9039a5d31be9e99274c9b294d36b14efff516c00
[openwrt.git] / target / linux / generic / files / crypto / ocf / safe / safevar.h
1 /*-
2 * The linux port of this code done by David McCullough
3 * Copyright (C) 2004-2010 David McCullough <david_mccullough@mcafee.com>
4 * The license and original author are listed below.
5 *
6 * Copyright (c) 2003 Sam Leffler, Errno Consulting
7 * Copyright (c) 2003 Global Technology Associates, Inc.
8 * All rights reserved.
9 *
10 * Redistribution and use in source and binary forms, with or without
11 * modification, are permitted provided that the following conditions
12 * are met:
13 * 1. Redistributions of source code must retain the above copyright
14 * notice, this list of conditions and the following disclaimer.
15 * 2. Redistributions in binary form must reproduce the above copyright
16 * notice, this list of conditions and the following disclaimer in the
17 * documentation and/or other materials provided with the distribution.
18 *
19 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
20 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
21 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
22 * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
23 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
24 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
25 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
26 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
27 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
28 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
29 * SUCH DAMAGE.
30 *
31 * $FreeBSD: src/sys/dev/safe/safevar.h,v 1.2 2006/05/17 18:34:26 pjd Exp $
32 */
33 #ifndef _SAFE_SAFEVAR_H_
34 #define _SAFE_SAFEVAR_H_
35
36 /* Maximum queue length */
37 #ifndef SAFE_MAX_NQUEUE
38 #define SAFE_MAX_NQUEUE 60
39 #endif
40
41 #define SAFE_MAX_PART 64 /* Maximum scatter/gather depth */
42 #define SAFE_DMA_BOUNDARY 0 /* No boundary for source DMA ops */
43 #define SAFE_MAX_DSIZE 2048 /* MCLBYTES Fixed scatter particle size */
44 #define SAFE_MAX_SSIZE 0x0ffff /* Maximum gather particle size */
45 #define SAFE_MAX_DMA 0xfffff /* Maximum PE operand size (20 bits) */
46 /* total src+dst particle descriptors */
47 #define SAFE_TOTAL_DPART (SAFE_MAX_NQUEUE * SAFE_MAX_PART)
48 #define SAFE_TOTAL_SPART (SAFE_MAX_NQUEUE * SAFE_MAX_PART)
49
50 #define SAFE_RNG_MAXBUFSIZ 128 /* 32-bit words */
51
52 #define SAFE_CARD(sid) (((sid) & 0xf0000000) >> 28)
53 #define SAFE_SESSION(sid) ( (sid) & 0x0fffffff)
54 #define SAFE_SID(crd, sesn) (((crd) << 28) | ((sesn) & 0x0fffffff))
55
56 #define SAFE_DEF_RTY 0xff /* PCI Retry Timeout */
57 #define SAFE_DEF_TOUT 0xff /* PCI TRDY Timeout */
58 #define SAFE_DEF_CACHELINE 0x01 /* Cache Line setting */
59
60 #ifdef __KERNEL__
61 /*
62 * State associated with the allocation of each chunk
63 * of memory setup for DMA.
64 */
65 struct safe_dma_alloc {
66 dma_addr_t dma_paddr;
67 void *dma_vaddr;
68 };
69
70 /*
71 * Cryptographic operand state. One of these exists for each
72 * source and destination operand passed in from the crypto
73 * subsystem. When possible source and destination operands
74 * refer to the same memory. More often they are distinct.
75 * We track the virtual address of each operand as well as
76 * where each is mapped for DMA.
77 */
78 struct safe_operand {
79 union {
80 struct sk_buff *skb;
81 struct uio *io;
82 } u;
83 void *map;
84 int mapsize; /* total number of bytes in segs */
85 struct {
86 dma_addr_t ds_addr;
87 int ds_len;
88 int ds_tlen;
89 } segs[SAFE_MAX_PART];
90 int nsegs;
91 };
92
93 /*
94 * Packet engine ring entry and cryptographic operation state.
95 * The packet engine requires a ring of descriptors that contain
96 * pointers to various cryptographic state. However the ring
97 * configuration register allows you to specify an arbitrary size
98 * for ring entries. We use this feature to collect most of the
99 * state for each cryptographic request into one spot. Other than
100 * ring entries only the ``particle descriptors'' (scatter/gather
101 * lists) and the actual operand data are kept separate. The
102 * particle descriptors must also be organized in rings. The
103 * operand data can be located aribtrarily (modulo alignment constraints).
104 *
105 * Note that the descriptor ring is mapped onto the PCI bus so
106 * the hardware can DMA data. This means the entire ring must be
107 * contiguous.
