18a41f4deSParav Pandit /* SPDX-License-Identifier: BSD-3-Clause 28a41f4deSParav Pandit * Copyright 2020 Mellanox Technologies Ltd 38a41f4deSParav Pandit */ 48a41f4deSParav Pandit 58a41f4deSParav Pandit #include <stdlib.h> 6ad435d32SXueming Li 78a41f4deSParav Pandit #include <rte_malloc.h> 8ad435d32SXueming Li #include <rte_devargs.h> 9ad435d32SXueming Li #include <rte_errno.h> 1025245d5dSShiri Kuzin #include <rte_class.h> 11d3c52126SXueming Li #include <rte_pci.h> 12d3c52126SXueming Li #include <rte_bus_pci.h> 1325245d5dSShiri Kuzin 1425245d5dSShiri Kuzin #include "mlx5_common_log.h" 15ad435d32SXueming Li #include "mlx5_common_private.h" 16ad435d32SXueming Li 17ad435d32SXueming Li static struct rte_pci_driver mlx5_common_pci_driver; 18ad435d32SXueming Li 198a41f4deSParav Pandit /* PCI ID table is build dynamically based on registered mlx5 drivers. */ 208a41f4deSParav Pandit static struct rte_pci_id *mlx5_pci_id_table; 218a41f4deSParav Pandit 228a41f4deSParav Pandit static int 238a41f4deSParav Pandit pci_id_table_size_get(const struct rte_pci_id *id_table) 248a41f4deSParav Pandit { 258a41f4deSParav Pandit int table_size = 0; 268a41f4deSParav Pandit 278a41f4deSParav Pandit for (; id_table->vendor_id != 0; id_table++) 288a41f4deSParav Pandit table_size++; 298a41f4deSParav Pandit return table_size; 308a41f4deSParav Pandit } 318a41f4deSParav Pandit 328a41f4deSParav Pandit static bool 338a41f4deSParav Pandit pci_id_exists(const struct rte_pci_id *id, const struct rte_pci_id *table, 348a41f4deSParav Pandit int next_idx) 358a41f4deSParav Pandit { 368a41f4deSParav Pandit int current_size = next_idx - 1; 378a41f4deSParav Pandit int i; 388a41f4deSParav Pandit 398a41f4deSParav Pandit for (i = 0; i < current_size; i++) { 408a41f4deSParav Pandit if (id->device_id == table[i].device_id && 418a41f4deSParav Pandit id->vendor_id == table[i].vendor_id && 428a41f4deSParav Pandit id->subsystem_vendor_id == table[i].subsystem_vendor_id && 438a41f4deSParav Pandit id->subsystem_device_id == table[i].subsystem_device_id) 448a41f4deSParav Pandit return true; 458a41f4deSParav Pandit } 468a41f4deSParav Pandit return false; 478a41f4deSParav Pandit } 488a41f4deSParav Pandit 498a41f4deSParav Pandit static void 508a41f4deSParav Pandit pci_id_insert(struct rte_pci_id *new_table, int *next_idx, 518a41f4deSParav Pandit const struct rte_pci_id *id_table) 528a41f4deSParav Pandit { 538a41f4deSParav Pandit /* Traverse the id_table, check if entry exists in new_table; 548a41f4deSParav Pandit * Add non duplicate entries to new table. 558a41f4deSParav Pandit */ 568a41f4deSParav Pandit for (; id_table->vendor_id != 0; id_table++) { 578a41f4deSParav Pandit if (!pci_id_exists(id_table, new_table, *next_idx)) { 588a41f4deSParav Pandit /* New entry; add to the table. */ 598a41f4deSParav Pandit new_table[*next_idx] = *id_table; 608a41f4deSParav Pandit (*next_idx)++; 618a41f4deSParav Pandit } 628a41f4deSParav Pandit } 638a41f4deSParav Pandit } 648a41f4deSParav Pandit 658a41f4deSParav Pandit static int 668a41f4deSParav Pandit pci_ids_table_update(const struct rte_pci_id *driver_id_table) 678a41f4deSParav Pandit { 688a41f4deSParav Pandit const struct rte_pci_id *id_iter; 698a41f4deSParav Pandit struct rte_pci_id *updated_table; 708a41f4deSParav Pandit struct rte_pci_id *old_table; 718a41f4deSParav Pandit int num_ids = 0; 728a41f4deSParav Pandit int i = 0; 738a41f4deSParav Pandit 748a41f4deSParav Pandit old_table = mlx5_pci_id_table; 758a41f4deSParav Pandit if (old_table) 768a41f4deSParav Pandit num_ids = pci_id_table_size_get(old_table); 778a41f4deSParav Pandit num_ids += pci_id_table_size_get(driver_id_table); 788a41f4deSParav Pandit /* Increase size by one for the termination entry of vendor_id = 0. */ 798a41f4deSParav Pandit num_ids += 1; 808a41f4deSParav Pandit updated_table = calloc(num_ids, sizeof(*updated_table)); 818a41f4deSParav Pandit if (!updated_table) 828a41f4deSParav Pandit return -ENOMEM; 83ad435d32SXueming Li if (old_table == NULL) { 848a41f4deSParav Pandit /* Copy the first driver's ID table. */ 858a41f4deSParav Pandit for (id_iter = driver_id_table; id_iter->vendor_id != 0; 868a41f4deSParav Pandit id_iter++, i++) 878a41f4deSParav Pandit updated_table[i] = *id_iter; 888a41f4deSParav Pandit } else { 898a41f4deSParav Pandit /* First copy existing table entries. */ 908a41f4deSParav Pandit for (id_iter = old_table; id_iter->vendor_id != 0; 918a41f4deSParav Pandit id_iter++, i++) 928a41f4deSParav Pandit updated_table[i] = *id_iter; 938a41f4deSParav Pandit /* New id to be added at the end of current ID table. */ 948a41f4deSParav Pandit pci_id_insert(updated_table, &i, driver_id_table); 958a41f4deSParav Pandit } 968a41f4deSParav Pandit /* Terminate table with empty entry. */ 978a41f4deSParav Pandit updated_table[i].vendor_id = 0; 98ad435d32SXueming Li mlx5_common_pci_driver.id_table = updated_table; 998a41f4deSParav Pandit mlx5_pci_id_table = updated_table; 1008a41f4deSParav Pandit free(old_table); 1018a41f4deSParav Pandit return 0; 1028a41f4deSParav Pandit } 1038a41f4deSParav Pandit 104ad435d32SXueming Li bool 105ad435d32SXueming Li mlx5_dev_is_pci(const struct rte_device *dev) 106ad435d32SXueming Li { 107ad435d32SXueming Li return strcmp(dev->bus->name, "pci") == 0; 108ad435d32SXueming Li } 109ad435d32SXueming Li 110ad435d32SXueming Li bool 111*c4c3e8afSMichael Baum mlx5_dev_is_vf_pci(struct rte_pci_device *pci_dev) 112*c4c3e8afSMichael Baum { 113*c4c3e8afSMichael Baum switch (pci_dev->id.device_id) { 114*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTX4VF: 115*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTX4LXVF: 116*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTX5VF: 117*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTX5EXVF: 118*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTX5BFVF: 119*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTX6VF: 120*c4c3e8afSMichael Baum case PCI_DEVICE_ID_MELLANOX_CONNECTXVF: 121*c4c3e8afSMichael Baum return true; 122*c4c3e8afSMichael Baum default: 123*c4c3e8afSMichael Baum break; 124*c4c3e8afSMichael Baum } 125*c4c3e8afSMichael Baum return false; 126*c4c3e8afSMichael Baum } 127*c4c3e8afSMichael Baum 128*c4c3e8afSMichael Baum bool 129ad435d32SXueming Li mlx5_dev_pci_match(const struct mlx5_class_driver *drv, 130ad435d32SXueming Li const struct rte_device *dev) 131ad435d32SXueming Li { 132ad435d32SXueming Li const struct rte_pci_device *pci_dev; 133ad435d32SXueming Li const struct rte_pci_id *id_table; 134ad435d32SXueming Li 135ad435d32SXueming Li if (!mlx5_dev_is_pci(dev)) 136ad435d32SXueming Li return false; 137ad435d32SXueming Li pci_dev = RTE_DEV_TO_PCI_CONST(dev); 138ad435d32SXueming Li for (id_table = drv->id_table; id_table->vendor_id != 0; 139ad435d32SXueming Li id_table++) { 140ad435d32SXueming Li /* Check if device's ids match the class driver's ids. */ 141ad435d32SXueming Li if (id_table->vendor_id != pci_dev->id.vendor_id && 142ad435d32SXueming Li id_table->vendor_id != RTE_PCI_ANY_ID) 143ad435d32SXueming Li continue; 144ad435d32SXueming Li if (id_table->device_id != pci_dev->id.device_id && 145ad435d32SXueming Li id_table->device_id != RTE_PCI_ANY_ID) 146ad435d32SXueming Li continue; 147ad435d32SXueming Li if (id_table->subsystem_vendor_id != 148ad435d32SXueming Li pci_dev->id.subsystem_vendor_id && 149ad435d32SXueming Li id_table->subsystem_vendor_id != RTE_PCI_ANY_ID) 150ad435d32SXueming Li continue; 151ad435d32SXueming Li if (id_table->subsystem_device_id != 152ad435d32SXueming Li pci_dev->id.subsystem_device_id && 153ad435d32SXueming Li id_table->subsystem_device_id != RTE_PCI_ANY_ID) 154ad435d32SXueming Li continue; 155ad435d32SXueming Li if (id_table->class_id != pci_dev->id.class_id && 156ad435d32SXueming Li id_table->class_id != RTE_CLASS_ANY_ID) 157ad435d32SXueming Li continue; 158ad435d32SXueming Li return true; 159ad435d32SXueming Li } 160ad435d32SXueming Li return false; 161ad435d32SXueming Li } 162ad435d32SXueming Li 