/*- * BSD LICENSE * * Copyright 2017 Intel Corporation * Copyright 2017 NXP * Copyright 2017 Cavium * * 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 Intel Corporation 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 __INCLUDE_RTE_MTR_H__ #define __INCLUDE_RTE_MTR_H__ /** * @file * RTE Generic Traffic Metering and Policing API * * This interface provides the ability to configure the traffic metering and * policing (MTR) in a generic way. * * The processing done for each input packet hitting a MTR object is: * A) Traffic metering: The packet is assigned a color (the meter output * color), based on the previous history of the flow reflected in the * current state of the MTR object, according to the specific traffic * metering algorithm. The traffic metering algorithm can typically work * in color aware mode, in which case the input packet already has an * initial color (the input color), or in color blind mode, which is * equivalent to considering all input packets initially colored as green. * B) Policing: There is a separate policer action configured for each meter * output color, which can: * a) Drop the packet. * b) Keep the same packet color: the policer output color matches the * meter output color (essentially a no-op action). * c) Recolor the packet: the policer output color is different than * the meter output color. * The policer output color is the output color of the packet, which is * set in the packet meta-data (i.e. struct rte_mbuf::sched::color). * C) Statistics: The set of counters maintained for each MTR object is * configurable and subject to the implementation support. This set * includes the number of packets and bytes dropped or passed for each * output color. * * Once successfully created, an MTR object is linked to one or several flows * through the meter action of the flow API. * A) Whether an MTR object is private to a flow or potentially shared by * several flows has to be specified at creation time. * B) Several meter actions can be potentially registered for the same flow. * * @warning * @b EXPERIMENTAL: this API may change without prior notice */ #include #include #include #include #ifdef __cplusplus extern "C" { #endif /* New rte_color is defined and used to deprecate rte_mtr_color soon. */ #define rte_mtr_color rte_color #define RTE_MTR_GREEN RTE_COLOR_GREEN #define RTE_MTR_YELLOW RTE_COLOR_YELLOW #define RTE_MTR_RED RTE_COLOR_RED #define RTE_MTR_COLORS RTE_COLORS /** * Statistics counter type */ enum rte_mtr_stats_type { /** Number of packets passed as green by the policer. */ RTE_MTR_STATS_N_PKTS_GREEN = 1 << 0, /** Number of packets passed as yellow by the policer. */ RTE_MTR_STATS_N_PKTS_YELLOW = 1 << 1, /** Number of packets passed as red by the policer. */ RTE_MTR_STATS_N_PKTS_RED = 1 << 2, /** Number of packets dropped by the policer. */ RTE_MTR_STATS_N_PKTS_DROPPED = 1 << 3, /** Number of bytes passed as green by the policer. */ RTE_MTR_STATS_N_BYTES_GREEN = 1 << 4, /** Number of bytes passed as yellow by the policer. */ RTE_MTR_STATS_N_BYTES_YELLOW = 1 << 5, /** Number of bytes passed as red by the policer. */ RTE_MTR_STATS_N_BYTES_RED = 1 << 6, /** Number of bytes dropped by the policer. */ RTE_MTR_STATS_N_BYTES_DROPPED = 1 << 7, }; /** * Statistics counters */ struct rte_mtr_stats { /** Number of packets passed by the policer (per color). */ uint64_t n_pkts[RTE_MTR_COLORS]; /** Number of bytes passed by the policer (per color). */ uint64_t n_bytes[RTE_MTR_COLORS]; /** Number of packets dropped by the policer. */ uint64_t n_pkts_dropped; /** Number of bytes passed by the policer. */ uint64_t n_bytes_dropped; }; /** * Traffic metering algorithms */ enum rte_mtr_algorithm { /** No traffic metering performed, the output color is the same as the * input color for every input packet. The meter of the MTR object is * working in pass-through mode, having same effect as meter disable. * @see rte_mtr_meter_disable() */ RTE_MTR_NONE = 0, /** Single Rate Three Color Marker (srTCM) - IETF RFC 2697. */ RTE_MTR_SRTCM_RFC2697, /** Two Rate Three Color Marker (trTCM) - IETF RFC 2698. */ RTE_MTR_TRTCM_RFC2698, /** Two Rate Three Color Marker (trTCM) - IETF RFC 4115. */ RTE_MTR_TRTCM_RFC4115, }; /** * Meter profile */ struct rte_mtr_meter_profile { /** Traffic metering algorithm. */ enum rte_mtr_algorithm alg; RTE_STD_C11 union { /** Items only valid when *alg* is set to srTCM - RFC 2697. */ struct { /** Committed Information Rate (CIR) (bytes/second). */ uint64_t cir; /** Committed Burst Size (CBS) (bytes). */ uint64_t cbs; /** Excess Burst Size (EBS) (bytes). */ uint64_t ebs; } srtcm_rfc2697; /** Items only valid when *alg* is set to trTCM - RFC 2698. */ struct { /** Committed Information Rate (CIR) (bytes/second). */ uint64_t cir; /** Peak Information Rate (PIR) (bytes/second). */ uint64_t pir; /** Committed Burst Size (CBS) (byes). */ uint64_t cbs; /** Peak Burst Size (PBS) (bytes). */ uint64_t pbs; } trtcm_rfc2698; /** Items only valid when *alg* is set to trTCM - RFC 4115. */ struct { /** Committed Information Rate (CIR) (bytes/second). */ uint64_t cir; /** Excess Information Rate (EIR) (bytes/second). */ uint64_t eir; /** Committed Burst Size (CBS) (byes). */ uint64_t cbs; /** Excess Burst Size (EBS) (bytes). */ uint64_t ebs; } trtcm_rfc4115; }; }; /** * Policer actions */ enum rte_mtr_policer_action { /** Recolor the packet as green. */ MTR_POLICER_ACTION_COLOR_GREEN = 0, /** Recolor the packet as yellow. */ MTR_POLICER_ACTION_COLOR_YELLOW, /** Recolor the packet as red. */ MTR_POLICER_ACTION_COLOR_RED, /** Drop the packet. */ MTR_POLICER_ACTION_DROP, }; /** * Parameters for each traffic metering & policing object * * @see enum rte_mtr_stats_type */ struct rte_mtr_params { /** Meter profile ID. */ uint32_t meter_profile_id; /** Meter input color in case of MTR object chaining. When non-zero: if * a previous MTR object is enabled in the same flow, then the color * determined by the latest MTR object in the same flow is used as the * input color by the current MTR object, otherwise the current MTR * object uses the *dscp_table* to determine the input color. When zero: * the color determined by any previous MTR object in same flow is * ignored by the current MTR object, which uses the *dscp_table* to * determine the input color. */ int use_prev_mtr_color; /** Meter input color. When non-NULL: it points to a pre-allocated and * pre-populated table with exactly 64 elements providing the input * color for each value of the IPv4/IPv6 Differentiated Services Code * Point (DSCP) input packet field. When NULL: it is equivalent to * setting this parameter to an all-green populated table (i.e. table * with all the 64 elements set to green color). The color blind mode * is configured by setting *use_prev_mtr_color* to 0 and *dscp_table* * to either NULL or to an all-green populated table. When * *use_prev_mtr_color* is non-zero value or when *dscp_table* contains * at least one yellow or red color element, then the color aware mode * is configured. */ enum rte_mtr_color *dscp_table; /** Non-zero to enable the meter, zero to disable the meter at the time * of MTR object creation. Ignored when the meter profile indicated by * *meter_profile_id* is set to NONE. * @see rte_mtr_meter_disable() */ int meter_enable; /** Policer actions (per meter output color). */ enum rte_mtr_policer_action action[RTE_MTR_COLORS]; /** Set of stats counters to be enabled. * @see enum rte_mtr_stats_type */ uint64_t stats_mask; }; /** * MTR capabilities */ struct rte_mtr_capabilities { /** Maximum number of MTR objects. */ uint32_t n_max; /** Maximum number of MTR objects that can be shared by multiple flows. * The value of zero indicates that shared MTR objects are not * supported. The maximum value is *n_max*. */ uint32_t n_shared_max; /** When non-zero, this flag indicates that all the MTR objects that * cannot be shared by multiple flows have identical capability set. */ int identical; /** When non-zero, this flag indicates that all the MTR objects that * can be shared by multiple flows have identical capability set. */ int shared_identical; /** Maximum number of flows that can share the same MTR object. The * value of zero is invalid. The value of 1 means that shared MTR * objects not supported. */ uint32_t shared_n_flows_per_mtr_max; /** Maximum number of MTR objects that can be part of the same flow. The * value of zero is invalid. The value of 1 indicates that MTR object * chaining is not supported. The maximum value is *n_max*. */ uint32_t chaining_n_mtrs_per_flow_max; /** * When non-zero, it indicates that the packet color identified by one * MTR object can be used as the packet input color by any subsequent * MTR object from the same flow. When zero, it indicates that the color * determined by one MTR object is always ignored by any subsequent MTR * object from the same flow. Only valid when MTR chaining is supported, * i.e. *chaining_n_mtrs_per_flow_max* is greater than 1. When non-zero, * it also means that the color aware mode is supported by at least one * metering algorithm. */ int chaining_use_prev_mtr_color_supported; /** * When non-zero, it indicates that the packet color identified by one * MTR object is always used as the packet input color by any subsequent * MTR object that is part of the same flow. When zero, it indicates * that whether the color determined by one MTR object is either ignored * or used as the packet input color by any subsequent MTR object from * the same flow is individually configurable for each MTR object. Only * valid when *chaining_use_prev_mtr_color_supported* is non-zero. */ int chaining_use_prev_mtr_color_enforced; /** Maximum number of MTR objects that can have their meter configured * to run the srTCM RFC 2697 algorithm. The value of 0 indicates this * metering algorithm is not supported. The maximum value is *n_max*. */ uint32_t meter_srtcm_rfc2697_n_max; /** Maximum number of MTR objects that can have their meter configured * to run the trTCM RFC 