1 /* SPDX-License-Identifier: GPL-2.0 */ 2 /* 3 * RSS and Classifier definitions for Marvell PPv2 Network Controller 4 * 5 * Copyright (C) 2014 Marvell 6 * 7 * Marcin Wojtas <mw@semihalf.com> 8 */ 9 10 #ifndef _MVPP2_CLS_H_ 11 #define _MVPP2_CLS_H_ 12 13 #include "mvpp2.h" 14 #include "mvpp2_prs.h" 15 16 /* Classifier constants */ 17 #define MVPP2_CLS_FLOWS_TBL_SIZE 512 18 #define MVPP2_CLS_FLOWS_TBL_DATA_WORDS 3 19 #define MVPP2_CLS_LKP_TBL_SIZE 64 20 #define MVPP2_CLS_RX_QUEUES 256 21 22 /* Classifier flow constants */ 23 24 #define MVPP2_FLOW_N_FIELDS 4 25 26 enum mvpp2_cls_engine { 27 MVPP22_CLS_ENGINE_C2 = 1, 28 MVPP22_CLS_ENGINE_C3A, 29 MVPP22_CLS_ENGINE_C3B, 30 MVPP22_CLS_ENGINE_C4, 31 MVPP22_CLS_ENGINE_C3HA = 6, 32 MVPP22_CLS_ENGINE_C3HB = 7, 33 }; 34 35 #define MVPP22_CLS_HEK_OPT_MAC_DA BIT(0) 36 #define MVPP22_CLS_HEK_OPT_VLAN_PRI BIT(1) 37 #define MVPP22_CLS_HEK_OPT_VLAN BIT(2) 38 #define MVPP22_CLS_HEK_OPT_L3_PROTO BIT(3) 39 #define MVPP22_CLS_HEK_OPT_IP4SA BIT(4) 40 #define MVPP22_CLS_HEK_OPT_IP4DA BIT(5) 41 #define MVPP22_CLS_HEK_OPT_IP6SA BIT(6) 42 #define MVPP22_CLS_HEK_OPT_IP6DA BIT(7) 43 #define MVPP22_CLS_HEK_OPT_L4SIP BIT(8) 44 #define MVPP22_CLS_HEK_OPT_L4DIP BIT(9) 45 #define MVPP22_CLS_HEK_N_FIELDS 10 46 47 #define MVPP22_CLS_HEK_L4_OPTS (MVPP22_CLS_HEK_OPT_L4SIP | \ 48 MVPP22_CLS_HEK_OPT_L4DIP) 49 50 #define MVPP22_CLS_HEK_IP4_2T (MVPP22_CLS_HEK_OPT_IP4SA | \ 51 MVPP22_CLS_HEK_OPT_IP4DA) 52 53 #define MVPP22_CLS_HEK_IP6_2T (MVPP22_CLS_HEK_OPT_IP6SA | \ 54 MVPP22_CLS_HEK_OPT_IP6DA) 55 56 /* The fifth tuple in "5T" is the L4_Info field */ 57 #define MVPP22_CLS_HEK_IP4_5T (MVPP22_CLS_HEK_IP4_2T | \ 58 MVPP22_CLS_HEK_L4_OPTS) 59 60 #define MVPP22_CLS_HEK_IP6_5T (MVPP22_CLS_HEK_IP6_2T | \ 61 MVPP22_CLS_HEK_L4_OPTS) 62 63 #define MVPP22_CLS_HEK_TAGGED (MVPP22_CLS_HEK_OPT_VLAN | \ 64 MVPP22_CLS_HEK_OPT_VLAN_PRI) 65 66 enum mvpp2_cls_field_id { 67 MVPP22_CLS_FIELD_MAC_DA = 0x03, 68 MVPP22_CLS_FIELD_VLAN_PRI = 0x05, 69 MVPP22_CLS_FIELD_VLAN = 0x06, 70 MVPP22_CLS_FIELD_L3_PROTO = 0x0f, 71 MVPP22_CLS_FIELD_IP4SA = 0x10, 72 MVPP22_CLS_FIELD_IP4DA = 0x11, 73 MVPP22_CLS_FIELD_IP6SA = 0x17, 74 MVPP22_CLS_FIELD_IP6DA = 0x1a, 75 MVPP22_CLS_FIELD_L4SIP = 0x1d, 76 MVPP22_CLS_FIELD_L4DIP = 0x1e, 77 }; 78 79 /* Classifier C2 engine constants */ 80 #define MVPP22_CLS_C2_TCAM_EN(data) ((data) << 16) 81 82 enum mvpp22_cls_c2_action { 83 MVPP22_C2_NO_UPD = 0, 84 MVPP22_C2_NO_UPD_LOCK, 85 MVPP22_C2_UPD, 86 MVPP22_C2_UPD_LOCK, 87 }; 88 89 enum mvpp22_cls_c2_fwd_action { 90 MVPP22_C2_FWD_NO_UPD = 0, 91 