1 /* SPDX-License-Identifier: GPL-2.0 */ 1 /* SPDX-License-Identifier: GPL-2.0 */ 2 /* 2 /* 3 * Shared Memory Communications over RDMA (SMC 3 * Shared Memory Communications over RDMA (SMC-R) and RoCE 4 * 4 * 5 * Macros for SMC statistics 5 * Macros for SMC statistics 6 * 6 * 7 * Copyright IBM Corp. 2021 7 * Copyright IBM Corp. 2021 8 * 8 * 9 * Author(s): Guvenc Gulce 9 * Author(s): Guvenc Gulce 10 */ 10 */ 11 11 12 #ifndef NET_SMC_SMC_STATS_H_ 12 #ifndef NET_SMC_SMC_STATS_H_ 13 #define NET_SMC_SMC_STATS_H_ 13 #define NET_SMC_SMC_STATS_H_ 14 #include <linux/init.h> 14 #include <linux/init.h> 15 #include <linux/mutex.h> 15 #include <linux/mutex.h> 16 #include <linux/percpu.h> 16 #include <linux/percpu.h> 17 #include <linux/ctype.h> 17 #include <linux/ctype.h> 18 #include <linux/smc.h> 18 #include <linux/smc.h> 19 19 20 #include "smc_clc.h" 20 #include "smc_clc.h" 21 21 22 #define SMC_MAX_FBACK_RSN_CNT 36 !! 22 #define SMC_MAX_FBACK_RSN_CNT 30 23 23 24 enum { 24 enum { 25 SMC_BUF_8K, 25 SMC_BUF_8K, 26 SMC_BUF_16K, 26 SMC_BUF_16K, 27 SMC_BUF_32K, 27 SMC_BUF_32K, 28 SMC_BUF_64K, 28 SMC_BUF_64K, 29 SMC_BUF_128K, 29 SMC_BUF_128K, 30 SMC_BUF_256K, 30 SMC_BUF_256K, 31 SMC_BUF_512K, 31 SMC_BUF_512K, 32 SMC_BUF_1024K, 32 SMC_BUF_1024K, 33 SMC_BUF_G_1024K, 33 SMC_BUF_G_1024K, 34 SMC_BUF_MAX, 34 SMC_BUF_MAX, 35 }; 35 }; 36 36 37 struct smc_stats_fback { 37 struct smc_stats_fback { 38 int fback_code; 38 int fback_code; 39 u16 count; 39 u16 count; 40 }; 40 }; 41 41 42 struct smc_stats_rsn { 42 struct smc_stats_rsn { 43 struct smc_stats_fback srv[SMC_MAX_FB 43 struct smc_stats_fback srv[SMC_MAX_FBACK_RSN_CNT]; 44 struct smc_stats_fback clnt[SMC_MAX_F 44 struct smc_stats_fback clnt[SMC_MAX_FBACK_RSN_CNT]; 45 u64 srv_fback_cnt; 45 u64 srv_fback_cnt; 46 u64 clnt_fback_cnt 46 u64 clnt_fback_cnt; 47 }; 47 }; 48 48 49 struct smc_stats_rmbcnt { 49 struct smc_stats_rmbcnt { 50 u64 buf_size_small_peer_cnt; 50 u64 buf_size_small_peer_cnt; 51 u64 buf_size_small_cnt; 51 u64 buf_size_small_cnt; 52 u64 buf_full_peer_cnt; 52 u64 buf_full_peer_cnt; 53 u64 buf_full_cnt; 53 u64 buf_full_cnt; 54 u64 reuse_cnt; 54 u64 reuse_cnt; 55 u64 alloc_cnt; 55 u64 alloc_cnt; 56 u64 dgrade_cnt; 56 u64 dgrade_cnt; 57 }; 57 }; 58 58 59 struct smc_stats_memsize { 59 struct smc_stats_memsize { 60 u64 buf[SMC_BUF_MAX]; 60 u64 buf[SMC_BUF_MAX]; 61 }; 61 }; 62 62 63 struct smc_stats_tech { 63 struct smc_stats_tech { 64 struct smc_stats_memsize tx_rmbsize; 64 struct smc_stats_memsize tx_rmbsize; 65 struct smc_stats_memsize rx_rmbsize; 65 struct smc_stats_memsize rx_rmbsize; 66 struct smc_stats_memsize tx_pd; 66 struct smc_stats_memsize