/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include uint32_t nxge_reclaim_pending = TXDMA_RECLAIM_PENDING_DEFAULT; uint32_t nxge_tx_minfree = 32; uint32_t nxge_tx_intr_thres = 0; uint32_t nxge_tx_max_gathers = TX_MAX_GATHER_POINTERS; uint32_t nxge_tx_tiny_pack = 1; uint32_t nxge_tx_use_bcopy = 1; extern uint32_t nxge_tx_ring_size; extern uint32_t nxge_bcopy_thresh; extern uint32_t nxge_dvma_thresh; extern uint32_t nxge_dma_stream_thresh; extern dma_method_t nxge_force_dma; /* Device register access attributes for PIO. */ extern ddi_device_acc_attr_t nxge_dev_reg_acc_attr; /* Device descriptor access attributes for DMA. */ extern ddi_device_acc_attr_t nxge_dev_desc_dma_acc_attr; /* Device buffer access attributes for DMA. */ extern ddi_device_acc_attr_t nxge_dev_buf_dma_acc_attr; extern ddi_dma_attr_t nxge_desc_dma_attr; extern ddi_dma_attr_t nxge_tx_dma_attr; static nxge_status_t nxge_map_txdma(p_nxge_t); static void nxge_unmap_txdma(p_nxge_t); static nxge_status_t nxge_txdma_hw_start(p_nxge_t); static void nxge_txdma_hw_stop(p_nxge_t); static nxge_status_t nxge_map_txdma_channel(p_nxge_t, uint16_t, p_nxge_dma_common_t *, p_tx_ring_t *, uint32_t, p_nxge_dma_common_t *, p_tx_mbox_t *); static void nxge_unmap_txdma_channel(p_nxge_t, uint16_t, p_tx_ring_t, p_tx_mbox_t); static nxge_status_t nxge_map_txdma_channel_buf_ring(p_nxge_t, uint16_t, p_nxge_dma_common_t *, p_tx_ring_t *, uint32_t); static void nxge_unmap_txdma_channel_buf_ring(p_nxge_t, p_tx_ring_t); static void nxge_map_txdma_channel_cfg_ring(p_nxge_t, uint16_t, p_nxge_dma_common_t *, p_tx_ring_t, p_tx_mbox_t *); static void nxge_unmap_txdma_channel_cfg_ring(p_nxge_t, p_tx_ring_t, p_tx_mbox_t); static nxge_status_t nxge_txdma_start_channel(p_nxge_t, uint16_t, p_tx_ring_t, p_tx_mbox_t); static nxge_status_t nxge_txdma_stop_channel(p_nxge_t, uint16_t, p_tx_ring_t, p_tx_mbox_t); static p_tx_ring_t nxge_txdma_get_ring(p_nxge_t, uint16_t); static nxge_status_t nxge_tx_err_evnts(p_nxge_t, uint_t, p_nxge_ldv_t, tx_cs_t); static p_tx_mbox_t nxge_txdma_get_mbox(p_nxge_t, uint16_t); static nxge_status_t nxge_txdma_fatal_err_recover(p_nxge_t, uint16_t, p_tx_ring_t); nxge_status_t nxge_init_txdma_channels(p_nxge_t nxgep) { nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_init_txdma_channels")); status = nxge_map_txdma(nxgep); if (status != NXGE_OK) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "<== nxge_init_txdma_channels: status 0x%x", status)); return (status); } status = nxge_txdma_hw_start(nxgep); if (status != NXGE_OK) { nxge_unmap_txdma(nxgep); return (status); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_init_txdma_channels: status 0x%x", status)); return (NXGE_OK); } void nxge_uninit_txdma_channels(p_nxge_t nxgep) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_uninit_txdma_channels")); nxge_txdma_hw_stop(nxgep); nxge_unmap_txdma(nxgep); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_uinit_txdma_channels")); } void nxge_setup_dma_common(p_nxge_dma_common_t dest_p, p_nxge_dma_common_t src_p, uint32_t entries, uint32_t size) { size_t tsize; *dest_p = *src_p; tsize = size * entries; dest_p->alength = tsize; dest_p->nblocks = entries; dest_p->block_size = size; dest_p->offset += tsize; src_p->kaddrp = (caddr_t)dest_p->kaddrp + tsize; src_p->alength -= tsize; src_p->dma_cookie.dmac_laddress += tsize; src_p->dma_cookie.dmac_size -= tsize; } nxge_status_t nxge_reset_txdma_channel(p_nxge_t nxgep, uint16_t channel, uint64_t reg_data) { npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; npi_handle_t handle; NXGE_DEBUG_MSG((nxgep, TX_CTL, " ==> nxge_reset_txdma_channel")); handle = NXGE_DEV_NPI_HANDLE(nxgep); if ((reg_data & TX_CS_RST_MASK) == TX_CS_RST_MASK) { rs = npi_txdma_channel_reset(handle, channel); } else { rs = npi_txdma_channel_control(handle, TXDMA_RESET, channel); } if (rs != NPI_SUCCESS) { status = NXGE_ERROR | rs; } /* * Reset the tail (kick) register to 0. * (Hardware will not reset it. Tx overflow fatal * error if tail is not set to 0 after reset! */ TXDMA_REG_WRITE64(handle, TX_RING_KICK_REG, channel, 0); NXGE_DEBUG_MSG((nxgep, TX_CTL, " <== nxge_reset_txdma_channel")); return (status); } nxge_status_t nxge_init_txdma_channel_event_mask(p_nxge_t nxgep, uint16_t channel, p_tx_dma_ent_msk_t mask_p) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_init_txdma_channel_event_mask")); handle = NXGE_DEV_NPI_HANDLE(nxgep); rs = npi_txdma_event_mask(handle, OP_SET, channel, mask_p); if (rs != NPI_SUCCESS) { status = NXGE_ERROR | rs; } return (status); } nxge_status_t nxge_init_txdma_channel_cntl_stat(p_nxge_t nxgep, uint16_t channel, uint64_t reg_data) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_init_txdma_channel_cntl_stat")); handle = NXGE_DEV_NPI_HANDLE(nxgep); rs = npi_txdma_control_status(handle, OP_SET, channel, (p_tx_cs_t)®_data); if (rs != NPI_SUCCESS) { status = NXGE_ERROR | rs; } return (status); } nxge_status_t nxge_enable_txdma_channel(p_nxge_t nxgep, uint16_t channel, p_tx_ring_t tx_desc_p, p_tx_mbox_t mbox_p) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_enable_txdma_channel")); handle = NXGE_DEV_NPI_HANDLE(nxgep); /* * Use configuration data composed at init time. * Write to hardware the transmit ring configurations. */ rs = npi_txdma_ring_config(handle, OP_SET, channel, (uint64_t *)&(tx_desc_p->tx_ring_cfig.value)); if (rs != NPI_SUCCESS) { return (NXGE_ERROR | rs); } /* Write to hardware the mailbox */ rs = npi_txdma_mbox_config(handle, OP_SET, channel, (uint64_t *)&mbox_p->tx_mbox.dma_cookie.dmac_laddress); if (rs != NPI_SUCCESS) { return (NXGE_ERROR | rs); } /* Start the DMA engine. */ rs = npi_txdma_channel_init_enable(handle, channel); if (rs != NPI_SUCCESS) { return (NXGE_ERROR | rs); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_enable_txdma_channel")); return (status); } void nxge_fill_tx_hdr(p_mblk_t mp, boolean_t fill_len, boolean_t l4_cksum, int pkt_len, uint8_t npads, p_tx_pkt_hdr_all_t pkthdrp) { p_tx_pkt_header_t hdrp; p_mblk_t nmp; uint64_t tmp; size_t mblk_len; size_t iph_len; size_t hdrs_size; uint8_t hdrs_buf[sizeof (struct ether_header) + 64 + sizeof (uint32_t)]; uint8_t *ip_buf; uint16_t eth_type; uint8_t ipproto; boolean_t is_vlan = B_FALSE; size_t eth_hdr_size; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: mp $%p", mp)); /* * Caller should zero out the headers first. */ hdrp = (p_tx_pkt_header_t)&pkthdrp->pkthdr; if (fill_len) { NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: pkt_len %d " "npads %d", pkt_len, npads)); tmp = (uint64_t)pkt_len; hdrp->value |= (tmp << TX_PKT_HEADER_TOT_XFER_LEN_SHIFT); goto fill_tx_header_done; } tmp = (uint64_t)npads; hdrp->value |= (tmp << TX_PKT_HEADER_PAD_SHIFT); /* * mp is the original data packet (does not include the * Neptune transmit header). */ nmp = mp; mblk_len = (size_t)nmp->b_wptr - (size_t)nmp->b_rptr; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: " "mp $%p b_rptr $%p len %d", mp, nmp->b_rptr, mblk_len)); ip_buf = NULL; bcopy(nmp->b_rptr, &hdrs_buf[0], sizeof (struct ether_vlan_header)); eth_type = ntohs(((p_ether_header_t)hdrs_buf)->ether_type); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> : nxge_fill_tx_hdr: (value 0x%llx) " "ether type 0x%x", eth_type, hdrp->value)); if (eth_type < ETHERMTU) { tmp = 1ull; hdrp->value |= (tmp << TX_PKT_HEADER_LLC_SHIFT); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: LLC " "value 0x%llx", hdrp->value)); if (*(hdrs_buf + sizeof (struct ether_header)) == LLC_SNAP_SAP) { eth_type = ntohs(*((uint16_t *)(hdrs_buf + sizeof (struct ether_header) + 6))); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: LLC ether type 0x%x", eth_type)); } else { goto fill_tx_header_done; } } else if (eth_type == VLAN_ETHERTYPE) { tmp = 1ull; hdrp->value |= (tmp << TX_PKT_HEADER_VLAN__SHIFT); eth_type = ntohs(((struct ether_vlan_header *) hdrs_buf)->ether_type); is_vlan = B_TRUE; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: VLAN " "value 0x%llx", hdrp->value)); } if (!is_vlan) { eth_hdr_size = sizeof (struct ether_header); } else { eth_hdr_size = sizeof (struct ether_vlan_header); } switch (eth_type) { case ETHERTYPE_IP: if (mblk_len > eth_hdr_size + sizeof (uint8_t)) { ip_buf = nmp->b_rptr + eth_hdr_size; mblk_len -= eth_hdr_size; iph_len = ((*ip_buf) & 0x0f); if (mblk_len > (iph_len + sizeof (uint32_t))) { ip_buf = nmp->b_rptr; ip_buf += eth_hdr_size; } else { ip_buf = NULL; } } if (ip_buf == NULL) { hdrs_size = 0; ((p_ether_header_t)hdrs_buf)->ether_type = 0; while ((nmp) && (hdrs_size < sizeof (hdrs_buf))) { mblk_len = (size_t)nmp->b_wptr - (size_t)nmp->b_rptr; if (mblk_len >= (sizeof (hdrs_buf) - hdrs_size)) mblk_len = sizeof (hdrs_buf) - hdrs_size; bcopy(nmp->b_rptr, &hdrs_buf[hdrs_size], mblk_len); hdrs_size += mblk_len; nmp = nmp->b_cont; } ip_buf = hdrs_buf; ip_buf += eth_hdr_size; iph_len = ((*ip_buf) & 0x0f); } ipproto = ip_buf[9]; tmp = (uint64_t)iph_len; hdrp->value |= (tmp << TX_PKT_HEADER_IHL_SHIFT); tmp = (uint64_t)(eth_hdr_size >> 1); hdrp->value |= (tmp << TX_PKT_HEADER_L3START_SHIFT); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: IPv4 " " iph_len %d l3start %d eth_hdr_size %d proto 0x%x" "tmp 0x%x", iph_len, hdrp->bits.hdw.l3start, eth_hdr_size, ipproto, tmp)); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: IP " "value 0x%llx", hdrp->value)); break; case ETHERTYPE_IPV6: hdrs_size = 0; ((p_ether_header_t)hdrs_buf)->ether_type = 0; while ((nmp) && (hdrs_size < sizeof (hdrs_buf))) { mblk_len = (size_t)nmp->b_wptr - (size_t)nmp->b_rptr; if (mblk_len >= (sizeof (hdrs_buf) - hdrs_size)) mblk_len = sizeof (hdrs_buf) - hdrs_size; bcopy(nmp->b_rptr, &hdrs_buf[hdrs_size], mblk_len); hdrs_size += mblk_len; nmp = nmp->b_cont; } ip_buf = hdrs_buf; ip_buf += eth_hdr_size; tmp = 1ull; hdrp->value |= (tmp << TX_PKT_HEADER_IP_VER_SHIFT); tmp = (eth_hdr_size >> 1); hdrp->value |= (tmp << TX_PKT_HEADER_L3START_SHIFT); /* byte 6 is the next header protocol */ ipproto = ip_buf[6]; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: IPv6 " " iph_len %d l3start %d eth_hdr_size %d proto 0x%x", iph_len, hdrp->bits.hdw.l3start, eth_hdr_size, ipproto)); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: IPv6 " "value 0x%llx", hdrp->value)); break; default: NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: non-IP")); goto fill_tx_header_done; } switch (ipproto) { case IPPROTO_TCP: NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: TCP (cksum flag %d)", l4_cksum)); if (l4_cksum) { tmp = 1ull; hdrp->value |= (tmp << TX_PKT_HEADER_PKT_TYPE_SHIFT); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: TCP CKSUM" "value 0x%llx", hdrp->value)); } NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: TCP " "value 0x%llx", hdrp->value)); break; case IPPROTO_UDP: NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: UDP")); if (l4_cksum) { tmp = 0x2ull; hdrp->value |= (tmp << TX_PKT_HEADER_PKT_TYPE_SHIFT); } NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_hdr_init: UDP" "value 0x%llx", hdrp->value)); break; default: goto fill_tx_header_done; } fill_tx_header_done: NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_fill_tx_hdr: pkt_len %d " "npads %d value 0x%llx", pkt_len, npads, hdrp->value)); NXGE_DEBUG_MSG((NULL, TX_CTL, "<== nxge_fill_tx_hdr")); } /*ARGSUSED*/ p_mblk_t nxge_tx_pkt_header_reserve(p_mblk_t mp, uint8_t *npads) { p_mblk_t newmp = NULL; if ((newmp = allocb(TX_PKT_HEADER_SIZE, BPRI_MED)) == NULL) { NXGE_DEBUG_MSG((NULL, TX_CTL, "<== nxge_tx_pkt_header_reserve: allocb failed")); return (NULL); } NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_header_reserve: get new mp")); DB_TYPE(newmp) = M_DATA; newmp->b_rptr = newmp->b_wptr = DB_LIM(newmp); linkb(newmp, mp); newmp->b_rptr -= TX_PKT_HEADER_SIZE; NXGE_DEBUG_MSG((NULL, TX_CTL, "==>nxge_tx_pkt_header_reserve: " "b_rptr $%p b_wptr $%p", newmp->b_rptr, newmp->b_wptr)); NXGE_DEBUG_MSG((NULL, TX_CTL, "<== nxge_tx_pkt_header_reserve: use new mp")); return (newmp); } int nxge_tx_pkt_nmblocks(p_mblk_t mp, int *tot_xfer_len_p) { uint_t nmblks; ssize_t len; uint_t pkt_len; p_mblk_t nmp, bmp, tmp; uint8_t *b_wptr; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: mp $%p rptr $%p wptr $%p " "len %d", mp, mp->b_rptr, mp->b_wptr, MBLKL(mp))); nmp = mp; bmp = mp; nmblks = 0; pkt_len = 0; *tot_xfer_len_p = 0; while (nmp) { len = MBLKL(nmp); NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: " "len %d pkt_len %d nmblks %d tot_xfer_len %d", len, pkt_len, nmblks, *tot_xfer_len_p)); if (len <= 0) { bmp = nmp; nmp = nmp->b_cont; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: " "len (0) pkt_len %d nmblks %d", pkt_len, nmblks)); continue; } *tot_xfer_len_p += len; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: " "len %d pkt_len %d nmblks %d tot_xfer_len %d", len, pkt_len, nmblks, *tot_xfer_len_p)); if (len < nxge_bcopy_thresh) { NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: " "len %d (< thresh) pkt_len %d nmblks %d", len, pkt_len, nmblks)); if (pkt_len == 0) nmblks++; pkt_len += len; if (pkt_len >= nxge_bcopy_thresh) { pkt_len = 0; len = 0; nmp = bmp; } } else { NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: " "len %d (> thresh) pkt_len %d nmblks %d", len, pkt_len, nmblks)); pkt_len = 0; nmblks++; /* * Hardware limits the transfer length to 4K. * If len is more than 4K, we need to break * it up to at most 2 more blocks. */ if (len > TX_MAX_TRANSFER_LENGTH) { uint32_t nsegs; NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: " "len %d pkt_len %d nmblks %d nsegs %d", len, pkt_len, nmblks, nsegs)); nsegs = 1; if (len % (TX_MAX_TRANSFER_LENGTH * 2)) { ++nsegs; } do { b_wptr = nmp->b_rptr + TX_MAX_TRANSFER_LENGTH; nmp->b_wptr = b_wptr; if ((tmp = dupb(nmp)) == NULL) { return (0); } tmp->b_rptr = b_wptr; tmp->b_wptr = nmp->b_wptr; tmp->b_cont = nmp->b_cont; nmp->b_cont = tmp; nmblks++; if (--nsegs) { nmp = tmp; } } while (nsegs); nmp = tmp; } } /* * Hardware limits the transmit gather pointers to 15. */ if (nmp->b_cont && (nmblks + TX_GATHER_POINTERS_THRESHOLD) > TX_MAX_GATHER_POINTERS) { NXGE_DEBUG_MSG((NULL, TX_CTL, "==> nxge_tx_pkt_nmblocks: pull msg - " "len %d pkt_len %d nmblks %d", len, pkt_len, nmblks)); /* Pull all message blocks from b_cont */ if ((tmp = msgpullup(nmp->b_cont, -1)) == NULL) { return (0); } freemsg(nmp->b_cont); nmp->b_cont = tmp; pkt_len = 0; } bmp = nmp; nmp = nmp->b_cont; } NXGE_DEBUG_MSG((NULL, TX_CTL, "<== nxge_tx_pkt_nmblocks: rptr $%p wptr $%p " "nmblks %d len %d tot_xfer_len %d", mp->b_rptr, mp->b_wptr, nmblks, MBLKL(mp), *tot_xfer_len_p)); return (nmblks); } boolean_t nxge_txdma_reclaim(p_nxge_t nxgep, p_tx_ring_t tx_ring_p, int nmblks) { boolean_t status = B_TRUE; p_nxge_dma_common_t tx_desc_dma_p; nxge_dma_common_t desc_area; p_tx_desc_t tx_desc_ring_vp; p_tx_desc_t tx_desc_p; p_tx_desc_t tx_desc_pp; tx_desc_t r_tx_desc; p_tx_msg_t tx_msg_ring; p_tx_msg_t tx_msg_p; npi_handle_t handle; tx_ring_hdl_t tx_head; uint32_t pkt_len; uint_t tx_rd_index; uint16_t head_index, tail_index; uint8_t tdc; boolean_t head_wrap, tail_wrap; p_nxge_tx_ring_stats_t tdc_stats; int rc; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim")); status = ((tx_ring_p->descs_pending < nxge_reclaim_pending) && (nmblks != 0)); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: pending %d reclaim %d nmblks %d", tx_ring_p->descs_pending, nxge_reclaim_pending, nmblks)); if (!status) { tx_desc_dma_p = &tx_ring_p->tdc_desc; desc_area = tx_ring_p->tdc_desc; handle = NXGE_DEV_NPI_HANDLE(nxgep); tx_desc_ring_vp = tx_desc_dma_p->kaddrp; tx_desc_ring_vp = (p_tx_desc_t)DMA_COMMON_VPTR(desc_area); tx_rd_index = tx_ring_p->rd_index; tx_desc_p = &tx_desc_ring_vp[tx_rd_index]; tx_msg_ring = tx_ring_p->tx_msg_ring; tx_msg_p = &tx_msg_ring[tx_rd_index]; tdc = tx_ring_p->tdc; tdc_stats = tx_ring_p->tdc_stats; if (tx_ring_p->descs_pending > tdc_stats->tx_max_pend) { tdc_stats->tx_max_pend = tx_ring_p->descs_pending; } tail_index = tx_ring_p->wr_index; tail_wrap = tx_ring_p->wr_index_wrap; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: tdc %d tx_rd_index %d " "tail_index %d tail_wrap %d " "tx_desc_p $%p ($%p) ", tdc, tx_rd_index, tail_index, tail_wrap, tx_desc_p, (*(uint64_t *)tx_desc_p))); /* * Read the hardware maintained transmit head * and wrap around bit. */ TXDMA_REG_READ64(handle, TX_RING_HDL_REG, tdc, &tx_head.value); head_index = tx_head.bits.ldw.head; head_wrap = tx_head.bits.ldw.wrap; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: " "tx_rd_index %d tail %d tail_wrap %d " "head %d wrap %d", tx_rd_index, tail_index, tail_wrap, head_index, head_wrap)); if (head_index == tail_index) { if (TXDMA_RING_EMPTY(head_index, head_wrap, tail_index, tail_wrap) && (head_index == tx_rd_index)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: EMPTY")); return (B_TRUE); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: Checking " "if ring full")); if (TXDMA_RING_FULL(head_index, head_wrap, tail_index, tail_wrap)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: full")); return (B_FALSE); } } NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: tx_rd_index and head_index")); tx_desc_pp = &r_tx_desc; while ((tx_rd_index != head_index) && (tx_ring_p->descs_pending != 0)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: Checking if pending")); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: " "descs_pending %d ", tx_ring_p->descs_pending)); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: " "(tx_rd_index %d head_index %d " "(tx_desc_p $%p)", tx_rd_index, head_index, tx_desc_p)); tx_desc_pp->value = tx_desc_p->value; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: " "(tx_rd_index %d head_index %d " "tx_desc_p $%p (desc value 0x%llx) ", tx_rd_index, head_index, tx_desc_pp, (*(uint64_t *)tx_desc_pp))); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: dump desc:")); pkt_len = tx_desc_pp->bits.hdw.tr_len; tdc_stats->obytes += pkt_len; tdc_stats->opackets += tx_desc_pp->bits.hdw.sop; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: pkt_len %d " "tdc channel %d opackets %d", pkt_len, tdc, tdc_stats->opackets)); if (tx_msg_p->flags.dma_type == USE_DVMA) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "tx_desc_p = $%p " "tx_desc_pp = $%p " "index = %d", tx_desc_p, tx_desc_pp, tx_ring_p->rd_index)); (void) dvma_unload(tx_msg_p->dvma_handle, 0, -1); tx_msg_p->dvma_handle = NULL; if (tx_ring_p->dvma_wr_index == tx_ring_p->dvma_wrap_mask) { tx_ring_p->dvma_wr_index = 0; } else { tx_ring_p->dvma_wr_index++; } tx_ring_p->dvma_pending--; } else if (tx_msg_p->flags.dma_type == USE_DMA) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: " "USE DMA")); if (rc = ddi_dma_unbind_handle (tx_msg_p->dma_handle)) { cmn_err(CE_WARN, "!nxge_reclaim: " "ddi_dma_unbind_handle " "failed. status %d", rc); } } NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_reclaim: count packets")); /* * count a chained packet only once. */ if (tx_msg_p->tx_message != NULL) { freemsg(tx_msg_p->tx_message); tx_msg_p->tx_message = NULL; } tx_msg_p->flags.dma_type = USE_NONE; tx_rd_index = tx_ring_p->rd_index; tx_rd_index = (tx_rd_index + 1) & tx_ring_p->tx_wrap_mask; tx_ring_p->rd_index = tx_rd_index; tx_ring_p->descs_pending--; tx_desc_p = &tx_desc_ring_vp[tx_rd_index]; tx_msg_p = &tx_msg_ring[tx_rd_index]; } status = (nmblks <= (tx_ring_p->tx_ring_size - tx_ring_p->descs_pending - TX_FULL_MARK)); if (status) { cas32((uint32_t *)&tx_ring_p->queueing, 1, 0); } } else { status = (nmblks <= (tx_ring_p->tx_ring_size - tx_ring_p->descs_pending - TX_FULL_MARK)); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_reclaim status = 0x%08x", status)); return (status); } uint_t nxge_tx_intr(void *arg1, void *arg2) { p_nxge_ldv_t ldvp = (p_nxge_ldv_t)arg1; p_nxge_t nxgep = (p_nxge_t)arg2; p_nxge_ldg_t ldgp; uint8_t channel; uint32_t vindex; npi_handle_t handle; tx_cs_t cs; p_tx_ring_t *tx_rings; p_tx_ring_t