/***********************license start*************** * Copyright (c) 2003-2009 Cavium Networks (support@cavium.com). All rights * reserved. * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * * Neither the name of Cavium Networks nor the names of * its contributors may be used to endorse or promote products * derived from this software without specific prior written * permission. * * TO THE MAXIMUM EXTENT PERMITTED BY LAW, THE SOFTWARE IS PROVIDED "AS IS" * AND WITH ALL FAULTS AND CAVIUM NETWORKS MAKES NO PROMISES, REPRESENTATIONS * OR WARRANTIES, EITHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, WITH * RESPECT TO THE SOFTWARE, INCLUDING ITS CONDITION, ITS CONFORMITY TO ANY * REPRESENTATION OR DESCRIPTION, OR THE EXISTENCE OF ANY LATENT OR PATENT * DEFECTS, AND CAVIUM SPECIFICALLY DISCLAIMS ALL IMPLIED (IF ANY) WARRANTIES * OF TITLE, MERCHANTABILITY, NONINFRINGEMENT, FITNESS FOR A PARTICULAR * PURPOSE, LACK OF VIRUSES, ACCURACY OR COMPLETENESS, QUIET ENJOYMENT, QUIET * POSSESSION OR CORRESPONDENCE TO DESCRIPTION. THE ENTIRE RISK ARISING OUT * OF USE OR PERFORMANCE OF THE SOFTWARE LIES WITH YOU. * * * For any questions regarding licensing please contact marketing@caviumnetworks.com * ***********************license end**************************************/ /** * @file * * Automatically generated functions useful for enabling * and decoding RSL_INT_BLOCKS interrupts. * * This file is auto generated. Do not edit. * *

$Revision$

* */ #include "cvmx.h" #include "cvmx-interrupt.h" #include "cvmx-pcie.h" #ifndef PRINT_ERROR #define PRINT_ERROR(format, ...) cvmx_safe_printf("ERROR " format, ##__VA_ARGS__) #endif void __cvmx_interrupt_pci_int_enb2_enable(void); void __cvmx_interrupt_pci_int_sum2_decode(void); void __cvmx_interrupt_pescx_dbg_info_en_enable(int index); void __cvmx_interrupt_pescx_dbg_info_decode(int index); /** * __cvmx_interrupt_agl_gmx_rxx_int_en_enable enables all interrupt bits in cvmx_agl_gmx_rxx_int_en_t */ void __cvmx_interrupt_agl_gmx_rxx_int_en_enable(int index) { cvmx_agl_gmx_rxx_int_en_t agl_gmx_rx_int_en; cvmx_write_csr(CVMX_AGL_GMX_RXX_INT_REG(index), cvmx_read_csr(CVMX_AGL_GMX_RXX_INT_REG(index))); agl_gmx_rx_int_en.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping agl_gmx_rx_int_en.s.reserved_20_63 agl_gmx_rx_int_en.s.pause_drp = 1; // Skipping agl_gmx_rx_int_en.s.reserved_16_18 agl_gmx_rx_int_en.s.ifgerr = 1; //agl_gmx_rx_int_en.s.coldet = 1; // Collsion detect //agl_gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //agl_gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //agl_gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol agl_gmx_rx_int_en.s.ovrerr = 1; // Skipping agl_gmx_rx_int_en.s.reserved_9_9 agl_gmx_rx_int_en.s.skperr = 1; agl_gmx_rx_int_en.s.rcverr = 1; agl_gmx_rx_int_en.s.lenerr = 1; agl_gmx_rx_int_en.s.alnerr = 1; agl_gmx_rx_int_en.s.fcserr = 1; agl_gmx_rx_int_en.s.jabber = 1; agl_gmx_rx_int_en.s.maxerr = 1; // Skipping agl_gmx_rx_int_en.s.reserved_1_1 agl_gmx_rx_int_en.s.minerr = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping agl_gmx_rx_int_en.s.reserved_20_63 agl_gmx_rx_int_en.s.pause_drp = 1; // Skipping agl_gmx_rx_int_en.s.reserved_16_18 agl_gmx_rx_int_en.s.ifgerr = 1; //agl_gmx_rx_int_en.s.coldet = 1; // Collsion detect //agl_gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //agl_gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //agl_gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol agl_gmx_rx_int_en.s.ovrerr = 1; // Skipping agl_gmx_rx_int_en.s.reserved_9_9 agl_gmx_rx_int_en.s.skperr = 1; agl_gmx_rx_int_en.s.rcverr = 1; agl_gmx_rx_int_en.s.lenerr = 1; agl_gmx_rx_int_en.s.alnerr = 1; agl_gmx_rx_int_en.s.fcserr = 1; agl_gmx_rx_int_en.s.jabber = 1; agl_gmx_rx_int_en.s.maxerr = 1; // Skipping agl_gmx_rx_int_en.s.reserved_1_1 agl_gmx_rx_int_en.s.minerr = 1; } cvmx_write_csr(CVMX_AGL_GMX_RXX_INT_EN(index), agl_gmx_rx_int_en.u64); } /** * __cvmx_interrupt_agl_gmx_rxx_int_reg_decode decodes all interrupt bits in cvmx_agl_gmx_rxx_int_reg_t */ void __cvmx_interrupt_agl_gmx_rxx_int_reg_decode(int index) { cvmx_agl_gmx_rxx_int_reg_t agl_gmx_rx_int_reg; agl_gmx_rx_int_reg.u64 = cvmx_read_csr(CVMX_AGL_GMX_RXX_INT_REG(index)); agl_gmx_rx_int_reg.u64 &= cvmx_read_csr(CVMX_AGL_GMX_RXX_INT_EN(index)); cvmx_write_csr(CVMX_AGL_GMX_RXX_INT_REG(index), agl_gmx_rx_int_reg.u64); // Skipping agl_gmx_rx_int_reg.s.reserved_20_63 if (agl_gmx_rx_int_reg.s.pause_drp) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[PAUSE_DRP]: Pause packet was dropped due to full GMX RX FIFO\n", index); // Skipping agl_gmx_rx_int_reg.s.reserved_16_18 if (agl_gmx_rx_int_reg.s.ifgerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[IFGERR]: Interframe Gap Violation\n" " Does not necessarily indicate a failure\n", index); if (agl_gmx_rx_int_reg.s.coldet) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[COLDET]: Collision Detection\n", index); if (agl_gmx_rx_int_reg.s.falerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[FALERR]: False carrier error or extend error after slottime\n", index); if (agl_gmx_rx_int_reg.s.rsverr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[RSVERR]: MII reserved opcodes\n", index); if (agl_gmx_rx_int_reg.s.pcterr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[PCTERR]: Bad Preamble / Protocol\n", index); if (agl_gmx_rx_int_reg.s.ovrerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[OVRERR]: Internal Data Aggregation Overflow\n" " This interrupt should never assert\n", index); // Skipping agl_gmx_rx_int_reg.s.reserved_9_9 if (agl_gmx_rx_int_reg.s.skperr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[SKPERR]: Skipper error\n", index); if (agl_gmx_rx_int_reg.s.rcverr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[RCVERR]: Frame was received with MII Data reception error\n", index); if (agl_gmx_rx_int_reg.s.lenerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[LENERR]: Frame was received with length error\n", index); if (agl_gmx_rx_int_reg.s.alnerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[ALNERR]: Frame was received with an alignment error\n", index); if (agl_gmx_rx_int_reg.s.fcserr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[FCSERR]: Frame was received with FCS/CRC error\n", index); if (agl_gmx_rx_int_reg.s.jabber) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[JABBER]: Frame was received with length > sys_length\n", index); if (agl_gmx_rx_int_reg.s.maxerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[MAXERR]: Frame was received with length > max_length\n", index); // Skipping agl_gmx_rx_int_reg.s.reserved_1_1 if (agl_gmx_rx_int_reg.s.minerr) PRINT_ERROR("AGL_GMX_RX%d_INT_REG[MINERR]: Frame was received with length < min_length\n", index); } /** * __cvmx_interrupt_fpa_int_enb_enable enables all interrupt bits in cvmx_fpa_int_enb_t */ void __cvmx_interrupt_fpa_int_enb_enable(void) { cvmx_fpa_int_enb_t fpa_int_enb; cvmx_write_csr(CVMX_FPA_INT_SUM, cvmx_read_csr(CVMX_FPA_INT_SUM)); fpa_int_enb.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping fpa_int_enb.s.reserved_28_63 fpa_int_enb.s.q7_perr = 1; fpa_int_enb.s.q7_coff = 1; fpa_int_enb.s.q7_und = 1; fpa_int_enb.s.q6_perr = 1; fpa_int_enb.s.q6_coff = 1; fpa_int_enb.s.q6_und = 1; fpa_int_enb.s.q5_perr = 1; fpa_int_enb.s.q5_coff = 1; fpa_int_enb.s.q5_und = 1; fpa_int_enb.s.q4_perr = 1; fpa_int_enb.s.q4_coff = 1; fpa_int_enb.s.q4_und = 1; fpa_int_enb.s.q3_perr = 1; fpa_int_enb.s.q3_coff = 1; fpa_int_enb.s.q3_und = 1; fpa_int_enb.s.q2_perr = 1; fpa_int_enb.s.q2_coff = 1; fpa_int_enb.s.q2_und = 1; fpa_int_enb.s.q1_perr = 1; fpa_int_enb.s.q1_coff = 1; fpa_int_enb.s.q1_und = 1; fpa_int_enb.s.q0_perr = 1; fpa_int_enb.s.q0_coff = 1; fpa_int_enb.s.q0_und = 1; fpa_int_enb.s.fed1_dbe = 1; fpa_int_enb.s.fed1_sbe = 1; fpa_int_enb.s.fed0_dbe = 1; fpa_int_enb.s.fed0_sbe = 1; } cvmx_write_csr(CVMX_FPA_INT_ENB, fpa_int_enb.u64); } /** * __cvmx_interrupt_fpa_int_sum_decode decodes all interrupt bits in cvmx_fpa_int_sum_t */ void __cvmx_interrupt_fpa_int_sum_decode(void) { cvmx_fpa_int_sum_t fpa_int_sum; fpa_int_sum.u64 = cvmx_read_csr(CVMX_FPA_INT_SUM); fpa_int_sum.u64 &= cvmx_read_csr(CVMX_FPA_INT_ENB); cvmx_write_csr(CVMX_FPA_INT_SUM, fpa_int_sum.u64); // Skipping fpa_int_sum.s.reserved_28_63 if (fpa_int_sum.s.q7_perr) PRINT_ERROR("FPA_INT_SUM[Q7_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q7_coff) PRINT_ERROR("FPA_INT_SUM[Q7_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q7_und) PRINT_ERROR("FPA_INT_SUM[Q7_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q6_perr) PRINT_ERROR("FPA_INT_SUM[Q6_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q6_coff) PRINT_ERROR("FPA_INT_SUM[Q6_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q6_und) PRINT_ERROR("FPA_INT_SUM[Q6_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q5_perr) PRINT_ERROR("FPA_INT_SUM[Q5_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q5_coff) PRINT_ERROR("FPA_INT_SUM[Q5_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q5_und) PRINT_ERROR("FPA_INT_SUM[Q5_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q4_perr) PRINT_ERROR("FPA_INT_SUM[Q4_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q4_coff) PRINT_ERROR("FPA_INT_SUM[Q4_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q4_und) PRINT_ERROR("FPA_INT_SUM[Q4_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q3_perr) PRINT_ERROR("FPA_INT_SUM[Q3_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q3_coff) PRINT_ERROR("FPA_INT_SUM[Q3_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q3_und) PRINT_ERROR("FPA_INT_SUM[Q3_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q2_perr) PRINT_ERROR("FPA_INT_SUM[Q2_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q2_coff) PRINT_ERROR("FPA_INT_SUM[Q2_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q2_und) PRINT_ERROR("FPA_INT_SUM[Q2_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q1_perr) PRINT_ERROR("FPA_INT_SUM[Q1_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q1_coff) PRINT_ERROR("FPA_INT_SUM[Q1_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q1_und) PRINT_ERROR("FPA_INT_SUM[Q1_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.q0_perr) PRINT_ERROR("FPA_INT_SUM[Q0_PERR]: Set when a Queue0 pointer read from the stack in\n" " the L2C does not have the FPA owner ship bit set.\n"); if (fpa_int_sum.s.q0_coff) PRINT_ERROR("FPA_INT_SUM[Q0_COFF]: Set when a Queue0 stack end tag is present and\n" " the count available is greater than pointers\n" " present in the FPA.\n"); if (fpa_int_sum.s.q0_und) PRINT_ERROR("FPA_INT_SUM[Q0_UND]: Set when a Queue0 page count available goes\n" " negative.\n"); if (fpa_int_sum.s.fed1_dbe) PRINT_ERROR("FPA_INT_SUM[FED1_DBE]: Set when a Double Bit Error is detected in FPF1.\n"); if (fpa_int_sum.s.fed1_sbe) PRINT_ERROR("FPA_INT_SUM[FED1_SBE]: Set when a Single Bit Error is detected in FPF1.\n"); if (fpa_int_sum.s.fed0_dbe) PRINT_ERROR("FPA_INT_SUM[FED0_DBE]: Set when a Double Bit Error is detected in FPF0.\n"); if (fpa_int_sum.s.fed0_sbe) PRINT_ERROR("FPA_INT_SUM[FED0_SBE]: Set when a Single Bit Error is detected in FPF0.\n"); } /** * __cvmx_interrupt_gmxx_rxx_int_en_enable enables all interrupt bits in cvmx_gmxx_rxx_int_en_t */ void __cvmx_interrupt_gmxx_rxx_int_en_enable(int index, int block) { cvmx_gmxx_rxx_int_en_t gmx_rx_int_en; cvmx_write_csr(CVMX_GMXX_RXX_INT_REG(index, block), cvmx_read_csr(CVMX_GMXX_RXX_INT_REG(index, block))); gmx_rx_int_en.