108 */
109 struct safe_ringentry {
110 struct safe_desc re_desc; /* command descriptor */
111 struct safe_sarec re_sa; /* SA record */
112 struct safe_sastate re_sastate; /* SA state record */
113
114 struct cryptop *re_crp; /* crypto operation */
115
116 struct safe_operand re_src; /* source operand */
117 struct safe_operand re_dst; /* destination operand */
118
119 int re_sesn; /* crypto session ID */
120 int re_flags;
121 #define SAFE_QFLAGS_COPYOUTIV 0x1 /* copy back on completion */
122 #define SAFE_QFLAGS_COPYOUTICV 0x2 /* copy back on completion */
123 };
124
125 #define re_src_skb re_src.u.skb
126 #define re_src_io re_src.u.io
127 #define re_src_map re_src.map
128 #define re_src_nsegs re_src.nsegs
129 #define re_src_segs re_src.segs
130 #define re_src_mapsize re_src.mapsize
131
132 #define re_dst_skb re_dst.u.skb
133 #define re_dst_io re_dst.u.io
134 #define re_dst_map re_dst.map
135 #define re_dst_nsegs re_dst.nsegs
136 #define re_dst_segs re_dst.segs
137 #define re_dst_mapsize re_dst.mapsize
138
139 struct rndstate_test;
140
141 struct safe_session {
142 u_int32_t ses_used;
143 u_int32_t ses_klen; /* key length in bits */
144 u_int32_t ses_key[8]; /* DES/3DES/AES key */
145 u_int32_t ses_mlen; /* hmac length in bytes */
146 u_int32_t ses_hminner[5]; /* hmac inner state */
147 u_int32_t ses_hmouter[5]; /* hmac outer state */
148 u_int32_t ses_iv[4]; /* DES/3DES/AES iv */
149 };
150
151 struct safe_pkq {
152 struct list_head pkq_list;
153 struct cryptkop *pkq_krp;
154 };
155
156 struct safe_softc {
157 softc_device_decl sc_dev;
158 u32 sc_irq;
159
160 struct pci_dev *sc_pcidev;
161 ocf_iomem_t sc_base_addr;
162
163 u_int sc_chiprev; /* major/minor chip revision */
164 int sc_flags; /* device specific flags */
165 #define SAFE_FLAGS_KEY 0x01 /* has key accelerator */
166 #define SAFE_FLAGS_RNG 0x02 /* hardware rng */
167 int sc_suspended;
168 int sc_needwakeup; /* notify crypto layer */
169 int32_t sc_cid; /* crypto tag */
170
171 struct safe_dma_alloc sc_ringalloc; /* PE ring allocation state */
172 struct safe_ringentry *sc_ring; /* PE ring */
173 struct safe_ringentry *sc_ringtop; /* PE ring top */
174 struct safe_ringentry *sc_front; /* next free entry */
175 struct safe_ringentry *sc_back; /* next pending entry */
176 int sc_nqchip; /* # passed to chip */
177 spinlock_t sc_ringmtx; /* PE ring lock */
178 struct safe_pdesc *sc_spring; /* src particle ring */
179 struct safe_pdesc *sc_springtop; /* src particle ring top */
180 struct safe_pdesc *sc_spfree; /* next free src particle */
181 struct safe_dma_alloc sc_spalloc; /* src particle ring state */
182 struct safe_pdesc *sc_dpring; /* dest particle ring */
183 struct safe_pdesc *sc_dpringtop; /* dest particle ring top */
184 struct safe_pdesc *sc_dpfree; /* next free dest particle */
185 struct safe_dma_alloc sc_dpalloc; /* dst particle ring state */
186 int sc_nsessions; /* # of sessions */
187 struct safe_session *sc_sessions; /* sessions */
188
189 struct timer_list sc_pkto; /* PK polling */
190 spinlock_t sc_pkmtx; /* PK lock */
191 struct list_head sc_pkq; /* queue of PK requests */
192 struct safe_pkq *sc_pkq_cur; /* current processing request */
193 u_int32_t sc_pk_reslen, sc_pk_resoff;
194
195 int sc_max_dsize; /* maximum safe DMA size */
196 };
197 #endif /* __KERNEL__ */
198
199 struct safe_stats {
200 u_int64_t st_ibytes;
201 u_int64_t st_obytes;
202 u_int32_t st_ipackets;
203 u_int32_t st_opackets;
204 u_int32_t st_invalid; /* invalid argument */
205 u_int32_t st_badsession; /* invalid session id */
206 u_int32_t st_badflags; /* flags indicate !(mbuf | uio) */
207 u_int32_t st_nodesc; /* op submitted w/o descriptors */
208 u_int32_t st_badalg; /* unsupported algorithm */
209 u_int32_t st_ringfull; /* PE descriptor ring full */
210 u_int32_t st_peoperr; /* PE marked error */
211 u_int32_t st_dmaerr; /* PE DMA error */
212 u_int32_t st_bypasstoobig; /* bypass > 96 bytes */
213 u_int32_t st_skipmismatch; /* enc part begins before auth part */
214 u_int32_t st_lenmismatch; /* enc length different auth length */
215 u_int32_t st_coffmisaligned; /* crypto offset not 32-bit aligned */
216 u_int32_t st_cofftoobig; /* crypto offset > 255 words */
217 u_int32_t st_iovmisaligned; /* iov op not aligned */
218 u_int32_t st_iovnotuniform; /* iov op not suitable */
219 u_int32_t st_unaligned; /* unaligned src caused copy */
220 u_int32_t st_notuniform; /* non-uniform src caused copy */
221 u_int32_t st_nomap; /* bus_dmamap_create failed */
222 u_int32_t st_noload; /* bus_dmamap_load_* failed */
223 u_int32_t st_nombuf; /* MGET* failed */
224 u_int32_t st_nomcl; /* MCLGET* failed */
225 u_int32_t st_maxqchip; /* max mcr1 ops out for processing */
226 u_int32_t st_rng; /* RNG requests */
227 u_int32_t st_rngalarm; /* RNG alarm requests */
228 u_int32_t st_noicvcopy; /* ICV data copies suppressed */
229 };
230 #endif /* _SAFE_SAFEVAR_H_ */
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