/* * BSD LICENSE * * Copyright 2016 Cavium. * Copyright 2016 Intel Corporation. * Copyright 2016 NXP. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * Neither the name of Cavium nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef _RTE_EVENTDEV_H_ #define _RTE_EVENTDEV_H_ /** * @file * * RTE Event Device API * * In a polling model, lcores poll ethdev ports and associated rx queues * directly to look for packet. In an event driven model, by contrast, lcores * call the scheduler that selects packets for them based on programmer * specified criteria. Eventdev library adds support for event driven * programming model, which offer applications automatic multicore scaling, * dynamic load balancing, pipelining, packet ingress order maintenance and * synchronization services to simplify application packet processing. * * The Event Device API is composed of two parts: * * - The application-oriented Event API that includes functions to setup * an event device (configure it, setup its queues, ports and start it), to * establish the link between queues to port and to receive events, and so on. * * - The driver-oriented Event API that exports a function allowing * an event poll Mode Driver (PMD) to simultaneously register itself as * an event device driver. * * Event device components: * * +-----------------+ * | +-------------+ | * +-------+ | | flow 0 | | * |Packet | | +-------------+ | * |event | | +-------------+ | * | | | | flow 1 | |port_link(port0, queue0) * +-------+ | +-------------+ | | +--------+ * +-------+ | +-------------+ o-----v-----o |dequeue +------+ * |Crypto | | | flow n | | | event +------->|Core 0| * |work | | +-------------+ o----+ | port 0 | | | * |done ev| | event queue 0 | | +--------+ +------+ * +-------+ +-----------------+ | * +-------+ | * |Timer | +-----------------+ | +--------+ * |expiry | | +-------------+ | +------o |dequeue +------+ * |event | | | flow 0 | o-----------o event +------->|Core 1| * +-------+ | +-------------+ | +----o port 1 | | | * Event enqueue | +-------------+ | | +--------+ +------+ * o-------------> | | flow 1 | | | * enqueue( | +-------------+ | | * queue_id, | | | +--------+ +------+ * flow_id, | +-------------+ | | | |dequeue |Core 2| * sched_type, | | flow n | o-----------o event +------->| | * event_type, | +-------------+ | | | port 2 | +------+ * subev_type, | event queue 1 | | +--------+ * event) +-----------------+ | +--------+ * | | |dequeue +------+ * +-------+ +-----------------+ | | event +------->|Core n| * |Core | | +-------------+ o-----------o port n | | | * |(SW) | | | flow 0 | | | +--------+ +--+---+ * |event | | +-------------+ | | | * +-------+ | +-------------+ | | | * ^ | | flow 1 | | | | * | | +-------------+ o------+ | * | | +-------------+ | | * | | | flow n | | | * | | +-------------+ | | * | | event queue n | | * | +-----------------+ | * | | * +-----------------------------------------------------------+ * * Event device: A hardware or software-based event scheduler. * * Event: A unit of scheduling that encapsulates a packet or other datatype * like SW generated event from the CPU, Crypto work completion notification, * Timer expiry event notification etc as well as metadata. * The metadata includes flow ID, scheduling type, event priority, event_type, * sub_event_type etc. * * Event queue: A queue containing events that are scheduled by the event dev. * An event queue contains events of different flows associated with scheduling * types, such as atomic, ordered, or parallel. * * Event port: An application's interface into the event dev for enqueue and * dequeue operations. Each event port can be linked with one or more * event queues for dequeue operations. * * By default, all the functions of the Event Device API exported by a PMD * are lock-free functions which assume to not be invoked in parallel on * different logical cores to work on the same target object. For instance, * the dequeue function of a PMD cannot be invoked in parallel on two logical * cores to operates on same event port. Of course, this function * can be invoked in parallel by different logical cores on different ports. * It is the responsibility of the upper level application to enforce this rule. * * In all functions of the Event API, the Event device is * designated by an integer >= 0 named the device identifier *dev_id* * * At the Event driver level, Event devices are represented by a generic * data structure of type *rte_event_dev*. * * Event devices are dynamically registered during the PCI/SoC device probing * phase performed at EAL initialization time. * When an Event device is being probed, a *rte_event_dev* structure and * a new device identifier are allocated for that device. Then, the * event_dev_init() function supplied by the Event driver matching the probed * device is invoked to properly initialize the device. * * The role of the device init function consists of resetting the hardware or * software event driver implementations. * * If the device init operation is successful, the correspondence between * the device identifier assigned to the new device and its associated * *rte_event_dev* structure is effectively registered. * Otherwise, both the *rte_event_dev* structure and the device identifier are * freed. * * The functions exported by the application Event API to setup a device * designated by its device identifier must be invoked in the following order: * - rte_event_dev_configure() * - rte_event_queue_setup() * - rte_event_port_setup() * - rte_event_port_link() * - rte_event_dev_start() * * Then, the application can invoke, in any order, the functions * exported by the Event API to schedule events, dequeue events, enqueue events, * change event queue(s) to event port [un]link establishment and so on. * * Application may use rte_event_[queue/port]_default_conf_get() to get the * default configuration to set up an event queue or event port by * overriding few default values. * * If the application wants to change the configuration (i.e. call * rte_event_dev_configure(), rte_event_queue_setup(), or * rte_event_port_setup()), it must call rte_event_dev_stop() first to stop the * device and then do the reconfiguration before calling rte_event_dev_start() * again. The schedule, enqueue and dequeue functions should not be invoked * when the device is stopped. * * Finally, an application can close an Event device by invoking the * rte_event_dev_close() function. * * Each function of the application Event API invokes a specific function * of the PMD that controls the target device designated by its device * identifier. * * For this purpose, all device-specific functions of an Event driver are * supplied through a set of pointers contained in a generic structure of type * *event_dev_ops*. * The address of the *event_dev_ops* structure is stored in the *rte_event_dev* * structure by the device init function of the Event