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- /*-
- * Linux port done by David McCullough <david_mccullough@mcafee.com>
- * Copyright (C) 2004-2010 David McCullough
- * The license and original author are listed below.
- *
- * Copyright (c) 2003 Sam Leffler, Errno Consulting
- * Copyright (c) 2003 Global Technology Associates, Inc.
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted provided that the following conditions
- * are met:
- * 1. Redistributions of source code must retain the above copyright
- * notice, this list of conditions and the following disclaimer.
- * 2. Redistributions in binary form must reproduce the above copyright
- * notice, this list of conditions and the following disclaimer in the
- * documentation and/or other materials provided with the distribution.
- *
- * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
- * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
- * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
- * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
- * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
- * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
- * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
- * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
- * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
- * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
- * SUCH DAMAGE.
- *
- __FBSDID("$FreeBSD: src/sys/dev/safe/safe.c,v 1.18 2007/03/21 03:42:50 sam Exp $");
- */
- #include <linux/version.h>
- #if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,38) && !defined(AUTOCONF_INCLUDED)
- #include <linux/config.h>
- #endif
- #include <linux/module.h>
- #include <linux/kernel.h>
- #include <linux/init.h>
- #include <linux/list.h>
- #include <linux/slab.h>
- #include <linux/wait.h>
- #include <linux/sched.h>
- #include <linux/pci.h>
- #include <linux/delay.h>
- #include <linux/interrupt.h>
- #include <linux/spinlock.h>
- #include <linux/random.h>
- #include <linux/skbuff.h>
- #include <asm/io.h>
- /*
- * SafeNet SafeXcel-1141 hardware crypto accelerator
- */
- #include <cryptodev.h>
- #include <uio.h>
- #include <safe/safereg.h>
- #include <safe/safevar.h>
- #if 1
- #define DPRINTF(a) do { \
- if (debug) { \
- printk("%s: ", sc ? \
- device_get_nameunit(sc->sc_dev) : "safe"); \
- printk a; \
- } \
- } while (0)
- #else
- #define DPRINTF(a)
- #endif
- /*
- * until we find a cleaner way, include the BSD md5/sha1 code
- * here
- */
- #define HMAC_HACK 1
- #ifdef HMAC_HACK
- #include <safe/hmachack.h>
- #include <safe/md5.h>
- #include <safe/md5.c>
- #include <safe/sha1.h>
- #include <safe/sha1.c>
- #endif /* HMAC_HACK */
- /* add proc entry for this */
- struct safe_stats safestats;
- #define debug safe_debug
- int safe_debug = 0;
- module_param(safe_debug, int, 0644);
- MODULE_PARM_DESC(safe_debug, "Enable debug");
- static void safe_callback(struct safe_softc *, struct safe_ringentry *);
- static void safe_feed(struct safe_softc *, struct safe_ringentry *);
- #if defined(CONFIG_OCF_RANDOMHARVEST) && !defined(SAFE_NO_RNG)
- static void safe_rng_init(struct safe_softc *);
- int safe_rngbufsize = 8; /* 32 bytes each read */
- module_param(safe_rngbufsize, int, 0644);
- MODULE_PARM_DESC(safe_rngbufsize, "RNG polling buffer size (32-bit words)");
- int safe_rngmaxalarm = 8; /* max alarms before reset */
- module_param(safe_rngmaxalarm, int, 0644);
- MODULE_PARM_DESC(safe_rngmaxalarm, "RNG max alarms before reset");
- #endif /* SAFE_NO_RNG */
- static void safe_totalreset(struct safe_softc *sc);
- static int safe_dmamap_aligned(struct safe_softc *sc, const struct safe_operand *op);
- static int safe_dmamap_uniform(struct safe_softc *sc, const struct safe_operand *op);
- static int safe_free_entry(struct safe_softc *sc, struct safe_ringentry *re);
- static int safe_kprocess(device_t dev, struct cryptkop *krp, int hint);
- static int safe_kstart(struct safe_softc *sc);
- static int safe_ksigbits(struct safe_softc *sc, struct crparam *cr);
- static void safe_kfeed(struct safe_softc *sc);
- static void safe_kpoll(unsigned long arg);
- static void safe_kload_reg(struct safe_softc *sc, u_int32_t off,
- u_int32_t len, struct crparam *n);
- static int safe_newsession(device_t, u_int32_t *, struct cryptoini *);
- static int safe_freesession(device_t, u_int64_t);
- static int safe_process(device_t, struct cryptop *, int);
- static device_method_t safe_methods = {
- /* crypto device methods */
- DEVMETHOD(cryptodev_newsession, safe_newsession),
- DEVMETHOD(cryptodev_freesession,safe_freesession),
- DEVMETHOD(cryptodev_process, safe_process),
- DEVMETHOD(cryptodev_kprocess, safe_kprocess),
- };
- #define READ_REG(sc,r) readl((sc)->sc_base_addr + (r))
- #define WRITE_REG(sc,r,val) writel((val), (sc)->sc_base_addr + (r))
- #define SAFE_MAX_CHIPS 8
- static struct safe_softc *safe_chip_idx[SAFE_MAX_CHIPS];
- /*
- * split our buffers up into safe DMAable byte fragments to avoid lockup
- * bug in 1141 HW on rev 1.0.
- */
- static int
- pci_map_linear(
- struct safe_softc *sc,
- struct safe_operand *buf,
- void *addr,
- int len)
- {
- dma_addr_t tmp;
- int chunk, tlen = len;
- tmp = pci_map_single(sc->sc_pcidev, addr, len, PCI_DMA_BIDIRECTIONAL);
- buf->mapsize += len;
- while (len > 0) {
- chunk = (len > sc->sc_max_dsize) ? sc->sc_max_dsize : len;
- buf->segs[buf->nsegs].ds_addr = tmp;
- buf->segs[buf->nsegs].ds_len = chunk;
- buf->segs[buf->nsegs].ds_tlen = tlen;
- buf->nsegs++;
- tmp += chunk;
- len -= chunk;
- tlen = 0;
- }
- return 0;
- }
- /*
- * map in a given uio buffer (great on some arches :-)
- */
- static int
- pci_map_uio(struct safe_softc *sc, struct safe_operand *buf, struct uio *uio)
- {
- struct iovec *iov = uio->uio_iov;
- int n;
- DPRINTF(("%s()\n", __FUNCTION__));
- buf->mapsize = 0;
- buf->nsegs = 0;
- for (n = 0; n < uio->uio_iovcnt; n++) {
- pci_map_linear(sc, buf, iov->iov_base, iov->iov_len);
- iov++;
- }
- /* identify this buffer by the first segment */
- buf->map = (void *) buf->segs[0].ds_addr;
- return(0);
- }
- /*
- * map in a given sk_buff
- */
- static int
- pci_map_skb(struct safe_softc *sc,struct safe_operand *buf,struct sk_buff *skb)
- {
- int i;
- DPRINTF(("%s()\n", __FUNCTION__));
- buf->mapsize = 0;
- buf->nsegs = 0;
- pci_map_linear(sc, buf, skb->data, skb_headlen(skb));
- for (i = 0; i < skb_shinfo(skb)->nr_frags; i++) {
- pci_map_linear(sc, buf,
- page_address(skb_frag_page(&skb_shinfo(skb)->frags[i])) +
- skb_shinfo(skb)->frags[i].page_offset,
- skb_shinfo(skb)->frags[i].size);
- }
- /* identify this buffer by the first segment */
- buf->map = (void *) buf->segs[0].ds_addr;
- return(0);
- }
- #if 0 /* not needed at this time */
- static void
- pci_sync_operand(struct safe_softc *sc, struct safe_operand *buf)
- {
- int i;
- DPRINTF(("%s()\n", __FUNCTION__));
- for (i = 0; i < buf->nsegs; i++)
- pci_dma_sync_single_for_cpu(sc->sc_pcidev, buf->segs[i].ds_addr,
- buf->segs[i].ds_len, PCI_DMA_BIDIRECTIONAL);
- }
- #endif
- static void
- pci_unmap_operand(struct safe_softc *sc, struct safe_operand *buf)
- {
- int i;
- DPRINTF(("%s()\n", __FUNCTION__));
- for (i = 0; i < buf->nsegs; i++) {
- if (buf->segs[i].ds_tlen) {
- DPRINTF(("%s - unmap %d 0x%x %d\n", __FUNCTION__, i, buf->segs[i].ds_addr, buf->segs[i].ds_tlen));
- pci_unmap_single(sc->sc_pcidev, buf->segs[i].ds_addr,
- buf->segs[i].ds_tlen, PCI_DMA_BIDIRECTIONAL);
- DPRINTF(("%s - unmap %d 0x%x %d done\n", __FUNCTION__, i, buf->segs[i].ds_addr, buf->segs[i].ds_tlen));
- }
- buf->segs[i].ds_addr = 0;
- buf->segs[i].ds_len = 0;
- buf->segs[i].ds_tlen = 0;
- }
- buf->nsegs = 0;
- buf->mapsize = 0;
- buf->map = 0;
- }
- /*
- * SafeXcel Interrupt routine
- */
- static irqreturn_t
- #if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,19)
- safe_intr(int irq, void *arg)
- #else
- safe_intr(int irq, void *arg, struct pt_regs *regs)
- #endif
- {
- struct safe_softc *sc = arg;
- int stat;
- unsigned long flags;
- stat = READ_REG(sc, SAFE_HM_STAT);
- DPRINTF(("%s(stat=0x%x)\n", __FUNCTION__, stat));
- if (stat == 0) /* shared irq, not for us */
- return IRQ_NONE;
- WRITE_REG(sc, SAFE_HI_CLR, stat); /* IACK */
- if ((stat & SAFE_INT_PE_DDONE)) {
- /*
- * Descriptor(s) done; scan the ring and
- * process completed operations.
- */
- spin_lock_irqsave(&sc->sc_ringmtx, flags);
- while (sc->sc_back != sc->sc_front) {
- struct safe_ringentry *re = sc->sc_back;
- #ifdef SAFE_DEBUG
- if (debug) {
- safe_dump_ringstate(sc, __func__);
- safe_dump_request(sc, __func__, re);
- }
- #endif
- /*
- * safe_process marks ring entries that were allocated
- * but not used with a csr of zero. This insures the
- * ring front pointer never needs to be set backwards
- * in the event that an entry is allocated but not used
- * because of a setup error.
