
/* Could be done... */
if (i == 0)
break;
}
/* Skip possibly empty mbufs */
if (k == m->m_len) {
for (m = m->m_next; m && m->m_len == 0;
m = m->m_next)
;
k = 0;
}
/* Sanity check */
if (m == NULL)
return EINVAL;
/*
* Warning: idat may point to garbage here, but
* we only use it in the while() loop, only if
* there are indeed enough data.
*/
idat = mtod(m, unsigned char *) + k;
while (m->m_len >= k + blks && i > 0) {
if (exf->reinit) {
if (crd->crd_flags & CRD_F_ENCRYPT) {
exf->encrypt(sw->sw_kschedule,
idat);
} else {
exf->decrypt(sw->sw_kschedule,
idat);
}
} else if (crd->crd_flags & CRD_F_ENCRYPT) {
/* XOR with previous block/IV */
for (j = 0; j < blks; j++)
idat[j] ^= ivp[j];
exf->encrypt(sw->sw_kschedule, idat);
ivp = idat;
} else { /* decrypt */
/*
* Keep encrypted block to be used
* in next block's processing.
*/
if (ivp == iv)
bcopy(idat, piv, blks);
else
bcopy(idat, iv, blks);
exf->decrypt(sw->sw_kschedule, idat);
/* XOR with previous block/IV */
for (j = 0; j < blks; j++)
idat[j] ^= ivp[j];
if (ivp == iv)
bcopy(piv, iv, blks);
else
ivp = iv;
}
idat += blks;
k += blks;
i -= blks;
}
}
return 0; /* Done with mbuf encryption/decryption */
} else if (flags & CRYPTO_F_IOV) {
struct uio *uio = (struct uio *) buf;
struct iovec *iov;
/* Find beginning of data */
iov = cuio_getptr(uio, crd->crd_skip, &k);
if (iov == NULL)
return EINVAL;
i = crd->crd_len;
while (i > 0) {
/*
* If there's insufficient data at the end of
* an iovec, we have to do some copying.
*/
if (iov->iov_len < k + blks && iov->iov_len != k) {
cuio_copydata(uio, k, blks, blk);
/* Actual encryption/decryption */
if (exf->reinit) {
if (crd->crd_flags & CRD_F_ENCRYPT) {
exf->encrypt(sw->sw_kschedule,
blk);
} else {
exf->decrypt(sw->sw_kschedule,
blk);
}
} else if (crd->crd_flags & CRD_F_ENCRYPT) {
/* XOR with previous block */
for (j = 0; j < blks; j++)
blk[j] ^= ivp[j];
exf->encrypt(sw->sw_kschedule, blk);
/*
* Keep encrypted block for XOR'ing
* with next block
*/
bcopy(blk, iv, blks);
ivp = iv;
} else { /* decrypt */
/*
* Keep encrypted block for XOR'ing
* with next block
*/
if (ivp == iv)
bcopy(blk, piv, blks);
else
bcopy(blk, iv, blks);
exf->decrypt(sw->sw_kschedule, blk);
/* XOR with previous block */
for (j = 0; j < blks; j++)
blk[j] ^= ivp[j];
if (ivp == iv)
bcopy(piv, iv, blks);
else
ivp = iv;
}
/* Copy back decrypted block */
cuio_copyback(uio, k, blks, blk);
/* Advance pointer */
iov = cuio_getptr(uio, k + blks, &k);
if (iov == NULL)
return EINVAL;
i -= blks;
/* Could be done... */
if (i == 0)
break;
}
/*
* Warning: idat may point to garbage here, but
* we only use it in the while() loop, only if
* there are indeed enough data.
*/
idat = (char *)iov->iov_base + k;
while (iov->iov_len >= k + blks && i > 0) {
if (exf->reinit) {
if (crd->crd_flags & CRD_F_ENCRYPT) {
exf->encrypt(sw->sw_kschedule,
idat);
} else {
exf->decrypt(sw->sw_kschedule,
idat);
}
} else if (crd->crd_flags & CRD_F_ENCRYPT) {
/* XOR with previous block/IV */
for (j = 0; j < blks; j++)
idat[j] ^= ivp[j];
exf->encrypt(sw->sw_kschedule, idat);
ivp = idat;
} else { /* decrypt */
/*
* Keep encrypted block to be used
* in next block's processing.