2698 algorithm. The value of 0 indicates this * metering algorithm is not supported. The maximum value is *n_max*. */ uint32_t meter_trtcm_rfc2698_n_max; /** Maximum number of MTR objects that can have their meter configured * to run the trTCM RFC 4115 algorithm. The value of 0 indicates this * metering algorithm is not supported. The maximum value is *n_max*. */ uint32_t meter_trtcm_rfc4115_n_max; /** Maximum traffic rate that can be metered by a single MTR object. For * srTCM RFC 2697, this is the maximum CIR rate. For trTCM RFC 2698, * this is the maximum PIR rate. For trTCM RFC 4115, this is the maximum * value for the sum of PIR and EIR rates. */ uint64_t meter_rate_max; /** * When non-zero, it indicates that color aware mode is supported for * the srTCM RFC 2697 metering algorithm. */ int color_aware_srtcm_rfc2697_supported; /** * When non-zero, it indicates that color aware mode is supported for * the trTCM RFC 2698 metering algorithm. */ int color_aware_trtcm_rfc2698_supported; /** * When non-zero, it indicates that color aware mode is supported for * the trTCM RFC 4115 metering algorithm. */ int color_aware_trtcm_rfc4115_supported; /** When non-zero, it indicates that the policer packet recolor actions * are supported. * @see enum rte_mtr_policer_action */ int policer_action_recolor_supported; /** When non-zero, it indicates that the policer packet drop action is * supported. * @see enum rte_mtr_policer_action */ int policer_action_drop_supported; /** Set of supported statistics counter types. * @see enum rte_mtr_stats_type */ uint64_t stats_mask; }; /** * Verbose error types. * * Most of them provide the type of the object referenced by struct * rte_mtr_error::cause. */ enum rte_mtr_error_type { RTE_MTR_ERROR_TYPE_NONE, /**< No error. */ RTE_MTR_ERROR_TYPE_UNSPECIFIED, /**< Cause unspecified. */ RTE_MTR_ERROR_TYPE_METER_PROFILE_ID, RTE_MTR_ERROR_TYPE_METER_PROFILE, RTE_MTR_ERROR_TYPE_MTR_ID, RTE_MTR_ERROR_TYPE_MTR_PARAMS, RTE_MTR_ERROR_TYPE_POLICER_ACTION_GREEN, RTE_MTR_ERROR_TYPE_POLICER_ACTION_YELLOW, RTE_MTR_ERROR_TYPE_POLICER_ACTION_RED, RTE_MTR_ERROR_TYPE_STATS_MASK, RTE_MTR_ERROR_TYPE_STATS, RTE_MTR_ERROR_TYPE_SHARED, }; /** * Verbose error structure definition. * * This object is normally allocated by applications and set by PMDs, the * message points to a constant string which does not need to be freed by * the application, however its pointer can be considered valid only as long * as its associated DPDK port remains configured. Closing the underlying * device or unloading the PMD invalidates it. * * Both cause and message may be NULL regardless of the error type. */ struct rte_mtr_error { enum rte_mtr_error_type type; /**< Cause field and error type. */ const void *cause; /**< Object responsible for the error. */ const char *message; /**< Human-readable error message. */ }; /** * MTR capabilities get * * @param[in] port_id * The port identifier of the Ethernet device. * @param[out] cap * MTR capabilities. Needs to be pre-allocated and valid. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_capabilities_get(uint16_t port_id, struct rte_mtr_capabilities *cap, struct rte_mtr_error *error); /** * Meter profile add * * Create a new meter profile with ID set to *meter_profile_id*. The new profile * is used to create one or several MTR objects. * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] meter_profile_id * ID for the new meter profile. Needs to be unused by any of the existing * meter profiles added for the current port. * @param[in] profile * Meter profile parameters. Needs to be pre-allocated and valid. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_meter_profile_add(uint16_t port_id, uint32_t meter_profile_id, struct rte_mtr_meter_profile *profile, struct rte_mtr_error *error); /** * Meter profile delete * * Delete an existing meter profile. This operation fails when there is * currently at least one user (i.e. MTR object) of this profile. * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] meter_profile_id * Meter profile ID. Needs to be the valid. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_meter_profile_delete(uint16_t port_id, uint32_t meter_profile_id, struct rte_mtr_error *error); /** * MTR object create * * Create a new MTR object for the current port. This object is run as part of * associated flow action for traffic metering and policing. * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be unused by any of the existing MTR objects. * created for the current port. * @param[in] params * MTR object params. Needs to be pre-allocated and valid. * @param[in] shared * Non-zero when this MTR object can be shared by multiple flows, zero when * this MTR object can be used by a single flow. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. * * @see enum rte_flow_action_type::RTE_FLOW_ACTION_TYPE_METER */ int __rte_experimental rte_mtr_create(uint16_t port_id, uint32_t mtr_id, struct rte_mtr_params *params, int shared, struct rte_mtr_error *error); /** * MTR object destroy * * Delete an existing MTR object. This operation fails when there is currently * at least one user (i.e. flow) of this MTR object. * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be valid. * created for the current port. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_destroy(uint16_t port_id, uint32_t mtr_id, struct rte_mtr_error *error); /** * MTR object meter disable * * Disable the meter of an existing MTR object. In disabled state, the meter of * the current MTR object works in pass-through mode, meaning that for each * input packet the meter output color is always the same as the input color. In * particular, when the meter of the current MTR object is configured in color * blind mode, the input color is always green, so the meter output color is * also always green. Note that the policer and the statistics of the current * MTR object are working as usual while the meter is disabled. No action is * taken and this function returns successfully when the meter of the current * MTR object is already disabled. * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_meter_disable(uint16_t port_id, uint32_t mtr_id, struct rte_mtr_error *error); /** * MTR object meter enable * * Enable the meter of an existing MTR object. If the MTR object has its meter * already enabled, then no action is taken and this function returns * successfully. * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_meter_enable(uint16_t port_id, uint32_t mtr_id, struct rte_mtr_error *error); /** * MTR object meter profile update * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be valid. * @param[in] meter_profile_id * Meter profile ID for the current MTR object. Needs to be valid. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_meter_profile_update(uint16_t port_id, uint32_t mtr_id, uint32_t meter_profile_id, struct rte_mtr_error *error); /** * MTR object DSCP table update * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be valid. * @param[in] dscp_table * When non-NULL: it points to a pre-allocated and pre-populated table with * exactly 64 elements providing the input color for each value of the * IPv4/IPv6 Differentiated Services Code Point (DSCP) input packet field. * When NULL: it is equivalent to setting this parameter to an “all-green” * populated table (i.e. table with all the 64 elements set to green color). * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_meter_dscp_table_update(uint16_t port_id, uint32_t mtr_id, enum rte_mtr_color *dscp_table, struct rte_mtr_error *error); /** * MTR object policer actions update * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be valid. * @param[in] action_mask * Bit mask indicating which policer actions need to be updated. One or more * policer actions can be updated in a single function invocation. To update * the policer action associated with color C, bit (1 << C) needs to be set in * *action_mask* and element at position C in the *actions* array needs to be * valid. * @param[in] actions * Pre-allocated and pre-populated array of policer actions. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. */ int __rte_experimental rte_mtr_policer_actions_update(uint16_t port_id, uint32_t mtr_id, uint32_t action_mask, enum rte_mtr_policer_action *actions, struct rte_mtr_error *error); /** * MTR object enabled statistics counters update * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be valid. * @param[in] stats_mask * Mask of statistics counter types to be enabled for the current MTR object. * Any statistics counter type not included in this set is to be disabled for * the current MTR object. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. * * @see enum rte_mtr_stats_type */ int __rte_experimental rte_mtr_stats_update(uint16_t port_id, uint32_t mtr_id, uint64_t stats_mask, struct rte_mtr_error *error); /** * MTR object statistics counters read * * @param[in] port_id * The port identifier of the Ethernet device. * @param[in] mtr_id * MTR object ID. Needs to be valid. * @param[out] stats * When non-NULL, it contains the current value for the statistics counters * enabled for the current MTR object. * @param[out] stats_mask * When non-NULL, it contains the mask of statistics counter types that are * currently enabled for this MTR object, indicating which of the counters * retrieved with the *stats* structure are valid. * @param[in] clear * When this parameter has a non-zero value, the statistics counters are * cleared (i.e. set to zero) immediately after they have been read, * otherwise the statistics counters are left untouched. * @param[out] error * Error details. Filled in only on error, when not NULL. * @return * 0 on success, non-zero error code otherwise. * * @see enum rte_mtr_stats_type */ int __rte_experimental rte_mtr_stats_read(uint16_t port_id, uint32_t mtr_id, struct rte_mtr_stats *stats, uint64_t *stats_mask, int clear, struct rte_mtr_error *error); #ifdef __cplusplus } #endif #endif /* __INCLUDE_RTE_MTR_H__ */