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1 /***********************license start***************
2  * Author: Cavium Networks
3  *
4  * Contact: support@caviumnetworks.com
5  * This file is part of the OCTEON SDK
6  *
7  * Copyright (c) 2003-2008 Cavium Networks
8  *
9  * This file is free software; you can redistribute it and/or modify
10  * it under the terms of the GNU General Public License, Version 2, as
11  * published by the Free Software Foundation.
12  *
13  * This file is distributed in the hope that it will be useful, but
14  * AS-IS and WITHOUT ANY WARRANTY; without even the implied warranty
15  * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE, TITLE, or
16  * NONINFRINGEMENT.  See the GNU General Public License for more
17  * details.
18  *
19  * You should have received a copy of the GNU General Public License
20  * along with this file; if not, write to the Free Software
21  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
22  * or visit http://www.gnu.org/licenses/.
23  *
24  * This file may also be available under a different license from Cavium.
25  * Contact Cavium Networks for more information
26  ***********************license end**************************************/
27 
28 /**
29  *
30  * This header file defines the work queue entry (wqe) data structure.
31  * Since this is a commonly used structure that depends on structures
32  * from several hardware blocks, those definitions have been placed
33  * in this file to create a single point of definition of the wqe
34  * format.
35  * Data structures are still named according to the block that they
36  * relate to.
37  *
38  */
39 
40 #ifndef __CVMX_WQE_H__
41 #define __CVMX_WQE_H__
42 
43 #include "cvmx-packet.h"
44 
45 
46 #define OCT_TAG_TYPE_STRING(x)						\
47 	(((x) == CVMX_POW_TAG_TYPE_ORDERED) ?  "ORDERED" :		\
48 		(((x) == CVMX_POW_TAG_TYPE_ATOMIC) ?  "ATOMIC" :	\
49 			(((x) == CVMX_POW_TAG_TYPE_NULL) ?  "NULL" :	\
50 				"NULL_NULL")))
51 
52 /**
53  * HW decode / err_code in work queue entry
54  */
55 typedef union {
56 	uint64_t u64;
57 
58 	/* Use this struct if the hardware determines that the packet is IP */
59 	struct {
60 		/* HW sets this to the number of buffers used by this packet */
61 		uint64_t bufs:8;
62 		/* HW sets to the number of L2 bytes prior to the IP */
63 		uint64_t ip_offset:8;
64 		/* set to 1 if we found DSA/VLAN in the L2 */
65 		uint64_t vlan_valid:1;
66 		/* Set to 1 if the DSA/VLAN tag is stacked */
67 		uint64_t vlan_stacked:1;
68 		uint64_t unassigned:1;
69 		/* HW sets to the DSA/VLAN CFI flag (valid when vlan_valid) */
70 		uint64_t vlan_cfi:1;
71 		/* HW sets to the DSA/VLAN_ID field (valid when vlan_valid) */
72 		uint64_t vlan_id:12;
73 		/* Ring Identifier (if PCIe). Requires PIP_GBL_CTL[RING_EN]=1 */
74 		uint64_t pr:4;
75 		uint64_t unassigned2:8;
76 		/* the packet needs to be decompressed */
77 		uint64_t dec_ipcomp:1;
78 		/* the packet is either TCP or UDP */
79 		uint64_t tcp_or_udp:1;
80 		/* the packet needs to be decrypted (ESP or AH) */
81 		uint64_t dec_ipsec:1;
82 		/* the packet is IPv6 */
83 		uint64_t is_v6:1;
84 
85 		/*
86 		 * (rcv_error, not_IP, IP_exc, is_frag, L4_error,
87 		 * software, etc.).
88 		 */
89 
90 		/*
91 		 * reserved for software use, hardware will clear on
92 		 * packet creation.
93 		 */
94 		uint64_t software:1;
95 		/* exceptional conditions below */
96 		/* the receive interface hardware detected an L4 error
97 		 * (only applies if !is_frag) (only applies if
98 		 * !rcv_error && !not_IP && !IP_exc && !is_frag)
99 		 * failure indicated in err_code below, decode:
100 		 *
101 		 * - 1 = Malformed L4
102 		 * - 2 = L4 Checksum Error: the L4 checksum value is
103 		 * - 3 = UDP Length Error: The UDP length field would
104 		 *       make the UDP data longer than what remains in
105 		 *       the IP packet (as defined by the IP header
106 		 *       length field).
107 		 * - 4 = Bad L4 Port: either the source or destination
108 		 *       TCP/UDP port is 0.
109 		 * - 8 = TCP FIN Only: the packet is TCP and only the
110 		 *       FIN flag set.
111 		 * - 9 = TCP No Flags: the packet is TCP and no flags
112 		 *       are set.
113 		 * - 10 = TCP FIN RST: the packet is TCP and both FIN
114 		 *        and RST are set.
115 		 * - 11 = TCP SYN URG: the packet is TCP and both SYN
116 		 *        and URG are set.
117 		 * - 12 = TCP SYN RST: the packet is TCP and both SYN
118 		 *        and RST are set.