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping gmx_rx_int_en.s.reserved_29_63 gmx_rx_int_en.s.hg2cc = 1; gmx_rx_int_en.s.hg2fld = 1; gmx_rx_int_en.s.undat = 1; gmx_rx_int_en.s.uneop = 1; gmx_rx_int_en.s.unsop = 1; gmx_rx_int_en.s.bad_term = 1; gmx_rx_int_en.s.bad_seq = 1; gmx_rx_int_en.s.rem_fault = 1; gmx_rx_int_en.s.loc_fault = 1; gmx_rx_int_en.s.pause_drp = 1; // Skipping gmx_rx_int_en.s.reserved_16_18 //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; // Skipping gmx_rx_int_en.s.reserved_9_9 gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; // Skipping gmx_rx_int_en.s.reserved_5_6 //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; // Skipping gmx_rx_int_en.s.reserved_2_2 gmx_rx_int_en.s.carext = 1; // Skipping gmx_rx_int_en.s.reserved_0_0 } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping gmx_rx_int_en.s.reserved_19_63 //gmx_rx_int_en.s.phy_dupx = 1; //gmx_rx_int_en.s.phy_spd = 1; //gmx_rx_int_en.s.phy_link = 1; //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; gmx_rx_int_en.s.niberr = 1; gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; //gmx_rx_int_en.s.lenerr = 1; // Length errors are handled when we get work gmx_rx_int_en.s.alnerr = 1; //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; gmx_rx_int_en.s.maxerr = 1; gmx_rx_int_en.s.carext = 1; gmx_rx_int_en.s.minerr = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping gmx_rx_int_en.s.reserved_20_63 gmx_rx_int_en.s.pause_drp = 1; //gmx_rx_int_en.s.phy_dupx = 1; //gmx_rx_int_en.s.phy_spd = 1; //gmx_rx_int_en.s.phy_link = 1; //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; gmx_rx_int_en.s.niberr = 1; gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; // Skipping gmx_rx_int_en.s.reserved_6_6 gmx_rx_int_en.s.alnerr = 1; //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; // Skipping gmx_rx_int_en.s.reserved_2_2 gmx_rx_int_en.s.carext = 1; // Skipping gmx_rx_int_en.s.reserved_0_0 } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping gmx_rx_int_en.s.reserved_19_63 //gmx_rx_int_en.s.phy_dupx = 1; //gmx_rx_int_en.s.phy_spd = 1; //gmx_rx_int_en.s.phy_link = 1; //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; gmx_rx_int_en.s.niberr = 1; gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; //gmx_rx_int_en.s.lenerr = 1; // Length errors are handled when we get work gmx_rx_int_en.s.alnerr = 1; //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; gmx_rx_int_en.s.maxerr = 1; gmx_rx_int_en.s.carext = 1; gmx_rx_int_en.s.minerr = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping gmx_rx_int_en.s.reserved_19_63 //gmx_rx_int_en.s.phy_dupx = 1; //gmx_rx_int_en.s.phy_spd = 1; //gmx_rx_int_en.s.phy_link = 1; //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; gmx_rx_int_en.s.niberr = 1; gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; //gmx_rx_int_en.s.lenerr = 1; // Length errors are handled when we get work gmx_rx_int_en.s.alnerr = 1; //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; gmx_rx_int_en.s.maxerr = 1; gmx_rx_int_en.s.carext = 1; gmx_rx_int_en.s.minerr = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping gmx_rx_int_en.s.reserved_20_63 gmx_rx_int_en.s.pause_drp = 1; //gmx_rx_int_en.s.phy_dupx = 1; //gmx_rx_int_en.s.phy_spd = 1; //gmx_rx_int_en.s.phy_link = 1; //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; gmx_rx_int_en.s.niberr = 1; gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; //gmx_rx_int_en.s.lenerr = 1; // Length errors are handled when we get work gmx_rx_int_en.s.alnerr = 1; //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; gmx_rx_int_en.s.maxerr = 1; gmx_rx_int_en.s.carext = 1; gmx_rx_int_en.s.minerr = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping gmx_rx_int_en.s.reserved_29_63 gmx_rx_int_en.s.hg2cc = 1; gmx_rx_int_en.s.hg2fld = 1; gmx_rx_int_en.s.undat = 1; gmx_rx_int_en.s.uneop = 1; gmx_rx_int_en.s.unsop = 1; gmx_rx_int_en.s.bad_term = 1; gmx_rx_int_en.s.bad_seq = 0; gmx_rx_int_en.s.rem_fault = 1; gmx_rx_int_en.s.loc_fault = 0; gmx_rx_int_en.s.pause_drp = 1; // Skipping gmx_rx_int_en.s.reserved_16_18 //gmx_rx_int_en.s.ifgerr = 1; //gmx_rx_int_en.s.coldet = 1; // Collsion detect //gmx_rx_int_en.s.falerr = 1; // False carrier error or extend error after slottime //gmx_rx_int_en.s.rsverr = 1; // RGMII reserved opcodes //gmx_rx_int_en.s.pcterr = 1; // Bad Preamble / Protocol gmx_rx_int_en.s.ovrerr = 1; // Skipping gmx_rx_int_en.s.reserved_9_9 gmx_rx_int_en.s.skperr = 1; gmx_rx_int_en.s.rcverr = 1; // Skipping gmx_rx_int_en.s.reserved_5_6 //gmx_rx_int_en.s.fcserr = 1; // FCS errors are handled when we get work gmx_rx_int_en.s.jabber = 1; // Skipping gmx_rx_int_en.s.reserved_2_2 gmx_rx_int_en.s.carext = 1; // Skipping gmx_rx_int_en.s.reserved_0_0 } cvmx_write_csr(CVMX_GMXX_RXX_INT_EN(index, block), gmx_rx_int_en.u64); } /** * __cvmx_interrupt_gmxx_rxx_int_reg_decode decodes all interrupt bits in cvmx_gmxx_rxx_int_reg_t */ void __cvmx_interrupt_gmxx_rxx_int_reg_decode(int index, int block) { cvmx_gmxx_rxx_int_reg_t gmx_rx_int_reg; gmx_rx_int_reg.u64 = cvmx_read_csr(CVMX_GMXX_RXX_INT_REG(index, block)); /* Don't clear inband status bits so someone else can use them */ gmx_rx_int_reg.s.phy_dupx = 0; gmx_rx_int_reg.s.phy_spd = 0; gmx_rx_int_reg.s.phy_link = 0; gmx_rx_int_reg.u64 &= cvmx_read_csr(CVMX_GMXX_RXX_INT_EN(index, block)); cvmx_write_csr(CVMX_GMXX_RXX_INT_REG(index, block), gmx_rx_int_reg.u64); // Skipping gmx_rx_int_reg.s.reserved_29_63 if (gmx_rx_int_reg.s.hg2cc) PRINT_ERROR("GMX%d_RX%d_INT_REG[HG2CC]: HiGig2 received message CRC or Control char error\n" " Set when either CRC8 error detected or when\n" " a Control Character is found in the message\n" " bytes after the K.SOM\n" " NOTE: HG2CC has higher priority than HG2FLD\n" " i.e. a HiGig2 message that results in HG2CC\n" " getting set, will never set HG2FLD.\n", block, index); if (gmx_rx_int_reg.s.hg2fld) PRINT_ERROR("GMX%d_RX%d_INT_REG[HG2FLD]: HiGig2 received message field error, as below\n" " 1) MSG_TYPE field not 6'b00_0000\n" " i.e. it is not a FLOW CONTROL message, which\n" " is the only defined type for HiGig2\n" " 2) FWD_TYPE field not 2'b00 i.e. Link Level msg\n" " which is the only defined type for HiGig2\n" " 3) FC_OBJECT field is neither 4'b0000 for\n" " Physical Link nor 4'b0010 for Logical Link.