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1 #ifndef _OPA_VNIC_ENCAP_H
2 #define _OPA_VNIC_ENCAP_H
3 /*
4  * Copyright(c) 2017 Intel Corporation.
5  *
6  * This file is provided under a dual BSD/GPLv2 license.  When using or
7  * redistributing this file, you may do so under either license.
8  *
9  * GPL LICENSE SUMMARY
10  *
11  * This program is free software; you can redistribute it and/or modify
12  * it under the terms of version 2 of the GNU General Public License as
13  * published by the Free Software Foundation.
14  *
15  * This program is distributed in the hope that it will be useful, but
16  * WITHOUT ANY WARRANTY; without even the implied warranty of
17  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
18  * General Public License for more details.
19  *
20  * BSD LICENSE
21  *
22  * Redistribution and use in source and binary forms, with or without
23  * modification, are permitted provided that the following conditions
24  * are met:
25  *
26  *  - Redistributions of source code must retain the above copyright
27  *    notice, this list of conditions and the following disclaimer.
28  *  - Redistributions in binary form must reproduce the above copyright
29  *    notice, this list of conditions and the following disclaimer in
30  *    the documentation and/or other materials provided with the
31  *    distribution.
32  *  - Neither the name of Intel Corporation nor the names of its
33  *    contributors may be used to endorse or promote products derived
34  *    from this software without specific prior written permission.
35  *
36  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
37  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
38  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
39  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
40  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
41  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
42  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
43  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
44  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
45  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
46  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
47  *
48  */
49 
50 /*
51  * This file contains all OPA VNIC declaration required for encapsulation
52  * and decapsulation of Ethernet packets
53  */
54 
55 #include <linux/types.h>
56 #include <rdma/ib_mad.h>
57 
58 /* EMA class version */
59 #define OPA_EMA_CLASS_VERSION               0x80
60 
61 /*
62  * Define the Intel vendor management class for OPA
63  * ETHERNET MANAGEMENT
64  */
65 #define OPA_MGMT_CLASS_INTEL_EMA            0x34
66 
67 /* EM attribute IDs */
68 #define OPA_EM_ATTR_CLASS_PORT_INFO                 0x0001
69 #define OPA_EM_ATTR_VESWPORT_INFO                   0x0011
70 #define OPA_EM_ATTR_VESWPORT_MAC_ENTRIES            0x0012
71 #define OPA_EM_ATTR_IFACE_UCAST_MACS                0x0013
72 #define OPA_EM_ATTR_IFACE_MCAST_MACS                0x0014
73 #define OPA_EM_ATTR_DELETE_VESW                     0x0015
74 #define OPA_EM_ATTR_VESWPORT_SUMMARY_COUNTERS       0x0020
75 #define OPA_EM_ATTR_VESWPORT_ERROR_COUNTERS         0x0022
76 
77 /* VNIC configured and operational state values */
78 #define OPA_VNIC_STATE_DROP_ALL        0x1
79 #define OPA_VNIC_STATE_FORWARDING      0x3
80 
81 #define OPA_VESW_MAX_NUM_DEF_PORT   16
82 #define OPA_VNIC_MAX_NUM_PCP        8
83 
84 #define OPA_VNIC_EMA_DATA    (OPA_MGMT_MAD_SIZE - IB_MGMT_VENDOR_HDR)
85 
86 /* Defines for vendor specific notice(trap) attributes */
87 #define OPA_INTEL_EMA_NOTICE_TYPE_INFO 0x04
88 
89 /* INTEL OUI */
90 #define INTEL_OUI_1 0x00
91 #define INTEL_OUI_2 0x06
92 #define INTEL_OUI_3 0x6a
93 
94 /* Trap opcodes sent from VNIC */
95 #define OPA_VESWPORT_TRAP_IFACE_UCAST_MAC_CHANGE 0x1
96 #define OPA_VESWPORT_TRAP_IFACE_MCAST_MAC_CHANGE 0x2
97 #define OPA_VESWPORT_TRAP_ETH_LINK_STATUS_CHANGE 0x3
98 