*/
if (ivp == iv)
bcopy(idat, piv, blks);
else
bcopy(idat, iv, blks);
exf->decrypt(sw->sw_kschedule, idat);
/* XOR with previous block/IV */
for (j = 0; j < blks; j++)
idat[j] ^= ivp[j];
if (ivp == iv)
bcopy(piv, iv, blks);
else
ivp = iv;
}
idat += blks;
k += blks;
i -= blks;
}
if (k == iov->iov_len) {
iov++;
k = 0;
}
}
return 0; /* Done with iovec encryption/decryption */
} else { /* contiguous buffer */
if (exf->reinit) {
for (i = crd->crd_skip;
i < crd->crd_skip + crd->crd_len; i += blks) {
if (crd->crd_flags & CRD_F_ENCRYPT)
exf->encrypt(sw->sw_kschedule, buf + i);
else
exf->decrypt(sw->sw_kschedule, buf + i);
}
} else if (crd->crd_flags & CRD_F_ENCRYPT) {
for (i = crd->crd_skip;
i < crd->crd_skip + crd->crd_len; i += blks) {
/* XOR with the IV/previous block, as appropriate. */
if (i == crd->crd_skip)
for (k = 0; k < blks; k++)
buf[i + k] ^= ivp[k];
else
for (k = 0; k < blks; k++)
buf[i + k] ^= buf[i + k - blks];
exf->encrypt(sw->sw_kschedule, buf + i);
}
} else { /* Decrypt */
/*
* Start at the end, so we don't need to keep the encrypted
* block as the IV for the next block.
*/
for (i = crd->crd_skip + crd->crd_len - blks;
i >= crd->crd_skip; i -= blks) {
exf->decrypt(sw->sw_kschedule, buf + i);
/* XOR with the IV/previous block, as appropriate */
if (i == crd->crd_skip)
for (k = 0; k < blks; k++)
buf[i + k] ^= ivp[k];
else
for (k = 0; k < blks; k++)
buf[i + k] ^= buf[i + k - blks];
}
}
return 0; /* Done with contiguous buffer encryption/decryption */
}
/* Unreachable */
return EINVAL;
}
static void
swcr_authprepare(struct auth_hash *axf, struct swcr_data *sw, u_char *key,
int klen)
{
int k;
klen /= 8;
switch (axf->type) {
case CRYPTO_MD5_HMAC:
case CRYPTO_SHA1_HMAC:
case CRYPTO_SHA2_256_HMAC:
case CRYPTO_SHA2_384_HMAC:
case CRYPTO_SHA2_512_HMAC:
case CRYPTO_NULL_HMAC:
case CRYPTO_RIPEMD160_HMAC:
for (k = 0; k < klen; k++)
key[k] ^= HMAC_IPAD_VAL;
axf->Init(sw->sw_ictx);
axf->Update(sw->sw_ictx, key, klen);
axf->Update(sw->sw_ictx, hmac_ipad_buffer, axf->blocksize - klen);
for (k = 0; k < klen; k++)
key[k] ^= (HMAC_IPAD_VAL ^ HMAC_OPAD_VAL);
axf->Init(sw->sw_octx);
axf->Update(sw->sw_octx, key, klen);
axf->Update(sw->sw_octx, hmac_opad_buffer, axf->blocksize - klen);
for (k = 0; k < klen; k++)
key[k] ^= HMAC_OPAD_VAL;
break;
case CRYPTO_MD5_KPDK:
case CRYPTO_SHA1_KPDK:
{
/*
* We need a buffer that can hold an md5 and a sha1 result
* just to throw it away.
* What we do here is the initial part of:
* ALGO( key, keyfill, .. )
* adding the key to sw_ictx and abusing Final() to get the
* "keyfill" padding.
* In addition we abuse the sw_octx to save the key to have
* it to be able to append it at the end in swcr_authcompute().
