X-Git-Url: http://git.droids-corp.org/?a=blobdiff_plain;f=drivers%2Fevent%2Focteontx2%2Fotx2_tim_worker.h;h=af2f864d721aeb1e05f506fc65e4d586f093a837;hb=c3e33304a7f6;hp=da8c93ff21ea3ce3052f6ec997dad6d63e90aae2;hpb=95e4e4ec7469e24e507381b40b48e92a345ec02f;p=dpdk.git diff --git a/drivers/event/octeontx2/otx2_tim_worker.h b/drivers/event/octeontx2/otx2_tim_worker.h index da8c93ff21..af2f864d72 100644 --- a/drivers/event/octeontx2/otx2_tim_worker.h +++ b/drivers/event/octeontx2/otx2_tim_worker.h @@ -7,6 +7,13 @@ #include "otx2_tim_evdev.h" +static inline uint8_t +tim_bkt_fetch_lock(uint64_t w1) +{ + return (w1 >> TIM_BUCKET_W1_S_LOCK) & + TIM_BUCKET_W1_M_LOCK; +} + static inline int16_t tim_bkt_fetch_rem(uint64_t w1) { @@ -108,28 +115,41 @@ tim_bkt_clr_nent(struct otx2_tim_bkt *bktp) return __atomic_and_fetch(&bktp->w1, v, __ATOMIC_ACQ_REL); } -static __rte_always_inline struct otx2_tim_bkt * +static __rte_always_inline void tim_get_target_bucket(struct otx2_tim_ring * const tim_ring, - const uint32_t rel_bkt, const uint8_t flag) + const uint32_t rel_bkt, struct otx2_tim_bkt **bkt, + struct otx2_tim_bkt **mirr_bkt, const uint8_t flag) { const uint64_t bkt_cyc = rte_rdtsc() - tim_ring->ring_start_cyc; uint32_t bucket = rte_reciprocal_divide_u64(bkt_cyc, &tim_ring->fast_div) + rel_bkt; + uint32_t mirr_bucket = 0; - if (flag & OTX2_TIM_BKT_MOD) + if (flag & OTX2_TIM_BKT_MOD) { bucket = bucket % tim_ring->nb_bkts; - if (flag & OTX2_TIM_BKT_AND) + mirr_bucket = (bucket + (tim_ring->nb_bkts >> 1)) % + tim_ring->nb_bkts; + } + if (flag & OTX2_TIM_BKT_AND) { bucket = bucket & (tim_ring->nb_bkts - 1); + mirr_bucket = (bucket + (tim_ring->nb_bkts >> 1)) & + (tim_ring->nb_bkts - 1); + } - return &tim_ring->bkt[bucket]; + *bkt = &tim_ring->bkt[bucket]; + *mirr_bkt = &tim_ring->bkt[mirr_bucket]; } static struct otx2_tim_ent * tim_clr_bkt(struct otx2_tim_ring * const tim_ring, struct otx2_tim_bkt * const bkt) { +#define TIM_MAX_OUTSTANDING_OBJ 64 + void *pend_chunks[TIM_MAX_OUTSTANDING_OBJ]; struct otx2_tim_ent *chunk; struct otx2_tim_ent *pnext; + uint8_t objs = 0; + chunk = ((struct otx2_tim_ent *)(uintptr_t)bkt->first_chunk); chunk = (struct otx2_tim_ent *)(uintptr_t)(chunk + @@ -137,15 +157,25 @@ tim_clr_bkt(struct otx2_tim_ring * const tim_ring, while (chunk) { pnext = (struct otx2_tim_ent *)(uintptr_t) ((chunk + tim_ring->nb_chunk_slots)->w0); - rte_mempool_put(tim_ring->chunk_pool, chunk); + if (objs == TIM_MAX_OUTSTANDING_OBJ) { + rte_mempool_put_bulk(tim_ring->chunk_pool, pend_chunks, + objs); + objs = 0; + } + pend_chunks[objs++] = chunk; chunk = pnext; } + if (objs) + rte_mempool_put_bulk(tim_ring->chunk_pool, pend_chunks, + objs); + return (struct otx2_tim_ent *)(uintptr_t)bkt->first_chunk; } static struct otx2_tim_ent * tim_refill_chunk(struct otx2_tim_bkt * const bkt, + struct otx2_tim_bkt * const mirr_bkt, struct otx2_tim_ring * const tim_ring) { struct otx2_tim_ent *chunk; @@ -155,8 +185,8 @@ tim_refill_chunk(struct otx2_tim_bkt * const bkt, (void **)&chunk))) return NULL; if (bkt->nb_entry) { - *(uint64_t *)(((struct otx2_tim_ent *)(uintptr_t) - bkt->current_chunk) + + *(uint64_t *)(((struct otx2_tim_ent *) + mirr_bkt->current_chunk) + tim_ring->nb_chunk_slots) = (uintptr_t)chunk; } else { @@ -173,6 +203,7 @@ tim_refill_chunk(struct otx2_tim_bkt * const bkt, static struct otx2_tim_ent * tim_insert_chunk(struct otx2_tim_bkt * const bkt, + struct otx2_tim_bkt * const mirr_bkt, struct otx2_tim_ring * const tim_ring) { struct otx2_tim_ent *chunk; @@ -183,12 +214,11 @@ tim_insert_chunk(struct otx2_tim_bkt * const bkt, *(uint64_t *)(chunk + tim_ring->nb_chunk_slots) = 0; if (bkt->nb_entry) { *(uint64_t *)(((struct otx2_tim_ent *)(uintptr_t) - bkt->current_chunk) + + mirr_bkt->current_chunk) + tim_ring->nb_chunk_slots) = (uintptr_t)chunk; } else { bkt->first_chunk = (uintptr_t)chunk; } - return chunk; } @@ -199,41 +229,69 @@ tim_add_entry_sp(struct otx2_tim_ring * const tim_ring, const struct otx2_tim_ent * const pent, const uint8_t flags) { + struct otx2_tim_bkt *mirr_bkt; struct otx2_tim_ent *chunk; struct otx2_tim_bkt *bkt; uint64_t lock_sema; int16_t rem; - bkt = tim_get_target_bucket(tim_ring, rel_bkt, flags); - __retry: + tim_get_target_bucket(tim_ring, rel_bkt, &bkt, &mirr_bkt, flags); + /* Get Bucket sema*/ - lock_sema = tim_bkt_fetch_sema(bkt); + lock_sema = tim_bkt_fetch_sema_lock(bkt); /* Bucket related checks. */ - if (unlikely(tim_bkt_get_hbt(lock_sema))) - goto __retry; - + if (unlikely(tim_bkt_get_hbt(lock_sema))) { + if (tim_bkt_get_nent(lock_sema) != 0) { + uint64_t hbt_state; +#ifdef RTE_ARCH_ARM64 + asm volatile( + " ldaxr %[hbt], [%[w1]] \n" + " tbz %[hbt], 33, dne%= \n" + " sevl \n" + "rty%=: wfe \n" + " ldaxr %[hbt], [%[w1]] \n" + " tbnz %[hbt], 33, rty%= \n" + "dne%=: \n" + : [hbt] "=&r" (hbt_state) + : [w1] "r" ((&bkt->w1)) + : "memory" + ); +#else + do { + hbt_state = __atomic_load_n(&bkt->w1, + __ATOMIC_ACQUIRE); + } while (hbt_state & BIT_ULL(33)); +#endif + + if (!(hbt_state & BIT_ULL(34))) { + tim_bkt_dec_lock(bkt); + goto __retry; + } + } + } /* Insert the work. */ rem = tim_bkt_fetch_rem(lock_sema); if (!rem) { if (flags & OTX2_TIM_ENA_FB) - chunk = tim_refill_chunk(bkt, tim_ring); + chunk = tim_refill_chunk(bkt, mirr_bkt, tim_ring); if (flags & OTX2_TIM_ENA_DFB) - chunk = tim_insert_chunk(bkt, tim_ring); + chunk = tim_insert_chunk(bkt, mirr_bkt, tim_ring); if (unlikely(chunk == NULL)) { - tim_bkt_set_rem(bkt, 0); + bkt->chunk_remainder = 0; + tim_bkt_dec_lock(bkt); tim->impl_opaque[0] = 0; tim->impl_opaque[1] = 0; tim->state = RTE_EVENT_TIMER_ERROR; return -ENOMEM; } - bkt->current_chunk = (uintptr_t)chunk; - tim_bkt_set_rem(bkt, tim_ring->nb_chunk_slots - 1); + mirr_bkt->current_chunk = (uintptr_t)chunk; + bkt->chunk_remainder = tim_ring->nb_chunk_slots - 1; } else { - chunk = (struct otx2_tim_ent *)(uintptr_t)bkt->current_chunk; + chunk = (struct otx2_tim_ent *)mirr_bkt->current_chunk; chunk += tim_ring->nb_chunk_slots - rem; } @@ -241,6 +299,7 @@ __retry: *chunk = *pent; tim_bkt_inc_nent(bkt); + tim_bkt_dec_lock(bkt); tim->impl_opaque[0] = (uintptr_t)chunk; tim->impl_opaque[1] = (uintptr_t)bkt; @@ -256,35 +315,77 @@ tim_add_entry_mp(struct otx2_tim_ring * const tim_ring, const struct otx2_tim_ent * const pent, const uint8_t