xref: /titanic_52/usr/src/uts/common/io/hxge/hxge_pfc.h (revision 52244c0958bdf281ca42932b449f644b4decfdc2)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #ifndef _HXGE_PFC_H
28 #define	_HXGE_PFC_H
29 
30 #pragma ident	"%Z%%M%	%I%	%E% SMI"
31 
32 #ifdef __cplusplus
33 extern "C" {
34 #endif
35 
36 /* 0 and 4095 are reserved */
37 #define	VLAN_ID_MIN			1
38 #define	VLAN_ID_MAX			4094
39 #define	VLAN_ID_IMPLICIT		0
40 
41 #define	HXGE_MAC_DEFAULT_ADDR_SLOT	0
42 
43 #define	HASH_BITS			8
44 #define	NMCFILTER_BITS			(1 << HASH_BITS)
45 #define	HASH_REG_WIDTH			16
46 #define	NMCFILTER_REGS			(NMCFILTER_BITS / HASH_REG_WIDTH)
47 					/* Number of multicast filter regs */
48 #define	MAC_MAX_HASH_ENTRY		NMCFILTER_REGS
49 
50 #define	REG_PIO_WRITE64(handle, offset, value) \
51 		HXGE_REG_WR64((handle), (offset), (value))
52 #define	REG_PIO_READ64(handle, offset, val_p) \
53 		HXGE_REG_RD64((handle), (offset), (val_p))
54 
55 #define	TCAM_CTL_RWC_TCAM_WR		0x0
56 #define	TCAM_CTL_RWC_TCAM_CMP		0x2
57 #define	TCAM_CTL_RWC_RAM_WR		0x4
58 #define	TCAM_CTL_RWC_RAM_RD		0x5
59 #define	TCAM_CTL_RWC_RWC_STAT		0x1
60 #define	TCAM_CTL_RWC_RWC_MATCH		0x1
61 
62 #define	WRITE_TCAM_REG_CTL(handle, ctl) \
63 		REG_PIO_WRITE64(handle, PFC_TCAM_CTRL, ctl)
64 
65 #define	READ_TCAM_REG_CTL(handle, val_p) \
66 		REG_PIO_READ64(handle, PFC_TCAM_CTRL, val_p)
67 
68 #define	WRITE_TCAM_REG_KEY0(handle, key)	\
69 		REG_PIO_WRITE64(handle,  PFC_TCAM_KEY0, key)
70 #define	WRITE_TCAM_REG_KEY1(handle, key) \
71 		REG_PIO_WRITE64(handle,  PFC_TCAM_KEY1, key)
72 #define	WRITE_TCAM_REG_MASK0(handle, mask)   \
73 		REG_PIO_WRITE64(handle,  PFC_TCAM_MASK0, mask)
74 #define	WRITE_TCAM_REG_MASK1(handle, mask)   \
75 		REG_PIO_WRITE64(handle,  PFC_TCAM_MASK1, mask)
76 
77 #define	READ_TCAM_REG_KEY0(handle, val_p)	\
78 		REG_PIO_READ64(handle,  PFC_TCAM_KEY0, val_p)
79 #define	READ_TCAM_REG_KEY1(handle, val_p)	\
80 		REG_PIO_READ64(handle,  PFC_TCAM_KEY1, val_p)
81 #define	READ_TCAM_REG_MASK0(handle, val_p)	\
82 		REG_PIO_READ64(handle,  PFC_TCAM_MASK0, val_p)
83 #define	READ_TCAM_REG_MASK1(handle, val_p)	\
84 		REG_PIO_READ64(handle,  PFC_TCAM_MASK1, val_p)
85 
86 typedef union _hxge_tcam_res_t {
87 	uint64_t value;
88 	struct {
89 #if defined(_BIG_ENDIAN)
90 		uint32_t padding:32;
91 		uint32_t padding_l:2;
92 		uint32_t reserved:15;
93 		uint32_t parity:1;
94 		uint32_t hit_count:4;
95 		uint32_t channel_d:2;
96 		uint32_t channel_c:2;
97 		uint32_t channel_b:2;
98 		uint32_t channel_a:2;
99 		uint32_t source_hash:1;
100 		uint32_t discard:1;
101 #else
102 		uint32_t discard:1;
103 		uint32_t source_hash:1;
104 		uint32_t channel_a:2;
105 		uint32_t channel_b:2;
106 		uint32_t channel_c:2;
107 		uint32_t channel_d:2;
108 		uint32_t hit_count:4;