driver, which is * invoked during the PCI/SoC device probing phase, as explained earlier. * * In other words, each function of the Event API simply retrieves the * *rte_event_dev* structure associated with the device identifier and * performs an indirect invocation of the corresponding driver function * supplied in the *event_dev_ops* structure of the *rte_event_dev* structure. * * For performance reasons, the address of the fast-path functions of the * Event driver is not contained in the *event_dev_ops* structure. * Instead, they are directly stored at the beginning of the *rte_event_dev* * structure to avoid an extra indirect memory access during their invocation. * * RTE event device drivers do not use interrupts for enqueue or dequeue * operation. Instead, Event drivers export Poll-Mode enqueue and dequeue * functions to applications. * * An event driven based application has following typical workflow on fastpath: * \code{.c} * while (1) { * * rte_event_schedule(dev_id); * * rte_event_dequeue(...); * * (event processing) * * rte_event_enqueue(...); * } * \endcode * * The events are injected to event device through *enqueue* operation by * event producers in the system. The typical event producers are ethdev * subsystem for generating packet events, CPU(SW) for generating events based * on different stages of application processing, cryptodev for generating * crypto work completion notification etc * * The *dequeue* operation gets one or more events from the event ports. * The application process the events and send to downstream event queue through * rte_event_enqueue_burst() if it is an intermediate stage of event processing, * on the final stage, the application may send to different subsystem like * ethdev to send the packet/event on the wire using ethdev * rte_eth_tx_burst() API. * * The point at which events are scheduled to ports depends on the device. * For hardware devices, scheduling occurs asynchronously without any software * intervention. Software schedulers can either be distributed * (each worker thread schedules events to its own port) or centralized * (a dedicated thread schedules to all ports). Distributed software schedulers * perform the scheduling in rte_event_dequeue_burst(), whereas centralized * scheduler logic is located in rte_event_schedule(). * The RTE_EVENT_DEV_CAP_DISTRIBUTED_SCHED capability flag is not set * indicates the device is centralized and thus needs a dedicated scheduling * thread that repeatedly calls rte_event_schedule(). * */ #ifdef __cplusplus extern "C" { #endif #include #include #include struct rte_mbuf; /* we just use mbuf pointers; no need to include rte_mbuf.h */ /* Event device capability bitmap flags */ #define RTE_EVENT_DEV_CAP_QUEUE_QOS (1ULL << 0) /**< Event scheduling prioritization is based on the priority associated with * each event queue. * * @see rte_event_queue_setup() */ #define RTE_EVENT_DEV_CAP_EVENT_QOS (1ULL << 1) /**< Event scheduling prioritization is based on the priority associated with * each event. Priority of each event is supplied in *rte_event* structure * on each enqueue operation. * * @see rte_event_enqueue_burst() */ #define RTE_EVENT_DEV_CAP_DISTRIBUTED_SCHED (1ULL << 2) /**< Event device operates in distributed scheduling mode. * In distributed scheduling mode, event scheduling happens in HW or * rte_event_dequeue_burst() or the combination of these two. * If the flag is not set then eventdev is centralized and thus needs a * dedicated scheduling thread that repeatedly calls rte_event_schedule(). * * @see rte_event_schedule(), rte_event_dequeue_burst() */ #define RTE_EVENT_DEV_CAP_QUEUE_ALL_TYPES (1ULL << 3) /**< Event device is capable of enqueuing events of any type to any queue. * If this capability is not set, the queue only supports events of the * *RTE_EVENT_QUEUE_CFG_* type that it was created with. * * @see RTE_EVENT_QUEUE_CFG_* values */ /* Event device priority levels */ #define RTE_EVENT_DEV_PRIORITY_HIGHEST 0 /**< Highest priority expressed across eventdev subsystem * @see rte_event_queue_setup(), rte_event_enqueue_burst() * @see rte_event_port_link() */ #define RTE_EVENT_DEV_PRIORITY_NORMAL 128 /**< Normal priority expressed across eventdev subsystem * @see rte_event_queue_setup(), rte_event_enqueue_burst() * @see rte_event_port_link() */ #define RTE_EVENT_DEV_PRIORITY_LOWEST 255 /**< Lowest priority expressed across eventdev subsystem * @see rte_event_queue_setup(), rte_event_enqueue_burst() * @see rte_event_port_link() */ /** * Get the total number of event devices that have been successfully * initialised. * * @return * The total number of usable event devices. */ uint8_t rte_event_dev_count(void); /** * Get the device identifier for the named event device. * * @param name * Event device name to select the event device identifier. * * @return * Returns event device identifier on success. * - <0: Failure to find named event device. */ int rte_event_dev_get_dev_id(const char *name); /** * Return the NUMA socket to which a device is connected. * * @param dev_id * The identifier of the device. * @return * The NUMA socket id to which the device is connected or * a default of zero if the socket could not be determined. * -(-EINVAL) dev_id value is out of range. */ int rte_event_dev_socket_id(uint8_t dev_id); /** * Event device information */ struct rte_event_dev_info { const char *driver_name; /**< Event driver name */ struct rte_device *dev; /**< Device information */ uint32_t min_dequeue_timeout_ns; /**< Minimum supported global dequeue timeout(ns) by this device */ uint32_t max_dequeue_timeout_ns; /**< Maximum supported global dequeue timeout(ns) by this device */ uint32_t dequeue_timeout_ns; /**< Configured global dequeue timeout(ns) for this device */ uint8_t max_event_queues; /**< Maximum event_queues supported by this device */ uint32_t max_event_queue_flows; /**< Maximum supported flows in an event queue by this device*/ uint8_t max_event_queue_priority_levels; /**< Maximum number of event queue priority levels by this device. * Valid when the device has RTE_EVENT_DEV_CAP_QUEUE_QOS capability */ uint8_t max_event_priority_levels; /**< Maximum number of event priority levels by this device. * Valid when the device has RTE_EVENT_DEV_CAP_EVENT_QOS capability */ uint8_t max_event_ports; /**< Maximum number of event ports supported by this device */ uint8_t max_event_port_dequeue_depth; /**< Maximum number of events can be dequeued at a time from an * event port by this device. * A device that does not support bulk dequeue will set this as 1. */ uint32_t max_event_port_enqueue_depth; /**< Maximum number of events can be enqueued at a time from an * event port by this device. * A device that does not support bulk enqueue will set this as 1. */ int32_t max_num_events; /**< A *closed system* event dev has a limit on the number of events it * can manage at a time. An *open system* event dev does not