/* Copyright (c) 2008-2012 Freescale Semiconductor, Inc * All rights reserved. * * 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 Freescale Semiconductor nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * * ALTERNATIVELY, this software may be distributed under the terms of the * GNU General Public License ("GPL") as published by the Free Software * Foundation, either version 2 of that License or (at your option) any * later version. * * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``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 Freescale Semiconductor 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. */ /**************************************************************************//** @File fm_pcd_ext.h @Description FM PCD API definitions *//***************************************************************************/ #ifndef __FM_PCD_EXT #define __FM_PCD_EXT #include "std_ext.h" #include "net_ext.h" #include "list_ext.h" #include "fm_ext.h" #include "fsl_fman_kg.h" /**************************************************************************//** @Group FM_grp Frame Manager API @Description Frame Manager Application Programming Interface @{ *//***************************************************************************/ /**************************************************************************//** @Group FM_PCD_grp FM PCD @Description Frame Manager PCD (Parse-Classify-Distribute) API. The FM PCD module is responsible for the initialization of all global classifying FM modules. This includes the parser general and common registers, the key generator global and common registers, and the policer global and common registers. In addition, the FM PCD SW module will initialize all required key generator schemes, coarse classification flows, and policer profiles. When FM module is configured to work with one of these entities, it will register to it using the FM PORT API. The PCD module will manage the PCD resources - i.e. resource management of KeyGen schemes, etc. @{ *//***************************************************************************/ /**************************************************************************//** @Collection General PCD defines *//***************************************************************************/ #define FM_PCD_MAX_NUM_OF_PRIVATE_HDRS 2 /**< Number of units/headers saved for user */ #define FM_PCD_PRS_NUM_OF_HDRS 16 /**< Number of headers supported by HW parser */ #define FM_PCD_MAX_NUM_OF_DISTINCTION_UNITS (32 - FM_PCD_MAX_NUM_OF_PRIVATE_HDRS) /**< Number of distinction units is limited by register size (32 bits) minus reserved bits for private headers. */ #define FM_PCD_MAX_NUM_OF_INTERCHANGEABLE_HDRS 4 /**< Maximum number of interchangeable headers in a distinction unit */ #define FM_PCD_KG_NUM_OF_GENERIC_REGS FM_KG_NUM_OF_GENERIC_REGS /**< Total number of generic KeyGen registers */ #define FM_PCD_KG_MAX_NUM_OF_EXTRACTS_PER_KEY 35 /**< Max number allowed on any configuration; For HW implementation reasons, in most cases less than this will be allowed; The driver will return an initialization error if resource is unavailable. */ #define FM_PCD_KG_NUM_OF_EXTRACT_MASKS 4 /**< Total number of masks allowed on KeyGen extractions. */ #define FM_PCD_KG_NUM_OF_DEFAULT_GROUPS 16 /**< Number of default value logical groups */ #define FM_PCD_PRS_NUM_OF_LABELS 32 /**< Maximum number of SW parser labels */ #define FM_SW_PRS_MAX_IMAGE_SIZE (FM_PCD_SW_PRS_SIZE /*- FM_PCD_PRS_SW_OFFSET -FM_PCD_PRS_SW_TAIL_SIZE*/-FM_PCD_PRS_SW_PATCHES_SIZE) /**< Maximum size of SW parser code */ #define FM_PCD_MAX_MANIP_INSRT_TEMPLATE_SIZE 128 /**< Maximum size of insertion template for insert manipulation */ #if (DPAA_VERSION >= 11) #define FM_PCD_FRM_REPLIC_MAX_NUM_OF_ENTRIES 64 /**< Maximum possible entries for frame replicator group */ #endif /* (DPAA_VERSION >= 11) */ /* @} */ /**************************************************************************//** @Group FM_PCD_init_grp FM PCD Initialization Unit @Description Frame Manager PCD Initialization Unit API @{ *//***************************************************************************/ /**************************************************************************//** @Description PCD counters *//***************************************************************************/ typedef enum e_FmPcdCounters { e_FM_PCD_KG_COUNTERS_TOTAL, /**< KeyGen counter */ e_FM_PCD_PLCR_COUNTERS_RED, /**< Policer counter - counts the total number of RED packets that exit the Policer. */ e_FM_PCD_PLCR_COUNTERS_YELLOW, /**< Policer counter - counts the total number of YELLOW packets that exit the Policer. */ e_FM_PCD_PLCR_COUNTERS_RECOLORED_TO_RED, /**< Policer counter - counts the number of packets that changed color to RED by the Policer; This is a subset of e_FM_PCD_PLCR_COUNTERS_RED packet count, indicating active color changes. */ e_FM_PCD_PLCR_COUNTERS_RECOLORED_TO_YELLOW, /**< Policer counter - counts the number of packets that changed color to YELLOW by the Policer; This is a subset of e_FM_PCD_PLCR_COUNTERS_YELLOW packet count, indicating active color changes. */ e_FM_PCD_PLCR_COUNTERS_TOTAL, /**< Policer counter - counts the total number of packets passed in the Policer. */ e_FM_PCD_PLCR_COUNTERS_LENGTH_MISMATCH, /**< Policer counter - counts the number of packets with length mismatch. */ e_FM_PCD_PRS_COUNTERS_PARSE_DISPATCH, /**< Parser counter - counts the number of times the parser block is dispatched. */ e_FM_PCD_PRS_COUNTERS_L2_PARSE_RESULT_RETURNED, /**< Parser counter - counts the number of times L2 parse result is returned (including errors). */ e_FM_PCD_PRS_COUNTERS_L3_PARSE_RESULT_RETURNED, /**< Parser counter - counts the number of times L3 parse result is returned (including errors). */ e_FM_PCD_PRS_COUNTERS_L4_PARSE_RESULT_RETURNED, /**< Parser counter - counts the number of times L4 parse result is returned (including errors). */ e_FM_PCD_PRS_COUNTERS_SHIM_PARSE_RESULT_RETURNED, /**< Parser counter - counts the number of times SHIM parse result is returned (including errors). */ e_FM_PCD_PRS_COUNTERS_L2_PARSE_RESULT_RETURNED_WITH_ERR, /**< Parser counter - counts the number of times L2 parse result is returned with errors. */ e_FM_PCD_PRS_COUNTERS_L3_PARSE_RESULT_RETURNED_WITH_ERR, /**< Parser counter - counts the number of times L3 parse result is returned with errors. */ e_FM_PCD_PRS_COUNTERS_L4_PARSE_RESULT_RETURNED_WITH_ERR, /**< Parser counter - counts the number of times L4 parse result is returned with errors. */ e_FM_PCD_PRS_COUNTERS_SHIM_PARSE_RESULT_RETURNED_WITH_ERR, /**< Parser counter - counts the number of times SHIM parse result is returned with errors. */ e_FM_PCD_PRS_COUNTERS_SOFT_PRS_CYCLES, /**< Parser counter - counts the number of cycles spent executing soft parser instruction (including stall cycles). */ e_FM_PCD_PRS_COUNTERS_SOFT_PRS_STALL_CYCLES, /**< Parser counter - counts the number of cycles stalled waiting for parser internal memory reads while executing soft parser instruction. */ e_FM_PCD_PRS_COUNTERS_HARD_PRS_CYCLE_INCL_STALL_CYCLES, /**< Parser counter - counts the number of cycles spent executing hard parser (including stall cycles). */ e_FM_PCD_PRS_COUNTERS_MURAM_READ_CYCLES, /**< MURAM counter - counts the number of cycles while performing FMan Memory read. */ e_FM_PCD_PRS_COUNTERS_MURAM_READ_STALL_CYCLES, /**< MURAM counter - counts the number of cycles stalled while performing FMan Memory read. */ e_FM_PCD_PRS_COUNTERS_MURAM_WRITE_CYCLES, /**< MURAM counter - counts the number of cycles while performing FMan Memory write. */ e_FM_PCD_PRS_COUNTERS_MURAM_WRITE_STALL_CYCLES, /**< MURAM counter - counts the number of cycles stalled while performing FMan Memory write. */ e_FM_PCD_PRS_COUNTERS_FPM_COMMAND_STALL_CYCLES /**< FPM counter - counts the number of cycles stalled while performing a FPM Command. */ } e_FmPcdCounters; /**************************************************************************//** @Description PCD interrupts *//***************************************************************************/ typedef enum e_FmPcdExceptions { e_FM_PCD_KG_EXCEPTION_DOUBLE_ECC, /**< KeyGen double-bit ECC error is detected on internal memory read access. */ e_FM_PCD_KG_EXCEPTION_KEYSIZE_OVERFLOW, /**< KeyGen scheme configuration error indicating a key size larger than 56 bytes. */ e_FM_PCD_PLCR_EXCEPTION_DOUBLE_ECC, /**< Policer double-bit ECC error has been detected on PRAM read access. */ e_FM_PCD_PLCR_EXCEPTION_INIT_ENTRY_ERROR, /**< Policer access to a non-initialized profile has been detected. */ e_FM_PCD_PLCR_EXCEPTION_PRAM_SELF_INIT_COMPLETE, /**< Policer RAM self-initialization complete */ e_FM_PCD_PLCR_EXCEPTION_ATOMIC_ACTION_COMPLETE, /**< Policer atomic action complete */ e_FM_PCD_PRS_EXCEPTION_DOUBLE_ECC, /**< Parser double-bit ECC error */ e_FM_PCD_PRS_EXCEPTION_SINGLE_ECC /**< Parser single-bit ECC error */ } e_FmPcdExceptions; /**************************************************************************//** @Description Exceptions user callback routine, will be called upon an exception passing the exception identification. @Param[in] h_App - User's application descriptor. @Param[in] exception - The exception. *//***************************************************************************/ typedef void (t_FmPcdExceptionCallback) (t_Handle h_App, e_FmPcdExceptions exception); /**************************************************************************//** @Description Exceptions user callback routine, will be called upon an exception passing the exception identification. @Param[in] h_App - User's application descriptor. @Param[in] exception - The exception. @Param[in] index - id of the relevant source (may be scheme or profile id). *//***************************************************************************/ typedef void (t_FmPcdIdExceptionCallback) ( t_Handle h_App, e_FmPcdExceptions exception, uint16_t index); /**************************************************************************//** @Description A callback for enqueuing frame onto a QM queue. @Param[in] h_QmArg - Application's handle passed to QM module on enqueue. @Param[in] p_Fd - Frame descriptor for the frame. @Return E_OK on success; Error code otherwise. *//***************************************************************************/ typedef t_Error (t_FmPcdQmEnqueueCallback) (t_Handle h_QmArg, void *p_Fd); /**************************************************************************//** @Description Host-Command parameters structure. When using Host command for PCD functionalities, a dedicated port must be used. If this routine is called for a PCD in a single partition environment, or it is the Master partition in a Multi-partition environment, The port will be initialized by the PCD driver initialization routine. *//***************************************************************************/ typedef struct t_FmPcdHcParams { uintptr_t portBaseAddr; /**< Virtual Address of Host-Command Port memory mapped registers.*/ uint8_t portId; /**< Port Id (0-6 relative to Host-Command/Offline-Parsing ports); NOTE: When configuring Host Command port for FMANv3 devices (DPAA_VERSION 11 and higher), portId=0 MUST be used. */ uint16_t liodnBase; /**< LIODN base for this port, to be used together with LIODN offset (irrelevant for P4080 revision 1.0) */ uint32_t errFqid; /**< Host-Command Port error queue Id. */ uint32_t confFqid; /**< Host-Command Port confirmation queue Id. */ uint32_t qmChannel; /**< QM channel dedicated to this Host-Command port; will be used by the FM for dequeue. */ t_FmPcdQmEnqueueCallback *f_QmEnqueue; /**< Callback routine for enqueuing a frame to the QM */ t_Handle h_QmArg; /**< Application's handle passed to QM module on enqueue */ } t_FmPcdHcParams; /**************************************************************************//** @Description The main structure for PCD initialization *//***************************************************************************/ typedef struct t_FmPcdParams { bool prsSupport; /**< TRUE if Parser will be used for any of the FM ports. */ bool ccSupport; /**< TRUE if Coarse Classification will be used for any of the FM ports. */ bool kgSupport; /**< TRUE if KeyGen will be used for any of the FM ports. */ bool plcrSupport; /**< TRUE if Policer will be used for any of the FM ports. */ t_Handle h_Fm; /**< A handle to the FM module. */ uint8_t numOfSchemes; /**< Number of schemes dedicated to this partition. this parameter is relevant if 'kgSupport'=TRUE. */ bool useHostCommand; /**< Optional for single partition, Mandatory for Multi partition */ t_FmPcdHcParams hc; /**< Host Command parameters, relevant only if 'useHostCommand'=TRUE; Relevant when FM not runs in "guest-mode". */ t_FmPcdExceptionCallback *f_Exception; /**< Callback routine for general PCD exceptions; Relevant when FM not runs in "guest-mode". */ t_FmPcdIdExceptionCallback *f_ExceptionId; /**< Callback routine for specific KeyGen scheme or Policer profile exceptions; Relevant when FM not runs in "guest-mode". */ t_Handle h_App; /**< A handle to an application layer object; This handle will be passed by the driver upon calling the above callbacks; Relevant when FM not runs in "guest-mode". */ uint8_t partPlcrProfilesBase; /**< The first policer-profile-id dedicated to this partition. this parameter is relevant if 'plcrSupport'=TRUE. NOTE: this parameter relevant only when working with multiple partitions. */ uint16_t partNumOfPlcrProfiles; /**< Number of policer-profiles dedicated to this partition. this parameter is relevant if 'plcrSupport'=TRUE. NOTE: this parameter relevant only when working with multiple partitions. */ } t_FmPcdParams; /**************************************************************************//** @Function FM_PCD_Config @Description Basic configuration of the PCD module. Creates descriptor for the FM PCD module. @Param[in] p_FmPcdParams A structure of parameters for the initialization of PCD. @Return A handle to the initialized module. *//***************************************************************************/ t_Handle FM_PCD_Config(t_FmPcdParams *p_FmPcdParams); /**************************************************************************//** @Function FM_PCD_Init @Description Initialization of the PCD module. @Param[in] h_FmPcd - FM PCD module descriptor. @Return E_OK on success; Error code otherwise. *//***************************************************************************/ t_Error FM_PCD_Init(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_Free @Description Frees all resources that were assigned to FM module. Calling this routine invalidates the descriptor. @Param[in] h_FmPcd - FM PCD module descriptor. @Return E_OK on success; Error code otherwise. *//***************************************************************************/ t_Error FM_PCD_Free(t_Handle h_FmPcd); /**************************************************************************//** @Group FM_PCD_advanced_cfg_grp FM PCD Advanced Configuration Unit @Description Frame Manager PCD Advanced Configuration API. @{ *//***************************************************************************/ /**************************************************************************//** @Function FM_PCD_ConfigException @Description Calling this routine changes the internal driver data base from its default selection of exceptions enabling. [DEFAULT_numOfSharedPlcrProfiles]. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] exception The exception to be selected. @Param[in] enable TRUE to enable interrupt, FALSE to mask it. @Return E_OK on success; Error code otherwise. @Cautions This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_ConfigException(t_Handle h_FmPcd, e_FmPcdExceptions exception, bool enable); /**************************************************************************//** @Function FM_PCD_ConfigHcFramesDataMemory @Description Configures memory-partition-id for FMan-Controller Host-Command frames. Calling this routine changes the internal driver data base from its default configuration [0]. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] memId Memory partition ID. @Return E_OK on success; Error code otherwise. @Cautions This routine may be called only if 'useHostCommand' was TRUE when FM_PCD_Config() routine was called. *//***************************************************************************/ t_Error FM_PCD_ConfigHcFramesDataMemory(t_Handle h_FmPcd, uint8_t memId); /**************************************************************************//** @Function FM_PCD_ConfigPlcrNumOfSharedProfiles @Description Calling this routine changes the internal driver data base from its default selection of exceptions enablement. [DEFAULT_numOfSharedPlcrProfiles]. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] numOfSharedPlcrProfiles Number of profiles to be shared between ports on this partition @Return E_OK on success; Error code otherwise. *//***************************************************************************/ t_Error FM_PCD_ConfigPlcrNumOfSharedProfiles(t_Handle h_FmPcd, uint16_t numOfSharedPlcrProfiles); /**************************************************************************//** @Function FM_PCD_ConfigPlcrAutoRefreshMode @Description Calling this routine changes the internal driver data base from its default selection of exceptions enablement. By default auto-refresh is [DEFAULT_plcrAutoRefresh]. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] enable TRUE to enable, FALSE to disable @Return E_OK on success; Error code otherwise. @Cautions This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_ConfigPlcrAutoRefreshMode(t_Handle h_FmPcd, bool enable); /**************************************************************************//** @Function FM_PCD_ConfigPrsMaxCycleLimit @Description Calling this routine changes the internal data structure for the maximum parsing time from its default value [DEFAULT_MAX_PRS_CYC_LIM]. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] value 0 to disable the mechanism, or new maximum parsing time. @Return E_OK on success; Error code otherwise. @Cautions This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_ConfigPrsMaxCycleLimit(t_Handle h_FmPcd,uint16_t value); /** @} */ /* end of FM_PCD_advanced_cfg_grp group */ /** @} */ /* end of FM_PCD_init_grp group */ /**************************************************************************//** @Group FM_PCD_Runtime_grp FM PCD Runtime Unit @Description Frame Manager PCD Runtime Unit API The runtime control allows creation of PCD infrastructure modules such as Network Environment Characteristics, Classification Plan Groups and Coarse Classification Trees. It also allows on-the-fly initialization, modification and removal of PCD modules such as KeyGen schemes, coarse classification nodes and Policer profiles. In order to explain the programming model of the PCD driver interface a few terms should be explained, and will be used below. - Distinction Header - One of the 16 protocols supported by the FM parser, or one of the SHIM headers (1 or 2). May be a header with a special option (see below). - Interchangeable Headers Group - This is a group of Headers recognized by either one of them. For example, if in a specific context the user chooses to treat IPv4 and IPV6 in the same way, they may create an interchangeable Headers Unit consisting of these 2 headers. - A Distinction Unit - a Distinction Header or an Interchangeable Headers Group. - Header with special option - applies to Ethernet, MPLS, VLAN, IPv4 and IPv6, includes multicast, broadcast and other protocol specific options. In terms of hardware it relates to the options available in the classification plan. - Network Environment Characteristics - a set of Distinction Units that define the total recognizable header selection for a certain environment. This is NOT the list of all headers that will ever appear in a flow, but rather everything that needs distinction in a flow, where distinction is made by KeyGen schemes and coarse classification action descriptors. The PCD runtime modules initialization is done in stages. The first stage after initializing the PCD module itself is to establish a Network Flows Environment Definition. The application may choose to establish one or more such environments. Later, when needed, the application will have to state, for some of its modules, to which single environment it belongs. @{ *//***************************************************************************/ /**************************************************************************//** @Description A structure for SW parser labels *//***************************************************************************/ typedef struct t_FmPcdPrsLabelParams { uint32_t instructionOffset; /**< SW parser label instruction offset (2 bytes resolution), relative to Parser RAM. */ e_NetHeaderType hdr; /**< The existence of this header will invoke the SW parser code; Use HEADER_TYPE_NONE to indicate that sw parser is to run independent of the existence of any protocol (run before HW parser). */ uint8_t indexPerHdr; /**< Normally 0, if more than one SW parser attachments for the same header, use this index to distinguish between them. */ } t_FmPcdPrsLabelParams; /**************************************************************************//** @Description A structure for SW parser *//***************************************************************************/ typedef struct t_FmPcdPrsSwParams { bool override; /**< FALSE to invoke a check that nothing else was loaded to this address, including internal patches. TRUE to override any existing code.*/ uint32_t size; /**< SW parser code size */ uint16_t base; /**< SW parser base (in instruction counts! must be larger than 0x20)*/ uint8_t *p_Code; /**< SW parser code */ uint32_t swPrsDataParams[FM_PCD_PRS_NUM_OF_HDRS]; /**< SW parser data (parameters) */ uint8_t numOfLabels; /**< Number of labels for SW parser. */ t_FmPcdPrsLabelParams labelsTable[FM_PCD_PRS_NUM_OF_LABELS]; /**< SW parser labels table, containing numOfLabels entries */ } t_FmPcdPrsSwParams; /**************************************************************************//** @Function FM_PCD_Enable @Description This routine should be called after PCD is initialized for enabling all PCD engines according to their existing configuration. @Param[in] h_FmPcd FM PCD module descriptor. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() and when PCD is disabled. *//***************************************************************************/ t_Error FM_PCD_Enable(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_Disable @Description This routine may be called when PCD is enabled in order to disable all PCD engines. It may be called only when none of the ports in the system are using the PCD. @Param[in] h_FmPcd FM PCD module descriptor. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() and when PCD is enabled. *//***************************************************************************/ t_Error FM_PCD_Disable(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_GetCounter @Description Reads one of the FM PCD counters. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] counter The requested counter. @Return Counter's current value. @Cautions Allowed only following FM_PCD_Init(). Note that it is user's responsibility to call this routine only for enabled counters, and there will be no indication if a disabled counter is accessed. *//***************************************************************************/ uint32_t FM_PCD_GetCounter(t_Handle h_FmPcd, e_FmPcdCounters counter); /**************************************************************************//** @Function FM_PCD_PrsLoadSw @Description This routine may be called in order to load software parsing code. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_SwPrs A pointer to a structure of software parser parameters, including the software parser image. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() and when PCD is disabled. This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_PrsLoadSw(t_Handle h_FmPcd, t_FmPcdPrsSwParams *p_SwPrs); /**************************************************************************//** @Function FM_PCD_SetAdvancedOffloadSupport @Description This routine must be called in order to support the following features: IP-fragmentation, IP-reassembly, IPsec, Header-manipulation, frame-replicator. @Param[in] h_FmPcd FM PCD module descriptor. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() and when PCD is disabled. This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_SetAdvancedOffloadSupport(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_KgSetDfltValue @Description Calling this routine sets a global default value to be used by the KeyGen when parser does not recognize a required field/header. By default default values are 0. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] valueId 0,1 - one of 2 global default values. @Param[in] value The requested default value. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() and when PCD is disabled. This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_KgSetDfltValue(t_Handle h_FmPcd, uint8_t valueId, uint32_t value); /**************************************************************************//** @Function FM_PCD_KgSetAdditionalDataAfterParsing @Description Calling this routine allows the KeyGen to access data past the parser finishing point. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] payloadOffset the number of bytes beyond the parser location. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() and when PCD is disabled. This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_KgSetAdditionalDataAfterParsing(t_Handle h_FmPcd, uint8_t payloadOffset); /**************************************************************************//** @Function FM_PCD_SetException @Description Calling this routine enables/disables PCD interrupts. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] exception The exception to be selected. @Param[in] enable TRUE to enable interrupt, FALSE to mask it. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_SetException(t_Handle h_FmPcd, e_FmPcdExceptions exception, bool enable); /**************************************************************************//** @Function FM_PCD_ModifyCounter @Description Sets a value to an enabled counter. Use "0" to reset the counter. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] counter The requested counter. @Param[in] value The requested value to be written into the counter. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_ModifyCounter(t_Handle h_FmPcd, e_FmPcdCounters counter, uint32_t value); /**************************************************************************//** @Function FM_PCD_SetPlcrStatistics @Description This routine may be used to enable/disable policer statistics counter. By default the statistics is enabled. @Param[in] h_FmPcd FM PCD module descriptor @Param[in] enable TRUE to enable, FALSE to disable. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_SetPlcrStatistics(t_Handle h_FmPcd, bool enable); /**************************************************************************//** @Function FM_PCD_SetPrsStatistics @Description Defines whether to gather parser statistics including all ports. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] enable TRUE to enable, FALSE to disable. @Return None @Cautions Allowed only following FM_PCD_Init(). This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ void FM_PCD_SetPrsStatistics(t_Handle h_FmPcd, bool enable); /**************************************************************************//** @Function FM_PCD_HcTxConf @Description This routine should be called to confirm frames that were received on the HC confirmation queue. @Param[in] h_FmPcd A handle to an FM PCD Module. @Param[in] p_Fd Frame descriptor of the received frame. @Cautions Allowed only following FM_PCD_Init(). Allowed only if 'useHostCommand' option was selected in the initialization. *//***************************************************************************/ void FM_PCD_HcTxConf(t_Handle h_FmPcd, t_DpaaFD *p_Fd); /**************************************************************************//* @Function FM_PCD_ForceIntr @Description Causes an interrupt event on the requested source. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] exception An exception to be forced. @Return E_OK on success; Error code if the exception is not enabled, or is not able to create interrupt. @Cautions Allowed only following FM_PCD_Init(). This routine should NOT be called from guest-partition (i.e. guestId != NCSW_MASTER_ID) *//***************************************************************************/ t_Error FM_PCD_ForceIntr (t_Handle h_FmPcd, e_FmPcdExceptions exception); #if (defined(DEBUG_ERRORS) && (DEBUG_ERRORS > 0)) /**************************************************************************//** @Function FM_PCD_DumpRegs @Description Dumps all PCD registers @Param[in] h_FmPcd A handle to an FM PCD Module. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). NOTE: this routine may be called only for FM in master mode (i.e. 'guestId'=NCSW_MASTER_ID) or in a case that the registers are mapped. *//***************************************************************************/ t_Error FM_PCD_DumpRegs(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_KgDumpRegs @Description Dumps all PCD KG registers @Param[in] h_FmPcd A handle to an FM PCD Module. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). NOTE: this routine may be called only for FM in master mode (i.e. 'guestId'=NCSW_MASTER_ID) or in a case that the registers are mapped. *//***************************************************************************/ t_Error FM_PCD_KgDumpRegs(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_PlcrDumpRegs @Description Dumps all PCD Policer registers @Param[in] h_FmPcd A handle to an FM PCD Module. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). NOTE: this routine may be called only for FM in master mode (i.e. 'guestId'=NCSW_MASTER_ID) or in a case that the registers are mapped. *//***************************************************************************/ t_Error FM_PCD_PlcrDumpRegs(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_PlcrProfileDumpRegs @Description Dumps all PCD Policer profile registers @Param[in] h_Profile A handle to a Policer profile. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). NOTE: this routine may be called only for FM in master mode (i.e. 'guestId'=NCSW_MASTER_ID) or in a case that the registers are mapped. *//***************************************************************************/ t_Error FM_PCD_PlcrProfileDumpRegs(t_Handle h_Profile); /**************************************************************************//** @Function FM_PCD_PrsDumpRegs @Description Dumps all PCD Parser registers @Param[in] h_FmPcd A handle to an FM PCD Module. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). NOTE: this routine may be called only for FM in master mode (i.e. 'guestId'=NCSW_MASTER_ID) or in a case that the registers are mapped. *//***************************************************************************/ t_Error FM_PCD_PrsDumpRegs(t_Handle h_FmPcd); /**************************************************************************//** @Function FM_PCD_HcDumpRegs @Description Dumps HC Port registers @Param[in] h_FmPcd A handle to an FM PCD Module. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). NOTE: this routine may be called only for FM in master mode (i.e. 'guestId'=NCSW_MASTER_ID). *//***************************************************************************/ t_Error FM_PCD_HcDumpRegs(t_Handle h_FmPcd); #endif /* (defined(DEBUG_ERRORS) && ... */ /**************************************************************************//** KeyGen FM_PCD_Runtime_build_grp FM PCD Runtime Building Unit @Description Frame Manager PCD Runtime Building API This group contains routines for setting, deleting and modifying PCD resources, for defining the total PCD tree. @{ *//***************************************************************************/ /**************************************************************************//** @Collection Definitions of coarse classification parameters as required by KeyGen (when coarse classification is the next engine after this scheme). *//***************************************************************************/ #define FM_PCD_MAX_NUM_OF_CC_TREES 8 #define FM_PCD_MAX_NUM_OF_CC_GROUPS 16 #define FM_PCD_MAX_NUM_OF_CC_UNITS 4 #define FM_PCD_MAX_NUM_OF_KEYS 256 #define FM_PCD_MAX_NUM_OF_FLOWS (4*KILOBYTE) #define FM_PCD_MAX_SIZE_OF_KEY 56 #define FM_PCD_MAX_NUM_OF_CC_ENTRIES_IN_GRP 16 #define FM_PCD_LAST_KEY_INDEX 0xffff #define FM_PCD_MAX_NUM_OF_CC_NODES 255 /* Obsolete, not used - will be removed in the future */ /* @} */ /**************************************************************************//** @Collection A set of definitions to allow protocol special option description. *//***************************************************************************/ typedef uint32_t protocolOpt_t; /**< A general type to define a protocol option. */ typedef protocolOpt_t ethProtocolOpt_t; /**< Ethernet protocol options. */ #define ETH_BROADCAST 0x80000000 /**< Ethernet Broadcast. */ #define ETH_MULTICAST 0x40000000 /**< Ethernet Multicast. */ typedef protocolOpt_t vlanProtocolOpt_t; /**< VLAN protocol options. */ #define VLAN_STACKED 0x20000000 /**< Stacked VLAN. */ typedef protocolOpt_t mplsProtocolOpt_t; /**< MPLS protocol options. */ #define MPLS_STACKED 0x10000000 /**< Stacked MPLS. */ typedef protocolOpt_t ipv4ProtocolOpt_t; /**< IPv4 protocol options. */ #define IPV4_BROADCAST_1 0x08000000 /**< IPv4 Broadcast. */ #define IPV4_MULTICAST_1 0x04000000 /**< IPv4 Multicast. */ #define IPV4_UNICAST_2 0x02000000 /**< Tunneled IPv4 - Unicast. */ #define IPV4_MULTICAST_BROADCAST_2 0x01000000 /**< Tunneled IPv4 - Broadcast/Multicast. */ #define IPV4_FRAG_1 0x00000008 /**< IPV4 reassembly option. IPV4 Reassembly manipulation requires network environment with IPV4 header and IPV4_FRAG_1 option */ typedef protocolOpt_t ipv6ProtocolOpt_t; /**< IPv6 protocol options. */ #define IPV6_MULTICAST_1 0x00800000 /**< IPv6 Multicast. */ #define IPV6_UNICAST_2 0x00400000 /**< Tunneled IPv6 - Unicast. */ #define IPV6_MULTICAST_2 0x00200000 /**< Tunneled IPv6 - Multicast. */ #define IPV6_FRAG_1 0x00000004 /**< IPV6 reassembly option. IPV6 Reassembly manipulation requires network environment with IPV6 header and IPV6_FRAG_1 option; in case where fragment found, the fragment-extension offset may be found at 'shim2' (in parser-result). */ #if (DPAA_VERSION >= 11) typedef protocolOpt_t capwapProtocolOpt_t; /**< CAPWAP protocol options. */ #define CAPWAP_FRAG_1 0x00000008 /**< CAPWAP reassembly option. CAPWAP Reassembly manipulation requires network environment with CAPWAP header and CAPWAP_FRAG_1 option; in case where fragment found, the fragment-extension offset may be found at 'shim2' (in parser-result). */ #endif /* (DPAA_VERSION >= 11) */ /* @} */ #define FM_PCD_MANIP_MAX_HDR_SIZE 256 #define FM_PCD_MANIP_DSCP_TO_VLAN_TRANS 64 /**************************************************************************//** @Collection A set of definitions to support Header Manipulation selection. *//***************************************************************************/ typedef uint32_t hdrManipFlags_t; /**< A general type to define a HMan update command flags. */ typedef hdrManipFlags_t ipv4HdrManipUpdateFlags_t; /**< IPv4 protocol HMan update command flags. */ #define HDR_MANIP_IPV4_TOS 0x80000000 /**< update TOS with the given value ('tos' field of t_FmPcdManipHdrFieldUpdateIpv4) */ #define HDR_MANIP_IPV4_ID 0x40000000 /**< update IP ID with the given value ('id' field of t_FmPcdManipHdrFieldUpdateIpv4) */ #define HDR_MANIP_IPV4_TTL 0x20000000 /**< Decrement TTL by 1 */ #define HDR_MANIP_IPV4_SRC 0x10000000 /**< update IP source address with the given value ('src' field of t_FmPcdManipHdrFieldUpdateIpv4) */ #define HDR_MANIP_IPV4_DST 0x08000000 /**< update IP destination address with the given value ('dst' field of t_FmPcdManipHdrFieldUpdateIpv4) */ typedef hdrManipFlags_t ipv6HdrManipUpdateFlags_t; /**< IPv6 protocol HMan update command flags. */ #define HDR_MANIP_IPV6_TC 0x80000000 /**< update Traffic Class address with the given value ('trafficClass' field of t_FmPcdManipHdrFieldUpdateIpv6) */ #define HDR_MANIP_IPV6_HL 0x40000000 /**< Decrement Hop Limit by 1 */ #define HDR_MANIP_IPV6_SRC 0x20000000 /**< update IP source address with the given value ('src' field of t_FmPcdManipHdrFieldUpdateIpv6) */ #define HDR_MANIP_IPV6_DST 0x10000000 /**< update IP destination address with the given value ('dst' field of t_FmPcdManipHdrFieldUpdateIpv6) */ typedef hdrManipFlags_t tcpUdpHdrManipUpdateFlags_t;/**< TCP/UDP protocol HMan update command flags. */ #define HDR_MANIP_TCP_UDP_SRC 0x80000000 /**< update TCP/UDP source address with the given value ('src' field of t_FmPcdManipHdrFieldUpdateTcpUdp) */ #define HDR_MANIP_TCP_UDP_DST 0x40000000 /**< update TCP/UDP destination address with the given value ('dst' field of t_FmPcdManipHdrFieldUpdateTcpUdp) */ #define HDR_MANIP_TCP_UDP_CHECKSUM 0x20000000 /**< update TCP/UDP checksum */ /* @} */ /**************************************************************************//** @Description A type used for returning the order of the key extraction. each value in this array represents the index of the extraction command as defined by the user in the initialization extraction array. The valid size of this array is the user define number of extractions required (also marked by the second '0' in this array). *//***************************************************************************/ typedef uint8_t t_FmPcdKgKeyOrder [FM_PCD_KG_MAX_NUM_OF_EXTRACTS_PER_KEY]; /**************************************************************************//** @Description All PCD engines *//***************************************************************************/ typedef enum e_FmPcdEngine { e_FM_PCD_INVALID = 0, /**< Invalid PCD engine */ e_FM_PCD_DONE, /**< No PCD Engine indicated */ e_FM_PCD_KG, /**< KeyGen */ e_FM_PCD_CC, /**< Coarse classifier */ e_FM_PCD_PLCR, /**< Policer */ e_FM_PCD_PRS, /**< Parser */ #if (DPAA_VERSION >= 11) e_FM_PCD_FR, /**< Frame-Replicator */ #endif /* (DPAA_VERSION >= 11) */ e_FM_PCD_HASH /**< Hash table */ } e_FmPcdEngine; /**************************************************************************//** @Description Enumeration type for selecting extraction by header types *//***************************************************************************/ typedef enum e_FmPcdExtractByHdrType { e_FM_PCD_EXTRACT_FROM_HDR, /**< Extract bytes from header */ e_FM_PCD_EXTRACT_FROM_FIELD, /**< Extract bytes from header field */ e_FM_PCD_EXTRACT_FULL_FIELD /**< Extract a full field */ } e_FmPcdExtractByHdrType; /**************************************************************************//** @Description Enumeration type for selecting extraction source (when it is not the header) *//***************************************************************************/ typedef enum e_FmPcdExtractFrom { e_FM_PCD_EXTRACT_FROM_FRAME_START, /**< KG & CC: Extract from beginning of frame */ e_FM_PCD_EXTRACT_FROM_DFLT_VALUE, /**< KG only: Extract from a default value */ e_FM_PCD_EXTRACT_FROM_CURR_END_OF_PARSE, /**< KG & CC: Extract from the point where parsing had finished */ e_FM_PCD_EXTRACT_FROM_KEY, /**< CC only: Field where saved KEY */ e_FM_PCD_EXTRACT_FROM_HASH, /**< CC only: Field where saved HASH */ e_FM_PCD_EXTRACT_FROM_PARSE_RESULT, /**< KG only: Extract from the parser result */ e_FM_PCD_EXTRACT_FROM_ENQ_FQID, /**< KG & CC: Extract from enqueue FQID */ e_FM_PCD_EXTRACT_FROM_FLOW_ID /**< CC only: Field where saved Dequeue FQID */ } e_FmPcdExtractFrom; /**************************************************************************//** @Description Enumeration type for selecting extraction type *//***************************************************************************/ typedef enum e_FmPcdExtractType { e_FM_PCD_EXTRACT_BY_HDR, /**< Extract according to header */ e_FM_PCD_EXTRACT_NON_HDR, /**< Extract from data that is not the header */ e_FM_PCD_KG_EXTRACT_PORT_PRIVATE_INFO /**< Extract private info as specified by user */ } e_FmPcdExtractType; /**************************************************************************//** @Description Enumeration type for selecting default extraction value *//***************************************************************************/ typedef enum e_FmPcdKgExtractDfltSelect { e_FM_PCD_KG_DFLT_GBL_0, /**< Default selection is KG register 0 */ e_FM_PCD_KG_DFLT_GBL_1, /**< Default selection is KG register 1 */ e_FM_PCD_KG_DFLT_PRIVATE_0, /**< Default selection is a per scheme register 0 */ e_FM_PCD_KG_DFLT_PRIVATE_1, /**< Default selection is a per scheme register 1 */ e_FM_PCD_KG_DFLT_ILLEGAL /**< Illegal selection */ } e_FmPcdKgExtractDfltSelect; /**************************************************************************//** @Description Enumeration type defining all default groups - each group shares a default value, one of four user-initialized values. *//***************************************************************************/ typedef enum e_FmPcdKgKnownFieldsDfltTypes { e_FM_PCD_KG_MAC_ADDR, /**< MAC Address */ e_FM_PCD_KG_TCI, /**< TCI field */ e_FM_PCD_KG_ENET_TYPE, /**< ENET Type */ e_FM_PCD_KG_PPP_SESSION_ID, /**< PPP Session id */ e_FM_PCD_KG_PPP_PROTOCOL_ID, /**< PPP Protocol id */ e_FM_PCD_KG_MPLS_LABEL, /**< MPLS label */ e_FM_PCD_KG_IP_ADDR, /**< IP address */ e_FM_PCD_KG_PROTOCOL_TYPE, /**< Protocol type */ e_FM_PCD_KG_IP_TOS_TC, /**< TOS or TC */ e_FM_PCD_KG_IPV6_FLOW_LABEL, /**< IPV6 flow label */ e_FM_PCD_KG_IPSEC_SPI, /**< IPSEC SPI */ e_FM_PCD_KG_L4_PORT, /**< L4 Port */ e_FM_PCD_KG_TCP_FLAG, /**< TCP Flag */ e_FM_PCD_KG_GENERIC_FROM_DATA, /**< grouping implemented by SW, any data extraction that is not the full field described above */ e_FM_PCD_KG_GENERIC_FROM_DATA_NO_V, /**< grouping implemented by SW, any data extraction without validation */ e_FM_PCD_KG_GENERIC_NOT_FROM_DATA /**< grouping implemented by SW, extraction from parser result or direct use of default value */ } e_FmPcdKgKnownFieldsDfltTypes; /**************************************************************************//** @Description Enumeration type for defining header index for scenarios with multiple (tunneled) headers *//***************************************************************************/ typedef enum e_FmPcdHdrIndex { e_FM_PCD_HDR_INDEX_NONE = 0, /**< used when multiple headers not used, also to specify regular IP (not tunneled). */ e_FM_PCD_HDR_INDEX_1, /**< may be used for VLAN, MPLS, tunneled IP */ e_FM_PCD_HDR_INDEX_2, /**< may be used for MPLS, tunneled IP */ e_FM_PCD_HDR_INDEX_3, /**< may be used for MPLS */ e_FM_PCD_HDR_INDEX_LAST = 0xFF /**< may be used for VLAN, MPLS */ } e_FmPcdHdrIndex; /**************************************************************************//** @Description Enumeration type for selecting the policer profile functional type *//***************************************************************************/ typedef enum e_FmPcdProfileTypeSelection { e_FM_PCD_PLCR_PORT_PRIVATE, /**< Port dedicated profile */ e_FM_PCD_PLCR_SHARED /**< Shared profile (shared within partition) */ } e_FmPcdProfileTypeSelection; /**************************************************************************//** @Description Enumeration type for selecting the policer profile algorithm *//***************************************************************************/ typedef enum e_FmPcdPlcrAlgorithmSelection { e_FM_PCD_PLCR_PASS_THROUGH, /**< Policer pass through */ e_FM_PCD_PLCR_RFC_2698, /**< Policer algorithm RFC 2698 */ e_FM_PCD_PLCR_RFC_4115 /**< Policer algorithm RFC 4115 */ } e_FmPcdPlcrAlgorithmSelection; /**************************************************************************//** @Description Enumeration type for selecting a policer profile color mode *//***************************************************************************/ typedef enum e_FmPcdPlcrColorMode { e_FM_PCD_PLCR_COLOR_BLIND, /**< Color blind */ e_FM_PCD_PLCR_COLOR_AWARE /**< Color aware */ } e_FmPcdPlcrColorMode; /**************************************************************************//** @Description Enumeration type for selecting a policer profile color *//***************************************************************************/ typedef enum e_FmPcdPlcrColor { e_FM_PCD_PLCR_GREEN, /**< Green color code */ e_FM_PCD_PLCR_YELLOW, /**< Yellow color code */ e_FM_PCD_PLCR_RED, /**< Red color code */ e_FM_PCD_PLCR_OVERRIDE /**< Color override code */ } e_FmPcdPlcrColor; /**************************************************************************//** @Description Enumeration type for selecting the policer profile packet frame length selector *//***************************************************************************/ typedef enum e_FmPcdPlcrFrameLengthSelect { e_FM_PCD_PLCR_L2_FRM_LEN, /**< L2 frame length */ e_FM_PCD_PLCR_L3_FRM_LEN, /**< L3 frame length */ e_FM_PCD_PLCR_L4_FRM_LEN, /**< L4 frame