1cf9b3c36SYuval Avnery /* SPDX-License-Identifier: BSD-3-Clause 2cf9b3c36SYuval Avnery * Copyright 2020 Mellanox Technologies, Ltd 3cf9b3c36SYuval Avnery */ 4cf9b3c36SYuval Avnery 5cfc672a9SOri Kam #include <rte_malloc.h> 6cfc672a9SOri Kam #include <rte_log.h> 7cfc672a9SOri Kam #include <rte_errno.h> 8cfc672a9SOri Kam #include <rte_pci.h> 9cfc672a9SOri Kam #include <rte_regexdev.h> 10cfc672a9SOri Kam #include <rte_regexdev_core.h> 11cfc672a9SOri Kam #include <rte_regexdev_driver.h> 12cfc672a9SOri Kam 13392bf908SParav Pandit #include <mlx5_common_pci.h> 14cfc672a9SOri Kam #include <mlx5_glue.h> 15cfc672a9SOri Kam #include <mlx5_devx_cmds.h> 16cfc672a9SOri Kam #include <mlx5_prm.h> 17cfc672a9SOri Kam 18cf9b3c36SYuval Avnery #include "mlx5_regex.h" 19215b1223SYuval Avnery #include "mlx5_regex_utils.h" 209428310aSOri Kam #include "mlx5_rxp_csrs.h" 21215b1223SYuval Avnery 2250458c9dSThomas Monjalon #define MLX5_REGEX_DRIVER_NAME regex_mlx5 2350458c9dSThomas Monjalon #define MLX5_REGEX_LOG_NAME pmd.regex.mlx5 2450458c9dSThomas Monjalon 25215b1223SYuval Avnery int mlx5_regex_logtype; 26215b1223SYuval Avnery 27c126512bSOri Kam const struct rte_regexdev_ops mlx5_regexdev_ops = { 28c126512bSOri Kam .dev_info_get = mlx5_regex_info_get, 29e3dbbf71SOri Kam .dev_configure = mlx5_regex_configure, 30b34d8163SFrancis Kelly .dev_db_import = mlx5_regex_rules_db_import, 31fbc8c700SOri Kam .dev_qp_setup = mlx5_regex_qp_setup, 32aea75c5aSOri Kam .dev_start = mlx5_regex_start, 33aea75c5aSOri Kam .dev_stop = mlx5_regex_stop, 34aea75c5aSOri Kam .dev_close = mlx5_regex_close, 35c126512bSOri Kam }; 36cfc672a9SOri Kam 37aea75c5aSOri Kam int 38aea75c5aSOri Kam mlx5_regex_start(struct rte_regexdev *dev __rte_unused) 39aea75c5aSOri Kam { 40aea75c5aSOri Kam return 0; 41aea75c5aSOri Kam } 42aea75c5aSOri Kam 43aea75c5aSOri Kam int 44aea75c5aSOri Kam mlx5_regex_stop(struct rte_regexdev *dev __rte_unused) 45aea75c5aSOri Kam { 46aea75c5aSOri Kam return 0; 47aea75c5aSOri Kam } 48aea75c5aSOri Kam 49aea75c5aSOri Kam int 50aea75c5aSOri Kam mlx5_regex_close(struct rte_regexdev *dev __rte_unused) 51aea75c5aSOri Kam { 52aea75c5aSOri Kam return 0; 53aea75c5aSOri Kam } 54aea75c5aSOri Kam 55cfc672a9SOri Kam static struct ibv_device * 56cfc672a9SOri Kam mlx5_regex_get_ib_device_match(struct rte_pci_addr *addr) 57cfc672a9SOri Kam { 58cfc672a9SOri Kam int n; 59cfc672a9SOri Kam struct ibv_device **ibv_list = mlx5_glue->get_device_list(&n); 60cfc672a9SOri Kam struct ibv_device *ibv_match = NULL; 61cfc672a9SOri Kam 62cfc672a9SOri Kam if (!ibv_list) { 63cfc672a9SOri Kam rte_errno = ENOSYS; 64cfc672a9SOri Kam return NULL; 65cfc672a9SOri Kam } 66cfc672a9SOri Kam while (n-- > 0) { 67cfc672a9SOri Kam struct rte_pci_addr