Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Sunil Goutham | 1209 | 56.81% | 12 | 41.38% |
Geetha Sowjanya | 791 | 37.17% | 6 | 20.69% |
Subbaraya Sundeep | 56 | 2.63% | 3 | 10.34% |
Linu Cherian | 37 | 1.74% | 1 | 3.45% |
Naveen Mamindlapalli | 19 | 0.89% | 2 | 6.90% |
Hariprasad Kelam | 8 | 0.38% | 2 | 6.90% |
Suman Ghosh | 5 | 0.23% | 1 | 3.45% |
Tomasz Duszynski | 2 | 0.09% | 1 | 3.45% |
Aleksey Makarov | 1 | 0.05% | 1 | 3.45% |
Total | 2128 | 29 |
// SPDX-License-Identifier: GPL-2.0 /* Marvell RVU Ethernet driver * * Copyright (C) 2021 Marvell. * */ #include "cn10k.h" #include "otx2_reg.h" #include "otx2_struct.h" static struct dev_hw_ops otx2_hw_ops = { .sq_aq_init = otx2_sq_aq_init, .sqe_flush = otx2_sqe_flush, .aura_freeptr = otx2_aura_freeptr, .refill_pool_ptrs = otx2_refill_pool_ptrs, }; static struct dev_hw_ops cn10k_hw_ops = { .sq_aq_init = cn10k_sq_aq_init, .sqe_flush = cn10k_sqe_flush, .aura_freeptr = cn10k_aura_freeptr, .refill_pool_ptrs = cn10k_refill_pool_ptrs, }; int cn10k_lmtst_init(struct otx2_nic *pfvf) { struct lmtst_tbl_setup_req *req; struct otx2_lmt_info *lmt_info; int err, cpu; if (!test_bit(CN10K_LMTST, &pfvf->hw.cap_flag)) { pfvf->hw_ops = &otx2_hw_ops; return 0; } pfvf->hw_ops = &cn10k_hw_ops; /* Total LMTLINES = num_online_cpus() * 32 (For Burst flush).*/ pfvf->tot_lmt_lines = (num_online_cpus() * LMT_BURST_SIZE); pfvf->hw.lmt_info = alloc_percpu(struct otx2_lmt_info); mutex_lock(&pfvf->mbox.lock); req = otx2_mbox_alloc_msg_lmtst_tbl_setup(&pfvf->mbox); if (!req) { mutex_unlock(&pfvf->mbox.lock); return -ENOMEM; } req->use_local_lmt_region = true; err = qmem_alloc(pfvf->dev, &pfvf->dync_lmt, pfvf->tot_lmt_lines, LMT_LINE_SIZE); if (err) { mutex_unlock(&pfvf->mbox.lock); return err; } pfvf->hw.lmt_base = (u64 *)pfvf->dync_lmt->base; req->lmt_iova = (u64)pfvf->dync_lmt->iova; err = otx2_sync_mbox_msg(&pfvf->mbox); mutex_unlock(&pfvf->mbox.lock); for_each_possible_cpu(cpu) { lmt_info = per_cpu_ptr(pfvf->hw.lmt_info, cpu); lmt_info->lmt_addr = ((u64)pfvf->hw.lmt_base + (cpu * LMT_BURST_SIZE * LMT_LINE_SIZE)); lmt_info->lmt_id = cpu * LMT_BURST_SIZE; } return 0; } EXPORT_SYMBOL(cn10k_lmtst_init); int cn10k_sq_aq_init(void *dev, u16 qidx, u16 sqb_aura) { struct nix_cn10k_aq_enq_req *aq; struct otx2_nic *pfvf = dev; /* Get memory to put this msg */ aq = otx2_mbox_alloc_msg_nix_cn10k_aq_enq(&pfvf->mbox); if (!aq) return -ENOMEM; aq->sq.cq = pfvf->hw.rx_queues + qidx; aq->sq.max_sqe_size = NIX_MAXSQESZ_W16; /* 128 byte */ aq->sq.cq_ena = 1; aq->sq.ena = 1; aq->sq.smq = otx2_get_smq_idx(pfvf, qidx); aq->sq.smq_rr_weight = mtu_to_dwrr_weight(pfvf, pfvf->tx_max_pktlen); aq->sq.default_chan = pfvf->hw.tx_chan_base; aq->sq.sqe_stype = NIX_STYPE_STF; /* Cache SQB */ aq->sq.sqb_aura = sqb_aura; aq->sq.sq_int_ena = NIX_SQINT_BITS; aq->sq.qint_idx = 0; /* Due pipelining impact minimum 2000 unused SQ CQE's * need to maintain to avoid CQ overflow. */ aq->sq.cq_limit = ((SEND_CQ_SKID * 