/****************************************************************************** © 1995-2003, 2004, 2005-2011 Freescale Semiconductor, Inc. All rights reserved. This is proprietary source code of Freescale Semiconductor Inc., and its use is subject to the NetComm Device Drivers EULA. The copyright notice above does not evidence any actual or intended publication of such source code. ALTERNATIVELY, 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. 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 qm.h @Description QM header *//***************************************************************************/ #ifndef __QM_H #define __QM_H #include "std_ext.h" #include "list_ext.h" #include "qm_ext.h" #include "qman_private.h" #include "qm_ipc.h" #define __ERR_MODULE__ MODULE_QM #define QM_NUM_OF_SWP 10 #define QM_NUM_OF_DCP 5 #define CACHELINE_SIZE 64 #define QM_CONTEXTA_MAX_STASH_SIZE (3 * CACHELINE_SIZE) /**************************************************************************//** @Description Exceptions *//***************************************************************************/ #define QM_EX_CORENET_INITIATOR_DATA 0x20000000 #define QM_EX_CORENET_TARGET_DATA 0x10000000 #define QM_EX_CORENET_INVALID_TARGET_TRANSACTION 0x08000000 #define QM_EX_PFDR_THRESHOLD 0x04000000 #define QM_EX_MULTI_ECC 0x02000000 #define QM_EX_SINGLE_ECC 0x01000000 #define QM_EX_PFDR_ENQUEUE_BLOCKED 0x00800000 #define QM_EX_INVALID_COMMAND 0x00010000 #define QM_EX_DEQUEUE_DCP 0x00000800 #define QM_EX_DEQUEUE_FQ 0x00000400 #define QM_EX_DEQUEUE_SOURCE 0x00000200 #define QM_EX_DEQUEUE_QUEUE 0x00000100 #define QM_EX_ENQUEUE_OVERFLOW 0x00000008 #define QM_EX_ENQUEUE_STATE 0x00000004 #define QM_EX_ENQUEUE_CHANNEL 0x00000002 #define QM_EX_ENQUEUE_QUEUE 0x00000001 #define GET_EXCEPTION_FLAG(bitMask, exception) switch(exception){ \ case e_QM_EX_CORENET_INITIATOR_DATA: \ bitMask = QM_EX_CORENET_INITIATOR_DATA; break; \ case e_QM_EX_CORENET_TARGET_DATA: \ bitMask = QM_EX_CORENET_TARGET_DATA; break; \ case e_QM_EX_CORENET_INVALID_TARGET_TRANSACTION: \ bitMask = QM_EX_CORENET_INVALID_TARGET_TRANSACTION; break; \ case e_QM_EX_PFDR_THRESHOLD: \ bitMask = QM_EX_PFDR_THRESHOLD; break; \ case e_QM_EX_PFDR_ENQUEUE_BLOCKED: \ bitMask = QM_EX_PFDR_ENQUEUE_BLOCKED; break; \ case e_QM_EX_SINGLE_ECC: \ bitMask = QM_EX_SINGLE_ECC; break; \ case e_QM_EX_MULTI_ECC: \ bitMask = QM_EX_MULTI_ECC; break; \ case e_QM_EX_INVALID_COMMAND: \ bitMask = QM_EX_INVALID_COMMAND; break; \ case e_QM_EX_DEQUEUE_DCP: \ bitMask = QM_EX_DEQUEUE_DCP; break; \ case e_QM_EX_DEQUEUE_FQ: \ bitMask = QM_EX_DEQUEUE_FQ; break; \ case e_QM_EX_DEQUEUE_SOURCE: \ bitMask = QM_EX_DEQUEUE_SOURCE; break; \ case e_QM_EX_DEQUEUE_QUEUE: \ bitMask = QM_EX_DEQUEUE_QUEUE; break; \ case e_QM_EX_ENQUEUE_OVERFLOW: \ bitMask = QM_EX_ENQUEUE_OVERFLOW; break; \ case e_QM_EX_ENQUEUE_STATE: \ bitMask = QM_EX_ENQUEUE_STATE; break; \ case e_QM_EX_ENQUEUE_CHANNEL: \ bitMask = QM_EX_ENQUEUE_CHANNEL; break; \ case e_QM_EX_ENQUEUE_QUEUE: \ bitMask = QM_EX_ENQUEUE_QUEUE; break; \ default: bitMask = 