MVPP22_C2_FWD_NO_UPD_LOCK, 92 MVPP22_C2_FWD_SW, 93 MVPP22_C2_FWD_SW_LOCK, 94 MVPP22_C2_FWD_HW, 95 MVPP22_C2_FWD_HW_LOCK, 96 MVPP22_C2_FWD_HW_LOW_LAT, 97 MVPP22_C2_FWD_HW_LOW_LAT_LOCK, 98 }; 99 100 enum mvpp22_cls_c2_color_action { 101 MVPP22_C2_COL_NO_UPD = 0, 102 MVPP22_C2_COL_NO_UPD_LOCK, 103 MVPP22_C2_COL_GREEN, 104 MVPP22_C2_COL_GREEN_LOCK, 105 MVPP22_C2_COL_YELLOW, 106 MVPP22_C2_COL_YELLOW_LOCK, 107 MVPP22_C2_COL_RED, /* Drop */ 108 MVPP22_C2_COL_RED_LOCK, /* Drop */ 109 }; 110 111 #define MVPP2_CLS_C2_TCAM_WORDS 5 112 #define MVPP2_CLS_C2_ATTR_WORDS 5 113 114 struct mvpp2_cls_c2_entry { 115 u32 index; 116 /* TCAM lookup key */ 117 u32 tcam[MVPP2_CLS_C2_TCAM_WORDS]; 118 /* Actions to perform upon TCAM match */ 119 u32 act; 120 /* Attributes relative to the actions to perform */ 121 u32 attr[MVPP2_CLS_C2_ATTR_WORDS]; 122 /* Entry validity */ 123 u8 valid; 124 }; 125 126 #define MVPP22_FLOW_ETHER_BIT BIT(0) 127 #define MVPP22_FLOW_IP4_BIT BIT(1) 128 #define MVPP22_FLOW_IP6_BIT BIT(2) 129 #define MVPP22_FLOW_TCP_BIT BIT(3) 130 #define MVPP22_FLOW_UDP_BIT BIT(4) 131 132 #define MVPP22_FLOW_TCP4 (MVPP22_FLOW_ETHER_BIT | MVPP22_FLOW_IP4_BIT | MVPP22_FLOW_TCP_BIT) 133 #define MVPP22_FLOW_TCP6 (MVPP22_FLOW_ETHER_BIT | MVPP22_FLOW_IP6_BIT | MVPP22_FLOW_TCP_BIT) 134 #define MVPP22_FLOW_UDP4 (MVPP22_FLOW_ETHER_BIT | MVPP22_FLOW_IP4_BIT | MVPP22_FLOW_UDP_BIT) 135 #define MVPP22_FLOW_UDP6 (MVPP22_FLOW_ETHER_BIT | MVPP22_FLOW_IP6_BIT | MVPP22_FLOW_UDP_BIT) 136 #define MVPP22_FLOW_IP4 (MVPP22_FLOW_ETHER_BIT | MVPP22_FLOW_IP4_BIT) 137 #define MVPP22_FLOW_IP6 (MVPP22_FLOW_ETHER_BIT | MVPP22_FLOW_IP6_BIT) 138 #define MVPP22_FLOW_ETHERNET (MVPP22_FLOW_ETHER_BIT) 139 140 /* Classifier C2 engine entries */ 141 #define MVPP22_CLS_C2_N_ENTRIES 256 142 143 /* Number of per-port dedicated entries in the C2 TCAM */ 144 #define MVPP22_CLS_C2_PORT_N_FLOWS MVPP2_N_RFS_ENTRIES_PER_FLOW 145 146 /* Each port has oen range per flow type + one entry controling the global RSS 147 * setting and the default rx queue 148 */ 149 #define MVPP22_CLS_C2_PORT_RANGE (MVPP22_CLS_C2_PORT_N_FLOWS + 1) 150 #define MVPP22_CLS_C2_PORT_FIRST(p) ((p) * MVPP22_CLS_C2_PORT_RANGE) 151 #define MVPP22_CLS_C2_RSS_ENTRY(p) (MVPP22_CLS_C2_PORT_FIRST((p) + 1) - 1) 152 153 #define MVPP22_CLS_C2_PORT_FLOW_FIRST(p) (MVPP22_CLS_C2_PORT_FIRST(p)) 154 155 #define MVPP22_CLS_C2_RFS_LOC(p, loc) (MVPP22_CLS_C2_PORT_FLOW_FIRST(p) + (loc)) 156 157 /* Packet flow ID */ 158 enum mvpp2_prs_flow { 159 MVPP2_FL_START = 8, 160 MVPP2_FL_IP4_TCP_NF_UNTAG = MVPP2_FL_START, 161 MVPP2_FL_IP4_UDP_NF_UNTAG, 