\n" " Those are the only two defined types in HiGig2\n", block, index); if (gmx_rx_int_reg.s.undat) PRINT_ERROR("GMX%d_RX%d_INT_REG[UNDAT]: Unexpected Data\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.uneop) PRINT_ERROR("GMX%d_RX%d_INT_REG[UNEOP]: Unexpected EOP\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.unsop) PRINT_ERROR("GMX%d_RX%d_INT_REG[UNSOP]: Unexpected SOP\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.bad_term) PRINT_ERROR("GMX%d_RX%d_INT_REG[BAD_TERM]: Frame is terminated by control character other\n" " than /T/. The error propagation control\n" " character /E/ will be included as part of the\n" " frame and does not cause a frame termination.\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.bad_seq) PRINT_ERROR("GMX%d_RX%d_INT_REG[BAD_SEQ]: Reserved Sequence Deteted\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.rem_fault) PRINT_ERROR("GMX%d_RX%d_INT_REG[REM_FAULT]: Remote Fault Sequence Deteted\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.loc_fault) PRINT_ERROR("GMX%d_RX%d_INT_REG[LOC_FAULT]: Local Fault Sequence Deteted\n" " (XAUI Mode only)\n", block, index); if (gmx_rx_int_reg.s.pause_drp) PRINT_ERROR("GMX%d_RX%d_INT_REG[PAUSE_DRP]: Pause packet was dropped due to full GMX RX FIFO\n", block, index); #if 0 if (gmx_rx_int_reg.s.phy_dupx) PRINT_ERROR("GMX%d_RX%d_INT_REG[PHY_DUPX]: Change in the RMGII inbound LinkDuplex\n", block, index); if (gmx_rx_int_reg.s.phy_spd) PRINT_ERROR("GMX%d_RX%d_INT_REG[PHY_SPD]: Change in the RMGII inbound LinkSpeed\n", block, index); if (gmx_rx_int_reg.s.phy_link) PRINT_ERROR("GMX%d_RX%d_INT_REG[PHY_LINK]: Change in the RMGII inbound LinkStatus\n", block, index); #endif if (gmx_rx_int_reg.s.ifgerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[IFGERR]: Interframe Gap Violation\n" " Does not necessarily indicate a failure\n", block, index); if (gmx_rx_int_reg.s.coldet) PRINT_ERROR("GMX%d_RX%d_INT_REG[COLDET]: Collision Detection\n", block, index); if (gmx_rx_int_reg.s.falerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[FALERR]: False carrier error or extend error after slottime\n", block, index); if (gmx_rx_int_reg.s.rsverr) PRINT_ERROR("GMX%d_RX%d_INT_REG[RSVERR]: RGMII reserved opcodes\n", block, index); if (gmx_rx_int_reg.s.pcterr) PRINT_ERROR("GMX%d_RX%d_INT_REG[PCTERR]: Bad Preamble / Protocol\n", block, index); if (gmx_rx_int_reg.s.ovrerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[OVRERR]: Internal Data Aggregation Overflow\n" " This interrupt should never assert\n", block, index); if (gmx_rx_int_reg.s.niberr) PRINT_ERROR("GMX%d_RX%d_INT_REG[NIBERR]: Nibble error (hi_nibble != lo_nibble)\n", block, index); if (gmx_rx_int_reg.s.skperr) PRINT_ERROR("GMX%d_RX%d_INT_REG[SKPERR]: Skipper error\n", block, index); if (gmx_rx_int_reg.s.rcverr) PRINT_ERROR("GMX%d_RX%d_INT_REG[RCVERR]: Frame was received with RMGII Data reception error\n", block, index); if (gmx_rx_int_reg.s.lenerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[LENERR]: Frame was received with length error\n", block, index); if (gmx_rx_int_reg.s.alnerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[ALNERR]: Frame was received with an alignment error\n", block, index); if (gmx_rx_int_reg.s.fcserr) PRINT_ERROR("GMX%d_RX%d_INT_REG[FCSERR]: Frame was received with FCS/CRC error\n", block, index); if (gmx_rx_int_reg.s.jabber) PRINT_ERROR("GMX%d_RX%d_INT_REG[JABBER]: Frame was received with length > sys_length\n", block, index); if (gmx_rx_int_reg.s.maxerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[MAXERR]: Frame was received with length > max_length\n", block, index); if (gmx_rx_int_reg.s.carext) PRINT_ERROR("GMX%d_RX%d_INT_REG[CAREXT]: RGMII carrier extend error\n", block, index); if (gmx_rx_int_reg.s.minerr) PRINT_ERROR("GMX%d_RX%d_INT_REG[MINERR]: Frame was received with length < min_length\n", block, index); } /** * __cvmx_interrupt_iob_int_enb_enable enables all interrupt bits in cvmx_iob_int_enb_t */ void __cvmx_interrupt_iob_int_enb_enable(void) { cvmx_iob_int_enb_t iob_int_enb; cvmx_write_csr(CVMX_IOB_INT_SUM, cvmx_read_csr(CVMX_IOB_INT_SUM)); iob_int_enb.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping iob_int_enb.s.reserved_6_63 iob_int_enb.s.p_dat = 1; iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; /* These interrupts are disabled on CN56XXp2.X due to errata IOB-800 */ if (!OCTEON_IS_MODEL(OCTEON_CN56XX_PASS2_X)) { iob_int_enb.s.np_dat = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping iob_int_enb.s.reserved_4_63 iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping iob_int_enb.s.reserved_6_63 iob_int_enb.s.p_dat = 1; iob_int_enb.s.np_dat = 1; iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping iob_int_enb.s.reserved_4_63 iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping iob_int_enb.s.reserved_4_63 iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping iob_int_enb.s.reserved_6_63 iob_int_enb.s.p_dat = 1; iob_int_enb.s.np_dat = 1; iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping iob_int_enb.s.reserved_6_63 iob_int_enb.s.p_dat = 1; iob_int_enb.s.p_eop = 1; iob_int_enb.s.p_sop = 1; /* These interrupts are disabled on CN52XXp2.X due to errata IOB-800 */ if (!OCTEON_IS_MODEL(OCTEON_CN52XX_PASS2_X)) { iob_int_enb.s.np_dat = 1; iob_int_enb.s.np_eop = 1; iob_int_enb.s.np_sop = 1; } } cvmx_write_csr(CVMX_IOB_INT_ENB, iob_int_enb.u64); } /** * __cvmx_interrupt_iob_int_sum_decode decodes all interrupt bits in cvmx_iob_int_sum_t */ void __cvmx_interrupt_iob_int_sum_decode(void) { cvmx_iob_int_sum_t iob_int_sum; iob_int_sum.u64 = cvmx_read_csr(CVMX_IOB_INT_SUM); iob_int_sum.u64 &= cvmx_read_csr(CVMX_IOB_INT_ENB); cvmx_write_csr(CVMX_IOB_INT_SUM, iob_int_sum.u64); // Skipping iob_int_sum.s.reserved_6_63 if (iob_int_sum.s.p_dat) PRINT_ERROR("IOB_INT_SUM[P_DAT]: Set when a data arrives before a SOP for the same\n" " port for a passthrough packet.\n" " The first detected error associated with bits [5:0]\n" " of this register will only be set here. A new bit\n" " can be set when the previous reported bit is cleared.\n"); if (iob_int_sum.s.np_dat) PRINT_ERROR("IOB_INT_SUM[NP_DAT]: Set when a data arrives before a SOP for the same\n" " port for a non-passthrough packet.