have a * limit and will specify this as -1. */ uint32_t event_dev_cap; /**< Event device capabilities(RTE_EVENT_DEV_CAP_)*/ }; /** * Retrieve the contextual information of an event device. * * @param dev_id * The identifier of the device. * * @param[out] dev_info * A pointer to a structure of type *rte_event_dev_info* to be filled with the * contextual information of the device. * * @return * - 0: Success, driver updates the contextual information of the event device * - <0: Error code returned by the driver info get function. * */ int rte_event_dev_info_get(uint8_t dev_id, struct rte_event_dev_info *dev_info); /* Event device configuration bitmap flags */ #define RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT (1ULL << 0) /**< Override the global *dequeue_timeout_ns* and use per dequeue timeout in ns. * @see rte_event_dequeue_timeout_ticks(), rte_event_dequeue_burst() */ /** Event device configuration structure */ struct rte_event_dev_config { uint32_t dequeue_timeout_ns; /**< rte_event_dequeue_burst() timeout on this device. * This value should be in the range of *min_dequeue_timeout_ns* and * *max_dequeue_timeout_ns* which previously provided in * rte_event_dev_info_get() * @see RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT */ int32_t nb_events_limit; /**< In a *closed system* this field is the limit on maximum number of * events that can be inflight in the eventdev at a given time. The * limit is required to ensure that the finite space in a closed system * is not overwhelmed. The value cannot exceed the *max_num_events* * as provided by rte_event_dev_info_get(). * This value should be set to -1 for *open system*. */ uint8_t nb_event_queues; /**< Number of event queues to configure on this device. * This value cannot exceed the *max_event_queues* which previously * provided in rte_event_dev_info_get() */ uint8_t nb_event_ports; /**< Number of event ports to configure on this device. * This value cannot exceed the *max_event_ports* which previously * provided in rte_event_dev_info_get() */ uint32_t nb_event_queue_flows; /**< Number of flows for any event queue on this device. * This value cannot exceed the *max_event_queue_flows* which previously * provided in rte_event_dev_info_get() */ uint32_t nb_event_port_dequeue_depth; /**< Maximum number of events can be dequeued at a time from an * event port by this device. * This value cannot exceed the *max_event_port_dequeue_depth* * which previously provided in rte_event_dev_info_get() * @see rte_event_port_setup() */ uint32_t nb_event_port_enqueue_depth; /**< Maximum number of events can be enqueued at a time from an * event port by this device. * This value cannot exceed the *max_event_port_enqueue_depth* * which previously provided in rte_event_dev_info_get() * @see rte_event_port_setup() */ uint32_t event_dev_cfg; /**< Event device config flags(RTE_EVENT_DEV_CFG_)*/ }; /** * Configure an event device. * * This function must be invoked first before any other function in the * API. This function can also be re-invoked when a device is in the * stopped state. * * The caller may use rte_event_dev_info_get() to get the capability of each * resources available for this event device. * * @param dev_id * The identifier of the device to configure. * @param dev_conf * The event device configuration structure. * * @return * - 0: Success, device configured. * - <0: Error code returned by the driver configuration function. */ int rte_event_dev_configure(uint8_t dev_id, const struct rte_event_dev_config *dev_conf); /* Event queue specific APIs */ /* Event queue configuration bitmap flags */ #define RTE_EVENT_QUEUE_CFG_TYPE_MASK (3ULL << 0) /**< Mask for event queue schedule type configuration request */ #define RTE_EVENT_QUEUE_CFG_ALL_TYPES (0ULL << 0) /**< Allow ATOMIC,ORDERED,PARALLEL schedule type enqueue * * @see RTE_SCHED_TYPE_ORDERED, RTE_SCHED_TYPE_ATOMIC, RTE_SCHED_TYPE_PARALLEL * @see rte_event_enqueue_burst() */ #define RTE_EVENT_QUEUE_CFG_ATOMIC_ONLY (1ULL << 0) /**< Allow only ATOMIC schedule type enqueue * * The rte_event_enqueue_burst() result is undefined if the queue configured * with ATOMIC only and sched_type != RTE_SCHED_TYPE_ATOMIC * * @see RTE_SCHED_TYPE_ATOMIC, rte_event_enqueue_burst() */ #define RTE_EVENT_QUEUE_CFG_ORDERED_ONLY (2ULL << 0) /**< Allow only ORDERED schedule type enqueue * * The rte_event_enqueue_burst() result is undefined if the queue configured * with ORDERED only and sched_type != RTE_SCHED_TYPE_ORDERED * * @see RTE_SCHED_TYPE_ORDERED, rte_event_enqueue_burst() */ #define RTE_EVENT_QUEUE_CFG_PARALLEL_ONLY (3ULL << 0) /**< Allow only PARALLEL schedule type enqueue * * The rte_event_enqueue_burst() result is undefined if the queue configured * with PARALLEL only and sched_type != RTE_SCHED_TYPE_PARALLEL * * @see RTE_SCHED_TYPE_PARALLEL, rte_event_enqueue_burst() */ #define RTE_EVENT_QUEUE_CFG_SINGLE_LINK (1ULL << 2) /**< This event queue links only to a single event port. * * @see rte_event_port_setup(), rte_event_port_link() */ /** Event queue configuration structure */ struct rte_event_queue_conf { uint32_t nb_atomic_flows; /**< The maximum number of active flows this queue can track at any * given time. The value must be in the range of * [1 - nb_event_queue_flows)] which previously provided in * rte_event_dev_info_get(). */ uint32_t nb_atomic_order_sequences; /**< The maximum number of outstanding events waiting to be * reordered by this queue. In other words, the number of entries in * this queue’s reorder buffer.When the number of events in the * reorder buffer reaches to *nb_atomic_order_sequences* then the * scheduler cannot schedule the events from this queue and invalid * event will be returned from dequeue until one or more entries are * freed up/released. * The value must be in the range of [1 - nb_event_queue_flows)] * which previously supplied to rte_event_dev_configure(). */ uint32_t event_queue_cfg; /**< Queue cfg flags(EVENT_QUEUE_CFG_) */ uint8_t priority; /**< Priority for this event queue relative to other event queues. * The requested priority should in the range of * [RTE_EVENT_DEV_PRIORITY_HIGHEST, RTE_EVENT_DEV_PRIORITY_LOWEST]. * The implementation shall normalize the requested priority to * event device supported priority value. * Valid when the device has RTE_EVENT_DEV_CAP_QUEUE_QOS capability */ }; /** * Retrieve the default configuration information of an event queue designated * by its *queue_id* from the event driver for an event device. * * This function intended to be used in conjunction with rte_event_queue_setup() * where caller needs to set up the queue by overriding few default values. * * @param dev_id * The identifier of the device. * @param queue_id * The index of the event queue to get the configuration information. * The value must be in the range [0, nb_event_queues - 1] * previously supplied to rte_event_dev_configure(). * @param[out] queue_conf * The