162 MVPP2_FL_IP4_TCP_NF_TAG, 163 MVPP2_FL_IP4_UDP_NF_TAG, 164 MVPP2_FL_IP6_TCP_NF_UNTAG, 165 MVPP2_FL_IP6_UDP_NF_UNTAG, 166 MVPP2_FL_IP6_TCP_NF_TAG, 167 MVPP2_FL_IP6_UDP_NF_TAG, 168 MVPP2_FL_IP4_TCP_FRAG_UNTAG, 169 MVPP2_FL_IP4_UDP_FRAG_UNTAG, 170 MVPP2_FL_IP4_TCP_FRAG_TAG, 171 MVPP2_FL_IP4_UDP_FRAG_TAG, 172 MVPP2_FL_IP6_TCP_FRAG_UNTAG, 173 MVPP2_FL_IP6_UDP_FRAG_UNTAG, 174 MVPP2_FL_IP6_TCP_FRAG_TAG, 175 MVPP2_FL_IP6_UDP_FRAG_TAG, 176 MVPP2_FL_IP4_UNTAG, /* non-TCP, non-UDP, same for below */ 177 MVPP2_FL_IP4_TAG, 178 MVPP2_FL_IP6_UNTAG, 179 MVPP2_FL_IP6_TAG, 180 MVPP2_FL_NON_IP_UNTAG, 181 MVPP2_FL_NON_IP_TAG, 182 MVPP2_FL_LAST, 183 }; 184 185 /* LU Type defined for all engines, and specified in the flow table */ 186 #define MVPP2_CLS_LU_TYPE_MASK 0x3f 187 188 enum mvpp2_cls_lu_type { 189 /* rule->loc is used as a lu-type for the entries 0 - 62. */ 190 MVPP22_CLS_LU_TYPE_ALL = 63, 191 }; 192 193 #define MVPP2_N_FLOWS (MVPP2_FL_LAST - MVPP2_FL_START) 194 195 struct mvpp2_cls_flow { 196 /* The L2-L4 traffic flow type */ 197 int flow_type; 198 199 /* The first id in the flow table for this flow */ 200 u16 flow_id; 201 202 /* The supported HEK fields for this flow */ 203 u16 supported_hash_opts; 204 205 /* The Header Parser result_info that matches this flow */ 206 struct mvpp2_prs_result_info prs_ri; 207 }; 208 209 #define MVPP2_CLS_FLT_ENTRIES_PER_FLOW (MVPP2_MAX_PORTS + 1 + 16) 210 #define MVPP2_CLS_FLT_FIRST(id) (((id) - MVPP2_FL_START) * \ 211 MVPP2_CLS_FLT_ENTRIES_PER_FLOW) 212 213 #define MVPP2_CLS_FLT_C2_RFS(port, id, rfs_n) (MVPP2_CLS_FLT_FIRST(id) + \ 214 ((port) * MVPP2_MAX_PORTS) + \ 215 (rfs_n)) 216 217 #define MVPP2_CLS_FLT_C2_RSS_ENTRY(id) (MVPP2_CLS_FLT_C2_RFS(MVPP2_MAX_PORTS, id, 0)) 218 #define MVPP2_CLS_FLT_HASH_ENTRY(port, id) (MVPP2_CLS_FLT_C2_RSS_ENTRY(id) + 1 + (port)) 219 #define MVPP2_CLS_FLT_LAST(id) (MVPP2_CLS_FLT_FIRST(id) + \ 220 MVPP2_CLS_FLT_ENTRIES_PER_FLOW - 1) 221 222 /* Iterate on each classifier flow id. Sets 'i' to be the index of the first 223 * entry in the cls_flows table for each different flow_id. 224 * This relies on entries having the same flow_id in the cls_flows table being 225 * contiguous. 