\n" " The first detected error associated with bits [5:0]\n" " of this register will only be set here. A new bit\n" " can be set when the previous reported bit is cleared.\n"); if (iob_int_sum.s.p_eop) PRINT_ERROR("IOB_INT_SUM[P_EOP]: Set when a EOP is followed by an EOP for the same\n" " port for a passthrough packet.\n" " The first detected error associated with bits [5:0]\n" " of this register will only be set here. A new bit\n" " can be set when the previous reported bit is cleared.\n"); if (iob_int_sum.s.p_sop) PRINT_ERROR("IOB_INT_SUM[P_SOP]: Set when a SOP is followed by an SOP for the same\n" " port for a passthrough packet.\n" " The first detected error associated with bits [5:0]\n" " of this register will only be set here. A new bit\n" " can be set when the previous reported bit is cleared.\n"); if (iob_int_sum.s.np_eop) PRINT_ERROR("IOB_INT_SUM[NP_EOP]: Set when a EOP is followed by an EOP for the same\n" " port for a non-passthrough packet.\n" " The first detected error associated with bits [5:0]\n" " of this register will only be set here. A new bit\n" " can be set when the previous reported bit is cleared.\n"); if (iob_int_sum.s.np_sop) PRINT_ERROR("IOB_INT_SUM[NP_SOP]: Set when a SOP is followed by an SOP for the same\n" " port for a non-passthrough packet.\n" " The first detected error associated with bits [5:0]\n" " of this register will only be set here. A new bit\n" " can be set when the previous reported bit is cleared.\n"); } /** * __cvmx_interrupt_ipd_int_enb_enable enables all interrupt bits in cvmx_ipd_int_enb_t */ void __cvmx_interrupt_ipd_int_enb_enable(void) { cvmx_ipd_int_enb_t ipd_int_enb; cvmx_write_csr(CVMX_IPD_INT_SUM, cvmx_read_csr(CVMX_IPD_INT_SUM)); ipd_int_enb.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping ipd_int_enb.s.reserved_12_63 //ipd_int_enb.s.pq_sub = 1; // Disable per port backpressure overflow checking since it happens when not in use //ipd_int_enb.s.pq_add = 1; // Disable per port backpressure overflow checking since it happens when not in use ipd_int_enb.s.bc_ovr = 1; ipd_int_enb.s.d_coll = 1; ipd_int_enb.s.c_coll = 1; ipd_int_enb.s.cc_ovr = 1; ipd_int_enb.s.dc_ovr = 1; ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping ipd_int_enb.s.reserved_5_63 ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping ipd_int_enb.s.reserved_10_63 ipd_int_enb.s.bc_ovr = 1; ipd_int_enb.s.d_coll = 1; ipd_int_enb.s.c_coll = 1; ipd_int_enb.s.cc_ovr = 1; ipd_int_enb.s.dc_ovr = 1; ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping ipd_int_enb.s.reserved_10_63 if (!OCTEON_IS_MODEL(OCTEON_CN38XX_PASS2)) { ipd_int_enb.s.bc_ovr = 1; ipd_int_enb.s.d_coll = 1; ipd_int_enb.s.c_coll = 1; ipd_int_enb.s.cc_ovr = 1; ipd_int_enb.s.dc_ovr = 1; } ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping ipd_int_enb.s.reserved_5_63 ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping ipd_int_enb.s.reserved_10_63 ipd_int_enb.s.bc_ovr = 1; ipd_int_enb.s.d_coll = 1; ipd_int_enb.s.c_coll = 1; ipd_int_enb.s.cc_ovr = 1; ipd_int_enb.s.dc_ovr = 1; ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping ipd_int_enb.s.reserved_12_63 //ipd_int_enb.s.pq_sub = 1; // Disable per port backpressure overflow checking since it happens when not in use //ipd_int_enb.s.pq_add = 1; // Disable per port backpressure overflow checking since it happens when not in use ipd_int_enb.s.bc_ovr = 1; ipd_int_enb.s.d_coll = 1; ipd_int_enb.s.c_coll = 1; ipd_int_enb.s.cc_ovr = 1; ipd_int_enb.s.dc_ovr = 1; ipd_int_enb.s.bp_sub = 1; ipd_int_enb.s.prc_par3 = 1; ipd_int_enb.s.prc_par2 = 1; ipd_int_enb.s.prc_par1 = 1; ipd_int_enb.s.prc_par0 = 1; } cvmx_write_csr(CVMX_IPD_INT_ENB, ipd_int_enb.u64); } /** * __cvmx_interrupt_ipd_int_sum_decode decodes all interrupt bits in cvmx_ipd_int_sum_t */ void __cvmx_interrupt_ipd_int_sum_decode(void) { cvmx_ipd_int_sum_t ipd_int_sum; ipd_int_sum.u64 = cvmx_read_csr(CVMX_IPD_INT_SUM); ipd_int_sum.u64 &= cvmx_read_csr(CVMX_IPD_INT_ENB); cvmx_write_csr(CVMX_IPD_INT_SUM, ipd_int_sum.u64); // Skipping ipd_int_sum.s.reserved_12_63 if (ipd_int_sum.s.pq_sub) PRINT_ERROR("IPD_INT_SUM[PQ_SUB]: Set when a port-qos does an sub to the count\n" " that causes the counter to wrap.\n"); if (ipd_int_sum.s.pq_add) PRINT_ERROR("IPD_INT_SUM[PQ_ADD]: Set when a port-qos does an add to the count\n" " that causes the counter to wrap.\n"); if (ipd_int_sum.s.bc_ovr) PRINT_ERROR("IPD_INT_SUM[BC_OVR]: Set when the byte-count to send to IOB overflows.\n" " This is a PASS-3 Field.\n"); if (ipd_int_sum.s.d_coll) PRINT_ERROR("IPD_INT_SUM[D_COLL]: Set when the packet/WQE data to be sent to IOB\n" " collides.\n" " This is a PASS-3 Field.\n"); if (ipd_int_sum.s.c_coll) PRINT_ERROR("IPD_INT_SUM[C_COLL]: Set when the packet/WQE commands to be sent to IOB\n" " collides.\n" " This is a PASS-3 Field.\n"); if (ipd_int_sum.s.cc_ovr) PRINT_ERROR("IPD_INT_SUM[CC_OVR]: Set when the command credits to the IOB overflow.\n" " This is a PASS-3 Field.\n"); if (ipd_int_sum.s.dc_ovr) PRINT_ERROR("IPD_INT_SUM[DC_OVR]: Set when the data credits to the IOB overflow.\n" " This is a PASS-3 Field.\n"); if (ipd_int_sum.s.bp_sub) PRINT_ERROR("IPD_INT_SUM[BP_SUB]: Set when a backpressure subtract is done with a\n" " supplied illegal value.\n"); if (ipd_int_sum.s.prc_par3) PRINT_ERROR("IPD_INT_SUM[PRC_PAR3]: Set when a parity error is dected for bits\n" " [127:96] of the PBM memory.\n"); if (ipd_int_sum.s.prc_par2) PRINT_ERROR("IPD_INT_SUM[PRC_PAR2]: Set when a parity error is dected for bits\n" " [95:64] of the PBM memory.\n"); if (ipd_int_sum.s.prc_par1) PRINT_ERROR("IPD_INT_SUM[PRC_PAR1]: Set when a parity error is dected for bits\n" " [63:32] of the PBM memory.\n"); if (ipd_int_sum.s.prc_par0) PRINT_ERROR("IPD_INT_SUM[PRC_PAR0]: Set when a parity error is dected for bits\n" " [31:0] of the PBM memory.\n"); } /** * __cvmx_interrupt_key_int_enb_enable enables all interrupt bits in cvmx_key_int_enb_t */ void __cvmx_interrupt_key_int_enb_enable(void) { cvmx_key_int_enb_t key_int_enb; cvmx_write_csr(CVMX_KEY_INT_SUM, cvmx_read_csr(CVMX_KEY_INT_SUM)); key_int_enb.