tx_ring_p; npi_status_t rs = NPI_SUCCESS; uint_t serviced = DDI_INTR_UNCLAIMED; nxge_status_t status = NXGE_OK; if (ldvp == NULL) { NXGE_DEBUG_MSG((NULL, INT_CTL, "<== nxge_tx_intr: nxgep $%p ldvp $%p", nxgep, ldvp)); return (DDI_INTR_UNCLAIMED); } if (arg2 == NULL || (void *)ldvp->nxgep != arg2) { nxgep = ldvp->nxgep; } NXGE_DEBUG_MSG((nxgep, INT_CTL, "==> nxge_tx_intr: nxgep(arg2) $%p ldvp(arg1) $%p", nxgep, ldvp)); /* * This interrupt handler is for a specific * transmit dma channel. */ handle = NXGE_DEV_NPI_HANDLE(nxgep); /* Get the control and status for this channel. */ channel = ldvp->channel; ldgp = ldvp->ldgp; NXGE_DEBUG_MSG((nxgep, INT_CTL, "==> nxge_tx_intr: nxgep $%p ldvp (ldvp) $%p " "channel %d", nxgep, ldvp, channel)); rs = npi_txdma_control_status(handle, OP_GET, channel, &cs); vindex = ldvp->vdma_index; NXGE_DEBUG_MSG((nxgep, INT_CTL, "==> nxge_tx_intr:channel %d ring index %d status 0x%08x", channel, vindex, rs)); if (!rs && cs.bits.ldw.mk) { NXGE_DEBUG_MSG((nxgep, INT_CTL, "==> nxge_tx_intr:channel %d ring index %d " "status 0x%08x (mk bit set)", channel, vindex, rs)); tx_rings = nxgep->tx_rings->rings; tx_ring_p = tx_rings[vindex]; NXGE_DEBUG_MSG((nxgep, INT_CTL, "==> nxge_tx_intr:channel %d ring index %d " "status 0x%08x (mk bit set, calling reclaim)", channel, vindex, rs)); MUTEX_ENTER(&tx_ring_p->lock); (void) nxge_txdma_reclaim(nxgep, tx_rings[vindex], 0); MUTEX_EXIT(&tx_ring_p->lock); mac_tx_update(nxgep->mach); } /* * Process other transmit control and status. * Check the ldv state. */ status = nxge_tx_err_evnts(nxgep, ldvp->vdma_index, ldvp, cs); /* * Rearm this logical group if this is a single device * group. */ if (ldgp->nldvs == 1) { NXGE_DEBUG_MSG((nxgep, INT_CTL, "==> nxge_tx_intr: rearm")); if (status == NXGE_OK) { (void) npi_intr_ldg_mgmt_set(handle, ldgp->ldg, B_TRUE, ldgp->ldg_timer); } } NXGE_DEBUG_MSG((nxgep, INT_CTL, "<== nxge_tx_intr")); serviced = DDI_INTR_CLAIMED; return (serviced); } void nxge_txdma_stop(p_nxge_t nxgep) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_stop")); (void) nxge_link_monitor(nxgep, LINK_MONITOR_STOP); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_stop")); } void nxge_txdma_stop_start(p_nxge_t nxgep) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_stop_start")); (void) nxge_txdma_stop(nxgep); (void) nxge_fixup_txdma_rings(nxgep); (void) nxge_txdma_hw_mode(nxgep, NXGE_DMA_START); (void) nxge_tx_mac_enable(nxgep); (void) nxge_txdma_hw_kick(nxgep); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_stop_start")); } nxge_status_t nxge_txdma_hw_mode(p_nxge_t nxgep, boolean_t enable) { int i, ndmas; uint16_t channel; p_tx_rings_t tx_rings; p_tx_ring_t *tx_desc_rings; npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: enable mode %d", enable)); if (!(nxgep->drv_state & STATE_HW_INITIALIZED)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_mode: not initialized")); return (NXGE_ERROR); } tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_mode: NULL global ring pointer")); return (NXGE_ERROR); } tx_desc_rings = tx_rings->rings; if (tx_desc_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_mode: NULL rings pointer")); return (NXGE_ERROR); } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "<== nxge_txdma_hw_mode: no dma channel allocated")); return (NXGE_ERROR); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_desc_rings, ndmas)); handle = NXGE_DEV_NPI_HANDLE(nxgep); for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } channel = tx_desc_rings[i]->tdc; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: channel %d", channel)); if (enable) { rs = npi_txdma_channel_enable(handle, channel); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: channel %d (enable) " "rs 0x%x", channel, rs)); } else { /* * Stop the dma channel and waits for the stop done. * If the stop done bit is not set, then force * an error so TXC will stop. * All channels bound to this port need to be stopped * and reset after injecting an interrupt error. */ rs = npi_txdma_channel_disable(handle, channel); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: channel %d (disable) " "rs 0x%x", channel, rs)); { tdmc_intr_dbg_t intr_dbg; if (rs != NPI_SUCCESS) { /* Inject any error */ intr_dbg.value = 0; intr_dbg.bits.ldw.nack_pref = 1; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: " "channel %d (stop failed 0x%x) " "(inject err)", rs, channel)); (void) npi_txdma_inj_int_error_set( handle, channel, &intr_dbg); rs = npi_txdma_channel_disable(handle, channel); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_mode: " "channel %d (stop again 0x%x) " "(after inject err)", rs, channel)); } } } } status = ((rs == NPI_SUCCESS) ? NXGE_OK : NXGE_ERROR | rs); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_hw_mode: status 0x%x", status)); return (status); } void nxge_txdma_enable_channel(p_nxge_t nxgep, uint16_t channel) { npi_handle_t handle; NXGE_DEBUG_MSG((nxgep, DMA_CTL, "==> nxge_txdma_enable_channel: channel %d", channel)); handle = NXGE_DEV_NPI_HANDLE(nxgep); /* enable the transmit dma channels */ (void) npi_txdma_channel_enable(handle, channel); NXGE_DEBUG_MSG((nxgep, DMA_CTL, "<== nxge_txdma_enable_channel")); } void nxge_txdma_disable_channel(p_nxge_t nxgep, uint16_t channel) { npi_handle_t handle; NXGE_DEBUG_MSG((nxgep, DMA_CTL, "==> nxge_txdma_disable_channel: channel %d", channel)); handle = NXGE_DEV_NPI_HANDLE(nxgep); /* stop the transmit dma channels */ (void) npi_txdma_channel_disable(handle, channel); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_disable_channel")); } int nxge_txdma_stop_inj_err(p_nxge_t nxgep, int channel) { npi_handle_t handle; tdmc_intr_dbg_t intr_dbg; int status; npi_status_t rs = NPI_SUCCESS; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_stop_inj_err")); /* * Stop the dma channel waits for the stop done. * If the stop done bit is not set, then create * an error. */ handle = NXGE_DEV_NPI_HANDLE(nxgep); rs = npi_txdma_channel_disable(handle, channel); status = ((rs == NPI_SUCCESS) ? NXGE_OK : NXGE_ERROR | rs); if (status == NXGE_OK) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_stop_inj_err (channel %d): " "stopped OK", channel)); return (status); } NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_stop_inj_err (channel %d): stop failed (0x%x) " "injecting error", channel, rs)); /* Inject any error */ intr_dbg.value = 0; intr_dbg.bits.ldw.nack_pref = 1; (void) npi_txdma_inj_int_error_set(handle, channel, &intr_dbg); /* Stop done bit will be set as a result of error injection */ rs = npi_txdma_channel_disable(handle, channel); status = ((rs == NPI_SUCCESS) ? NXGE_OK : NXGE_ERROR | rs); if (!(rs & NPI_TXDMA_STOP_FAILED)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_stop_inj_err (channel %d): " "stopped OK ", channel)); return (status); } #if defined(NXGE_DEBUG) nxge_txdma_regs_dump_channels(nxgep); #endif NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_stop_inj_err (channel): stop failed (0x%x) " " (injected error but still not stopped)", channel, rs)); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_stop_inj_err")); return (status); } void nxge_hw_start_tx(p_nxge_t nxgep) { NXGE_DEBUG_MSG((nxgep, DDI_CTL, "==> nxge_hw_start_tx")); (void) nxge_txdma_hw_start(nxgep); (void) nxge_tx_mac_enable(nxgep); NXGE_DEBUG_MSG((nxgep, DDI_CTL, "<== nxge_hw_start_tx")); } /*ARGSUSED*/ void nxge_fixup_txdma_rings(p_nxge_t nxgep) { int index, ndmas; uint16_t channel; p_tx_rings_t tx_rings; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_fixup_txdma_rings")); /* * For each transmit channel, reclaim each descriptor and * free buffers. */ tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_fixup_txdma_rings: NULL ring pointer")); return; } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_fixup_txdma_rings: no channel allocated")); return; } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_fixup_txdma_rings: NULL rings pointer")); return; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_fixup_txdma_rings: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings->rings, ndmas)); for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_fixup_txdma_rings: channel %d", channel)); nxge_txdma_fixup_channel(nxgep, tx_rings->rings[index], channel); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_fixup_txdma_rings")); } /*ARGSUSED*/ void nxge_txdma_fix_channel(p_nxge_t nxgep, uint16_t channel) { p_tx_ring_t ring_p; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_fix_channel")); ring_p = nxge_txdma_get_ring(nxgep, channel); if (ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fix_channel")); return; } if (ring_p->tdc != channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fix_channel: channel not matched " "ring tdc %d passed channel", ring_p->tdc, channel)); return; } nxge_txdma_fixup_channel(nxgep, ring_p, channel); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fix_channel")); } /*ARGSUSED*/ void nxge_txdma_fixup_channel(p_nxge_t nxgep, p_tx_ring_t ring_p, uint16_t channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_fixup_channel")); if (ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_channel: NULL ring pointer")); return; } if (ring_p->tdc != channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_channel: channel not matched " "ring tdc %d passed channel", ring_p->tdc, channel)); return; } MUTEX_ENTER(&ring_p->lock); (void) nxge_txdma_reclaim(nxgep, ring_p, 0); ring_p->rd_index = 0; ring_p->wr_index = 0; ring_p->ring_head.value = 0; ring_p->ring_kick_tail.value = 0; ring_p->descs_pending = 0; MUTEX_EXIT(&ring_p->lock); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_channel")); } /*ARGSUSED*/ void nxge_txdma_hw_kick(p_nxge_t nxgep) { int index, ndmas; uint16_t channel; p_tx_rings_t tx_rings; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_hw_kick")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_kick: NULL ring