- */
- DPRINTF(("%s re->re_desc.d_csr=0x%x\n", __FUNCTION__, re->re_desc.d_csr));
- if (re->re_desc.d_csr != 0) {
- if (!SAFE_PE_CSR_IS_DONE(re->re_desc.d_csr)) {
- DPRINTF(("%s !CSR_IS_DONE\n", __FUNCTION__));
- break;
- }
- if (!SAFE_PE_LEN_IS_DONE(re->re_desc.d_len)) {
- DPRINTF(("%s !LEN_IS_DONE\n", __FUNCTION__));
- break;
- }
- sc->sc_nqchip--;
- safe_callback(sc, re);
- }
- if (++(sc->sc_back) == sc->sc_ringtop)
- sc->sc_back = sc->sc_ring;
- }
- spin_unlock_irqrestore(&sc->sc_ringmtx, flags);
- }
- /*
- * Check to see if we got any DMA Error
- */
- if (stat & SAFE_INT_PE_ERROR) {
- printk("%s: dmaerr dmastat %08x\n", device_get_nameunit(sc->sc_dev),
- (int)READ_REG(sc, SAFE_PE_DMASTAT));
- safestats.st_dmaerr++;
- safe_totalreset(sc);
- #if 0
- safe_feed(sc);
- #endif
- }
- if (sc->sc_needwakeup) { /* XXX check high watermark */
- int wakeup = sc->sc_needwakeup & (CRYPTO_SYMQ|CRYPTO_ASYMQ);
- DPRINTF(("%s: wakeup crypto %x\n", __func__,
- sc->sc_needwakeup));
- sc->sc_needwakeup &= ~wakeup;
- crypto_unblock(sc->sc_cid, wakeup);
- }
-
- return IRQ_HANDLED;
- }
- /*
- * safe_feed() - post a request to chip
- */
- static void
- safe_feed(struct safe_softc *sc, struct safe_ringentry *re)
- {
- DPRINTF(("%s()\n", __FUNCTION__));
- #ifdef SAFE_DEBUG
- if (debug) {
- safe_dump_ringstate(sc, __func__);
- safe_dump_request(sc, __func__, re);
- }
- #endif
- sc->sc_nqchip++;
- if (sc->sc_nqchip > safestats.st_maxqchip)
- safestats.st_maxqchip = sc->sc_nqchip;
- /* poke h/w to check descriptor ring, any value can be written */
- WRITE_REG(sc, SAFE_HI_RD_DESCR, 0);
- }
- #define N(a) (sizeof(a) / sizeof (a[0]))
- static void
- safe_setup_enckey(struct safe_session *ses, caddr_t key)
- {
- int i;
- bcopy(key, ses->ses_key, ses->ses_klen / 8);
- /* PE is little-endian, insure proper byte order */
- for (i = 0; i < N(ses->ses_key); i++)
- ses->ses_key[i] = htole32(ses->ses_key[i]);
- }
- static void
- safe_setup_mackey(struct safe_session *ses, int algo, caddr_t key, int klen)
- {
- #ifdef HMAC_HACK
- MD5_CTX md5ctx;
- SHA1_CTX sha1ctx;
- int i;
- for (i = 0; i < klen; i++)
- key[i] ^= HMAC_IPAD_VAL;
- if (algo == CRYPTO_MD5_HMAC) {
- MD5Init(&md5ctx);
- MD5Update(&md5ctx, key, klen);
- MD5Update(&md5ctx, hmac_ipad_buffer, MD5_HMAC_BLOCK_LEN - klen);
- bcopy(md5ctx.md5_st8, ses->ses_hminner, sizeof(md5ctx.md5_st8));
- } else {
- SHA1Init(&sha1ctx);
- SHA1Update(&sha1ctx, key, klen);
- SHA1Update(&sha1ctx, hmac_ipad_buffer,
- SHA1_HMAC_BLOCK_LEN - klen);
- bcopy(sha1ctx.h.b32, ses->ses_hminner, sizeof(sha1ctx.h.b32));
- }
- for (i = 0; i < klen; i++)
- key[i] ^= (HMAC_IPAD_VAL ^ HMAC_OPAD_VAL);
- if (algo == CRYPTO_MD5_HMAC) {
- MD5Init(&md5ctx);
- MD5Update(&md5ctx, key, klen);
- MD5Update(&md5ctx, hmac_opad_buffer, MD5_HMAC_BLOCK_LEN - klen);
- bcopy(md5ctx.md5_st8, ses->ses_hmouter, sizeof(md5ctx.md5_st8));
- } else {
- SHA1Init(&sha1ctx);
- SHA1Update(&sha1ctx, key, klen);
- SHA1Update(&sha1ctx, hmac_opad_buffer,
- SHA1_HMAC_BLOCK_LEN - klen);
- bcopy(sha1ctx.h.b32, ses->ses_hmouter, sizeof(sha1ctx.h.b32));
- }
- for (i = 0; i < klen; i++)
- key[i] ^= HMAC_OPAD_VAL;
- #if 0
- /*
- * this code prevents SHA working on a BE host,
- * so it is obviously wrong. I think the byte
- * swap setup we do with the chip fixes this for us
- */
- /* PE is little-endian, insure proper byte order */
- for (i = 0; i < N(ses->ses_hminner); i++) {
- ses->ses_hminner[i] = htole32(ses->ses_hminner[i]);
- ses->ses_hmouter[i] = htole32(ses->ses_hmouter[i]);
- }
- #endif
- #else /* HMAC_HACK */
- printk("safe: md5/sha not implemented\n");
- #endif /* HMAC_HACK */
- }
- #undef N
- /*
- * Allocate a new 'session' and return an encoded session id. 'sidp'
- * contains our registration id, and should contain an encoded session
- * id on successful allocation.
- */
- static int
- safe_newsession(device_t dev, u_int32_t *sidp, struct cryptoini *cri)
- {
- struct safe_softc *sc = device_get_softc(dev);
- struct cryptoini *c, *encini = NULL, *macini = NULL;
- struct safe_session *ses = NULL;
- int sesn;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (sidp == NULL || cri == NULL || sc == NULL)
- return (EINVAL);
- for (c = cri; c != NULL; c = c->cri_next) {
- if (c->cri_alg == CRYPTO_MD5_HMAC ||
- c->cri_alg == CRYPTO_SHA1_HMAC ||
- c->cri_alg == CRYPTO_NULL_HMAC) {
- if (macini)
- return (EINVAL);
- macini = c;
- } else if (c->cri_alg == CRYPTO_DES_CBC ||
- c->cri_alg == CRYPTO_3DES_CBC ||
- c->cri_alg == CRYPTO_AES_CBC ||
- c->cri_alg == CRYPTO_NULL_CBC) {
- if (encini)
- return (EINVAL);
- encini = c;
- } else
- return (EINVAL);
- }
- if (encini == NULL && macini == NULL)
- return (EINVAL);
- if (encini) { /* validate key length */
- switch (encini->cri_alg) {
- case CRYPTO_DES_CBC:
- if (encini->cri_klen != 64)
- return (EINVAL);
- break;
- case CRYPTO_3DES_CBC:
- if (encini->cri_klen != 192)
- return (EINVAL);
- break;
- case CRYPTO_AES_CBC:
- if (encini->cri_klen != 128 &&
- encini->cri_klen != 192 &&
- encini->cri_klen != 256)
- return (EINVAL);
- break;
- }
- }
- if (sc->sc_sessions == NULL) {
- ses = sc->sc_sessions = (struct safe_session *)
- kmalloc(sizeof(struct safe_session), SLAB_ATOMIC);
- if (ses == NULL)
- return (ENOMEM);
- memset(ses, 0, sizeof(struct safe_session));
- sesn = 0;
- sc->sc_nsessions = 1;
- } else {
- for (sesn = 0; sesn < sc->sc_nsessions; sesn++) {
- if (sc->sc_sessions[sesn].ses_used == 0) {
- ses = &sc->sc_sessions[sesn];
- break;
- }
- }
- if (ses == NULL) {
- sesn = sc->sc_nsessions;
- ses = (struct safe_session *)
- kmalloc((sesn + 1) * sizeof(struct safe_session), SLAB_ATOMIC);
- if (ses == NULL)
- return (ENOMEM);
- memset(ses, 0, (sesn + 1) * sizeof(struct safe_session));
- bcopy(sc->sc_sessions, ses, sesn *
- sizeof(struct safe_session));
- bzero(sc->sc_sessions, sesn *
- sizeof(struct safe_session));
- kfree(sc->sc_sessions);
- sc->sc_sessions = ses;
- ses = &sc->sc_sessions[sesn];
- sc->sc_nsessions++;
- }
- }
- bzero(ses, sizeof(struct safe_session));
- ses->ses_used = 1;
- if (encini) {
- ses->ses_klen = encini->cri_klen;
- if (encini->cri_key != NULL)
- safe_setup_enckey(ses, encini->cri_key);
- }
- if (macini) {
- ses->ses_mlen = macini->cri_mlen;
- if (ses->ses_mlen == 0) {
- if (macini->cri_alg == CRYPTO_MD5_HMAC)
- ses->ses_mlen = MD5_HASH_LEN;
- else
- ses->ses_mlen = SHA1_HASH_LEN;
- }
- if (macini->cri_key != NULL) {
- safe_setup_mackey(ses, macini->cri_alg, macini->cri_key,
- macini->cri_klen / 8);
- }
- }
- *sidp = SAFE_SID(device_get_unit(sc->sc_dev), sesn);
- return (0);
- }
- /*
- * Deallocate a session.
