/* SPDX-License-Identifier: BSD-3-Clause * * Copyright 2016 NXP * */ #include #include #include #include #include #include #include #include #include #include #include #include #define FSLMC_BUS_LOG(level, fmt, args...) \ RTE_LOG(level, EAL, fmt "\n", ##args) #define VFIO_IOMMU_GROUP_PATH "/sys/kernel/iommu_groups" struct rte_fslmc_bus rte_fslmc_bus; uint8_t dpaa2_virt_mode; uint32_t rte_fslmc_get_device_count(enum rte_dpaa2_dev_type device_type) { if (device_type > DPAA2_DEVTYPE_MAX) return 0; return rte_fslmc_bus.device_count[device_type]; } RTE_DEFINE_PER_LCORE(struct dpaa2_portal_dqrr, dpaa2_held_bufs); static void cleanup_fslmc_device_list(void) { struct rte_dpaa2_device *dev; struct rte_dpaa2_device *t_dev; TAILQ_FOREACH_SAFE(dev, &rte_fslmc_bus.device_list, next, t_dev) { TAILQ_REMOVE(&rte_fslmc_bus.device_list, dev, next); free(dev); dev = NULL; } } static int compare_dpaa2_devname(struct rte_dpaa2_device *dev1, struct rte_dpaa2_device *dev2) { int comp; if (dev1->dev_type > dev2->dev_type) { comp = 1; } else if (dev1->dev_type < dev2->dev_type) { comp = -1; } else { /* Check the ID as types match */ if (dev1->object_id > dev2->object_id) comp = 1; else if (dev1->object_id < dev2->object_id) comp = -1; else comp = 0; /* Duplicate device name */ } return comp; } static void insert_in_device_list(struct rte_dpaa2_device *newdev) { int comp, inserted = 0; struct rte_dpaa2_device *dev = NULL; struct rte_dpaa2_device *tdev = NULL; TAILQ_FOREACH_SAFE(dev, &rte_fslmc_bus.device_list, next, tdev) { comp = compare_dpaa2_devname(newdev, dev); if (comp < 0) { TAILQ_INSERT_BEFORE(dev, newdev, next); inserted = 1; break; } } if (!inserted) TAILQ_INSERT_TAIL(&rte_fslmc_bus.device_list, newdev, next); } static int scan_one_fslmc_device(char *dev_name) { char *dup_dev_name, *t_ptr; struct rte_dpaa2_device *dev; if (!dev_name) return -1; /* Ignore the Container name itself */ if (!strncmp("dprc", dev_name, 4)) return 0; /* Creating a temporary copy to perform cut-parse over string */ dup_dev_name = strdup(dev_name); if (!dup_dev_name) { FSLMC_BUS_LOG(ERR, "Out of memory."); return -ENOMEM; } /* For all other devices, we allocate rte_dpaa2_device. * For those devices where there is no driver, probe would release * the memory associated with the rte_dpaa2_device after necessary * initialization. */ dev = calloc(1, sizeof(struct rte_dpaa2_device)); if (!dev) { FSLMC_BUS_LOG(ERR, "Out of memory."); free(dup_dev_name); return -ENOMEM; } /* Parse the device name and ID */ t_ptr = strtok(dup_dev_name, "."); if (!t_ptr) { FSLMC_BUS_LOG(ERR, "Incorrect device string observed."); goto cleanup; } if (!strncmp("dpni", t_ptr, 4)) dev->dev_type = DPAA2_ETH; else if (!strncmp("dpseci", t_ptr, 6)) dev->dev_type = DPAA2_CRYPTO; else if (!strncmp("dpcon", t_ptr, 5)) dev->dev_type = DPAA2_CON; else if (!strncmp("dpbp", t_ptr, 4)) dev->dev_type = DPAA2_BPOOL; else if (!strncmp("dpio", t_ptr, 4)) dev->dev_type = DPAA2_IO; else if (!strncmp("dpci", t_ptr, 4)) dev->dev_type = DPAA2_CI; else if (!strncmp("dpmcp", t_ptr, 5)) dev->dev_type = DPAA2_MPORTAL; else dev->dev_type = DPAA2_UNKNOWN; /* Update the device found into the device_count table */ rte_fslmc_bus.device_count[dev->dev_type]++; t_ptr = strtok(NULL, "."); if (!t_ptr) { FSLMC_BUS_LOG(ERR, "Incorrect device string observed (%s).", t_ptr); goto cleanup; } sscanf(t_ptr, "%hu", &dev->object_id); dev->device.name = strdup(dev_name); if (!dev->device.name) { FSLMC_BUS_LOG(ERR, "Out of memory."); goto cleanup; } /* Add device in the fslmc device list */ insert_in_device_list(dev); /* Don't need the duplicated device filesystem entry anymore */ if (dup_dev_name) free(dup_dev_name); return 0; cleanup: if (dup_dev_name) free(dup_dev_name); if (dev) free(dev); return -1; } static int rte_fslmc_scan(void) { int ret; int device_count = 0; char fslmc_dirpath[PATH_MAX]; DIR *dir; struct dirent *entry; static int process_once; int groupid; if (process_once) { FSLMC_BUS_LOG(DEBUG, "Fslmc bus already scanned. Not rescanning"); return 0; } process_once = 1; ret = fslmc_get_container_group(&groupid); if (ret != 0) goto scan_fail; /* Scan devices on the group */ sprintf(fslmc_dirpath, "%s/%d/devices", VFIO_IOMMU_GROUP_PATH, groupid); dir = opendir(fslmc_dirpath); if (!dir) { FSLMC_BUS_LOG(ERR, "Unable to open VFIO group dir."); goto scan_fail; } while ((entry = readdir(dir)) != NULL) { if (entry->d_name[0] == '.' || entry->d_type != DT_LNK) continue; ret = scan_one_fslmc_device(entry->d_name); if (ret != 0) { /* Error in parsing directory - exit gracefully */ goto scan_fail_cleanup; } device_count += 1; } FSLMC_BUS_LOG(INFO, "fslmc: Bus scan completed"); closedir(dir); return 0; scan_fail_cleanup: closedir(dir); /* Remove all devices in the list */ cleanup_fslmc_device_list(); scan_fail: FSLMC_BUS_LOG(DEBUG, "FSLMC Bus Not Available. Skipping."); /* Irrespective of failure, scan only return success */ return 0; } static int rte_fslmc_match(struct rte_dpaa2_driver *dpaa2_drv, struct rte_dpaa2_device *dpaa2_dev) { if (dpaa2_drv->drv_type == dpaa2_dev->dev_type) return 0; return 1; } static int rte_fslmc_probe(void) { int ret = 0; struct rte_dpaa2_device *dev; struct rte_dpaa2_driver *drv; if (TAILQ_EMPTY(&rte_fslmc_bus.device_list)) return 0; ret = fslmc_vfio_setup_group(); if (ret) { FSLMC_BUS_LOG(ERR, "Unable to setup VFIO %d", ret); return 0; } ret = fslmc_vfio_process_group(); if (ret) { FSLMC_BUS_LOG(ERR, "Unable to setup devices %d", ret); return 0; } TAILQ_FOREACH(dev, &rte_fslmc_bus.device_list, next) { TAILQ_FOREACH(drv, &rte_fslmc_bus.driver_list, next) { ret = rte_fslmc_match(drv, dev); if (ret) continue; if (!drv->probe) continue; ret = drv->probe(drv, dev); if (ret) FSLMC_BUS_LOG(ERR, "Unable to probe.\n"); break; } } if (rte_eal_iova_mode() == RTE_IOVA_VA) dpaa2_virt_mode = 1; return 0; } static struct rte_device * rte_fslmc_find_device(const struct rte_device *start, rte_dev_cmp_t cmp, const void *data) { struct rte_dpaa2_device *dev; TAILQ_FOREACH(dev, &rte_fslmc_bus.device_list, next) { if (start && &dev->device == start) { start = NULL; /* starting point found */ continue; } if (cmp(&dev->device, data) == 0) return &dev->device; } return NULL; } /*register a fslmc bus based dpaa2 driver */ void rte_fslmc_driver_register(struct rte_dpaa2_driver *driver) { RTE_VERIFY(driver); TAILQ_INSERT_TAIL(&rte_fslmc_bus.driver_list, driver, next); /* Update Bus references */ driver->fslmc_bus = &rte_fslmc_bus; } /*un-register a fslmc bus based dpaa2 driver */ void rte_fslmc_driver_unregister(struct rte_dpaa2_driver *driver) { struct rte_fslmc_bus *fslmc_bus; fslmc_bus = driver->fslmc_bus; TAILQ_REMOVE(&fslmc_bus->driver_list, driver, next); /* Update Bus references */ driver->fslmc_bus = NULL; } /* * All device has iova as va */ static inline int fslmc_all_device_support_iova(void) { int ret = 0; struct rte_dpaa2_device *dev; struct rte_dpaa2_driver *drv; TAILQ_FOREACH(dev, &rte_fslmc_bus.device_list, next) { TAILQ_FOREACH(drv, &rte_fslmc_bus.driver_list, next) { ret = rte_fslmc_match(drv, dev); if (ret) continue; /* if the driver is not supporting IOVA */ if (!(drv->drv_flags & RTE_DPAA2_DRV_IOVA_AS_VA)) return 0; } } return 1; } /* * Get iommu class of DPAA2 devices on the bus. */ static enum rte_iova_mode rte_dpaa2_get_iommu_class(void) { bool is_vfio_noiommu_enabled = 1; bool has_iova_va; if (TAILQ_EMPTY(&rte_fslmc_bus.device_list)) return RTE_IOVA_DC; /* check if all devices on the bus support Virtual addressing or not */ has_iova_va = fslmc_all_device_support_iova(); #ifdef VFIO_PRESENT is_vfio_noiommu_enabled = rte_vfio_noiommu_is_enabled() == true ? true : false; #endif if (has_iova_va && !is_vfio_noiommu_enabled) return RTE_IOVA_VA; return RTE_IOVA_PA; } struct rte_fslmc_bus rte_fslmc_bus = { .bus = { .scan = rte_fslmc_scan, .probe = rte_fslmc_probe, .find_device = rte_fslmc_find_device, .get_iommu_class = rte_dpaa2_get_iommu_class, }, .device_list = TAILQ_HEAD_INITIALIZER(rte_fslmc_bus.device_list), .driver_list = TAILQ_HEAD_INITIALIZER(rte_fslmc_bus.driver_list), .device_count = {0}, }; RTE_REGISTER_BUS(fslmc, rte_fslmc_bus.bus);