pointer to the default event queue configuration data. * @return * - 0: Success, driver updates the default event queue configuration data. * - <0: Error code returned by the driver info get function. * * @see rte_event_queue_setup() * */ int rte_event_queue_default_conf_get(uint8_t dev_id, uint8_t queue_id, struct rte_event_queue_conf *queue_conf); /** * Allocate and set up an event queue for an event device. * * @param dev_id * The identifier of the device. * @param queue_id * The index of the event queue to setup. The value must be in the range * [0, nb_event_queues - 1] previously supplied to rte_event_dev_configure(). * @param queue_conf * The pointer to the configuration data to be used for the event queue. * NULL value is allowed, in which case default configuration used. * * @see rte_event_queue_default_conf_get() * * @return * - 0: Success, event queue correctly set up. * - <0: event queue configuration failed */ int rte_event_queue_setup(uint8_t dev_id, uint8_t queue_id, const struct rte_event_queue_conf *queue_conf); /** * Get the number of event queues on a specific event device * * @param dev_id * Event device identifier. * @return * - The number of configured event queues */ uint8_t rte_event_queue_count(uint8_t dev_id); /** * Get the priority of the event queue on a specific event device * * @param dev_id * Event device identifier. * @param queue_id * Event queue identifier. * @return * - If the device has RTE_EVENT_DEV_CAP_QUEUE_QOS capability then the * configured priority of the event queue in * [RTE_EVENT_DEV_PRIORITY_HIGHEST, RTE_EVENT_DEV_PRIORITY_LOWEST] range * else the value RTE_EVENT_DEV_PRIORITY_NORMAL */ uint8_t rte_event_queue_priority(uint8_t dev_id, uint8_t queue_id); /* Event port specific APIs */ /** Event port configuration structure */ struct rte_event_port_conf { int32_t new_event_threshold; /**< A backpressure threshold for new event enqueues on this port. * Use for *closed system* event dev where event capacity is limited, * and cannot exceed the capacity of the event dev. * Configuring ports with different thresholds can make higher priority * traffic less likely to be backpressured. * For example, a port used to inject NIC Rx packets into the event dev * can have a lower threshold so as not to overwhelm the device, * while ports used for worker pools can have a higher threshold. * This value cannot exceed the *nb_events_limit* * which was previously supplied to rte_event_dev_configure(). * This should be set to '-1' for *open system*. */ uint16_t dequeue_depth; /**< Configure number of bulk dequeues for this event port. * This value cannot exceed the *nb_event_port_dequeue_depth* * which previously supplied to rte_event_dev_configure() */ uint16_t enqueue_depth; /**< Configure number of bulk enqueues for this event port. * This value cannot exceed the *nb_event_port_enqueue_depth* * which previously supplied to rte_event_dev_configure() */ }; /** * Retrieve the default configuration information of an event port designated * by its *port_id* from the event driver for an event device. * * This function intended to be used in conjunction with rte_event_port_setup() * where caller needs to set up the port by overriding few default values. * * @param dev_id * The identifier of the device. * @param port_id * The index of the event port to get the configuration information. * The value must be in the range [0, nb_event_ports - 1] * previously supplied to rte_event_dev_configure(). * @param[out] port_conf * The pointer to the default event port configuration data * @return * - 0: Success, driver updates the default event port configuration data. * - <0: Error code returned by the driver info get function. * * @see rte_event_port_setup() * */ int rte_event_port_default_conf_get(uint8_t dev_id, uint8_t port_id, struct rte_event_port_conf *port_conf); /** * Allocate and set up an event port for an event device. * * @param dev_id * The identifier of the device. * @param port_id * The index of the event port to setup. The value must be in the range * [0, nb_event_ports - 1] previously supplied to rte_event_dev_configure(). * @param port_conf * The pointer to the configuration data to be used for the queue. * NULL value is allowed, in which case default configuration used. * * @see rte_event_port_default_conf_get() * * @return * - 0: Success, event port correctly set up. * - <0: Port configuration failed * - (-EDQUOT) Quota exceeded(Application tried to link the queue configured * with RTE_EVENT_QUEUE_CFG_SINGLE_LINK to more than one event ports) */ int rte_event_port_setup(uint8_t dev_id, uint8_t port_id, const struct rte_event_port_conf *port_conf); /** * Get the number of dequeue queue depth configured for event port designated * by its *port_id* on a specific event device * * @param dev_id * Event device identifier. * @param port_id * Event port identifier. * @return * - The number of configured dequeue queue depth * * @see rte_event_dequeue_burst() */ uint8_t rte_event_port_dequeue_depth(uint8_t dev_id, uint8_t port_id); /** * Get the number of enqueue queue depth configured for event port designated * by its *port_id* on a specific event device * * @param dev_id * Event device identifier. * @param port_id * Event port identifier. * @return * - The number of configured enqueue queue depth * * @see rte_event_enqueue_burst() */ uint8_t rte_event_port_enqueue_depth(uint8_t dev_id, uint8_t port_id); /** * Get the number of ports on a specific event device * * @param dev_id * Event device identifier. * @return * - The number of configured ports */ uint8_t rte_event_port_count(uint8_t dev_id); /** * Start an event device. * * The device start step is the last one and consists of setting the event * queues to start accepting the events and schedules to event ports. * * On success, all basic functions exported by the API (event enqueue, * event dequeue and so on) can be invoked. * * @param dev_id * Event device identifier * @return * - 0: Success, device started. * - -ESTALE : Not all ports of the device are configured * - -ENOLINK: Not all queues are linked, which could lead to deadlock. */ int rte_event_dev_start(uint8_t dev_id); /** * Stop an event device. The device can be restarted with a call to * rte_event_dev_start() * * @param dev_id * Event device identifier. */ void rte_event_dev_stop(uint8_t dev_id); /** * Close an event device. The device cannot be restarted! * * @param dev_id * Event device identifier * * @return * - 0 on successfully closing device * - <0 on failure to close device * - (-EAGAIN) if device is busy */ int rte_event_dev_close(uint8_t dev_id); /* Scheduler type definitions */ #define RTE_SCHED_TYPE_ORDERED 0 /**< Ordered scheduling * * Events from an ordered flow of an event queue can be scheduled to multiple * ports for concurrent processing while maintaining the original event order. * This scheme enables the user to achieve high single