0;break;} /**************************************************************************//** @Description defaults *//***************************************************************************/ /* QM defaults */ #define DEFAULT_exceptions ((uint32_t)(QM_EX_CORENET_INITIATOR_DATA | \ QM_EX_CORENET_TARGET_DATA | \ QM_EX_CORENET_INVALID_TARGET_TRANSACTION | \ QM_EX_PFDR_THRESHOLD | \ QM_EX_SINGLE_ECC | \ QM_EX_MULTI_ECC | \ QM_EX_PFDR_ENQUEUE_BLOCKED | \ QM_EX_INVALID_COMMAND | \ QM_EX_DEQUEUE_DCP | \ QM_EX_DEQUEUE_FQ | \ QM_EX_DEQUEUE_SOURCE | \ QM_EX_DEQUEUE_QUEUE | \ QM_EX_ENQUEUE_OVERFLOW | \ QM_EX_ENQUEUE_STATE | \ QM_EX_ENQUEUE_CHANNEL | \ QM_EX_ENQUEUE_QUEUE )) #define DEFAULT_rtFramesDepth 30000 #define DEFAULT_pfdrThreshold 0 #define DEFAULT_sfdrThreshold 0 #define DEFAULT_pfdrBaseConstant 64 /* Corenet initiator settings. Stash request queues are 4-deep to match cores' ability to snart. Stash priority is 3, other priorities are 2. */ #define DEFAULT_initiatorSrcciv 0 #define DEFAULT_initiatorSrqW 3 #define DEFAULT_initiatorRwW 2 #define DEFAULT_initiatorBmanW 2 /* QM-Portal defaults */ #define DEFAULT_dequeueDcaMode FALSE #define DEFAULT_dequeueUpToThreeFrames TRUE #define DEFAULT_dequeueCommandType e_QM_PORTAL_PRIORITY_PRECEDENCE_INTRA_CLASS_SCHEDULING #define DEFAULT_dequeueUserToken 0xab #define DEFAULT_dequeueSpecifiedWq FALSE #define DEFAULT_dequeueDedicatedChannel TRUE #define DEFAULT_dequeuePoolChannelId 0 #define DEFAULT_dequeueWqId 0 #define DEFAULT_dequeueDedicatedChannelHasPrecedenceOverPoolChannels TRUE #define DEFAULT_dqrrSize DQRR_MAXFILL #define DEFAULT_pullMode FALSE #define DEFAULT_portalExceptions ((uint32_t)(QM_PIRQ_EQCI | \ QM_PIRQ_EQRI | \ QM_PIRQ_DQRI | \ QM_PIRQ_MRI | \ QM_PIRQ_CSCI)) /**************************************************************************//** @Description Memory Mapped Registers *//***************************************************************************/ #if defined(__MWERKS__) && !defined(__GNUC__) #pragma pack(push,1) #endif /* defined(__MWERKS__) && ... */ #define MEM_MAP_START typedef _Packed struct { /* QMan Software Portal Configuration Registers */ _Packed struct { volatile uint32_t lio_cfg; /**< QMan Software Portal LIO Configuration */ volatile uint32_t io_cfg; /**< QMan Software Portal 0 IO Configuration */ volatile uint8_t res1[4]; /**< reserved */ volatile uint32_t dd_cfg; /**< Software Portal Dynamic Debug Configuration */ } _PackedType swpConfRegs[QM_NUM_OF_SWP]; volatile uint8_t res1[352]; /**< reserved */ /* Dynamic Debug (DD) Configuration Registers */ volatile uint32_t qman_dd_cfg; /**< QMan Dynamic Debug (DD) Configuration */ volatile uint8_t res2[12]; /**< reserved */ volatile uint32_t qcsp_dd_ihrsr; /**< Software Portal DD Internal Halt Request Status */ volatile uint32_t qcsp_dd_ihrfr; /**< Software Portal DD Internal Halt Request Force */ volatile uint32_t qcsp_dd_hasr; /**< Software Portal DD Halt Acknowledge Status */ volatile uint8_t res3[4]; /**< reserved */ volatile uint32_t dcp_dd_ihrsr; /**< DCP DD Internal Halt Request Status */ volatile uint32_t dcp_dd_ihrfr; /**< DCP