256) / (pfvf->qset.sqe_cnt)); /* Fill AQ info */ aq->qidx = qidx; aq->ctype = NIX_AQ_CTYPE_SQ; aq->op = NIX_AQ_INSTOP_INIT; return otx2_sync_mbox_msg(&pfvf->mbox); } #define NPA_MAX_BURST 16 void cn10k_refill_pool_ptrs(void *dev, struct otx2_cq_queue *cq) { struct otx2_nic *pfvf = dev; u64 ptrs[NPA_MAX_BURST]; int num_ptrs = 1; dma_addr_t bufptr; /* Refill pool with new buffers */ while (cq->pool_ptrs) { if (otx2_alloc_buffer(pfvf, cq, &bufptr)) { if (num_ptrs--) __cn10k_aura_freeptr(pfvf, cq->cq_idx, ptrs, num_ptrs); break; } cq->pool_ptrs--; ptrs[num_ptrs] = (u64)bufptr + OTX2_HEAD_ROOM; num_ptrs++; if (num_ptrs == NPA_MAX_BURST || cq->pool_ptrs == 0) { __cn10k_aura_freeptr(pfvf, cq->cq_idx, ptrs, num_ptrs); num_ptrs = 1; } } } void cn10k_sqe_flush(void *dev, struct otx2_snd_queue *sq, int size, int qidx) { struct otx2_lmt_info *lmt_info; struct otx2_nic *pfvf = dev; u64 val = 0, tar_addr = 0; lmt_info = per_cpu_ptr(pfvf->hw.lmt_info, smp_processor_id()); /* FIXME: val[0:10] LMT_ID. * [12:15] no of LMTST - 1 in the burst. * [19:63] data size of each LMTST in the burst except first. */ val = (lmt_info->lmt_id & 0x7FF); /* Target address for LMTST flush tells HW how many 128bit * words are present. * tar_addr[6:4] size of first LMTST - 1 in units of 128b. */ tar_addr |= sq->io_addr | (((size / 16) - 1) & 0x7) << 4; dma_wmb(); memcpy((u64 *)lmt_info->lmt_addr, sq->sqe_base, size); cn10k_lmt_flush(val, tar_addr); sq->head++; sq->head &= (sq->sqe_cnt - 1); } int cn10k_free_all_ipolicers(struct otx2_nic *pfvf) { struct nix_bandprof_free_req *req; int rc; if (is_dev_otx2(pfvf->pdev)) return 0; mutex_lock(&pfvf->mbox.lock); req = otx2_mbox_alloc_msg_nix_bandprof_free(&pfvf->mbox); if (!req) { rc = -ENOMEM; goto out; } /* Free all bandwidth profiles allocated */ req->free_all = true; rc = otx2_sync_mbox_msg(&pfvf->mbox); out: mutex_unlock(&pfvf->mbox.lock); return rc; } int cn10k_alloc_leaf_profile(struct otx2_nic *pfvf, u16 *leaf) { struct nix_bandprof_alloc_req *req; struct nix_bandprof_alloc_rsp *rsp; int rc; req = otx2_mbox_alloc_msg_nix_bandprof_alloc(&pfvf->mbox); if (!req) return -ENOMEM; req->prof_count[BAND_PROF_LEAF_LAYER] = 1; rc = otx2_sync_mbox_msg(&pfvf->mbox); if (rc) goto out; rsp = (struct nix_bandprof_alloc_rsp *) otx2_mbox_get_rsp(&pfvf->mbox.mbox, 0, &req->hdr); if (!rsp->prof_count[BAND_PROF_LEAF_LAYER]) { rc = -EIO; goto out; } *leaf = rsp->prof_idx[BAND_PROF_LEAF_LAYER][0]; out: if (rc) { dev_warn(pfvf->dev, "Failed to allocate ingress bandwidth policer\n"); } return rc; } int cn10k_alloc_matchall_ipolicer(struct otx2_nic *pfvf) { struct otx2_hw *hw = &pfvf->hw; int ret; mutex_lock(&pfvf->mbox.lock); ret = cn10k_alloc_leaf_profile(pfvf, &hw->matchall_ipolicer); mutex_unlock(&pfvf->mbox.lock); return ret; } #define POLICER_TIMESTAMP 1 /* 1 second */ #define MAX_RATE_EXP 22 /* Valid rate exponent range: 0 - 22 */ static void cn10k_get_ingress_burst_cfg(u32 burst, u32 *burst_exp, u32 *burst_mantissa) { int tmp; /* Burst