/* SPDX-License-Identifier: BSD-3-Clause * Copyright 2016 NXP */ #ifndef _RTE_BUS_H_ #define _RTE_BUS_H_ /** * @file * * DPDK device bus interface * * This file exposes API and interfaces for bus abstraction * over the devices and drivers in EAL. */ #ifdef __cplusplus extern "C" { #endif #include #include #include /** Double linked list of buses */ RTE_TAILQ_HEAD(rte_bus_list, rte_bus); /** * IOVA mapping mode. * * IOVA mapping mode is iommu programming mode of a device. * That device (for example: IOMMU backed DMA device) based * on rte_iova_mode will generate physical or virtual address. * */ enum rte_iova_mode { RTE_IOVA_DC = 0, /* Don't care mode */ RTE_IOVA_PA = (1 << 0), /* DMA using physical address */ RTE_IOVA_VA = (1 << 1) /* DMA using virtual address */ }; /** * Bus specific scan for devices attached on the bus. * For each bus object, the scan would be responsible for finding devices and * adding them to its private device list. * * A bus should mandatorily implement this method. * * @return * 0 for successful scan * <0 for unsuccessful scan with error value */ typedef int (*rte_bus_scan_t)(void); /** * Implementation specific probe function which is responsible for linking * devices on that bus with applicable drivers. * * This is called while iterating over each registered bus. * * @return * 0 for successful probe * !0 for any error while probing */ typedef int (*rte_bus_probe_t)(void); /** * Device iterator to find a device on a bus. * * This function returns an rte_device if one of those held by the bus * matches the data passed as parameter. * * If the comparison function returns zero this function should stop iterating * over any more devices. To continue a search the device of a previous search * can be passed via the start parameter. * * @param cmp * Comparison function. * * @param data * Data to compare each device against. * * @param start * starting point for the iteration * * @return * The first device matching the data, NULL if none exists. */ typedef struct rte_device * (*rte_bus_find_device_t)(const struct rte_device *start, rte_dev_cmp_t cmp, const void *data); /** * Implementation specific probe function which is responsible for linking * devices on that bus with applicable drivers. * * @param dev * Device pointer that was returned by a previous call to find_device. * * @return * 0 on success. * !0 on error. */ typedef int (*rte_bus_plug_t)(struct rte_device *dev); /** * Implementation specific remove function which is responsible for unlinking * devices on that bus from assigned driver. * * @param dev * Device pointer that was returned by a previous call to find_device. * * @return * 0 on success. * !0 on error. */ typedef int (*rte_bus_unplug_t)(struct rte_device *dev); /** * Bus specific parsing function. * Validates the syntax used in the textual representation of a device, * If the syntax is valid and ``addr`` is not NULL, writes the bus-specific * device representation to ``addr``. * * @param[in] name * device textual description * * @param[out] addr * device information location address, into which parsed info * should be written. If NULL, nothing should be written, which * is not an error. * * @return * 0 if parsing was successful. * !0 for any error. */ typedef int (*rte_bus_parse_t)(const char *name, void *addr); /** * Parse bus part of the device arguments. * * The field name of the struct rte_devargs will be set. * * @param da * Pointer to the devargs to parse. * * @return * 0 on successful parsing, otherwise rte_errno is set. * -EINVAL: on parsing error. * -ENODEV: if no key matching a device argument is specified. * -E2BIG: device name is too long. */ typedef int (*rte_bus_devargs_parse_t)(struct rte_devargs *da); /** * Device level DMA map function. * After a successful call, the memory segment will be mapped to the * given device. * * @param dev * Device pointer. * @param addr * Virtual address to map. * @param iova * IOVA address to map. * @param len * Length of the memory segment being mapped. * * @return * 0 if mapping was successful. * Negative value and rte_errno is set otherwise. */ typedef int (*rte_dev_dma_map_t)(struct rte_device *dev, void *addr, uint64_t iova, size_t len); /** * Device level DMA unmap function. * After a successful call, the memory segment will no longer be * accessible by the given device. * * @param dev * Device pointer. * @param addr * Virtual address to unmap. * @param iova * IOVA address to unmap. * @param len * Length of the memory segment being mapped. * * @return * 0 if un-mapping was successful. * Negative value and rte_errno is set otherwise. */ typedef int (*rte_dev_dma_unmap_t)(struct rte_device *dev, void *addr, uint64_t iova, size_t len); /** * Implement a specific hot-unplug handler, which is responsible for * handle the failure when device be hot-unplugged. When the event of * hot-unplug be detected, it could call this function to handle * the hot-unplug failure and avoid app crash. * @param dev * Pointer of the device structure. * * @return * 0 on success. * !0 on error. */ typedef int (*rte_bus_hot_unplug_handler_t)(struct rte_device *dev); /** * Implement a specific sigbus handler, which is responsible for handling * the sigbus error which is either original memory error, or specific memory * error that caused of device be hot-unplugged. When sigbus error be captured, * it could call this function to handle sigbus error. * @param failure_addr * Pointer of the fault address of the sigbus error. * * @return * 0 for success handle the sigbus for hot-unplug. * 1 for not process it, because it is a generic sigbus error. * -1 for failed to handle the sigbus for hot-unplug. */ typedef int (*rte_bus_sigbus_handler_t)(const void *failure_addr); /** * Bus scan policies */ enum rte_bus_scan_mode { RTE_BUS_SCAN_UNDEFINED, RTE_BUS_SCAN_ALLOWLIST, RTE_BUS_SCAN_BLOCKLIST, }; /** * A structure used to configure bus operations. */ struct rte_bus_conf { enum rte_bus_scan_mode scan_mode; /**< Scan policy. */ }; /** * Get common iommu class of the all the devices on the bus. The bus may * check that those devices are attached to iommu driver. * If no devices are attached to the bus. The bus may return with don't care * (_DC) value. * Otherwise, The bus will return appropriate _pa or _va iova mode. * * @return * enum rte_iova_mode value. */ typedef enum rte_iova_mode (*rte_bus_get_iommu_class_t)(void); /** * A structure describing a generic bus. */ struct rte_bus { RTE_TAILQ_ENTRY(rte_bus) next; /**< Next bus object in linked list */ const char *name; /**< Name of the bus */ rte_bus_scan_t scan; /**< Scan for devices attached to bus */ rte_bus_probe_t probe; /**< Probe devices on bus */ rte_bus_find_device_t find_device; /**< Find a device on the bus */ rte_bus_plug_t plug; /**< Probe single device for drivers */ rte_bus_unplug_t unplug; /**< Remove single device from driver */ rte_bus_parse_t parse; /**< Parse a device name */ rte_bus_devargs_parse_t devargs_parse; /**< Parse bus devargs */ rte_dev_dma_map_t dma_map; /**< DMA map for device in the bus */ rte_dev_dma_unmap_t dma_unmap; /**< DMA unmap for device in the bus */ struct rte_bus_conf conf; /**< Bus configuration */ rte_bus_get_iommu_class_t get_iommu_class; /**< Get iommu class */ rte_dev_iterate_t dev_iterate; /**< Device iterator. */ rte_bus_hot_unplug_handler_t hot_unplug_handler; /**< handle hot-unplug failure on the bus */ rte_bus_sigbus_handler_t sigbus_handler; /**< handle sigbus error on the bus */ }; /** * Register a Bus handler. * * @param bus * A pointer to a rte_bus structure describing the bus * to be registered. */ void rte_bus_register(struct rte_bus *bus); /** * Unregister a Bus handler. * * @param bus * A pointer to a rte_bus structure describing the bus * to be unregistered. */ void rte_bus_unregister(struct rte_bus *bus); /** * Scan all the buses. * * @return * 0 in case of success in scanning all buses * !0 in case of failure to scan */ int rte_bus_scan(void); /** * For each device on the buses, perform a driver 'match' and call the * driver-specific probe for device initialization. * * @return * 0 for successful match/probe * !0 otherwise */ int rte_bus_probe(void); /** * Dump information of all the buses registered with EAL. * * @param f * A valid and open output stream handle */ void rte_bus_dump(FILE *f); /** * Bus comparison function. * * @param bus * Bus under test. * * @param data * Data to compare against. * * @return * 0 if the bus matches the data. * !0 if the bus does not match. * <0 if ordering is possible and the bus is lower than the data. * >0 if ordering is possible and the bus is greater than the data. */ typedef int (*rte_bus_cmp_t)(const struct rte_bus *bus, const void *data); /** * Bus iterator to find a particular bus. * * This function compares each registered bus to find one that matches * the data passed as parameter. * * If the comparison function returns zero this function will stop iterating * over any more buses. To continue a search the bus of a previous search can * be passed via the start parameter. * * @param start * Starting point for the iteration. * * @param cmp * Comparison function. * * @param data * Data to pass to comparison function. * * @return * A pointer to a rte_bus structure or NULL in case no bus matches */ struct rte_bus *rte_bus_find(const struct rte_bus *start, rte_bus_cmp_t cmp, const void *data); /** * Find the registered bus for a particular device. */ struct rte_bus *rte_bus_find_by_device(const struct rte_device *dev); /** * Find the registered bus for a given name. */ struct rte_bus *rte_bus_find_by_name(const char *busname); /** * Get the common iommu class of devices bound on to buses available in the * system. RTE_IOVA_DC means that no preference has been expressed. * * @return * enum rte_iova_mode value. */ enum rte_iova_mode rte_bus_get_iommu_class(void); /** * Helper for Bus registration. * The constructor has higher priority than PMD constructors. */ #define RTE_REGISTER_BUS(nm, bus) \ RTE_INIT_PRIO(businitfn_ ##nm, BUS) \ {\ (bus).name = RTE_STR(nm);\ rte_bus_register(&bus); \ } #ifdef __cplusplus } #endif #endif /* _RTE_BUS_H */