99 #define OPA_VNIC_DLID_SD_IS_SRC_MAC(dlid_sd)  (!!((dlid_sd) & 0x20))
100 #define OPA_VNIC_DLID_SD_GET_DLID(dlid_sd)    ((dlid_sd) >> 8)
101 
102 /* VNIC Ethernet link status */
103 #define OPA_VNIC_ETH_LINK_UP     1
104 #define OPA_VNIC_ETH_LINK_DOWN   2
105 
106 /* routing control */
107 #define OPA_VNIC_ENCAP_RC_DEFAULT   0
108 #define OPA_VNIC_ENCAP_RC_IPV4      4
109 #define OPA_VNIC_ENCAP_RC_IPV4_UDP  8
110 #define OPA_VNIC_ENCAP_RC_IPV4_TCP  12
111 #define OPA_VNIC_ENCAP_RC_IPV6      16
112 #define OPA_VNIC_ENCAP_RC_IPV6_TCP  20
113 #define OPA_VNIC_ENCAP_RC_IPV6_UDP  24
114 
115 #define OPA_VNIC_ENCAP_RC_EXT(w, b) (((w) >> OPA_VNIC_ENCAP_RC_ ## b) & 0x7)
116 
117 /**
118  * struct opa_vesw_info - OPA vnic switch information
119  * @fabric_id: 10-bit fabric id
120  * @vesw_id: 12-bit virtual ethernet switch id
121  * @rsvd0: reserved bytes
122  * @def_port_mask: bitmask of default ports
123  * @rsvd1: reserved bytes
124  * @pkey: partition key
125  * @rsvd2: reserved bytes
126  * @u_mcast_dlid: unknown multicast dlid
127  * @u_ucast_dlid: array of unknown unicast dlids
128  * @rsvd3: reserved bytes
129  * @rc: routing control
130  * @eth_mtu: Ethernet MTU
131  * @rsvd4: reserved bytes
132  */
133 struct opa_vesw_info {
134 	__be16  fabric_id;
135 	__be16  vesw_id;
136 
137 	u8      rsvd0[6];
138 	__be16  def_port_mask;
139 
140 	u8      rsvd1[2];
141 	__be16  pkey;
142 
143 	u8      rsvd2[4];
144 	__be32  u_mcast_dlid;
145 	__be32  u_ucast_dlid[OPA_VESW_MAX_NUM_DEF_PORT];
146 
147 	__be32  rc;
148 
149 	u8      rsvd3[56];
150 	__be16  eth_mtu;
151 	u8      rsvd4[2];
152 } __packed;
153 
154 /**
155  * struct opa_per_veswport_info - OPA vnic per port information
156  * @port_num: port number
157  * @eth_link_status: current ethernet link state
158  * @rsvd0: reserved bytes
159  * @base_mac_addr: base mac address
160  * @config_state: configured port state
161  * @oper_state: operational port state
162  * @max_mac_tbl_ent: max number of mac table entries
163  * @max_smac_ent: max smac entries in mac table
164  * @mac_tbl_digest: mac table digest
165  * @rsvd1: reserved bytes
166  * @encap_slid: base slid for the port
167  * @pcp_to_sc_uc: sc by pcp index for unicast ethernet packets
168  * @pcp_to_vl_uc: vl by pcp index for unicast ethernet packets
169  * @pcp_to_sc_mc: sc by pcp index for multicast ethernet packets
170  * @pcp_to_vl_mc: vl by pcp index for multicast ethernet packets
171  * @non_vlan_sc_uc: sc for non-vlan unicast ethernet packets
172  * @non_vlan_vl_uc: vl for non-vlan unicast ethernet packets
173  * @non_vlan_sc_mc: sc for non-vlan multicast ethernet packets
174  * @non_vlan_vl_mc: vl for non-vlan multicast ethernet packets
175  * @rsvd2: reserved bytes
176  * @uc_macs_gen_count: generation count for unicast macs list
177  * @mc_macs_gen_count: generation count for multicast macs list
178  * @rsvd3: reserved bytes
179  */
180 struct opa_per_veswport_info {
181 	__be32  port_num;
182 
183 	u8      eth_link_status;
184 	u8      rsvd0[3];
185 
186 	u8      base_mac_addr[ETH_ALEN];
187 	u8      config_state;
188 	u8      oper_state;
189 
190 	__be16  max_mac_tbl_ent;
191 	__be16  max_smac_ent;
192 	__be32  mac_tbl_digest;
193 	u8      rsvd1[4];
194 
195 	__be32  encap_slid;
196 
197 	u8      pcp_to_sc_uc[OPA_VNIC_MAX_NUM_PCP];
198 	u8      pcp_to_vl_uc[OPA_VNIC_MAX_NUM_PCP];
199 	u8      pcp_to_sc_mc[OPA_VNIC_MAX_NUM_PCP];
200 	u8      pcp_to_vl_mc[OPA_VNIC_MAX_NUM_PCP];
201 
202 	u8      non_vlan_sc_uc;
203 	u8      non_vlan_vl_uc;
204 	u8      non_vlan_sc_mc;
205 	u8      non_vlan_vl_mc;
206 
207 	u8      rsvd2[48];
208 
209 	__be16  uc_macs_gen_count;
210 	__be16  mc_macs_gen_count;
211 
212 	u8      rsvd3[8];
213 } __packed;
214 
215 /**
216  * struct opa_veswport_info - OPA vnic port information
217  * @vesw: OPA vnic switch information
218  * @vport: OPA vnic per port information
219  *
220  * On host, each of the virtual ethernet ports belongs
221  * to a different virtual ethernet switches.