- */
- static int
- safe_freesession(device_t dev, u_int64_t tid)
- {
- struct safe_softc *sc = device_get_softc(dev);
- int session, ret;
- u_int32_t sid = ((u_int32_t) tid) & 0xffffffff;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (sc == NULL)
- return (EINVAL);
- session = SAFE_SESSION(sid);
- if (session < sc->sc_nsessions) {
- bzero(&sc->sc_sessions[session], sizeof(sc->sc_sessions[session]));
- ret = 0;
- } else
- ret = EINVAL;
- return (ret);
- }
- static int
- safe_process(device_t dev, struct cryptop *crp, int hint)
- {
- struct safe_softc *sc = device_get_softc(dev);
- int err = 0, i, nicealign, uniform;
- struct cryptodesc *crd1, *crd2, *maccrd, *enccrd;
- int bypass, oplen, ivsize;
- caddr_t iv;
- int16_t coffset;
- struct safe_session *ses;
- struct safe_ringentry *re;
- struct safe_sarec *sa;
- struct safe_pdesc *pd;
- u_int32_t cmd0, cmd1, staterec, rand_iv[4];
- unsigned long flags;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (crp == NULL || crp->crp_callback == NULL || sc == NULL) {
- safestats.st_invalid++;
- return (EINVAL);
- }
- if (SAFE_SESSION(crp->crp_sid) >= sc->sc_nsessions) {
- safestats.st_badsession++;
- return (EINVAL);
- }
- spin_lock_irqsave(&sc->sc_ringmtx, flags);
- if (sc->sc_front == sc->sc_back && sc->sc_nqchip != 0) {
- safestats.st_ringfull++;
- sc->sc_needwakeup |= CRYPTO_SYMQ;
- spin_unlock_irqrestore(&sc->sc_ringmtx, flags);
- return (ERESTART);
- }
- re = sc->sc_front;
- staterec = re->re_sa.sa_staterec; /* save */
- /* NB: zero everything but the PE descriptor */
- bzero(&re->re_sa, sizeof(struct safe_ringentry) - sizeof(re->re_desc));
- re->re_sa.sa_staterec = staterec; /* restore */
- re->re_crp = crp;
- re->re_sesn = SAFE_SESSION(crp->crp_sid);
- re->re_src.nsegs = 0;
- re->re_dst.nsegs = 0;
- if (crp->crp_flags & CRYPTO_F_SKBUF) {
- re->re_src_skb = (struct sk_buff *)crp->crp_buf;
- re->re_dst_skb = (struct sk_buff *)crp->crp_buf;
- } else if (crp->crp_flags & CRYPTO_F_IOV) {
- re->re_src_io = (struct uio *)crp->crp_buf;
- re->re_dst_io = (struct uio *)crp->crp_buf;
- } else {
- safestats.st_badflags++;
- err = EINVAL;
- goto errout; /* XXX we don't handle contiguous blocks! */
- }
- sa = &re->re_sa;
- ses = &sc->sc_sessions[re->re_sesn];
- crd1 = crp->crp_desc;
- if (crd1 == NULL) {
- safestats.st_nodesc++;
- err = EINVAL;
- goto errout;
- }
- crd2 = crd1->crd_next;
- cmd0 = SAFE_SA_CMD0_BASIC; /* basic group operation */
- cmd1 = 0;
- if (crd2 == NULL) {
- if (crd1->crd_alg == CRYPTO_MD5_HMAC ||
- crd1->crd_alg == CRYPTO_SHA1_HMAC ||
- crd1->crd_alg == CRYPTO_NULL_HMAC) {
- maccrd = crd1;
- enccrd = NULL;
- cmd0 |= SAFE_SA_CMD0_OP_HASH;
- } else if (crd1->crd_alg == CRYPTO_DES_CBC ||
- crd1->crd_alg == CRYPTO_3DES_CBC ||
- crd1->crd_alg == CRYPTO_AES_CBC ||
- crd1->crd_alg == CRYPTO_NULL_CBC) {
- maccrd = NULL;
- enccrd = crd1;
- cmd0 |= SAFE_SA_CMD0_OP_CRYPT;
- } else {
- safestats.st_badalg++;
- err = EINVAL;
- goto errout;
- }
- } else {
- if ((crd1->crd_alg == CRYPTO_MD5_HMAC ||
- crd1->crd_alg == CRYPTO_SHA1_HMAC ||
- crd1->crd_alg == CRYPTO_NULL_HMAC) &&
- (crd2->crd_alg == CRYPTO_DES_CBC ||
- crd2->crd_alg == CRYPTO_3DES_CBC ||
- crd2->crd_alg == CRYPTO_AES_CBC ||
- crd2->crd_alg == CRYPTO_NULL_CBC) &&
- ((crd2->crd_flags & CRD_F_ENCRYPT) == 0)) {
- maccrd = crd1;
- enccrd = crd2;
- } else if ((crd1->crd_alg == CRYPTO_DES_CBC ||
- crd1->crd_alg == CRYPTO_3DES_CBC ||
- crd1->crd_alg == CRYPTO_AES_CBC ||
- crd1->crd_alg == CRYPTO_NULL_CBC) &&
- (crd2->crd_alg == CRYPTO_MD5_HMAC ||
- crd2->crd_alg == CRYPTO_SHA1_HMAC ||
- crd2->crd_alg == CRYPTO_NULL_HMAC) &&
- (crd1->crd_flags & CRD_F_ENCRYPT)) {
- enccrd = crd1;
- maccrd = crd2;
- } else {
- safestats.st_badalg++;
- err = EINVAL;
- goto errout;
- }
- cmd0 |= SAFE_SA_CMD0_OP_BOTH;
- }
- if (enccrd) {
- if (enccrd->crd_flags & CRD_F_KEY_EXPLICIT)
- safe_setup_enckey(ses, enccrd->crd_key);
- if (enccrd->crd_alg == CRYPTO_DES_CBC) {
- cmd0 |= SAFE_SA_CMD0_DES;
- cmd1 |= SAFE_SA_CMD1_CBC;
- ivsize = 2*sizeof(u_int32_t);
- } else if (enccrd->crd_alg == CRYPTO_3DES_CBC) {
- cmd0 |= SAFE_SA_CMD0_3DES;
- cmd1 |= SAFE_SA_CMD1_CBC;
- ivsize = 2*sizeof(u_int32_t);
- } else if (enccrd->crd_alg == CRYPTO_AES_CBC) {
- cmd0 |= SAFE_SA_CMD0_AES;
- cmd1 |= SAFE_SA_CMD1_CBC;
- if (ses->ses_klen == 128)
- cmd1 |= SAFE_SA_CMD1_AES128;
- else if (ses->ses_klen == 192)
- cmd1 |= SAFE_SA_CMD1_AES192;
- else
- cmd1 |= SAFE_SA_CMD1_AES256;
- ivsize = 4*sizeof(u_int32_t);
- } else {
- cmd0 |= SAFE_SA_CMD0_CRYPT_NULL;
- ivsize = 0;
- }
- /*
- * Setup encrypt/decrypt state. When using basic ops
- * we can't use an inline IV because hash/crypt offset
- * must be from the end of the IV to the start of the
- * crypt data and this leaves out the preceding header
- * from the hash calculation. Instead we place the IV
- * in the state record and set the hash/crypt offset to
- * copy both the header+IV.
- */
- if (enccrd->crd_flags & CRD_F_ENCRYPT) {
- cmd0 |= SAFE_SA_CMD0_OUTBOUND;
- if (enccrd->crd_flags & CRD_F_IV_EXPLICIT)
- iv = enccrd->crd_iv;
- else
- read_random((iv = (caddr_t) &rand_iv[0]), sizeof(rand_iv));
- if ((enccrd->crd_flags & CRD_F_IV_PRESENT) == 0) {
- crypto_copyback(crp->crp_flags, crp->crp_buf,
- enccrd->crd_inject, ivsize, iv);
- }
- bcopy(iv, re->re_sastate.sa_saved_iv, ivsize);
- /* make iv LE */
- for (i = 0; i < ivsize/sizeof(re->re_sastate.sa_saved_iv[0]); i++)
- re->re_sastate.sa_saved_iv[i] =
- cpu_to_le32(re->re_sastate.sa_saved_iv[i]);
- cmd0 |= SAFE_SA_CMD0_IVLD_STATE | SAFE_SA_CMD0_SAVEIV;
- re->re_flags |= SAFE_QFLAGS_COPYOUTIV;
- } else {
- cmd0 |= SAFE_SA_CMD0_INBOUND;
- if (enccrd->crd_flags & CRD_F_IV_EXPLICIT) {
- bcopy(enccrd->crd_iv,
- re->re_sastate.sa_saved_iv, ivsize);
- } else {
- crypto_copydata(crp->crp_flags, crp->crp_buf,
- enccrd->crd_inject, ivsize,
- (caddr_t)re->re_sastate.sa_saved_iv);
- }
- /* make iv LE */
- for (i = 0; i < ivsize/sizeof(re->re_sastate.sa_saved_iv[0]); i++)
- re->re_sastate.sa_saved_iv[i] =
- cpu_to_le32(re->re_sastate.sa_saved_iv[i]);
- cmd0 |= SAFE_SA_CMD0_IVLD_STATE;
- }
- /*
- * For basic encryption use the zero pad algorithm.
- * This pads results to an 8-byte boundary and
- * suppresses padding verification for inbound (i.e.
- * decrypt) operations.
- *
- * NB: Not sure if the 8-byte pad boundary is a problem.
- */
- cmd0 |= SAFE_SA_CMD0_PAD_ZERO;
- /* XXX assert key bufs have the same size */
- bcopy(ses->ses_key, sa->sa_key, sizeof(sa->sa_key));
- }
- if (maccrd) {
- if (maccrd->crd_flags & CRD_F_KEY_EXPLICIT) {
- safe_setup_mackey(ses, maccrd->crd_alg,
- maccrd->crd_key, maccrd->crd_klen / 8);
- }
- if (maccrd->crd_alg == CRYPTO_MD5_HMAC) {
- cmd0 |= SAFE_SA_CMD0_MD5;
- cmd1 |= SAFE_SA_CMD1_HMAC; /* NB: enable HMAC */
- } else if (maccrd->crd_alg == CRYPTO_SHA1_HMAC) {
- cmd0 |= SAFE_SA_CMD0_SHA1;
- cmd1 |= SAFE_SA_CMD1_HMAC; /* NB: enable HMAC */
- } else {
- cmd0 |= SAFE_SA_CMD0_HASH_NULL;
- }
- /*
- * Digest data is loaded from the SA and the hash
- * result is saved to the state block where we
- * retrieve it for return to the caller.
- */
- /* XXX assert digest bufs have the same size */
- bcopy(ses->ses_hminner, sa->sa_indigest,
- sizeof(sa->sa_indigest));
- bcopy(ses->ses_hmouter, sa->sa_outdigest,
- sizeof(sa->sa_outdigest));
- cmd0 |= SAFE_SA_CMD0_HSLD_SA | SAFE_SA_CMD0_SAVEHASH;
- re->re_flags |= SAFE_QFLAGS_COPYOUTICV;
- }
- if (enccrd && maccrd) {
- /*
- * The offset from hash data to the start of
- * crypt data is the difference in the skips.
- */
- bypass = maccrd->crd_skip;
- coffset = enccrd->crd_skip - maccrd->crd_skip;
- if (coffset < 0) {
- DPRINTF(("%s: hash does not precede crypt; "
- "mac skip %u enc skip %u\n",
- __func__, maccrd->crd_skip, enccrd->crd_skip));
- safestats.st_skipmismatch++;
- err = EINVAL;
- goto errout;
- }
- oplen = enccrd->crd_skip + enccrd->crd_len;
- if (maccrd->crd_skip + maccrd->crd_len != oplen) {
- DPRINTF(("%s: hash amount %u != crypt amount %u\n",
- __func__, maccrd->crd_skip + maccrd->crd_len,
- oplen));
- safestats.st_lenmismatch++;
- err = EINVAL;
- goto errout;
- }
- #ifdef SAFE_DEBUG
- if (debug) {
- printf("mac: skip %d, len %d, inject %d\n",
- maccrd->crd_skip, maccrd->crd_len,
- maccrd->crd_inject);
- printf("enc: skip %d, len %d, inject %d\n",
- enccrd->crd_skip, enccrd->crd_len,
- enccrd->crd_inject);
- printf("bypass %d coffset %d oplen %d\n",
- bypass, coffset, oplen);
- }
- #endif
- if (coffset & 3) { /* offset must be 32-bit aligned */
- DPRINTF(("%s: coffset %u misaligned\n",
- __func__, coffset));
- safestats.st_coffmisaligned++;
- err = EINVAL;
- goto errout;
- }
- coffset >>= 2;
- if (coffset > 255) { /* offset must be <256 dwords */
- DPRINTF(("%s: coffset %u too big\n",
- __func__, coffset));
- safestats.st_cofftoobig++;
- err = EINVAL;
- goto errout;
- }
- /*
- * Tell the hardware to copy the header to the output.