109 		uint32_t parity:1;
110 		uint32_t reserved:15;
111 		uint32_t padding_l:2;
112 		uint32_t padding:32;
113 #endif
114 	} bits;
115 } hxge_tcam_res_t, *p_hxge_tcam_res_t;
116 
117 typedef struct tcam_reg {
118 #if defined(_BIG_ENDIAN)
119 	uint64_t	reg1;		/* 99:64 */
120 	uint64_t	reg0;		/* 63:0 */
121 #else
122 	uint64_t	reg0;		/* 63:0 */
123 	uint64_t	reg1;		/* 99:64 */
124 #endif
125 } hxge_tcam_reg_t;
126 
127 typedef struct hxge_tcam_ipv4_S {
128 #if defined(_BIG_ENDIAN)
129 	uint32_t	class_code:4;   /* 99:96 */
130 	uint32_t	class_code_l:1;   /* 95:95 */
131 	uint32_t	blade_id:4;	/* 94:91 */
132 	uint32_t	rsrvd2:2;	/* 90:89 */
133 	uint32_t	noport:1;	/* 88 */
134 	uint32_t	protocol:8;	/* 87:80 */
135 	uint32_t	l4_hdr:16;	/* 79:64 */
136 	uint32_t	l4_hdr_l:16;	/* 63:48 */
137 	uint32_t	rsrvd:16;	/* 47:32 */
138 	uint32_t	ip_daddr;	/* 31:0 */
139 #else
140 	uint32_t	ip_daddr;	/* 31:0 */
141 	uint32_t	rsrvd:16;	/* 47:32 */
142 	uint32_t	l4_hdr_l:16;	/* 63:48 */
143 	uint32_t	l4_hdr:16;	/* 79:64 */
144 	uint32_t	protocol:8;	/* 87:80 */
145 	uint32_t	noport:1;	/* 88 */
146 	uint32_t	rsrvd2:2;	/* 90:89 */
147 	uint32_t	blade_id:4;	/* 94:91 */
148 	uint32_t	class_code_l:1;   /* 95:95 */
149 	uint32_t	class_code:4;   /* 99:96 */
150 #endif
151 } hxge_tcam_ipv4_t;
152 
153 typedef struct hxge_tcam_ipv6_S {
154 #if defined(_BIG_ENDIAN)
155 	uint32_t	class_code:4;   /* 99:96 */
156 	uint32_t	class_code_l:1;   /* 95:95 */
157 	uint32_t	blade_id:4;	/* 94:91 */
158 	uint32_t	rsrvd2:3;	/* 90:88 */
159 	uint32_t	protocol:8;	/* 87:80 */
160 	uint32_t	l4_hdr:16;	/* 79:64 */
161 	uint32_t	l4_hdr_l:16;	/* 63:48 */
162 	uint32_t	rsrvd:16;	/* 47:32 */
163 	uint32_t	rsrvd_l:32;	/* 31:0 */
164 #else
165 	uint32_t	rsrvd_l:32;	/* 31:0 */
166 	uint32_t	rsrvd:16;	/* 47:32 */
167 	uint32_t	l4_hdr_l:16;	/* 63:48 */
168 	uint32_t	l4_hdr:16;	/* 79:64 */
169 	uint32_t	protocol:8;	/* 87:80 */
170 	uint32_t	rsrvd2:3;	/* 90:88 */
171 	uint32_t	blade_id:4;	/* 94:91 */
172 	uint32_t	class_code_l:1;   /* 95:95 */
173 	uint32_t	class_code:4;   /* 99:96 */
174 #endif
175 } hxge_tcam_ipv6_t;
176 
177 typedef struct hxge_tcam_enet_S {
178 #if defined(_BIG_ENDIAN)
179 	uint8_t		class_code:4;   /* 99:96 */
180 	uint8_t		class_code_l:1; /* 95:95 */
181 	uint8_t		blade_id:4;	/* 94:91 */
182 	uint8_t		rsrvd:3;	/* 90:88 */
183 	uint8_t		eframe[11];	/* 87:0 */
184 #else
185 	uint8_t		eframe[11];	/* 87:0 */
186 	uint8_t		rsrvd:3;	/* 90:88 */
187 	uint8_t		blade_id:4;	/* 94:91 */
188 	uint8_t		class_code_l:1; /* 95:95 */
189 	uint8_t		class_code:4;   /* 99:96 */
190 #endif
191 } hxge_tcam_ether_t;
192 
193 typedef struct hxge_tcam_spread_S {
194 #if defined(_BIG_ENDIAN)
195 	uint32_t	unused:28;	/* 127:100 */
196 	uint32_t	class_code:4;   /* 99:96 */
