/* * 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 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #define NXGE_IPP_FIFO_SYNC_TRY_COUNT 100 /* ARGSUSED */ nxge_status_t nxge_ipp_init(p_nxge_t nxgep) { uint8_t portn; uint32_t config; npi_handle_t handle; uint32_t pkt_size; ipp_status_t istatus; npi_status_t rs = NPI_SUCCESS; uint64_t val; uint32_t d0, d1, d2, d3, d4; int i; uint32_t dfifo_entries; handle = nxgep->npi_handle; portn = NXGE_GET_PORT_NUM(nxgep->function_num); NXGE_DEBUG_MSG((nxgep, IPP_CTL, "==> nxge_ipp_init: port%d", portn)); /* Initialize ECC and parity in SRAM of DFIFO and PFIFO */ if (nxgep->niu_type == N2_NIU) { dfifo_entries = IPP_NIU_DFIFO_ENTRIES; } else if (NXGE_IS_VALID_NEPTUNE_TYPE(nxgep)) { if (portn < 2) dfifo_entries = IPP_P0_P1_DFIFO_ENTRIES; else dfifo_entries = IPP_P2_P3_DFIFO_ENTRIES; } else { goto fail; } for (i = 0; i < dfifo_entries; i++) { if ((rs = npi_ipp_write_dfifo(handle, portn, i, 0, 0, 0, 0, 0)) != NPI_SUCCESS) goto fail; if ((rs = npi_ipp_read_dfifo(handle, portn, i, &d0, &d1, &d2, &d3, &d4)) != NPI_SUCCESS) goto fail; } /* Clear PFIFO DFIFO status bits */ if ((rs = npi_ipp_get_status(handle, portn, &istatus)) != NPI_SUCCESS) goto fail; if ((rs = npi_ipp_get_status(handle, portn, &istatus)) != NPI_SUCCESS) goto fail; /* * Soft reset to make sure we bring the FIFO pointers back to the * original initial position. */ if ((rs = npi_ipp_reset(handle, portn)) != NPI_SUCCESS) goto fail; /* Clean up ECC counter */ IPP_REG_RD(nxgep->npi_handle, portn, IPP_ECC_ERR_COUNTER_REG, &val); IPP_REG_RD(nxgep->npi_handle, portn, IPP_BAD_CKSUM_ERR_CNT_REG, &val); IPP_REG_RD(nxgep->npi_handle, portn, IPP_DISCARD_PKT_CNT_REG, &val); if ((rs = npi_ipp_get_status(handle, portn, &istatus)) != NPI_SUCCESS) goto fail; /* Configure IPP port */ if ((rs = npi_ipp_iconfig(handle, INIT, portn, ICFG_IPP_ALL)) != NPI_SUCCESS) goto fail; nxgep->ipp.iconfig = ICFG_IPP_ALL; config = CFG_IPP | CFG_IPP_DFIFO_ECC_CORRECT | CFG_IPP_DROP_BAD_CRC | CFG_IPP_TCP_UDP_CKSUM; if ((rs = npi_ipp_config(handle, INIT, portn, config)) != NPI_SUCCESS) goto fail; nxgep->ipp.config = config; /* Set max packet size */ pkt_size = IPP_MAX_PKT_SIZE; if ((rs = npi_ipp_set_max_pktsize(handle, portn, IPP_MAX_PKT_SIZE)) != NPI_SUCCESS) goto fail; nxgep->ipp.max_pkt_size = pkt_size; NXGE_DEBUG_MSG((nxgep, IPP_CTL, "<== nxge_ipp_init: port%d", portn)); return (NXGE_OK); fail: NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_init: Fail to initialize IPP Port #%d\n", portn)); return (NXGE_ERROR | rs); } /* ARGSUSED */ nxge_status_t nxge_ipp_disable(p_nxge_t nxgep) { uint8_t portn; uint32_t config; npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; uint16_t wr_ptr, rd_ptr; uint32_t try_count; handle = nxgep->npi_handle; portn = NXGE_GET_PORT_NUM(nxgep->function_num); NXGE_DEBUG_MSG((nxgep, IPP_CTL, "==> nxge_ipp_disable: port%d", portn)); (void) nxge_rx_mac_disable(nxgep); /* * Wait until ip read and write fifo pointers are equal */ (void) npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr); (void) npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr); try_count = NXGE_IPP_FIFO_SYNC_TRY_COUNT; while ((try_count > 0) && (rd_ptr != wr_ptr)) { (void) npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr); (void) npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr); try_count--; } if (try_count == 0) { if ((rd_ptr != 0) && (wr_ptr != 1)) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, " nxge_ipp_disable: port%d failed" " rd_fifo != wr_fifo", portn)); goto fail; } } /* disable the IPP */ config = nxgep->ipp.config; if ((rs = npi_ipp_config(handle, DISABLE, portn, config)) != NPI_SUCCESS) goto fail; /* IPP soft reset */ if ((rs = npi_ipp_reset(handle, portn)) != NPI_SUCCESS) goto fail; NXGE_DEBUG_MSG((nxgep, IPP_CTL, "<== nxge_ipp_disable: port%d", portn)); return (NXGE_OK); fail: NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_disable: Fail to disable IPP Port #%d\n", portn)); return (NXGE_ERROR | rs); } /* ARGSUSED */ nxge_status_t nxge_ipp_reset(p_nxge_t nxgep) { uint8_t portn; uint32_t config; npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; uint16_t wr_ptr, rd_ptr; uint32_t try_count; handle = nxgep->npi_handle; portn = NXGE_GET_PORT_NUM(nxgep->function_num); NXGE_DEBUG_MSG((nxgep, IPP_CTL, "==> nxge_ipp_reset: port%d", portn)); /* disable the IPP */ config = nxgep->ipp.config; if ((rs = npi_ipp_config(handle, DISABLE, portn, config)) != NPI_SUCCESS) goto fail; /* * Wait until ip read and write fifo pointers are equal */ (void) npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr); (void) npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr); try_count = NXGE_IPP_FIFO_SYNC_TRY_COUNT; while ((try_count > 0) && (rd_ptr != wr_ptr)) { (void) npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr); (void) npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr); try_count--; } if (try_count == 0) { if ((rd_ptr != 0) && (wr_ptr != 1)) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, " nxge_ipp_disable: port%d failed" " rd_fifo != wr_fifo", portn)); goto fail; } } /* IPP soft reset */ if ((rs = npi_ipp_reset(handle, portn)) != NPI_SUCCESS) { goto fail; } /* to reset control FIFO */ if ((rs = npi_zcp_rest_cfifo_port(handle, portn)) != NPI_SUCCESS) goto fail; /* * Making sure that error source is cleared if this is an injected * error. */ IPP_REG_WR(handle, portn, IPP_ECC_CTRL_REG, 0); NXGE_DEBUG_MSG((nxgep, IPP_CTL, "<== nxge_ipp_reset: port%d", portn)); return (NXGE_OK); fail: NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_init: Fail to Reset IPP Port #%d\n", portn)); return (NXGE_ERROR | rs); } /* ARGSUSED */ nxge_status_t nxge_ipp_enable(p_nxge_t nxgep) { uint8_t portn; uint32_t config; npi_handle_t handle; uint32_t pkt_size; npi_status_t rs = NPI_SUCCESS; handle = nxgep->npi_handle; portn = NXGE_GET_PORT_NUM(nxgep->function_num); NXGE_DEBUG_MSG((nxgep, IPP_CTL, "==> nxge_ipp_enable: port%d", portn)); config = CFG_IPP | CFG_IPP_DFIFO_ECC_CORRECT | CFG_IPP_DROP_BAD_CRC | CFG_IPP_TCP_UDP_CKSUM; if ((rs = npi_ipp_config(handle, INIT, portn, config)) != NPI_SUCCESS) goto fail; nxgep->ipp.config = config; /* Set max packet size */ pkt_size = IPP_MAX_PKT_SIZE; if ((rs = npi_ipp_set_max_pktsize(handle, portn, IPP_MAX_PKT_SIZE)) != NPI_SUCCESS) goto fail; nxgep->ipp.max_pkt_size = pkt_size; NXGE_DEBUG_MSG((nxgep, IPP_CTL, "<== nxge_ipp_enable: port%d", portn)); return (NXGE_OK); fail: NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_init: Fail to Enable IPP Port #%d\n", portn)); return (NXGE_ERROR | rs); } /* ARGSUSED */ nxge_status_t nxge_ipp_handle_sys_errors(p_nxge_t nxgep) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; p_nxge_ipp_stats_t statsp; ipp_status_t istatus; uint8_t portn; p_ipp_errlog_t errlogp; boolean_t rxport_fatal = B_FALSE; nxge_status_t status = NXGE_OK; uint8_t cnt8; uint16_t cnt16; handle = nxgep->npi_handle; statsp = (p_nxge_ipp_stats_t)&nxgep->statsp->ipp_stats; portn = nxgep->mac.portnum; errlogp = (p_ipp_errlog_t)&statsp->errlog; if ((rs = npi_ipp_get_status(handle, portn, &istatus)) != NPI_SUCCESS) return (NXGE_ERROR | rs); if (istatus.value == 0) { /* * The error is not initiated from this port, so just exit. */ return (NXGE_OK); } if (istatus.bits.w0.dfifo_missed_sop) { statsp->sop_miss++; if ((rs = npi_ipp_get_dfifo_eopm_rdptr(handle, portn, &errlogp->dfifo_rd_ptr)) != NPI_SUCCESS) return (NXGE_ERROR | rs); if ((rs = npi_ipp_get_state_mach(handle, portn, &errlogp->state_mach)) != NPI_SUCCESS) return (NXGE_ERROR | rs); NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_SOP_MISS); if (statsp->sop_miss < IPP_MAX_ERR_SHOW) NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: fatal error: sop_miss\n")); rxport_fatal = B_TRUE; } if (istatus.bits.w0.dfifo_missed_eop) { statsp->eop_miss++; if ((rs = npi_ipp_get_dfifo_eopm_rdptr(handle, portn, &errlogp->dfifo_rd_ptr)) != NPI_SUCCESS) return (NXGE_ERROR | rs); if ((rs = npi_ipp_get_state_mach(handle, portn, &errlogp->state_mach)) != NPI_SUCCESS) return (NXGE_ERROR | rs); NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_EOP_MISS); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: fatal error: eop_miss\n")); rxport_fatal = B_TRUE; } if (istatus.bits.w0.dfifo_uncorr_ecc_err) { boolean_t ue_ecc_valid; if ((status = nxge_ipp_eccue_valid_check(nxgep, &ue_ecc_valid)) != NXGE_OK) return (status); if (ue_ecc_valid) { statsp->dfifo_ue++; if ((rs = npi_ipp_get_ecc_syndrome(handle, portn, &errlogp->ecc_syndrome)) != NPI_SUCCESS) return (NXGE_ERROR | rs); NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_DFIFO_UE); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: fatal error: dfifo_ue\n")); rxport_fatal = B_TRUE; } } if (istatus.bits.w0.pre_fifo_perr) { statsp->pfifo_perr++; NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_PFIFO_PERR); if (statsp->pfifo_perr < IPP_MAX_ERR_SHOW) NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: " "fatal error: pre_pifo_perr\n")); rxport_fatal = B_TRUE; } if (istatus.bits.w0.pre_fifo_overrun) { statsp->pfifo_over++; NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_PFIFO_OVER); if (statsp->pfifo_over < IPP_MAX_ERR_SHOW) NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: " "fatal error: pfifo_over\n")); rxport_fatal = B_TRUE; } if (istatus.bits.w0.pre_fifo_underrun) { statsp->pfifo_und++; NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_PFIFO_UND); if (statsp->pfifo_und < IPP_MAX_ERR_SHOW) NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: " "fatal error: pfifo_und\n")); rxport_fatal = B_TRUE; } if (istatus.bits.w0.bad_cksum_cnt_ovfl) { /* * Do not send FMA ereport or log error message * in /var/adm/messages because this error does not * indicate a HW failure. * * Clear bit BAD_CS_MX of register IPP_INT_STAT * by reading register IPP_BAD_CS_CNT */ (void) npi_ipp_get_cs_err_count(handle, portn, &cnt16); statsp->bad_cs_cnt += IPP_BAD_CS_CNT_MASK; } if (istatus.bits.w0.pkt_discard_cnt_ovfl) { /* * Do not send FMA ereport or log error message * in /var/adm/messages because this error does not * indicate a HW failure. * * Clear bit PKT_DIS_MX of register IPP_INT_STAT * by reading register IPP_PKT_DIS */ (void) npi_ipp_get_pkt_dis_count(handle, portn, &cnt16); statsp->pkt_dis_cnt += IPP_PKT_DIS_CNT_MASK; } if (istatus.bits.w0.ecc_err_cnt_ovfl) { /* * Clear bit ECC_ERR_MAX of register IPP_INI_STAT * by reading register IPP_ECC */ (void) npi_ipp_get_ecc_err_count(handle, portn, &cnt8); statsp->ecc_err_cnt += IPP_ECC_CNT_MASK; /* * A defect in Neptune port2's IPP module could generate * many fake but harmless ECC errors under stress and cause * the ecc-error-counter register IPP_ECC to reach its * maximum value in a few seconds. To avoid false alarm, do * not report the error if it is port2. */ if (portn != 2) { NXGE_FM_REPORT_ERROR(nxgep, portn, NULL, NXGE_FM_EREPORT_IPP_ECC_ERR_MAX); if (statsp->ecc_err_cnt < (IPP_MAX_ERR_SHOW * IPP_ECC_CNT_MASK)) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "nxge_ipp_err_evnts: pkt_ecc_err_max\n")); } } } /* * Making sure that error source is cleared if this is an injected * error. */ IPP_REG_WR(handle, portn, IPP_ECC_CTRL_REG, 0); if (rxport_fatal) { NXGE_DEBUG_MSG((nxgep, IPP_CTL, " nxge_ipp_handle_sys_errors:" " fatal Error on Port #%d\n", portn)); status = nxge_ipp_fatal_err_recover(nxgep); if (status == NXGE_OK) { FM_SERVICE_RESTORED(nxgep); } } return (status); } /* ARGSUSED */ void nxge_ipp_inject_err(p_nxge_t nxgep, uint32_t err_id) { ipp_status_t ipps; ipp_ecc_ctrl_t ecc_ctrl; uint8_t portn = nxgep->mac.portnum; switch (err_id) { case NXGE_FM_EREPORT_IPP_DFIFO_UE: ecc_ctrl.value = 0; ecc_ctrl.bits.w0.cor_dbl = 1; ecc_ctrl.bits.w0.cor_1 = 1; ecc_ctrl.bits.w0.cor_lst = 1; cmn_err(CE_NOTE, "!Write 0x%llx to IPP_ECC_CTRL_REG\n", (unsigned long long) ecc_ctrl.value); IPP_REG_WR(nxgep->npi_handle, portn, IPP_ECC_CTRL_REG, ecc_ctrl.value); break; case NXGE_FM_EREPORT_IPP_DFIFO_CE: ecc_ctrl.value = 0; ecc_ctrl.bits.w0.cor_sng = 1; ecc_ctrl.bits.w0.cor_1 = 1; ecc_ctrl.bits.w0.cor_snd = 1; cmn_err(CE_NOTE, "!Write 0x%llx to IPP_ECC_CTRL_REG\n", (unsigned long long) ecc_ctrl.value); IPP_REG_WR(nxgep->npi_handle, portn, IPP_ECC_CTRL_REG, ecc_ctrl.value); break; case NXGE_FM_EREPORT_IPP_EOP_MISS: case NXGE_FM_EREPORT_IPP_SOP_MISS: case NXGE_FM_EREPORT_IPP_PFIFO_PERR: case NXGE_FM_EREPORT_IPP_ECC_ERR_MAX: case NXGE_FM_EREPORT_IPP_PFIFO_OVER: case NXGE_FM_EREPORT_IPP_PFIFO_UND: case NXGE_FM_EREPORT_IPP_BAD_CS_MX: case NXGE_FM_EREPORT_IPP_PKT_DIS_MX: case NXGE_FM_EREPORT_IPP_RESET_FAIL: IPP_REG_RD(nxgep->npi_handle, portn, IPP_INT_STATUS_REG, &ipps.value); if (err_id == NXGE_FM_EREPORT_IPP_EOP_MISS) ipps.bits.w0.dfifo_missed_eop = 1; else if (err_id == NXGE_FM_EREPORT_IPP_SOP_MISS) ipps.bits.w0.dfifo_missed_sop = 1; else if (err_id == NXGE_FM_EREPORT_IPP_DFIFO_UE) ipps.bits.w0.dfifo_uncorr_ecc_err = 1; else if (err_id == NXGE_FM_EREPORT_IPP_DFIFO_CE) ipps.bits.w0.dfifo_corr_ecc_err = 1; else if (err_id == NXGE_FM_EREPORT_IPP_PFIFO_PERR) ipps.bits.w0.pre_fifo_perr = 1; else if (err_id == NXGE_FM_EREPORT_IPP_ECC_ERR_MAX) { /* * Fill register IPP_ECC with max ECC-error- * counter value (0xff) to set the ECC_ERR_MAX bit * of the IPP_INT_STAT register and trigger an * FMA ereport. */ IPP_REG_WR(nxgep->npi_handle, portn, IPP_ECC_ERR_COUNTER_REG, IPP_ECC_CNT_MASK); } else if (err_id == NXGE_FM_EREPORT_IPP_PFIFO_OVER) ipps.bits.w0.pre_fifo_overrun = 1; else if (err_id == NXGE_FM_EREPORT_IPP_PFIFO_UND) ipps.bits.w0.pre_fifo_underrun = 1; else if (err_id == NXGE_FM_EREPORT_IPP_BAD_CS_MX) { /* * Fill IPP_BAD_CS_CNT with max bad-checksum-counter * value (0x3fff) to set the BAD_CS_MX bit of * IPP_INT_STAT and trigger an FMA ereport. */ IPP_REG_WR(nxgep->npi_handle, portn, IPP_BAD_CKSUM_ERR_CNT_REG, IPP_BAD_CS_CNT_MASK); } else if (err_id == NXGE_FM_EREPORT_IPP_PKT_DIS_MX) { /* * Fill IPP_PKT_DIS with max packet-discard-counter * value (0x3fff) to set the PKT_DIS_MX bit of * IPP_INT_STAT and trigger an FMA ereport. */ IPP_REG_WR(nxgep->npi_handle, portn, IPP_DISCARD_PKT_CNT_REG, IPP_PKT_DIS_CNT_MASK); } cmn_err(CE_NOTE, "!Write 0x%llx to IPP_INT_STATUS_REG\n", (unsigned long long) ipps.value); IPP_REG_WR(nxgep->npi_handle, portn, IPP_INT_STATUS_REG, ipps.value); break; } } /* ARGSUSED */ nxge_status_t nxge_ipp_fatal_err_recover(p_nxge_t nxgep) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; nxge_status_t status = NXGE_OK; uint8_t portn; uint16_t wr_ptr; uint16_t rd_ptr; uint32_t try_count; uint32_t dfifo_entries; ipp_status_t istatus; uint32_t d0, d1, d2, d3, d4; int i; NXGE_DEBUG_MSG((nxgep, RX_CTL, "<== nxge_ipp_fatal_err_recover")); NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovering from RxPort error...")); handle = nxgep->npi_handle; portn = nxgep->mac.portnum; /* * Making sure that error source is cleared if this is an injected * error. */ IPP_REG_WR(handle, portn, IPP_ECC_CTRL_REG, 0); /* Disable RxMAC */ if (nxge_rx_mac_disable(nxgep) != NXGE_OK) goto fail; /* When recovering from IPP, RxDMA channel resets are not necessary */ /* Reset ZCP CFIFO */ NXGE_DEBUG_MSG((nxgep, IPP_CTL, "port%d Reset ZCP CFIFO...", portn)); if ((rs = npi_zcp_rest_cfifo_port(handle, portn)) != NPI_SUCCESS) goto fail; /* * Wait until ip read and write fifo pointers are equal */ (void) npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr); (void) npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr); try_count = 512; while ((try_count > 0) && (rd_ptr != wr_ptr)) { (void) npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr); (void) npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr); try_count--; } if (try_count == 0) { NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, " nxge_ipp_reset: port%d IPP stalled..." " rd_fifo_ptr = 0x%x wr_fifo_ptr = 0x%x", portn, rd_ptr, wr_ptr)); /* * This means the fatal error occurred on the first line of the * fifo. In this case, just reset the IPP without draining the * PFIFO. */ } if (nxgep->niu_type == N2_NIU) { dfifo_entries = IPP_NIU_DFIFO_ENTRIES; } else if (NXGE_IS_VALID_NEPTUNE_TYPE(nxgep)) { if (portn < 2) dfifo_entries = IPP_P0_P1_DFIFO_ENTRIES; else