*/
u_char buf[SHA1_RESULTLEN];
sw->sw_klen = klen;
bcopy(key, sw->sw_octx, klen);
axf->Init(sw->sw_ictx);
axf->Update(sw->sw_ictx, key, klen);
axf->Final(buf, sw->sw_ictx);
break;
}
default:
printf("%s: CRD_F_KEY_EXPLICIT flag given, but algorithm %d "
"doesn't use keys.\n", __func__, axf->type);
}
}
/*
* Compute keyed-hash authenticator.
*/
static int
swcr_authcompute(struct cryptodesc *crd, struct swcr_data *sw, caddr_t buf,
int flags)
{
unsigned char aalg[HASH_MAX_LEN];
struct auth_hash *axf;
union authctx ctx;
int err;
if (sw->sw_ictx == 0)
return EINVAL;
axf = sw->sw_axf;
if (crd->crd_flags & CRD_F_KEY_EXPLICIT)
swcr_authprepare(axf, sw, crd->crd_key, crd->crd_klen);
bcopy(sw->sw_ictx, &ctx, axf->ctxsize);
err = crypto_apply(flags, buf, crd->crd_skip, crd->crd_len,
(int (*)(void *, void *, unsigned int))axf->Update, (caddr_t)&ctx);
if (err)
return err;
switch (sw->sw_alg) {
case CRYPTO_MD5_HMAC:
case CRYPTO_SHA1_HMAC:
case CRYPTO_SHA2_256_HMAC:
case CRYPTO_SHA2_384_HMAC:
case CRYPTO_SHA2_512_HMAC:
case CRYPTO_RIPEMD160_HMAC:
if (sw->sw_octx == NULL)
return EINVAL;
axf->Final(aalg, &ctx);
bcopy(sw->sw_octx, &ctx, axf->ctxsize);
axf->Update(&ctx, aalg, axf->hashsize);
axf->Final(aalg, &ctx);
break;
case CRYPTO_MD5_KPDK:
case CRYPTO_SHA1_KPDK:
/* If we have no key saved, return error. */
if (sw->sw_octx == NULL)
return EINVAL;
/*
* Add the trailing copy of the key (see comment in
* swcr_authprepare()) after the data:
* ALGO( .., key, algofill )
* and let Final() do the proper, natural "algofill"
* padding.
*/
axf->Update(&ctx, sw->sw_octx, sw->sw_klen);
axf->Final(aalg, &ctx);
break;
case CRYPTO_NULL_HMAC:
axf->Final(aalg, &ctx);
break;
}
/* Inject the authentication data */
crypto_copyback(flags, buf, crd->crd_inject,
sw->sw_mlen == 0 ? axf->hashsize : sw->sw_mlen, aalg);
return 0;
}
/*
* Apply a compression/decompression algorithm
*/
static int
swcr_compdec(struct cryptodesc *crd, struct swcr_data *sw,
caddr_t buf, int flags)
{
u_int8_t *data, *out;
struct comp_algo *cxf;
int adj;
u_int32_t result;
cxf = sw->sw_cxf;
/* We must handle the whole buffer of data in one time
* then if there is not all the data in the mbuf, we must
* copy in a buffer.
*/
data = malloc(crd->crd_len, M_CRYPTO_DATA, M_NOWAIT);
if (data == NULL)
return (EINVAL);
crypto_copydata(flags, buf, crd->crd_skip, crd->crd_len, data);
if (crd->crd_flags & CRD_F_COMP)
result = cxf->compress(data, crd->crd_len, &out);
else
result = cxf->decompress(data, crd->crd_len, &out);
free(data, M_CRYPTO_DATA);
if (result == 0)
return EINVAL;
/* Copy back the (de)compressed data. m_copyback is
* extending the mbuf as necessary.
*/
sw->sw_size = result;
/* Check the compressed size when doing compression */
if (crd->crd_flags & CRD_F_COMP) {
if (result >= crd->crd_len) {
/* Compression was useless, we lost time */
free(out, M_CRYPTO_DATA);
return 0;
}
}
crypto_copyback(flags, buf, crd->crd_skip, result, out);
if (result < crd->crd_len) {
adj = result - crd->crd_len;
if (flags & CRYPTO_F_IMBUF) {
adj = result - crd->crd_len;
m_adj((struct mbuf *)buf, adj);
} else if (flags & CRYPTO_F_IOV) {
struct uio *uio = (struct uio *)buf;
int ind;
adj = crd->crd_len - result;
ind = uio->uio_iovcnt - 1;
while (adj > 0 && ind >= 0) {
if (adj < uio->uio_iov[ind].iov_len) {
uio->uio_iov[ind].iov_len -= adj;
break;
}
adj -= uio->uio_iov[ind].iov_len;
uio->uio_iov[ind].iov_len = 0;
ind--;
uio->uio_iovcnt--;
}
}
}
free(out, M_CRYPTO_DATA);
return 0;
}
/*
* Generate a new software session.