197 	uint32_t	class_code_l:1; /* 95:95 */
198 	uint32_t	blade_id:4;	/* 94:91 */
199 	uint32_t	wild1:27;	/* 90:64 */
200 	uint32_t	wild;		/* 63:32 */
201 	uint32_t	wild_l;		/* 31:0 */
202 #else
203 	uint32_t	wild_l;		/* 31:0 */
204 	uint32_t	wild;		/* 63:32 */
205 	uint32_t	wild1:27;	/* 90:64 */
206 	uint32_t	blade_id:4;	/* 94:91 */
207 	uint32_t	class_code_l:1; /* 95:95 */
208 	uint32_t	class_code:4;   /* 99:96 */
209 	uint32_t	unused:28;	/* 127:100 */
210 #endif
211 } hxge_tcam_spread_t;
212 
213 typedef struct hxge_tcam_entry_S {
214 	union _hxge_tcam_entry {
215 		hxge_tcam_ipv4_t	ipv4;
216 		hxge_tcam_ipv6_t	ipv6;
217 		hxge_tcam_ether_t	enet;
218 		hxge_tcam_reg_t		regs;
219 		hxge_tcam_spread_t	spread;
220 	} key, mask;
221 	hxge_tcam_res_t			match_action;
222 	uint16_t			ether_type;
223 } hxge_tcam_entry_t;
224 
225 #define	key_reg0		key.regs.reg0
226 #define	key_reg1		key.regs.reg1
227 #define	mask_reg0		mask.regs.reg0
228 #define	mask_reg1		mask.regs.reg1
229 
230 #define	key0			key.regs.reg0
231 #define	key1			key.regs.reg1
232 #define	mask0			mask.regs.reg0
233 #define	mask1			mask.regs.reg1
234 
235 #define	ip4_class_key		key.ipv4.class_code
236 #define	ip4_class_key_l		key.ipv4.class_code_l
237 #define	ip4_blade_id_key	key.ipv4.blade_id
238 #define	ip4_noport_key		key.ipv4.noport
239 #define	ip4_proto_key		key.ipv4.protocol
240 #define	ip4_l4_hdr_key		key.ipv4.l4_hdr
241 #define	ip4_l4_hdr_key_l	key.ipv4.l4_hdr_l
242 #define	ip4_dest_key		key.ipv4.ip_daddr
243 
244 #define	ip4_class_mask		mask.ipv4.class_code
245 #define	ip4_class_mask_l	mask.ipv4.class_code_l
246 #define	ip4_blade_id_mask	mask.ipv4.blade_id
247 #define	ip4_noport_mask		mask.ipv4.noport
248 #define	ip4_proto_mask		mask.ipv4.protocol
249 #define	ip4_l4_hdr_mask		mask.ipv4.l4_hdr
250 #define	ip4_l4_hdr_mask_l	mask.ipv4.l4_hdr_l
251 #define	ip4_dest_mask		mask.ipv4.ip_daddr
252 
253 #define	ip6_class_key		key.ipv6.class_code
254 #define	ip6_class_key_l		key.ipv6.class_code_l
255 #define	ip6_blade_id_key	key.ipv6.blade_id
256 #define	ip6_proto_key		key.ipv6.protocol
257 #define	ip6_l4_hdr_key		key.ipv6.l4_hdr
258 #define	ip6_l4_hdr_key_l	key.ipv6.l4_hdr_l
259 
260 #define	ip6_class_mask		mask.ipv6.class_code
261 #define	ip6_class_mask_l	mask.ipv6.class_code_l
262 #define	ip6_blade_id_mask	mask.ipv6.blade_id
263 #define	ip6_proto_mask		mask.ipv6.protocol
264 #define	ip6_l4_hdr_mask		mask.ipv6.l4_hdr
265 #define	ip6_l4_hdr_mask_l	mask.ipv6.l4_hdr_l
266 
267 #define	ether_class_key		key.enet.class_code
268 #define	ether_class_key_l	key.enet.class_code_l
269 #define	ether_blade_id_key	key.enet.blade_id
270 #define	ether_ethframe_key	key.enet.eframe
271 
272 #define	ether_class_mask	mask.enet.class_code
273 #define	ether_class_mask_l	mask.enet.class_code_l