length */ e_FM_PCD_PLCR_FULL_FRM_LEN /**< Full frame length */ } e_FmPcdPlcrFrameLengthSelect; /**************************************************************************//** @Description Enumeration type for selecting roll-back frame *//***************************************************************************/ typedef enum e_FmPcdPlcrRollBackFrameSelect { e_FM_PCD_PLCR_ROLLBACK_L2_FRM_LEN, /**< Roll-back L2 frame length */ e_FM_PCD_PLCR_ROLLBACK_FULL_FRM_LEN /**< Roll-back Full frame length */ } e_FmPcdPlcrRollBackFrameSelect; /**************************************************************************//** @Description Enumeration type for selecting the policer profile packet or byte mode *//***************************************************************************/ typedef enum e_FmPcdPlcrRateMode { e_FM_PCD_PLCR_BYTE_MODE, /**< Byte mode */ e_FM_PCD_PLCR_PACKET_MODE /**< Packet mode */ } e_FmPcdPlcrRateMode; /**************************************************************************//** @Description Enumeration type for defining action of frame *//***************************************************************************/ typedef enum e_FmPcdDoneAction { e_FM_PCD_ENQ_FRAME = 0, /**< Enqueue frame */ e_FM_PCD_DROP_FRAME /**< Mark this frame as error frame and continue to error flow; 'FM_PORT_FRM_ERR_CLS_DISCARD' flag will be set for this frame. */ } e_FmPcdDoneAction; /**************************************************************************//** @Description Enumeration type for selecting the policer counter *//***************************************************************************/ typedef enum e_FmPcdPlcrProfileCounters { e_FM_PCD_PLCR_PROFILE_GREEN_PACKET_TOTAL_COUNTER, /**< Green packets counter */ e_FM_PCD_PLCR_PROFILE_YELLOW_PACKET_TOTAL_COUNTER, /**< Yellow packets counter */ e_FM_PCD_PLCR_PROFILE_RED_PACKET_TOTAL_COUNTER, /**< Red packets counter */ e_FM_PCD_PLCR_PROFILE_RECOLOURED_YELLOW_PACKET_TOTAL_COUNTER, /**< Recolored yellow packets counter */ e_FM_PCD_PLCR_PROFILE_RECOLOURED_RED_PACKET_TOTAL_COUNTER /**< Recolored red packets counter */ } e_FmPcdPlcrProfileCounters; /**************************************************************************//** @Description Enumeration type for selecting the PCD action after extraction *//***************************************************************************/ typedef enum e_FmPcdAction { e_FM_PCD_ACTION_NONE, /**< NONE */ e_FM_PCD_ACTION_EXACT_MATCH, /**< Exact match on the selected extraction */ e_FM_PCD_ACTION_INDEXED_LOOKUP /**< Indexed lookup on the selected extraction */ } e_FmPcdAction; /**************************************************************************//** @Description Enumeration type for selecting type of insert manipulation *//***************************************************************************/ typedef enum e_FmPcdManipHdrInsrtType { e_FM_PCD_MANIP_INSRT_GENERIC, /**< Insert according to offset & size */ e_FM_PCD_MANIP_INSRT_BY_HDR, /**< Insert according to protocol */ #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) e_FM_PCD_MANIP_INSRT_BY_TEMPLATE /**< Insert template to start of frame */ #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ } e_FmPcdManipHdrInsrtType; /**************************************************************************//** @Description Enumeration type for selecting type of remove manipulation *//***************************************************************************/ typedef enum e_FmPcdManipHdrRmvType { e_FM_PCD_MANIP_RMV_GENERIC, /**< Remove according to offset & size */ e_FM_PCD_MANIP_RMV_BY_HDR /**< Remove according to offset & size */ } e_FmPcdManipHdrRmvType; /**************************************************************************//** @Description Enumeration type for selecting specific L2 fields removal *//***************************************************************************/ typedef enum e_FmPcdManipHdrRmvSpecificL2 { e_FM_PCD_MANIP_HDR_RMV_ETHERNET, /**< Ethernet/802.3 MAC */ e_FM_PCD_MANIP_HDR_RMV_STACKED_QTAGS, /**< stacked QTags */ e_FM_PCD_MANIP_HDR_RMV_ETHERNET_AND_MPLS, /**< MPLS and Ethernet/802.3 MAC header until the header which follows the MPLS header */ e_FM_PCD_MANIP_HDR_RMV_MPLS /**< Remove MPLS header (Unlimited MPLS labels) */ } e_FmPcdManipHdrRmvSpecificL2; /**************************************************************************//** @Description Enumeration type for selecting specific fields updates *//***************************************************************************/ typedef enum e_FmPcdManipHdrFieldUpdateType { e_FM_PCD_MANIP_HDR_FIELD_UPDATE_VLAN, /**< VLAN updates */ e_FM_PCD_MANIP_HDR_FIELD_UPDATE_IPV4, /**< IPV4 updates */ e_FM_PCD_MANIP_HDR_FIELD_UPDATE_IPV6, /**< IPV6 updates */ e_FM_PCD_MANIP_HDR_FIELD_UPDATE_TCP_UDP, /**< TCP_UDP updates */ } e_FmPcdManipHdrFieldUpdateType; /**************************************************************************//** @Description Enumeration type for selecting VLAN updates *//***************************************************************************/ typedef enum e_FmPcdManipHdrFieldUpdateVlan { e_FM_PCD_MANIP_HDR_FIELD_UPDATE_VLAN_VPRI, /**< Replace VPri of outer most VLAN tag. */ e_FM_PCD_MANIP_HDR_FIELD_UPDATE_DSCP_TO_VLAN /**< DSCP to VLAN priority bits translation */ } e_FmPcdManipHdrFieldUpdateVlan; /**************************************************************************//** @Description Enumeration type for selecting specific L2 header insertion *//***************************************************************************/ typedef enum e_FmPcdManipHdrInsrtSpecificL2 { e_FM_PCD_MANIP_HDR_INSRT_MPLS /**< Insert MPLS header (Unlimited MPLS labels) */ } e_FmPcdManipHdrInsrtSpecificL2; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Enumeration type for selecting QoS mapping mode Note: In all cases except 'e_FM_PCD_MANIP_HDR_QOS_MAPPING_NONE' User should instruct the port to read the hash-result *//***************************************************************************/ typedef enum e_FmPcdManipHdrQosMappingMode { e_FM_PCD_MANIP_HDR_QOS_MAPPING_NONE = 0, /**< No mapping, QoS field will not be changed */ e_FM_PCD_MANIP_HDR_QOS_MAPPING_AS_IS, /**< QoS field will be overwritten by the last byte in the hash-result. */ } e_FmPcdManipHdrQosMappingMode; /**************************************************************************//** @Description Enumeration type for selecting QoS source Note: In all cases except 'e_FM_PCD_MANIP_HDR_QOS_SRC_NONE' User should left room for the hash-result on input/output buffer and instruct the port to read/write the hash-result to the buffer (RPD should be set) *//***************************************************************************/ typedef enum e_FmPcdManipHdrQosSrc { e_FM_PCD_MANIP_HDR_QOS_SRC_NONE = 0, /**< TODO */ e_FM_PCD_MANIP_HDR_QOS_SRC_USER_DEFINED, /**< QoS will be taken from the last byte in the hash-result. */ } e_FmPcdManipHdrQosSrc; #endif /* (DPAA_VERSION >= 11) */ /**************************************************************************//** @Description Enumeration type for selecting type of header insertion *//***************************************************************************/ typedef enum e_FmPcdManipHdrInsrtByHdrType { e_FM_PCD_MANIP_INSRT_BY_HDR_SPECIFIC_L2, /**< Specific L2 fields insertion */ #if (DPAA_VERSION >= 11) e_FM_PCD_MANIP_INSRT_BY_HDR_IP, /**< IP insertion */ e_FM_PCD_MANIP_INSRT_BY_HDR_UDP, /**< UDP insertion */ e_FM_PCD_MANIP_INSRT_BY_HDR_UDP_LITE, /**< UDP lite insertion */ e_FM_PCD_MANIP_INSRT_BY_HDR_CAPWAP /**< CAPWAP insertion */ #endif /* (DPAA_VERSION >= 11) */ } e_FmPcdManipHdrInsrtByHdrType; /**************************************************************************//** @Description Enumeration type for selecting specific customCommand *//***************************************************************************/ typedef enum e_FmPcdManipHdrCustomType { e_FM_PCD_MANIP_HDR_CUSTOM_IP_REPLACE, /**< Replace IPv4/IPv6 */ e_FM_PCD_MANIP_HDR_CUSTOM_GEN_FIELD_REPLACE, /**< Replace IPv4/IPv6 */ } e_FmPcdManipHdrCustomType; /**************************************************************************//** @Description Enumeration type for selecting specific customCommand *//***************************************************************************/ typedef enum e_FmPcdManipHdrCustomIpReplace { e_FM_PCD_MANIP_HDR_CUSTOM_REPLACE_IPV4_BY_IPV6, /**< Replace IPv4 by IPv6 */ e_FM_PCD_MANIP_HDR_CUSTOM_REPLACE_IPV6_BY_IPV4 /**< Replace IPv6 by IPv4 */ } e_FmPcdManipHdrCustomIpReplace; /**************************************************************************//** @Description Enumeration type for selecting type of header removal *//***************************************************************************/ typedef enum e_FmPcdManipHdrRmvByHdrType { e_FM_PCD_MANIP_RMV_BY_HDR_SPECIFIC_L2 = 0, /**< Specific L2 fields removal */ #if (DPAA_VERSION >= 11) e_FM_PCD_MANIP_RMV_BY_HDR_CAPWAP, /**< CAPWAP removal */ #endif /* (DPAA_VERSION >= 11) */ #if (DPAA_VERSION >= 11) || ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) e_FM_PCD_MANIP_RMV_BY_HDR_FROM_START, /**< Locate from data that is not the header */ #endif /* (DPAA_VERSION >= 11) || ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ } e_FmPcdManipHdrRmvByHdrType; /**************************************************************************//** @Description Enumeration type for selecting type of timeout mode *//***************************************************************************/ typedef enum e_FmPcdManipReassemTimeOutMode { e_FM_PCD_MANIP_TIME_OUT_BETWEEN_FRAMES, /**< Limits the time of the reassembly process from the first fragment to the last */ e_FM_PCD_MANIP_TIME_OUT_BETWEEN_FRAG /**< Limits the time of receiving the fragment */ } e_FmPcdManipReassemTimeOutMode; /**************************************************************************//** @Description Enumeration type for selecting type of WaysNumber mode *//***************************************************************************/ typedef enum e_FmPcdManipReassemWaysNumber { e_FM_PCD_MANIP_ONE_WAY_HASH = 1, /**< One way hash */ e_FM_PCD_MANIP_TWO_WAYS_HASH, /**< Two ways hash */ e_FM_PCD_MANIP_THREE_WAYS_HASH, /**< Three ways hash */ e_FM_PCD_MANIP_FOUR_WAYS_HASH, /**< Four ways hash */ e_FM_PCD_MANIP_FIVE_WAYS_HASH, /**< Five ways hash */ e_FM_PCD_MANIP_SIX_WAYS_HASH, /**< Six ways hash */ e_FM_PCD_MANIP_SEVEN_WAYS_HASH, /**< Seven ways hash */ e_FM_PCD_MANIP_EIGHT_WAYS_HASH /**< Eight ways hash */ } e_FmPcdManipReassemWaysNumber; #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) /**************************************************************************//** @Description Enumeration type for selecting type of statistics mode *//***************************************************************************/ typedef enum e_FmPcdStatsType { e_FM_PCD_STATS_PER_FLOWID = 0 /**< Flow ID is used as index for getting statistics */ } e_FmPcdStatsType; #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ /**************************************************************************//** @Description Enumeration type for selecting manipulation type *//***************************************************************************/ typedef enum e_FmPcdManipType { e_FM_PCD_MANIP_HDR = 0, /**< Header manipulation */ e_FM_PCD_MANIP_REASSEM, /**< Reassembly */ e_FM_PCD_MANIP_FRAG, /**< Fragmentation */ e_FM_PCD_MANIP_SPECIAL_OFFLOAD /**< Special Offloading */ } e_FmPcdManipType; /**************************************************************************//** @Description Enumeration type for selecting type of statistics mode *//***************************************************************************/ typedef enum e_FmPcdCcStatsMode { e_FM_PCD_CC_STATS_MODE_NONE = 0, /**< No statistics support */ e_FM_PCD_CC_STATS_MODE_FRAME, /**< Frame count statistics */ e_FM_PCD_CC_STATS_MODE_BYTE_AND_FRAME, /**< Byte and frame count statistics */ #if (DPAA_VERSION >= 11) e_FM_PCD_CC_STATS_MODE_RMON, /**< Byte and frame length range count statistics; This mode is supported only on B4860 device */ #endif /* (DPAA_VERSION >= 11) */ } e_FmPcdCcStatsMode; /**************************************************************************//** @Description Enumeration type for determining the action in case an IP packet is larger than MTU but its DF (Don't Fragment) bit is set. *//***************************************************************************/ typedef enum e_FmPcdManipDontFragAction { e_FM_PCD_MANIP_DISCARD_PACKET = 0, /**< Discard packet */ e_FM_PCD_MANIP_ENQ_TO_ERR_Q_OR_DISCARD_PACKET = e_FM_PCD_MANIP_DISCARD_PACKET, /**< Obsolete, cannot enqueue to error queue; In practice, selects to discard packets; Will be removed in the future */ e_FM_PCD_MANIP_FRAGMENT_PACKET, /**< Fragment packet and continue normal processing */ e_FM_PCD_MANIP_CONTINUE_WITHOUT_FRAG /**< Continue normal processing without fragmenting the packet */ } e_FmPcdManipDontFragAction; /**************************************************************************//** @Description Enumeration type for selecting type of special offload manipulation *//***************************************************************************/ typedef enum e_FmPcdManipSpecialOffloadType { e_FM_PCD_MANIP_SPECIAL_OFFLOAD_IPSEC, /**< IPSec offload manipulation */ #if (DPAA_VERSION >= 11) e_FM_PCD_MANIP_SPECIAL_OFFLOAD_CAPWAP /**< CAPWAP offload manipulation */ #endif /* (DPAA_VERSION >= 11) */ } e_FmPcdManipSpecialOffloadType; /**************************************************************************//** @Description A Union of protocol dependent special options *//***************************************************************************/ typedef union u_FmPcdHdrProtocolOpt { ethProtocolOpt_t ethOpt; /**< Ethernet options */ vlanProtocolOpt_t vlanOpt; /**< VLAN options */ mplsProtocolOpt_t mplsOpt; /**< MPLS options */ ipv4ProtocolOpt_t ipv4Opt; /**< IPv4 options */ ipv6ProtocolOpt_t ipv6Opt; /**< IPv6 options */ #if (DPAA_VERSION >= 11) capwapProtocolOpt_t capwapOpt; /**< CAPWAP options */ #endif /* (DPAA_VERSION >= 11) */ } u_FmPcdHdrProtocolOpt; /**************************************************************************//** @Description A union holding protocol fields Fields supported as "full fields": HEADER_TYPE_ETH: NET_HEADER_FIELD_ETH_DA NET_HEADER_FIELD_ETH_SA NET_HEADER_FIELD_ETH_TYPE HEADER_TYPE_LLC_SNAP: NET_HEADER_FIELD_LLC_SNAP_TYPE HEADER_TYPE_VLAN: NET_HEADER_FIELD_VLAN_TCI (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_LAST) HEADER_TYPE_MPLS: NET_HEADER_FIELD_MPLS_LABEL_STACK (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_2, e_FM_PCD_HDR_INDEX_LAST) HEADER_TYPE_IPv4: NET_HEADER_FIELD_IPv4_SRC_IP NET_HEADER_FIELD_IPv4_DST_IP NET_HEADER_FIELD_IPv4_PROTO NET_HEADER_FIELD_IPv4_TOS (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_2/e_FM_PCD_HDR_INDEX_LAST) HEADER_TYPE_IPv6: NET_HEADER_FIELD_IPv6_SRC_IP NET_HEADER_FIELD_IPv6_DST_IP NET_HEADER_FIELD_IPv6_NEXT_HDR NET_HEADER_FIELD_IPv6_VER | NET_HEADER_FIELD_IPv6_FL | NET_HEADER_FIELD_IPv6_TC (must come together!) (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_2/e_FM_PCD_HDR_INDEX_LAST) (Note that starting from DPAA 1-1, NET_HEADER_FIELD_IPv6_NEXT_HDR applies to the last next header indication, meaning the next L4, which may be present at the Ipv6 last extension. On earlier revisions this field applies to the Next-Header field of the main IPv6 header) HEADER_TYPE_IP: NET_HEADER_FIELD_IP_PROTO (index may apply: e_FM_PCD_HDR_INDEX_LAST) NET_HEADER_FIELD_IP_DSCP (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1) HEADER_TYPE_GRE: NET_HEADER_FIELD_GRE_TYPE HEADER_TYPE_MINENCAP NET_HEADER_FIELD_MINENCAP_SRC_IP NET_HEADER_FIELD_MINENCAP_DST_IP NET_HEADER_FIELD_MINENCAP_TYPE HEADER_TYPE_TCP: NET_HEADER_FIELD_TCP_PORT_SRC NET_HEADER_FIELD_TCP_PORT_DST NET_HEADER_FIELD_TCP_FLAGS HEADER_TYPE_UDP: NET_HEADER_FIELD_UDP_PORT_SRC NET_HEADER_FIELD_UDP_PORT_DST HEADER_TYPE_UDP_LITE: NET_HEADER_FIELD_UDP_LITE_PORT_SRC NET_HEADER_FIELD_UDP_LITE_PORT_DST HEADER_TYPE_IPSEC_AH: NET_HEADER_FIELD_IPSEC_AH_SPI NET_HEADER_FIELD_IPSEC_AH_NH HEADER_TYPE_IPSEC_ESP: NET_HEADER_FIELD_IPSEC_ESP_SPI HEADER_TYPE_SCTP: NET_HEADER_FIELD_SCTP_PORT_SRC NET_HEADER_FIELD_SCTP_PORT_DST HEADER_TYPE_DCCP: NET_HEADER_FIELD_DCCP_PORT_SRC NET_HEADER_FIELD_DCCP_PORT_DST HEADER_TYPE_PPPoE: NET_HEADER_FIELD_PPPoE_PID NET_HEADER_FIELD_PPPoE_SID ***************************************************************** Fields supported as "from fields": HEADER_TYPE_ETH (with or without validation): NET_HEADER_FIELD_ETH_TYPE HEADER_TYPE_VLAN (with or without validation): NET_HEADER_FIELD_VLAN_TCI (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_LAST) HEADER_TYPE_IPv4 (without validation): NET_HEADER_FIELD_IPv4_PROTO (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_2/e_FM_PCD_HDR_INDEX_LAST) HEADER_TYPE_IPv6 (without validation): NET_HEADER_FIELD_IPv6_NEXT_HDR (index may apply: e_FM_PCD_HDR_INDEX_NONE/e_FM_PCD_HDR_INDEX_1, e_FM_PCD_HDR_INDEX_2/e_FM_PCD_HDR_INDEX_LAST) *//***************************************************************************/ typedef union t_FmPcdFields { headerFieldEth_t eth; /**< Ethernet */ headerFieldVlan_t vlan; /**< VLAN */ headerFieldLlcSnap_t llcSnap; /**< LLC SNAP */ headerFieldPppoe_t pppoe; /**< PPPoE */ headerFieldMpls_t mpls; /**< MPLS */ headerFieldIp_t ip; /**< IP */ headerFieldIpv4_t ipv4; /**< IPv4 */ headerFieldIpv6_t ipv6; /**< IPv6 */ headerFieldUdp_t udp; /**< UDP */ headerFieldUdpLite_t udpLite; /**< UDP Lite */ headerFieldTcp_t tcp; /**< TCP */ headerFieldSctp_t sctp; /**< SCTP */ headerFieldDccp_t dccp; /**< DCCP */ headerFieldGre_t gre; /**< GRE */ headerFieldMinencap_t minencap; /**< Minimal Encapsulation */ headerFieldIpsecAh_t ipsecAh; /**< IPSec AH */ headerFieldIpsecEsp_t ipsecEsp; /**< IPSec ESP */ headerFieldUdpEncapEsp_t udpEncapEsp; /**< UDP Encapsulation ESP */ } t_FmPcdFields; /**************************************************************************//** @Description Parameters for defining header extraction for key generation *//***************************************************************************/ typedef struct t_FmPcdFromHdr { uint8_t size; /**< Size in byte */ uint8_t offset; /**< Byte offset */ } t_FmPcdFromHdr; /**************************************************************************//** @Description Parameters for defining field extraction for key generation *//***************************************************************************/ typedef struct t_FmPcdFromField { t_FmPcdFields field; /**< Field selection */ uint8_t size; /**< Size in byte */ uint8_t offset; /**< Byte offset */ } t_FmPcdFromField; /**************************************************************************//** @Description Parameters for defining a single network environment unit A distinction unit should be defined if it will later be used by one or more PCD engines to distinguish between flows. *//***************************************************************************/ typedef struct t_FmPcdDistinctionUnit { struct { e_NetHeaderType hdr; /**< One of the headers supported by the FM */ u_FmPcdHdrProtocolOpt opt; /**< Select only one option ! */ } hdrs[FM_PCD_MAX_NUM_OF_INTERCHANGEABLE_HDRS]; } t_FmPcdDistinctionUnit; /**************************************************************************//** @Description Parameters for defining all different distinction units supported by a specific PCD Network Environment Characteristics module. Each unit represent a protocol or a group of protocols that may be used later by the different PCD engines to distinguish between flows. *//***************************************************************************/ typedef struct t_FmPcdNetEnvParams { uint8_t numOfDistinctionUnits; /**< Number of different units to be identified */ t_FmPcdDistinctionUnit units[FM_PCD_MAX_NUM_OF_DISTINCTION_UNITS]; /**< An array of numOfDistinctionUnits of the different units to be identified */ } t_FmPcdNetEnvParams; /**************************************************************************//** @Description Parameters for defining a single extraction action when creating a key *//***************************************************************************/ typedef struct t_FmPcdExtractEntry { e_FmPcdExtractType type; /**< Extraction type select */ union { struct { e_NetHeaderType hdr; /**< Header selection */ bool ignoreProtocolValidation; /**< Ignore protocol validation */ e_FmPcdHdrIndex hdrIndex; /**< Relevant only for MPLS, VLAN and tunneled IP. Otherwise should be cleared. */ e_FmPcdExtractByHdrType type; /**< Header extraction type select */ union { t_FmPcdFromHdr fromHdr; /**< Extract bytes from header parameters */ t_FmPcdFromField fromField; /**< Extract bytes from field parameters */ t_FmPcdFields fullField; /**< Extract full filed parameters */ } extractByHdrType; } extractByHdr; /**< used when type = e_FM_PCD_KG_EXTRACT_BY_HDR */ struct { e_FmPcdExtractFrom src; /**< Non-header extraction source */ e_FmPcdAction action; /**< Relevant for CC Only */ uint16_t icIndxMask; /**< Relevant only for CC when action = e_FM_PCD_ACTION_INDEXED_LOOKUP; Note that the number of bits that are set within this mask must be log2 of the CC-node 'numOfKeys'. Note that the mask cannot be set on the lower bits. */ uint8_t offset; /**< Byte offset */ uint8_t size; /**< Size in byte */ } extractNonHdr; /**< used when type = e_FM_PCD_KG_EXTRACT_NON_HDR */ }; } t_FmPcdExtractEntry; /**************************************************************************//** @Description Parameters for defining masks for each extracted field in the key. *//***************************************************************************/ typedef struct t_FmPcdKgExtractMask { uint8_t extractArrayIndex; /**< Index in the extraction array, as initialized by user */ uint8_t offset; /**< Byte offset */ uint8_t mask; /**< A byte mask (selected bits will be used) */ } t_FmPcdKgExtractMask; /**************************************************************************//** @Description Parameters for defining default selection per groups of fields *//***************************************************************************/ typedef struct t_FmPcdKgExtractDflt { e_FmPcdKgKnownFieldsDfltTypes type; /**< Default type select */ e_FmPcdKgExtractDfltSelect dfltSelect; /**< Default register select */ } t_FmPcdKgExtractDflt; /**************************************************************************//** @Description Parameters for defining key extraction and hashing *//***************************************************************************/ typedef struct t_FmPcdKgKeyExtractAndHashParams { uint32_t privateDflt0; /**< Scheme default register 0 */ uint32_t privateDflt1; /**< Scheme default register 1 */ uint8_t numOfUsedExtracts; /**< defines the valid size of the following array */ t_FmPcdExtractEntry extractArray [FM_PCD_KG_MAX_NUM_OF_EXTRACTS_PER_KEY]; /**< An array of extractions definition. */ uint8_t numOfUsedDflts; /**< defines the valid size of the following array */ t_FmPcdKgExtractDflt dflts[FM_PCD_KG_NUM_OF_DEFAULT_GROUPS]; /**< For each extraction used in this scheme, specify the required default register to be used when header is not found. types not specified in this array will get undefined value. */ uint8_t numOfUsedMasks; /**< defines the valid size of the following array */ t_FmPcdKgExtractMask masks[FM_PCD_KG_NUM_OF_EXTRACT_MASKS]; uint8_t hashShift; /**< hash result right shift. Select the 24 bits out of the 64 hash result. 