pci_addr; 68cfc672a9SOri Kam 69cfc672a9SOri Kam DRV_LOG(DEBUG, "Checking device \"%s\"..", ibv_list[n]->name); 70cfc672a9SOri Kam if (mlx5_dev_to_pci_addr(ibv_list[n]->ibdev_path, &pci_addr)) 71cfc672a9SOri Kam continue; 72cfc672a9SOri Kam if (rte_pci_addr_cmp(addr, &pci_addr)) 73cfc672a9SOri Kam continue; 74cfc672a9SOri Kam ibv_match = ibv_list[n]; 75cfc672a9SOri Kam break; 76cfc672a9SOri Kam } 77cfc672a9SOri Kam if (!ibv_match) 78cfc672a9SOri Kam rte_errno = ENOENT; 79cfc672a9SOri Kam mlx5_glue->free_device_list(ibv_list); 80cfc672a9SOri Kam return ibv_match; 81cfc672a9SOri Kam } 829428310aSOri Kam static int 839428310aSOri Kam mlx5_regex_engines_status(struct ibv_context *ctx, int num_engines) 849428310aSOri Kam { 859428310aSOri Kam uint32_t fpga_ident = 0; 869428310aSOri Kam int err; 879428310aSOri Kam int i; 889428310aSOri Kam 899428310aSOri Kam for (i = 0; i < num_engines; i++) { 909428310aSOri Kam err = mlx5_devx_regex_register_read(ctx, i, 919428310aSOri Kam MLX5_RXP_CSR_IDENTIFIER, 929428310aSOri Kam &fpga_ident); 939428310aSOri Kam fpga_ident = (fpga_ident & (0x0000FFFF)); 949428310aSOri Kam if (err || fpga_ident != MLX5_RXP_IDENTIFIER) { 959428310aSOri Kam DRV_LOG(ERR, "Failed setup RXP %d err %d database " 969428310aSOri Kam "memory 0x%x", i, err, fpga_ident); 979428310aSOri Kam if (!err) 989428310aSOri Kam err = EINVAL; 999428310aSOri Kam return err; 1009428310aSOri Kam } 1019428310aSOri Kam } 1029428310aSOri Kam return 0; 1039428310aSOri Kam } 104cfc672a9SOri Kam 105cfc672a9SOri Kam static void 106cfc672a9SOri Kam mlx5_regex_get_name(char *name, struct rte_pci_device *pci_dev __rte_unused) 107cfc672a9SOri Kam { 108cfc672a9SOri Kam sprintf(name, "mlx5_regex_%02x:%02x.%02x", pci_dev->addr.bus, 109cfc672a9SOri Kam pci_dev->addr.devid, pci_dev->addr.function); 110cfc672a9SOri Kam } 111cfc672a9SOri Kam 112cfc672a9SOri Kam static int 113cfc672a9SOri Kam mlx5_regex_pci_probe(struct rte_pci_driver *pci_drv __rte_unused, 114cfc672a9SOri Kam struct rte_pci_device *pci_dev) 115cfc672a9SOri Kam { 116cfc672a9SOri Kam struct ibv_device *ibv; 117cfc672a9SOri Kam struct mlx5_regex_priv *priv = NULL; 118cfc672a9SOri Kam struct ibv_context *ctx = NULL; 119cfc672a9SOri Kam struct mlx5_hca_attr attr; 120cfc672a9SOri Kam char name[RTE_REGEXDEV_NAME_MAX_LEN]; 121cfc672a9SOri Kam int ret; 122f324162eSOri Kam uint32_t val; 123cfc672a9SOri Kam 124cfc672a9SOri Kam ibv = mlx5_regex_get_ib_device_match(&pci_dev->addr); 125cfc672a9SOri Kam if (!ibv) { 126cfc672a9SOri Kam DRV_LOG(ERR, "No matching IB device for PCI slot " 127cfc672a9SOri Kam PCI_PRI_FMT ".", pci_dev->addr.domain, 128cfc672a9SOri Kam pci_dev->addr.bus, pci_dev->addr.devid, 129cfc672a9SOri Kam