pointer")); return; } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_kick: no channel allocated")); return; } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_kick: NULL rings pointer")); return; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_kick: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings->rings, ndmas)); for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_kick: channel %d", channel)); nxge_txdma_hw_kick_channel(nxgep, tx_rings->rings[index], channel); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_kick")); } /*ARGSUSED*/ void nxge_txdma_kick_channel(p_nxge_t nxgep, uint16_t channel) { p_tx_ring_t ring_p; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_kick_channel")); ring_p = nxge_txdma_get_ring(nxgep, channel); if (ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, " nxge_txdma_kick_channel")); return; } if (ring_p->tdc != channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_kick_channel: channel not matched " "ring tdc %d passed channel", ring_p->tdc, channel)); return; } nxge_txdma_hw_kick_channel(nxgep, ring_p, channel); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_kick_channel")); } /*ARGSUSED*/ void nxge_txdma_hw_kick_channel(p_nxge_t nxgep, p_tx_ring_t ring_p, uint16_t channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_hw_kick_channel")); if (ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_kick_channel: NULL ring pointer")); return; } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_kick_channel")); } /*ARGSUSED*/ void nxge_check_tx_hang(p_nxge_t nxgep) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_check_tx_hang")); /* * Needs inputs from hardware for regs: * head index had not moved since last timeout. * packets not transmitted or stuffed registers. */ if (nxge_txdma_hung(nxgep)) { nxge_fixup_hung_txdma_rings(nxgep); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_check_tx_hang")); } int nxge_txdma_hung(p_nxge_t nxgep) { int index, ndmas; uint16_t channel; p_tx_rings_t tx_rings; p_tx_ring_t tx_ring_p; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_hung")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hung: NULL ring pointer")); return (B_FALSE); } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hung: no channel " "allocated")); return (B_FALSE); } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hung: NULL rings pointer")); return (B_FALSE); } for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; tx_ring_p = tx_rings->rings[index]; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_hung: channel %d", channel)); if (nxge_txdma_channel_hung(nxgep, tx_ring_p, channel)) { return (B_TRUE); } } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hung")); return (B_FALSE); } int nxge_txdma_channel_hung(p_nxge_t nxgep, p_tx_ring_t tx_ring_p, uint16_t channel) { uint16_t head_index, tail_index; boolean_t head_wrap, tail_wrap; npi_handle_t handle; tx_ring_hdl_t tx_head; uint_t tx_rd_index; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung")); handle = NXGE_DEV_NPI_HANDLE(nxgep); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung: channel %d", channel)); MUTEX_ENTER(&tx_ring_p->lock); (void) nxge_txdma_reclaim(nxgep, tx_ring_p, 0); tail_index = tx_ring_p->wr_index; tail_wrap = tx_ring_p->wr_index_wrap; tx_rd_index = tx_ring_p->rd_index; MUTEX_EXIT(&tx_ring_p->lock); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung: tdc %d tx_rd_index %d " "tail_index %d tail_wrap %d ", channel, tx_rd_index, tail_index, tail_wrap)); /* * Read the hardware maintained transmit head * and wrap around bit. */ (void) npi_txdma_ring_head_get(handle, channel, &tx_head); head_index = tx_head.bits.ldw.head; head_wrap = tx_head.bits.ldw.wrap; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung: " "tx_rd_index %d tail %d tail_wrap %d " "head %d wrap %d", tx_rd_index, tail_index, tail_wrap, head_index, head_wrap)); if (TXDMA_RING_EMPTY(head_index, head_wrap, tail_index, tail_wrap) && (head_index == tx_rd_index)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung: EMPTY")); return (B_FALSE); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung: Checking if ring full")); if (TXDMA_RING_FULL(head_index, head_wrap, tail_index, tail_wrap)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_channel_hung: full")); return (B_TRUE); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_channel_hung")); return (B_FALSE); } /*ARGSUSED*/ void nxge_fixup_hung_txdma_rings(p_nxge_t nxgep) { int index, ndmas; uint16_t channel; p_tx_rings_t tx_rings; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_fixup_hung_txdma_rings")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_fixup_hung_txdma_rings: NULL ring pointer")); return; } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_fixup_hung_txdma_rings: no channel " "allocated")); return; } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_fixup_hung_txdma_rings: NULL rings pointer")); return; } NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_fixup_hung_txdma_rings: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings->rings, ndmas)); for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_fixup_hung_txdma_rings: channel %d", channel)); nxge_txdma_fixup_hung_channel(nxgep, tx_rings->rings[index], channel); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_fixup_hung_txdma_rings")); } /*ARGSUSED*/ void nxge_txdma_fix_hung_channel(p_nxge_t nxgep, uint16_t channel) { p_tx_ring_t ring_p; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_fix_hung_channel")); ring_p = nxge_txdma_get_ring(nxgep, channel); if (ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fix_hung_channel")); return; } if (ring_p->tdc != channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fix_hung_channel: channel not matched " "ring tdc %d passed channel", ring_p->tdc, channel)); return; } nxge_txdma_fixup_channel(nxgep, ring_p, channel); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fix_hung_channel")); } /*ARGSUSED*/ void nxge_txdma_fixup_hung_channel(p_nxge_t nxgep, p_tx_ring_t ring_p, uint16_t channel) { npi_handle_t handle; tdmc_intr_dbg_t intr_dbg; int status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_fixup_hung_channel")); if (ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_channel: NULL ring pointer")); return; } if (ring_p->tdc != channel) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_hung_channel: channel " "not matched " "ring tdc %d passed channel", ring_p->tdc, channel)); return; } /* Reclaim descriptors */ MUTEX_ENTER(&ring_p->lock); (void) nxge_txdma_reclaim(nxgep, ring_p, 0); MUTEX_EXIT(&ring_p->lock); handle = NXGE_DEV_NPI_HANDLE(nxgep); /* * Stop the dma channel waits for the stop done. * If the stop done bit is not set, then force * an error. */ status = npi_txdma_channel_disable(handle, channel); if (!(status & NPI_TXDMA_STOP_FAILED)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_hung_channel: stopped OK " "ring tdc %d passed channel %d", ring_p->tdc, channel)); return; } /* Inject any error */ intr_dbg.value = 0; intr_dbg.bits.ldw.nack_pref = 1; (void) npi_txdma_inj_int_error_set(handle, channel, &intr_dbg); /* Stop done bit will be set as a result of error injection */ status = npi_txdma_channel_disable(handle, channel); if (!(status & NPI_TXDMA_STOP_FAILED)) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_hung_channel: stopped again" "ring tdc %d passed channel", ring_p->tdc, channel)); return; } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_hung_channel: stop done still not set!! " "ring tdc %d passed channel", ring_p->tdc, channel)); NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fixup_hung_channel")); } /*ARGSUSED*/ void nxge_reclaim_rings(p_nxge_t nxgep) { int index, ndmas; uint16_t channel; p_tx_rings_t tx_rings; p_tx_ring_t tx_ring_p; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_reclaim_ring")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_reclain_rimgs: NULL ring pointer")); return; } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_reclain_rimgs: no channel " "allocated")); return; } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_reclain_rimgs: NULL rings pointer")); return; } NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_reclain_rimgs: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings->rings, ndmas)); for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> reclain_rimgs: channel %d", channel)); tx_ring_p = tx_rings->rings[index]; MUTEX_ENTER(&tx_ring_p->lock); (void) nxge_txdma_reclaim(nxgep, tx_ring_p, channel); MUTEX_EXIT(&tx_ring_p->lock); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_reclaim_rings")); } void nxge_txdma_regs_dump_channels(p_nxge_t nxgep) { int index, ndmas; uint16_t channel; p_tx_rings_t tx_rings; npi_handle_t handle; NXGE_DEBUG_MSG((nxgep, RX_CTL, "==> nxge_txdma_regs_dump_channels")); handle = NXGE_DEV_NPI_HANDLE(nxgep); (void) npi_txdma_dump_fzc_regs(handle); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_regs_dump_channels: NULL ring")); return; } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_regs_dump_channels: " "no channel allocated")); return; } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_regs_dump_channels: NULL rings")); return; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_regs_dump_channels: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings->rings, ndmas)); for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_regs_dump_channels: channel %d", channel)); (void) npi_txdma_dump_tdc_regs(handle, channel); } /* Dump TXC registers */ (void) npi_txc_dump_fzc_regs(handle); (void) npi_txc_dump_port_fzc_regs(handle, nxgep->function_num); for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_regs_dump_channels: channel %d", channel)); (void) npi_txc_dump_tdc_fzc_regs(handle, channel); } for (index = 0; index < ndmas; index++) { channel = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_regs_dump_channels: channel %d", channel)); nxge_txdma_regs_dump(nxgep, channel); } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_regs_dump")); } void nxge_txdma_regs_dump(p_nxge_t nxgep, int channel) { npi_handle_t handle; tx_ring_hdl_t hdl; tx_ring_kick_t kick; tx_cs_t cs; txc_control_t control; uint32_t bitmap = 0; uint32_t burst = 0; uint32_t bytes = 0; dma_log_page_t cfg; printf("\n\tfunc # %d tdc %d ", nxgep->function_num, channel); cfg.page_num = 0; handle = NXGE_DEV_NPI_HANDLE(nxgep); (void) npi_txdma_log_page_get(handle, channel, &cfg); printf("\n\tlog page func %d valid page 0 %d", cfg.func_num, cfg.valid); cfg.page_num = 1; (void) npi_txdma_log_page_get(handle, channel, &cfg); printf("\n\tlog page func %d valid page 1 %d", cfg.func_num, cfg.valid); (void) npi_txdma_ring_head_get(handle, channel, &hdl); (void) npi_txdma_desc_kick_reg_get(handle, channel, &kick); printf("\n\thead value is 0x%0llx", (long long)hdl.value); printf("\n\thead index %d", hdl.bits.ldw.head); printf("\n\tkick value is 0x%0llx", (long long)kick.value); printf("\n\ttail index %d\n", kick.bits.ldw.tail); (void) npi_txdma_control_status(handle, OP_GET, channel, &cs); printf("\n\tControl statue is 0x%0llx", (long long)cs.value); printf("\n\tControl status RST state %d", cs.bits.ldw.rst); (void) npi_txc_control(handle, OP_GET, &control); (void) npi_txc_port_dma_list_get(handle, nxgep->function_num, &bitmap); (void) npi_txc_dma_max_burst(handle, OP_GET, channel, &burst); (void) npi_txc_dma_bytes_transmitted(handle, channel, &bytes); printf("\n\tTXC port control 0x%0llx", (long long)control.value); printf("\n\tTXC port bitmap 0x%x", bitmap); printf("\n\tTXC max burst %d", burst); printf("\n\tTXC bytes xmt %d\n", bytes); { ipp_status_t status; (void) npi_ipp_get_status(handle, nxgep->function_num, &status); printf("\n\tIPP status 0x%lux\n", (uint64_t)status.value); } } /* * Static functions start here. */ static nxge_status_t nxge_map_txdma(p_nxge_t nxgep) { int i, ndmas; uint16_t channel; p_tx_rings_t tx_rings; p_tx_ring_t *tx_desc_rings; p_tx_mbox_areas_t tx_mbox_areas_p; p_tx_mbox_t *tx_mbox_p; p_nxge_dma_pool_t dma_buf_poolp; p_nxge_dma_pool_t dma_cntl_poolp; p_nxge_dma_common_t *dma_buf_p; p_nxge_dma_common_t *dma_cntl_p; nxge_status_t status = NXGE_OK; #if defined(sun4v) && defined(NIU_LP_WORKAROUND) p_nxge_dma_common_t t_dma_buf_p; p_nxge_dma_common_t t_dma_cntl_p; #endif NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma")); dma_buf_poolp = nxgep->tx_buf_pool_p; dma_cntl_poolp = nxgep->tx_cntl_pool_p; if (!dma_buf_poolp->buf_allocated || !dma_cntl_poolp->buf_allocated) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_map_txdma: buf not allocated")); return (NXGE_ERROR); } ndmas = dma_buf_poolp->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_map_txdma: no dma allocated")); return (NXGE_ERROR); } dma_buf_p = dma_buf_poolp->dma_buf_pool_p; dma_cntl_p = dma_cntl_poolp->dma_buf_pool_p; tx_rings = (p_tx_rings_t) KMEM_ZALLOC(sizeof (tx_rings_t), KM_SLEEP); tx_desc_rings = (p_tx_ring_t *)KMEM_ZALLOC( sizeof (p_tx_ring_t) * ndmas, KM_SLEEP); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma: " "tx_rings $%p tx_desc_rings $%p", tx_rings, tx_desc_rings)); tx_mbox_areas_p = (p_tx_mbox_areas_t) KMEM_ZALLOC(sizeof (tx_mbox_areas_t), KM_SLEEP); tx_mbox_p = (p_tx_mbox_t *)KMEM_ZALLOC( sizeof (p_tx_mbox_t) * ndmas, KM_SLEEP); /* * Map descriptors from the buffer pools for each dma channel. */ for (i = 0; i < ndmas; i++) { /* * Set up and prepare buffer blocks, descriptors * and mailbox. */ channel = ((p_nxge_dma_common_t)dma_buf_p[i])->dma_channel; status = nxge_map_txdma_channel(nxgep, channel, (p_nxge_dma_common_t *)&dma_buf_p[i], (p_tx_ring_t *)&tx_desc_rings[i], dma_buf_poolp->num_chunks[i], (p_nxge_dma_common_t *)&dma_cntl_p[i], (p_tx_mbox_t *)&tx_mbox_p[i]); if (status != NXGE_OK) { goto nxge_map_txdma_fail1; } tx_desc_rings[i]->index = (uint16_t)i; tx_desc_rings[i]->tdc_stats = &nxgep->statsp->tdc_stats[i]; #if defined(sun4v) && defined(NIU_LP_WORKAROUND) if (nxgep->niu_type == N2_NIU && NXGE_DMA_BLOCK == 1) { tx_desc_rings[i]->hv_set = B_FALSE; t_dma_buf_p = (p_nxge_dma_common_t)dma_buf_p[i]; t_dma_cntl_p = (p_nxge_dma_common_t)dma_cntl_p[i]; tx_desc_rings[i]->hv_tx_buf_base_ioaddr_pp = (uint64_t)t_dma_buf_p->orig_ioaddr_pp; tx_desc_rings[i]->hv_tx_buf_ioaddr_size = (uint64_t)t_dma_buf_p->orig_alength; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel: " "hv data buf base io $%p " "size 0x%llx (%d) " "buf base io $%p " "orig vatopa base io $%p " "orig_len 0x%llx (%d)", tx_desc_rings[i]->hv_tx_buf_base_ioaddr_pp, tx_desc_rings[i]->hv_tx_buf_ioaddr_size, tx_desc_rings[i]->hv_tx_buf_ioaddr_size, t_dma_buf_p->ioaddr_pp, t_dma_buf_p->orig_vatopa, t_dma_buf_p->orig_alength, t_dma_buf_p->orig_alength)); tx_desc_rings[i]->hv_tx_cntl_base_ioaddr_pp = (uint64_t)t_dma_cntl_p->orig_ioaddr_pp; tx_desc_rings[i]->hv_tx_cntl_ioaddr_size = (uint64_t)t_dma_cntl_p->orig_alength; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel: " "hv cntl base io $%p " "orig ioaddr_pp ($%p) " "orig vatopa ($%p) " "size 0x%llx (%d 0x%x)", tx_desc_rings[i]->hv_tx_cntl_base_ioaddr_pp, t_dma_cntl_p->orig_ioaddr_pp, t_dma_cntl_p->orig_vatopa, tx_desc_rings[i]->hv_tx_cntl_ioaddr_size, t_dma_cntl_p->orig_alength, t_dma_cntl_p->orig_alength)); } #endif } tx_rings->ndmas = ndmas; tx_rings->rings = tx_desc_rings; nxgep->tx_rings = tx_rings; tx_mbox_areas_p->txmbox_areas_p = tx_mbox_p; nxgep->tx_mbox_areas_p = tx_mbox_areas_p; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma: " "tx_rings $%p rings $%p", nxgep->tx_rings, nxgep->tx_rings->rings)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma: " "tx_rings $%p tx_desc_rings $%p", nxgep->tx_rings, tx_desc_rings)); goto nxge_map_txdma_exit; nxge_map_txdma_fail1: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma: uninit tx desc " "(status 0x%x channel %d i %d)", nxgep, status, channel, i)); i--; for (; i >= 0; i--) { channel = ((p_nxge_dma_common_t)dma_buf_p[i])->dma_channel; nxge_unmap_txdma_channel(nxgep, channel, tx_desc_rings[i], tx_mbox_p[i]); } KMEM_FREE(tx_desc_rings, sizeof (p_tx_ring_t) * ndmas); KMEM_FREE(tx_rings, sizeof (tx_rings_t)); KMEM_FREE(tx_mbox_p, sizeof (p_tx_mbox_t) * ndmas); KMEM_FREE(tx_mbox_areas_p, sizeof (tx_mbox_areas_t)); nxge_map_txdma_exit: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma: " "(status 0x%x channel %d)", status, channel)); return (status); } static void nxge_unmap_txdma(p_nxge_t nxgep) { int i, ndmas; uint8_t channel; p_tx_rings_t tx_rings; p_tx_ring_t *tx_desc_rings; p_tx_mbox_areas_t tx_mbox_areas_p; p_tx_mbox_t *tx_mbox_p; p_nxge_dma_pool_t dma_buf_poolp; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_unmap_txdma")); dma_buf_poolp = nxgep->tx_buf_pool_p; if (!dma_buf_poolp->buf_allocated) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_unmap_txdma: buf not allocated")); return; } ndmas = dma_buf_poolp->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_unmap_txdma: no dma allocated")); return; } tx_rings = nxgep->tx_rings; tx_desc_rings = tx_rings->rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_unmap_txdma: NULL ring pointer")); return; } tx_desc_rings = tx_rings->rings; if (tx_desc_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_unmap_txdma: NULL ring pointers")); return; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_unmap_txdma: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_desc_rings, ndmas)); tx_mbox_areas_p = nxgep->tx_mbox_areas_p; tx_mbox_p = tx_mbox_areas_p->txmbox_areas_p; for (i = 0; i < ndmas; i++) { channel = tx_desc_rings[i]->tdc; (void) nxge_unmap_txdma_channel(nxgep, channel, (p_tx_ring_t)tx_desc_rings[i], (p_tx_mbox_t)tx_mbox_p[i]); } KMEM_FREE(tx_desc_rings, sizeof (p_tx_ring_t) * ndmas); KMEM_FREE(tx_rings, sizeof (tx_rings_t)); KMEM_FREE(tx_mbox_p, sizeof (p_tx_mbox_t) * ndmas); KMEM_FREE(tx_mbox_areas_p, sizeof (tx_mbox_areas_t)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_unmap_txdma")); } static nxge_status_t nxge_map_txdma_channel(p_nxge_t nxgep, uint16_t channel, p_nxge_dma_common_t *dma_buf_p, p_tx_ring_t *tx_desc_p, uint32_t num_chunks, p_nxge_dma_common_t *dma_cntl_p, p_tx_mbox_t *tx_mbox_p) { int status = NXGE_OK; /* * Set up and prepare buffer blocks, descriptors * and mailbox. */ NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel (channel %d)", channel)); /* * Transmit buffer blocks */ status = nxge_map_txdma_channel_buf_ring(nxgep, channel, dma_buf_p, tx_desc_p, num_chunks); if (status != NXGE_OK) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_map_txdma_channel (channel %d): " "map buffer failed 0x%x", channel, status)); goto nxge_map_txdma_channel_exit; } /* * Transmit block ring, and mailbox. */ nxge_map_txdma_channel_cfg_ring(nxgep, channel, dma_cntl_p, *tx_desc_p, tx_mbox_p); goto nxge_map_txdma_channel_exit; nxge_map_txdma_channel_fail1: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel: unmap buf" "(status 0x%x channel %d)", status, channel)); nxge_unmap_txdma_channel_buf_ring(nxgep, *tx_desc_p); nxge_map_txdma_channel_exit: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_map_txdma_channel: " "(status 0x%x channel %d)", status, channel)); return (status); } /*ARGSUSED*/ static void nxge_unmap_txdma_channel(p_nxge_t nxgep, uint16_t channel, p_tx_ring_t tx_ring_p, p_tx_mbox_t tx_mbox_p) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_unmap_txdma_channel (channel %d)", channel)); /* * unmap tx block ring, and mailbox. */ (void) nxge_unmap_txdma_channel_cfg_ring(nxgep, tx_ring_p, tx_mbox_p); /* unmap buffer blocks */ (void) nxge_unmap_txdma_channel_buf_ring(nxgep, tx_ring_p); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_unmap_txdma_channel")); } /*ARGSUSED*/ static void nxge_map_txdma_channel_cfg_ring(p_nxge_t nxgep, uint16_t dma_channel, p_nxge_dma_common_t *dma_cntl_p, p_tx_ring_t tx_ring_p, p_tx_mbox_t *tx_mbox_p) { p_tx_mbox_t mboxp; p_nxge_dma_common_t cntl_dmap; p_nxge_dma_common_t