flow throughput by * avoiding SW synchronization for ordering between ports which bound to cores. * * The source flow ordering from an event queue is maintained when events are * enqueued to their destination queue within the same ordered flow context. * An event port holds the context until application call * rte_event_dequeue_burst() from the same port, which implicitly releases * the context. * User may allow the scheduler to release the context earlier than that * by invoking rte_event_enqueue_burst() with RTE_EVENT_OP_RELEASE operation. * * Events from the source queue appear in their original order when dequeued * from a destination queue. * Event ordering is based on the received event(s), but also other * (newly allocated or stored) events are ordered when enqueued within the same * ordered context. Events not enqueued (e.g. released or stored) within the * context are considered missing from reordering and are skipped at this time * (but can be ordered again within another context). * * @see rte_event_queue_setup(), rte_event_dequeue_burst(), RTE_EVENT_OP_RELEASE */ #define RTE_SCHED_TYPE_ATOMIC 1 /**< Atomic scheduling * * Events from an atomic flow of an event queue can be scheduled only to a * single port at a time. The port is guaranteed to have exclusive (atomic) * access to the associated flow context, which enables the user to avoid SW * synchronization. Atomic flows also help to maintain event ordering * since only one port at a time can process events from a flow of an * event queue. * * The atomic queue synchronization context is dedicated to the port until * application call rte_event_dequeue_burst() from the same port, * which implicitly releases the context. User may allow the scheduler to * release the context earlier than that by invoking rte_event_enqueue_burst() * with RTE_EVENT_OP_RELEASE operation. * * @see rte_event_queue_setup(), rte_event_dequeue_burst(), RTE_EVENT_OP_RELEASE */ #define RTE_SCHED_TYPE_PARALLEL 2 /**< Parallel scheduling * * The scheduler performs priority scheduling, load balancing, etc. functions * but does not provide additional event synchronization or ordering. * It is free to schedule events from a single parallel flow of an event queue * to multiple events ports for concurrent processing. * The application is responsible for flow context synchronization and * event ordering (SW synchronization). * * @see rte_event_queue_setup(), rte_event_dequeue_burst() */ /* Event types to classify the event source */ #define RTE_EVENT_TYPE_ETHDEV 0x0 /**< The event generated from ethdev subsystem */ #define RTE_EVENT_TYPE_CRYPTODEV 0x1 /**< The event generated from crypodev subsystem */ #define RTE_EVENT_TYPE_TIMERDEV 0x2 /**< The event generated from timerdev subsystem */ #define RTE_EVENT_TYPE_CPU 0x3 /**< The event generated from cpu for pipelining. * Application may use *sub_event_type* to further classify the event */ #define RTE_EVENT_TYPE_MAX 0x10 /**< Maximum number of event types */ /* Event enqueue operations */ #define RTE_EVENT_OP_NEW 0 /**< The event producers use this operation to inject a new event to the * event device. */ #define RTE_EVENT_OP_FORWARD 1 /**< The CPU use this operation to forward the event to different event queue or * change to new application specific flow or schedule type to enable * pipelining */ #define RTE_EVENT_OP_RELEASE 2 /**< Release the flow context associated with the schedule type. * * If current flow's scheduler type method is *RTE_SCHED_TYPE_ATOMIC* * then this function hints the scheduler that the user has completed critical * section processing in the current atomic context. * The scheduler is now allowed to schedule events from the same flow from * an event queue to another port. However, the context may be still held * until the next rte_event_dequeue_burst() call, this call allows but does not * force the scheduler to release the context early. * * Early atomic context release may increase parallelism and thus system * performance, but the user needs to design carefully the split into critical * vs non-critical sections. * * If current flow's scheduler type method is *RTE_SCHED_TYPE_ORDERED* * then this function hints the scheduler that the user has done all that need * to maintain event order in the current ordered context. * The scheduler is allowed to release the ordered context of this port and * avoid reordering any following enqueues. * * Early ordered context release may increase parallelism and thus system * performance. * * If current flow's scheduler type method is *RTE_SCHED_TYPE_PARALLEL* * or no scheduling context is held then this function may be an NOOP, * depending on the implementation. * */ /** * The generic *rte_event* structure to hold the event attributes * for dequeue and enqueue operation */ RTE_STD_C11 struct rte_event { /** WORD0 */ union { uint64_t event; /** Event attributes for dequeue or enqueue operation */ struct { uint32_t flow_id:20; /**< Targeted flow identifier for the enqueue and * dequeue operation. * The value must be in the range of * [0, nb_event_queue_flows - 1] which * previously supplied to rte_event_dev_configure(). */ uint32_t sub_event_type:8; /**< Sub-event types based on the event source. * @see RTE_EVENT_TYPE_CPU */ uint32_t event_type:4; /**< Event type to classify the event source. * @see RTE_EVENT_TYPE_ETHDEV, (RTE_EVENT_TYPE_*) */ uint8_t op:2; /**< The type of event enqueue operation - new/forward/ * etc.This field is not preserved across an instance * and is undefined on dequeue. * @see RTE_EVENT_OP_NEW, (RTE_EVENT_OP_*) */ uint8_t rsvd:4; /**< Reserved for future use */ uint8_t sched_type:2; /**< Scheduler synchronization type (RTE_SCHED_TYPE_*) * associated with flow id on a given event queue * for the enqueue and dequeue operation. */ uint8_t queue_id; /**< Targeted event queue identifier for the enqueue or * dequeue operation. * The value must be in the range of * [0, nb_event_queues - 1] which previously supplied to * rte_event_dev_configure(). */ uint8_t priority; /**< Event priority relative to other events in the * event queue. The requested priority should in the * range of [RTE_EVENT_DEV_PRIORITY_HIGHEST, * RTE_EVENT_DEV_PRIORITY_LOWEST]. * The implementation shall normalize the requested * priority to supported priority value. * Valid when the device has * RTE_EVENT_DEV_CAP_EVENT_QOS capability. */ uint8_t impl_opaque; /**< Implementation specific opaque value. * An implementation may use this field to hold * implementation specific value to share between * dequeue and enqueue operation. * The application should not modify this field. */ }; }; /** WORD1 */ union { uint64_t u64; /**< Opaque 64-bit value */ void *event_ptr; /**< Opaque event pointer */ struct rte_mbuf *mbuf; /**< mbuf pointer if dequeued event is associated with mbuf */ }; }; struct rte_eventdev_driver; struct rte_eventdev_ops; struct rte_eventdev; typedef void (*event_schedule_t)(struct rte_eventdev *dev); /**< @internal Schedule one or more events in the event dev. */ typedef uint16_t (*event_enqueue_t)(void *port, const struct rte_event *ev); /**< @internal Enqueue event on port of a device */ typedef uint16_t (*event_enqueue_burst_t)(void *port, const struct rte_event ev[], uint16_t nb_events); /**< @internal Enqueue burst of events on port of a device */ typedef uint16_t (*event_dequeue_t)(void *port, struct rte_event *ev, uint64_t timeout_ticks); /**< @internal Dequeue event from port of a device */ typedef uint16_t (*event_dequeue_burst_t)(void *port, struct rte_event ev[], uint16_t nb_events, uint64_t timeout_ticks); /**< @internal Dequeue burst of events from port of a device */ #define RTE_EVENTDEV_NAME_MAX_LEN (64) /**< @internal Max length of name of event PMD */ /** * @internal * The data part, with no function pointers, associated with each device. * * This structure is safe to place in shared memory to be common among * different processes in a multi-process configuration. */ struct rte_eventdev_data { int socket_id; /**< Socket ID where memory is allocated */ uint8_t dev_id; /**< Device ID for this instance */ uint8_t nb_queues; /**< Number of event queues. */ uint8_t nb_ports; /**< Number of event ports. */ void **ports; /**< Array of pointers to ports. */ uint8_t *ports_dequeue_depth; /**< Array of port dequeue depth. */ uint8_t *ports_enqueue_depth; /**< Array of port enqueue depth. */ uint8_t *queues_prio; /**< Array of queue priority. */ uint16_t *links_map; /**< Memory to store queues to port connections. */ void *dev_private; /**< PMD-specific private data */ uint32_t event_dev_cap; /**< Event device capabilities(RTE_EVENT_DEV_CAP_)*/ struct rte_event_dev_config dev_conf; /**< Configuration applied to device. */ RTE_STD_C11 uint8_t dev_started : 1; /**< Device state: STARTED(1)/STOPPED(0) */ char name[RTE_EVENTDEV_NAME_MAX_LEN]; /**< Unique identifier name */ } __rte_cache_aligned; /** @internal The data structure associated with each event device. */ struct rte_eventdev { event_schedule_t schedule; /**< Pointer to PMD schedule function. */ event_enqueue_t enqueue; /**< Pointer to PMD enqueue function. */ event_enqueue_burst_t enqueue_burst; /**< Pointer to PMD enqueue burst function. */ event_dequeue_t dequeue; /**< Pointer to PMD dequeue function. */ event_dequeue_burst_t dequeue_burst; /**< Pointer to PMD dequeue burst function. */ struct rte_eventdev_data *data; /**< Pointer to device data */ const struct rte_eventdev_ops *dev_ops; /**< Functions exported by PMD */ struct rte_device *dev; /**< Device info. supplied by probing */ const struct rte_eventdev_driver *driver; /**< Driver for this device */ RTE_STD_C11 uint8_t attached : 1; /**< Flag indicating the device is attached */ } __rte_cache_aligned; extern struct rte_eventdev *rte_eventdevs; /** @internal The pool of rte_eventdev structures. */ /** * Schedule one or more events in the event dev. * * An event dev implementation may define this is a NOOP, for instance if * the event dev performs its scheduling in hardware. * * @param dev_id * The identifier of the device. */ static inline void rte_event_schedule(uint8_t dev_id) { struct rte_eventdev *dev = &rte_eventdevs[dev_id]; if (*dev->schedule) (*dev->schedule)(dev); } /** * Enqueue a burst of events objects or an event object supplied in *rte_event* * structure on an event device designated by its *dev_id* through the event * port specified by *port_id*. Each event object specifies the event queue on * which it will be enqueued. * * The *nb_events* parameter is the number of event objects to enqueue which are * supplied in the *ev* array of *rte_event* structure. * * The rte_event_enqueue_burst() function returns the number of * events objects it actually enqueued. A return value equal to *nb_events* * means that all event objects have been enqueued. * * @param dev_id * The identifier of the device. * @param port_id * The identifier of the event port. * @param ev * Points to an array of *nb_events* objects of type *rte_event* structure * which contain the event object enqueue operations to be processed. * @param nb_events * The number of event objects to enqueue, typically number of * rte_event_port_enqueue_depth() available for this port. * * @return * The number of event objects actually enqueued on the event device. The * return value can be less than the value of the *nb_events* parameter when * the event devices queue is full or if invalid parameters are specified in a * *rte_event*. If the return value is less than *nb_events*, the remaining * events at the end of ev[] are not consumed and the caller has to take care * of them, and rte_errno is set accordingly. Possible errno values include: * - -EINVAL The port ID is invalid, device ID is invalid, an event's queue * ID is invalid, or an event's sched type doesn't match the * capabilities of the destination queue. * - -ENOSPC The event port was backpressured and unable to enqueue * one or more events. This error code is only applicable to * closed systems. * @see rte_event_port_enqueue_depth() */ static inline uint16_t rte_event_enqueue_burst(uint8_t dev_id, uint8_t port_id, const struct rte_event ev[], uint16_t nb_events) { struct rte_eventdev *dev = &rte_eventdevs[dev_id]; #ifdef RTE_LIBRTE_EVENTDEV_DEBUG if (dev_id >= RTE_EVENT_MAX_DEVS || !rte_eventdevs[dev_id].attached) { rte_errno = -EINVAL; return 0; } if (port_id >= dev->data->nb_ports) { rte_errno = -EINVAL; return 0; } #endif /* * Allow zero cost non burst mode routine invocation if application * requests nb_events as const one */ if (nb_events == 1) return (*dev->enqueue)( dev->data->ports[port_id], ev); else return (*dev->enqueue_burst)( dev->data->ports[port_id], ev, nb_events); } /** * Converts nanoseconds to *timeout_ticks* value for rte_event_dequeue_burst() * * If the device is configured with RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT flag * then application can use this function to convert timeout value in * nanoseconds to implementations specific timeout value supplied in * rte_event_dequeue_burst() * * @param dev_id * The identifier of the device. * @param ns * Wait time in nanosecond * @param[out] timeout_ticks * Value for the *timeout_ticks* parameter in rte_event_dequeue_burst() * * @return * - 0 on success. * - -ENOTSUP if the device doesn't support timeouts * - -EINVAL if *dev_id* is invalid or *timeout_ticks* is NULL * - other values < 0 on failure. * * @see rte_event_dequeue_burst(), RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT * @see rte_event_dev_configure() * */ int rte_event_dequeue_timeout_ticks(uint8_t dev_id, uint64_t ns, uint64_t *timeout_ticks); /** * Dequeue a burst of events objects or an event object from the event port * designated by its *event_port_id*, on an event device designated * by its *dev_id*. * * rte_event_dequeue_burst() does not dictate