pci_dev->addr.function); 130cfc672a9SOri Kam return -rte_errno; 131cfc672a9SOri Kam } 132cfc672a9SOri Kam DRV_LOG(INFO, "PCI information matches for device \"%s\".", 133cfc672a9SOri Kam ibv->name); 134cfc672a9SOri Kam ctx = mlx5_glue->dv_open_device(ibv); 135cfc672a9SOri Kam if (!ctx) { 136cfc672a9SOri Kam DRV_LOG(ERR, "Failed to open IB device \"%s\".", ibv->name); 137cfc672a9SOri Kam rte_errno = ENODEV; 138cfc672a9SOri Kam return -rte_errno; 139cfc672a9SOri Kam } 140cfc672a9SOri Kam ret = mlx5_devx_cmd_query_hca_attr(ctx, &attr); 141cfc672a9SOri Kam if (ret) { 142cfc672a9SOri Kam DRV_LOG(ERR, "Unable to read HCA capabilities."); 143cfc672a9SOri Kam rte_errno = ENOTSUP; 1441db6ebd4SParav Pandit goto dev_error; 145cfc672a9SOri Kam } else if (!attr.regex || attr.regexp_num_of_engines == 0) { 146cfc672a9SOri Kam DRV_LOG(ERR, "Not enough capabilities to support RegEx, maybe " 147cfc672a9SOri Kam "old FW/OFED version?"); 148cfc672a9SOri Kam rte_errno = ENOTSUP; 1491db6ebd4SParav Pandit goto dev_error; 150cfc672a9SOri Kam } 1519428310aSOri Kam if (mlx5_regex_engines_status(ctx, 2)) { 1529428310aSOri Kam DRV_LOG(ERR, "RegEx engine error."); 1539428310aSOri Kam rte_errno = ENOMEM; 1541db6ebd4SParav Pandit goto dev_error; 1559428310aSOri Kam } 156cfc672a9SOri Kam priv = rte_zmalloc("mlx5 regex device private", sizeof(*priv), 157cfc672a9SOri Kam RTE_CACHE_LINE_SIZE); 158cfc672a9SOri Kam if (!priv) { 159cfc672a9SOri Kam DRV_LOG(ERR, "Failed to allocate private memory."); 160cfc672a9SOri Kam rte_errno = ENOMEM; 1613423d02bSMichael Baum goto dev_error; 162cfc672a9SOri Kam } 163*dd25bd20SViacheslav Ovsiienko priv->sq_ts_format = attr.sq_ts_format; 164cfc672a9SOri Kam priv->ctx = ctx; 165b34d8163SFrancis Kelly priv->nb_engines = 2; /* attr.regexp_num_of_engines */ 166f324162eSOri Kam ret = mlx5_devx_regex_register_read(priv->ctx, 0, 167f324162eSOri Kam MLX5_RXP_CSR_IDENTIFIER, &val); 168f324162eSOri Kam if (ret) { 169f324162eSOri Kam DRV_LOG(ERR, "CSR read failed!"); 170f324162eSOri Kam return -1; 171f324162eSOri Kam } 172f324162eSOri Kam if (val == MLX5_RXP_BF2_IDENTIFIER) 173f324162eSOri Kam priv->is_bf2 = 1; 174b34d8163SFrancis Kelly /* Default RXP programming mode to Shared. */ 175b34d8163SFrancis Kelly priv->prog_mode = MLX5_RXP_SHARED_PROG_MODE; 176cfc672a9SOri Kam mlx5_regex_get_name(name, pci_dev); 177cfc672a9SOri Kam priv->regexdev = rte_regexdev_register(name); 178cfc672a9SOri Kam if (priv->regexdev == NULL) { 179cfc672a9SOri Kam DRV_LOG(ERR, "Failed to register RegEx device."); 180cfc672a9SOri Kam rte_errno = rte_errno ? rte_errno : EINVAL; 181cfc672a9SOri Kam goto error; 182cfc672a9SOri Kam } 183e8f05161SViacheslav Ovsiienko /* 184e8f05161SViacheslav Ovsiienko * This PMD