DD Internal Halt Request Force */ volatile uint32_t dcp_dd_hasr; /**< DCP DD Halt Acknowledge Status */ volatile uint8_t res4[212]; /**< reserved */ /* Direct Connect Portal (DCP) Configuration Registers */ _Packed struct { volatile uint32_t cfg; /**< DCP Configuration */ volatile uint32_t dd_cfg; /**< DCP Dynamic Debug Configuration */ volatile uint32_t dlm_cfg; /**< DCP Dequeue Latency Monitor Configuration */ volatile uint32_t dlm_avg; /**< DCP Dequeue Latency Monitor Average */ } _PackedType dcpConfRegs[QM_NUM_OF_DCP]; volatile uint8_t res5[176]; /**< reserved */ /* Packed Frame Descriptor Record (PFDR) Manager Query Registers */ volatile uint32_t pfdr_fpc; /**< PFDR Free Pool Count */ volatile uint32_t pfdr_fp_head; /**< PFDR Free Pool Head Pointer */ volatile uint32_t pfdr_fp_tail; /**< PFDR Free Pool Tail Pointer */ volatile uint8_t res6[4]; /**< reserved */ volatile uint32_t pfdr_fp_lwit; /**< PFDR Free Pool Low Watermark Interrupt Threshold */ volatile uint32_t pfdr_cfg; /**< PFDR Configuration */ volatile uint8_t res7[232]; /**< reserved */ /* Single Frame Descriptor Record (SFDR) Manager Registers */ volatile uint32_t sfdr_cfg; /**< SFDR Configuration */ volatile uint32_t sfdr_in_use; /**< SFDR In Use Register */ volatile uint8_t res8[248]; /**< reserved */ /* Work Queue Semaphore and Context Manager Registers */ volatile uint32_t wq_cs_cfg[6]; /**< Work Queue Class Scheduler Configuration */ volatile uint8_t res9[24]; /**< reserved */ volatile uint32_t wq_def_enq_wqid; /**< Work Queue Default Enqueue WQID */ volatile uint8_t res10[12]; /**< reserved */ volatile uint32_t wq_sc_dd_cfg[5]; /**< WQ S/W Channel Dynamic Debug Config */ volatile uint8_t res11[44]; /**< reserved */ volatile uint32_t wq_pc_dd_cs_cfg[8]; /**< WQ Pool Channel Dynamic Debug Config */ volatile uint8_t res12[32]; /**< reserved */ volatile uint32_t wq_dc0_dd_cs_cfg[6]; /**< WQ DCP0 Chan. Dynamic Debug Config */ volatile uint8_t res13[40]; /**< reserved */ volatile uint32_t wq_dc1_dd_cs_cfg[6]; /**< WQ DCP1 Chan. Dynamic Debug Config */ volatile uint8_t res14[40]; /**< reserved */ volatile uint32_t wq_dc2_dd_cs_cfg; /**< WQ DCP2 Chan. Dynamic Debug Config */ volatile uint8_t res15[60]; /**< reserved */ volatile uint32_t wq_dc3_dd_cs_cfg; /**< WQ DCP3 Chan. Dynamic Debug Config */ volatile uint8_t res16[124]; /**< reserved */ /* Congestion Manager (CM) Registers */ volatile uint32_t cm_cfg; /**< CM Configuration Register */ volatile uint8_t res17[508]; /**< reserved */ /* QMan Error Capture Registers */ volatile uint32_t ecsr; /**< QMan Error Capture Status Register */ volatile uint32_t ecir; /**< QMan Error Capture Information Register */ volatile uint32_t eadr; /**< QMan Error Capture Address Register */ volatile uint8_t res18[4]; /**< reserved */ volatile uint32_t edata[16]; /**< QMan ECC Error Data Register */ volatile uint8_t res19[32]; /**< reserved */ volatile uint32_t sbet; /**< QMan Single Bit ECC Error Threshold Register */ volatile uint8_t res20[12]; /**< reserved */ volatile uint32_t sbec[7]; /**< QMan Single Bit ECC Error Count Register */ volatile uint8_t res21[100]; /**< reserved */ /* QMan Initialization and Debug Control Registers */ volatile uint32_t mcr; /**< QMan Management Command/Result Register */ volatile uint32_t mcp0; /**< QMan Management Command Parameter 0 Register */ volatile uint32_t mcp1; /**< QMan Management Command Parameter 1 Register */ volatile uint8_t res22[20]; /**< reserved */ volatile uint32_t mr[16]; /**< QMan Management Return Register */ volatile uint8_t res23[148]; /**< reserved */ volatile uint32_t idle_stat; /**< QMan Idle Status Register */ /* QMan ID/Revision Registers */ volatile uint32_t ip_rev_1; /**< QMan IP Block Revision 1 register */ volatile uint32_t ip_rev_2; /**< QMan IP Block Revision 2 register */ /* QMan Initiator Interface Memory Window Configuration Registers */ volatile uint32_t fqd_bare; /**< FQD Extended Base Address Register */ volatile uint32_t fqd_bar; /**< Frame Queue Descriptor (FQD) Base Address Register */ volatile uint8_t res24[8]; /**< reserved */ volatile uint32_t fqd_ar; /**< FQD Attributes Register */ volatile uint8_t res25[12]; /**< reserved */ volatile uint32_t pfdr_bare; /**< PFDR Extended Base Address Register */ volatile uint32_t pfdr_bar; /**< Packed Frame Descriptor Record (PFDR) Base Addr */ volatile uint8_t res26[8]; /**< reserved */ volatile uint32_t pfdr_ar; /**< PFDR Attributes Register */ volatile uint8_t res27[76]; /**< reserved */ volatile uint32_t qcsp_bare; /**< QCSP Extended Base Address */ volatile uint32_t qcsp_bar; /**< QMan Software Portal Base Address */ volatile uint8_t res28[120]; /**< reserved */ volatile uint32_t ci_sched_cfg; /**< Initiator Scheduling Configuration */ volatile uint32_t srcidr; /**< QMan Source ID Register */ volatile uint32_t liodnr; /**< QMan Logical I/O Device Number Register */ volatile uint8_t res29[4]; /**< reserved */ volatile uint32_t ci_rlm_cfg; /**< Initiator Read Latency Monitor Configuration */ volatile uint32_t ci_rlm_avg; /**< Initiator Read Latency Monitor Average */ volatile uint8_t res30[232]; /**< reserved */ /* QMan Interrupt and Error Registers */ volatile uint32_t err_isr; /**< QMan Error Interrupt Status Register */ volatile uint32_t err_ier; /**< QMan Error Interrupt Enable Register */ volatile uint32_t err_isdr; /**< QMan Error Interrupt Status Disable Register */ volatile uint32_t err_iir; /**< QMan Error Interrupt Inhibit Register */ volatile uint8_t res31[4]; /**< reserved */ volatile uint32_t err_her; /**< QMan Error Halt Enable Register */ } _PackedType t_QmRegs; #define MEM_MAP_END #if defined(__MWERKS__) && !defined(__GNUC__) #pragma pack(pop) #endif /* defined(__MWERKS__) && ... */ /**************************************************************************//** @Description General defines *//***************************************************************************/ #define MODULE_NAME_SIZE 30 #define PORTALS_OFFSET_CE(portal) (0x4000 * portal) #define PORTALS_OFFSET_CI(portal) (0x1000 * portal) #define PFDR_ENTRY_SIZE 64 /* 64 bytes */ #define FQD_ENTRY_SIZE 64 /* 64 bytes */ /* Compilation constants */ #define