- * The header is defined as the data from the end of
- * the bypass to the start of data to be encrypted.
- * Typically this is the inline IV. Note that you need
- * to do this even if src+dst are the same; it appears
- * that w/o this bit the crypted data is written
- * immediately after the bypass data.
- */
- cmd1 |= SAFE_SA_CMD1_HDRCOPY;
- /*
- * Disable IP header mutable bit handling. This is
- * needed to get correct HMAC calculations.
- */
- cmd1 |= SAFE_SA_CMD1_MUTABLE;
- } else {
- if (enccrd) {
- bypass = enccrd->crd_skip;
- oplen = bypass + enccrd->crd_len;
- } else {
- bypass = maccrd->crd_skip;
- oplen = bypass + maccrd->crd_len;
- }
- coffset = 0;
- }
- /* XXX verify multiple of 4 when using s/g */
- if (bypass > 96) { /* bypass offset must be <= 96 bytes */
- DPRINTF(("%s: bypass %u too big\n", __func__, bypass));
- safestats.st_bypasstoobig++;
- err = EINVAL;
- goto errout;
- }
- if (crp->crp_flags & CRYPTO_F_SKBUF) {
- if (pci_map_skb(sc, &re->re_src, re->re_src_skb)) {
- safestats.st_noload++;
- err = ENOMEM;
- goto errout;
- }
- } else if (crp->crp_flags & CRYPTO_F_IOV) {
- if (pci_map_uio(sc, &re->re_src, re->re_src_io)) {
- safestats.st_noload++;
- err = ENOMEM;
- goto errout;
- }
- }
- nicealign = safe_dmamap_aligned(sc, &re->re_src);
- uniform = safe_dmamap_uniform(sc, &re->re_src);
- DPRINTF(("src nicealign %u uniform %u nsegs %u\n",
- nicealign, uniform, re->re_src.nsegs));
- if (re->re_src.nsegs > 1) {
- re->re_desc.d_src = sc->sc_spalloc.dma_paddr +
- ((caddr_t) sc->sc_spfree - (caddr_t) sc->sc_spring);
- for (i = 0; i < re->re_src_nsegs; i++) {
- /* NB: no need to check if there's space */
- pd = sc->sc_spfree;
- if (++(sc->sc_spfree) == sc->sc_springtop)
- sc->sc_spfree = sc->sc_spring;
- KASSERT((pd->pd_flags&3) == 0 ||
- (pd->pd_flags&3) == SAFE_PD_DONE,
- ("bogus source particle descriptor; flags %x",
- pd->pd_flags));
- pd->pd_addr = re->re_src_segs[i].ds_addr;
- pd->pd_size = re->re_src_segs[i].ds_len;
- pd->pd_flags = SAFE_PD_READY;
- }
- cmd0 |= SAFE_SA_CMD0_IGATHER;
- } else {
- /*
- * No need for gather, reference the operand directly.
- */
- re->re_desc.d_src = re->re_src_segs[0].ds_addr;
- }
- if (enccrd == NULL && maccrd != NULL) {
- /*
- * Hash op; no destination needed.
- */
- } else {
- if (crp->crp_flags & (CRYPTO_F_IOV|CRYPTO_F_SKBUF)) {
- if (!nicealign) {
- safestats.st_iovmisaligned++;
- err = EINVAL;
- goto errout;
- }
- if (uniform != 1) {
- device_printf(sc->sc_dev, "!uniform source\n");
- if (!uniform) {
- /*
- * There's no way to handle the DMA
- * requirements with this uio. We
- * could create a separate DMA area for
- * the result and then copy it back,
- * but for now we just bail and return
- * an error. Note that uio requests
- * > SAFE_MAX_DSIZE are handled because
- * the DMA map and segment list for the
- * destination wil result in a
- * destination particle list that does
- * the necessary scatter DMA.
- */
- safestats.st_iovnotuniform++;
- err = EINVAL;
- goto errout;
- }
- } else
- re->re_dst = re->re_src;
- } else {
- safestats.st_badflags++;
- err = EINVAL;
- goto errout;
- }
- if (re->re_dst.nsegs > 1) {
- re->re_desc.d_dst = sc->sc_dpalloc.dma_paddr +
- ((caddr_t) sc->sc_dpfree - (caddr_t) sc->sc_dpring);
- for (i = 0; i < re->re_dst_nsegs; i++) {
- pd = sc->sc_dpfree;
- KASSERT((pd->pd_flags&3) == 0 ||
- (pd->pd_flags&3) == SAFE_PD_DONE,
- ("bogus dest particle descriptor; flags %x",
- pd->pd_flags));
- if (++(sc->sc_dpfree) == sc->sc_dpringtop)
- sc->sc_dpfree = sc->sc_dpring;
- pd->pd_addr = re->re_dst_segs[i].ds_addr;
- pd->pd_flags = SAFE_PD_READY;
- }
- cmd0 |= SAFE_SA_CMD0_OSCATTER;
- } else {
- /*
- * No need for scatter, reference the operand directly.
- */
- re->re_desc.d_dst = re->re_dst_segs[0].ds_addr;
- }
- }
- /*
- * All done with setup; fillin the SA command words
- * and the packet engine descriptor. The operation
- * is now ready for submission to the hardware.
- */
- sa->sa_cmd0 = cmd0 | SAFE_SA_CMD0_IPCI | SAFE_SA_CMD0_OPCI;
- sa->sa_cmd1 = cmd1
- | (coffset << SAFE_SA_CMD1_OFFSET_S)
- | SAFE_SA_CMD1_SAREV1 /* Rev 1 SA data structure */
- | SAFE_SA_CMD1_SRPCI
- ;
- /*
- * NB: the order of writes is important here. In case the
- * chip is scanning the ring because of an outstanding request
- * it might nab this one too. In that case we need to make
- * sure the setup is complete before we write the length
- * field of the descriptor as it signals the descriptor is
- * ready for processing.
- */
- re->re_desc.d_csr = SAFE_PE_CSR_READY | SAFE_PE_CSR_SAPCI;
- if (maccrd)
- re->re_desc.d_csr |= SAFE_PE_CSR_LOADSA | SAFE_PE_CSR_HASHFINAL;
- wmb();
- re->re_desc.d_len = oplen
- | SAFE_PE_LEN_READY
- | (bypass << SAFE_PE_LEN_BYPASS_S)
- ;
- safestats.st_ipackets++;
- safestats.st_ibytes += oplen;
- if (++(sc->sc_front) == sc->sc_ringtop)
- sc->sc_front = sc->sc_ring;
- /* XXX honor batching */
- safe_feed(sc, re);
- spin_unlock_irqrestore(&sc->sc_ringmtx, flags);
- return (0);
- errout:
- if (re->re_src.map != re->re_dst.map)
- pci_unmap_operand(sc, &re->re_dst);
- if (re->re_src.map)
- pci_unmap_operand(sc, &re->re_src);
- spin_unlock_irqrestore(&sc->sc_ringmtx, flags);
- if (err != ERESTART) {
- crp->crp_etype = err;
- crypto_done(crp);
- } else {
- sc->sc_needwakeup |= CRYPTO_SYMQ;
- }
- return (err);
- }
- static void
- safe_callback(struct safe_softc *sc, struct safe_ringentry *re)
- {
- struct cryptop *crp = (struct cryptop *)re->re_crp;
- struct cryptodesc *crd;
- DPRINTF(("%s()\n", __FUNCTION__));
- safestats.st_opackets++;
- safestats.st_obytes += re->re_dst.mapsize;
- if (re->re_desc.d_csr & SAFE_PE_CSR_STATUS) {
- device_printf(sc->sc_dev, "csr 0x%x cmd0 0x%x cmd1 0x%x\n",
- re->re_desc.d_csr,
- re->re_sa.sa_cmd0, re->re_sa.sa_cmd1);
- safestats.st_peoperr++;
- crp->crp_etype = EIO; /* something more meaningful? */
- }
- if (re->re_dst.map != NULL && re->re_dst.map != re->re_src.map)
- pci_unmap_operand(sc, &re->re_dst);
- pci_unmap_operand(sc, &re->re_src);
- /*
- * If result was written to a differet mbuf chain, swap
- * it in as the return value and reclaim the original.
- */
- if ((crp->crp_flags & CRYPTO_F_SKBUF) && re->re_src_skb != re->re_dst_skb) {
- device_printf(sc->sc_dev, "no CRYPTO_F_SKBUF swapping support\n");
- /* kfree_skb(skb) */
- /* crp->crp_buf = (caddr_t)re->re_dst_skb */
- return;
- }
- if (re->re_flags & SAFE_QFLAGS_COPYOUTICV) {
- /* copy out ICV result */
- for (crd = crp->crp_desc; crd; crd = crd->crd_next) {
- if (!(crd->crd_alg == CRYPTO_MD5_HMAC ||
- crd->crd_alg == CRYPTO_SHA1_HMAC ||
- crd->crd_alg == CRYPTO_NULL_HMAC))
- continue;
- if (crd->crd_alg == CRYPTO_SHA1_HMAC) {
- /*
- * SHA-1 ICV's are byte-swapped; fix 'em up
- * before copy them to their destination.