always claims the write memory barrier on UAR 185e8f05161SViacheslav Ovsiienko * registers writings, it is safe to allocate UAR with any 186e8f05161SViacheslav Ovsiienko * memory mapping type. 187e8f05161SViacheslav Ovsiienko */ 188e8f05161SViacheslav Ovsiienko priv->uar = mlx5_devx_alloc_uar(ctx, -1); 189b34d8163SFrancis Kelly if (!priv->uar) { 190b34d8163SFrancis Kelly DRV_LOG(ERR, "can't allocate uar."); 191b34d8163SFrancis Kelly rte_errno = ENOMEM; 192b34d8163SFrancis Kelly goto error; 193b34d8163SFrancis Kelly } 194b34d8163SFrancis Kelly priv->pd = mlx5_glue->alloc_pd(ctx); 195b34d8163SFrancis Kelly if (!priv->pd) { 196b34d8163SFrancis Kelly DRV_LOG(ERR, "can't allocate pd."); 197b34d8163SFrancis Kelly rte_errno = ENOMEM; 198b34d8163SFrancis Kelly goto error; 199b34d8163SFrancis Kelly } 200cfc672a9SOri Kam priv->regexdev->dev_ops = &mlx5_regexdev_ops; 2014d4e245aSYuval Avnery priv->regexdev->enqueue = mlx5_regexdev_enqueue; 2020db041e7SYuval Avnery priv->regexdev->dequeue = mlx5_regexdev_dequeue; 203cfc672a9SOri Kam priv->regexdev->device = (struct rte_device *)pci_dev; 204cfc672a9SOri Kam priv->regexdev->data->dev_private = priv; 205e3dbbf71SOri Kam priv->regexdev->state = RTE_REGEXDEV_READY; 206cda883bbSYuval Avnery priv->mr_scache.reg_mr_cb = mlx5_common_verbs_reg_mr; 207cda883bbSYuval Avnery priv->mr_scache.dereg_mr_cb = mlx5_common_verbs_dereg_mr; 208cda883bbSYuval Avnery ret = mlx5_mr_btree_init(&priv->mr_scache.cache, 209cda883bbSYuval Avnery MLX5_MR_BTREE_CACHE_N * 2, 210cda883bbSYuval Avnery rte_socket_id()); 211cda883bbSYuval Avnery if (ret) { 212cda883bbSYuval Avnery DRV_LOG(ERR, "MR init tree failed."); 213cda883bbSYuval Avnery rte_errno = ENOMEM; 214cda883bbSYuval Avnery goto error; 215cda883bbSYuval Avnery } 216cfc672a9SOri Kam return 0; 217cfc672a9SOri Kam 218cfc672a9SOri Kam error: 219b34d8163SFrancis Kelly if (priv->pd) 220b34d8163SFrancis Kelly mlx5_glue->dealloc_pd(priv->pd); 221b34d8163SFrancis Kelly if (priv->uar) 222b34d8163SFrancis Kelly mlx5_glue->devx_free_uar(priv->uar); 223b34d8163SFrancis Kelly if (priv->regexdev) 224b34d8163SFrancis Kelly rte_regexdev_unregister(priv->regexdev); 2251db6ebd4SParav Pandit dev_error: 226cfc672a9SOri Kam if (ctx) 227cfc672a9SOri Kam mlx5_glue->close_device(ctx); 228cfc672a9SOri Kam if (priv) 229cfc672a9SOri Kam rte_free(priv); 230cfc672a9SOri Kam return -rte_errno; 231cfc672a9SOri Kam } 232cfc672a9SOri Kam 233cfc672a9SOri Kam static int 234cfc672a9SOri Kam mlx5_regex_pci_remove(struct rte_pci_device *pci_dev) 235cfc672a9SOri Kam { 236cfc672a9SOri Kam char name[RTE_REGEXDEV_NAME_MAX_LEN]; 237cfc672a9SOri Kam struct rte_regexdev *dev; 238cfc672a9SOri Kam struct mlx5_regex_priv *priv = NULL; 