tx_pd; 67 struct smc_stats_memsize rx_pd; 67 struct smc_stats_memsize rx_pd; 68 struct smc_stats_rmbcnt rmb_tx; 68 struct smc_stats_rmbcnt rmb_tx; 69 struct smc_stats_rmbcnt rmb_rx; 69 struct smc_stats_rmbcnt rmb_rx; 70 u64 clnt_v1_succ_c 70 u64 clnt_v1_succ_cnt; 71 u64 clnt_v2_succ_c 71 u64 clnt_v2_succ_cnt; 72 u64 srv_v1_succ_cn 72 u64 srv_v1_succ_cnt; 73 u64 srv_v2_succ_cn 73 u64 srv_v2_succ_cnt; 74 u64 urg_data_cnt; 74 u64 urg_data_cnt; 75 u64 splice_cnt; 75 u64 splice_cnt; 76 u64 cork_cnt; 76 u64 cork_cnt; 77 u64 ndly_cnt; 77 u64 ndly_cnt; 78 u64 rx_bytes; 78 u64 rx_bytes; 79 u64 tx_bytes; 79 u64 tx_bytes; 80 u64 rx_cnt; 80 u64 rx_cnt; 81 u64 tx_cnt; 81 u64 tx_cnt; 82 u64 rx_rmbuse; << 83 u64 tx_rmbuse; << 84 }; 82 }; 85 83 86 struct smc_stats { 84 struct smc_stats { 87 struct smc_stats_tech smc[2]; 85 struct smc_stats_tech smc[2]; 88 u64 clnt_hshake_er 86 u64 clnt_hshake_err_cnt; 89 u64 srv_hshake_err 87 u64 srv_hshake_err_cnt; 90 }; 88 }; 91 89 92 #define SMC_STAT_PAYLOAD_SUB(_smc_stats, _tech 90 #define SMC_STAT_PAYLOAD_SUB(_smc_stats, _tech, key, _len, _rc) \ 93 do { \ 91 do { \ 94 typeof(_smc_stats) stats = (_smc_stats 92 typeof(_smc_stats) stats = (_smc_stats); \ 95 typeof(_tech) t = (_tech); \ 93 typeof(_tech) t = (_tech); \ 96 typeof(_len) l = (_len); \ 94 typeof(_len) l = (_len); \ 97 int _pos; \ 95 int _pos; \ 98 typeof(_rc) r = (_rc); \ 96 typeof(_rc) r = (_rc); \ 99 int m = SMC_BUF_MAX - 1; \ 97 int m = SMC_BUF_MAX - 1; \ 100 this_cpu_inc((*stats).smc[t].key ## _c 98 this_cpu_inc((*stats).smc[t].key ## _cnt); \ 101 if (r <= 0 || l <= 0) \ 99 if (r <= 0 || l <= 0) \ 102 break; \ 100 break; \ 103 _pos = fls64((l - 1) >> 13); \ 101 _pos = fls64((l - 1) >> 13); \ 104 _pos = (_pos <= m) ? _pos : m; \ 102 _pos = (_pos <= m) ? _pos : m; \ 105 this_cpu_inc((*stats).smc[t].key ## _p 103 this_cpu_inc((*stats).smc[t].key ## _pd.buf[_pos]); \ 106 this_cpu_add((*stats).smc[t].key ## _b 104 this_cpu_add((*stats).smc[t].key ## _bytes, r); \ 107 } \ 105 } \ 108 while (0) 106 while (0) 109 107 110 #define SMC_STAT_TX_PAYLOAD(_smc, length, rcod 108 #define SMC_STAT_TX_PAYLOAD(_smc, length, rcode) \ 111 do { \ 109 do { \ 112 typeof(_smc) __smc = _smc; \ 110 typeof(_smc) __smc = _smc; \ 113 struct net *_net = sock_net(&__smc->sk 111 struct net *_net = sock_net(&__smc->sk); \ 114 struct smc_stats __percpu *_smc_stats 112 struct smc_stats __percpu *_smc_stats = _net->smc.smc_stats; \ 115 typeof(length) _len = (length); \ 113 typeof(length) _len = (length); \ 116 typeof(rcode) _rc = (rcode); \ 114 typeof(rcode) _rc = (rcode); \ 117 bool is_smcd = !__smc->conn.lnk; \ 115 bool is_smcd = !