0 means using the 24 LSB's, otherwise use the 24 LSB's after shifting right.*/ uint32_t hashDistributionNumOfFqids; /**< must be > 1 and a power of 2. Represents the range of queues for the key and hash functionality */ uint8_t hashDistributionFqidsShift; /**< selects the FQID bits that will be effected by the hash */ bool symmetricHash; /**< TRUE to generate the same hash for frames with swapped source and destination fields on all layers; If TRUE, driver will check that for all layers, if SRC extraction is selected, DST extraction must also be selected, and vice versa. */ } t_FmPcdKgKeyExtractAndHashParams; /**************************************************************************//** @Description Parameters for defining a single FQID mask (extracted OR). *//***************************************************************************/ typedef struct t_FmPcdKgExtractedOrParams { e_FmPcdExtractType type; /**< Extraction type select */ union { struct { /**< used when type = e_FM_PCD_KG_EXTRACT_BY_HDR */ e_NetHeaderType hdr; e_FmPcdHdrIndex hdrIndex; /**< Relevant only for MPLS, VLAN and tunneled IP. Otherwise should be cleared.*/ bool ignoreProtocolValidation; /**< continue extraction even if protocol is not recognized */ } extractByHdr; /**< Header to extract by */ e_FmPcdExtractFrom src; /**< used when type = e_FM_PCD_KG_EXTRACT_NON_HDR */ }; uint8_t extractionOffset; /**< Offset for extraction (in bytes). */ e_FmPcdKgExtractDfltSelect dfltValue; /**< Select register from which extraction is taken if field not found */ uint8_t mask; /**< Extraction mask (specified bits are used) */ uint8_t bitOffsetInFqid; /**< 0-31, Selects which bits of the 24 FQID bits to effect using the extracted byte; Assume byte is placed as the 8 MSB's in a 32 bit word where the lower bits are the FQID; i.e if bitOffsetInFqid=1 than its LSB will effect the FQID MSB, if bitOffsetInFqid=24 than the extracted byte will effect the 8 LSB's of the FQID, if bitOffsetInFqid=31 than the byte's MSB will effect the FQID's LSB; 0 means - no effect on FQID; Note that one, and only one of bitOffsetInFqid or bitOffsetInPlcrProfile must be set (i.e, extracted byte must effect either FQID or Policer profile).*/ uint8_t bitOffsetInPlcrProfile; /**< 0-15, Selects which bits of the 8 policer profile id bits to effect using the extracted byte; Assume byte is placed as the 8 MSB's in a 16 bit word where the lower bits are the policer profile id; i.e if bitOffsetInPlcrProfile=1 than its LSB will effect the profile MSB, if bitOffsetInFqid=8 than the extracted byte will effect the whole policer profile id, if bitOffsetInFqid=15 than the byte's MSB will effect the Policer Profile id's LSB; 0 means - no effect on policer profile; Note that one, and only one of bitOffsetInFqid or bitOffsetInPlcrProfile must be set (i.e, extracted byte must effect either FQID or Policer profile).*/ } t_FmPcdKgExtractedOrParams; /**************************************************************************//** @Description Parameters for configuring a scheme counter *//***************************************************************************/ typedef struct t_FmPcdKgSchemeCounter { bool update; /**< FALSE to keep the current counter state and continue from that point, TRUE to update/reset the counter when the scheme is written. */ uint32_t value; /**< If update=TRUE, this value will be written into the counter. clear this field to reset the counter. */ } t_FmPcdKgSchemeCounter; /**************************************************************************//** @Description Parameters for configuring a policer profile for a KeyGen scheme (when policer is the next engine after this scheme). *//***************************************************************************/ typedef struct t_FmPcdKgPlcrProfile { bool sharedProfile; /**< TRUE if this profile is shared between ports (managed by master partition); Must not be TRUE if profile is after Coarse Classification*/ bool direct; /**< if TRUE, directRelativeProfileId only selects the profile id, if FALSE fqidOffsetRelativeProfileIdBase is used together with fqidOffsetShift and numOfProfiles parameters, to define a range of profiles from which the KeyGen result will determine the destination policer profile. */ union { uint16_t directRelativeProfileId; /**< Used if 'direct' is TRUE, to select policer profile. should indicate the policer profile offset within the port's policer profiles or shared window. */ struct { uint8_t fqidOffsetShift; /**< Shift on the KeyGen create FQID offset (i.e. not the final FQID - without the FQID base). */ uint8_t fqidOffsetRelativeProfileIdBase; /**< The base of the FMan Port's relative Storage-Profile ID; this value will be "OR'ed" with the KeyGen create FQID offset (i.e. not the final FQID - without the FQID base); the final result should indicate the Storage-Profile offset within the FMan Port's relative Storage-Profiles window/ (or the SHARED window depends on 'sharedProfile'). */ uint8_t numOfProfiles; /**< Range of profiles starting at base */ } indirectProfile; /**< Indirect profile parameters */ } profileSelect; /**< Direct/indirect profile selection and parameters */ } t_FmPcdKgPlcrProfile; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Parameters for configuring a storage profile for a KeyGen scheme. *//***************************************************************************/ typedef struct t_FmPcdKgStorageProfile { bool direct; /**< If TRUE, directRelativeProfileId only selects the profile id; If FALSE, fqidOffsetRelativeProfileIdBase is used together with fqidOffsetShift and numOfProfiles parameters to define a range of profiles from which the KeyGen result will determine the destination storage profile. */ union { uint16_t directRelativeProfileId; /**< Used when 'direct' is TRUE, to select a storage profile; should indicate the storage profile offset within the port's storage profiles window. */ struct { uint8_t fqidOffsetShift; /**< Shift on the KeyGen create FQID offset (i.e. not the final FQID - without the FQID base). */ uint8_t fqidOffsetRelativeProfileIdBase; /**< The base of the FMan Port's relative Storage-Profile ID; this value will be "OR'ed" with the KeyGen create FQID offset (i.e. not the final FQID - without the FQID base); the final result should indicate the Storage-Profile offset within the FMan Port's relative Storage-Profiles window. */ uint8_t numOfProfiles; /**< Range of profiles starting at base. */ } indirectProfile; /**< Indirect profile parameters. */ } profileSelect; /**< Direct/indirect profile selection and parameters. */ } t_FmPcdKgStorageProfile; #endif /* (DPAA_VERSION >= 11) */ /**************************************************************************//** @Description Parameters for defining CC as the next engine after KeyGen *//***************************************************************************/ typedef struct t_FmPcdKgCc { t_Handle h_CcTree; /**< A handle to a CC Tree */ uint8_t grpId; /**< CC group id within the CC tree */ bool plcrNext; /**< TRUE if after CC, in case of data frame, policing is required. */ bool bypassPlcrProfileGeneration; /**< TRUE to bypass KeyGen policer profile generation; selected profile is the one set at port initialization. */ t_FmPcdKgPlcrProfile plcrProfile; /**< Valid only if plcrNext = TRUE and bypassPlcrProfileGeneration = FALSE */ } t_FmPcdKgCc; /**************************************************************************//** @Description Parameters for defining initializing a KeyGen scheme *//***************************************************************************/ typedef struct t_FmPcdKgSchemeParams { bool modify; /**< TRUE to change an existing scheme */ union { uint8_t relativeSchemeId; /**< if modify=FALSE:Partition relative scheme id */ t_Handle h_Scheme; /**< if modify=TRUE: a handle of the existing scheme */ } id; bool alwaysDirect; /**< This scheme is reached only directly, i.e. no need for match vector; KeyGen will ignore it when matching */ struct { /**< HL Relevant only if alwaysDirect = FALSE */ t_Handle h_NetEnv; /**< A handle to the Network environment as returned by FM_PCD_NetEnvCharacteristicsSet() */ uint8_t numOfDistinctionUnits; /**< Number of NetEnv units listed in unitIds array */ uint8_t unitIds[FM_PCD_MAX_NUM_OF_DISTINCTION_UNITS]; /**< Indexes as passed to SetNetEnvCharacteristics array*/ } netEnvParams; bool useHash; /**< use the KeyGen Hash functionality */ t_FmPcdKgKeyExtractAndHashParams keyExtractAndHashParams; /**< used only if useHash = TRUE */ bool bypassFqidGeneration; /**< Normally - FALSE, TRUE to avoid FQID update in the IC; In such a case FQID after KeyGen will be the default FQID defined for the relevant port, or the FQID defined by CC in cases where CC was the previous engine. */ uint32_t baseFqid; /**< Base FQID; Relevant only if bypassFqidGeneration = FALSE; If hash is used and an even distribution is expected according to hashDistributionNumOfFqids, baseFqid must be aligned to hashDistributionNumOfFqids. */ uint8_t numOfUsedExtractedOrs; /**< Number of FQID masks listed in extractedOrs array */ t_FmPcdKgExtractedOrParams extractedOrs[FM_PCD_KG_NUM_OF_GENERIC_REGS]; /**< FM_PCD_KG_NUM_OF_GENERIC_REGS registers are shared between qidMasks functionality and some of the extraction actions; Normally only some will be used for qidMask. Driver will return error if resource is full at initialization time. */ #if (DPAA_VERSION >= 11) bool overrideStorageProfile; /**< TRUE if KeyGen override previously decided storage profile */ t_FmPcdKgStorageProfile storageProfile; /**< Used when overrideStorageProfile TRUE */ #endif /* (DPAA_VERSION >= 11) */ e_FmPcdEngine nextEngine; /**< may be BMI, PLCR or CC */ union { /**< depends on nextEngine */ e_FmPcdDoneAction doneAction; /**< Used when next engine is BMI (done) */ t_FmPcdKgPlcrProfile plcrProfile; /**< Used when next engine is PLCR */ t_FmPcdKgCc cc; /**< Used when next engine is CC */ } kgNextEngineParams; t_FmPcdKgSchemeCounter schemeCounter; /**< A structure of parameters for updating the scheme counter */ } t_FmPcdKgSchemeParams; /**************************************************************************//** @Collection Definitions for CC statistics *//***************************************************************************/ #if (DPAA_VERSION >= 11) #define FM_PCD_CC_STATS_MAX_NUM_OF_FLR 10 /* Maximal supported number of frame length ranges */ #define FM_PCD_CC_STATS_FLR_SIZE 2 /* Size in bytes of a frame length range limit */ #endif /* (DPAA_VERSION >= 11) */ #define FM_PCD_CC_STATS_COUNTER_SIZE 4 /* Size in bytes of a frame length range counter */ /* @} */ /**************************************************************************//** @Description Parameters for defining CC as the next engine after a CC node. *//***************************************************************************/ typedef struct t_FmPcdCcNextCcParams { t_Handle h_CcNode; /**< A handle of the next CC node */ } t_FmPcdCcNextCcParams; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Parameters for defining Frame replicator as the next engine after a CC node. *//***************************************************************************/ typedef struct t_FmPcdCcNextFrParams { t_Handle h_FrmReplic; /**< A handle of the next frame replicator group */ } t_FmPcdCcNextFrParams; #endif /* (DPAA_VERSION >= 11) */ /**************************************************************************//** @Description Parameters for defining Policer as the next engine after a CC node. *//***************************************************************************/ typedef struct t_FmPcdCcNextPlcrParams { bool overrideParams; /**< TRUE if CC override previously decided parameters*/ bool sharedProfile; /**< Relevant only if overrideParams=TRUE: TRUE if this profile is shared between ports */ uint16_t newRelativeProfileId; /**< Relevant only if overrideParams=TRUE: (otherwise profile id is taken from KeyGen); This parameter should indicate the policer profile offset within the port's policer profiles or from SHARED window.*/ uint32_t newFqid; /**< Relevant only if overrideParams=TRUE: FQID for enqueuing the frame; In earlier chips if policer next engine is KEYGEN, this parameter can be 0, because the KEYGEN always decides the enqueue FQID.*/ #if (DPAA_VERSION >= 11) uint8_t newRelativeStorageProfileId; /**< Indicates the relative storage profile offset within the port's storage profiles window; Relevant only if the port was configured with VSP. */ #endif /* (DPAA_VERSION >= 11) */ } t_FmPcdCcNextPlcrParams; /**************************************************************************//** @Description Parameters for defining enqueue as the next action after a CC node. *//***************************************************************************/ typedef struct t_FmPcdCcNextEnqueueParams { e_FmPcdDoneAction action; /**< Action - when next engine is BMI (done) */ bool overrideFqid; /**< TRUE if CC override previously decided fqid and vspid, relevant if action = e_FM_PCD_ENQ_FRAME */ uint32_t newFqid; /**< Valid if overrideFqid=TRUE, FQID for enqueuing the frame (otherwise FQID is taken from KeyGen), relevant if action = e_FM_PCD_ENQ_FRAME */ #if (DPAA_VERSION >= 11) uint8_t newRelativeStorageProfileId; /**< Valid if overrideFqid=TRUE, Indicates the relative virtual storage profile offset within the port's storage profiles window; Relevant only if the port was configured with VSP. */ #endif /* (DPAA_VERSION >= 11) */ } t_FmPcdCcNextEnqueueParams; /**************************************************************************//** @Description Parameters for defining KeyGen as the next engine after a CC node. *//***************************************************************************/ typedef struct t_FmPcdCcNextKgParams { bool overrideFqid; /**< TRUE if CC override previously decided fqid and vspid, Note - this parameters irrelevant for earlier chips */ uint32_t newFqid; /**< Valid if overrideFqid=TRUE, FQID for enqueuing the frame (otherwise FQID is taken from KeyGen), Note - this parameters irrelevant for earlier chips */ #if (DPAA_VERSION >= 11) uint8_t newRelativeStorageProfileId; /**< Valid if overrideFqid=TRUE, Indicates the relative virtual storage profile offset within the port's storage profiles window; Relevant only if the port was configured with VSP. */ #endif /* (DPAA_VERSION >= 11) */ t_Handle h_DirectScheme; /**< Direct scheme handle to go to. */ } t_FmPcdCcNextKgParams; /**************************************************************************//** @Description Parameters for defining the next engine after a CC node. *//***************************************************************************/ typedef struct t_FmPcdCcNextEngineParams { e_FmPcdEngine nextEngine; /**< User has to initialize parameters according to nextEngine definition */ union { t_FmPcdCcNextCcParams ccParams; /**< Parameters in case next engine is CC */ t_FmPcdCcNextPlcrParams plcrParams; /**< Parameters in case next engine is PLCR */ t_FmPcdCcNextEnqueueParams enqueueParams; /**< Parameters in case next engine is BMI */ t_FmPcdCcNextKgParams kgParams; /**< Parameters in case next engine is KG */ #if (DPAA_VERSION >= 11) t_FmPcdCcNextFrParams frParams; /**< Parameters in case next engine is FR */ #endif /* (DPAA_VERSION >= 11) */ } params; /**< union used for all the next-engine parameters options */ t_Handle h_Manip; /**< Handle to Manipulation object. Relevant if next engine is of type result (e_FM_PCD_PLCR, e_FM_PCD_KG, e_FM_PCD_DONE) */ bool statisticsEn; /**< If TRUE, statistics counters are incremented for each frame passing through this Coarse Classification entry. */ } t_FmPcdCcNextEngineParams; /**************************************************************************//** @Description Parameters for defining a single CC key *//***************************************************************************/ typedef struct t_FmPcdCcKeyParams { uint8_t *p_Key; /**< Relevant only if 'action' = e_FM_PCD_ACTION_EXACT_MATCH; pointer to the key of the size defined in keySize */ uint8_t *p_Mask; /**< Relevant only if 'action' = e_FM_PCD_ACTION_EXACT_MATCH; pointer to the Mask per key of the size defined in keySize. p_Key and p_Mask (if defined) has to be of the same size defined in the keySize; NOTE that if this value is equal for all entries whithin this table, the driver will automatically use global-mask (i.e. one common mask for all entries) instead of private one; that is done in order to spare some memory and for better performance. */ t_FmPcdCcNextEngineParams ccNextEngineParams; /**< parameters for the next for the defined Key in the p_Key */ } t_FmPcdCcKeyParams; /**************************************************************************//** @Description Parameters for defining CC keys parameters The driver supports two methods for CC node allocation: dynamic and static. Static mode was created in order to prevent runtime alloc/free of FMan memory (MURAM), which may cause fragmentation; in this mode, the driver automatically allocates the memory according to 'maxNumOfKeys' parameter. The driver calculates the maximal memory size that may be used for this CC-Node taking into consideration 'maskSupport' and 'statisticsMode' parameters. When 'action' = e_FM_PCD_ACTION_INDEXED_LOOKUP in the extraction parameters of this node, 'maxNumOfKeys' must be equal to 'numOfKeys'. In dynamic mode, 'maxNumOfKeys' must be zero. At initialization, all required structures are allocated according to 'numOfKeys' parameter. During runtime modification, these structures are re-allocated according to the updated number of keys. Please note that 'action' and 'icIndxMask' mentioned in the specific parameter explanations are passed in the extraction parameters of the node (fields of extractCcParams.extractNonHdr). *//***************************************************************************/ typedef struct t_KeysParams { uint16_t maxNumOfKeys; /**< Maximum number of keys that will (ever) be used in this CC-Node; A value of zero may be used for dynamic memory allocation. */ bool maskSupport; /**< This parameter is relevant only if a node is initialized with 'action' = e_FM_PCD_ACTION_EXACT_MATCH and maxNumOfKeys > 0; Should be TRUE to reserve table memory for key masks, even if initial keys do not contain masks, or if the node was initialized as 'empty' (without keys); this will allow user to add keys with masks at runtime. NOTE that if user want to use only global-masks (i.e. one common mask for all the entries within this table, this parameter should set to 'FALSE'. */ e_FmPcdCcStatsMode statisticsMode; /**< Determines the supported statistics mode for all node's keys. To enable statistics gathering, statistics should be enabled per every key, using 'statisticsEn' in next engine parameters structure of that key; If 'maxNumOfKeys' is set, all required structures will be preallocated for all keys. */ #if (DPAA_VERSION >= 11) uint16_t frameLengthRanges[FM_PCD_CC_STATS_MAX_NUM_OF_FLR]; /**< Relevant only for 'RMON' statistics mode (this feature is supported only on B4860 device); Holds a list of programmable thresholds - for each received frame, its length in bytes is examined against these range thresholds and the appropriate counter is incremented by 1 - for example, to belong to range i, the following should hold: range i-1 threshold < frame length <= range i threshold Each range threshold must be larger then its preceding range threshold, and last range threshold must be 0xFFFF. */ #endif /* (DPAA_VERSION >= 11) */ uint16_t numOfKeys; /**< Number of initial keys; Note that in case of 'action' = e_FM_PCD_ACTION_INDEXED_LOOKUP, this field should be power-of-2 of the number of bits that are set in 'icIndxMask'. */ uint8_t keySize; /**< Size of key - for extraction of type FULL_FIELD, 'keySize' has to be the standard size of the selected key; For other extraction types, 'keySize' has to be as size of extraction; When 'action' = e_FM_PCD_ACTION_INDEXED_LOOKUP, 'keySize' must be 2. */ t_FmPcdCcKeyParams keyParams[FM_PCD_MAX_NUM_OF_KEYS]; /**< An array with 'numOfKeys' entries, each entry specifies the corresponding key parameters; When 'action' = e_FM_PCD_ACTION_EXACT_MATCH, this value must not exceed 255 (FM_PCD_MAX_NUM_OF_KEYS-1) as the last entry is saved for the 'miss' entry. */ t_FmPcdCcNextEngineParams ccNextEngineParamsForMiss; /**< Parameters for defining the next engine when a key is not matched; Not relevant if action = e_FM_PCD_ACTION_INDEXED_LOOKUP. */ } t_KeysParams; /**************************************************************************//** @Description Parameters for defining a CC node *//***************************************************************************/ typedef struct t_FmPcdCcNodeParams { t_FmPcdExtractEntry extractCcParams; /**< Extraction parameters */ t_KeysParams keysParams; /**< Keys definition matching the selected extraction */ } t_FmPcdCcNodeParams; /**************************************************************************//** @Description Parameters for defining a hash table *//***************************************************************************/ typedef struct t_FmPcdHashTableParams { uint16_t maxNumOfKeys; /**< Maximum Number Of Keys that will (ever) be used in this Hash-table */ e_FmPcdCcStatsMode statisticsMode; /**< If not e_FM_PCD_CC_STATS_MODE_NONE, the required structures for the requested statistics mode will be allocated according to maxNumOfKeys. */ uint8_t kgHashShift; /**< KG-Hash-shift as it was configured in the KG-scheme that leads to this hash-table. */ uint16_t hashResMask; /**< Mask that will be used on the hash-result; The number-of-sets for this hash will be calculated as (2^(number of bits set in 'hashResMask')); The 4 lower bits must be cleared. */ uint8_t hashShift; /**< Byte offset from the beginning of the KeyGen hash result to the 2-bytes to be used as hash index. */ uint8_t matchKeySize; /**< Size of the exact match keys held by the hash buckets */ t_FmPcdCcNextEngineParams ccNextEngineParamsForMiss; /**< Parameters for defining the next engine when a key is not matched */ bool agingSupport; /**< TRUE to enable aging support for all keys of this hash table; Aging status of a key enables the application to monitor if the key was accessed for a certain period of time, meaning if a packet that matches this key was received since this bit was last set by the application */ } t_FmPcdHashTableParams; /**************************************************************************//** @Description Parameters for defining a CC tree group. This structure defines a CC group in terms of NetEnv units and the action to be taken in each case. The unitIds list must be given in order from low to high indices. t_FmPcdCcNextEngineParams is a list of 2^numOfDistinctionUnits structures where each defines the next action to be taken for each units combination. for example: numOfDistinctionUnits = 2 unitIds = {1,3} p_NextEnginePerEntriesInGrp[0] = t_FmPcdCcNextEngineParams for the case that unit 1 - not found; unit 3 - not found; p_NextEnginePerEntriesInGrp[1] = t_FmPcdCcNextEngineParams for the case that unit 1 - not found; unit 3 - found; p_NextEnginePerEntriesInGrp[2] = t_FmPcdCcNextEngineParams for the case that unit 1 - found; unit 3 - not found; p_NextEnginePerEntriesInGrp[3] = t_FmPcdCcNextEngineParams for the case that unit 1 - found; unit 3 - found; *//***************************************************************************/ typedef struct t_FmPcdCcGrpParams { uint8_t numOfDistinctionUnits; /**< Up to 4 */ uint8_t unitIds[FM_PCD_MAX_NUM_OF_CC_UNITS]; /**< Indices of the units as defined in FM_PCD_NetEnvCharacteristicsSet() */ t_FmPcdCcNextEngineParams nextEnginePerEntriesInGrp[FM_PCD_MAX_NUM_OF_CC_ENTRIES_IN_GRP]; /**< Maximum entries per group is 16 */ } t_FmPcdCcGrpParams; /**************************************************************************//** @Description Parameters for defining CC tree groups *//***************************************************************************/ typedef struct t_FmPcdCcTreeParams { t_Handle h_NetEnv; /**< A handle to the Network environment as returned by FM_PCD_NetEnvCharacteristicsSet() */ uint8_t numOfGrps; /**< Number of CC groups within the CC tree */ t_FmPcdCcGrpParams ccGrpParams[FM_PCD_MAX_NUM_OF_CC_GROUPS]; /**< Parameters for each group. */ } t_FmPcdCcTreeParams; /**************************************************************************//** @Description CC key statistics structure *//***************************************************************************/ typedef struct t_FmPcdCcKeyStatistics { uint32_t byteCount; /**< This counter reflects byte count of frames that were matched by this key. */ uint32_t frameCount; /**< This counter reflects count of frames that were matched by this key. */ #if (DPAA_VERSION >= 11) uint32_t frameLengthRangeCount[FM_PCD_CC_STATS_MAX_NUM_OF_FLR]; /**< These counters reflect how many frames matched this key in 'RMON' statistics mode: Each counter holds the number of frames of a specific frames length range, according to the ranges provided at initialization. */ #endif /* (DPAA_VERSION >= 11) */ } t_FmPcdCcKeyStatistics; /**************************************************************************//** @Description Parameters for defining policer byte rate *//***************************************************************************/ typedef struct t_FmPcdPlcrByteRateModeParams { e_FmPcdPlcrFrameLengthSelect frameLengthSelection; /**< Frame length selection */ e_FmPcdPlcrRollBackFrameSelect rollBackFrameSelection; /**< relevant option only e_FM_PCD_PLCR_L2_FRM_LEN, e_FM_PCD_PLCR_FULL_FRM_LEN */ } t_FmPcdPlcrByteRateModeParams; /**************************************************************************//** @Description Parameters for defining the policer profile (based on RFC-2698 or RFC-4115 attributes). *//***************************************************************************/ typedef struct t_FmPcdPlcrNonPassthroughAlgParams { e_FmPcdPlcrRateMode rateMode; /**< Byte mode or Packet mode */ t_FmPcdPlcrByteRateModeParams byteModeParams; /**< Valid for Byte NULL for Packet */ uint32_t committedInfoRate; /**< KBits/Second or Packets/Second */ uint32_t committedBurstSize; /**< Bytes/Packets */ uint32_t peakOrExcessInfoRate; /**< KBits/Second or Packets/Second */ uint32_t peakOrExcessBurstSize; /**< Bytes/Packets */ } t_FmPcdPlcrNonPassthroughAlgParams; /**************************************************************************//** @Description Parameters for defining the next engine after policer *//***************************************************************************/ typedef union u_FmPcdPlcrNextEngineParams { e_FmPcdDoneAction action; /**< Action - when next engine is BMI (done) */ t_Handle h_Profile; /**< Policer profile handle - used when next engine is Policer, must be a SHARED profile */ t_Handle h_DirectScheme; /**< Direct scheme select - when next engine is KeyGen */ } u_FmPcdPlcrNextEngineParams; /**************************************************************************//** @Description Parameters for defining the policer profile entry *//***************************************************************************/ typedef struct t_FmPcdPlcrProfileParams { bool modify; /**< TRUE to change an existing profile */ union { struct { e_FmPcdProfileTypeSelection profileType; /**< Type of policer profile */ t_Handle h_FmPort; /**< Relevant for per-port profiles only */ uint16_t relativeProfileId; /**< Profile id - relative to shared group or to port */ } newParams; /**< use it when modify = FALSE */ t_Handle h_Profile; /**< A handle to a profile - use it when modify=TRUE */ } id; e_FmPcdPlcrAlgorithmSelection algSelection; /**< Profile Algorithm PASS_THROUGH, RFC_2698, RFC_4115 */ e_FmPcdPlcrColorMode colorMode; /**< COLOR_BLIND, COLOR_AWARE */ union { e_FmPcdPlcrColor dfltColor; /**< For Color-Blind Pass-Through mode; the policer will re-color any incoming packet with the default value. */ e_FmPcdPlcrColor override; /**< For Color-Aware modes; the profile response to a pre-color value of 2'b11. */ } color; t_FmPcdPlcrNonPassthroughAlgParams nonPassthroughAlgParams; /**< RFC2698 or RFC4115 parameters */ e_FmPcdEngine nextEngineOnGreen; /**< Next engine for green-colored frames */ u_FmPcdPlcrNextEngineParams paramsOnGreen; /**< Next engine parameters for green-colored frames */ e_FmPcdEngine nextEngineOnYellow; /**< Next engine for yellow-colored frames */ u_FmPcdPlcrNextEngineParams paramsOnYellow; /**< Next engine parameters for yellow-colored frames */ e_FmPcdEngine nextEngineOnRed; /**< Next engine for red-colored frames */ u_FmPcdPlcrNextEngineParams paramsOnRed; /**< Next engine parameters for red-colored frames */ bool trapProfileOnFlowA; /**< Obsolete - do not use */ bool trapProfileOnFlowB; /**< Obsolete - do not use */ bool trapProfileOnFlowC; /**< Obsolete - do not use */ } t_FmPcdPlcrProfileParams; /**************************************************************************//** @Description Parameters for selecting a location for requested manipulation *//***************************************************************************/ typedef struct t_FmManipHdrInfo { e_NetHeaderType hdr; /**< Header selection */ e_FmPcdHdrIndex hdrIndex; /**< Relevant only for MPLS, VLAN and tunneled IP. Otherwise should be cleared. */ bool byField; /**< TRUE if the location of manipulation is according to some field in the specific header*/ t_FmPcdFields fullField; /**< Relevant only when byField = TRUE: Extract field */ } t_FmManipHdrInfo; #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) /**************************************************************************//** @Description Parameters for defining an insertion manipulation of type e_FM_PCD_MANIP_INSRT_TO_START_OF_FRAME_TEMPLATE *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrtByTemplateParams { uint8_t size; /**< Size of insert template to the start of the frame. */ uint8_t hdrTemplate[FM_PCD_MAX_MANIP_INSRT_TEMPLATE_SIZE]; /**< Array of the insertion template. */ bool modifyOuterIp; /**< TRUE if user want to modify some fields in outer IP. */ struct { uint16_t ipOuterOffset; /**< Offset of outer IP in the insert template, relevant if modifyOuterIp = TRUE.*/ uint16_t dscpEcn; /**< value of dscpEcn in IP outer, relevant if modifyOuterIp = TRUE. in IPV4 dscpEcn only byte - it has to be adjusted to the right*/ bool udpPresent; /**< TRUE if UDP is present in the insert template, relevant if modifyOuterIp = TRUE.*/ uint8_t udpOffset; /**< Offset in the insert template of UDP, relevant if modifyOuterIp = TRUE and udpPresent=TRUE.*/ uint8_t ipIdentGenId; /**< Used by FMan-CTRL to calculate IP-identification field,relevant if modifyOuterIp = TRUE.*/ bool recalculateLength; /**< TRUE if recalculate length has to be performed due to the engines in the path which can change the frame later, relevant if modifyOuterIp = TRUE.*/ struct { uint8_t blockSize; /**< The CAAM block-size; Used by FMan-CTRL to calculate the IP Total Length field.*/ uint8_t extraBytesAddedAlignedToBlockSize; /**< Used by FMan-CTRL to calculate the IP Total Length field and UDP length*/ uint8_t extraBytesAddedNotAlignedToBlockSize;/**< Used by FMan-CTRL to calculate the IP Total Length field and UDP length.*/ } recalculateLengthParams; /**< Recalculate length parameters - relevant if modifyOuterIp = TRUE and recalculateLength = TRUE */ } modifyOuterIpParams; /**< Outer IP modification parameters - ignored if modifyOuterIp is FALSE */ bool modifyOuterVlan; /**< TRUE if user wants to modify VPri field in the outer VLAN header*/ struct { uint8_t vpri; /**< Value of VPri, relevant if modifyOuterVlan = TRUE VPri only 3 bits, it has to be adjusted to the right*/ } modifyOuterVlanParams; } t_FmPcdManipHdrInsrtByTemplateParams; /**************************************************************************//** @Description Parameters for defining CAPWAP fragmentation *//***************************************************************************/ typedef struct t_CapwapFragmentationParams { uint16_t sizeForFragmentation; /**< if length of the frame is greater than this value, CAPWAP fragmentation will be executed.*/ bool headerOptionsCompr; /**< TRUE - first fragment include the CAPWAP header options field, and all other fragments exclude the CAPWAP options field, FALSE - all fragments include CAPWAP header options field. */ } t_CapwapFragmentationParams; /**************************************************************************//** @Description Parameters for defining CAPWAP reassembly *//***************************************************************************/ typedef struct t_CapwapReassemblyParams { uint16_t maxNumFramesInProcess; /**< Number of frames which can be reassembled concurrently; must be power of 2. In case numOfFramesPerHashEntry == e_FM_PCD_MANIP_FOUR_WAYS_HASH, maxNumFramesInProcess has to be in the range of 4 - 512, In case numOfFramesPerHashEntry == e_FM_PCD_MANIP_EIGHT_WAYS_HASH, maxNumFramesInProcess has to be in the range of 8 - 2048 */ bool haltOnDuplicationFrag; /**< If TRUE, reassembly process will be halted due to duplicated fragment, and all processed fragments will be enqueued with error indication; If FALSE, only duplicated fragments will be enqueued with error indication. */ e_FmPcdManipReassemTimeOutMode timeOutMode; /**< Expiration delay initialized by the reassembly process */ uint32_t fqidForTimeOutFrames; /**< FQID in which time out frames will enqueue during Time Out Process */ uint32_t timeoutRoutineRequestTime; /**< Represents the time interval in microseconds between consecutive timeout routine requests It has to be power of 2. */ uint32_t timeoutThresholdForReassmProcess; /**< Time interval (microseconds) for marking frames in process as too old; Frames in process are those for which at least one fragment was received but not all fragments. */ e_FmPcdManipReassemWaysNumber numOfFramesPerHashEntry;/**< Number of frames per hash entry (needed for the reassembly process) */ } t_CapwapReassemblyParams; /**************************************************************************//** @Description Parameters for defining fragmentation/reassembly manipulation *//***************************************************************************/ typedef struct t_FmPcdManipFragOrReasmParams { bool frag; /**< TRUE if using the structure for fragmentation, otherwise this structure is used for reassembly */ uint8_t sgBpid; /**< Scatter/Gather buffer pool id; Same LIODN number is used for these buffers as for the received frames buffers, so buffers of this pool need to be allocated in the same memory area as the received buffers. If the received buffers arrive from different sources, the Scatter/Gather BP id should be mutual to all these sources. */ e_NetHeaderType hdr; /**< Header selection */ union { t_CapwapFragmentationParams capwapFragParams; /**< Structure for CAPWAP fragmentation, relevant if 'frag' = TRUE, 'hdr' = HEADER_TYPE_CAPWAP */ t_CapwapReassemblyParams capwapReasmParams; /**< Structure for CAPWAP reassembly, relevant if 'frag' = FALSE, 'hdr' = HEADER_TYPE_CAPWAP */ } u; } t_FmPcdManipFragOrReasmParams; #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ /**************************************************************************//** @Description Parameters for defining header removal by header type *//***************************************************************************/ typedef struct t_FmPcdManipHdrRmvByHdrParams { e_FmPcdManipHdrRmvByHdrType type; /**< Selection of header removal location */ union { #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) struct { bool include; /**< If FALSE, remove until the specified header (not including the header); If TRUE, remove also the specified header. */ t_FmManipHdrInfo hdrInfo; } fromStartByHdr; /**< Relevant when type = e_FM_PCD_MANIP_RMV_BY_HDR_FROM_START */ #endif /* (DPAA_VERSION >= 11) || ... */ #if (DPAA_VERSION >= 11) t_FmManipHdrInfo hdrInfo; /**< Relevant when type = e_FM_PCD_MANIP_RMV_BY_HDR_FROM_START */ #endif /* (DPAA_VERSION >= 11) */ e_FmPcdManipHdrRmvSpecificL2 specificL2; /**< Relevant when type = e_FM_PCD_MANIP_BY_HDR_SPECIFIC_L2; Defines which L2 headers to remove. */ } u; } t_FmPcdManipHdrRmvByHdrParams; /**************************************************************************//** @Description Parameters for configuring IP fragmentation manipulation Restrictions: - IP Fragmentation output fragments must not be forwarded to application directly. - Maximum number of fragments per frame is 16. - Fragmentation of IP fragments is not supported. - IPv4 packets containing header Option fields are fragmented by copying all option fields to each fragment, regardless of the copy bit value. - Transmit confirmation is not supported. - Fragmentation after SEC can't handle S/G frames. - Fragmentation nodes must be set as the last PCD action (i.e. the corresponding CC node key must have next engine set to e_FM_PCD_DONE). - Only BMan buffers shall be used for frames to be fragmented. - IPF does not support VSP. Therefore, on the same port where we have IPF we cannot support VSP. - NOTE: The following comment is relevant only for FMAN v3 devices: IPF does not support VSP. Therefore, on the same port where we have IPF we cannot support VSP. *//***************************************************************************/ typedef struct t_FmPcdManipFragIpParams { uint16_t sizeForFragmentation; /**< If length of the frame is greater than this value, IP fragmentation will be executed.*/ #if (DPAA_VERSION == 10) uint8_t scratchBpid; /**< Absolute buffer pool id according to BM configuration.*/ #endif /* (DPAA_VERSION == 10) */ bool sgBpidEn; /**< Enable a dedicated buffer pool id for the Scatter/Gather buffer allocation; If disabled, the Scatter/Gather buffer will be allocated from the same pool as the received frame's buffer. */ uint8_t sgBpid; /**< Scatter/Gather buffer pool id; This parameters is relevant when 'sgBpidEn=TRUE'; Same LIODN number is used for these buffers as for the received frames buffers, so buffers of this pool need to be allocated in the same memory area as the received buffers. If the received buffers arrive from different sources, the Scatter/Gather BP id should be mutual to all these sources. */ e_FmPcdManipDontFragAction dontFragAction; /**< Don't Fragment Action - If an IP packet is larger than MTU and its DF bit is set, then this field will determine the action to be taken.*/ } t_FmPcdManipFragIpParams; /**************************************************************************//** @Description Parameters for configuring IP reassembly manipulation. This is a common structure for both IPv4 and IPv6 reassembly manipulation. For reassembly of both IPv4 and IPv6, make sure to set the 'hdr' field in t_FmPcdManipReassemParams to HEADER_TYPE_IPv6. Restrictions: - Application must define at least one scheme to catch the reassembled frames. - Maximum number of fragments per frame is 16. - Reassembly of IPv4 fragments containing Option fields is supported. *//***************************************************************************/ typedef struct t_FmPcdManipReassemIpParams { uint8_t relativeSchemeId[2]; /**< Partition relative scheme id: relativeSchemeId[0] - Relative scheme ID for IPV4 Reassembly manipulation; relativeSchemeId[1] - Relative scheme ID for IPV6 Reassembly manipulation; NOTE: The following comment is relevant only for FMAN v2 devices: Relative scheme ID for IPv4/IPv6 Reassembly manipulation must be smaller than the user schemes id to ensure that the reassembly schemes will be first match; Rest schemes, if defined, should have higher relative scheme ID. */ #if (DPAA_VERSION >= 11) uint32_t nonConsistentSpFqid; /**< In case that other fragments of the frame corresponds to different storage profile than the opening fragment (Non-Consistent-SP state) then one of two possible scenarios occurs: if 'nonConsistentSpFqid != 0', the reassembled frame will be enqueued to this fqid, otherwise a 'Non Consistent SP' bit will be set in the FD[status].*/ #else uint8_t sgBpid; /**< Buffer pool id for the S/G frame created by the reassembly process */ #endif /* (DPAA_VERSION >= 11) */ uint8_t dataMemId; /**< Memory partition ID for the IPR's external tables structure */ uint16_t dataLiodnOffset; /**< LIODN offset for access the IPR's external tables structure. */ uint16_t minFragSize[2]; /**< Minimum fragment size: minFragSize[0] - for ipv4, minFragSize[1] - for ipv6 */ e_FmPcdManipReassemWaysNumber numOfFramesPerHashEntry[2]; /**< Number of frames per hash entry needed for reassembly process: numOfFramesPerHashEntry[0] - for ipv4 (max value is e_FM_PCD_MANIP_EIGHT_WAYS_HASH); numOfFramesPerHashEntry[1] - for ipv6 (max value is e_FM_PCD_MANIP_SIX_WAYS_HASH). */ uint16_t maxNumFramesInProcess; /**< Number of frames which can be processed by Reassembly in the same time; Must be power of 2; In the case numOfFramesPerHashEntry == e_FM_PCD_MANIP_FOUR_WAYS_HASH, maxNumFramesInProcess has to be in the range of 4 - 512; In the case numOfFramesPerHashEntry == e_FM_PCD_MANIP_EIGHT_WAYS_HASH, maxNumFramesInProcess has to be in the range of 8 - 2048. */ e_FmPcdManipReassemTimeOutMode timeOutMode; /**< Expiration delay initialized by Reassembly process */ uint32_t fqidForTimeOutFrames; /**< FQID in which time out frames will enqueue during Time Out Process; Recommended value for this field is 0; in this way timed-out frames will be discarded */ uint32_t timeoutThresholdForReassmProcess; /**< Represents the time interval in microseconds which defines if opened frame (at least one fragment was processed but not all the fragments)is found as too old*/ } t_FmPcdManipReassemIpParams; /**************************************************************************//** @Description structure for defining IPSEC manipulation *//***************************************************************************/ typedef struct t_FmPcdManipSpecialOffloadIPSecParams { bool decryption; /**< TRUE if being used in decryption direction; FALSE if being used in encryption direction. */ bool ecnCopy; /**< TRUE to copy the ECN bits from inner/outer to outer/inner (direction depends on the 'decryption' field). */ bool dscpCopy; /**< TRUE to copy the DSCP bits from inner/outer to outer/inner (direction depends on the 'decryption' field). */ bool variableIpHdrLen; /**< TRUE for supporting variable IP header length in decryption. */ bool variableIpVersion; /**< TRUE for supporting both IP version on the same SA in encryption */ uint8_t outerIPHdrLen; /**< if 'variableIpVersion == TRUE' then this field must be set to non-zero value; It is specifies the length of the outer IP header that was configured in the corresponding SA. */ uint16_t arwSize; /**< if <> '0' then will perform ARW check for this SA; The value must be a multiplication of 16 */ uintptr_t arwAddr; /**< if arwSize <> '0' then this field must be set to non-zero value; MUST be allocated from FMAN's MURAM that the post-sec op-port belongs to; Must be 4B aligned. Required MURAM size is 'NEXT_POWER_OF_2(arwSize+32))/8+4' Bytes */ } t_FmPcdManipSpecialOffloadIPSecParams; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Parameters for configuring CAPWAP fragmentation manipulation Restrictions: - Maximum number of fragments per frame is 16. - Transmit confirmation is not supported. - Fragmentation nodes must be set as the last PCD action (i.e. the corresponding CC node key must have next engine set to e_FM_PCD_DONE). - Only BMan buffers shall be used for frames to be fragmented. - NOTE: The following comment is relevant only for FMAN v3 devices: IPF does not support VSP. Therefore, on the same port where we have IPF we cannot support VSP. *//***************************************************************************/ typedef struct t_FmPcdManipFragCapwapParams { uint16_t sizeForFragmentation; /**< If length of the frame is greater than this value, CAPWAP fragmentation will be executed.