119 		 * - 13 = TCP SYN FIN: the packet is TCP and both SYN
120 		 *        and FIN are set.
121 		 */
122 		uint64_t L4_error:1;
123 		/* set if the packet is a fragment */
124 		uint64_t is_frag:1;
125 		/* the receive interface hardware detected an IP error
126 		 * / exception (only applies if !rcv_error && !not_IP)
127 		 * failure indicated in err_code below, decode:
128 		 *
129 		 * - 1 = Not IP: the IP version field is neither 4 nor
130 		 *       6.
131 		 * - 2 = IPv4 Header Checksum Error: the IPv4 header
132 		 *       has a checksum violation.
133 		 * - 3 = IP Malformed Header: the packet is not long
134 		 *       enough to contain the IP header.
135 		 * - 4 = IP Malformed: the packet is not long enough
136 		 *	 to contain the bytes indicated by the IP
137 		 *	 header. Pad is allowed.
138 		 * - 5 = IP TTL Hop: the IPv4 TTL field or the IPv6
139 		 *       Hop Count field are zero.
140 		 * - 6 = IP Options
141 		 */
142 		uint64_t IP_exc:1;
143 		/*
144 		 * Set if the hardware determined that the packet is a
145 		 * broadcast.
146 		 */
147 		uint64_t is_bcast:1;
148 		/*
149 		 * St if the hardware determined that the packet is a
150 		 * multi-cast.
151 		 */
152 		uint64_t is_mcast:1;
153 		/*
154 		 * Set if the packet may not be IP (must be zero in
155 		 * this case).
156 		 */
157 		uint64_t not_IP:1;
158 		/*
159 		 * The receive interface hardware detected a receive
160 		 * error (must be zero in this case).
161 		 */
162 		uint64_t rcv_error:1;
163 		/* lower err_code = first-level descriptor of the
164 		 * work */
165 		/* zero for packet submitted by hardware that isn't on
166 		 * the slow path */
167 		/* type is cvmx_pip_err_t */
168 		uint64_t err_code:8;
169 	} s;
170 
171 	/* use this to get at the 16 vlan bits */
172 	struct {
173 		uint64_t unused1:16;
174 		uint64_t vlan:16;
175 		uint64_t unused2:32;
176 	} svlan;
177 
178 	/*
179 	 * use this struct if the hardware could not determine that
180 	 * the packet is ip.
181 	 */
182 	struct {
183 		/*
184 		 * HW sets this to the number of buffers used by this
185 		 * packet.
186 		 */
187 		uint64_t bufs:8;
188 		uint64_t unused:8;
189 		/* set to 1 if we found DSA/VLAN in the L2 */
190 		uint64_t vlan_valid:1;
191 		/* Set to 1 if the DSA/VLAN tag is stacked */
192 		uint64_t vlan_stacked:1;
193 		uint64_t unassigned:1;
194 		/*
195 		 * HW sets to the DSA/VLAN CFI flag (valid when
196 		 * vlan_valid)
197 		 */
198 		uint64_t vlan_cfi:1;
199 		/*
200 		 * HW sets to the DSA/VLAN_ID field (valid when
201 		 * vlan_valid).
202 		 */
203 		uint64_t vlan_id:12;
204 		/*
205 		 * Ring Identifier (if PCIe). Requires
206 		 * PIP_GBL_CTL[RING_EN]=1
207 		 */
208 		uint64_t pr:4;
209 		uint64_t unassigned2:12;
210 		/*
211 		 * reserved for software use, hardware will clear on
212 		 * packet creation.
213 		 */
214 		uint64_t software:1;
215 		uint64_t unassigned3:1;
216 		/*
217 		 * set if the hardware determined that the packet is
218 		 * rarp.
219 		 */
220 		uint64_t is_rarp:1;
221 		/*
222 		 * set if the hardware determined that the packet is
223 		 * arp
224 		 */
225 		uint64_t is_arp:1;
226 		/*
227 		 * set if the hardware determined that the packet is a
228 		 * broadcast.
229 		 */
230 		uint64_t is_bcast:1;
231 		/*
232 		 * set if the hardware determined that the packet is a
233 		 * multi-cast
234 		 */
235 		uint64_t is_mcast:1;
236 		/*
237 		 * set if the packet may not be IP (must be one in
238 		 * this case)
239 		 */
240 		uint64_t not_IP:1;
241 		/* The receive interface hardware detected a receive
242 		 * error.  Failure indicated in err_code below,
243 		 * decode:
244 		 *
245 		 * - 1 = partial error: a packet was partially
246 		 *       received, but internal buffering / bandwidth
247 		 *       was not adequate to receive the entire
248 		 *       packet.
249 		 * - 2 = jabber error: the RGMII packet was too large
250 		 *       and is truncated.
251 		 * - 3 = overrun error: the RGMII packet is longer
252 		 *       than allowed and had an FCS error.
253 		 * - 4 = oversize error: the RGMII packet is longer
254 		 *       than allowed.