222  */
223 struct opa_veswport_info {
224 	struct opa_vesw_info          vesw;
225 	struct opa_per_veswport_info  vport;
226 };
227 
228 /**
229  * struct opa_veswport_mactable_entry - single entry in the forwarding table
230  * @mac_addr: MAC address
231  * @mac_addr_mask: MAC address bit mask
232  * @dlid_sd: Matching DLID and side data
233  *
234  * On the host each virtual ethernet port will have
235  * a forwarding table. These tables are used to
236  * map a MAC to a LID and other data. For more
237  * details see struct opa_veswport_mactable_entries.
238  * This is the structure of a single mactable entry
239  */
240 struct opa_veswport_mactable_entry {
241 	u8      mac_addr[ETH_ALEN];
242 	u8      mac_addr_mask[ETH_ALEN];
243 	__be32  dlid_sd;
244 } __packed;
245 
246 /**
247  * struct opa_veswport_mactable - Forwarding table array
248  * @offset: mac table starting offset
249  * @num_entries: Number of entries to get or set
250  * @mac_tbl_digest: mac table digest
251  * @tbl_entries: Array of table entries
252  *
253  * The EM sends down this structure in a MAD indicating
254  * the starting offset in the forwarding table that this
255  * entry is to be loaded into and the number of entries
256  * that that this MAD instance contains
257  * The mac_tbl_digest has been added to this MAD structure. It will be set by
258  * the EM and it will be used by the EM to check if there are any
259  * discrepancies with this value and the value
260  * maintained by the EM in the case of VNIC port being deleted or unloaded
261  * A new instantiation of a VNIC will always have a value of zero.
262  * This value is stored as part of the vnic adapter structure and will be
263  * accessed by the GET and SET routines for both the mactable entries and the
264  * veswport info.
265  */
266 struct opa_veswport_mactable {
267 	__be16                              offset;
268 	__be16                              num_entries;
269 	__be32                              mac_tbl_digest;
270 	struct opa_veswport_mactable_entry  tbl_entries[];
271 } __packed;
272 
273 /**
274  * struct opa_veswport_summary_counters - summary counters
275  * @vp_instance: vport instance on the OPA port
276  * @vesw_id: virtual ethernet switch id
277  * @veswport_num: virtual ethernet switch port number
278  * @tx_errors: transmit errors
279  * @rx_errors: receive errors
280  * @tx_packets: transmit packets
281  * @rx_packets: receive packets
282  * @tx_bytes: transmit bytes
283  * @rx_bytes: receive bytes
284  * @tx_unicast: unicast packets transmitted
285  * @tx_mcastbcast: multicast/broadcast packets transmitted
286  * @tx_untagged: non-vlan packets transmitted
287  * @tx_vlan: vlan packets transmitted
288  * @tx_64_size: transmit packet length is 64 bytes
289  * @tx_65_127: transmit packet length is >=65 and < 127 bytes
290  * @tx_128_255: transmit packet length is >=128 and < 255 bytes
291  * @tx_256_511: transmit packet length is >=256 and < 511 bytes
292  * @tx_512_1023: transmit packet length is >=512 and < 1023 bytes
293  * @tx_1024_1518: transmit packet length is >=1024 and < 1518 bytes
294  * @tx_1519_max: transmit packet length >= 1519 bytes
295  * @rx_unicast: unicast packets received
296  * @rx_mcastbcast: multicast/broadcast packets received
297  * @rx_untagged: non-vlan packets received
298  * @rx_vlan: vlan packets received
299  * @rx_64_size: received packet length is 64 bytes
300  * @rx_65_127: received packet length is >=65 and < 127 bytes
301  * @rx_128_255: received packet length is >=128 and < 255 bytes
302  * @rx_256_511: received packet length is >=256 and < 511 bytes
303  * @rx_512_1023: received packet length is >=512 and < 1023 bytes
304  * @rx_1024_1518: received packet length is >=1024 and < 1518 bytes
305  * @rx_1519_max: received packet length >= 1519 bytes
306  * @reserved: reserved bytes
307  *
308  * All the above are counters of corresponding conditions.