dmap; p_tx_rng_cfig_t tx_ring_cfig_p; p_tx_ring_kick_t tx_ring_kick_p; p_tx_cs_t tx_cs_p; p_tx_dma_ent_msk_t tx_evmask_p; p_txdma_mbh_t mboxh_p; p_txdma_mbl_t mboxl_p; uint64_t tx_desc_len; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_cfg_ring")); cntl_dmap = *dma_cntl_p; dmap = (p_nxge_dma_common_t)&tx_ring_p->tdc_desc; nxge_setup_dma_common(dmap, cntl_dmap, tx_ring_p->tx_ring_size, sizeof (tx_desc_t)); /* * Zero out transmit ring descriptors. */ bzero((caddr_t)dmap->kaddrp, dmap->alength); tx_ring_cfig_p = &(tx_ring_p->tx_ring_cfig); tx_ring_kick_p = &(tx_ring_p->tx_ring_kick); tx_cs_p = &(tx_ring_p->tx_cs); tx_evmask_p = &(tx_ring_p->tx_evmask); tx_ring_cfig_p->value = 0; tx_ring_kick_p->value = 0; tx_cs_p->value = 0; tx_evmask_p->value = 0; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_cfg_ring: channel %d des $%p", dma_channel, dmap->dma_cookie.dmac_laddress)); tx_ring_cfig_p->value = 0; tx_desc_len = (uint64_t)(tx_ring_p->tx_ring_size >> 3); tx_ring_cfig_p->value = (dmap->dma_cookie.dmac_laddress & TX_RNG_CFIG_ADDR_MASK) | (tx_desc_len << TX_RNG_CFIG_LEN_SHIFT); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_cfg_ring: channel %d cfg 0x%llx", dma_channel, tx_ring_cfig_p->value)); tx_cs_p->bits.ldw.rst = 1; /* Map in mailbox */ mboxp = (p_tx_mbox_t) KMEM_ZALLOC(sizeof (tx_mbox_t), KM_SLEEP); dmap = (p_nxge_dma_common_t)&mboxp->tx_mbox; nxge_setup_dma_common(dmap, cntl_dmap, 1, sizeof (txdma_mailbox_t)); mboxh_p = (p_txdma_mbh_t)&tx_ring_p->tx_mbox_mbh; mboxl_p = (p_txdma_mbl_t)&tx_ring_p->tx_mbox_mbl; mboxh_p->value = mboxl_p->value = 0; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_cfg_ring: mbox 0x%lx", dmap->dma_cookie.dmac_laddress)); mboxh_p->bits.ldw.mbaddr = ((dmap->dma_cookie.dmac_laddress >> TXDMA_MBH_ADDR_SHIFT) & TXDMA_MBH_MASK); mboxl_p->bits.ldw.mbaddr = ((dmap->dma_cookie.dmac_laddress & TXDMA_MBL_MASK) >> TXDMA_MBL_SHIFT); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_cfg_ring: mbox 0x%lx", dmap->dma_cookie.dmac_laddress)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_cfg_ring: hmbox $%p " "mbox $%p", mboxh_p->bits.ldw.mbaddr, mboxl_p->bits.ldw.mbaddr)); tx_ring_p->page_valid.value = 0; tx_ring_p->page_mask_1.value = tx_ring_p->page_mask_2.value = 0; tx_ring_p->page_value_1.value = tx_ring_p->page_value_2.value = 0; tx_ring_p->page_reloc_1.value = tx_ring_p->page_reloc_2.value = 0; tx_ring_p->page_hdl.value = 0; tx_ring_p->page_valid.bits.ldw.page0 = 1; tx_ring_p->page_valid.bits.ldw.page1 = 1; tx_ring_p->max_burst.value = 0; tx_ring_p->max_burst.bits.ldw.dma_max_burst = TXC_DMA_MAX_BURST_DEFAULT; *tx_mbox_p = mboxp; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_map_txdma_channel_cfg_ring")); } /*ARGSUSED*/ static void nxge_unmap_txdma_channel_cfg_ring(p_nxge_t nxgep, p_tx_ring_t tx_ring_p, p_tx_mbox_t tx_mbox_p) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_unmap_txdma_channel_cfg_ring: channel %d", tx_ring_p->tdc)); KMEM_FREE(tx_mbox_p, sizeof (tx_mbox_t)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_unmap_txdma_channel_cfg_ring")); } static nxge_status_t nxge_map_txdma_channel_buf_ring(p_nxge_t nxgep, uint16_t channel, p_nxge_dma_common_t *dma_buf_p, p_tx_ring_t *tx_desc_p, uint32_t num_chunks) { p_nxge_dma_common_t dma_bufp, tmp_bufp; p_nxge_dma_common_t dmap; nxge_os_dma_handle_t tx_buf_dma_handle; p_tx_ring_t tx_ring_p; p_tx_msg_t tx_msg_ring; nxge_status_t status = NXGE_OK; int ddi_status = DDI_SUCCESS; int i, j, index; uint32_t size, bsize; uint32_t nblocks, nmsgs; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_buf_ring")); dma_bufp = tmp_bufp = *dma_buf_p; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, " nxge_map_txdma_channel_buf_ring: channel %d to map %d " "chunks bufp $%p", channel, num_chunks, dma_bufp)); nmsgs = 0; for (i = 0; i < num_chunks; i++, tmp_bufp++) { nmsgs += tmp_bufp->nblocks; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_buf_ring: channel %d " "bufp $%p nblocks %d nmsgs %d", channel, tmp_bufp, tmp_bufp->nblocks, nmsgs)); } if (!nmsgs) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_map_txdma_channel_buf_ring: channel %d " "no msg blocks", channel)); status = NXGE_ERROR; goto nxge_map_txdma_channel_buf_ring_exit; } tx_ring_p = (p_tx_ring_t) KMEM_ZALLOC(sizeof (tx_ring_t), KM_SLEEP); MUTEX_INIT(&tx_ring_p->lock, NULL, MUTEX_DRIVER, (void *)nxgep->interrupt_cookie); /* * Allocate transmit message rings and handles for packets * not to be copied to premapped buffers. */ size = nmsgs * sizeof (tx_msg_t); tx_msg_ring = KMEM_ZALLOC(size, KM_SLEEP); for (i = 0; i < nmsgs; i++) { ddi_status = ddi_dma_alloc_handle(nxgep->dip, &nxge_tx_dma_attr, DDI_DMA_DONTWAIT, 0, &tx_msg_ring[i].dma_handle); if (ddi_status != DDI_SUCCESS) { status |= NXGE_DDI_FAILED; break; } } if (i < nmsgs) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "Allocate handles failed.")); goto nxge_map_txdma_channel_buf_ring_fail1; } tx_ring_p->tdc = channel; tx_ring_p->tx_msg_ring = tx_msg_ring; tx_ring_p->tx_ring_size = nmsgs; tx_ring_p->num_chunks = num_chunks; if (!nxge_tx_intr_thres) { nxge_tx_intr_thres = tx_ring_p->tx_ring_size/4; } tx_ring_p->tx_wrap_mask = tx_ring_p->tx_ring_size - 1; tx_ring_p->rd_index = 0; tx_ring_p->wr_index = 0; tx_ring_p->ring_head.value = 0; tx_ring_p->ring_kick_tail.value = 0; tx_ring_p->descs_pending = 0; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_buf_ring: channel %d " "actual tx desc max %d nmsgs %d " "(config nxge_tx_ring_size %d)", channel, tx_ring_p->tx_ring_size, nmsgs, nxge_tx_ring_size)); /* * Map in buffers from the buffer pool. */ index = 0; bsize = dma_bufp->block_size; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_buf_ring: " "dma_bufp $%p tx_rng_p $%p " "tx_msg_rng_p $%p bsize %d", dma_bufp, tx_ring_p, tx_msg_ring, bsize)); tx_buf_dma_handle = dma_bufp->dma_handle; for (i = 0; i < num_chunks; i++, dma_bufp++) { bsize = dma_bufp->block_size; nblocks = dma_bufp->nblocks; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_buf_ring: dma chunk %d " "size %d dma_bufp $%p", i, sizeof (nxge_dma_common_t), dma_bufp)); for (j = 0; j < nblocks; j++) { tx_msg_ring[index].buf_dma_handle = tx_buf_dma_handle; dmap = &tx_msg_ring[index++].buf_dma; #ifdef TX_MEM_DEBUG NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_map_txdma_channel_buf_ring: j %d" "dmap $%p", i, dmap)); #endif nxge_setup_dma_common(dmap, dma_bufp, 1, bsize); } } if (i < num_chunks) { goto nxge_map_txdma_channel_buf_ring_fail1; } *tx_desc_p = tx_ring_p; goto nxge_map_txdma_channel_buf_ring_exit; nxge_map_txdma_channel_buf_ring_fail1: index--; for (; index >= 0; index--) { if (tx_msg_ring[i].dma_handle != NULL) { ddi_dma_free_handle(&tx_msg_ring[i].dma_handle); } } MUTEX_DESTROY(&tx_ring_p->lock); KMEM_FREE(tx_msg_ring, sizeof (tx_msg_t) * tx_ring_p->tx_ring_size); KMEM_FREE(tx_ring_p, sizeof (tx_ring_t)); nxge_map_txdma_channel_buf_ring_exit: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_map_txdma_channel_buf_ring status 0x%x", status)); return (status); } /*ARGSUSED*/ static void nxge_unmap_txdma_channel_buf_ring(p_nxge_t nxgep, p_tx_ring_t tx_ring_p) { p_tx_msg_t tx_msg_ring; p_tx_msg_t tx_msg_p; int i; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_unmap_txdma_channel_buf_ring")); if (tx_ring_p == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_unmap_txdma_channel_buf_ring: NULL ringp")); return; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_unmap_txdma_channel_buf_ring: channel %d", tx_ring_p->tdc)); tx_msg_ring = tx_ring_p->tx_msg_ring; for (i = 0; i < tx_ring_p->tx_ring_size; i++) { tx_msg_p = &tx_msg_ring[i]; if (tx_msg_p->flags.dma_type == USE_DVMA) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "entry = %d", i)); (void) dvma_unload(tx_msg_p->dvma_handle, 0, -1); tx_msg_p->dvma_handle = NULL; if (tx_ring_p->dvma_wr_index == tx_ring_p->dvma_wrap_mask) { tx_ring_p->dvma_wr_index = 0; } else { tx_ring_p->dvma_wr_index++; } tx_ring_p->dvma_pending--; } else if (tx_msg_p->flags.dma_type == USE_DMA) { if (ddi_dma_unbind_handle (tx_msg_p->dma_handle)) { cmn_err(CE_WARN, "!nxge_unmap_tx_bug_ring: " "ddi_dma_unbind_handle " "failed."); } } if (tx_msg_p->tx_message != NULL) { freemsg(tx_msg_p->tx_message); tx_msg_p->tx_message = NULL; } } for (i = 0; i < tx_ring_p->tx_ring_size; i++) { if (tx_msg_ring[i].dma_handle != NULL) { ddi_dma_free_handle(&tx_msg_ring[i].dma_handle); } } MUTEX_DESTROY(&tx_ring_p->lock); KMEM_FREE(tx_msg_ring, sizeof (tx_msg_t) * tx_ring_p->tx_ring_size); KMEM_FREE(tx_ring_p, sizeof (tx_ring_t)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_unmap_txdma_channel_buf_ring")); } static nxge_status_t nxge_txdma_hw_start(p_nxge_t nxgep) { int i, ndmas; uint16_t channel; p_tx_rings_t tx_rings; p_tx_ring_t *tx_desc_rings; p_tx_mbox_areas_t tx_mbox_areas_p; p_tx_mbox_t *tx_mbox_p; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_start")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_start: NULL ring pointer")); return (NXGE_ERROR); } tx_desc_rings = tx_rings->rings; if (tx_desc_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_start: NULL ring pointers")); return (NXGE_ERROR); } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_start: no dma channel allocated")); return (NXGE_ERROR); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_start: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_desc_rings, ndmas)); tx_mbox_areas_p = nxgep->tx_mbox_areas_p; tx_mbox_p = tx_mbox_areas_p->txmbox_areas_p; for (i = 0; i < ndmas; i++) { channel = tx_desc_rings[i]->tdc, status = nxge_txdma_start_channel(nxgep, channel, (p_tx_ring_t)tx_desc_rings[i], (p_tx_mbox_t)tx_mbox_p[i]); if (status != NXGE_OK) { goto nxge_txdma_hw_start_fail1; } } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_start: " "tx_rings $%p rings $%p", nxgep->tx_rings, nxgep->tx_rings->rings)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_start: " "tx_rings $%p tx_desc_rings $%p", nxgep->tx_rings, tx_desc_rings)); goto