__smc->conn.lnk; \ 118 if (is_smcd) \ 116 if (is_smcd) \ 119 SMC_STAT_PAYLOAD_SUB(_smc_stat 117 SMC_STAT_PAYLOAD_SUB(_smc_stats, SMC_TYPE_D, tx, _len, _rc); \ 120 else \ 118 else \ 121 SMC_STAT_PAYLOAD_SUB(_smc_stat 119 SMC_STAT_PAYLOAD_SUB(_smc_stats, SMC_TYPE_R, tx, _len, _rc); \ 122 } \ 120 } \ 123 while (0) 121 while (0) 124 122 125 #define SMC_STAT_RX_PAYLOAD(_smc, length, rcod 123 #define SMC_STAT_RX_PAYLOAD(_smc, length, rcode) \ 126 do { \ 124 do { \ 127 typeof(_smc) __smc = _smc; \ 125 typeof(_smc) __smc = _smc; \ 128 struct net *_net = sock_net(&__smc->sk 126 struct net *_net = sock_net(&__smc->sk); \ 129 struct smc_stats __percpu *_smc_stats 127 struct smc_stats __percpu *_smc_stats = _net->smc.smc_stats; \ 130 typeof(length) _len = (length); \ 128 typeof(length) _len = (length); \ 131 typeof(rcode) _rc = (rcode); \ 129 typeof(rcode) _rc = (rcode); \ 132 bool is_smcd = !__smc->conn.lnk; \ 130 bool is_smcd = !__smc->conn.lnk; \ 133 if (is_smcd) \ 131 if (is_smcd) \ 134 SMC_STAT_PAYLOAD_SUB(_smc_stat 132 SMC_STAT_PAYLOAD_SUB(_smc_stats, SMC_TYPE_D, rx, _len, _rc); \ 135 else \ 133 else \ 136 SMC_STAT_PAYLOAD_SUB(_smc_stat 134 SMC_STAT_PAYLOAD_SUB(_smc_stats, SMC_TYPE_R, rx, _len, _rc); \ 137 } \ 135 } \ 138 while (0) 136 while (0) 139 137 140 #define SMC_STAT_RMB_SIZE_SUB(_smc_stats, _tec !! 138 #define SMC_STAT_RMB_SIZE_SUB(_smc_stats, _tech, k, _len) \ 141 do { \ 139 do { \ 142 typeof(_smc_stats) stats = (_smc_stats << 143 typeof(_is_add) is_a = (_is_add); \ << 144 typeof(_len) _l = (_len); \ 140 typeof(_len) _l = (_len); \ 145 typeof(_tech) t = (_tech); \ 141 typeof(_tech) t = (_tech); \ 146 int _pos; \ 142 int _pos; \ 147 int m = SMC_BUF_MAX - 1; \ 143 int m = SMC_BUF_MAX - 1; \ 148 if (_l <= 0) \ 144 if (_l <= 0) \ 149 break; \ 145 break; \ 150 if (is_a) { \ !! 146 _pos = fls((_l - 1) >> 13); \ 151 _pos = fls((_l - 1) >> 13); \ !! 147 _pos = (_pos <= m) ? _pos : m; \ 152 _pos = (_pos <= m) ? _pos : m; !! 148 this_cpu_inc((*(_smc_stats)).smc[t].k ## _rmbsize.buf[_pos]); \ 153 this_cpu_inc((*stats).smc[t].k << 154 this_cpu_add((*stats).smc[t].k << 155 } else { \ << 156 this_cpu_sub((*stats).smc[t].k << 157 } \ << 158 } \ 149 } \ 159 while (0) 150 while (0) 160 151 161 #define SMC_STAT_RMB_SUB(_smc_stats, type, t, 152 #define SMC_STAT_RMB_SUB(_smc_stats, type, t, key) \ 162 this_cpu_inc((*(_smc_stats)).smc[t].rm 153 this_cpu_inc((*(_smc_stats)).smc[t].rmb ## _ ## key.type ## _cnt) 163 154 164 #define SMC_STAT_RMB_SIZE(_smc, _is_smcd, _is_ !! 