309  */
310 struct opa_veswport_summary_counters {
311 	__be16  vp_instance;
312 	__be16  vesw_id;
313 	__be32  veswport_num;
314 
315 	__be64  tx_errors;
316 	__be64  rx_errors;
317 	__be64  tx_packets;
318 	__be64  rx_packets;
319 	__be64  tx_bytes;
320 	__be64  rx_bytes;
321 
322 	__be64  tx_unicast;
323 	__be64  tx_mcastbcast;
324 
325 	__be64  tx_untagged;
326 	__be64  tx_vlan;
327 
328 	__be64  tx_64_size;
329 	__be64  tx_65_127;
330 	__be64  tx_128_255;
331 	__be64  tx_256_511;
332 	__be64  tx_512_1023;
333 	__be64  tx_1024_1518;
334 	__be64  tx_1519_max;
335 
336 	__be64  rx_unicast;
337 	__be64  rx_mcastbcast;
338 
339 	__be64  rx_untagged;
340 	__be64  rx_vlan;
341 
342 	__be64  rx_64_size;
343 	__be64  rx_65_127;
344 	__be64  rx_128_255;
345 	__be64  rx_256_511;
346 	__be64  rx_512_1023;
347 	__be64  rx_1024_1518;
348 	__be64  rx_1519_max;
349 
350 	__be64  reserved[16];
351 } __packed;
352 
353 /**
354  * struct opa_veswport_error_counters - error counters
355  * @vp_instance: vport instance on the OPA port
356  * @vesw_id: virtual ethernet switch id
357  * @veswport_num: virtual ethernet switch port number
358  * @tx_errors: transmit errors
359  * @rx_errors: receive errors
360  * @rsvd0: reserved bytes
361  * @tx_smac_filt: smac filter errors
362  * @rsvd1: reserved bytes
363  * @rsvd2: reserved bytes
364  * @rsvd3: reserved bytes
365  * @tx_dlid_zero: transmit packets with invalid dlid
366  * @rsvd4: reserved bytes
367  * @tx_logic: other transmit errors
368  * @rsvd5: reserved bytes
369  * @tx_drop_state: packet tansmission in non-forward port state
370  * @rx_bad_veswid: received packet with invalid vesw id
371  * @rsvd6: reserved bytes
372  * @rx_runt: received ethernet packet with length < 64 bytes
373  * @rx_oversize: received ethernet packet with length > MTU size
374  * @rsvd7: reserved bytes
375  * @rx_eth_down: received packets when interface is down
376  * @rx_drop_state: received packets in non-forwarding port state
377  * @rx_logic: other receive errors
378  * @rsvd8: reserved bytes
379  * @rsvd9: reserved bytes
380  *
381  * All the above are counters of corresponding error conditions.
382  */
383 struct opa_veswport_error_counters {
384 	__be16  vp_instance;
385 	__be16  vesw_id;
386 	__be32  veswport_num;
387 
388 	__be64  tx_errors;
389 	__be64  rx_errors;
390 
391 	__be64  rsvd0;
392 	__be64  tx_smac_filt;
393 	__be64  rsvd1;
394 	__be64  rsvd2;
395 	__be64  rsvd3;
396 	__be64  tx_dlid_zero;
397 	__be64  rsvd4;
398 	__be64  tx_logic;
399 	__be64  rsvd5;
400 	__be64  tx_drop_state;
401 
402 	__be64  rx_bad_veswid;
403 	__be64  rsvd6;
404 	__be64  rx_runt;
405 	__be64  rx_oversize;
406 	__be64  rsvd7;
407 	__be64  rx_eth_down;
408 	__be64  rx_drop_state;
409 	__be64  rx_logic;
410 	__be64  rsvd8;
411 
412 	__be64  rsvd9[16];
413 } __packed;
414 
415 /**
416  * struct opa_veswport_trap - Trap message sent to EM by VNIC
417  * @fabric_id: 10 bit fabric id
418  * @veswid: 12 bit virtual ethernet switch id
419  * @veswportnum: logical port number on the Virtual switch
420  * @opaportnum: physical port num (redundant on host)
421  * @veswportindex: switch port index on opa port 0 based
422  * @opcode: operation
423  * @reserved: 32 bit for alignment
424  *
425  * The VNIC will send trap messages to the Ethernet manager to
426  * inform it about changes to the VNIC config, behaviour etc.