*/ bool sgBpidEn; /**< Enable a dedicated buffer pool id for the Scatter/Gather buffer allocation; If disabled, the Scatter/Gather buffer will be allocated from the same pool as the received frame's buffer. */ uint8_t sgBpid; /**< Scatter/Gather buffer pool id; This parameters is relevant when 'sgBpidEn=TRUE'; Same LIODN number is used for these buffers as for the received frames buffers, so buffers of this pool need to be allocated in the same memory area as the received buffers. If the received buffers arrive from different sources, the Scatter/Gather BP id should be mutual to all these sources. */ bool compressModeEn; /**< CAPWAP Header Options Compress Enable mode; When this mode is enabled then only the first fragment include the CAPWAP header options field (if user provides it in the input frame) and all other fragments exclude the CAPWAP options field (CAPWAP header is updated accordingly).*/ } t_FmPcdManipFragCapwapParams; /**************************************************************************//** @Description Parameters for configuring CAPWAP reassembly manipulation. Restrictions: - Application must define one scheme to catch the reassembled frames. - Maximum number of fragments per frame is 16. *//***************************************************************************/ typedef struct t_FmPcdManipReassemCapwapParams { uint8_t relativeSchemeId; /**< Partition relative scheme id; NOTE: this id must be smaller than the user schemes id to ensure that the reassembly scheme will be first match; Rest schemes, if defined, should have higher relative scheme ID. */ uint8_t dataMemId; /**< Memory partition ID for the IPR's external tables structure */ uint16_t dataLiodnOffset; /**< LIODN offset for access the IPR's external tables structure. */ uint16_t maxReassembledFrameLength;/**< The maximum CAPWAP reassembled frame length in bytes; If maxReassembledFrameLength == 0, any successful reassembled frame length is considered as a valid length; if maxReassembledFrameLength > 0, a successful reassembled frame which its length exceeds this value is considered as an error frame (FD status[CRE] bit is set). */ e_FmPcdManipReassemWaysNumber numOfFramesPerHashEntry; /**< Number of frames per hash entry needed for reassembly process */ uint16_t maxNumFramesInProcess; /**< Number of frames which can be processed by reassembly in the same time; Must be power of 2; In the case numOfFramesPerHashEntry == e_FM_PCD_MANIP_FOUR_WAYS_HASH, maxNumFramesInProcess has to be in the range of 4 - 512; In the case numOfFramesPerHashEntry == e_FM_PCD_MANIP_EIGHT_WAYS_HASH, maxNumFramesInProcess has to be in the range of 8 - 2048. */ e_FmPcdManipReassemTimeOutMode timeOutMode; /**< Expiration delay initialized by Reassembly process */ uint32_t fqidForTimeOutFrames; /**< FQID in which time out frames will enqueue during Time Out Process; Recommended value for this field is 0; in this way timed-out frames will be discarded */ uint32_t timeoutThresholdForReassmProcess; /**< Represents the time interval in microseconds which defines if opened frame (at least one fragment was processed but not all the fragments)is found as too old*/ } t_FmPcdManipReassemCapwapParams; /**************************************************************************//** @Description structure for defining CAPWAP manipulation *//***************************************************************************/ typedef struct t_FmPcdManipSpecialOffloadCapwapParams { bool dtls; /**< TRUE if continue to SEC DTLS encryption */ e_FmPcdManipHdrQosSrc qosSrc; /**< TODO */ } t_FmPcdManipSpecialOffloadCapwapParams; #endif /* (DPAA_VERSION >= 11) */ /**************************************************************************//** @Description Parameters for defining special offload manipulation *//***************************************************************************/ typedef struct t_FmPcdManipSpecialOffloadParams { e_FmPcdManipSpecialOffloadType type; /**< Type of special offload manipulation */ union { t_FmPcdManipSpecialOffloadIPSecParams ipsec; /**< Parameters for IPSec; Relevant when type = e_FM_PCD_MANIP_SPECIAL_OFFLOAD_IPSEC */ #if (DPAA_VERSION >= 11) t_FmPcdManipSpecialOffloadCapwapParams capwap; /**< Parameters for CAPWAP; Relevant when type = e_FM_PCD_MANIP_SPECIAL_OFFLOAD_CAPWAP */ #endif /* (DPAA_VERSION >= 11) */ } u; } t_FmPcdManipSpecialOffloadParams; /**************************************************************************//** @Description Parameters for defining insertion manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrt { uint8_t size; /**< size of inserted section */ uint8_t *p_Data; /**< data to be inserted */ } t_FmPcdManipHdrInsrt; /**************************************************************************//** @Description Parameters for defining generic removal manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrRmvGenericParams { uint8_t offset; /**< Offset from beginning of header to the start location of the removal */ uint8_t size; /**< Size of removed section */ } t_FmPcdManipHdrRmvGenericParams; /**************************************************************************//** @Description Parameters for defining generic insertion manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrtGenericParams { uint8_t offset; /**< Offset from beginning of header to the start location of the insertion */ uint8_t size; /**< Size of inserted section */ bool replace; /**< TRUE to override (replace) existing data at 'offset', FALSE to insert */ uint8_t *p_Data; /**< Pointer to data to be inserted */ } t_FmPcdManipHdrInsrtGenericParams; /**************************************************************************//** @Description Parameters for defining header manipulation VLAN DSCP To Vpri translation *//***************************************************************************/ typedef struct t_FmPcdManipHdrFieldUpdateVlanDscpToVpri { uint8_t dscpToVpriTable[FM_PCD_MANIP_DSCP_TO_VLAN_TRANS]; /**< A table of VPri values for each DSCP value; The index is the DSCP value (0-0x3F) and the value is the corresponding VPRI (0-15). */ uint8_t vpriDefVal; /**< 0-7, Relevant only if if updateType = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_DSCP_TO_VLAN, this field is the Q Tag default value if the IP header is not found. */ } t_FmPcdManipHdrFieldUpdateVlanDscpToVpri; /**************************************************************************//** @Description Parameters for defining header manipulation VLAN fields updates *//***************************************************************************/ typedef struct t_FmPcdManipHdrFieldUpdateVlan { e_FmPcdManipHdrFieldUpdateVlan updateType; /**< Selects VLAN update type */ union { uint8_t vpri; /**< 0-7, Relevant only if If updateType = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_VLAN_PRI, this is the new VLAN pri. */ t_FmPcdManipHdrFieldUpdateVlanDscpToVpri dscpToVpri; /**< Parameters structure, Relevant only if updateType = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_DSCP_TO_VLAN. */ } u; } t_FmPcdManipHdrFieldUpdateVlan; /**************************************************************************//** @Description Parameters for defining header manipulation IPV4 fields updates *//***************************************************************************/ typedef struct t_FmPcdManipHdrFieldUpdateIpv4 { ipv4HdrManipUpdateFlags_t validUpdates; /**< ORed flag, selecting the required updates */ uint8_t tos; /**< 8 bit New TOS; Relevant if validUpdates contains HDR_MANIP_IPV4_TOS */ uint16_t id; /**< 16 bit New IP ID; Relevant only if validUpdates contains HDR_MANIP_IPV4_ID */ uint32_t src; /**< 32 bit New IP SRC; Relevant only if validUpdates contains HDR_MANIP_IPV4_SRC */ uint32_t dst; /**< 32 bit New IP DST; Relevant only if validUpdates contains HDR_MANIP_IPV4_DST */ } t_FmPcdManipHdrFieldUpdateIpv4; /**************************************************************************//** @Description Parameters for defining header manipulation IPV6 fields updates *//***************************************************************************/ typedef struct t_FmPcdManipHdrFieldUpdateIpv6 { ipv6HdrManipUpdateFlags_t validUpdates; /**< ORed flag, selecting the required updates */ uint8_t trafficClass; /**< 8 bit New Traffic Class; Relevant if validUpdates contains HDR_MANIP_IPV6_TC */ uint8_t src[NET_HEADER_FIELD_IPv6_ADDR_SIZE]; /**< 16 byte new IP SRC; Relevant only if validUpdates contains HDR_MANIP_IPV6_SRC */ uint8_t dst[NET_HEADER_FIELD_IPv6_ADDR_SIZE]; /**< 16 byte new IP DST; Relevant only if validUpdates contains HDR_MANIP_IPV6_DST */ } t_FmPcdManipHdrFieldUpdateIpv6; /**************************************************************************//** @Description Parameters for defining header manipulation TCP/UDP fields updates *//***************************************************************************/ typedef struct t_FmPcdManipHdrFieldUpdateTcpUdp { tcpUdpHdrManipUpdateFlags_t validUpdates; /**< ORed flag, selecting the required updates */ uint16_t src; /**< 16 bit New TCP/UDP SRC; Relevant only if validUpdates contains HDR_MANIP_TCP_UDP_SRC */ uint16_t dst; /**< 16 bit New TCP/UDP DST; Relevant only if validUpdates contains HDR_MANIP_TCP_UDP_DST */ } t_FmPcdManipHdrFieldUpdateTcpUdp; /**************************************************************************//** @Description Parameters for defining header manipulation fields updates *//***************************************************************************/ typedef struct t_FmPcdManipHdrFieldUpdateParams { e_FmPcdManipHdrFieldUpdateType type; /**< Type of header field update manipulation */ union { t_FmPcdManipHdrFieldUpdateVlan vlan; /**< Parameters for VLAN update. Relevant when type = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_VLAN */ t_FmPcdManipHdrFieldUpdateIpv4 ipv4; /**< Parameters for IPv4 update. Relevant when type = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_IPV4 */ t_FmPcdManipHdrFieldUpdateIpv6 ipv6; /**< Parameters for IPv6 update. Relevant when type = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_IPV6 */ t_FmPcdManipHdrFieldUpdateTcpUdp tcpUdp; /**< Parameters for TCP/UDP update. Relevant when type = e_FM_PCD_MANIP_HDR_FIELD_UPDATE_TCP_UDP */ } u; } t_FmPcdManipHdrFieldUpdateParams; /**************************************************************************//** @Description Parameters for defining custom header manipulation for generic field replacement *//***************************************************************************/ typedef struct t_FmPcdManipHdrCustomGenFieldReplace { uint8_t srcOffset; /**< Location of new data - Offset from Parse Result (>= 16, srcOffset+size <= 32, ) */ uint8_t dstOffset; /**< Location of data to be overwritten - Offset from start of frame (dstOffset + size <= 256). */ uint8_t size; /**< The number of bytes (<=16) to be replaced */ uint8_t mask; /**< Optional 1 byte mask. Set to select bits for replacement (1 - bit will be replaced); Clear to use field as is. */ uint8_t maskOffset; /**< Relevant if mask != 0; Mask offset within the replaces "size" */ } t_FmPcdManipHdrCustomGenFieldReplace; /**************************************************************************//** @Description Parameters for defining custom header manipulation for IP replacement *//***************************************************************************/ typedef struct t_FmPcdManipHdrCustomIpHdrReplace { e_FmPcdManipHdrCustomIpReplace replaceType; /**< Selects replace update type */ bool decTtlHl; /**< Decrement TTL (IPV4) or Hop limit (IPV6) by 1 */ bool updateIpv4Id; /**< Relevant when replaceType = e_FM_PCD_MANIP_HDR_CUSTOM_REPLACE_IPV6_BY_IPV4 */ uint16_t id; /**< 16 bit New IP ID; Relevant only if updateIpv4Id = TRUE */ uint8_t hdrSize; /**< The size of the new IP header */ uint8_t hdr[FM_PCD_MANIP_MAX_HDR_SIZE]; /**< The new IP header */ } t_FmPcdManipHdrCustomIpHdrReplace; /**************************************************************************//** @Description Parameters for defining custom header manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrCustomParams { e_FmPcdManipHdrCustomType type; /**< Type of header field update manipulation */ union { t_FmPcdManipHdrCustomIpHdrReplace ipHdrReplace; /**< Parameters IP header replacement */ t_FmPcdManipHdrCustomGenFieldReplace genFieldReplace; /**< Parameters IP header replacement */ } u; } t_FmPcdManipHdrCustomParams; /**************************************************************************//** @Description Parameters for defining specific L2 insertion manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrtSpecificL2Params { e_FmPcdManipHdrInsrtSpecificL2 specificL2; /**< Selects which L2 headers to insert */ bool update; /**< TRUE to update MPLS header */ uint8_t size; /**< size of inserted section */ uint8_t *p_Data; /**< data to be inserted */ } t_FmPcdManipHdrInsrtSpecificL2Params; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Parameters for defining IP insertion manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrtIpParams { bool calcL4Checksum; /**< Calculate L4 checksum. */ e_FmPcdManipHdrQosMappingMode mappingMode; /**< TODO */ uint8_t lastPidOffset; /**< the offset of the last Protocol within the inserted header */ uint16_t id; /**< 16 bit New IP ID */ bool dontFragOverwrite; /**< IPv4 only. DF is overwritten with the hash-result next-to-last byte. * This byte is configured to be overwritten when RPD is set. */ uint8_t lastDstOffset; /**< IPv6 only. if routing extension exist, user should set the offset of the destination address * in order to calculate UDP checksum pseudo header; * Otherwise set it to '0'. */ t_FmPcdManipHdrInsrt insrt; /**< size and data to be inserted. */ } t_FmPcdManipHdrInsrtIpParams; #endif /* (DPAA_VERSION >= 11) */ /**************************************************************************//** @Description Parameters for defining header insertion manipulation by header type *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrtByHdrParams { e_FmPcdManipHdrInsrtByHdrType type; /**< Selects manipulation type */ union { t_FmPcdManipHdrInsrtSpecificL2Params specificL2Params; /**< Used when type = e_FM_PCD_MANIP_INSRT_BY_HDR_SPECIFIC_L2: Selects which L2 headers to insert */ #if (DPAA_VERSION >= 11) t_FmPcdManipHdrInsrtIpParams ipParams; /**< Used when type = e_FM_PCD_MANIP_INSRT_BY_HDR_IP */ t_FmPcdManipHdrInsrt insrt; /**< Used when type is one of e_FM_PCD_MANIP_INSRT_BY_HDR_UDP, e_FM_PCD_MANIP_INSRT_BY_HDR_UDP_LITE, or e_FM_PCD_MANIP_INSRT_BY_HDR_CAPWAP */ #endif /* (DPAA_VERSION >= 11) */ } u; } t_FmPcdManipHdrInsrtByHdrParams; /**************************************************************************//** @Description Parameters for defining header insertion manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrInsrtParams { e_FmPcdManipHdrInsrtType type; /**< Type of insertion manipulation */ union { t_FmPcdManipHdrInsrtByHdrParams byHdr; /**< Parameters for defining header insertion manipulation by header type, relevant if 'type' = e_FM_PCD_MANIP_INSRT_BY_HDR */ t_FmPcdManipHdrInsrtGenericParams generic; /**< Parameters for defining generic header insertion manipulation, relevant if 'type' = e_FM_PCD_MANIP_INSRT_GENERIC */ #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) t_FmPcdManipHdrInsrtByTemplateParams byTemplate; /**< Parameters for defining header insertion manipulation by template, relevant if 'type' = e_FM_PCD_MANIP_INSRT_BY_TEMPLATE */ #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ } u; } t_FmPcdManipHdrInsrtParams; /**************************************************************************//** @Description Parameters for defining header removal manipulation *//***************************************************************************/ typedef struct t_FmPcdManipHdrRmvParams { e_FmPcdManipHdrRmvType type; /**< Type of header removal manipulation */ union { t_FmPcdManipHdrRmvByHdrParams byHdr; /**< Parameters for defining header removal manipulation by header type, relevant if type = e_FM_PCD_MANIP_RMV_BY_HDR */ t_FmPcdManipHdrRmvGenericParams generic; /**< Parameters for defining generic header removal manipulation, relevant if type = e_FM_PCD_MANIP_RMV_GENERIC */ } u; } t_FmPcdManipHdrRmvParams; /**************************************************************************//** @Description Parameters for defining header manipulation node *//***************************************************************************/ typedef struct t_FmPcdManipHdrParams { bool rmv; /**< TRUE, to define removal manipulation */ t_FmPcdManipHdrRmvParams rmvParams; /**< Parameters for removal manipulation, relevant if 'rmv' = TRUE */ bool insrt; /**< TRUE, to define insertion manipulation */ t_FmPcdManipHdrInsrtParams insrtParams; /**< Parameters for insertion manipulation, relevant if 'insrt' = TRUE */ bool fieldUpdate; /**< TRUE, to define field update manipulation */ t_FmPcdManipHdrFieldUpdateParams fieldUpdateParams; /**< Parameters for field update manipulation, relevant if 'fieldUpdate' = TRUE */ bool custom; /**< TRUE, to define custom manipulation */ t_FmPcdManipHdrCustomParams customParams; /**< Parameters for custom manipulation, relevant if 'custom' = TRUE */ bool dontParseAfterManip;/**< TRUE to de-activate the parser after the manipulation defined in this node. Restrictions: 1. MUST be set if the next engine after the CC is not another CC node (but rather Policer or Keygen), and this is the last (no h_NextManip) in a chain of manipulation nodes. This includes single nodes (i.e. no h_NextManip and also never pointed as h_NextManip of other manipulation nodes) 2. MUST be set if the next engine after the CC is another CC node, and this is NOT the last manipulation node (i.e. it has h_NextManip).*/ } t_FmPcdManipHdrParams; /**************************************************************************//** @Description Parameters for defining fragmentation manipulation *//***************************************************************************/ typedef struct t_FmPcdManipFragParams { e_NetHeaderType hdr; /**< Header selection */ union { #if (DPAA_VERSION >= 11) t_FmPcdManipFragCapwapParams capwapFrag; /**< Parameters for defining CAPWAP fragmentation, relevant if 'hdr' = HEADER_TYPE_CAPWAP */ #endif /* (DPAA_VERSION >= 11) */ t_FmPcdManipFragIpParams ipFrag; /**< Parameters for defining IP fragmentation, relevant if 'hdr' = HEADER_TYPE_Ipv4 or HEADER_TYPE_Ipv6 */ } u; } t_FmPcdManipFragParams; /**************************************************************************//** @Description Parameters for defining reassembly manipulation *//***************************************************************************/ typedef struct t_FmPcdManipReassemParams { e_NetHeaderType hdr; /**< Header selection */ union { #if (DPAA_VERSION >= 11) t_FmPcdManipReassemCapwapParams capwapReassem; /**< Parameters for defining CAPWAP reassembly, relevant if 'hdr' = HEADER_TYPE_CAPWAP */ #endif /* (DPAA_VERSION >= 11) */ t_FmPcdManipReassemIpParams ipReassem; /**< Parameters for defining IP reassembly, relevant if 'hdr' = HEADER_TYPE_Ipv4 or HEADER_TYPE_Ipv6 */ } u; } t_FmPcdManipReassemParams; /**************************************************************************//** @Description Parameters for defining a manipulation node *//***************************************************************************/ typedef struct t_FmPcdManipParams { e_FmPcdManipType type; /**< Selects type of manipulation node */ union{ t_FmPcdManipHdrParams hdr; /**< Parameters for defining header manipulation node */ t_FmPcdManipReassemParams reassem; /**< Parameters for defining reassembly manipulation node */ t_FmPcdManipFragParams frag; /**< Parameters for defining fragmentation manipulation node */ t_FmPcdManipSpecialOffloadParams specialOffload; /**< Parameters for defining special offload manipulation node */ } u; t_Handle h_NextManip; /**< Supported for Header Manipulation only; Handle to another (previously defined) manipulation node; Allows concatenation of manipulation actions; This parameter is optional and may be NULL. */ #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) bool fragOrReasm; /**< TRUE, if defined fragmentation/reassembly manipulation */ t_FmPcdManipFragOrReasmParams fragOrReasmParams; /**< Parameters for fragmentation/reassembly manipulation, relevant if fragOrReasm = TRUE */ #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ } t_FmPcdManipParams; /**************************************************************************//** @Description Structure for retrieving IP reassembly statistics *//***************************************************************************/ typedef struct t_FmPcdManipReassemIpStats { /* common counters for both IPv4 and IPv6 */ uint32_t timeout; /**< Counts the number of timeout occurrences */ uint32_t rfdPoolBusy; /**< Counts the number of failed attempts to allocate a Reassembly Frame Descriptor */ uint32_t internalBufferBusy; /**< Counts the number of times an internal buffer busy occurred */ uint32_t externalBufferBusy; /**< Counts the number of times external buffer busy occurred */ uint32_t sgFragments; /**< Counts the number of Scatter/Gather fragments */ uint32_t dmaSemaphoreDepletion; /**< Counts the number of failed attempts to allocate a DMA semaphore */ #if (DPAA_VERSION >= 11) uint32_t nonConsistentSp; /**< Counts the number of Non Consistent Storage Profile events for successfully reassembled frames */ #endif /* (DPAA_VERSION >= 11) */ struct { uint32_t successfullyReassembled; /**< Counts the number of successfully reassembled frames */ uint32_t validFragments; /**< Counts the total number of valid fragments that have been processed for all frames */ uint32_t processedFragments; /**< Counts the number of processed fragments (valid and error fragments) for all frames */ uint32_t malformedFragments; /**< Counts the number of malformed fragments processed for all frames */ uint32_t discardedFragments; /**< Counts the number of fragments discarded by the reassembly process */ uint32_t autoLearnBusy; /**< Counts the number of times a busy condition occurs when attempting to access an IP-Reassembly Automatic Learning Hash set */ uint32_t moreThan16Fragments; /**< Counts the fragment occurrences in which the number of fragments-per-frame exceeds 16 */ } specificHdrStatistics[2]; /**< slot '0' is for IPv4, slot '1' is for IPv6 */ } t_FmPcdManipReassemIpStats; /**************************************************************************//** @Description Structure for retrieving IP fragmentation statistics *//***************************************************************************/ typedef struct t_FmPcdManipFragIpStats { uint32_t totalFrames; /**< Number of frames that passed through the manipulation node */ uint32_t fragmentedFrames; /**< Number of frames that were fragmented */ uint32_t generatedFragments; /**< Number of fragments that were generated */ } t_FmPcdManipFragIpStats; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Structure for retrieving CAPWAP reassembly statistics *//***************************************************************************/ typedef struct t_FmPcdManipReassemCapwapStats { uint32_t timeout; /**< Counts the number of timeout occurrences */ uint32_t rfdPoolBusy; /**< Counts the number of failed attempts to allocate a Reassembly Frame Descriptor */ uint32_t internalBufferBusy; /**< Counts the number of times an internal buffer busy occurred */ uint32_t externalBufferBusy; /**< Counts the number of times external buffer busy occurred */ uint32_t sgFragments; /**< Counts the number of Scatter/Gather fragments */ uint32_t dmaSemaphoreDepletion; /**< Counts the number of failed attempts to allocate a DMA semaphore */ uint32_t successfullyReassembled; /**< Counts the number of successfully reassembled frames */ uint32_t validFragments; /**< Counts the total number of valid fragments that have been processed for all frames */ uint32_t processedFragments; /**< Counts the number of processed fragments (valid and error fragments) for all frames */ uint32_t malformedFragments; /**< Counts the number of malformed fragments processed for all frames */ uint32_t autoLearnBusy; /**< Counts the number of times a busy condition occurs when attempting to access an Reassembly Automatic Learning Hash set */ uint32_t discardedFragments; /**< Counts the number of fragments discarded by the reassembly process */ uint32_t moreThan16Fragments; /**< Counts the fragment occurrences in which the number of fragments-per-frame exceeds 16 */ uint32_t exceedMaxReassemblyFrameLen;/**< ounts the number of times that a successful reassembled frame length exceeds MaxReassembledFrameLength value */ } t_FmPcdManipReassemCapwapStats; /**************************************************************************//** @Description Structure for retrieving CAPWAP fragmentation statistics *//***************************************************************************/ typedef struct t_FmPcdManipFragCapwapStats { uint32_t totalFrames; /**< Number of frames that passed through the manipulation node */ uint32_t fragmentedFrames; /**< Number of frames that were fragmented */ uint32_t generatedFragments; /**< Number of fragments that were generated */ #if (defined(DEBUG_ERRORS) && (DEBUG_ERRORS > 0)) uint8_t sgAllocationFailure; /**< Number of allocation failure of s/g buffers */ #endif /* (defined(DEBUG_ERRORS) && (DEBUG_ERRORS > 0)) */ } t_FmPcdManipFragCapwapStats; #endif /* (DPAA_VERSION >= 11) */ /**************************************************************************//** @Description Structure for retrieving reassembly statistics *//***************************************************************************/ typedef struct t_FmPcdManipReassemStats { union { t_FmPcdManipReassemIpStats ipReassem; /**< Structure for IP reassembly statistics */ #if (DPAA_VERSION >= 11) t_FmPcdManipReassemCapwapStats capwapReassem; /**< Structure for CAPWAP reassembly statistics */ #endif /* (DPAA_VERSION >= 11) */ } u; } t_FmPcdManipReassemStats; /**************************************************************************//** @Description Structure for retrieving fragmentation statistics *//***************************************************************************/ typedef struct t_FmPcdManipFragStats { union { t_FmPcdManipFragIpStats ipFrag; /**< Structure for IP fragmentation statistics */ #if (DPAA_VERSION >= 11) t_FmPcdManipFragCapwapStats capwapFrag; /**< Structure for CAPWAP fragmentation statistics */ #endif /* (DPAA_VERSION >= 11) */ } u; } t_FmPcdManipFragStats; /**************************************************************************//** @Description Structure for selecting manipulation statistics *//***************************************************************************/ typedef struct t_FmPcdManipStats { union { t_FmPcdManipReassemStats reassem; /**< Structure for reassembly statistics */ t_FmPcdManipFragStats frag; /**< Structure for fragmentation statistics */ } u; } t_FmPcdManipStats; #if (DPAA_VERSION >= 11) /**************************************************************************//** @Description Parameters for defining frame replicator group and its members *//***************************************************************************/ typedef struct t_FmPcdFrmReplicGroupParams { uint8_t maxNumOfEntries; /**< Maximal number of members in the group; Must be at least 2. */ uint8_t numOfEntries; /**< Number of members in the group; Must be at least 1. */ t_FmPcdCcNextEngineParams nextEngineParams[FM_PCD_FRM_REPLIC_MAX_NUM_OF_ENTRIES]; /**< Array of members' parameters */ } t_FmPcdFrmReplicGroupParams; #endif /* (DPAA_VERSION >= 11) */ #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) /**************************************************************************//** @Description structure for defining statistics node *//***************************************************************************/ typedef struct t_FmPcdStatsParams { e_FmPcdStatsType type; /**< type of statistics node */ } t_FmPcdStatsParams; #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ /**************************************************************************//** @Function FM_PCD_NetEnvCharacteristicsSet @Description Define a set of Network Environment Characteristics. When setting an environment it is important to understand its application. It is not meant to describe the flows that will run on the ports using this environment, but what the user means TO DO with the PCD mechanisms in order to parse-classify-distribute those frames. By specifying a distinction unit, the user means it would use that option for distinction between frames at either a KeyGen scheme or a coarse classification action descriptor. Using interchangeable headers to define a unit means that the user is indifferent to which of the interchangeable headers is present in the frame, and wants the distinction to be based on the presence of either one of them. Depending on context, there are limitations to the use of environments. A port using the PCD functionality is bound to an environment. Some or even all ports may share an environment but also an environment per port is possible. When initializing a scheme, a classification plan group (see below), or a coarse classification tree, one of the initialized environments must be stated and related to. When a port is bound to a scheme, a classification plan group, or a coarse classification tree, it MUST be bound to the same environment. The different PCD modules, may relate (for flows definition) ONLY on distinction units as defined by their environment. When initializing a scheme for example, it may not choose to select IPV4 as a match for recognizing flows unless it was defined in the relating environment. In fact, to guide the user through the configuration of the PCD, each module's characterization in terms of flows is not done using protocol names, but using environment indexes. In terms of HW implementation, the list of distinction units sets the LCV vectors and later used for match vector, classification plan vectors and coarse classification indexing. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_NetEnvParams A structure of parameters for the initialization of the network environment. @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_NetEnvCharacteristicsSet(t_Handle h_FmPcd, t_FmPcdNetEnvParams *p_NetEnvParams); /**************************************************************************//** @Function FM_PCD_NetEnvCharacteristicsDelete @Description Deletes a set of Network Environment Characteristics. @Param[in] h_NetEnv A handle to the Network environment. @Return E_OK on success; Error code otherwise. *//***************************************************************************/ t_Error FM_PCD_NetEnvCharacteristicsDelete(t_Handle h_NetEnv); /**************************************************************************//** @Function FM_PCD_KgSchemeSet @Description Initializing or modifying and enabling a scheme for the KeyGen. This routine should be called for adding or modifying a scheme. When a scheme needs modifying, the API requires that it will be rewritten. In such a case 'modify' should be TRUE. If the routine is called for a valid scheme and 'modify' is FALSE, it will return error. @Param[in] h_FmPcd If this is a new scheme - A handle to an FM PCD Module. Otherwise NULL (ignored by driver). @Param[in,out] p_SchemeParams A structure of parameters for defining the scheme @Return A handle to the initialized scheme on success; NULL code otherwise. When used as "modify" (rather than for setting a new scheme), p_SchemeParams->id.h_Scheme will return NULL if action fails due to scheme BUSY state. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_KgSchemeSet(t_Handle h_FmPcd, t_FmPcdKgSchemeParams *p_SchemeParams); /**************************************************************************//** @Function FM_PCD_KgSchemeDelete @Description Deleting an initialized scheme. @Param[in] h_Scheme scheme handle as returned by FM_PCD_KgSchemeSet() @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() & FM_PCD_KgSchemeSet(). *//***************************************************************************/ t_Error FM_PCD_KgSchemeDelete(t_Handle h_Scheme); /**************************************************************************//** @Function FM_PCD_KgSchemeGetCounter @Description Reads scheme packet counter. @Param[in] h_Scheme scheme handle as returned by FM_PCD_KgSchemeSet(). @Return Counter's current value. @Cautions Allowed only following FM_PCD_Init() & FM_PCD_KgSchemeSet(). *//***************************************************************************/ uint32_t FM_PCD_KgSchemeGetCounter(t_Handle h_Scheme); /**************************************************************************//** @Function FM_PCD_KgSchemeSetCounter @Description Writes scheme packet counter. @Param[in] h_Scheme scheme handle as returned by FM_PCD_KgSchemeSet(). @Param[in] value New scheme counter value - typically '0' for resetting the counter. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init() & FM_PCD_KgSchemeSet(). *//***************************************************************************/ t_Error FM_PCD_KgSchemeSetCounter(t_Handle h_Scheme, uint32_t value); /**************************************************************************//** @Function FM_PCD_PlcrProfileSet @Description Sets a profile entry in the policer profile table. The routine overrides any existing value. @Param[in] h_FmPcd A handle to an FM PCD Module. @Param[in] p_Profile A structure of parameters for defining a policer profile entry. @Return A handle to the initialized object on success; NULL code otherwise. When used as "modify" (rather than for setting a new profile), p_Profile->id.h_Profile will return NULL if action fails due to profile BUSY state. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_PlcrProfileSet(t_Handle h_FmPcd, t_FmPcdPlcrProfileParams *p_Profile); /**************************************************************************//** @Function FM_PCD_PlcrProfileDelete @Description Delete a profile entry in the policer profile table. The routine set entry to invalid. @Param[in] h_Profile A handle to the profile. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Error FM_PCD_PlcrProfileDelete(t_Handle h_Profile); /**************************************************************************//** @Function FM_PCD_PlcrProfileGetCounter @Description Sets an entry in the classification plan. The routine overrides any existing value. @Param[in] h_Profile A handle to the profile. @Param[in] counter Counter selector. @Return specific counter value. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ uint32_t FM_PCD_PlcrProfileGetCounter(t_Handle h_Profile, e_FmPcdPlcrProfileCounters counter); /**************************************************************************//** @Function FM_PCD_PlcrProfileSetCounter @Description Sets an entry in the classification plan. The routine overrides any existing value. @Param[in] h_Profile A handle to the profile. @Param[in] counter Counter selector. @Param[in] value value to set counter with. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Error FM_PCD_PlcrProfileSetCounter(t_Handle h_Profile, e_FmPcdPlcrProfileCounters counter, uint32_t value); /**************************************************************************//** @Function FM_PCD_CcRootBuild @Description This routine must be called to define a complete coarse classification tree. This is the way to define coarse classification to a certain flow - the KeyGen schemes may point only to trees defined in this way. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_Params A structure of parameters to define the tree. @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_CcRootBuild (t_Handle h_FmPcd, t_FmPcdCcTreeParams *p_Params); /**************************************************************************//** @Function FM_PCD_CcRootDelete @Description Deleting an built tree. @Param[in] h_CcTree A handle to a CC tree. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Error FM_PCD_CcRootDelete(t_Handle h_CcTree); /**************************************************************************//** @Function FM_PCD_CcRootModifyNextEngine @Description Modify the Next Engine Parameters in the entry of the tree. @Param[in] h_CcTree A handle to the tree @Param[in] grpId A Group index in the tree @Param[in] index Entry index in the group defined by grpId @Param[in] p_FmPcdCcNextEngineParams Pointer to new next engine parameters @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_CcBuildTree(). *//***************************************************************************/ t_Error FM_PCD_CcRootModifyNextEngine(t_Handle h_CcTree, uint8_t grpId, uint8_t index, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//** @Function FM_PCD_MatchTableSet @Description This routine should be called for each CC (coarse classification) node. The whole CC tree should be built bottom up so that each node points to already defined nodes. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_Param A structure of parameters defining the CC node @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_MatchTableSet(t_Handle h_FmPcd, t_FmPcdCcNodeParams *p_Param); /**************************************************************************//** @Function FM_PCD_MatchTableDelete @Description Deleting an built node. @Param[in] h_CcNode A handle to a CC node. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Error FM_PCD_MatchTableDelete(t_Handle h_CcNode); /**************************************************************************//** @Function FM_PCD_MatchTableModifyMissNextEngine @Description Modify the Next Engine Parameters of the Miss key case of the node. @Param[in] h_CcNode A handle to the node @Param[in] p_FmPcdCcNextEngineParams Parameters for defining next engine @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet(); Not relevant in the case the node is of type 'INDEXED_LOOKUP'. When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_MatchTableModifyMissNextEngine(t_Handle h_CcNode, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//** @Function FM_PCD_MatchTableRemoveKey @Description Remove the key (including next engine parameters of this key) defined by the index of the relevant node. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for removing @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. *//***************************************************************************/ t_Error FM_PCD_MatchTableRemoveKey(t_Handle h_CcNode, uint16_t keyIndex); /**************************************************************************//** @Function FM_PCD_MatchTableAddKey @Description Add the key (including next engine parameters of this key in the index defined by the keyIndex. Note that 'FM_PCD_LAST_KEY_INDEX' may be used by user that don't care about the position of the key in the table - in that case, the key will be automatically added by the driver in the last available entry. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for adding. @Param[in] keySize Key size of added key @Param[in] p_KeyParams A pointer to the parameters includes new key with Next Engine Parameters @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. *//***************************************************************************/ t_Error FM_PCD_MatchTableAddKey(t_Handle h_CcNode, uint16_t keyIndex, uint8_t keySize, t_FmPcdCcKeyParams *p_KeyParams); /**************************************************************************//** @Function FM_PCD_MatchTableModifyNextEngine @Description Modify the Next Engine Parameters in the relevant key entry of the node. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for Next Engine modifications @Param[in] p_FmPcdCcNextEngineParams Parameters for defining next engine @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet(). When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_MatchTableModifyNextEngine(t_Handle h_CcNode, uint16_t keyIndex, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//** @Function FM_PCD_MatchTableModifyKeyAndNextEngine @Description Modify the key and Next Engine Parameters of this key in the index defined by the keyIndex. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for adding @Param[in] keySize Key size of added key @Param[in] p_KeyParams A pointer to the parameters includes modified key and modified Next Engine Parameters @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_MatchTableModifyKeyAndNextEngine(t_Handle h_CcNode, uint16_t keyIndex, uint8_t keySize, t_FmPcdCcKeyParams *p_KeyParams); /**************************************************************************//** @Function FM_PCD_MatchTableModifyKey @Description Modify the key in the index defined by the keyIndex. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for adding @Param[in] keySize Key size of added key @Param[in] p_Key A pointer to the new key @Param[in] p_Mask A pointer to the new mask if relevant, otherwise pointer to NULL @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. *//***************************************************************************/ t_Error FM_PCD_MatchTableModifyKey(t_Handle h_CcNode, uint16_t keyIndex, uint8_t keySize, uint8_t *p_Key, uint8_t *p_Mask); /**************************************************************************//** @Function FM_PCD_MatchTableFindNRemoveKey @Description Remove the key (including next engine parameters of this key) defined by the key and mask. Note that this routine will search the node to locate the index of the required key (& mask) to remove. @Param[in] h_CcNode A handle to the node @Param[in] keySize Key size of the one to remove. @Param[in] p_Key A pointer to the requested key to remove. @Param[in] p_Mask A pointer to the mask if relevant, otherwise pointer to NULL @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. *//***************************************************************************/ t_Error FM_PCD_MatchTableFindNRemoveKey(t_Handle h_CcNode, uint8_t keySize, uint8_t *p_Key, uint8_t *p_Mask); /**************************************************************************//** @Function FM_PCD_MatchTableFindNModifyNextEngine @Description Modify the Next Engine Parameters in the relevant key entry of the node. Note that this routine will search the node to locate the index of the required key (& mask) to modify. @Param[in] h_CcNode A handle to the node @Param[in] keySize Key size of the one to modify. @Param[in] p_Key A pointer to the requested key to modify. @Param[in] p_Mask A pointer to the mask if relevant, otherwise pointer to NULL @Param[in] p_FmPcdCcNextEngineParams Parameters for defining next engine @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet(). When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_MatchTableFindNModifyNextEngine(t_Handle h_CcNode, uint8_t keySize, uint8_t *p_Key, uint8_t *p_Mask, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//** @Function FM_PCD_MatchTableFindNModifyKeyAndNextEngine @Description Modify the key and Next Engine Parameters of this key in the index defined by the keyIndex. Note that this routine will search the node to locate the index of the required key (& mask) to modify. @Param[in] h_CcNode A handle to the node @Param[in] keySize Key size of the one to modify. @Param[in] p_Key A pointer to the requested key to modify. @Param[in] p_Mask A pointer to the mask if relevant, otherwise pointer to NULL @Param[in] p_KeyParams A pointer to the parameters includes modified key and modified Next Engine Parameters @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_MatchTableFindNModifyKeyAndNextEngine(t_Handle h_CcNode, uint8_t keySize, uint8_t *p_Key, uint8_t *p_Mask, t_FmPcdCcKeyParams *p_KeyParams); /**************************************************************************//** @Function FM_PCD_MatchTableFindNModifyKey @Description Modify the key in the index defined by the keyIndex. Note that this routine will search the node to locate the index of the required key (& mask) to modify. @Param[in] h_CcNode A handle to the node @Param[in] keySize Key size of the one to modify. @Param[in] p_Key A pointer to the requested key to modify. @Param[in] p_Mask A pointer to the mask if relevant, otherwise pointer to NULL @Param[in] p_NewKey A pointer to the new key @Param[in] p_NewMask A pointer to the new mask if relevant, otherwise pointer to NULL @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_MatchTableSet() was called for this node and the nodes that lead to it. *//***************************************************************************/ t_Error FM_PCD_MatchTableFindNModifyKey(t_Handle h_CcNode, uint8_t keySize, uint8_t *p_Key, uint8_t *p_Mask, uint8_t *p_NewKey, uint8_t *p_NewMask); /**************************************************************************//** @Function FM_PCD_MatchTableGetKeyCounter @Description This routine may be used to get a counter of specific key in a CC Node; This counter reflects how many frames passed that were matched this key. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for adding @Return The specific key counter. @Cautions Allowed only following FM_PCD_MatchTableSet(). *//***************************************************************************/ uint32_t FM_PCD_MatchTableGetKeyCounter(t_Handle h_CcNode, uint16_t keyIndex); /**************************************************************************//** @Function FM_PCD_MatchTableGetKeyStatistics @Description This routine may be used to get statistics counters of specific key in a CC Node. If 'e_FM_PCD_CC_STATS_MODE_FRAME' and 'e_FM_PCD_CC_STATS_MODE_BYTE_AND_FRAME' were set for this node, these counters reflect how many frames passed that were matched this key; The total frames count will be returned in the counter of the first range (as only one frame length range was defined). If 'e_FM_PCD_CC_STATS_MODE_RMON' was set for this node, the total frame count will be separated to frame length counters, based on provided frame length ranges. @Param[in] h_CcNode A handle to the node @Param[in] keyIndex Key index for adding @Param[out] p_KeyStatistics Key statistics counters @Return The specific key statistics. @Cautions Allowed only following FM_PCD_MatchTableSet(). *//***************************************************************************/ t_Error FM_PCD_MatchTableGetKeyStatistics(t_Handle h_CcNode, uint16_t keyIndex, t_FmPcdCcKeyStatistics *p_KeyStatistics); /**************************************************************************//** @Function FM_PCD_MatchTableGetMissStatistics @Description This routine may be used to get statistics counters of miss entry in a CC Node. If 'e_FM_PCD_CC_STATS_MODE_FRAME' and 'e_FM_PCD_CC_STATS_MODE_BYTE_AND_FRAME' were set for this node, these counters reflect how many frames were not matched to any existing key and therefore passed through the miss entry; The total frames count will be returned in the counter of the first range (as only one frame length range was defined). @Param[in] h_CcNode A handle to the node @Param[out] p_MissStatistics Statistics counters for 'miss' @Return The statistics for 'miss'. @Cautions Allowed only following FM_PCD_MatchTableSet(). *//***************************************************************************/ t_Error FM_PCD_MatchTableGetMissStatistics(t_Handle h_CcNode, t_FmPcdCcKeyStatistics *p_MissStatistics); /**************************************************************************//** @Function FM_PCD_MatchTableFindNGetKeyStatistics @Description This routine may be used to get statistics counters of specific key in a CC Node. If 'e_FM_PCD_CC_STATS_MODE_FRAME' and 'e_FM_PCD_CC_STATS_MODE_BYTE_AND_FRAME' were set for this node, these counters reflect how many frames passed that were matched this key; The total frames count will be returned in the counter of the first range (as only one frame length range was defined). If 'e_FM_PCD_CC_STATS_MODE_RMON' was set for this node, the total frame count will be separated to frame length counters, based on provided frame length ranges. Note that this routine will search the node to locate the index of the required key based on received key parameters. @Param[in] h_CcNode A handle to the node @Param[in] keySize Size of the requested key @Param[in] p_Key A pointer to the requested key @Param[in] p_Mask A pointer to the mask if relevant, otherwise pointer to NULL @Param[out] p_KeyStatistics Key statistics counters @Return The specific key statistics. @Cautions Allowed only following FM_PCD_MatchTableSet(). *//***************************************************************************/ t_Error FM_PCD_MatchTableFindNGetKeyStatistics(t_Handle h_CcNode, uint8_t keySize, uint8_t *p_Key, uint8_t *p_Mask, t_FmPcdCcKeyStatistics *p_KeyStatistics); /**************************************************************************//* @Function FM_PCD_MatchTableGetNextEngine @Description Gets NextEngine of the relevant keyIndex. @Param[in] h_CcNode A handle to the node. @Param[in] keyIndex keyIndex in the relevant node. @Param[out] p_FmPcdCcNextEngineParams here updated nextEngine parameters for the relevant keyIndex of the CC Node received as parameter to this function @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Error FM_PCD_MatchTableGetNextEngine(t_Handle h_CcNode, uint16_t keyIndex, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//* @Function FM_PCD_MatchTableGetIndexedHashBucket @Description This routine simulates KeyGen operation on the provided key and calculates to which hash bucket it will be mapped. @Param[in] h_CcNode A handle to the node. @Param[in] kgKeySize Key size as it was configured in the KG scheme that leads to this hash. @Param[in] p_KgKey Pointer to the key; must be like the key that the KG is generated, i.e. the same extraction and with mask if exist. @Param[in] kgHashShift Hash-shift as it was configured in the KG scheme that leads to this hash. @Param[out] p_CcNodeBucketHandle Pointer to the bucket of the provided key. @Param[out] p_BucketIndex Index to the bucket of the provided key @Param[out] p_LastIndex Pointer to last index in the bucket of the provided key. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet() *//***************************************************************************/ t_Error FM_PCD_MatchTableGetIndexedHashBucket(t_Handle h_CcNode, uint8_t kgKeySize, uint8_t *p_KgKey, uint8_t kgHashShift, t_Handle *p_CcNodeBucketHandle, uint8_t *p_BucketIndex, uint16_t *p_LastIndex); /**************************************************************************//** @Function FM_PCD_HashTableSet @Description This routine initializes a hash table structure. KeyGen hash result determines the hash bucket. Next, KeyGen key is compared against all keys of this bucket (exact match). Number of sets (number of buckets) of the hash equals to the number of 1-s in 'hashResMask' in the provided parameters. Number of hash table ways is then calculated by dividing 'maxNumOfKeys' equally between the hash sets. This is the maximal number of keys that a hash bucket may hold. The hash table is initialized empty and keys may be added to it following the initialization. Keys masks are not supported in current hash table implementation. The initialized hash table can be integrated as a node in a CC tree. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_Param A structure of parameters defining the hash table @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_HashTableSet(t_Handle h_FmPcd, t_FmPcdHashTableParams *p_Param); /**************************************************************************//** @Function FM_PCD_HashTableDelete @Description This routine deletes the provided hash table and released all its allocated resources. @Param[in] h_HashTbl A handle to a hash table @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet(). *//***************************************************************************/ t_Error FM_PCD_HashTableDelete(t_Handle h_HashTbl); /**************************************************************************//** @Function FM_PCD_HashTableAddKey @Description This routine adds the provided key (including next engine parameters of this key) to the hash table. The key is added as the last key of the bucket that it is mapped to. @Param[in] h_HashTbl A handle to a hash table @Param[in] keySize Key size of added key @Param[in] p_KeyParams A pointer to the parameters includes new key with next engine parameters; The pointer to the key mask must be NULL, as masks are not supported in hash table implementation. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet(). *//***************************************************************************/ t_Error FM_PCD_HashTableAddKey(t_Handle h_HashTbl, uint8_t keySize, t_FmPcdCcKeyParams *p_KeyParams); /**************************************************************************//** @Function FM_PCD_HashTableRemoveKey @Description This routine removes the requested key (including next engine parameters of this key) from the hash table. @Param[in] h_HashTbl A handle to a hash table @Param[in] keySize Key size of the one to remove. @Param[in] p_Key A pointer to the requested key to remove. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet(). *//***************************************************************************/ t_Error FM_PCD_HashTableRemoveKey(t_Handle h_HashTbl, uint8_t keySize, uint8_t *p_Key); /**************************************************************************//** @Function FM_PCD_HashTableModifyNextEngine @Description This routine modifies the next engine for the provided key. The key should be previously added to the hash table. @Param[in] h_HashTbl A handle to a hash table @Param[in] keySize Key size of the key to modify. @Param[in] p_Key A pointer to the requested key to modify. @Param[in] p_FmPcdCcNextEngineParams A structure for defining new next engine parameters. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet(). When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_HashTableModifyNextEngine(t_Handle h_HashTbl, uint8_t keySize, uint8_t *p_Key, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//** @Function FM_PCD_HashTableModifyMissNextEngine @Description This routine modifies the next engine on key match miss. @Param[in] h_HashTbl A handle to a hash table @Param[in] p_FmPcdCcNextEngineParams A structure for defining new next engine parameters. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet(). When configuring nextEngine = e_FM_PCD_CC, note that p_FmPcdCcNextEngineParams->ccParams.h_CcNode must be different from the currently changed table. *//***************************************************************************/ t_Error FM_PCD_HashTableModifyMissNextEngine(t_Handle h_HashTbl, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//* @Function FM_PCD_HashTableGetMissNextEngine @Description Gets NextEngine in case of key match miss. @Param[in] h_HashTbl A handle to a hash table @Param[out] p_FmPcdCcNextEngineParams Next engine parameters for the specified hash table. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet(). *//***************************************************************************/ t_Error FM_PCD_HashTableGetMissNextEngine(t_Handle h_HashTbl, t_FmPcdCcNextEngineParams *p_FmPcdCcNextEngineParams); /**************************************************************************//** @Function FM_PCD_HashTableFindNGetKeyStatistics @Description This routine may be used to get statistics counters of specific key in a hash table. If 'e_FM_PCD_CC_STATS_MODE_FRAME' and 'e_FM_PCD_CC_STATS_MODE_BYTE_AND_FRAME' were set for this node, these counters reflect how many frames passed that were matched this key; The total frames count will be returned in the counter of the first range (as only one frame length range was defined). If 'e_FM_PCD_CC_STATS_MODE_RMON' was set for this node, the total frame count will be separated to frame length counters, based on provided frame length ranges. Note that this routine will identify the bucket of this key in the hash table and will search the bucket to locate the index of the required key based on received key parameters. @Param[in] h_HashTbl A handle to a hash table @Param[in] keySize Size of the requested key @Param[in] p_Key A pointer to the requested key @Param[out] p_KeyStatistics Key statistics counters @Return The specific key statistics. @Cautions Allowed only following FM_PCD_HashTableSet(). *//***************************************************************************/ t_Error FM_PCD_HashTableFindNGetKeyStatistics(t_Handle h_HashTbl, uint8_t keySize, uint8_t *p_Key, t_FmPcdCcKeyStatistics *p_KeyStatistics); /**************************************************************************//** @Function FM_PCD_HashTableGetMissStatistics @Description This routine may be used to get statistics counters of 'miss' entry of the a hash table. If 'e_FM_PCD_CC_STATS_MODE_FRAME' and 'e_FM_PCD_CC_STATS_MODE_BYTE_AND_FRAME' were set for this node, these counters reflect how many frames were not matched to any existing key and therefore passed through the miss entry; @Param[in] h_HashTbl A handle to a hash table @Param[out] p_MissStatistics Statistics counters for 'miss' @Return The statistics for 'miss'. @Cautions Allowed only following FM_PCD_HashTableSet(). *//***************************************************************************/ t_Error FM_PCD_HashTableGetMissStatistics(t_Handle h_HashTbl, t_FmPcdCcKeyStatistics *p_MissStatistics); /**************************************************************************//** @Function FM_PCD_HashTableGetKeyAging @Description This routine may be used to retrieve the aging status for the provided key. @Param[in] h_HashTbl A handle to a hash table @Param[in] p_Key Pointer to a key @Param[in] keySize Size of provided key @Param[in] reset TRUE if the user wishes to reset the aging status of this key to 1 after reading it; FALSE otherwise (key aging status will be read and not changed); @Param[out] p_KeyAging FALSE if the provided key was accessed since it's status was last set, TRUE otherwise. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_HashTableSet() with aging support enabled. *//***************************************************************************/ t_Error FM_PCD_HashTableGetKeyAging(t_Handle h_HashTbl, uint8_t *p_Key, uint8_t keySize, bool reset, bool *p_KeyAging); /**************************************************************************//** @Function FM_PCD_HashTableGetBucketAging @Description This routine may be used to retrieve the aging status for the hash table bucket. @Param[in] h_HashTbl A handle to a hash table @Param[in] bucketId Id of the requested bucket @Param[in] reset TRUE if the user wishes to reset the aging status of this bucket to all 1-s after reading; FALSE otherwise (aging mask will be read and not changed) @Param[out] p_BucketAgingMask Aging mask of the requested bucket; A zero bit in the mask means that the key represented by that bit was accessed since the bit was last set, otherwise the bit remains set to 1; The MSB bit represents the first key in the bucket, the 2nd MSB bit represents the second key, etc.. @Param[out] agedKeysArray If the user will provide a handle to a preallocated array, this routine will copy into that array all the keys from the requested bucket for which the aging status is non-zero, meaning all the keys that were not accessed since their aging mask was last set; The user may set this parameters to NULL to disable this option @Return E_OK on success; Error code otherwise @Cautions Allowed only following FM_PCD_HashTableSet() with aging support Enabled; If agedKeysArray is provided, it must have 31 entries large enough to hold the entire keys *//***************************************************************************/ t_Error FM_PCD_HashTableGetBucketAging(t_Handle h_HashTbl, uint16_t bucketId, bool reset, uint32_t *p_BucketAgingMask, uint8_t *agedKeysArray[31]); /**************************************************************************//** @Function FM_PCD_ManipNodeSet @Description This routine should be called for defining a manipulation node. A manipulation node must be defined before the CC node that precedes it. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_FmPcdManipParams A structure of parameters defining the manipulation @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_ManipNodeSet(t_Handle h_FmPcd, t_FmPcdManipParams *p_FmPcdManipParams); /**************************************************************************//** @Function FM_PCD_ManipNodeDelete @Description Delete an existing manipulation node. @Param[in] h_ManipNode A handle to a manipulation node. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_ManipNodeSet(). *//***************************************************************************/ t_Error FM_PCD_ManipNodeDelete(t_Handle h_ManipNode); /**************************************************************************//** @Function FM_PCD_ManipGetStatistics @Description Retrieve the manipulation statistics. @Param[in] h_ManipNode A handle to a manipulation node. @Param[out] p_FmPcdManipStats A structure for retrieving the manipulation statistics @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_ManipNodeSet(). *//***************************************************************************/ t_Error FM_PCD_ManipGetStatistics(t_Handle h_ManipNode, t_FmPcdManipStats *p_FmPcdManipStats); /**************************************************************************//** @Function FM_PCD_ManipNodeReplace @Description Change existing manipulation node to be according to new requirement. @Param[in] h_ManipNode A handle to a manipulation node. @Param[out] p_ManipParams A structure of parameters defining the change requirement @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_ManipNodeSet(). *//***************************************************************************/ t_Error FM_PCD_ManipNodeReplace(t_Handle h_ManipNode, t_FmPcdManipParams *p_ManipParams); #if (DPAA_VERSION >= 11) /**************************************************************************//** @Function FM_PCD_FrmReplicSetGroup @Description Initialize a Frame Replicator group. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_FrmReplicGroupParam A structure of parameters for the initialization of the frame replicator group. @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_FrmReplicSetGroup(t_Handle h_FmPcd, t_FmPcdFrmReplicGroupParams *p_FrmReplicGroupParam); /**************************************************************************//** @Function FM_PCD_FrmReplicDeleteGroup @Description Delete a Frame Replicator group. @Param[in] h_FrmReplicGroup A handle to the frame replicator group. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_FrmReplicSetGroup(). *//***************************************************************************/ t_Error FM_PCD_FrmReplicDeleteGroup(t_Handle h_FrmReplicGroup); /**************************************************************************//** @Function FM_PCD_FrmReplicAddMember @Description Add the member in the index defined by the memberIndex. @Param[in] h_FrmReplicGroup A handle to the frame replicator group. @Param[in] memberIndex member index for adding. @Param[in] p_MemberParams A pointer to the new member parameters. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_FrmReplicSetGroup() of this group. *//***************************************************************************/ t_Error FM_PCD_FrmReplicAddMember(t_Handle h_FrmReplicGroup, uint16_t memberIndex, t_FmPcdCcNextEngineParams *p_MemberParams); /**************************************************************************//** @Function FM_PCD_FrmReplicRemoveMember @Description Remove the member defined by the index from the relevant group. @Param[in] h_FrmReplicGroup A handle to the frame replicator group. @Param[in] memberIndex member index for removing. @Return E_OK on success; Error code otherwise. @Cautions Allowed only following FM_PCD_FrmReplicSetGroup() of this group. *//***************************************************************************/ t_Error FM_PCD_FrmReplicRemoveMember(t_Handle h_FrmReplicGroup, uint16_t memberIndex); #endif /* (DPAA_VERSION >= 11) */ #if ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) /**************************************************************************//** @Function FM_PCD_StatisticsSetNode @Description This routine should be called for defining a statistics node. @Param[in] h_FmPcd FM PCD module descriptor. @Param[in] p_FmPcdstatsParams A structure of parameters defining the statistics @Return A handle to the initialized object on success; NULL code otherwise. @Cautions Allowed only following FM_PCD_Init(). *//***************************************************************************/ t_Handle FM_PCD_StatisticsSetNode(t_Handle h_FmPcd, t_FmPcdStatsParams *p_FmPcdstatsParams); #endif /* ((DPAA_VERSION == 10) && defined(FM_CAPWAP_SUPPORT)) */ /** @} */ /* end of FM_PCD_Runtime_build_grp group */ /** @} */ /* end of FM_PCD_Runtime_grp group */ /** @} */ /* end of FM_PCD_grp group */ /** @} */ /* end of FM_grp group */ #ifdef NCSW_BACKWARD_COMPATIBLE_API #define FM_PCD_MAX_NUM_OF_INTERCHANGABLE_HDRS FM_PCD_MAX_NUM_OF_INTERCHANGEABLE_HDRS #define e_FM_PCD_MANIP_ONE_WAYS_HASH e_FM_PCD_MANIP_ONE_WAY_HASH #define e_FM_PCD_MANIP_TOW_WAYS_HASH e_FM_PCD_MANIP_TWO_WAYS_HASH #define e_FM_PCD_MANIP_FRAGMENT_PACKECT e_FM_PCD_MANIP_FRAGMENT_PACKET /* Feb13 */ #define FM_PCD_SetNetEnvCharacteristics(_pcd, _params) \ FM_PCD_NetEnvCharacteristicsSet(_pcd, _params) #define FM_PCD_KgSetScheme(_pcd, _params) FM_PCD_KgSchemeSet(_pcd, _params) #define FM_PCD_CcBuildTree(_pcd, _params) FM_PCD_CcRootBuild(_pcd, _params) #define FM_PCD_CcSetNode(_pcd, _params) FM_PCD_MatchTableSet(_pcd, _params) #define FM_PCD_PlcrSetProfile(_pcd, _params) FM_PCD_PlcrProfileSet(_pcd, _params) #define FM_PCD_ManipSetNode(_pcd, _params) FM_PCD_ManipNodeSet(_pcd, _params) #define FM_PCD_DeleteNetEnvCharacteristics(_pcd, ...) \ FM_PCD_NetEnvCharacteristicsDelete(__VA_ARGS__) #define FM_PCD_KgDeleteScheme(_pcd, ...) \ FM_PCD_KgSchemeDelete(__VA_ARGS__) #define FM_PCD_KgGetSchemeCounter(_pcd, ...) \ FM_PCD_KgSchemeGetCounter(__VA_ARGS__) #define FM_PCD_KgSetSchemeCounter(_pcd, ...) \ FM_PCD_KgSchemeSetCounter(__VA_ARGS__) #define FM_PCD_PlcrDeleteProfile(_pcd, ...) \ FM_PCD_PlcrProfileDelete(__VA_ARGS__) #define FM_PCD_PlcrGetProfileCounter(_pcd, ...) \ FM_PCD_PlcrProfileGetCounter(__VA_ARGS__) #define FM_PCD_PlcrSetProfileCounter(_pcd, ...) \ FM_PCD_PlcrProfileSetCounter(__VA_ARGS__) #define FM_PCD_CcDeleteTree(_pcd, ...) \ FM_PCD_CcRootDelete(__VA_ARGS__) #define FM_PCD_CcTreeModifyNextEngine(_pcd, ...) \ FM_PCD_CcRootModifyNextEngine(__VA_ARGS__) #define FM_PCD_CcDeleteNode(_pcd, ...) \ FM_PCD_MatchTableDelete(__VA_ARGS__) #define FM_PCD_CcNodeModifyMissNextEngine(_pcd, ...) \ FM_PCD_MatchTableModifyMissNextEngine(__VA_ARGS__) #define FM_PCD_CcNodeRemoveKey(_pcd, ...) \ FM_PCD_MatchTableRemoveKey(__VA_ARGS__) #define FM_PCD_CcNodeAddKey(_pcd, ...) \ FM_PCD_MatchTableAddKey(__VA_ARGS__) #define FM_PCD_CcNodeModifyNextEngine(_pcd, ...) \ FM_PCD_MatchTableModifyNextEngine(__VA_ARGS__) #define FM_PCD_CcNodeModifyKeyAndNextEngine(_pcd, ...) \ FM_PCD_MatchTableModifyKeyAndNextEngine(__VA_ARGS__) #define FM_PCD_CcNodeModifyKey(_pcd, ...) \ FM_PCD_MatchTableModifyKey(__VA_ARGS__) #define FM_PCD_CcNodeFindNRemoveKey(_pcd, ...) \ FM_PCD_MatchTableFindNRemoveKey(__VA_ARGS__) #define FM_PCD_CcNodeFindNModifyNextEngine(_pcd, ...) \ FM_PCD_MatchTableFindNModifyNextEngine(__VA_ARGS__) #define FM_PCD_CcNodeFindNModifyKeyAndNextEngine(_pcd, ...) \ FM_PCD_MatchTableFindNModifyKeyAndNextEngine(__VA_ARGS__) #define FM_PCD_CcNodeFindNModifyKey(_pcd, ...) \ FM_PCD_MatchTableFindNModifyKey(__VA_ARGS__) #define FM_PCD_CcIndexedHashNodeGetBucket(_pcd, ...) \ FM_PCD_MatchTableGetIndexedHashBucket(__VA_ARGS__) #define FM_PCD_CcNodeGetNextEngine(_pcd, ...) \ FM_PCD_MatchTableGetNextEngine(__VA_ARGS__) #define FM_PCD_CcNodeGetKeyCounter(_pcd, ...) \ FM_PCD_MatchTableGetKeyCounter(__VA_ARGS__) #define FM_PCD_ManipDeleteNode(_pcd, ...) \ FM_PCD_ManipNodeDelete(__VA_ARGS__) #endif /* NCSW_BACKWARD_COMPATIBLE_API */ #endif /* __FM_PCD_EXT */