155 #define SMC_STAT_RMB_SIZE(_smc, _is_smcd, _is_rx, _len) \ 165 do { \ 156 do { \ 166 struct net *_net = sock_net(&(_smc)->s 157 struct net *_net = sock_net(&(_smc)->sk); \ 167 struct smc_stats __percpu *_smc_stats 158 struct smc_stats __percpu *_smc_stats = _net->smc.smc_stats; \ 168 typeof(_is_add) is_add = (_is_add); \ << 169 typeof(_is_smcd) is_d = (_is_smcd); \ 159 typeof(_is_smcd) is_d = (_is_smcd); \ 170 typeof(_is_rx) is_r = (_is_rx); \ 160 typeof(_is_rx) is_r = (_is_rx); \ 171 typeof(_len) l = (_len); \ 161 typeof(_len) l = (_len); \ 172 if ((is_d) && (is_r)) \ 162 if ((is_d) && (is_r)) \ 173 SMC_STAT_RMB_SIZE_SUB(_smc_sta !! 163 SMC_STAT_RMB_SIZE_SUB(_smc_stats, SMC_TYPE_D, rx, l); \ 174 if ((is_d) && !(is_r)) \ 164 if ((is_d) && !(is_r)) \ 175 SMC_STAT_RMB_SIZE_SUB(_smc_sta !! 165 SMC_STAT_RMB_SIZE_SUB(_smc_stats, SMC_TYPE_D, tx, l); \ 176 if (!(is_d) && (is_r)) \ 166 if (!(is_d) && (is_r)) \ 177 SMC_STAT_RMB_SIZE_SUB(_smc_sta !! 167 SMC_STAT_RMB_SIZE_SUB(_smc_stats, SMC_TYPE_R, rx, l); \ 178 if (!(is_d) && !(is_r)) \ 168 if (!(is_d) && !(is_r)) \ 179 SMC_STAT_RMB_SIZE_SUB(_smc_sta !! 169 SMC_STAT_RMB_SIZE_SUB(_smc_stats, SMC_TYPE_R, tx, l); \ 180 } \ 170 } \ 181 while (0) 171 while (0) 182 172 183 #define SMC_STAT_RMB(_smc, type, _is_smcd, _is 173 #define SMC_STAT_RMB(_smc, type, _is_smcd, _is_rx) \ 184 do { \ 174 do { \ 185 struct net *net = sock_net(&(_smc)->sk 175 struct net *net = sock_net(&(_smc)->sk); \ 186 struct smc_stats __percpu *_smc_stats 176 struct smc_stats __percpu *_smc_stats = net->smc.smc_stats; \ 187 typeof(_is_smcd) is_d = (_is_smcd); \ 177 typeof(_is_smcd) is_d = (_is_smcd); \ 188 typeof(_is_rx) is_r = (_is_rx); \ 178 typeof(_is_rx) is_r = (_is_rx); \ 189 if ((is_d) && (is_r)) \ 179 if ((is_d) && (is_r)) \ 190 SMC_STAT_RMB_SUB(_smc_stats, t 180 SMC_STAT_RMB_SUB(_smc_stats, type, SMC_TYPE_D, rx); \ 191 if ((is_d) && !(is_r)) \ 181 if ((is_d) && !(is_r)) \ 192 SMC_STAT_RMB_SUB(_smc_stats, t 182 SMC_STAT_RMB_SUB(_smc_stats, type, SMC_TYPE_D, tx); \ 193 if (!(is_d) && (is_r)) \ 183 if (!(is_d) && (is_r)) \ 194 SMC_STAT_RMB_SUB(_smc_stats, t 184 SMC_STAT_RMB_SUB(_smc_stats, type, SMC_TYPE_R, rx); \ 195 if (!(is_d) && !(is_r)) \ 185 if (!(is_d) && !(is_r)) \ 196 SMC_STAT_RMB_SUB(_smc_stats, t 186 SMC_STAT_RMB_SUB(_smc_stats, type, SMC_TYPE_R, tx); \ 197 } \ 187 } \ 198 while (0) 188 while (0) 199 189 200 #define SMC_STAT_BUF_REUSE(smc, is_smcd, is_rx 190 #define SMC_STAT_BUF_REUSE(smc, is_smcd, is_rx) \ 201 SMC_STAT_RMB(smc, reuse, is_smcd, is_r 191 SMC_STAT_RMB(smc, reuse, is_smcd, is_rx) 202 192 203 #define SMC_STAT_RMB_ALLOC(smc, is_smcd, is_rx 193 #define SMC_STAT_RMB_ALLOC(smc, is_smcd, is_rx) \ 204 SMC_STAT_RMB(smc, alloc, is_smcd, is_r 194 