- */
- re->re_sastate.sa_saved_indigest[0] =
- cpu_to_be32(re->re_sastate.sa_saved_indigest[0]);
- re->re_sastate.sa_saved_indigest[1] =
- cpu_to_be32(re->re_sastate.sa_saved_indigest[1]);
- re->re_sastate.sa_saved_indigest[2] =
- cpu_to_be32(re->re_sastate.sa_saved_indigest[2]);
- } else {
- re->re_sastate.sa_saved_indigest[0] =
- cpu_to_le32(re->re_sastate.sa_saved_indigest[0]);
- re->re_sastate.sa_saved_indigest[1] =
- cpu_to_le32(re->re_sastate.sa_saved_indigest[1]);
- re->re_sastate.sa_saved_indigest[2] =
- cpu_to_le32(re->re_sastate.sa_saved_indigest[2]);
- }
- crypto_copyback(crp->crp_flags, crp->crp_buf,
- crd->crd_inject,
- sc->sc_sessions[re->re_sesn].ses_mlen,
- (caddr_t)re->re_sastate.sa_saved_indigest);
- break;
- }
- }
- crypto_done(crp);
- }
- #if defined(CONFIG_OCF_RANDOMHARVEST) && !defined(SAFE_NO_RNG)
- #define SAFE_RNG_MAXWAIT 1000
- static void
- safe_rng_init(struct safe_softc *sc)
- {
- u_int32_t w, v;
- int i;
- DPRINTF(("%s()\n", __FUNCTION__));
- WRITE_REG(sc, SAFE_RNG_CTRL, 0);
- /* use default value according to the manual */
- WRITE_REG(sc, SAFE_RNG_CNFG, 0x834); /* magic from SafeNet */
- WRITE_REG(sc, SAFE_RNG_ALM_CNT, 0);
- /*
- * There is a bug in rev 1.0 of the 1140 that when the RNG
- * is brought out of reset the ready status flag does not
- * work until the RNG has finished its internal initialization.
- *
- * So in order to determine the device is through its
- * initialization we must read the data register, using the
- * status reg in the read in case it is initialized. Then read
- * the data register until it changes from the first read.
- * Once it changes read the data register until it changes
- * again. At this time the RNG is considered initialized.
- * This could take between 750ms - 1000ms in time.
- */
- i = 0;
- w = READ_REG(sc, SAFE_RNG_OUT);
- do {
- v = READ_REG(sc, SAFE_RNG_OUT);
- if (v != w) {
- w = v;
- break;
- }
- DELAY(10);
- } while (++i < SAFE_RNG_MAXWAIT);
- /* Wait Until data changes again */
- i = 0;
- do {
- v = READ_REG(sc, SAFE_RNG_OUT);
- if (v != w)
- break;
- DELAY(10);
- } while (++i < SAFE_RNG_MAXWAIT);
- }
- static __inline void
- safe_rng_disable_short_cycle(struct safe_softc *sc)
- {
- DPRINTF(("%s()\n", __FUNCTION__));
- WRITE_REG(sc, SAFE_RNG_CTRL,
- READ_REG(sc, SAFE_RNG_CTRL) &~ SAFE_RNG_CTRL_SHORTEN);
- }
- static __inline void
- safe_rng_enable_short_cycle(struct safe_softc *sc)
- {
- DPRINTF(("%s()\n", __FUNCTION__));
- WRITE_REG(sc, SAFE_RNG_CTRL,
- READ_REG(sc, SAFE_RNG_CTRL) | SAFE_RNG_CTRL_SHORTEN);
- }
- static __inline u_int32_t
- safe_rng_read(struct safe_softc *sc)
- {
- int i;
- i = 0;
- while (READ_REG(sc, SAFE_RNG_STAT) != 0 && ++i < SAFE_RNG_MAXWAIT)
- ;
- return READ_REG(sc, SAFE_RNG_OUT);
- }
- static int
- safe_read_random(void *arg, u_int32_t *buf, int maxwords)
- {
- struct safe_softc *sc = (struct safe_softc *) arg;
- int i, rc;
- DPRINTF(("%s()\n", __FUNCTION__));
-
- safestats.st_rng++;
- /*
- * Fetch the next block of data.
- */
- if (maxwords > safe_rngbufsize)
- maxwords = safe_rngbufsize;
- if (maxwords > SAFE_RNG_MAXBUFSIZ)
- maxwords = SAFE_RNG_MAXBUFSIZ;
- retry:
- /* read as much as we can */
- for (rc = 0; rc < maxwords; rc++) {
- if (READ_REG(sc, SAFE_RNG_STAT) != 0)
- break;
- buf[rc] = READ_REG(sc, SAFE_RNG_OUT);
- }
- if (rc == 0)
- return 0;
- /*
- * Check the comparator alarm count and reset the h/w if
- * it exceeds our threshold. This guards against the
- * hardware oscillators resonating with external signals.
- */
- if (READ_REG(sc, SAFE_RNG_ALM_CNT) > safe_rngmaxalarm) {
- u_int32_t freq_inc, w;
- DPRINTF(("%s: alarm count %u exceeds threshold %u\n", __func__,
- (unsigned)READ_REG(sc, SAFE_RNG_ALM_CNT), safe_rngmaxalarm));
- safestats.st_rngalarm++;
- safe_rng_enable_short_cycle(sc);
- freq_inc = 18;
- for (i = 0; i < 64; i++) {
- w = READ_REG(sc, SAFE_RNG_CNFG);
- freq_inc = ((w + freq_inc) & 0x3fL);
- w = ((w & ~0x3fL) | freq_inc);
- WRITE_REG(sc, SAFE_RNG_CNFG, w);
- WRITE_REG(sc, SAFE_RNG_ALM_CNT, 0);
- (void) safe_rng_read(sc);
- DELAY(25);
- if (READ_REG(sc, SAFE_RNG_ALM_CNT) == 0) {
- safe_rng_disable_short_cycle(sc);
- goto retry;
- }
- freq_inc = 1;
- }
- safe_rng_disable_short_cycle(sc);
- } else
- WRITE_REG(sc, SAFE_RNG_ALM_CNT, 0);
- return(rc);
- }
- #endif /* defined(CONFIG_OCF_RANDOMHARVEST) && !defined(SAFE_NO_RNG) */
- /*
- * Resets the board. Values in the regesters are left as is
- * from the reset (i.e. initial values are assigned elsewhere).
- */
- static void
- safe_reset_board(struct safe_softc *sc)
- {
- u_int32_t v;
- /*
- * Reset the device. The manual says no delay
- * is needed between marking and clearing reset.
- */
- DPRINTF(("%s()\n", __FUNCTION__));
- v = READ_REG(sc, SAFE_PE_DMACFG) &~
- (SAFE_PE_DMACFG_PERESET | SAFE_PE_DMACFG_PDRRESET |
- SAFE_PE_DMACFG_SGRESET);
- WRITE_REG(sc, SAFE_PE_DMACFG, v
- | SAFE_PE_DMACFG_PERESET
- | SAFE_PE_DMACFG_PDRRESET
- | SAFE_PE_DMACFG_SGRESET);
- WRITE_REG(sc, SAFE_PE_DMACFG, v);
- }
- /*
- * Initialize registers we need to touch only once.
- */
- static void
- safe_init_board(struct safe_softc *sc)
- {
- u_int32_t v, dwords;
- DPRINTF(("%s()\n", __FUNCTION__));
- v = READ_REG(sc, SAFE_PE_DMACFG);
- v &=~ ( SAFE_PE_DMACFG_PEMODE
- | SAFE_PE_DMACFG_FSENA /* failsafe enable */
- | SAFE_PE_DMACFG_GPRPCI /* gather ring on PCI */
- | SAFE_PE_DMACFG_SPRPCI /* scatter ring on PCI */
- | SAFE_PE_DMACFG_ESDESC /* endian-swap descriptors */
- | SAFE_PE_DMACFG_ESPDESC /* endian-swap part. desc's */
- | SAFE_PE_DMACFG_ESSA /* endian-swap SA's */
- | SAFE_PE_DMACFG_ESPACKET /* swap the packet data */
- );
- v |= SAFE_PE_DMACFG_FSENA /* failsafe enable */
- | SAFE_PE_DMACFG_GPRPCI /* gather ring on PCI */
- | SAFE_PE_DMACFG_SPRPCI /* scatter ring on PCI */
- | SAFE_PE_DMACFG_ESDESC /* endian-swap descriptors */
- | SAFE_PE_DMACFG_ESPDESC /* endian-swap part. desc's */
- | SAFE_PE_DMACFG_ESSA /* endian-swap SA's */
- #if 0
- | SAFE_PE_DMACFG_ESPACKET /* swap the packet data */
- #endif
- ;
- WRITE_REG(sc, SAFE_PE_DMACFG, v);
- #ifdef __BIG_ENDIAN
- /* tell the safenet that we are 4321 and not 1234 */
- WRITE_REG(sc, SAFE_ENDIAN, 0xe4e41b1b);
- #endif
- if (sc->sc_chiprev == SAFE_REV(1,0)) {
- /*
- * Avoid large PCI DMA transfers. Rev 1.0 has a bug where
- * "target mode transfers" done while the chip is DMA'ing
- * >1020 bytes cause the hardware to lockup. To avoid this
- * we reduce the max PCI transfer size and use small source
- * particle descriptors (<= 256 bytes).
- */
- WRITE_REG(sc, SAFE_DMA_CFG, 256);
- device_printf(sc->sc_dev,
- "Reduce max DMA size to %u words for rev %u.%u WAR\n",
- (unsigned) ((READ_REG(sc, SAFE_DMA_CFG)>>2) & 0xff),
- (unsigned) SAFE_REV_MAJ(sc->sc_chiprev),
- (unsigned) SAFE_REV_MIN(sc->sc_chiprev));
- sc->sc_max_dsize = 256;
- } else {
- sc->sc_max_dsize = SAFE_MAX_DSIZE;
- }
- /* NB: operands+results are overlaid */
- WRITE_REG(sc, SAFE_PE_PDRBASE, sc->sc_ringalloc.dma_paddr);
- WRITE_REG(sc, SAFE_PE_RDRBASE, sc->sc_ringalloc.dma_paddr);
- /*
- * Configure ring entry size and number of items in the ring.
- */
- KASSERT((sizeof(struct safe_ringentry) % sizeof(u_int32_t)) == 0,
- ("PE ring entry not 32-bit aligned!"));
- dwords = sizeof(struct safe_ringentry) / sizeof(u_int32_t);
- WRITE_REG(sc, SAFE_PE_RINGCFG,
- (dwords << SAFE_PE_RINGCFG_OFFSET_S) | SAFE_MAX_NQUEUE);
- WRITE_REG(sc, SAFE_PE_RINGPOLL, 0); /* disable polling */
- WRITE_REG(sc, SAFE_PE_GRNGBASE, sc->sc_spalloc.dma_paddr);
- WRITE_REG(sc, SAFE_PE_SRNGBASE, sc->sc_dpalloc.dma_paddr);
- WRITE_REG(sc, SAFE_PE_PARTSIZE,
- (SAFE_TOTAL_DPART<<16) | SAFE_TOTAL_SPART);
- /*
- * NB: destination particles are fixed size. We use
- * an mbuf cluster and require all results go to
- * clusters or smaller.
- */
- WRITE_REG(sc, SAFE_PE_PARTCFG, sc->sc_max_dsize);
- /* it's now safe to enable PE mode, do it */
- WRITE_REG(sc, SAFE_PE_DMACFG, v | SAFE_PE_DMACFG_PEMODE);
- /*
- * Configure hardware to use level-triggered interrupts and
- * to interrupt after each descriptor is processed.