dfifo_entries = IPP_P2_P3_DFIFO_ENTRIES; } else { goto fail; } /* Clean up DFIFO SRAM entries */ for (i = 0; i < dfifo_entries; i++) { if ((rs = npi_ipp_write_dfifo(handle, portn, i, 0, 0, 0, 0, 0)) != NPI_SUCCESS) goto fail; if ((rs = npi_ipp_read_dfifo(handle, portn, i, &d0, &d1, &d2, &d3, &d4)) != NPI_SUCCESS) goto fail; } /* Clear PFIFO DFIFO status bits */ if ((rs = npi_ipp_get_status(handle, portn, &istatus)) != NPI_SUCCESS) goto fail; if ((rs = npi_ipp_get_status(handle, portn, &istatus)) != NPI_SUCCESS) goto fail; /* Reset IPP */ NXGE_DEBUG_MSG((nxgep, IPP_CTL, "port%d Reset IPP...", portn)); if ((rs = npi_ipp_reset(handle, portn)) != NPI_SUCCESS) goto fail; NXGE_DEBUG_MSG((nxgep, IPP_CTL, "port%d Reset RxMAC...", portn)); if (nxge_rx_mac_reset(nxgep) != NXGE_OK) goto fail; NXGE_DEBUG_MSG((nxgep, IPP_CTL, "port%d Initialize RxMAC...", portn)); if ((status = nxge_rx_mac_init(nxgep)) != NXGE_OK) goto fail; NXGE_DEBUG_MSG((nxgep, IPP_CTL, "port%d Enable RxMAC...", portn)); if (nxge_rx_mac_enable(nxgep) != NXGE_OK) goto fail; NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovery successful, RxPort restored")); NXGE_DEBUG_MSG((nxgep, RX_CTL, "==> nxge_ipp_fatal_err_recover")); return (NXGE_OK); fail: NXGE_ERROR_MSG((nxgep, NXGE_ERR_CTL, "Recovery failed")); return (status | rs); } /* ARGSUSED */ /* * A hardware bug may cause fake ECCUEs (ECC Uncorrectable Error). * This function checks if a ECCUE is real(valid) or not. It is not * real if rd_ptr == wr_ptr. * The hardware module that has the bug is used not only by the IPP * FIFO but also by the ZCP FIFO, therefore this function is also * called by nxge_zcp_handle_sys_errors for validating the ZCP FIFO * error. */ nxge_status_t nxge_ipp_eccue_valid_check(p_nxge_t nxgep, boolean_t *valid) { npi_handle_t handle; npi_status_t rs = NPI_SUCCESS; uint8_t portn; uint16_t rd_ptr; uint16_t wr_ptr; uint16_t curr_rd_ptr; uint16_t curr_wr_ptr; uint32_t stall_cnt; uint32_t d0, d1, d2, d3, d4; handle = nxgep->npi_handle; portn = nxgep->mac.portnum; *valid = B_TRUE; if ((rs = npi_ipp_get_dfifo_rd_ptr(handle, portn, &rd_ptr)) != NPI_SUCCESS) goto fail; if ((rs = npi_ipp_get_dfifo_wr_ptr(handle, portn, &wr_ptr)) != NPI_SUCCESS) goto fail; if (rd_ptr == wr_ptr) { *valid = B_FALSE; /* FIFO not stuck, so it's not a real ECCUE */ } else { stall_cnt = 0; /* * Check if the two pointers are moving, the ECCUE is invali * if either pointer is moving, which indicates that the FIFO * is functional. */ while (stall_cnt < 16) { if ((rs = npi_ipp_get_dfifo_rd_ptr(handle, portn, &curr_rd_ptr)) != NPI_SUCCESS) goto fail; if ((rs = npi_ipp_get_dfifo_wr_ptr(handle, portn, &curr_wr_ptr)) != NPI_SUCCESS) goto fail; if (rd_ptr == curr_rd_ptr && wr_ptr == curr_wr_ptr) { stall_cnt++; } else { *valid = B_FALSE; break; } } if (valid) { /* * Further check to see if the ECCUE is valid. The * error is real if the LSB of d4 is 1, which * indicates that the data that has set the ECC * error flag is the 16-byte internal control word. */ if ((rs = npi_ipp_read_dfifo(handle, portn, rd_ptr, &d0, &d1, &d2, &d3, &d4)) != NPI_SUCCESS) goto fail; if ((d4 & 0x1) == 0) /* Not the 1st line */ *valid = B_FALSE; } } return (NXGE_OK); fail: return (NXGE_ERROR | rs); }