the specifics of scheduling * algorithm as each eventdev driver may have different criteria to schedule * an event. However, in general, from an application perspective scheduler may * use the following scheme to dispatch an event to the port. * * 1) Selection of event queue based on * a) The list of event queues are linked to the event port. * b) If the device has RTE_EVENT_DEV_CAP_QUEUE_QOS capability then event * queue selection from list is based on event queue priority relative to * other event queue supplied as *priority* in rte_event_queue_setup() * c) If the device has RTE_EVENT_DEV_CAP_EVENT_QOS capability then event * queue selection from the list is based on event priority supplied as * *priority* in rte_event_enqueue_burst() * 2) Selection of event * a) The number of flows available in selected event queue. * b) Schedule type method associated with the event * * The *nb_events* parameter is the maximum number of event objects to dequeue * which are returned in the *ev* array of *rte_event* structure. * * The rte_event_dequeue_burst() function returns the number of events objects * it actually dequeued. A return value equal to *nb_events* means that all * event objects have been dequeued. * * The number of events dequeued is the number of scheduler contexts held by * this port. These contexts are automatically released in the next * rte_event_dequeue_burst() invocation, or invoking rte_event_enqueue_burst() * with RTE_EVENT_OP_RELEASE operation can be used to release the * contexts early. * * @param dev_id * The identifier of the device. * @param port_id * The identifier of the event port. * @param[out] ev * Points to an array of *nb_events* objects of type *rte_event* structure * for output to be populated with the dequeued event objects. * @param nb_events * The maximum number of event objects to dequeue, typically number of * rte_event_port_dequeue_depth() available for this port. * * @param timeout_ticks * - 0 no-wait, returns immediately if there is no event. * - >0 wait for the event, if the device is configured with * RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT then this function will wait until * at least one event is available or *timeout_ticks* time. * if the device is not configured with RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT * then this function will wait until the event available or * *dequeue_timeout_ns* ns which was previously supplied to * rte_event_dev_configure() * * @return * The number of event objects actually dequeued from the port. The return * value can be less than the value of the *nb_events* parameter when the * event port's queue is not full. * * @see rte_event_port_dequeue_depth() */ static inline uint16_t rte_event_dequeue_burst(uint8_t dev_id, uint8_t port_id, struct rte_event ev[], uint16_t nb_events, uint64_t timeout_ticks) { struct rte_eventdev *dev = &rte_eventdevs[dev_id]; #ifdef RTE_LIBRTE_EVENTDEV_DEBUG if (dev_id >= RTE_EVENT_MAX_DEVS || !rte_eventdevs[dev_id].attached) { rte_errno = -EINVAL; return 0; } if (port_id >= dev->data->nb_ports) { rte_errno = -EINVAL; return 0; } #endif /* * Allow zero cost non burst mode routine invocation if application * requests nb_events as const one */ if (nb_events == 1) return (*dev->dequeue)( dev->data->ports[port_id], ev, timeout_ticks); else return (*dev->dequeue_burst)( dev->data->ports[port_id], ev, nb_events, timeout_ticks); } /** * Link multiple source event queues supplied in *queues* to the destination * event port designated by its *port_id* with associated service priority * supplied in *priorities* on the event device designated by its *dev_id*. * * The link establishment shall enable the event port *port_id* from * receiving events from the specified event queue(s) supplied in *queues* * * An event queue may link to one or more event ports. * The number of links can be established from an event queue to event port is * implementation defined. * * Event queue(s) to event port link establishment can be changed at runtime * without re-configuring the device to support scaling and to reduce the * latency of critical work by establishing the link with more event ports * at runtime. * * @param dev_id * The identifier of the device. * * @param port_id * Event port identifier to select the destination port to link. * * @param queues * Points to an array of *nb_links* event queues to be linked * to the event port. * NULL value is allowed, in which case this function links all the configured * event queues *nb_event_queues* which previously supplied to * rte_event_dev_configure() to the event port *port_id* * * @param priorities * Points to an array of *nb_links* service priorities associated with each * event queue link to event port. * The priority defines the event port's servicing priority for * event queue, which may be ignored by an implementation. * The requested priority should in the range of * [RTE_EVENT_DEV_PRIORITY_HIGHEST, RTE_EVENT_DEV_PRIORITY_LOWEST]. * The implementation shall normalize the requested priority to * implementation supported priority value. * NULL value is allowed, in which case this function links the event queues * with RTE_EVENT_DEV_PRIORITY_NORMAL servicing priority * * @param nb_links * The number of links to establish. This parameter is ignored if queues is * NULL. * * @return * The number of links actually established. The return value can be less than * the value of the *nb_links* parameter when the implementation has the * limitation on specific queue to port link establishment or if invalid * parameters are specified in *queues* * If the return value is less than *nb_links*, the remaining links at the end * of link[] are not established, and the caller has to take care of them. * If return value is less than *nb_links* then implementation shall update the * rte_errno accordingly, Possible rte_errno values are * (-EDQUOT) Quota exceeded(Application tried to link the queue configured with * RTE_EVENT_QUEUE_CFG_SINGLE_LINK to more than one event ports) * (-EINVAL) Invalid parameter * */ int rte_event_port_link(uint8_t dev_id, uint8_t port_id, const uint8_t queues[], const uint8_t priorities[], uint16_t nb_links); /** * Unlink multiple source event queues supplied in *queues* from the destination * event port designated by its *port_id* on the event device designated * by its *dev_id*. * * The unlink establishment shall disable the event port *port_id* from * receiving events from the specified event queue *queue_id* * * Event queue(s) to event port unlink establishment can be changed at runtime * without re-configuring the device. * * @param dev_id * The identifier of the device. * * @param port_id * Event port identifier to select the destination port to unlink. * * @param queues * Points to an array of *nb_unlinks* event queues to be unlinked * from the event port. * NULL value is allowed, in which case this function unlinks all