274 #define	ether_blade_id_mask	mask.enet.blade_id
275 #define	ether_ethframe_mask	mask.enet.eframe
276 
277 typedef	struct _pfc_errlog {
278 	uint32_t		tcp_ctrl_drop;    /* pfc_drop_log */
279 	uint32_t		l2_addr_drop;
280 	uint32_t		class_code_drop;
281 	uint32_t		tcam_drop;
282 	uint32_t		vlan_drop;
283 
284 	uint32_t		vlan_par_err_log; /* pfc_vlan_par_err_log */
285 	uint32_t		tcam_par_err_log; /* pfc_tcam_par_err_log */
286 } pfc_errlog_t, *p_pfc_errlog_t;
287 
288 typedef struct _pfc_stats {
289 	uint32_t		pkt_drop;	/* pfc_int_status */
290 	uint32_t		tcam_parity_err;
291 	uint32_t		vlan_parity_err;
292 
293 	uint32_t		bad_cs_count;	/* pfc_bad_cs_counter */
294 	uint32_t		drop_count;	/* pfc_drop_counter */
295 	pfc_errlog_t		errlog;
296 } hxge_pfc_stats_t, *p_hxge_pfc_stats_t;
297 
298 typedef enum pfc_tcam_class {
299 	TCAM_CLASS_INVALID = 0,
300 	TCAM_CLASS_DUMMY = 1,
301 	TCAM_CLASS_ETYPE_1 = 2,
302 	TCAM_CLASS_ETYPE_2,
303 	TCAM_CLASS_RESERVED_4,
304 	TCAM_CLASS_RESERVED_5,
305 	TCAM_CLASS_RESERVED_6,
306 	TCAM_CLASS_RESERVED_7,
307 	TCAM_CLASS_TCP_IPV4,
308 	TCAM_CLASS_UDP_IPV4,
309 	TCAM_CLASS_AH_ESP_IPV4,
310 	TCAM_CLASS_SCTP_IPV4,
311 	TCAM_CLASS_TCP_IPV6,
312 	TCAM_CLASS_UDP_IPV6,
313 	TCAM_CLASS_AH_ESP_IPV6,
314 	TCAM_CLASS_SCTP_IPV6,
315 	TCAM_CLASS_ARP,
316 	TCAM_CLASS_RARP,
317 	TCAM_CLASS_DUMMY_12,
318 	TCAM_CLASS_DUMMY_13,
319 	TCAM_CLASS_DUMMY_14,
320 	TCAM_CLASS_DUMMY_15,
321 	TCAM_CLASS_MAX
322 } tcam_class_t;
323 
324 typedef struct _tcam_key_cfg_t {
325 	boolean_t	lookup_enable;
326 	boolean_t	discard;
327 } tcam_key_cfg_t;
328 
329 typedef struct _hash_filter_t {
330 	uint_t		hash_ref_cnt;
331 	uint16_t	hash_filter_regs[NMCFILTER_REGS];
332 	uint32_t	hash_bit_ref_cnt[NMCFILTER_BITS];
333 } hash_filter_t, *p_hash_filter_t;
334 
335 #define	HXGE_ETHER_FLOWS	(FLOW_ETHER_DHOST | FLOW_ETHER_SHOST | \
336 					FLOW_ETHER_TYPE)
337 #define	HXGE_VLAN_FLOWS		(FLOW_ETHER_TPID | FLOW_ETHER_TCI)
338 #define	HXGE_ETHERNET_FLOWS	(HXGE_ETHER_FLOWS | HXGE_VLAN_FLOWS)
339 #define	HXGE_PORT_FLOWS		(FLOW_ULP_PORT_REMOTE | FLOW_ULP_PORT_LOCAL)
340 #define	HXGE_ADDR_FLOWS		(FLOW_IP_REMOTE | FLOW_IP_LOCAL)
341 #define	HXGE_IP_FLOWS		(FLOW_IP_VERSION | FLOW_IP_PROTOCOL | \
342 					HXGE_PORT_FLOWS | HXGE_ADDR_FLOWS)
343 #define	HXGE_SUPPORTED_FLOWS	(HXGE_ETHERNET_FLOWS | HXGE_IP_FLOWS)
344 
345 #define	CLS_CODE_MASK		0x1f
346 #define	BLADE_ID_MASK		0xf
347 #define	PID_MASK		0xff
348 #define	IP_PORT_MASK		0xffff
349 
350 #define	IP_ADDR_SA_MASK		0xFFFFFFFF
351 #define	IP_ADDR_DA_MASK		IP_ADDR_SA_MASK
352 #define	L4PT_SPI_MASK		IP_ADDR_SA_MASK
353 
354 #define	BLADE_ID_OFFSET		127	/* Last entry in HCR_REG */
355 
356 #ifdef __cplusplus
357 }
358 #endif
359 
360 #endif /* !_HXGE_PFC_H */
361