- */
- WRITE_REG(sc, SAFE_HI_CFG, SAFE_HI_CFG_LEVEL);
- WRITE_REG(sc, SAFE_HI_CLR, 0xffffffff);
- WRITE_REG(sc, SAFE_HI_DESC_CNT, 1);
- WRITE_REG(sc, SAFE_HI_MASK, SAFE_INT_PE_DDONE | SAFE_INT_PE_ERROR);
- }
- /*
- * Clean up after a chip crash.
- * It is assumed that the caller in splimp()
- */
- static void
- safe_cleanchip(struct safe_softc *sc)
- {
- DPRINTF(("%s()\n", __FUNCTION__));
- if (sc->sc_nqchip != 0) {
- struct safe_ringentry *re = sc->sc_back;
- while (re != sc->sc_front) {
- if (re->re_desc.d_csr != 0)
- safe_free_entry(sc, re);
- if (++re == sc->sc_ringtop)
- re = sc->sc_ring;
- }
- sc->sc_back = re;
- sc->sc_nqchip = 0;
- }
- }
- /*
- * free a safe_q
- * It is assumed that the caller is within splimp().
- */
- static int
- safe_free_entry(struct safe_softc *sc, struct safe_ringentry *re)
- {
- struct cryptop *crp;
- DPRINTF(("%s()\n", __FUNCTION__));
- /*
- * Free header MCR
- */
- if ((re->re_dst_skb != NULL) && (re->re_src_skb != re->re_dst_skb))
- #ifdef NOTYET
- m_freem(re->re_dst_m);
- #else
- printk("%s,%d: SKB not supported\n", __FILE__, __LINE__);
- #endif
- crp = (struct cryptop *)re->re_crp;
-
- re->re_desc.d_csr = 0;
-
- crp->crp_etype = EFAULT;
- crypto_done(crp);
- return(0);
- }
- /*
- * Routine to reset the chip and clean up.
- * It is assumed that the caller is in splimp()
- */
- static void
- safe_totalreset(struct safe_softc *sc)
- {
- DPRINTF(("%s()\n", __FUNCTION__));
- safe_reset_board(sc);
- safe_init_board(sc);
- safe_cleanchip(sc);
- }
- /*
- * Is the operand suitable aligned for direct DMA. Each
- * segment must be aligned on a 32-bit boundary and all
- * but the last segment must be a multiple of 4 bytes.
- */
- static int
- safe_dmamap_aligned(struct safe_softc *sc, const struct safe_operand *op)
- {
- int i;
- DPRINTF(("%s()\n", __FUNCTION__));
- for (i = 0; i < op->nsegs; i++) {
- if (op->segs[i].ds_addr & 3)
- return (0);
- if (i != (op->nsegs - 1) && (op->segs[i].ds_len & 3))
- return (0);
- }
- return (1);
- }
- /*
- * Is the operand suitable for direct DMA as the destination
- * of an operation. The hardware requires that each ``particle''
- * but the last in an operation result have the same size. We
- * fix that size at SAFE_MAX_DSIZE bytes. This routine returns
- * 0 if some segment is not a multiple of of this size, 1 if all
- * segments are exactly this size, or 2 if segments are at worst
- * a multple of this size.
- */
- static int
- safe_dmamap_uniform(struct safe_softc *sc, const struct safe_operand *op)
- {
- int result = 1;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (op->nsegs > 0) {
- int i;
- for (i = 0; i < op->nsegs-1; i++) {
- if (op->segs[i].ds_len % sc->sc_max_dsize)
- return (0);
- if (op->segs[i].ds_len != sc->sc_max_dsize)
- result = 2;
- }
- }
- return (result);
- }
- static int
- safe_kprocess(device_t dev, struct cryptkop *krp, int hint)
- {
- struct safe_softc *sc = device_get_softc(dev);
- struct safe_pkq *q;
- unsigned long flags;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (sc == NULL) {
- krp->krp_status = EINVAL;
- goto err;
- }
- if (krp->krp_op != CRK_MOD_EXP) {
- krp->krp_status = EOPNOTSUPP;
- goto err;
- }
- q = (struct safe_pkq *) kmalloc(sizeof(*q), GFP_KERNEL);
- if (q == NULL) {
- krp->krp_status = ENOMEM;
- goto err;
- }
- memset(q, 0, sizeof(*q));
- q->pkq_krp = krp;
- INIT_LIST_HEAD(&q->pkq_list);
- spin_lock_irqsave(&sc->sc_pkmtx, flags);
- list_add_tail(&q->pkq_list, &sc->sc_pkq);
- safe_kfeed(sc);
- spin_unlock_irqrestore(&sc->sc_pkmtx, flags);
- return (0);
- err:
- crypto_kdone(krp);
- return (0);
- }
- #define SAFE_CRK_PARAM_BASE 0
- #define SAFE_CRK_PARAM_EXP 1
- #define SAFE_CRK_PARAM_MOD 2
- static int
- safe_kstart(struct safe_softc *sc)
- {
- struct cryptkop *krp = sc->sc_pkq_cur->pkq_krp;
- int exp_bits, mod_bits, base_bits;
- u_int32_t op, a_off, b_off, c_off, d_off;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (krp->krp_iparams < 3 || krp->krp_oparams != 1) {
- krp->krp_status = EINVAL;
- return (1);
- }
- base_bits = safe_ksigbits(sc, &krp->krp_param[SAFE_CRK_PARAM_BASE]);
- if (base_bits > 2048)
- goto too_big;
- if (base_bits <= 0) /* 5. base not zero */
- goto too_small;
- exp_bits = safe_ksigbits(sc, &krp->krp_param[SAFE_CRK_PARAM_EXP]);
- if (exp_bits > 2048)
- goto too_big;
- if (exp_bits <= 0) /* 1. exponent word length > 0 */
- goto too_small; /* 4. exponent not zero */
- mod_bits = safe_ksigbits(sc, &krp->krp_param[SAFE_CRK_PARAM_MOD]);
- if (mod_bits > 2048)
- goto too_big;
- if (mod_bits <= 32) /* 2. modulus word length > 1 */
- goto too_small; /* 8. MSW of modulus != zero */
- if (mod_bits < exp_bits) /* 3 modulus len >= exponent len */
- goto too_small;
- if ((krp->krp_param[SAFE_CRK_PARAM_MOD].crp_p[0] & 1) == 0)
- goto bad_domain; /* 6. modulus is odd */
- if (mod_bits > krp->krp_param[krp->krp_iparams].crp_nbits)
- goto too_small; /* make sure result will fit */
- /* 7. modulus > base */
- if (mod_bits < base_bits)
- goto too_small;
- if (mod_bits == base_bits) {
- u_int8_t *basep, *modp;
- int i;
- basep = krp->krp_param[SAFE_CRK_PARAM_BASE].crp_p +
- ((base_bits + 7) / 8) - 1;
- modp = krp->krp_param[SAFE_CRK_PARAM_MOD].crp_p +
- ((mod_bits + 7) / 8) - 1;
-
- for (i = 0; i < (mod_bits + 7) / 8; i++, basep--, modp--) {
- if (*modp < *basep)
- goto too_small;
- if (*modp > *basep)
- break;
- }
- }
- /* And on the 9th step, he rested. */
- WRITE_REG(sc, SAFE_PK_A_LEN, (exp_bits + 31) / 32);
- WRITE_REG(sc, SAFE_PK_B_LEN, (mod_bits + 31) / 32);
- if (mod_bits > 1024) {
- op = SAFE_PK_FUNC_EXP4;
- a_off = 0x000;
- b_off = 0x100;
- c_off = 0x200;
- d_off = 0x300;
- } else {
- op = SAFE_PK_FUNC_EXP16;
- a_off = 0x000;
- b_off = 0x080;
- c_off = 0x100;
- d_off = 0x180;
- }
- sc->sc_pk_reslen = b_off - a_off;
- sc->sc_pk_resoff = d_off;
- /* A is exponent, B is modulus, C is base, D is result */
- safe_kload_reg(sc, a_off, b_off - a_off,
- &krp->krp_param[SAFE_CRK_PARAM_EXP]);
- WRITE_REG(sc, SAFE_PK_A_ADDR, a_off >> 2);
- safe_kload_reg(sc, b_off, b_off - a_off,
- &krp->krp_param[SAFE_CRK_PARAM_MOD]);
- WRITE_REG(sc, SAFE_PK_B_ADDR, b_off >> 2);
- safe_kload_reg(sc, c_off, b_off - a_off,
- &krp->krp_param[SAFE_CRK_PARAM_BASE]);
- WRITE_REG(sc, SAFE_PK_C_ADDR, c_off >> 2);
- WRITE_REG(sc, SAFE_PK_D_ADDR, d_off >> 2);
- WRITE_REG(sc, SAFE_PK_FUNC, op | SAFE_PK_FUNC_RUN);
- return (0);
- too_big:
- krp->krp_status = E2BIG;
- return (1);
- too_small:
- krp->krp_status = ERANGE;
- return (1);
- bad_domain:
- krp->krp_status = EDOM;
- return (1);
- }
- static int
- safe_ksigbits(struct safe_softc *sc, struct crparam *cr)
- {
- u_int plen = (cr->crp_nbits + 7) / 8;
- int i, sig = plen * 8;
- u_int8_t c, *p = cr->crp_p;
- DPRINTF(("%s()\n", __FUNCTION__));
- for (i = plen - 1; i >= 0; i--) {
- c = p[i];
- if (c != 0) {
- while ((c & 0x80) == 0) {
- sig--;
- c <<= 1;
- }
- break;
- }
- sig -= 8;
- }
- return (sig);
- }
- static void
- safe_kfeed(struct safe_softc *sc)
- {
- struct safe_pkq *q, *tmp;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (list_empty(&sc->sc_pkq) && sc->sc_pkq_cur == NULL)
- return;
- if (sc->sc_pkq_cur != NULL)
- return;
- list_for_each_entry_safe(q, tmp, &sc->sc_pkq, pkq_list) {
- sc->sc_pkq_cur = q;
- list_del(&q->pkq_list);
- if (safe_kstart(sc) != 0) {
- crypto_kdone(q->pkq_krp);
- kfree(q);
- sc->sc_pkq_cur = NULL;
- } else {
- /* op started, start polling */
- mod_timer(&sc->sc_pkto, jiffies + 1);
- break;
- }
- }
- }
- static void
- safe_kpoll(unsigned long arg)
- {
- struct safe_softc *sc = NULL;
- struct safe_pkq *q;
- struct crparam *res;
- int i;
- u_int32_t buf[64];
- unsigned long flags;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (arg >= SAFE_MAX_CHIPS)
- return;
- sc = safe_chip_idx[arg];