255 		 * - 5 = alignment error: the RGMII packet is not an
256 		 *       integer number of bytes
257 		 *       and had an FCS error (100M and 10M only).
258 		 * - 6 = fragment error: the RGMII packet is shorter
259 		 *       than allowed and had an FCS error.
260 		 * - 7 = GMX FCS error: the RGMII packet had an FCS
261 		 *       error.
262 		 * - 8 = undersize error: the RGMII packet is shorter
263 		 *       than allowed.
264 		 * - 9 = extend error: the RGMII packet had an extend
265 		 *       error.
266 		 * - 10 = length mismatch error: the RGMII packet had
267 		 *        a length that did not match the length field
268 		 *        in the L2 HDR.
269 		 * - 11 = RGMII RX error/SPI4 DIP4 Error: the RGMII
270 		 * 	  packet had one or more data reception errors
271 		 * 	  (RXERR) or the SPI4 packet had one or more
272 		 * 	  DIP4 errors.
273 		 * - 12 = RGMII skip error/SPI4 Abort Error: the RGMII
274 		 *        packet was not large enough to cover the
275 		 *        skipped bytes or the SPI4 packet was
276 		 *        terminated with an About EOPS.
277 		 * - 13 = RGMII nibble error/SPI4 Port NXA Error: the
278 		 *        RGMII packet had a studder error (data not
279 		 *        repeated - 10/100M only) or the SPI4 packet
280 		 *        was sent to an NXA.
281 		 * - 16 = FCS error: a SPI4.2 packet had an FCS error.
282 		 * - 17 = Skip error: a packet was not large enough to
283 		 *        cover the skipped bytes.
284 		 * - 18 = L2 header malformed: the packet is not long
285 		 *        enough to contain the L2.
286 		 */
287 
288 		uint64_t rcv_error:1;
289 		/*
290 		 * lower err_code = first-level descriptor of the
291 		 * work
292 		 */
293 		/*
294 		 * zero for packet submitted by hardware that isn't on
295 		 * the slow path
296 		 */
297 		/* type is cvmx_pip_err_t (union, so can't use directly */
298 		uint64_t err_code:8;
299 	} snoip;
300 
301 } cvmx_pip_wqe_word2;
302 
303 /**
304  * Work queue entry format
305  *
306  * must be 8-byte aligned
307  */
308 typedef struct {
309 
310     /*****************************************************************
311      * WORD 0
312      *  HW WRITE: the following 64 bits are filled by HW when a packet arrives
313      */
314 
315     /**
316      * raw chksum result generated by the HW
317      */
318 	uint16_t hw_chksum;
319     /**
320      * Field unused by hardware - available for software
321      */
322 	uint8_t unused;
323     /**
324      * Next pointer used by hardware for list maintenance.
325      * May be written/read by HW before the work queue
326      *           entry is scheduled to a PP
327      * (Only 36 bits used in Octeon 1)
328      */
329 	uint64_t next_ptr:40;
330 
331     /*****************************************************************
332      * WORD 1
333      *  HW WRITE: the following 64 bits are filled by HW when a packet arrives
334      */
335 
336     /**
337      * HW sets to the total number of bytes in the packet
338      */
339 	uint64_t len:16;
340     /**
341      * HW sets this to input physical port
342      */
343 	uint64_t ipprt:6;
344 
345     /**
346      * HW sets this to what it thought the priority of the input packet was
347      */
348 	uint64_t qos:3;
349 
350     /**
351      * the group that the work queue entry will be scheduled to
352      */
353 	uint64_t grp:4;
354     /**
355      * the type of the tag (ORDERED, ATOMIC, NULL)
356      */
357 	uint64_t tag_type:3;
358     /**
359      * the synchronization/ordering tag
360      */
361 	uint64_t tag:32;
362 
363     /**
364      * WORD 2 HW WRITE: the following 64-bits are filled in by
365      *   hardware when a packet arrives This indicates a variety of
366      *   status and error conditions.
367      */
368 	cvmx_pip_wqe_word2 word2;
369 
370     /**
371      * Pointer to the first segment of the packet.
372      */
373 	union cvmx_buf_ptr packet_ptr;
374 
375     /**
376      *   HW WRITE: octeon will fill in a programmable amount from the
377      *             packet, up to (at most, but perhaps less) the amount
378      *             needed to fill the work queue entry to 128 bytes
379      *
380      *   If the packet is recognized to be IP, the hardware starts
381      *   (except that the IPv4 header is padded for appropriate
382      *   alignment) writing here where the IP header starts.  If the
383      *   packet is not recognized to be IP, the hardware starts
384      *   writing the beginning of the packet here.
385      */
386 	uint8_t packet_data[96];
387 
388     /**
389      * If desired, SW can make the work Q entry any length. For the
390      * purposes of discussion here, Assume 128B always, as this is all that
391      * the hardware deals with.
392      *
393      */
394 
395 } CVMX_CACHE_LINE_ALIGNED cvmx_wqe_t;
396 
397 #endif /* __CVMX_WQE_H__ */
398