*/
static int
swcr_newsession(device_t dev, u_int32_t *sid, struct cryptoini *cri)
{
struct swcr_data **swd;
struct auth_hash *axf;
struct enc_xform *txf;
struct comp_algo *cxf;
u_int32_t i;
int error;
if (sid == NULL || cri == NULL)
return EINVAL;
if (swcr_sessions) {
for (i = 1; i < swcr_sesnum; i++)
if (swcr_sessions[i] == NULL)
break;
} else
i = 1; /* NB: to silence compiler warning */
if (swcr_sessions == NULL || i == swcr_sesnum) {
if (swcr_sessions == NULL) {
i = 1; /* We leave swcr_sessions[0] empty */
swcr_sesnum = CRYPTO_SW_SESSIONS;
} else
swcr_sesnum *= 2;
swd = malloc(swcr_sesnum * sizeof(struct swcr_data *),
M_CRYPTO_DATA, M_NOWAIT|M_ZERO);
if (swd == NULL) {
/* Reset session number */
if (swcr_sesnum == CRYPTO_SW_SESSIONS)
swcr_sesnum = 0;
else
swcr_sesnum /= 2;
return ENOBUFS;
}
/* Copy existing sessions */
if (swcr_sessions != NULL) {
bcopy(swcr_sessions, swd,
(swcr_sesnum / 2) * sizeof(struct swcr_data *));
free(swcr_sessions, M_CRYPTO_DATA);
}
swcr_sessions = swd;
}
swd = &swcr_sessions[i];
*sid = i;
while (cri) {
*swd = malloc(sizeof(struct swcr_data),
M_CRYPTO_DATA, M_NOWAIT|M_ZERO);
if (*swd == NULL) {
swcr_freesession(dev, i);
return ENOBUFS;
}
switch (cri->cri_alg) {
case CRYPTO_DES_CBC:
txf = &enc_xform_des;
goto enccommon;
case CRYPTO_3DES_CBC:
txf = &enc_xform_3des;
goto enccommon;
case CRYPTO_BLF_CBC:
txf = &enc_xform_blf;
goto enccommon;
case CRYPTO_CAST_CBC:
txf = &enc_xform_cast5;
goto enccommon;
case CRYPTO_SKIPJACK_CBC:
txf = &enc_xform_skipjack;
goto enccommon;
case CRYPTO_RIJNDAEL128_CBC:
txf = &enc_xform_rijndael128;
goto enccommon;
case CRYPTO_AES_XTS:
txf = &enc_xform_aes_xts;
goto enccommon;
case CRYPTO_CAMELLIA_CBC:
txf = &enc_xform_camellia;
goto enccommon;
case CRYPTO_NULL_CBC:
txf = &enc_xform_null;
goto enccommon;
enccommon:
if (cri->cri_key != NULL) {
error = txf->setkey(&((*swd)->sw_kschedule),
cri->cri_key, cri->cri_klen / 8);
if (error) {
swcr_freesession(dev, i);
return error;
}
}
(*swd)->sw_exf = txf;
break;
case CRYPTO_MD5_HMAC:
axf = &auth_hash_hmac_md5;
goto authcommon;
case CRYPTO_SHA1_HMAC:
axf = &auth_hash_hmac_sha1;
goto authcommon;
case CRYPTO_SHA2_256_HMAC:
axf = &auth_hash_hmac_sha2_256;
goto authcommon;
case CRYPTO_SHA2_384_HMAC:
axf = &auth_hash_hmac_sha2_384;
goto authcommon;
case CRYPTO_SHA2_512_HMAC:
axf = &auth_hash_hmac_sha2_512;
goto authcommon;
case CRYPTO_NULL_HMAC:
axf = &auth_hash_null;
goto authcommon;
case CRYPTO_RIPEMD160_HMAC:
axf = &auth_hash_hmac_ripemd_160;
authcommon:
(*swd)->sw_ictx = malloc(axf->ctxsize, M_CRYPTO_DATA,
M_NOWAIT);
if ((*swd)->sw_ictx == NULL) {
swcr_freesession(dev, i);
return ENOBUFS;
}
(*swd)->sw_octx = malloc(axf->ctxsize, M_CRYPTO_DATA,
M_NOWAIT);
if ((*swd)->sw_octx == NULL) {
swcr_freesession(dev, i);
return ENOBUFS;
}
if (cri->cri_key != NULL) {
swcr_authprepare(axf, *swd, cri->cri_key,
cri->cri_klen);
}
(*swd)->sw_mlen = cri->cri_mlen;
(*swd)->sw_axf = axf;
break;
case CRYPTO_MD5_KPDK:
axf = &auth_hash_key_md5;
goto auth2common;
case CRYPTO_SHA1_KPDK:
axf = &auth_hash_key_sha1;
auth2common:
(*swd)->sw_ictx = malloc(axf->ctxsize, M_CRYPTO_DATA,
M_NOWAIT);
if ((*swd)->sw_ictx == NULL) {
swcr_freesession(dev, i);
return ENOBUFS;
}
(*swd)->sw_octx = malloc(cri->cri_klen / 8,
M_CRYPTO_DATA, M_NOWAIT);
if ((*swd)->sw_octx == NULL) {
swcr_freesession(dev, i);
return ENOBUFS;
}
/* Store the key so we can "append" it to the payload */
if (cri->cri_key != NULL) {
swcr_authprepare(axf, *swd, cri->cri_key,
cri->cri_klen);
}
(*swd)->sw_mlen = cri->cri_mlen;
(*swd)->sw_axf = axf;
break;
#ifdef notdef
case CRYPTO_MD5:
axf = &auth_hash_md5;
goto auth3common;
case CRYPTO_SHA1:
axf = &auth_hash_sha1;
auth3common:
(*swd)->sw_ictx = malloc(axf->ctxsize, M_CRYPTO_DATA,
M_NOWAIT);
if ((*swd)->sw_ictx == NULL) {
swcr_freesession(dev, i);
return ENOBUFS;
}
axf->Init((*swd)->sw_ictx);
(*swd)->sw_mlen = cri->cri_mlen;
(*swd)->sw_axf = axf;
break;
#endif
case CRYPTO_DEFLATE_COMP:
cxf = &comp_algo_deflate;
(*swd)->sw_cxf = cxf;
break;
default:
swcr_freesession(dev, i);
return EINVAL;
}
(*swd)->sw_alg = cri->cri_alg;
cri = cri->cri_next;
swd = &((*swd)->sw_next);
}
return 0;
}
/*
* Free a session.