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping key_int_enb.s.reserved_4_63 key_int_enb.s.ked1_dbe = 1; key_int_enb.s.ked1_sbe = 1; key_int_enb.s.ked0_dbe = 1; key_int_enb.s.ked0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping key_int_enb.s.reserved_4_63 key_int_enb.s.ked1_dbe = 1; key_int_enb.s.ked1_sbe = 1; key_int_enb.s.ked0_dbe = 1; key_int_enb.s.ked0_sbe = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping key_int_enb.s.reserved_4_63 key_int_enb.s.ked1_dbe = 1; key_int_enb.s.ked1_sbe = 1; key_int_enb.s.ked0_dbe = 1; key_int_enb.s.ked0_sbe = 1; } cvmx_write_csr(CVMX_KEY_INT_ENB, key_int_enb.u64); } /** * __cvmx_interrupt_key_int_sum_decode decodes all interrupt bits in cvmx_key_int_sum_t */ void __cvmx_interrupt_key_int_sum_decode(void) { cvmx_key_int_sum_t key_int_sum; key_int_sum.u64 = cvmx_read_csr(CVMX_KEY_INT_SUM); key_int_sum.u64 &= cvmx_read_csr(CVMX_KEY_INT_ENB); cvmx_write_csr(CVMX_KEY_INT_SUM, key_int_sum.u64); // Skipping key_int_sum.s.reserved_4_63 if (key_int_sum.s.ked1_dbe) PRINT_ERROR("KEY_INT_SUM[KED1_DBE]: Error bit\n"); if (key_int_sum.s.ked1_sbe) PRINT_ERROR("KEY_INT_SUM[KED1_SBE]: Error bit\n"); if (key_int_sum.s.ked0_dbe) PRINT_ERROR("KEY_INT_SUM[KED0_DBE]: Error bit\n"); if (key_int_sum.s.ked0_sbe) PRINT_ERROR("KEY_INT_SUM[KED0_SBE]: Error bit\n"); } /** * __cvmx_interrupt_mio_boot_int_enable enables all interrupt bits in cvmx_mio_boot_int_t */ void __cvmx_interrupt_mio_boot_int_enable(void) { cvmx_mio_boot_int_t mio_boot_int; cvmx_write_csr(CVMX_MIO_BOOT_ERR, cvmx_read_csr(CVMX_MIO_BOOT_ERR)); mio_boot_int.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping mio_boot_int.s.reserved_2_63 mio_boot_int.s.wait_int = 1; mio_boot_int.s.adr_int = 1; } cvmx_write_csr(CVMX_MIO_BOOT_INT, mio_boot_int.u64); } /** * __cvmx_interrupt_mio_boot_err_decode decodes all interrupt bits in cvmx_mio_boot_err_t */ void __cvmx_interrupt_mio_boot_err_decode(void) { cvmx_mio_boot_err_t mio_boot_err; mio_boot_err.u64 = cvmx_read_csr(CVMX_MIO_BOOT_ERR); mio_boot_err.u64 &= cvmx_read_csr(CVMX_MIO_BOOT_INT); cvmx_write_csr(CVMX_MIO_BOOT_ERR, mio_boot_err.u64); // Skipping mio_boot_err.s.reserved_2_63 if (mio_boot_err.s.wait_err) PRINT_ERROR("MIO_BOOT_ERR[WAIT_ERR]: Wait mode error\n"); if (mio_boot_err.s.adr_err) PRINT_ERROR("MIO_BOOT_ERR[ADR_ERR]: Address decode error\n"); } /** * __cvmx_interrupt_npei_int_sum_decode decodes all interrupt bits in cvmx_npei_int_sum_t */ void __cvmx_interrupt_npei_int_sum_decode(void) { cvmx_npei_int_sum_t npei_int_sum; npei_int_sum.u64 = cvmx_read_csr(CVMX_PEXP_NPEI_INT_SUM); /* Note that NPEI_INT_ENB2 controls the internal RSL interrupts. NPEI_INT_ENB controls external forwarding which is not what we want. It is a little strange that we are using NPEI_INT_SUM with NPEI_INT_ENB2, but we need the R/W version of NPEI_INT_SUM2 and internal RSL interrupts */ npei_int_sum.u64 &= cvmx_read_csr(CVMX_PEXP_NPEI_INT_ENB2); cvmx_write_csr(CVMX_PEXP_NPEI_INT_SUM, npei_int_sum.u64); if (npei_int_sum.s.mio_inta) PRINT_ERROR("NPEI_INT_SUM[MIO_INTA]: Interrupt from MIO.\n"); // Skipping npei_int_sum.s.reserved_62_62 if (npei_int_sum.s.int_a) PRINT_ERROR("NPEI_INT_SUM[INT_A]: Set when a bit in the NPEI_INT_A_SUM register and\n" " the cooresponding bit in the NPEI_INT_A_ENB\n" " register is set.\n"); if (npei_int_sum.s.c1_ldwn) { cvmx_ciu_soft_prst_t ciu_soft_prst; PRINT_ERROR("NPEI_INT_SUM[C1_LDWN]: Reset request due to link1 down status.\n"); ciu_soft_prst.u64 = cvmx_read_csr(CVMX_CIU_SOFT_PRST1); if (!ciu_soft_prst.s.soft_prst) { /* Attempt to automatically bring the link back up */ cvmx_pcie_rc_shutdown(1); cvmx_pcie_rc_initialize(1); } cvmx_write_csr(CVMX_PEXP_NPEI_INT_SUM, cvmx_read_csr(CVMX_PEXP_NPEI_INT_SUM)); } if (npei_int_sum.s.c0_ldwn) { cvmx_ciu_soft_prst_t ciu_soft_prst; PRINT_ERROR("NPEI_INT_SUM[C0_LDWN]: Reset request due to link0 down status.\n"); ciu_soft_prst.u64 = cvmx_read_csr(CVMX_CIU_SOFT_PRST); if (!ciu_soft_prst.s.soft_prst) { /* Attempt to automatically bring the link back up */ cvmx_pcie_rc_shutdown(0); cvmx_pcie_rc_initialize(0); } cvmx_write_csr(CVMX_PEXP_NPEI_INT_SUM, cvmx_read_csr(CVMX_PEXP_NPEI_INT_SUM)); } if (npei_int_sum.s.c1_exc) { #if 0 PRINT_ERROR("NPEI_INT_SUM[C1_EXC]: Set when the PESC1_DBG_INFO register has a bit\n" " set and its cooresponding PESC1_DBG_INFO_EN bit\n" " is set.\n"); #endif __cvmx_interrupt_pescx_dbg_info_decode(1); } if (npei_int_sum.s.c0_exc) { #if 0 PRINT_ERROR("NPEI_INT_SUM[C0_EXC]: Set when the PESC0_DBG_INFO register has a bit\n" " set and its cooresponding PESC0_DBG_INFO_EN bit\n" " is set.\n"); #endif __cvmx_interrupt_pescx_dbg_info_decode(0); } if (npei_int_sum.s.c1_up_wf) PRINT_ERROR("NPEI_INT_SUM[C1_UP_WF]: Received Unsupported P-TLP for filtered window\n" " register. Core1.\n"); if (npei_int_sum.s.c0_up_wf) PRINT_ERROR("NPEI_INT_SUM[C0_UP_WF]: Received Unsupported P-TLP for filtered window\n" " register. Core0.\n"); if (npei_int_sum.s.c1_un_wf) PRINT_ERROR("NPEI_INT_SUM[C1_UN_WF]: Received Unsupported N-TLP for filtered window\n" " register. Core1.\n"); if (npei_int_sum.s.c0_un_wf) PRINT_ERROR("NPEI_INT_SUM[C0_UN_WF]: Received Unsupported N-TLP for filtered window\n" " register. Core0.\n"); if (npei_int_sum.s.c1_un_bx) PRINT_ERROR("NPEI_INT_SUM[C1_UN_BX]: Received Unsupported N-TLP for unknown Bar.\n" " Core 1.\n"); if (npei_int_sum.s.c1_un_wi) PRINT_ERROR("NPEI_INT_SUM[C1_UN_WI]: Received Unsupported N-TLP for Window Register.\n" " Core 1.\n"); if (npei_int_sum.s.c1_un_b2) PRINT_ERROR("NPEI_INT_SUM[C1_UN_B2]: Received Unsupported N-TLP for Bar2.\n" " Core 1.\n"); if (npei_int_sum.s.c1_un_b1) PRINT_ERROR("NPEI_INT_SUM[C1_UN_B1]: Received Unsupported N-TLP for Bar1.\n" " Core 1.\n"); if (npei_int_sum.s.c1_un_b0) PRINT_ERROR("NPEI_INT_SUM[C1_UN_B0]: Received Unsupported N-TLP for Bar0.\n" " Core 1.\n"); if (npei_int_sum.s.c1_up_bx) PRINT_ERROR("NPEI_INT_SUM[C1_UP_BX]: Received Unsupported P-TLP for unknown Bar.