nxge_txdma_hw_start_exit; nxge_txdma_hw_start_fail1: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_start: disable " "(status 0x%x channel %d i %d)", status, channel, i)); for (; i >= 0; i--) { channel = tx_desc_rings[i]->tdc, (void) nxge_txdma_stop_channel(nxgep, channel, (p_tx_ring_t)tx_desc_rings[i], (p_tx_mbox_t)tx_mbox_p[i]); } nxge_txdma_hw_start_exit: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_start: (status 0x%x)", status)); return (status); } static void nxge_txdma_hw_stop(p_nxge_t nxgep) { int i, ndmas; uint16_t channel; p_tx_rings_t tx_rings; p_tx_ring_t *tx_desc_rings; p_tx_mbox_areas_t tx_mbox_areas_p; p_tx_mbox_t *tx_mbox_p; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_stop")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_stop: NULL ring pointer")); return; } tx_desc_rings = tx_rings->rings; if (tx_desc_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_stop: NULL ring pointers")); return; } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_hw_stop: no dma channel allocated")); return; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_stop: " "tx_rings $%p tx_desc_rings $%p", tx_rings, tx_desc_rings)); tx_mbox_areas_p = nxgep->tx_mbox_areas_p; tx_mbox_p = tx_mbox_areas_p->txmbox_areas_p; for (i = 0; i < ndmas; i++) { channel = tx_desc_rings[i]->tdc; (void) nxge_txdma_stop_channel(nxgep, channel, (p_tx_ring_t)tx_desc_rings[i], (p_tx_mbox_t)tx_mbox_p[i]); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_hw_stop: " "tx_rings $%p tx_desc_rings $%p", tx_rings, tx_desc_rings)); NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_hw_stop")); } static nxge_status_t nxge_txdma_start_channel(p_nxge_t nxgep, uint16_t channel, p_tx_ring_t tx_ring_p, p_tx_mbox_t tx_mbox_p) { nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_start_channel (channel %d)", channel)); /* * TXDMA/TXC must be in stopped state. */ (void) nxge_txdma_stop_inj_err(nxgep, channel); /* * Reset TXDMA channel */ tx_ring_p->tx_cs.value = 0; tx_ring_p->tx_cs.bits.ldw.rst = 1; status = nxge_reset_txdma_channel(nxgep, channel, tx_ring_p->tx_cs.value); if (status != NXGE_OK) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_start_channel (channel %d)" " reset channel failed 0x%x", channel, status)); goto nxge_txdma_start_channel_exit; } /* * Initialize the TXDMA channel specific FZC control * configurations. These FZC registers are pertaining * to each TX channel (i.e. logical pages). */ status = nxge_init_fzc_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); if (status != NXGE_OK) { goto nxge_txdma_start_channel_exit; } /* * Initialize the event masks. */ tx_ring_p->tx_evmask.value = 0; status = nxge_init_txdma_channel_event_mask(nxgep, channel, &tx_ring_p->tx_evmask); if (status != NXGE_OK) { goto nxge_txdma_start_channel_exit; } /* * Load TXDMA descriptors, buffers, mailbox, * initialise the DMA channels and * enable each DMA channel. */ status = nxge_enable_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); if (status != NXGE_OK) { goto nxge_txdma_start_channel_exit; } nxge_txdma_start_channel_exit: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_start_channel")); return (status); } /*ARGSUSED*/ static nxge_status_t nxge_txdma_stop_channel(p_nxge_t nxgep, uint16_t channel, p_tx_ring_t tx_ring_p, p_tx_mbox_t tx_mbox_p) { int status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_stop_channel: channel %d", channel)); /* * Stop (disable) TXDMA and TXC (if stop bit is set * and STOP_N_GO bit not set, the TXDMA reset state will * not be set if reset TXDMA. */ (void) nxge_txdma_stop_inj_err(nxgep, channel); /* * Reset TXDMA channel */ tx_ring_p->tx_cs.value = 0; tx_ring_p->tx_cs.bits.ldw.rst = 1; status = nxge_reset_txdma_channel(nxgep, channel, tx_ring_p->tx_cs.value); if (status != NXGE_OK) { goto nxge_txdma_stop_channel_exit; } #ifdef HARDWARE_REQUIRED /* Set up the interrupt event masks. */ tx_ring_p->tx_evmask.value = 0; status = nxge_init_txdma_channel_event_mask(nxgep, channel, &tx_ring_p->tx_evmask); if (status != NXGE_OK) { goto nxge_txdma_stop_channel_exit; } /* Initialize the DMA control and status register */ tx_ring_p->tx_cs.value = TX_ENT_MSK_MK_ALL; status = nxge_init_txdma_channel_cntl_stat(nxgep, channel, tx_ring_p->tx_cs.value); if (status != NXGE_OK) { goto nxge_txdma_stop_channel_exit; } /* Disable channel */ status = nxge_disable_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); if (status != NXGE_OK) { goto nxge_txdma_start_channel_exit; } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_stop_channel: event done")); #endif nxge_txdma_stop_channel_exit: NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_stop_channel")); return (status); } static p_tx_ring_t nxge_txdma_get_ring(p_nxge_t nxgep, uint16_t channel) { int index, ndmas; uint16_t tdc; p_tx_rings_t tx_rings; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_get_ring")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_ring: NULL ring pointer")); return (NULL); } ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_ring: no channel allocated")); return (NULL); } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_ring: NULL rings pointer")); return (NULL); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_get_ring: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings, ndmas)); for (index = 0; index < ndmas; index++) { tdc = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_fixup_txdma_rings: channel %d", tdc)); if (channel == tdc) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_ring: tdc %d " "ring $%p", tdc, tx_rings->rings[index])); return (p_tx_ring_t)(tx_rings->rings[index]); } } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_ring")); return (NULL); } static p_tx_mbox_t nxge_txdma_get_mbox(p_nxge_t nxgep, uint16_t channel) { int index, tdc, ndmas; p_tx_rings_t tx_rings; p_tx_mbox_areas_t tx_mbox_areas_p; p_tx_mbox_t *tx_mbox_p; NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_get_mbox")); tx_rings = nxgep->tx_rings; if (tx_rings == NULL) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_get_mbox: NULL ring pointer")); return (NULL); } tx_mbox_areas_p = nxgep->tx_mbox_areas_p; if (tx_mbox_areas_p == NULL) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_get_mbox: NULL mbox pointer")); return (NULL); } tx_mbox_p = tx_mbox_areas_p->txmbox_areas_p; ndmas = tx_rings->ndmas; if (!ndmas) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_get_mbox: no channel allocated")); return (NULL); } if (tx_rings->rings == NULL) { NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "<== nxge_txdma_get_mbox: NULL rings pointer")); return (NULL); } NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_get_mbox: " "tx_rings $%p tx_desc_rings $%p ndmas %d", tx_rings, tx_rings, ndmas)); for (index = 0; index < ndmas; index++) { tdc = tx_rings->rings[index]->tdc; NXGE_DEBUG_MSG((nxgep, MEM3_CTL, "==> nxge_txdma_get_mbox: channel %d", tdc)); if (channel == tdc) { NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_mbox: tdc %d " "ring $%p", tdc, tx_rings->rings[index])); return (p_tx_mbox_t)(tx_mbox_p[index]); } } NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_get_mbox")); return (NULL); } /*ARGSUSED*/ static nxge_status_t nxge_tx_err_evnts(p_nxge_t nxgep, uint_t index, p_nxge_ldv_t ldvp, tx_cs_t cs) { npi_handle_t handle; npi_status_t rs; uint8_t channel; p_tx_ring_t *tx_rings; p_tx_ring_t tx_ring_p; p_nxge_tx_ring_stats_t tdc_stats; boolean_t txchan_fatal = B_FALSE; nxge_status_t status = NXGE_OK; tdmc_inj_par_err_t par_err; uint32_t value; NXGE_DEBUG_MSG((nxgep, RX2_CTL, "==> nxge_tx_err_evnts")); handle = NXGE_DEV_NPI_HANDLE(nxgep); channel = ldvp->channel; tx_rings = nxgep->tx_rings->rings; tx_ring_p = tx_rings[index]; tdc_stats = tx_ring_p->tdc_stats; if ((cs.bits.ldw.pkt_size_err) || (cs.bits.ldw.pref_buf_par_err) || (cs.bits.ldw.nack_pref) || (cs.bits.ldw.nack_pkt_rd) || (cs.bits.ldw.conf_part_err) || (cs.bits.ldw.pkt_prt_err)) { if ((rs = npi_txdma_ring_error_get(handle, channel, &tdc_stats->errlog)) != NPI_SUCCESS) return (NXGE_ERROR | rs); } if (cs.bits.ldw.mbox_err) { tdc_stats->mbox_err++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_MBOX_ERR); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: mailbox", channel)); txchan_fatal = B_TRUE; } if (cs.bits.ldw.pkt_size_err) { tdc_stats->pkt_size_err++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_PKT_SIZE_ERR); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: pkt_size_err", channel)); txchan_fatal = B_TRUE; } if (cs.bits.ldw.tx_ring_oflow) { tdc_stats->tx_ring_oflow++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_TX_RING_OFLOW); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: tx_ring_oflow", channel)); txchan_fatal = B_TRUE; } if (cs.bits.ldw.pref_buf_par_err) { tdc_stats->pre_buf_par_err++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_PREF_BUF_PAR_ERR); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: pre_buf_par_err", channel)); /* Clear error injection source for parity error */ (void) npi_txdma_inj_par_error_get(handle, &value); par_err.value = value; par_err.bits.ldw.inject_parity_error &= ~(1 << channel); (void) npi_txdma_inj_par_error_set(handle, par_err.value); txchan_fatal = B_TRUE; } if (cs.bits.ldw.nack_pref) { tdc_stats->nack_pref++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_NACK_PREF); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: nack_pref", channel)); txchan_fatal = B_TRUE; } if (cs.bits.ldw.nack_pkt_rd) { tdc_stats->nack_pkt_rd++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_NACK_PKT_RD); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: nack_pkt_rd", channel)); txchan_fatal = B_TRUE; } if (cs.bits.ldw.conf_part_err) { tdc_stats->conf_part_err++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_CONF_PART_ERR); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: config_partition_err", channel)); txchan_fatal = B_TRUE; } if (cs.bits.ldw.pkt_prt_err) { tdc_stats->pkt_part_err++; NXGE_FM_REPORT_ERROR(nxgep, nxgep->mac.portnum, channel, NXGE_FM_EREPORT_TDMC_PKT_PRT_ERR); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_tx_err_evnts(channel %d): " "fatal error: pkt_prt_err", channel)); txchan_fatal = B_TRUE; } /* Clear error injection source in case this is an injected error */ TXDMA_REG_WRITE64(nxgep->npi_handle, TDMC_INTR_DBG_REG, channel, 0); if (txchan_fatal) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, " nxge_tx_err_evnts: " " fatal error on channel %d cs 0x%llx\n", channel, cs.value)); status = nxge_txdma_fatal_err_recover(nxgep, channel, tx_ring_p); if (status == NXGE_OK) { FM_SERVICE_RESTORED(nxgep); } } NXGE_DEBUG_MSG((nxgep, RX2_CTL, "<== nxge_tx_err_evnts")); return (status); } static nxge_status_t nxge_txdma_fatal_err_recover(p_nxge_t nxgep, uint16_t channel, p_tx_ring_t tx_ring_p) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; p_tx_mbox_t tx_mbox_p; nxge_status_t status = NXGE_OK; NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_txdma_fatal_err_recover")); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovering from TxDMAChannel#%d error...", channel)); /* * Stop the dma channel waits for the stop done. * If the stop done bit is not set, then create * an error. */ handle = NXGE_DEV_NPI_HANDLE(nxgep); NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxDMA channel stop...")); MUTEX_ENTER(&tx_ring_p->lock); rs = npi_txdma_channel_control(handle, TXDMA_STOP, channel); if (rs != NPI_SUCCESS) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_fatal_err_recover (channel %d): " "stop failed ", channel)); goto fail; } NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxDMA channel reclaim...")); (void) nxge_txdma_reclaim(nxgep, tx_ring_p, 0); /* * Reset TXDMA channel */ NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxDMA channel reset...")); if ((rs = npi_txdma_channel_control(handle, TXDMA_RESET, channel)) != NPI_SUCCESS) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_fatal_err_recover (channel %d)" " reset channel failed 0x%x", channel, rs)); goto fail; } /* * Reset the tail (kick) register to 0. * (Hardware will not reset it. Tx overflow fatal * error if tail is not set to 0 after reset! */ TXDMA_REG_WRITE64(handle, TX_RING_KICK_REG, channel, 0); /* Restart TXDMA channel */ /* * Initialize the TXDMA channel specific FZC control * configurations. These FZC registers are pertaining * to each TX channel (i.e. logical pages). */ tx_mbox_p = nxge_txdma_get_mbox(nxgep, channel); NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxDMA channel restart...")); status = nxge_init_fzc_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); if (status != NXGE_OK) goto fail; /* * Initialize the event masks. */ tx_ring_p->tx_evmask.value = 0; status = nxge_init_txdma_channel_event_mask(nxgep, channel, &tx_ring_p->tx_evmask); if (status != NXGE_OK) goto fail; tx_ring_p->wr_index_wrap = B_FALSE; tx_ring_p->wr_index = 0; tx_ring_p->rd_index = 0; /* * Load TXDMA descriptors, buffers, mailbox, * initialise the DMA channels and * enable each DMA channel. */ NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxDMA channel enable...")); status = nxge_enable_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); MUTEX_EXIT(&tx_ring_p->lock); if (status != NXGE_OK) goto fail; NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovery Successful, TxDMAChannel#%d Restored", channel)); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_txdma_fatal_err_recover")); return (NXGE_OK); fail: MUTEX_EXIT(&tx_ring_p->lock); NXGE_DEBUG_MSG((nxgep, TX_CTL, "nxge_txdma_fatal_err_recover (channel %d): " "failed to recover this txdma channel", channel)); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovery failed")); return (status); } nxge_status_t nxge_tx_port_fatal_err_recover(p_nxge_t nxgep) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; p_tx_ring_t *tx_desc_rings; p_tx_rings_t tx_rings; p_tx_ring_t tx_ring_p; p_tx_mbox_t tx_mbox_p; int i, ndmas; uint16_t channel; NXGE_DEBUG_MSG((nxgep, TX_CTL, "<== nxge_tx_port_fatal_err_recover")); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovering from TxPort error...")); /* * Stop the dma channel waits for the stop done. * If the stop done bit is not set, then create * an error. */ handle = NXGE_DEV_NPI_HANDLE(nxgep); NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxPort stop all DMA channels...")); tx_rings = nxgep->tx_rings; tx_desc_rings = tx_rings->rings; ndmas = tx_rings->ndmas; for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } tx_ring_p = tx_rings->rings[i]; MUTEX_ENTER(&tx_ring_p->lock); } for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } channel = tx_desc_rings[i]->tdc; tx_ring_p = tx_rings->rings[i]; rs = npi_txdma_channel_control(handle, TXDMA_STOP, channel); if (rs != NPI_SUCCESS) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_fatal_err_recover (channel %d): " "stop failed ", channel)); goto fail; } } NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxPort reclaim all DMA channels...")); for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } tx_ring_p = tx_rings->rings[i]; (void) nxge_txdma_reclaim(nxgep, tx_ring_p, 0); } /* * Reset TXDMA channel */ NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxPort reset all DMA channels...")); for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } channel = tx_desc_rings[i]->tdc; tx_ring_p = tx_rings->rings[i]; if ((rs = npi_txdma_channel_control(handle, TXDMA_RESET, channel)) != NPI_SUCCESS) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "==> nxge_txdma_fatal_err_recover (channel %d)" " reset channel failed 0x%x", channel, rs)); goto fail; } /* * Reset the tail (kick) register to 0. * (Hardware will not reset it. Tx overflow fatal * error if tail is not set to 0 after reset! */ TXDMA_REG_WRITE64(handle, TX_RING_KICK_REG, channel, 0); } /* * Initialize the TXDMA channel specific FZC control * configurations. These FZC registers are pertaining * to each TX channel (i.e. logical pages). */ /* Restart TXDMA channels */ NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxPort re-start all DMA channels...")); for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } channel = tx_desc_rings[i]->tdc; tx_ring_p = tx_rings->rings[i]; tx_mbox_p = nxge_txdma_get_mbox(nxgep, channel); status = nxge_init_fzc_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); tx_ring_p->tx_evmask.value = 0; /* * Initialize the event masks. */ status = nxge_init_txdma_channel_event_mask(nxgep, channel, &tx_ring_p->tx_evmask); tx_ring_p->wr_index_wrap = B_FALSE; tx_ring_p->wr_index = 0; tx_ring_p->rd_index = 0; if (status != NXGE_OK) goto fail; if (status != NXGE_OK) goto fail; } /* * Load TXDMA descriptors, buffers, mailbox, * initialise the DMA channels and * enable each DMA channel. */ NXGE_DEBUG_MSG((nxgep, TX_CTL, "TxPort re-enable all DMA channels...")); for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } channel = tx_desc_rings[i]->tdc; tx_ring_p = tx_rings->rings[i]; tx_mbox_p = nxge_txdma_get_mbox(nxgep, channel); status = nxge_enable_txdma_channel(nxgep, channel, tx_ring_p, tx_mbox_p); if (status != NXGE_OK) goto fail; } for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } tx_ring_p = tx_rings->rings[i]; MUTEX_EXIT(&tx_ring_p->lock); } NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovery Successful, TxPort Restored")); NXGE_DEBUG_MSG((nxgep, TX_CTL, "==> nxge_tx_port_fatal_err_recover")); return (NXGE_OK); fail: for (i = 0; i < ndmas; i++) { if (tx_desc_rings[i] == NULL) { continue; } tx_ring_p = tx_rings->rings[i]; MUTEX_EXIT(&tx_ring_p->lock); } NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovery failed")); NXGE_DEBUG_MSG((nxgep, TX_CTL, "nxge_txdma_fatal_err_recover (channel %d): " "failed to recover this txdma channel")); return (status); } void nxge_txdma_inject_err(p_nxge_t nxgep, uint32_t err_id, uint8_t chan) { tdmc_intr_dbg_t tdi; tdmc_inj_par_err_t par_err; uint32_t value; npi_handle_t handle; switch (err_id) { case NXGE_FM_EREPORT_TDMC_PREF_BUF_PAR_ERR: handle = NXGE_DEV_NPI_HANDLE(nxgep); /* Clear error injection source for parity error */ (void) npi_txdma_inj_par_error_get(handle, &value); par_err.value = value; par_err.bits.ldw.inject_parity_error &= ~(1 << chan); (void) npi_txdma_inj_par_error_set(handle, par_err.value); par_err.bits.ldw.inject_parity_error = (1 << chan); (void) npi_txdma_inj_par_error_get(handle, &value); par_err.value = value; par_err.bits.ldw.inject_parity_error |= (1 << chan); cmn_err(CE_NOTE, "!Write 0x%llx to TDMC_INJ_PAR_ERR_REG\n", (unsigned long long)par_err.value); (void) npi_txdma_inj_par_error_set(handle, par_err.value); break; case NXGE_FM_EREPORT_TDMC_MBOX_ERR: case NXGE_FM_EREPORT_TDMC_NACK_PREF: case NXGE_FM_EREPORT_TDMC_NACK_PKT_RD: case NXGE_FM_EREPORT_TDMC_PKT_SIZE_ERR: case NXGE_FM_EREPORT_TDMC_TX_RING_OFLOW: case NXGE_FM_EREPORT_TDMC_CONF_PART_ERR: case NXGE_FM_EREPORT_TDMC_PKT_PRT_ERR: TXDMA_REG_READ64(nxgep->npi_handle, TDMC_INTR_DBG_REG, chan, &tdi.value); if (err_id == NXGE_FM_EREPORT_TDMC_PREF_BUF_PAR_ERR) tdi.bits.ldw.pref_buf_par_err = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_MBOX_ERR) tdi.bits.ldw.mbox_err = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_NACK_PREF) tdi.bits.ldw.nack_pref = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_NACK_PKT_RD) tdi.bits.ldw.nack_pkt_rd = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_PKT_SIZE_ERR) tdi.bits.ldw.pkt_size_err = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_TX_RING_OFLOW) tdi.bits.ldw.tx_ring_oflow = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_CONF_PART_ERR) tdi.bits.ldw.conf_part_err = 1; else if (err_id == NXGE_FM_EREPORT_TDMC_PKT_PRT_ERR) tdi.bits.ldw.pkt_part_err = 1; cmn_err(CE_NOTE, "!Write 0x%lx to TDMC_INTR_DBG_REG\n", tdi.value); TXDMA_REG_WRITE64(nxgep->npi_handle, TDMC_INTR_DBG_REG, chan, tdi.value); break; } }