is calculated as * (1+[BURST_MANTISSA]/256)*2^[BURST_EXPONENT] * This is the upper limit on number tokens (bytes) that * can be accumulated in the bucket. */ *burst_exp = ilog2(burst); if (burst < 256) { /* No float: can't express mantissa in this case */ *burst_mantissa = 0; return; } if (*burst_exp > MAX_RATE_EXP) *burst_exp = MAX_RATE_EXP; /* Calculate mantissa * Find remaining bytes 'burst - 2^burst_exp' * mantissa = (remaining bytes) / 2^ (burst_exp - 8) */ tmp = burst - rounddown_pow_of_two(burst); *burst_mantissa = tmp / (1UL << (*burst_exp - 8)); } static void cn10k_get_ingress_rate_cfg(u64 rate, u32 *rate_exp, u32 *rate_mantissa, u32 *rdiv) { u32 div = 0; u32 exp = 0; u64 tmp; /* Figure out mantissa, exponent and divider from given max pkt rate * * To achieve desired rate HW adds * (1+[RATE_MANTISSA]/256)*2^[RATE_EXPONENT] tokens (bytes) at every * policer timeunit * 2^rdiv ie 2 * 2^rdiv usecs, to the token bucket. * Here policer timeunit is 2 usecs and rate is in bits per sec. * Since floating point cannot be used below algorithm uses 1000000 * scale factor to support rates upto 100Gbps. */ tmp = rate * 32 * 2; if (tmp < 256000000) { while (tmp < 256000000) { tmp = tmp * 2; div++; } } else { for (exp = 0; tmp >= 512000000 && exp <= MAX_RATE_EXP; exp++) tmp = tmp / 2; if (exp > MAX_RATE_EXP) exp = MAX_RATE_EXP; } *rate_mantissa = (tmp - 256000000) / 1000000; *rate_exp = exp; *rdiv = div; } int cn10k_map_unmap_rq_policer(struct otx2_nic *pfvf, int rq_idx, u16 policer, bool map) { struct nix_cn10k_aq_enq_req *aq; aq = otx2_mbox_alloc_msg_nix_cn10k_aq_enq(&pfvf->mbox); if (!aq) return -ENOMEM; /* Enable policing and set the bandwidth profile (policer) index */ if (map) aq->rq.policer_ena = 1; else aq->rq.policer_ena = 0; aq->rq_mask.policer_ena = 1; aq->rq.band_prof_id = policer; aq->rq_mask.band_prof_id = GENMASK(9, 0); /* Fill AQ info */ aq->qidx = rq_idx; aq->ctype = NIX_AQ_CTYPE_RQ; aq->op = NIX_AQ_INSTOP_WRITE; return otx2_sync_mbox_msg(&pfvf->mbox); } int cn10k_free_leaf_profile(struct otx2_nic *pfvf, u16 leaf) { struct nix_bandprof_free_req *req; req = otx2_mbox_alloc_msg_nix_bandprof_free(&pfvf->mbox); if (!req) return -ENOMEM; req->prof_count[BAND_PROF_LEAF_LAYER] = 1; req->prof_idx[BAND_PROF_LEAF_LAYER][0] = leaf; return otx2_sync_mbox_msg(&pfvf->mbox); } int cn10k_free_matchall_ipolicer(struct otx2_nic *pfvf) { struct otx2_hw *hw = &pfvf->hw; int qidx, rc; mutex_lock(&pfvf->mbox.lock); /* Remove RQ's policer mapping */ for (qidx = 0; qidx < hw->rx_queues; qidx++) cn10k_map_unmap_rq_policer(pfvf, qidx, hw->matchall_ipolicer, false); rc = cn10k_free_leaf_profile(pfvf, hw->matchall_ipolicer); mutex_unlock(&pfvf->mbox.lock); return rc; } int cn10k_set_ipolicer_rate(struct otx2_nic *pfvf, u16 profile, u32 burst, u64 rate, bool pps) { struct nix_cn10k_aq_enq_req *aq; u32 burst_exp, burst_mantissa; u32 rate_exp, rate_mantissa; u32 rdiv; /* Get exponent and mantissa values for the desired rate */ cn10k_get_ingress_burst_cfg(burst, &burst_exp, &burst_mantissa); cn10k_get_ingress_rate_cfg(rate, &rate_exp, &rate_mantissa, &rdiv); /* Init bandwidth profile */ aq = otx2_mbox_alloc_msg_nix_cn10k_aq_enq(&pfvf->mbox); if (!aq) return -ENOMEM; /* Set initial color mode to blind */ aq->prof.icolor = 0x03; aq->prof_mask.icolor = 0x03; /* Set rate and burst values */ aq->prof.cir_exponent = rate_exp; aq->prof_mask.cir_exponent = 0x1F; aq->prof.cir_mantissa = rate_mantissa; aq->prof_mask.cir_mantissa = 0xFF; aq->prof.cbs_exponent = burst_exp; aq->prof_mask.cbs_exponent = 0x1F; aq->prof.cbs_mantissa = burst_mantissa; aq->prof_mask.cbs_mantissa = 0xFF; aq->prof.rdiv = rdiv; aq->prof_mask.rdiv = 0xF; if (pps) { /* The amount of decremented tokens is calculated according to * the following equation: * max([ LMODE ? 0 : (packet_length - LXPTR)] + * ([ADJUST_MANTISSA]/256 - 1) * 2^[ADJUST_EXPONENT], * 1/256) * if LMODE is 1 then rate limiting will be based on * PPS otherwise bps. * The aim of the ADJUST value is to specify a token cost per * packet in contrary to the packet length that specifies a * cost per byte. To rate limit based on PPS adjust mantissa * is set as 384 and exponent as 1 so that number of tokens * decremented becomes 1 i.e, 1 token per packeet. */ aq->prof.adjust_exponent = 1; aq->prof_mask.adjust_exponent = 0x1F; aq->prof.adjust_mantissa = 384; aq->prof_mask.adjust_mantissa = 0x1FF; aq->prof.lmode = 0x1; aq->prof_mask.lmode = 0x1; } /* Two rate three color marker * With PEIR/EIR set to zero, color will be either green or red */ aq->prof.meter_algo = 2; aq->prof_mask.meter_algo = 0x3; aq->prof.rc_action = NIX_RX_BAND_PROF_ACTIONRESULT_DROP; aq->prof_mask.rc_action = 0x3; aq->prof.yc_action = NIX_RX_BAND_PROF_ACTIONRESULT_PASS; aq->prof_mask.yc_action = 0x3; aq->prof.gc_action = NIX_RX_BAND_PROF_ACTIONRESULT_PASS; aq->prof_mask.gc_action = 0x3; /* Setting exponent value as 24 and mantissa as 0 configures * the bucket with zero values making bucket unused. Peak * information rate and Excess information rate buckets are * unused here. */ aq->prof.peir_exponent = 24; aq->prof_mask.peir_exponent = 0x1F; aq->prof.peir_mantissa = 0; aq->prof_mask.peir_mantissa = 0xFF; aq->prof.pebs_exponent = 24; aq->prof_mask.pebs_exponent = 0x1F; aq->prof.pebs_mantissa = 0; aq->prof_mask.pebs_mantissa = 0xFF; /* Fill AQ info */ aq->qidx = profile; aq->ctype = NIX_AQ_CTYPE_BANDPROF; aq->op = NIX_AQ_INSTOP_WRITE; return otx2_sync_mbox_msg(&pfvf->mbox); } int cn10k_set_matchall_ipolicer_rate(struct otx2_nic *pfvf, u32 burst, u64 rate) { struct otx2_hw *hw = &pfvf->hw; int qidx, rc; mutex_lock(&pfvf->mbox.lock); rc = cn10k_set_ipolicer_rate(pfvf, hw->matchall_ipolicer, burst, rate, false); if (rc) goto out; for (qidx = 0; qidx < hw->rx_queues; qidx++) { rc = cn10k_map_unmap_rq_policer(pfvf, qidx, hw->matchall_ipolicer, true); if (rc) break; } out: mutex_unlock(&pfvf->mbox.lock); return rc; }
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