\n" " Core 1.\n"); if (npei_int_sum.s.c1_up_wi) PRINT_ERROR("NPEI_INT_SUM[C1_UP_WI]: Received Unsupported P-TLP for Window Register.\n" " Core 1.\n"); if (npei_int_sum.s.c1_up_b2) PRINT_ERROR("NPEI_INT_SUM[C1_UP_B2]: Received Unsupported P-TLP for Bar2.\n" " Core 1.\n"); if (npei_int_sum.s.c1_up_b1) PRINT_ERROR("NPEI_INT_SUM[C1_UP_B1]: Received Unsupported P-TLP for Bar1.\n" " Core 1.\n"); if (npei_int_sum.s.c1_up_b0) PRINT_ERROR("NPEI_INT_SUM[C1_UP_B0]: Received Unsupported P-TLP for Bar0.\n" " Core 1.\n"); if (npei_int_sum.s.c0_un_bx) PRINT_ERROR("NPEI_INT_SUM[C0_UN_BX]: Received Unsupported N-TLP for unknown Bar.\n" " Core 0.\n"); if (npei_int_sum.s.c0_un_wi) PRINT_ERROR("NPEI_INT_SUM[C0_UN_WI]: Received Unsupported N-TLP for Window Register.\n" " Core 0.\n"); if (npei_int_sum.s.c0_un_b2) PRINT_ERROR("NPEI_INT_SUM[C0_UN_B2]: Received Unsupported N-TLP for Bar2.\n" " Core 0.\n"); if (npei_int_sum.s.c0_un_b1) PRINT_ERROR("NPEI_INT_SUM[C0_UN_B1]: Received Unsupported N-TLP for Bar1.\n" " Core 0.\n"); if (npei_int_sum.s.c0_un_b0) PRINT_ERROR("NPEI_INT_SUM[C0_UN_B0]: Received Unsupported N-TLP for Bar0.\n" " Core 0.\n"); if (npei_int_sum.s.c0_up_bx) PRINT_ERROR("NPEI_INT_SUM[C0_UP_BX]: Received Unsupported P-TLP for unknown Bar.\n" " Core 0.\n"); if (npei_int_sum.s.c0_up_wi) PRINT_ERROR("NPEI_INT_SUM[C0_UP_WI]: Received Unsupported P-TLP for Window Register.\n" " Core 0.\n"); if (npei_int_sum.s.c0_up_b2) PRINT_ERROR("NPEI_INT_SUM[C0_UP_B2]: Received Unsupported P-TLP for Bar2.\n" " Core 0.\n"); if (npei_int_sum.s.c0_up_b1) PRINT_ERROR("NPEI_INT_SUM[C0_UP_B1]: Received Unsupported P-TLP for Bar1.\n" " Core 0.\n"); if (npei_int_sum.s.c0_up_b0) PRINT_ERROR("NPEI_INT_SUM[C0_UP_B0]: Received Unsupported P-TLP for Bar0.\n" " Core 0.\n"); if (npei_int_sum.s.c1_hpint) PRINT_ERROR("NPEI_INT_SUM[C1_HPINT]: Hot-Plug Interrupt.\n" " Pcie Core 1 (hp_int).\n" " This interrupt will only be generated when\n" " PCIERC1_CFG034[DLLS_C] is generated. Hot plug is\n" " not supported.\n"); if (npei_int_sum.s.c1_pmei) PRINT_ERROR("NPEI_INT_SUM[C1_PMEI]: PME Interrupt.\n" " Pcie Core 1. (cfg_pme_int)\n"); if (npei_int_sum.s.c1_wake) PRINT_ERROR("NPEI_INT_SUM[C1_WAKE]: Wake up from Power Management Unit.\n" " Pcie Core 1. (wake_n)\n" " Octeon will never generate this interrupt.\n"); if (npei_int_sum.s.crs1_dr) PRINT_ERROR("NPEI_INT_SUM[CRS1_DR]: Had a CRS when Retries were disabled.\n"); if (npei_int_sum.s.c1_se) PRINT_ERROR("NPEI_INT_SUM[C1_SE]: System Error, RC Mode Only.\n" " Pcie Core 1. (cfg_sys_err_rc)\n"); if (npei_int_sum.s.crs1_er) PRINT_ERROR("NPEI_INT_SUM[CRS1_ER]: Had a CRS Timeout when Retries were enabled.\n"); if (npei_int_sum.s.c1_aeri) PRINT_ERROR("NPEI_INT_SUM[C1_AERI]: Advanced Error Reporting Interrupt, RC Mode Only.\n" " Pcie Core 1.\n"); if (npei_int_sum.s.c0_hpint) PRINT_ERROR("NPEI_INT_SUM[C0_HPINT]: Hot-Plug Interrupt.\n" " Pcie Core 0 (hp_int).\n" " This interrupt will only be generated when\n" " PCIERC0_CFG034[DLLS_C] is generated. Hot plug is\n" " not supported.\n"); if (npei_int_sum.s.c0_pmei) PRINT_ERROR("NPEI_INT_SUM[C0_PMEI]: PME Interrupt.\n" " Pcie Core 0. (cfg_pme_int)\n"); if (npei_int_sum.s.c0_wake) PRINT_ERROR("NPEI_INT_SUM[C0_WAKE]: Wake up from Power Management Unit.\n" " Pcie Core 0. (wake_n)\n" " Octeon will never generate this interrupt.\n"); if (npei_int_sum.s.crs0_dr) PRINT_ERROR("NPEI_INT_SUM[CRS0_DR]: Had a CRS when Retries were disabled.\n"); if (npei_int_sum.s.c0_se) PRINT_ERROR("NPEI_INT_SUM[C0_SE]: System Error, RC Mode Only.\n" " Pcie Core 0. (cfg_sys_err_rc)\n"); if (npei_int_sum.s.crs0_er) PRINT_ERROR("NPEI_INT_SUM[CRS0_ER]: Had a CRS Timeout when Retries were enabled.\n"); if (npei_int_sum.s.c0_aeri) PRINT_ERROR("NPEI_INT_SUM[C0_AERI]: Advanced Error Reporting Interrupt, RC Mode Only.\n" " Pcie Core 0 (cfg_aer_rc_err_int).\n"); if (npei_int_sum.s.ptime) PRINT_ERROR("NPEI_INT_SUM[PTIME]: Packet Timer has an interrupt. Which rings can\n" " be found in NPEI_PKT_TIME_INT.\n"); if (npei_int_sum.s.pcnt) PRINT_ERROR("NPEI_INT_SUM[PCNT]: Packet Counter has an interrupt. Which rings can\n" " be found in NPEI_PKT_CNT_INT.\n"); if (npei_int_sum.s.pidbof) PRINT_ERROR("NPEI_INT_SUM[PIDBOF]: Packet Instruction Doorbell count overflowed. Which\n" " doorbell can be found in NPEI_INT_INFO[PIDBOF]\n"); if (npei_int_sum.s.psldbof) PRINT_ERROR("NPEI_INT_SUM[PSLDBOF]: Packet Scatterlist Doorbell count overflowed. Which\n" " doorbell can be found in NPEI_INT_INFO[PSLDBOF]\n"); if (npei_int_sum.s.dtime1) PRINT_ERROR("NPEI_INT_SUM[DTIME1]: Whenever NPEI_DMA_CNTS[DMA1] is not 0, the\n" " DMA_CNT1 timer increments every core clock. When\n" " DMA_CNT1 timer exceeds NPEI_DMA1_INT_LEVEL[TIME],\n" " this bit is set. Writing a '1' to this bit also\n" " clears the DMA_CNT1 timer.\n"); if (npei_int_sum.s.dtime0) PRINT_ERROR("NPEI_INT_SUM[DTIME0]: Whenever NPEI_DMA_CNTS[DMA0] is not 0, the\n" " DMA_CNT0 timer increments every core clock. When\n" " DMA_CNT0 timer exceeds NPEI_DMA0_INT_LEVEL[TIME],\n" " this bit is set. Writing a '1' to this bit also\n" " clears the DMA_CNT0 timer.\n"); if (npei_int_sum.s.dcnt1) PRINT_ERROR("NPEI_INT_SUM[DCNT1]: This bit indicates that NPEI_DMA_CNTS[DMA1] was/is\n" " greater than NPEI_DMA1_INT_LEVEL[CNT].\n"); if (npei_int_sum.s.dcnt0) PRINT_ERROR("NPEI_INT_SUM[DCNT0]: This bit indicates that NPEI_DMA_CNTS[DMA0] was/is\n" " greater than NPEI_DMA0_INT_LEVEL[CNT].\n"); if (npei_int_sum.s.dma1fi) PRINT_ERROR("NPEI_INT_SUM[DMA1FI]: DMA0 set Forced Interrupt.\n"); if (npei_int_sum.s.dma0fi) PRINT_ERROR("NPEI_INT_SUM[DMA0FI]: DMA0 set Forced Interrupt.\n"); if (npei_int_sum.s.dma4dbo) PRINT_ERROR("NPEI_INT_SUM[DMA4DBO]: DMA4 doorbell overflow.\n" " Bit[32] of the doorbell count was set.\n"); if (npei_int_sum.s.dma3dbo) PRINT_ERROR("NPEI_INT_SUM[DMA3DBO]: DMA3 doorbell overflow.\n" " Bit[32] of the doorbell count was set.\n"); if (npei_int_sum.s.dma2dbo) PRINT_ERROR("NPEI_INT_SUM[DMA2DBO]: DMA2 doorbell overflow.