163ad435d32SXueming Li static int 164ad435d32SXueming Li mlx5_common_pci_probe(struct rte_pci_driver *pci_drv __rte_unused, 165ad435d32SXueming Li struct rte_pci_device *pci_dev) 166ad435d32SXueming Li { 167ad435d32SXueming Li return mlx5_common_dev_probe(&pci_dev->device); 168ad435d32SXueming Li } 169ad435d32SXueming Li 170ad435d32SXueming Li static int 171ad435d32SXueming Li mlx5_common_pci_remove(struct rte_pci_device *pci_dev) 172ad435d32SXueming Li { 173ad435d32SXueming Li return mlx5_common_dev_remove(&pci_dev->device); 174ad435d32SXueming Li } 175ad435d32SXueming Li 176ad435d32SXueming Li static int 177ad435d32SXueming Li mlx5_common_pci_dma_map(struct rte_pci_device *pci_dev, void *addr, 178ad435d32SXueming Li uint64_t iova, size_t len) 179ad435d32SXueming Li { 180ad435d32SXueming Li return mlx5_common_dev_dma_map(&pci_dev->device, addr, iova, len); 181ad435d32SXueming Li } 182ad435d32SXueming Li 183ad435d32SXueming Li static int 184ad435d32SXueming Li mlx5_common_pci_dma_unmap(struct rte_pci_device *pci_dev, void *addr, 185ad435d32SXueming Li uint64_t iova, size_t len) 186ad435d32SXueming Li { 187ad435d32SXueming Li return mlx5_common_dev_dma_unmap(&pci_dev->device, addr, iova, len); 188ad435d32SXueming Li } 189ad435d32SXueming Li 190ad435d32SXueming Li void 191ad435d32SXueming Li mlx5_common_driver_on_register_pci(struct mlx5_class_driver *driver) 192ad435d32SXueming Li { 193ad435d32SXueming Li if (driver->id_table != NULL) { 194ad435d32SXueming Li if (pci_ids_table_update(driver->id_table) != 0) 195ad435d32SXueming Li return; 196ad435d32SXueming Li } 197ad435d32SXueming Li if (driver->probe_again) 198ad435d32SXueming Li mlx5_common_pci_driver.drv_flags |= RTE_PCI_DRV_PROBE_AGAIN; 199ad435d32SXueming Li if (driver->intr_lsc) 200ad435d32SXueming Li mlx5_common_pci_driver.drv_flags |= RTE_PCI_DRV_INTR_LSC; 201ad435d32SXueming Li if (driver->intr_rmv) 202ad435d32SXueming Li mlx5_common_pci_driver.drv_flags |= RTE_PCI_DRV_INTR_RMV; 203ad435d32SXueming Li } 204ad435d32SXueming Li 205ad435d32SXueming Li static struct rte_pci_driver mlx5_common_pci_driver = { 206ad435d32SXueming Li .driver = { 207ad435d32SXueming Li .name = MLX5_PCI_DRIVER_NAME, 208ad435d32SXueming Li }, 209ad435d32SXueming Li .probe = mlx5_common_pci_probe, 210ad435d32SXueming Li .remove = mlx5_common_pci_remove, 211ad435d32SXueming Li .dma_map = mlx5_common_pci_dma_map, 212ad435d32SXueming Li .dma_unmap = mlx5_common_pci_dma_unmap, 213ad435d32SXueming Li }; 214ad435d32SXueming Li 2158a41f4deSParav Pandit void mlx5_common_pci_init(void) 2168a41f4deSParav Pandit { 2178a41f4deSParav Pandit const struct rte_pci_id empty_table[] = { 2188a41f4deSParav Pandit { 2198a41f4deSParav Pandit .vendor_id = 0 2208a41f4deSParav Pandit }, 2218a41f4deSParav Pandit }; 2228a41f4deSParav Pandit 2238a41f4deSParav Pandit /* All mlx5 PMDs constructor runs at same priority. So any of the PMD 2248a41f4deSParav Pandit * including this one can register the PCI table first. If any other 2258a41f4deSParav Pandit * PMD(s) have registered the PCI ID table, No need to register an empty 2268a41f4deSParav Pandit * default one. 2278a41f4deSParav Pandit */ 2288a41f4deSParav Pandit if (mlx5_pci_id_table == NULL && pci_ids_table_update(empty_table)) 2298a41f4deSParav Pandit return; 230ad435d32SXueming Li rte_pci_register(&mlx5_common_pci_driver); 2318a41f4deSParav Pandit } 2328a41f4deSParav Pandit 2338a41f4deSParav Pandit RTE_FINI(mlx5_common_pci_finish) 2348a41f4deSParav Pandit { 2358a41f4deSParav Pandit if (mlx5_pci_id_table != NULL) { 2368a41f4deSParav Pandit /* Constructor doesn't register with PCI bus if it failed 2378a41f4deSParav Pandit * to build the table. 2388a41f4deSParav Pandit */ 239ad435d32SXueming Li rte_pci_unregister(&mlx5_common_pci_driver); 2408a41f4deSParav Pandit free(mlx5_pci_id_table); 2418a41f4deSParav Pandit } 2428a41f4deSParav Pandit } 243ad435d32SXueming Li 2448a41f4deSParav Pandit RTE_PMD_EXPORT_NAME(mlx5_common_pci, __COUNTER__); 245