DQRR_MAXFILL 15 #define EQCR_THRESH 1 /* reread h/w CI when running out of space */ /**************************************************************************//** @Description Register defines *//***************************************************************************/ /* Assists for QMAN_MCR */ #define MCR_INIT_PFDR 0x01000000 #define MCR_get_rslt(v) (uint8_t)((v) >> 24) #define MCR_rslt_idle(r) (!rslt || (rslt >= 0xf0)) #define MCR_rslt_ok(r) (rslt == 0xf0) #define MCR_rslt_eaccess(r) (rslt == 0xf8) #define MCR_rslt_inval(r) (rslt == 0xff) /* masks */ #define REV1_MAJOR_MASK 0x0000FF00 #define REV1_MINOR_MASK 0x000000FF #define REV2_INTEG_MASK 0x00FF0000 #define REV2_ERR_MASK 0x0000FF00 #define REV2_CFG_MASK 0x000000FF #define AR_ENABLE 0x80000000 #define AR_PRIORITY 0x40000000 #define AR_STASH 0x20000000 #define AR_SIZE_MASK 0x0000003f #define ECIR_PORTAL_TYPE 0x20000000 #define ECIR_PORTAL_MASK 0x1f000000 #define ECIR_FQID_MASK 0x00ffffff #define CI_SCHED_CFG_EN 0x80000000 /* shifts */ #define REV1_MAJOR_SHIFT 8 #define REV1_MINOR_SHIFT 0 #define REV2_INTEG_SHIFT 16 #define REV2_ERR_SHIFT 8 #define REV2_CFG_SHIFT 0 #define AR_SIZE_SHIFT 0 #define ECIR_PORTAL_SHIFT 24 #define ECIR_FQID_SHIFT 0 #define CI_SCHED_CFG_SRCCIV_SHIFT 24 #define CI_SCHED_CFG_SRQ_W_SHIFT 8 #define CI_SCHED_CFG_RW_W_SHIFT 4 #define CI_SCHED_CFG_BMAN_W_SHIFT 0 /********* CGR ******************************/ #define QM_CGR_TARG_FIRST_SWPORTAL 0x80000000 #define QM_CGR_TARG_FIRST_DCPORTAL 0x00200000 #define QM_CGR_TARGET_SWP(portlaId) (QM_CGR_TARG_FIRST_SWPORTAL >> portlaId) #define QM_CGR_TARGET_DCP(portlaId) (QM_CGR_TARG_FIRST_DCPORTAL >> portlaId) #define QM_DCP_CFG_ED 0x00000100 /* #define CGR_VALID 0x80 #define CGR_VERB_INIT 0x50 #define CGR_VERB_MODIFY 0x51 #define CGR_WRITE_ALL 0x07FF #define CGR_WRITE_ENABLE_CSCN 0x0010 #define CGR_WRITE_ENABLE_GREEN_MODIFY 0x0380 #define CGR_WRITE_ENABLE_YELLOW_MODIFY 0x0240 #define CGR_WRITE_ENABLE_RED_MODIFY 0x0120 #define CGR_MODE_BYTE 0x00 #define CGR_MODE_FRAME 0x01 #define GCR_ENABLE_WRED 0x01 #define GCR_ENABLE_TD 0x01 #define GCR_ENABLE_CSCN 0x01 */ /* Lock/unlock frame queues, subject to the "UNLOCKED" flag. This is about * inter-processor locking only. */ #define FQLOCK(fq) \ do { \ if (fq->flags & QMAN_FQ_FLAG_LOCKED) \ XX_LockSpinlock(&fq->fqlock); \ } while(0) #define FQUNLOCK(fq) \ do { \ if (fq->flags & QMAN_FQ_FLAG_LOCKED) \ XX_UnlockSpinlock(&fq->fqlock); \ } while(0) /* Lock/unlock portals, subject to "UNLOCKED" flag. This is about disabling * interrupts/preemption and, if FLAG_UNLOCKED isn't defined, inter-processor * locking as well. */ #define NCSW_PLOCK(p) ((t_QmPortal*)(p))->irq_flags = XX_DisableAllIntr() #define PUNLOCK(p) XX_RestoreAllIntr(((t_QmPortal*)(p))->irq_flags) typedef void (t_QmLoopDequeueRing)(t_Handle h_QmPortal); /* Follows WQ_CS_CFG0-5 */ typedef enum { e_QM_WQ_SW_PORTALS = 0, e_QM_WQ_POOLS, e_QM_WQ_DCP0, e_QM_WQ_DCP1, e_QM_WQ_DCP2, e_QM_WQ_DCP3 } e_QmWqClass; typedef enum { e_QM_PORTAL_NO_DEQUEUES = 