226 */ 227 #define for_each_cls_flow_id(i) \ 228 for ((i) = 0; (i) < MVPP2_N_PRS_FLOWS; (i)++) \ 229 if ((i) > 0 && \ 230 cls_flows[(i)].flow_id == cls_flows[(i) - 1].flow_id) \ 231 continue; \ 232 else 233 234 /* Iterate on each classifier flow that has a given flow_type. Sets 'i' to be 235 * the index of the first entry in the cls_flow table for each different flow_id 236 * that has the given flow_type. This allows to operate on all flows that 237 * matches a given ethtool flow type. 238 */ 239 #define for_each_cls_flow_id_with_type(i, type) \ 240 for_each_cls_flow_id((i)) \ 241 if (cls_flows[(i)].flow_type != (type)) \ 242 continue; \ 243 else 244 245 #define for_each_cls_flow_id_containing_type(i, type) \ 246 for_each_cls_flow_id((i)) \ 247 if ((cls_flows[(i)].flow_type & (type)) != (type)) \ 248 continue; \ 249 else 250 251 struct mvpp2_cls_flow_entry { 252 u32 index; 253 u32 data[MVPP2_CLS_FLOWS_TBL_DATA_WORDS]; 254 }; 255 256 struct mvpp2_cls_lookup_entry { 257 u32 lkpid; 258 u32 way; 259 u32 data; 260 }; 261 262 int mvpp22_port_rss_init(struct mvpp2_port *port); 263 264 int mvpp22_port_rss_enable(struct mvpp2_port *port); 265 int mvpp22_port_rss_disable(struct mvpp2_port *port); 266 267 int mvpp22_port_rss_ctx_create(struct mvpp2_port *port, u32 *rss_ctx); 268 int mvpp22_port_rss_ctx_delete(struct mvpp2_port *port, u32 rss_ctx); 269 270 int mvpp22_port_rss_ctx_indir_set(struct mvpp2_port *port, u32 rss_ctx, 271 const u32 *indir); 272 int mvpp22_port_rss_ctx_indir_get(struct mvpp2_port *port, u32 rss_ctx, 273 u32 *indir); 274 275 int mvpp2_ethtool_rxfh_get(struct mvpp2_port *port, struct ethtool_rxnfc *info); 276 int mvpp2_ethtool_rxfh_set(struct mvpp2_port *port, struct ethtool_rxnfc *info); 277 278 void mvpp2_cls_init(struct mvpp2 *priv); 279 280 void mvpp2_cls_port_config(struct mvpp2_port *port); 281 282 void mvpp2_cls_oversize_rxq_set(struct mvpp2_port *port); 283 284 int mvpp2_cls_flow_eng_get(struct mvpp2_cls_flow_entry *fe); 285 286 u16 mvpp2_flow_get_hek_fields(struct mvpp2_cls_flow_entry *fe); 287 288 const struct mvpp2_cls_flow *mvpp2_cls_flow_get(int flow); 289 290 u32 mvpp2_cls_flow_hits(struct mvpp2 *priv, int index); 291 292 void mvpp2_cls_flow_read(struct mvpp2 *priv, int index, 293 struct mvpp2_cls_flow_entry *fe); 294 295 u32 mvpp2_cls_lookup_hits(struct mvpp2 *priv, int index); 296 297 void mvpp2_cls_lookup_read(struct mvpp2 *priv, int lkpid, int way, 298 struct mvpp2_cls_lookup_entry *le); 299 300 u32 mvpp2_cls_c2_hit_count(struct mvpp2 *priv, int c2_index); 301 302 void mvpp2_cls_c2_read(struct mvpp2 *priv, int index, 303 struct mvpp2_cls_c2_entry *c2); 304 305 int mvpp2_ethtool_cls_rule_get(struct mvpp2_port *port, 306 struct ethtool_rxnfc *rxnfc); 307 308 int mvpp2_ethtool_cls_rule_ins(struct mvpp2_port *port, 309 struct ethtool_rxnfc *info); 310 311 int mvpp2_ethtool_cls_rule_del(struct mvpp2_port *port, 312 struct ethtool_rxnfc *info); 313 314 #endif 315