427  * This is the format of the trap payload.
428  */
429 struct opa_veswport_trap {
430 	__be16  fabric_id;
431 	__be16  veswid;
432 	__be32  veswportnum;
433 	__be16  opaportnum;
434 	u8      veswportindex;
435 	u8      opcode;
436 	__be32  reserved;
437 } __packed;
438 
439 /**
440  * struct opa_vnic_iface_macs_entry - single entry in the mac list
441  * @mac_addr: MAC address
442  */
443 struct opa_vnic_iface_mac_entry {
444 	u8 mac_addr[ETH_ALEN];
445 };
446 
447 /**
448  * struct opa_veswport_iface_macs - Msg to set globally administered MAC
449  * @start_idx: position of first entry (0 based)
450  * @num_macs_in_msg: number of MACs in this message
451  * @tot_macs_in_lst: The total number of MACs the agent has
452  * @gen_count: gen_count to indicate change
453  * @entry: The mac list entry
454  *
455  * Same attribute IDS and attribute modifiers as in locally administered
456  * addresses used to set globally administered addresses
457  */
458 struct opa_veswport_iface_macs {
459 	__be16 start_idx;
460 	__be16 num_macs_in_msg;
461 	__be16 tot_macs_in_lst;
462 	__be16 gen_count;
463 	struct opa_vnic_iface_mac_entry entry[];
464 } __packed;
465 
466 /**
467  * struct opa_vnic_vema_mad - Generic VEMA MAD
468  * @mad_hdr: Generic MAD header
469  * @rmpp_hdr: RMPP header for vendor specific MADs
470  * @reserved: reserved bytes
471  * @oui: Unique org identifier
472  * @data: MAD data
473  */
474 struct opa_vnic_vema_mad {
475 	struct ib_mad_hdr  mad_hdr;
476 	struct ib_rmpp_hdr rmpp_hdr;
477 	u8                 reserved;
478 	u8                 oui[3];
479 	u8                 data[OPA_VNIC_EMA_DATA];
480 };
481 
482 /**
483  * struct opa_vnic_notice_attr - Generic Notice MAD
484  * @gen_type: Generic/Specific bit and type of notice
485  * @oui_1: Vendor ID byte 1
486  * @oui_2: Vendor ID byte 2
487  * @oui_3: Vendor ID byte 3
488  * @trap_num: Trap number
489  * @toggle_count: Notice toggle bit and count value
490  * @issuer_lid: Trap issuer's lid
491  * @reserved: reserved bytes
492  * @issuer_gid: Issuer GID (only if Report method)
493  * @raw_data: Trap message body
494  */
495 struct opa_vnic_notice_attr {
496 	u8     gen_type;
497 	u8     oui_1;
498 	u8     oui_2;
499 	u8     oui_3;
500 	__be16 trap_num;
501 	__be16 toggle_count;
502 	__be32 issuer_lid;
503 	__be32 reserved;
504 	u8     issuer_gid[16];
505 	u8     raw_data[64];
506 } __packed;
507 
508 /**
509  * struct opa_vnic_vema_mad_trap - Generic VEMA MAD Trap
510  * @mad_hdr: Generic MAD header
511  * @rmpp_hdr: RMPP header for vendor specific MADs
512  * @reserved: reserved bytes
513  * @oui: Unique org identifier
514  * @notice: Notice structure
515  */
516 struct opa_vnic_vema_mad_trap {
517 	struct ib_mad_hdr            mad_hdr;
518 	struct ib_rmpp_hdr           rmpp_hdr;
519 	u8                           reserved;
520 	u8                           oui[3];
521 	struct opa_vnic_notice_attr  notice;
522 };
523 
524 #endif /* _OPA_VNIC_ENCAP_H */
525