0, e_QM_PORTAL_PRIORITY_PRECEDENCE_INTRA_CLASS_SCHEDULING, e_QM_PORTAL_ACTIVE_FQ_PRECEDENCE_INTRA_CLASS_SCHEDULING, e_QM_PORTAL_ACTIVE_FQ_PRECEDENCE_OVERRIDE_INTRA_CLASS_SCHEDULING } e_QmPortalDequeueCommandType; typedef enum e_QmInterModuleCounters { e_QM_IM_COUNTERS_SFDR_IN_USE = 0, e_QM_IM_COUNTERS_PFDR_IN_USE, e_QM_IM_COUNTERS_PFDR_FREE_POOL } e_QmInterModuleCounters; typedef struct t_QmInterModulePortalInitParams { uint8_t portalId; uint8_t stashDestQueue; uint16_t liodn; uint16_t dqrrLiodn; uint16_t fdFqLiodn; } t_QmInterModulePortalInitParams; typedef struct t_QmCg { t_Handle h_Qm; t_Handle h_QmPortal; t_QmExceptionsCallback *f_Exception; t_Handle h_App; uint8_t id; } t_QmCg; typedef struct { uintptr_t swPortalsBaseAddress; /**< QM Software Portals Base Address (virtual) */ uint32_t partFqidBase; uint32_t partNumOfFqids; uint32_t totalNumOfFqids; uint32_t rtFramesDepth; uint32_t fqdMemPartitionId; uint32_t pfdrMemPartitionId; uint32_t pfdrThreshold; uint32_t sfdrThreshold; uint32_t pfdrBaseConstant; uint16_t liodn; t_QmDcPortalParams dcPortalsParams[DPAA_MAX_NUM_OF_DC_PORTALS]; } t_QmDriverParams; typedef struct { uint8_t guestId; t_Handle h_RsrvFqidMm; t_Handle h_FqidMm; t_Handle h_Session; char moduleName[MODULE_NAME_SIZE]; t_Handle h_Portals[DPAA_MAX_NUM_OF_SW_PORTALS]; t_QmRegs *p_QmRegs; uint32_t *p_FqdBase; uint32_t *p_PfdrBase; uint32_t exceptions; t_QmExceptionsCallback *f_Exception; t_Handle h_App; int errIrq; /**< error interrupt line; NO_IRQ if interrupts not used */ uint32_t numOfPfdr; uint16_t partNumOfCgs; uint16_t partCgsBase; uint8_t cgsUsed[QM_MAX_NUM_OF_CGS]; t_Handle lock; t_QmDriverParams *p_QmDriverParams; } t_Qm; typedef struct { uint32_t hwExtStructsMemAttr; uint8_t dqrrSize; bool pullMode; bool dequeueDcaMode; bool dequeueUpToThreeFrames; e_QmPortalDequeueCommandType commandType; uint8_t userToken; bool specifiedWq; bool dedicatedChannel; bool dedicatedChannelHasPrecedenceOverPoolChannels; uint8_t poolChannels[QM_MAX_NUM_OF_POOL_CHANNELS]; uint8_t poolChannelId; uint8_t wqId; uint16_t fdLiodnOffset; uint8_t stashDestQueue; uint8_t eqcr; bool eqcrHighPri; bool dqrr; uint16_t dqrrLiodn; bool dqrrHighPri; bool fdFq; uint16_t fdFqLiodn; bool fdFqHighPri; bool fdFqDrop; } t_QmPortalDriverParams; /*typedef struct t_QmPortalCgs{ uint32_t cgsMask[QM_MAX_NUM_OF_CGS/32]; }t_QmPortalCgs; */ typedef struct t_QmPortal { t_Handle h_Qm; struct qm_portal *p_LowQmPortal; uint32_t bits; /* PORTAL_BITS_*** - dynamic, strictly internal */ t_Handle h_App; t_QmLoopDequeueRing *f_LoopDequeueRingCB; bool pullMode; /* To avoid overloading the term "flags", we use these 2; */ uint32_t options; /* QMAN_PORTAL_FLAG_*** - static, caller-provided */ uint32_t irq_flags; /* The wrap-around eq_[prod|cons] counters are used to support * QMAN_ENQUEUE_FLAG_WAIT_SYNC. */ uint32_t eqProd; volatile int disable_count; struct qman_cgrs cgrs[2]; /* 2-element array. cgrs[0] is mask, cgrs[1] is previous snapshot. */ /* If we receive a DQRR or MR ring entry for a "null" FQ, ie. for which * FQD::contextB is NULL rather than pointing to a FQ object, we use * these handlers. (This is not considered a fast-path