- if (!sc) {
- DPRINTF(("%s() - bad callback\n", __FUNCTION__));
- return;
- }
- spin_lock_irqsave(&sc->sc_pkmtx, flags);
- if (sc->sc_pkq_cur == NULL)
- goto out;
- if (READ_REG(sc, SAFE_PK_FUNC) & SAFE_PK_FUNC_RUN) {
- /* still running, check back later */
- mod_timer(&sc->sc_pkto, jiffies + 1);
- goto out;
- }
- q = sc->sc_pkq_cur;
- res = &q->pkq_krp->krp_param[q->pkq_krp->krp_iparams];
- bzero(buf, sizeof(buf));
- bzero(res->crp_p, (res->crp_nbits + 7) / 8);
- for (i = 0; i < sc->sc_pk_reslen >> 2; i++)
- buf[i] = le32_to_cpu(READ_REG(sc, SAFE_PK_RAM_START +
- sc->sc_pk_resoff + (i << 2)));
- bcopy(buf, res->crp_p, (res->crp_nbits + 7) / 8);
- /*
- * reduce the bits that need copying if possible
- */
- res->crp_nbits = min(res->crp_nbits,sc->sc_pk_reslen * 8);
- res->crp_nbits = safe_ksigbits(sc, res);
- for (i = SAFE_PK_RAM_START; i < SAFE_PK_RAM_END; i += 4)
- WRITE_REG(sc, i, 0);
- crypto_kdone(q->pkq_krp);
- kfree(q);
- sc->sc_pkq_cur = NULL;
- safe_kfeed(sc);
- out:
- spin_unlock_irqrestore(&sc->sc_pkmtx, flags);
- }
- static void
- safe_kload_reg(struct safe_softc *sc, u_int32_t off, u_int32_t len,
- struct crparam *n)
- {
- u_int32_t buf[64], i;
- DPRINTF(("%s()\n", __FUNCTION__));
- bzero(buf, sizeof(buf));
- bcopy(n->crp_p, buf, (n->crp_nbits + 7) / 8);
- for (i = 0; i < len >> 2; i++)
- WRITE_REG(sc, SAFE_PK_RAM_START + off + (i << 2),
- cpu_to_le32(buf[i]));
- }
- #ifdef SAFE_DEBUG
- static void
- safe_dump_dmastatus(struct safe_softc *sc, const char *tag)
- {
- printf("%s: ENDIAN 0x%x SRC 0x%x DST 0x%x STAT 0x%x\n"
- , tag
- , READ_REG(sc, SAFE_DMA_ENDIAN)
- , READ_REG(sc, SAFE_DMA_SRCADDR)
- , READ_REG(sc, SAFE_DMA_DSTADDR)
- , READ_REG(sc, SAFE_DMA_STAT)
- );
- }
- static void
- safe_dump_intrstate(struct safe_softc *sc, const char *tag)
- {
- printf("%s: HI_CFG 0x%x HI_MASK 0x%x HI_DESC_CNT 0x%x HU_STAT 0x%x HM_STAT 0x%x\n"
- , tag
- , READ_REG(sc, SAFE_HI_CFG)
- , READ_REG(sc, SAFE_HI_MASK)
- , READ_REG(sc, SAFE_HI_DESC_CNT)
- , READ_REG(sc, SAFE_HU_STAT)
- , READ_REG(sc, SAFE_HM_STAT)
- );
- }
- static void
- safe_dump_ringstate(struct safe_softc *sc, const char *tag)
- {
- u_int32_t estat = READ_REG(sc, SAFE_PE_ERNGSTAT);
- /* NB: assume caller has lock on ring */
- printf("%s: ERNGSTAT %x (next %u) back %lu front %lu\n",
- tag,
- estat, (estat >> SAFE_PE_ERNGSTAT_NEXT_S),
- (unsigned long)(sc->sc_back - sc->sc_ring),
- (unsigned long)(sc->sc_front - sc->sc_ring));
- }
- static void
- safe_dump_request(struct safe_softc *sc, const char* tag, struct safe_ringentry *re)
- {
- int ix, nsegs;
- ix = re - sc->sc_ring;
- printf("%s: %p (%u): csr %x src %x dst %x sa %x len %x\n"
- , tag
- , re, ix
- , re->re_desc.d_csr
- , re->re_desc.d_src
- , re->re_desc.d_dst
- , re->re_desc.d_sa
- , re->re_desc.d_len
- );
- if (re->re_src.nsegs > 1) {
- ix = (re->re_desc.d_src - sc->sc_spalloc.dma_paddr) /
- sizeof(struct safe_pdesc);
- for (nsegs = re->re_src.nsegs; nsegs; nsegs--) {
- printf(" spd[%u] %p: %p size %u flags %x"
- , ix, &sc->sc_spring[ix]
- , (caddr_t)(uintptr_t) sc->sc_spring[ix].pd_addr
- , sc->sc_spring[ix].pd_size
- , sc->sc_spring[ix].pd_flags
- );
- if (sc->sc_spring[ix].pd_size == 0)
- printf(" (zero!)");
- printf("\n");
- if (++ix == SAFE_TOTAL_SPART)
- ix = 0;
- }
- }
- if (re->re_dst.nsegs > 1) {
- ix = (re->re_desc.d_dst - sc->sc_dpalloc.dma_paddr) /
- sizeof(struct safe_pdesc);
- for (nsegs = re->re_dst.nsegs; nsegs; nsegs--) {
- printf(" dpd[%u] %p: %p flags %x\n"
- , ix, &sc->sc_dpring[ix]
- , (caddr_t)(uintptr_t) sc->sc_dpring[ix].pd_addr
- , sc->sc_dpring[ix].pd_flags
- );
- if (++ix == SAFE_TOTAL_DPART)
- ix = 0;
- }
- }
- printf("sa: cmd0 %08x cmd1 %08x staterec %x\n",
- re->re_sa.sa_cmd0, re->re_sa.sa_cmd1, re->re_sa.sa_staterec);
- printf("sa: key %x %x %x %x %x %x %x %x\n"
- , re->re_sa.sa_key[0]
- , re->re_sa.sa_key[1]
- , re->re_sa.sa_key[2]
- , re->re_sa.sa_key[3]
- , re->re_sa.sa_key[4]
- , re->re_sa.sa_key[5]
- , re->re_sa.sa_key[6]
- , re->re_sa.sa_key[7]
- );
- printf("sa: indigest %x %x %x %x %x\n"
- , re->re_sa.sa_indigest[0]
- , re->re_sa.sa_indigest[1]
- , re->re_sa.sa_indigest[2]
- , re->re_sa.sa_indigest[3]
- , re->re_sa.sa_indigest[4]
- );
- printf("sa: outdigest %x %x %x %x %x\n"
- , re->re_sa.sa_outdigest[0]
- , re->re_sa.sa_outdigest[1]
- , re->re_sa.sa_outdigest[2]
- , re->re_sa.sa_outdigest[3]
- , re->re_sa.sa_outdigest[4]
- );
- printf("sr: iv %x %x %x %x\n"
- , re->re_sastate.sa_saved_iv[0]
- , re->re_sastate.sa_saved_iv[1]
- , re->re_sastate.sa_saved_iv[2]
- , re->re_sastate.sa_saved_iv[3]
- );
- printf("sr: hashbc %u indigest %x %x %x %x %x\n"
- , re->re_sastate.sa_saved_hashbc
- , re->re_sastate.sa_saved_indigest[0]
- , re->re_sastate.sa_saved_indigest[1]
- , re->re_sastate.sa_saved_indigest[2]
- , re->re_sastate.sa_saved_indigest[3]
- , re->re_sastate.sa_saved_indigest[4]
- );
- }
- static void
- safe_dump_ring(struct safe_softc *sc, const char *tag)
- {
- unsigned long flags;
- spin_lock_irqsave(&sc->sc_ringmtx, flags);
- printf("\nSafeNet Ring State:\n");
- safe_dump_intrstate(sc, tag);
- safe_dump_dmastatus(sc, tag);
- safe_dump_ringstate(sc, tag);
- if (sc->sc_nqchip) {
- struct safe_ringentry *re = sc->sc_back;
- do {
- safe_dump_request(sc, tag, re);
- if (++re == sc->sc_ringtop)
- re = sc->sc_ring;
- } while (re != sc->sc_front);
- }
- spin_unlock_irqrestore(&sc->sc_ringmtx, flags);
- }
- #endif /* SAFE_DEBUG */
- static int safe_probe(struct pci_dev *dev, const struct pci_device_id *ent)
- {
- struct safe_softc *sc = NULL;
- u32 mem_start, mem_len, cmd;
- int i, rc, devinfo;
- dma_addr_t raddr;
- static int num_chips = 0;
- DPRINTF(("%s()\n", __FUNCTION__));
- if (pci_enable_device(dev) < 0)
- return(-ENODEV);
- if (!dev->irq) {
- printk("safe: found device with no IRQ assigned. check BIOS settings!");
- pci_disable_device(dev);
- return(-ENODEV);
- }
- if (pci_set_mwi(dev)) {
- printk("safe: pci_set_mwi failed!");
- return(-ENODEV);
- }
- sc = (struct safe_softc *) kmalloc(sizeof(*sc), GFP_KERNEL);
- if (!sc)
- return(-ENOMEM);
- memset(sc, 0, sizeof(*sc));
- softc_device_init(sc, "safe", num_chips, safe_methods);
- sc->sc_irq = -1;
- sc->sc_cid = -1;
- sc->sc_pcidev = dev;
- if (num_chips < SAFE_MAX_CHIPS) {
- safe_chip_idx[device_get_unit(sc->sc_dev)] = sc;
- num_chips++;
- }
- INIT_LIST_HEAD(&sc->sc_pkq);
- spin_lock_init(&sc->sc_pkmtx);
- pci_set_drvdata(sc->sc_pcidev, sc);
- /* we read its hardware registers as memory */
- mem_start = pci_resource_start(sc->sc_pcidev, 0);
- mem_len = pci_resource_len(sc->sc_pcidev, 0);
- sc->sc_base_addr = (ocf_iomem_t) ioremap(mem_start, mem_len);
- if (!sc->sc_base_addr) {
- device_printf(sc->sc_dev, "failed to ioremap 0x%x-0x%x\n",
- mem_start, mem_start + mem_len - 1);
- goto out;
- }
- /* fix up the bus size */
- if (pci_set_dma_mask(sc->sc_pcidev, DMA_32BIT_MASK)) {
- device_printf(sc->sc_dev, "No usable DMA configuration, aborting.\n");
- goto out;
- }
- if (pci_set_consistent_dma_mask(sc->sc_pcidev, DMA_32BIT_MASK)) {
- device_printf(sc->sc_dev, "No usable consistent DMA configuration, aborting.\n");
- goto out;
- }
- pci_set_master(sc->sc_pcidev);
- pci_read_config_dword(sc->sc_pcidev, PCI_COMMAND, &cmd);
- if (!(cmd & PCI_COMMAND_MEMORY)) {
- device_printf(sc->sc_dev, "failed to enable memory mapping\n");
- goto out;
- }
- if (!(cmd & PCI_COMMAND_MASTER)) {
- device_printf(sc->sc_dev, "failed to enable bus mastering\n");
- goto out;
- }
- rc = request_irq(dev->irq, safe_intr, IRQF_SHARED, "safe", sc);
- if (rc) {
- device_printf(sc->sc_dev, "failed to hook irq %d\n", sc->sc_irq);
- goto out;
- }
- sc->sc_irq = dev->irq;
- sc->sc_chiprev = READ_REG(sc, SAFE_DEVINFO) &
- (SAFE_DEVINFO_REV_MAJ | SAFE_DEVINFO_REV_MIN);
- /*
- * Allocate packet engine descriptors.