SMC_STAT_RMB(smc, alloc, is_smcd, is_rx) 205 195 206 #define SMC_STAT_RMB_DOWNGRADED(smc, is_smcd, 196 #define SMC_STAT_RMB_DOWNGRADED(smc, is_smcd, is_rx) \ 207 SMC_STAT_RMB(smc, dgrade, is_smcd, is_ 197 SMC_STAT_RMB(smc, dgrade, is_smcd, is_rx) 208 198 209 #define SMC_STAT_RMB_TX_PEER_FULL(smc, is_smcd 199 #define SMC_STAT_RMB_TX_PEER_FULL(smc, is_smcd) \ 210 SMC_STAT_RMB(smc, buf_full_peer, is_sm 200 SMC_STAT_RMB(smc, buf_full_peer, is_smcd, false) 211 201 212 #define SMC_STAT_RMB_TX_FULL(smc, is_smcd) \ 202 #define SMC_STAT_RMB_TX_FULL(smc, is_smcd) \ 213 SMC_STAT_RMB(smc, buf_full, is_smcd, f 203 SMC_STAT_RMB(smc, buf_full, is_smcd, false) 214 204 215 #define SMC_STAT_RMB_TX_PEER_SIZE_SMALL(smc, i 205 #define SMC_STAT_RMB_TX_PEER_SIZE_SMALL(smc, is_smcd) \ 216 SMC_STAT_RMB(smc, buf_size_small_peer, 206 SMC_STAT_RMB(smc, buf_size_small_peer, is_smcd, false) 217 207 218 #define SMC_STAT_RMB_TX_SIZE_SMALL(smc, is_smc 208 #define SMC_STAT_RMB_TX_SIZE_SMALL(smc, is_smcd) \ 219 SMC_STAT_RMB(smc, buf_size_small, is_s 209 SMC_STAT_RMB(smc, buf_size_small, is_smcd, false) 220 210 221 #define SMC_STAT_RMB_RX_SIZE_SMALL(smc, is_smc 211 #define SMC_STAT_RMB_RX_SIZE_SMALL(smc, is_smcd) \ 222 SMC_STAT_RMB(smc, buf_size_small, is_s 212 SMC_STAT_RMB(smc, buf_size_small, is_smcd, true) 223 213 224 #define SMC_STAT_RMB_RX_FULL(smc, is_smcd) \ 214 #define SMC_STAT_RMB_RX_FULL(smc, is_smcd) \ 225 SMC_STAT_RMB(smc, buf_full, is_smcd, t 215 SMC_STAT_RMB(smc, buf_full, is_smcd, true) 226 216 227 #define SMC_STAT_INC(_smc, type) \ 217 #define SMC_STAT_INC(_smc, type) \ 228 do { \ 218 do { \ 229 typeof(_smc) __smc = _smc; \ 219 typeof(_smc) __smc = _smc; \ 230 bool is_smcd = !(__smc)->conn.lnk; \ 220 bool is_smcd = !(__smc)->conn.lnk; \ 231 struct net *net = sock_net(&(__smc)->s 221 struct net *net = sock_net(&(__smc)->sk); \ 232 struct smc_stats __percpu *smc_stats = 222 struct smc_stats __percpu *smc_stats = net->smc.smc_stats; \ 233 if ((is_smcd)) \ 223 if ((is_smcd)) \ 234 this_cpu_inc(smc_stats->smc[SM 224 this_cpu_inc(smc_stats->smc[SMC_TYPE_D].type); \ 235 else \ 225 else \ 236 this_cpu_inc(smc_stats->smc[SM 226 this_cpu_inc(smc_stats->smc[SMC_TYPE_R].type); \ 237 } \ 227 } \ 238 while (0) 228 while (0) 239 229 240 #define SMC_STAT_CLNT_SUCC_INC(net, _aclc) \ 230 #define SMC_STAT_CLNT_SUCC_INC(net, _aclc) \ 241 do { \ 231 do { \ 242 typeof(_aclc) acl = (_aclc); \ 232 typeof(_aclc) acl = (_aclc); \ 243 bool is_v2 = (acl->hdr.version == SMC_ 233 bool is_v2 = (acl->hdr.version == SMC_V2); \ 244 bool is_smcd = (acl->hdr.typev1 == SMC 234 bool is_smcd = (acl->hdr.typev1 == SMC_TYPE_D); \ 245 struct smc_stats __percpu *smc_stats = 235 struct smc_stats __percpu *smc_stats = (net)->smc.smc_stats; \ 246 if (is_v2 && is_smcd) \ 236 if (is_v2 && is_smcd) \ 247 this_cpu_inc(smc_stats->smc[SM 237 this_cpu_inc(smc_stats->smc[SMC_TYPE_D].clnt_v2_succ_cnt); \ 248 else if (is_v2 && !is_smcd) \ 238 else if (is_v2 && !is_smcd) \ 249 this_cpu_inc(smc_stats->smc[SM 239 this_cpu_inc(smc_stats->smc[SMC_TYPE_R].clnt_v2_succ_cnt); \ 250 else if (!is_v2 && is_smcd) \ 240 else if (!is_v2 && is_smcd) \ 251 this_cpu_inc(smc_stats->smc[SM 241 this_cpu_inc(smc_stats->smc[SMC_TYPE_D].clnt_v1_succ_cnt); \ 252 else if (!is_v2 && !is_smcd) \ 242 else if (!is_v2 && !is_smcd) \ 253 this_cpu_inc(smc_stats->smc[SM 243 this_cpu_inc(smc_stats->smc[SMC_TYPE_R].clnt_v1_succ_cnt); \ 254 } \ 244 } \ 255 while (0) 245 while (0) 256 246 257 #define SMC_STAT_SERV_SUCC_INC(net, _ini) \ 247 #define SMC_STAT_SERV_SUCC_INC(net, _ini) \ 258 do { \ 248 do { \ 259 typeof(_ini) i = (_ini); \ 249 typeof(_ini) i = (_ini); \ 260 bool is_smcd = (i->is_smcd); \ 250 bool is_smcd = (i->is_smcd); \ 261 u8 version = is_smcd ? i->smcd_version 251 u8 version = is_smcd ? i->smcd_version : i->smcr_version; \ 262 bool is_v2 = (version & SMC_V2); \ 252 bool is_v2 = (version & SMC_V2); \ 263 typeof(net->smc.smc_stats) smc_stats = 253 typeof(net->smc.smc_stats) smc_stats = (net)->smc.smc_stats; \ 264 if (is_v2 && is_smcd) \ 254 if (is_v2 && is_smcd) \ 265 this_cpu_inc(smc_stats->smc[SM 255 this_cpu_inc(smc_stats->smc[SMC_TYPE_D].srv_v2_succ_cnt); \ 266 else if (is_v2 && !is_smcd) \ 256 else if (is_v2 && !is_smcd) \ 267 this_cpu_inc(smc_stats->smc[SM 257 this_cpu_inc(smc_stats->smc[SMC_TYPE_R].srv_v2_succ_cnt); \ 268 else if (!is_v2 && is_smcd) \ 258 else if (!is_v2 && is_smcd) \ 269 this_cpu_inc(smc_stats->smc[SM 259 this_cpu_inc(smc_stats->smc[SMC_TYPE_D].srv_v1_succ_cnt); \ 270 else if (!is_v2 && !is_smcd) \ 260 else if (!is_v2 && !is_smcd) \ 271 this_cpu_inc(smc_stats->smc[SM 261 this_cpu_inc(smc_stats->smc[SMC_TYPE_R].srv_v1_succ_cnt); \ 272 } \ 262 } \ 273 while (0) 263 while (0) 274 264 275 int smc_nl_get_stats(struct sk_buff *skb, stru 265 int smc_nl_get_stats(struct sk_buff *skb, struct netlink_callback *cb); 276 int smc_nl_get_fback_stats(struct sk_buff *skb 266 int smc_nl_get_fback_stats(struct sk_buff *skb, struct netlink_callback *cb); 277 int smc_stats_init(struct net *net); 267 int smc_stats_init(struct net *net); 278 void smc_stats_exit(struct net *net); 268 void smc_stats_exit(struct net *net); 279 269 280 #endif /* NET_SMC_SMC_STATS_H_ */ 270 #endif /* NET_SMC_SMC_STATS_H_ */ 281 271
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