239cfc672a9SOri Kam 240cfc672a9SOri Kam mlx5_regex_get_name(name, pci_dev); 241cfc672a9SOri Kam dev = rte_regexdev_get_device_by_name(name); 242cfc672a9SOri Kam if (!dev) 243cfc672a9SOri Kam return 0; 244cfc672a9SOri Kam priv = dev->data->dev_private; 245cfc672a9SOri Kam if (priv) { 246b34d8163SFrancis Kelly if (priv->pd) 247b34d8163SFrancis Kelly mlx5_glue->dealloc_pd(priv->pd); 248b34d8163SFrancis Kelly if (priv->uar) 249b34d8163SFrancis Kelly mlx5_glue->devx_free_uar(priv->uar); 250b34d8163SFrancis Kelly if (priv->regexdev) 251b34d8163SFrancis Kelly rte_regexdev_unregister(priv->regexdev); 252cfc672a9SOri Kam if (priv->ctx) 253cfc672a9SOri Kam mlx5_glue->close_device(priv->ctx); 254cfc672a9SOri Kam if (priv->regexdev) 255cfc672a9SOri Kam rte_regexdev_unregister(priv->regexdev); 256cfc672a9SOri Kam rte_free(priv); 257cfc672a9SOri Kam } 258cfc672a9SOri Kam return 0; 259cfc672a9SOri Kam } 260cfc672a9SOri Kam 261cfc672a9SOri Kam static const struct rte_pci_id mlx5_regex_pci_id_map[] = { 262cfc672a9SOri Kam { 263cfc672a9SOri Kam RTE_PCI_DEVICE(PCI_VENDOR_ID_MELLANOX, 264cfc672a9SOri Kam PCI_DEVICE_ID_MELLANOX_CONNECTX6DXBF) 265cfc672a9SOri Kam }, 266cfc672a9SOri Kam { 2676ca37b06SRaslan Darawsheh RTE_PCI_DEVICE(PCI_VENDOR_ID_MELLANOX, 2686ca37b06SRaslan Darawsheh PCI_DEVICE_ID_MELLANOX_CONNECTX7BF) 2696ca37b06SRaslan Darawsheh }, 2706ca37b06SRaslan Darawsheh { 271cfc672a9SOri Kam .vendor_id = 0 272cfc672a9SOri Kam } 273cfc672a9SOri Kam }; 274cfc672a9SOri Kam 275392bf908SParav Pandit static struct mlx5_pci_driver mlx5_regex_driver = { 276392bf908SParav Pandit .driver_class = MLX5_CLASS_REGEX, 277392bf908SParav Pandit .pci_driver = { 278cfc672a9SOri Kam .driver = { 27950458c9dSThomas Monjalon .name = RTE_STR(MLX5_REGEX_DRIVER_NAME), 280cfc672a9SOri Kam }, 281cfc672a9SOri Kam .id_table = mlx5_regex_pci_id_map, 282cfc672a9SOri Kam .probe = mlx5_regex_pci_probe, 283cfc672a9SOri Kam .remove = mlx5_regex_pci_remove, 284cfc672a9SOri Kam .drv_flags = 0, 285392bf908SParav Pandit }, 286cfc672a9SOri Kam }; 287cfc672a9SOri Kam 288cfc672a9SOri Kam RTE_INIT(rte_mlx5_regex_init) 289cfc672a9SOri Kam { 29082088001SParav Pandit mlx5_common_init(); 291cfc672a9SOri Kam if (mlx5_glue) 292392bf908SParav Pandit mlx5_pci_driver_register(&mlx5_regex_driver); 293cfc672a9SOri Kam } 294cfc672a9SOri Kam 29550458c9dSThomas Monjalon RTE_LOG_REGISTER(mlx5_regex_logtype, MLX5_REGEX_LOG_NAME, NOTICE) 29650458c9dSThomas Monjalon RTE_PMD_EXPORT_NAME(MLX5_REGEX_DRIVER_NAME, __COUNTER__); 29750458c9dSThomas Monjalon RTE_PMD_REGISTER_PCI_TABLE(MLX5_REGEX_DRIVER_NAME, mlx5_regex_pci_id_map); 29850458c9dSThomas Monjalon RTE_PMD_REGISTER_KMOD_DEP(MLX5_REGEX_DRIVER_NAME, "* ib_uverbs & mlx5_core & mlx5_ib"); 299