- */
- sc->sc_ringalloc.dma_vaddr = pci_alloc_consistent(sc->sc_pcidev,
- SAFE_MAX_NQUEUE * sizeof (struct safe_ringentry),
- &sc->sc_ringalloc.dma_paddr);
- if (!sc->sc_ringalloc.dma_vaddr) {
- device_printf(sc->sc_dev, "cannot allocate PE descriptor ring\n");
- goto out;
- }
- /*
- * Hookup the static portion of all our data structures.
- */
- sc->sc_ring = (struct safe_ringentry *) sc->sc_ringalloc.dma_vaddr;
- sc->sc_ringtop = sc->sc_ring + SAFE_MAX_NQUEUE;
- sc->sc_front = sc->sc_ring;
- sc->sc_back = sc->sc_ring;
- raddr = sc->sc_ringalloc.dma_paddr;
- bzero(sc->sc_ring, SAFE_MAX_NQUEUE * sizeof(struct safe_ringentry));
- for (i = 0; i < SAFE_MAX_NQUEUE; i++) {
- struct safe_ringentry *re = &sc->sc_ring[i];
- re->re_desc.d_sa = raddr +
- offsetof(struct safe_ringentry, re_sa);
- re->re_sa.sa_staterec = raddr +
- offsetof(struct safe_ringentry, re_sastate);
- raddr += sizeof (struct safe_ringentry);
- }
- spin_lock_init(&sc->sc_ringmtx);
- /*
- * Allocate scatter and gather particle descriptors.
- */
- sc->sc_spalloc.dma_vaddr = pci_alloc_consistent(sc->sc_pcidev,
- SAFE_TOTAL_SPART * sizeof (struct safe_pdesc),
- &sc->sc_spalloc.dma_paddr);
- if (!sc->sc_spalloc.dma_vaddr) {
- device_printf(sc->sc_dev, "cannot allocate source particle descriptor ring\n");
- goto out;
- }
- sc->sc_spring = (struct safe_pdesc *) sc->sc_spalloc.dma_vaddr;
- sc->sc_springtop = sc->sc_spring + SAFE_TOTAL_SPART;
- sc->sc_spfree = sc->sc_spring;
- bzero(sc->sc_spring, SAFE_TOTAL_SPART * sizeof(struct safe_pdesc));
- sc->sc_dpalloc.dma_vaddr = pci_alloc_consistent(sc->sc_pcidev,
- SAFE_TOTAL_DPART * sizeof (struct safe_pdesc),
- &sc->sc_dpalloc.dma_paddr);
- if (!sc->sc_dpalloc.dma_vaddr) {
- device_printf(sc->sc_dev, "cannot allocate destination particle descriptor ring\n");
- goto out;
- }
- sc->sc_dpring = (struct safe_pdesc *) sc->sc_dpalloc.dma_vaddr;
- sc->sc_dpringtop = sc->sc_dpring + SAFE_TOTAL_DPART;
- sc->sc_dpfree = sc->sc_dpring;
- bzero(sc->sc_dpring, SAFE_TOTAL_DPART * sizeof(struct safe_pdesc));
- sc->sc_cid = crypto_get_driverid(softc_get_device(sc), CRYPTOCAP_F_HARDWARE);
- if (sc->sc_cid < 0) {
- device_printf(sc->sc_dev, "could not get crypto driver id\n");
- goto out;
- }
- printf("%s:", device_get_nameunit(sc->sc_dev));
- devinfo = READ_REG(sc, SAFE_DEVINFO);
- if (devinfo & SAFE_DEVINFO_RNG) {
- sc->sc_flags |= SAFE_FLAGS_RNG;
- printf(" rng");
- }
- if (devinfo & SAFE_DEVINFO_PKEY) {
- printf(" key");
- sc->sc_flags |= SAFE_FLAGS_KEY;
- crypto_kregister(sc->sc_cid, CRK_MOD_EXP, 0);
- #if 0
- crypto_kregister(sc->sc_cid, CRK_MOD_EXP_CRT, 0);
- #endif
- init_timer(&sc->sc_pkto);
- sc->sc_pkto.function = safe_kpoll;
- sc->sc_pkto.data = (unsigned long) device_get_unit(sc->sc_dev);
- }
- if (devinfo & SAFE_DEVINFO_DES) {
- printf(" des/3des");
- crypto_register(sc->sc_cid, CRYPTO_3DES_CBC, 0, 0);
- crypto_register(sc->sc_cid, CRYPTO_DES_CBC, 0, 0);
- }
- if (devinfo & SAFE_DEVINFO_AES) {
- printf(" aes");
- crypto_register(sc->sc_cid, CRYPTO_AES_CBC, 0, 0);
- }
- if (devinfo & SAFE_DEVINFO_MD5) {
- printf(" md5");
- crypto_register(sc->sc_cid, CRYPTO_MD5_HMAC, 0, 0);
- }
- if (devinfo & SAFE_DEVINFO_SHA1) {
- printf(" sha1");
- crypto_register(sc->sc_cid, CRYPTO_SHA1_HMAC, 0, 0);
- }
- printf(" null");
- crypto_register(sc->sc_cid, CRYPTO_NULL_CBC, 0, 0);
- crypto_register(sc->sc_cid, CRYPTO_NULL_HMAC, 0, 0);
- /* XXX other supported algorithms */
- printf("\n");
- safe_reset_board(sc); /* reset h/w */
- safe_init_board(sc); /* init h/w */
- #if defined(CONFIG_OCF_RANDOMHARVEST) && !defined(SAFE_NO_RNG)
- if (sc->sc_flags & SAFE_FLAGS_RNG) {
- safe_rng_init(sc);
- crypto_rregister(sc->sc_cid, safe_read_random, sc);
- }
- #endif /* SAFE_NO_RNG */
- return (0);
- out:
- if (sc->sc_cid >= 0)
- crypto_unregister_all(sc->sc_cid);
- if (sc->sc_irq != -1)
- free_irq(sc->sc_irq, sc);
- if (sc->sc_ringalloc.dma_vaddr)
- pci_free_consistent(sc->sc_pcidev,
- SAFE_MAX_NQUEUE * sizeof (struct safe_ringentry),
- sc->sc_ringalloc.dma_vaddr, sc->sc_ringalloc.dma_paddr);
- if (sc->sc_spalloc.dma_vaddr)
- pci_free_consistent(sc->sc_pcidev,
- SAFE_TOTAL_DPART * sizeof (struct safe_pdesc),
- sc->sc_spalloc.dma_vaddr, sc->sc_spalloc.dma_paddr);
- if (sc->sc_dpalloc.dma_vaddr)
- pci_free_consistent(sc->sc_pcidev,
- SAFE_TOTAL_DPART * sizeof (struct safe_pdesc),
- sc->sc_dpalloc.dma_vaddr, sc->sc_dpalloc.dma_paddr);
- kfree(sc);
- return(-ENODEV);
- }
- static void safe_remove(struct pci_dev *dev)
- {
- struct safe_softc *sc = pci_get_drvdata(dev);
- DPRINTF(("%s()\n", __FUNCTION__));
- /* XXX wait/abort active ops */
- WRITE_REG(sc, SAFE_HI_MASK, 0); /* disable interrupts */
- del_timer_sync(&sc->sc_pkto);
- crypto_unregister_all(sc->sc_cid);
- safe_cleanchip(sc);
- if (sc->sc_irq != -1)
- free_irq(sc->sc_irq, sc);
- if (sc->sc_ringalloc.dma_vaddr)
- pci_free_consistent(sc->sc_pcidev,
- SAFE_MAX_NQUEUE * sizeof (struct safe_ringentry),
- sc->sc_ringalloc.dma_vaddr, sc->sc_ringalloc.dma_paddr);
- if (sc->sc_spalloc.dma_vaddr)
- pci_free_consistent(sc->sc_pcidev,
- SAFE_TOTAL_DPART * sizeof (struct safe_pdesc),
- sc->sc_spalloc.dma_vaddr, sc->sc_spalloc.dma_paddr);
- if (sc->sc_dpalloc.dma_vaddr)
- pci_free_consistent(sc->sc_pcidev,
- SAFE_TOTAL_DPART * sizeof (struct safe_pdesc),
- sc->sc_dpalloc.dma_vaddr, sc->sc_dpalloc.dma_paddr);
- sc->sc_irq = -1;
- sc->sc_ringalloc.dma_vaddr = NULL;
- sc->sc_spalloc.dma_vaddr = NULL;
- sc->sc_dpalloc.dma_vaddr = NULL;
- }
- static struct pci_device_id safe_pci_tbl[] = {
- { PCI_VENDOR_SAFENET, PCI_PRODUCT_SAFEXCEL,
- PCI_ANY_ID, PCI_ANY_ID, 0, 0, },
- { },
- };
- MODULE_DEVICE_TABLE(pci, safe_pci_tbl);
- static struct pci_driver safe_driver = {
- .name = "safe",
- .id_table = safe_pci_tbl,
- .probe = safe_probe,
- .remove = safe_remove,
- /* add PM stuff here one day */
- };
- static int __init safe_init (void)
- {
- struct safe_softc *sc = NULL;
- int rc;
- DPRINTF(("%s(%p)\n", __FUNCTION__, safe_init));
- rc = pci_register_driver(&safe_driver);
- pci_register_driver_compat(&safe_driver, rc);
- return rc;
- }
- static void __exit safe_exit (void)
- {
- pci_unregister_driver(&safe_driver);
- }
- module_init(safe_init);
- module_exit(safe_exit);
- MODULE_LICENSE("Dual BSD/GPL");
- MODULE_AUTHOR("David McCullough <david_mccullough@mcafee.com>");
- MODULE_DESCRIPTION("OCF driver for safenet PCI crypto devices");
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