mechanism.) */ t_Handle cgsHandles[QM_MAX_NUM_OF_CGS]; struct qman_fq_cb *p_NullCB; t_QmReceivedFrameCallback *f_DfltFrame; t_QmRejectedFrameCallback *f_RejectedFrame; t_QmPortalDriverParams *p_QmPortalDriverParams; } t_QmPortal; struct qman_fq { struct qman_fq_cb cb; t_Handle h_App; t_Handle h_QmFqr; t_Handle fqlock; uint32_t fqid; uint32_t fqidOffset; uint32_t flags; /* s/w-visible states. Ie. tentatively scheduled + truly scheduled + * active + held-active + held-suspended are just "sched". Things like * 'retired' will not be assumed until it is complete (ie. * QMAN_FQ_STATE_CHANGING is set until then, to indicate it's completing * and to gate attempts to retry the retire command). Note, park * commands do not set QMAN_FQ_STATE_CHANGING because it's technically * impossible in the case of enqueue DCAs (which refer to DQRR ring * index rather than the FQ that ring entry corresponds to), so repeated * park commands are allowed (if you're silly enough to try) but won't * change FQ state, and the resulting park notifications move FQs from * 'sched' to 'parked'. */ enum qman_fq_state state; int cgr_groupid; }; typedef struct { t_Handle h_Qm; t_Handle h_QmPortal; e_QmFQChannel channel; uint8_t workQueue; bool shadowMode; uint32_t fqidBase; uint32_t numOfFqids; t_QmFqrDrainedCompletionCB *f_CompletionCB; t_Handle h_App; uint32_t numOfDrainedFqids; bool *p_DrainedFqs; struct qman_fq **p_Fqs; } t_QmFqr; /****************************************/ /* Inter-Module functions */ /****************************************/ uint32_t QmGetCounter(t_Handle h_Qm, e_QmInterModuleCounters counter); t_Error QmGetRevision(t_Handle h_Qm, t_QmRevisionInfo *p_QmRevisionInfo); t_Error QmGetSetPortalParams(t_Handle h_Qm, t_QmInterModulePortalInitParams *p_PortalParams); t_Error QmFreeDcPortal(t_Handle h_Qm, e_DpaaDcPortal dcPortalId); uint32_t QmFqidGet(t_Qm *p_Qm, uint32_t size, uint32_t alignment, bool force, uint32_t base); t_Error QmFqidPut(t_Qm *p_Qm, uint32_t base); t_Error QmGetCgId(t_Handle h_Qm, uint8_t *p_CgId); t_Error QmFreeCgId(t_Handle h_Qm, uint8_t cgId); static __inline__ void QmSetPortalHandle(t_Handle h_Qm, t_Handle h_Portal, e_DpaaSwPortal portalId) { ASSERT_COND(!((t_Qm*)h_Qm)->h_Portals[portalId] || !h_Portal); ((t_Qm*)h_Qm)->h_Portals[portalId] = h_Portal; } static __inline__ t_Handle QmGetPortalHandle(t_Handle h_Qm) { t_Qm *p_Qm = (t_Qm*)h_Qm; ASSERT_COND(p_Qm); return p_Qm->h_Portals[CORE_GetId()]; } static __inline__ uint32_t GenerateCgrThresh(uint64_t val, int roundup) { uint32_t e = 0; /* co-efficient, exponent */ uint32_t oddbit = 0; while(val > 0xff) { oddbit = (uint32_t)val & 1; val >>= 1; e++; if(roundup && oddbit) val++; } return (uint32_t)((val << 5) | e); } static __inline__ t_Error SetException(t_Qm *p_Qm, e_QmExceptions exception, bool enable) { uint32_t bitMask = 0; ASSERT_COND(p_Qm); GET_EXCEPTION_FLAG(bitMask, exception); if(bitMask) { if (enable) p_Qm->exceptions |= bitMask; else p_Qm->exceptions &= ~bitMask; } else RETURN_ERROR(MAJOR, E_INVALID_VALUE, ("Undefined exception")); return E_OK; } #endif /* __QM_H */