*/
static int
swcr_freesession(device_t dev, u_int64_t tid)
{
struct swcr_data *swd;
struct enc_xform *txf;
struct auth_hash *axf;
struct comp_algo *cxf;
u_int32_t sid = CRYPTO_SESID2LID(tid);
if (sid > swcr_sesnum || swcr_sessions == NULL ||
swcr_sessions[sid] == NULL)
return EINVAL;
/* Silently accept and return */
if (sid == 0)
return 0;
while ((swd = swcr_sessions[sid]) != NULL) {
swcr_sessions[sid] = swd->sw_next;
switch (swd->sw_alg) {
case CRYPTO_DES_CBC:
case CRYPTO_3DES_CBC:
case CRYPTO_BLF_CBC:
case CRYPTO_CAST_CBC:
case CRYPTO_SKIPJACK_CBC:
case CRYPTO_RIJNDAEL128_CBC:
case CRYPTO_AES_XTS:
case CRYPTO_CAMELLIA_CBC:
case CRYPTO_NULL_CBC:
txf = swd->sw_exf;
if (swd->sw_kschedule)
txf->zerokey(&(swd->sw_kschedule));
break;
case CRYPTO_MD5_HMAC:
case CRYPTO_SHA1_HMAC:
case CRYPTO_SHA2_256_HMAC:
case CRYPTO_SHA2_384_HMAC:
case CRYPTO_SHA2_512_HMAC:
case CRYPTO_RIPEMD160_HMAC:
case CRYPTO_NULL_HMAC:
axf = swd->sw_axf;
if (swd->sw_ictx) {
bzero(swd->sw_ictx, axf->ctxsize);
free(swd->sw_ictx, M_CRYPTO_DATA);
}
if (swd->sw_octx) {
bzero(swd->sw_octx, axf->ctxsize);
free(swd->sw_octx, M_CRYPTO_DATA);
}
break;
case CRYPTO_MD5_KPDK:
case CRYPTO_SHA1_KPDK:
axf = swd->sw_axf;
if (swd->sw_ictx) {
bzero(swd->sw_ictx, axf->ctxsize);
free(swd->sw_ictx, M_CRYPTO_DATA);
}
if (swd->sw_octx) {
bzero(swd->sw_octx, swd->sw_klen);
free(swd->sw_octx, M_CRYPTO_DATA);
}
break;
case CRYPTO_MD5:
case CRYPTO_SHA1:
axf = swd->sw_axf;
if (swd->sw_ictx)
free(swd->sw_ictx, M_CRYPTO_DATA);
break;
case CRYPTO_DEFLATE_COMP:
cxf = swd->sw_cxf;
break;
}
free(swd, M_CRYPTO_DATA);
}
return 0;
}
/*
* Process a software request.
*/
static int
swcr_process(device_t dev, struct cryptop *crp, int hint)
{
struct cryptodesc *crd;
struct swcr_data *sw;
u_int32_t lid;
/* Sanity check */
if (crp == NULL)
return EINVAL;
if (crp->crp_desc == NULL || crp->crp_buf == NULL) {
crp->crp_etype = EINVAL;
goto done;
}
lid = crp->crp_sid & 0xffffffff;
if (lid >= swcr_sesnum || lid == 0 || swcr_sessions[lid] == NULL) {
crp->crp_etype = ENOENT;
goto done;
}
/* Go through crypto descriptors, processing as we go */
for (crd = crp->crp_desc; crd; crd = crd->crd_next) {
/*
* Find the crypto context.
*
* XXX Note that the logic here prevents us from having
* XXX the same algorithm multiple times in a session
* XXX (or rather, we can but it won't give us the right
* XXX results). To do that, we'd need some way of differentiating
* XXX between the various instances of an algorithm (so we can
* XXX locate the correct crypto context).
*/
for (sw = swcr_sessions[lid];
sw && sw->sw_alg != crd->crd_alg;
sw = sw->sw_next)
;
/* No such context ? */
if (sw == NULL) {
crp->crp_etype = EINVAL;
goto done;
}
switch (sw->sw_alg) {
case CRYPTO_DES_CBC:
case CRYPTO_3DES_CBC:
case CRYPTO_BLF_CBC:
case CRYPTO_CAST_CBC:
case CRYPTO_SKIPJACK_CBC:
case CRYPTO_RIJNDAEL128_CBC:
case CRYPTO_AES_XTS:
case CRYPTO_CAMELLIA_CBC:
if ((crp->crp_etype = swcr_encdec(crd, sw,
crp->crp_buf, crp->crp_flags)) != 0)
goto done;
break;
case CRYPTO_NULL_CBC:
crp->crp_etype = 0;
break;
case CRYPTO_MD5_HMAC:
case CRYPTO_SHA1_HMAC:
case CRYPTO_SHA2_256_HMAC:
case CRYPTO_SHA2_384_HMAC:
case CRYPTO_SHA2_512_HMAC:
case CRYPTO_RIPEMD160_HMAC:
case CRYPTO_NULL_HMAC:
case CRYPTO_MD5_KPDK:
case CRYPTO_SHA1_KPDK:
case CRYPTO_MD5:
case CRYPTO_SHA1:
if ((crp->crp_etype = swcr_authcompute(crd, sw,
crp->crp_buf, crp->crp_flags)) != 0)
goto done;
break;
case CRYPTO_DEFLATE_COMP:
if ((crp->crp_etype = swcr_compdec(crd, sw,
crp->crp_buf, crp->crp_flags)) != 0)
goto done;
else
crp->crp_olen = (int)sw->sw_size;
break;
default:
/* Unknown/unsupported algorithm */
crp->crp_etype = EINVAL;
goto done;
}
}
done:
crypto_done(crp);
return 0;
}
static void
swcr_identify(driver_t *drv, device_t parent)
{
/* NB: order 10 is so we get attached after h/w devices */
if (device_find_child(parent, "cryptosoft", -1) == NULL &&
BUS_ADD_CHILD(parent, 10, "cryptosoft", 0) == 0)
panic("cryptosoft: could not attach");
}
static int
swcr_probe(device_t dev)
{
device_set_desc(dev, "software crypto");
return (BUS_PROBE_NOWILDCARD);
}
static int
swcr_attach(device_t dev)
{
memset(hmac_ipad_buffer, HMAC_IPAD_VAL, HMAC_MAX_BLOCK_LEN);
memset(hmac_opad_buffer, HMAC_OPAD_VAL, HMAC_MAX_BLOCK_LEN);
swcr_id = crypto_get_driverid(dev,
CRYPTOCAP_F_SOFTWARE | CRYPTOCAP_F_SYNC);
if (swcr_id < 0) {
device_printf(dev, "cannot initialize!");
return ENOMEM;
}
#define REGISTER(alg) \
crypto_register(swcr_id, alg, 0,0)
REGISTER(CRYPTO_DES_CBC);
REGISTER(CRYPTO_3DES_CBC);
REGISTER(CRYPTO_BLF_CBC);
REGISTER(CRYPTO_CAST_CBC);
REGISTER(CRYPTO_SKIPJACK_CBC);
REGISTER(CRYPTO_NULL_CBC);
REGISTER(CRYPTO_MD5_HMAC);
REGISTER(CRYPTO_SHA1_HMAC);
REGISTER(CRYPTO_SHA2_256_HMAC);
REGISTER(CRYPTO_SHA2_384_HMAC);
REGISTER(CRYPTO_SHA2_512_HMAC);
REGISTER(CRYPTO_RIPEMD160_HMAC);
REGISTER(CRYPTO_NULL_HMAC);
REGISTER(CRYPTO_MD5_KPDK);
REGISTER(CRYPTO_SHA1_KPDK);
REGISTER(CRYPTO_MD5);
REGISTER(CRYPTO_SHA1);
REGISTER(CRYPTO_RIJNDAEL128_CBC);
REGISTER(CRYPTO_AES_XTS);
REGISTER(CRYPTO_CAMELLIA_CBC);
REGISTER(CRYPTO_DEFLATE_COMP);
#undef REGISTER
return 0;
}
static int
swcr_detach(device_t dev)
{
crypto_unregister_all(swcr_id);
if (swcr_sessions != NULL)
free(swcr_sessions, M_CRYPTO_DATA);
return 0;
}
static device_method_t swcr_methods[] = {
DEVMETHOD(device_identify, swcr_identify),
DEVMETHOD(device_probe, swcr_probe),
DEVMETHOD(device_attach, swcr_attach),
DEVMETHOD(device_detach, swcr_detach),
DEVMETHOD(cryptodev_newsession, swcr_newsession),
DEVMETHOD(cryptodev_freesession,swcr_freesession),
DEVMETHOD(cryptodev_process, swcr_process),
{0, 0},
};
static driver_t swcr_driver = {
"cryptosoft",
swcr_methods,
0, /* NB: no softc */
};
static devclass_t swcr_devclass;
/*
* NB: We explicitly reference the crypto module so we
* get the necessary ordering when built as a loadable
* module. This is required because we bundle the crypto
* module code together with the cryptosoft driver (otherwise
* normal module dependencies would handle things).
*/
extern int crypto_modevent(struct module *, int, void *);
/* XXX where to attach */
DRIVER_MODULE(cryptosoft, nexus, swcr_driver, swcr_devclass, crypto_modevent,0);
MODULE_VERSION(cryptosoft, 1);
MODULE_DEPEND(cryptosoft, crypto, 1, 1, 1);
|