flags) { + struct otx2_tim_bkt *mirr_bkt; struct otx2_tim_ent *chunk; struct otx2_tim_bkt *bkt; uint64_t lock_sema; int16_t rem; __retry: - bkt = tim_get_target_bucket(tim_ring, rel_bkt, flags); - + tim_get_target_bucket(tim_ring, rel_bkt, &bkt, &mirr_bkt, flags); /* Get Bucket sema*/ lock_sema = tim_bkt_fetch_sema_lock(bkt); /* Bucket related checks. */ if (unlikely(tim_bkt_get_hbt(lock_sema))) { - tim_bkt_dec_lock(bkt); - goto __retry; + if (tim_bkt_get_nent(lock_sema) != 0) { + uint64_t hbt_state; +#ifdef RTE_ARCH_ARM64 + asm volatile( + " ldaxr %[hbt], [%[w1]] \n" + " tbz %[hbt], 33, dne%= \n" + " sevl \n" + "rty%=: wfe \n" + " ldaxr %[hbt], [%[w1]] \n" + " tbnz %[hbt], 33, rty%= \n" + "dne%=: \n" + : [hbt] "=&r" (hbt_state) + : [w1] "r" ((&bkt->w1)) + : "memory" + ); +#else + do { + hbt_state = __atomic_load_n(&bkt->w1, + __ATOMIC_ACQUIRE); + } while (hbt_state & BIT_ULL(33)); +#endif + + if (!(hbt_state & BIT_ULL(34))) { + tim_bkt_dec_lock(bkt); + goto __retry; + } + } } rem = tim_bkt_fetch_rem(lock_sema); - if (rem < 0) { +#ifdef RTE_ARCH_ARM64 + asm volatile( + " ldaxrh %w[rem], [%[crem]] \n" + " tbz %w[rem], 15, dne%= \n" + " sevl \n" + "rty%=: wfe \n" + " ldaxrh %w[rem], [%[crem]] \n" + " tbnz %w[rem], 15, rty%= \n" + "dne%=: \n" + : [rem] "=&r" (rem) + : [crem] "r" (&bkt->chunk_remainder) + : "memory" + ); +#else + while (__atomic_load_n(&bkt->chunk_remainder, + __ATOMIC_ACQUIRE) < 0) + ; +#endif /* Goto diff bucket. */ tim_bkt_dec_lock(bkt); goto __retry; } else if (!rem) { /* Only one thread can be here*/ if (flags & OTX2_TIM_ENA_FB) - chunk = tim_refill_chunk(bkt, tim_ring); + chunk = tim_refill_chunk(bkt, mirr_bkt, tim_ring); if (flags & OTX2_TIM_ENA_DFB) - chunk = tim_insert_chunk(bkt, tim_ring); + chunk = tim_insert_chunk(bkt, mirr_bkt, tim_ring); if (unlikely(chunk == NULL)) { tim_bkt_set_rem(bkt, 0); @@ -294,17 +395,23 @@ __retry: tim->state = RTE_EVENT_TIMER_ERROR; return -ENOMEM; } - bkt->current_chunk = (uintptr_t)chunk; - tim_bkt_set_rem(bkt, tim_ring->nb_chunk_slots - 1); + *chunk = *pent; + while (tim_bkt_fetch_lock(lock_sema) != + (-tim_bkt_fetch_rem(lock_sema))) + lock_sema = __atomic_load_n(&bkt->w1, __ATOMIC_ACQUIRE); + + mirr_bkt->current_chunk = (uintptr_t)chunk; + __atomic_store_n(&bkt->chunk_remainder, + tim_ring->nb_chunk_slots - 1, __ATOMIC_RELEASE); } else { - chunk = (struct otx2_tim_ent *)(uintptr_t)bkt->current_chunk; + chunk = (struct otx2_tim_ent *)mirr_bkt->current_chunk; chunk += tim_ring->nb_chunk_slots - rem; + *chunk = *pent; } /* Copy work entry. */ - *chunk = *pent; - tim_bkt_dec_lock(bkt); tim_bkt_inc_nent(bkt); + tim_bkt_dec_lock(bkt); tim->impl_opaque[0] = (uintptr_t)chunk; tim->impl_opaque[1] = (uintptr_t)bkt; tim->state = RTE_EVENT_TIMER_ARMED; @@ -337,7 +444,8 @@ tim_add_entry_brst(struct otx2_tim_ring * const tim_ring, const struct otx2_tim_ent *ents, const uint16_t nb_timers, const uint8_t flags) { - struct otx2_tim_ent *chunk; + struct otx2_tim_ent *chunk = NULL; + struct otx2_tim_bkt *mirr_bkt; struct otx2_tim_bkt *bkt; uint16_t chunk_remainder; uint16_t index = 0; @@ -346,7 +454,7 @@ tim_add_entry_brst(struct otx2_tim_ring * const tim_ring, uint8_t lock_cnt; __retry: - bkt = tim_get_target_bucket(tim_ring, rel_bkt, flags); + tim_get_target_bucket(tim_ring, rel_bkt, &bkt, &mirr_bkt, flags); /* Only one thread beyond this. */ lock_sema = tim_bkt_inc_lock(bkt); @@ -360,8 +468,33 @@ __retry: /* Bucket related checks. */ if (unlikely(tim_bkt_get_hbt(lock_sema))) { - tim_bkt_dec_lock(bkt); - goto __retry; + if (tim_bkt_get_nent(lock_sema) != 0) { + uint64_t hbt_state; +#ifdef RTE_ARCH_ARM64 + asm volatile( + " ldaxr %[hbt], [%[w1]] \n" + " tbz %[hbt], 33, dne%= \n" + " sevl \n" + "rty%=: wfe \n" + " ldaxr %[hbt], [%[w1]] \n" + " tbnz %[hbt], 33, rty%= \n" + "dne%=: \n" + : [hbt] "=&r" (hbt_state) + : [w1] "r" ((&bkt->w1)) + : "memory" + ); +#else + do { + hbt_state = __atomic_load_n(&bkt->w1, + __ATOMIC_ACQUIRE); + } while (hbt_state & BIT_ULL(33)); +#endif + + if (!(hbt_state & BIT_ULL(34))) { + tim_bkt_dec_lock(bkt); + goto __retry; + } + } } chunk_remainder = tim_bkt_fetch_rem(lock_sema); @@ -370,7 +503,7 @@ __retry: crem = tim_ring->nb_chunk_slots - chunk_remainder; if (chunk_remainder && crem) { chunk = ((struct otx2_tim_ent *) - (uintptr_t)bkt->current_chunk) + crem; + mirr_bkt->current_chunk) + crem; index = tim_cpy_wrk(index, chunk_remainder, chunk, tim, ents, bkt); @@ -379,9 +512,9 @@ __retry: } if (flags & OTX2_TIM_ENA_FB) - chunk = tim_refill_chunk(bkt, tim_ring); + chunk = tim_refill_chunk(bkt, mirr_bkt, tim_ring); if (flags & OTX2_TIM_ENA_DFB) - chunk = tim_insert_chunk(bkt, tim_ring); + chunk = tim_insert_chunk(bkt, mirr_bkt, tim_ring); if (unlikely(chunk == NULL)) { tim_bkt_dec_lock(bkt); @@ -390,14 +523,14 @@ __retry: return crem; } *(uint64_t *)(chunk + tim_ring->nb_chunk_slots) = 0; - bkt->current_chunk = (uintptr_t)chunk; + mirr_bkt->current_chunk = (uintptr_t)chunk; tim_cpy_wrk(index, nb_timers, chunk, tim, ents, bkt); rem = nb_timers - chunk_remainder; tim_bkt_set_rem(bkt, tim_ring->nb_chunk_slots - rem); tim_bkt_add_nent(bkt, rem); } else { - chunk = (struct otx2_tim_ent *)(uintptr_t)bkt->current_chunk; + chunk = (struct otx2_tim_ent *)mirr_bkt->current_chunk; chunk += (tim_ring->nb_chunk_slots - chunk_remainder); tim_cpy_wrk(index, nb_timers, chunk, tim, ents, bkt); @@ -410,4 +543,41 @@ __retry: return nb_timers; } +static int +tim_rm_entry(struct rte_event_timer *tim) +{ + struct otx2_tim_ent *entry; + struct otx2_tim_bkt *bkt; + uint64_t lock_sema; + + if (tim->impl_opaque[1] == 0 || tim->impl_opaque[0] == 0) + return -ENOENT; + + entry = (struct otx2_tim_ent *)(uintptr_t)tim->impl_opaque[0]; + if (entry->wqe != tim->ev.u64) { + tim->impl_opaque[0] = 0; + tim->impl_opaque[1] = 0; + return -ENOENT; + } + + bkt = (struct otx2_tim_bkt *)(uintptr_t)tim->impl_opaque[1]; + lock_sema = tim_bkt_inc_lock(bkt); + if (tim_bkt_get_hbt(lock_sema) || !tim_bkt_get_nent(lock_sema)) { + tim_bkt_dec_lock(bkt); + tim->impl_opaque[0] = 0; + tim->impl_opaque[1] = 0; + return -ENOENT; + } + + entry->w0 = 0; + entry->wqe = 0; + tim_bkt_dec_lock(bkt); + + tim->state = RTE_EVENT_TIMER_CANCELED; + tim->impl_opaque[0] = 0; + tim->impl_opaque[1] = 0; + + return 0; +} + #endif /* __OTX2_TIM_WORKER_H__ */