the * event queue(s) from the event port *port_id*. * * @param nb_unlinks * The number of unlinks to establish. This parameter is ignored if queues is * NULL. * * @return * The number of unlinks actually established. The return value can be less * than the value of the *nb_unlinks* parameter when the implementation has the * limitation on specific queue to port unlink establishment or * if invalid parameters are specified. * If the return value is less than *nb_unlinks*, the remaining queues at the * end of queues[] are not established, and the caller has to take care of them. * If return value is less than *nb_unlinks* then implementation shall update * the rte_errno accordingly, Possible rte_errno values are * (-EINVAL) Invalid parameter * */ int rte_event_port_unlink(uint8_t dev_id, uint8_t port_id, uint8_t queues[], uint16_t nb_unlinks); /** * Retrieve the list of source event queues and its associated service priority * linked to the destination event port designated by its *port_id* * on the event device designated by its *dev_id*. * * @param dev_id * The identifier of the device. * * @param port_id * Event port identifier. * * @param[out] queues * Points to an array of *queues* for output. * The caller has to allocate *RTE_EVENT_MAX_QUEUES_PER_DEV* bytes to * store the event queue(s) linked with event port *port_id* * * @param[out] priorities * Points to an array of *priorities* for output. * The caller has to allocate *RTE_EVENT_MAX_QUEUES_PER_DEV* bytes to * store the service priority associated with each event queue linked * * @return * The number of links established on the event port designated by its * *port_id*. * - <0 on failure. * */ int rte_event_port_links_get(uint8_t dev_id, uint8_t port_id, uint8_t queues[], uint8_t priorities[]); /** * Dump internal information about *dev_id* to the FILE* provided in *f*. * * @param dev_id * The identifier of the device. * * @param f * A pointer to a file for output * * @return * - 0: on success * - <0: on failure. */ int rte_event_dev_dump(uint8_t dev_id, FILE *f); /** Maximum name length for extended statistics counters */ #define RTE_EVENT_DEV_XSTATS_NAME_SIZE 64 /** * Selects the component of the eventdev to retrieve statistics from. */ enum rte_event_dev_xstats_mode { RTE_EVENT_DEV_XSTATS_DEVICE, RTE_EVENT_DEV_XSTATS_PORT, RTE_EVENT_DEV_XSTATS_QUEUE, }; /** * A name-key lookup element for extended statistics. * * This structure is used to map between names and ID numbers * for extended ethdev statistics. */ struct rte_event_dev_xstats_name { char name[RTE_EVENT_DEV_XSTATS_NAME_SIZE]; }; /** * Retrieve names of extended statistics of an event device. * * @param dev_id * The identifier of the event device. * @param mode * The mode of statistics to retrieve. Choices include the device statistics, * port statistics or queue statistics. * @param queue_port_id * Used to specify the port or queue number in queue or port mode, and is * ignored in device mode. * @param[out] xstats_names * Block of memory to insert names into. Must be at least size in capacity. * If set to NULL, function returns required capacity. * @param[out] ids * Block of memory to insert ids into. Must be at least size in capacity. * If set to NULL, function returns required capacity. The id values returned * can be passed to *rte_event_dev_xstats_get* to select statistics. * @param size * Capacity of xstats_names (number of names). * @return * - positive value lower or equal to size: success. The return value * is the number of entries filled in the stats table. * - positive value higher than size: error, the given statistics table * is too small. The return value corresponds to the size that should * be given to succeed. The entries in the table are not valid and * shall not be used by the caller. * - negative value on error: * -ENODEV for invalid *dev_id* * -EINVAL for invalid mode, queue port or id parameters * -ENOTSUP if the device doesn't support this function. */ int rte_event_dev_xstats_names_get(uint8_t dev_id, enum rte_event_dev_xstats_mode mode, uint8_t queue_port_id, struct rte_event_dev_xstats_name *xstats_names, unsigned int *ids, unsigned int size); /** * Retrieve extended statistics of an event device. * * @param dev_id * The identifier of the device. * @param mode * The mode of statistics to retrieve. Choices include the device statistics, * port statistics or queue statistics. * @param queue_port_id * Used to specify the port or queue number in queue or port mode, and is * ignored in device mode. * @param ids * The id numbers of the stats to get. The ids can be got from the stat * position in the stat list from rte_event_dev_get_xstats_names(), or * by using rte_eventdev_get_xstats_by_name() * @param[out] values * The values for each stats request by ID. * @param n * The number of stats requested * @return * - positive value: number of stat entries filled into the values array * - negative value on error: * -ENODEV for invalid *dev_id* * -EINVAL for invalid mode, queue port or id parameters * -ENOTSUP if the device doesn't support this function. */ int rte_event_dev_xstats_get(uint8_t dev_id, enum rte_event_dev_xstats_mode mode, uint8_t queue_port_id, const unsigned int ids[], uint64_t values[], unsigned int n); /** * Retrieve the value of a single stat by requesting it by name. * * @param dev_id * The identifier of the device * @param name * The stat name to retrieve * @param[out] id * If non-NULL, the numerical id of the stat will be returned, so that further * requests for the stat can be got using rte_eventdev_xstats_get, which will * be faster as it doesn't need to scan a list of names for the stat. * If the stat cannot be found, the id returned will be (unsigned)-1. * @return * - positive value or zero: the stat value * - negative value: -EINVAL if stat not found, -ENOTSUP if not supported. */ uint64_t rte_event_dev_xstats_by_name_get(uint8_t dev_id, const char *name, unsigned int *id); /** * Reset the values of the xstats of the selected component in the device. * * @param dev_id * The identifier of the device * @param mode * The mode of the statistics to reset. Choose from device, queue or port. * @param queue_port_id * The queue or port to reset. 0 and positive values select ports and queues, * while -1 indicates all ports or queues. * @param ids * Selects specific statistics to be reset. When NULL, all statistics selected * by *mode* will be reset. If non-NULL, must point to array of at least * *nb_ids* size. * @param nb_ids * The number of ids available from the *ids* array. Ignored when ids is NULL. * @return * - zero: successfully reset the statistics to zero * - negative value: -EINVAL invalid parameters, -ENOTSUP if not supported. */ int rte_event_dev_xstats_reset(uint8_t dev_id, enum rte_event_dev_xstats_mode mode, int16_t queue_port_id, const uint32_t ids[], uint32_t nb_ids); #ifdef __cplusplus } #endif #endif /* _RTE_EVENTDEV_H_ */