\n" " Bit[32] of the doorbell count was set.\n"); if (npei_int_sum.s.dma1dbo) PRINT_ERROR("NPEI_INT_SUM[DMA1DBO]: DMA1 doorbell overflow.\n" " Bit[32] of the doorbell count was set.\n"); if (npei_int_sum.s.dma0dbo) PRINT_ERROR("NPEI_INT_SUM[DMA0DBO]: DMA0 doorbell overflow.\n" " Bit[32] of the doorbell count was set.\n"); if (npei_int_sum.s.iob2big) PRINT_ERROR("NPEI_INT_SUM[IOB2BIG]: A requested IOBDMA is to large.\n"); if (npei_int_sum.s.bar0_to) PRINT_ERROR("NPEI_INT_SUM[BAR0_TO]: BAR0 R/W to a NCB device did not receive\n" " read-data/commit in 0xffff core clocks.\n"); if (npei_int_sum.s.rml_wto) PRINT_ERROR("NPEI_INT_SUM[RML_WTO]: RML write did not get commit in 0xffff core clocks.\n"); if (npei_int_sum.s.rml_rto) PRINT_ERROR("NPEI_INT_SUM[RML_RTO]: RML read did not return data in 0xffff core clocks.\n"); } /** * __cvmx_interrupt_npei_int_enb2_enable enables all interrupt bits in cvmx_npei_int_enb2_t */ void __cvmx_interrupt_npei_int_enb2_enable(void) { int enable_pcie0 = 0; int enable_pcie1 = 0; cvmx_npei_int_enb2_t npei_int_enb2; /* Reset NPEI_INT_SUM, as NPEI_INT_SUM2 is a read-only copy of NPEI_INT_SUM. */ cvmx_write_csr(CVMX_PEXP_NPEI_INT_SUM, cvmx_read_csr(CVMX_PEXP_NPEI_INT_SUM)); npei_int_enb2.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { cvmx_pescx_ctl_status2_t pescx_ctl_status2; pescx_ctl_status2.u64 = cvmx_read_csr(CVMX_PESCX_CTL_STATUS2(0)); enable_pcie0 = !pescx_ctl_status2.s.pcierst; pescx_ctl_status2.u64 = cvmx_read_csr(CVMX_PESCX_CTL_STATUS2(1)); enable_pcie1 = !pescx_ctl_status2.s.pcierst; // Skipping npei_int_enb2.s.reserved_62_63 npei_int_enb2.s.int_a = 1; npei_int_enb2.s.c1_ldwn = enable_pcie1; npei_int_enb2.s.c0_ldwn = enable_pcie0; npei_int_enb2.s.c1_exc = enable_pcie1; npei_int_enb2.s.c0_exc = enable_pcie0; npei_int_enb2.s.c1_up_wf = enable_pcie1; npei_int_enb2.s.c0_up_wf = enable_pcie0; npei_int_enb2.s.c1_un_wf = enable_pcie1; npei_int_enb2.s.c0_un_wf = enable_pcie0; npei_int_enb2.s.c1_un_bx = enable_pcie1; npei_int_enb2.s.c1_un_wi = enable_pcie1; npei_int_enb2.s.c1_un_b2 = enable_pcie1; npei_int_enb2.s.c1_un_b1 = enable_pcie1; npei_int_enb2.s.c1_un_b0 = enable_pcie1; npei_int_enb2.s.c1_up_bx = enable_pcie1; npei_int_enb2.s.c1_up_wi = enable_pcie1; npei_int_enb2.s.c1_up_b2 = enable_pcie1; npei_int_enb2.s.c1_up_b1 = enable_pcie1; npei_int_enb2.s.c1_up_b0 = enable_pcie1; npei_int_enb2.s.c0_un_bx = enable_pcie0; npei_int_enb2.s.c0_un_wi = enable_pcie0; npei_int_enb2.s.c0_un_b2 = enable_pcie0; npei_int_enb2.s.c0_un_b1 = enable_pcie0; npei_int_enb2.s.c0_un_b0 = enable_pcie0; npei_int_enb2.s.c0_up_bx = enable_pcie0; npei_int_enb2.s.c0_up_wi = enable_pcie0; npei_int_enb2.s.c0_up_b2 = enable_pcie0; npei_int_enb2.s.c0_up_b1 = enable_pcie0; npei_int_enb2.s.c0_up_b0 = enable_pcie0; npei_int_enb2.s.c1_hpint = enable_pcie1; npei_int_enb2.s.c1_pmei = enable_pcie1; npei_int_enb2.s.c1_wake = enable_pcie1; npei_int_enb2.s.crs1_dr = enable_pcie1; npei_int_enb2.s.c1_se = enable_pcie1; npei_int_enb2.s.crs1_er = enable_pcie1; npei_int_enb2.s.c1_aeri = enable_pcie1; npei_int_enb2.s.c0_hpint = enable_pcie0; npei_int_enb2.s.c0_pmei = enable_pcie0; npei_int_enb2.s.c0_wake = enable_pcie0; npei_int_enb2.s.crs0_dr = enable_pcie0; npei_int_enb2.s.c0_se = enable_pcie0; npei_int_enb2.s.crs0_er = enable_pcie0; npei_int_enb2.s.c0_aeri = enable_pcie0; npei_int_enb2.s.ptime = 1; npei_int_enb2.s.pcnt = 1; npei_int_enb2.s.pidbof = 1; npei_int_enb2.s.psldbof = 1; npei_int_enb2.s.dtime1 = 1; npei_int_enb2.s.dtime0 = 1; npei_int_enb2.s.dcnt1 = 1; npei_int_enb2.s.dcnt0 = 1; npei_int_enb2.s.dma1fi = 1; npei_int_enb2.s.dma0fi = 1; npei_int_enb2.s.dma4dbo = 1; npei_int_enb2.s.dma3dbo = 1; npei_int_enb2.s.dma2dbo = 1; npei_int_enb2.s.dma1dbo = 1; npei_int_enb2.s.dma0dbo = 1; npei_int_enb2.s.iob2big = 1; npei_int_enb2.s.bar0_to = 1; npei_int_enb2.s.rml_wto = 1; npei_int_enb2.s.rml_rto = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { cvmx_pescx_ctl_status2_t pescx_ctl_status2; cvmx_npei_dbg_data_t npei_dbg_data; pescx_ctl_status2.u64 = cvmx_read_csr(CVMX_PESCX_CTL_STATUS2(0)); enable_pcie0 = !pescx_ctl_status2.s.pcierst; npei_dbg_data.u64 = cvmx_read_csr(CVMX_PEXP_NPEI_DBG_DATA); if (!npei_dbg_data.cn52xx.qlm0_link_width) { pescx_ctl_status2.u64 = cvmx_read_csr(CVMX_PESCX_CTL_STATUS2(1)); enable_pcie1 = !pescx_ctl_status2.s.pcierst; } // Skipping npei_int_enb2.s.reserved_62_63 npei_int_enb2.s.int_a = 1; npei_int_enb2.s.c1_ldwn = enable_pcie1; npei_int_enb2.s.c0_ldwn = enable_pcie0; npei_int_enb2.s.c1_exc = enable_pcie1; npei_int_enb2.s.c0_exc = enable_pcie0; npei_int_enb2.s.c1_up_wf = enable_pcie1; npei_int_enb2.s.c0_up_wf = enable_pcie0; npei_int_enb2.s.c1_un_wf = enable_pcie1; npei_int_enb2.s.c0_un_wf = enable_pcie0; npei_int_enb2.s.c1_un_bx = enable_pcie1; npei_int_enb2.s.c1_un_wi = enable_pcie1; npei_int_enb2.s.c1_un_b2 = enable_pcie1; npei_int_enb2.s.c1_un_b1 = enable_pcie1; npei_int_enb2.s.c1_un_b0 = enable_pcie1; npei_int_enb2.s.c1_up_bx = enable_pcie1; npei_int_enb2.s.c1_up_wi = enable_pcie1; npei_int_enb2.s.c1_up_b2 = enable_pcie1; npei_int_enb2.s.c1_up_b1 = enable_pcie1; npei_int_enb2.s.c1_up_b0 = enable_pcie1; npei_int_enb2.s.c0_un_bx = enable_pcie0; npei_int_enb2.s.c0_un_wi = enable_pcie0; npei_int_enb2.s.c0_un_b2 = enable_pcie0; npei_int_enb2.s.c0_un_b1 = enable_pcie0; npei_int_enb2.s.c0_un_b0 = enable_pcie0; npei_int_enb2.s.c0_up_bx = enable_pcie0; npei_int_enb2.s.c0_up_wi = enable_pcie0; npei_int_enb2.s.c0_up_b2 = enable_pcie0; npei_int_enb2.s.c0_up_b1 = enable_pcie0; npei_int_enb2.s.c0_up_b0 = enable_pcie0; npei_int_enb2.s.c1_hpint = enable_pcie1; npei_int_enb2.s.c1_pmei = enable_pcie1; npei_int_enb2.s.c1_wake = enable_pcie1; npei_int_enb2.s.crs1_dr = enable_pcie1; npei_int_enb2.s.c1_se = enable_pcie1; npei_int_enb2.s.crs1_er = enable_pcie1; npei_int_enb2.s.c1_aeri = enable_pcie1; npei_int_enb2.s.c0_hpint = enable_pcie0; npei_int_enb2.s.c0_pmei = enable_pcie0; npei_int_enb2.s.c0_wake = enable_pcie0; npei_int_enb2.s.crs0_dr = enable_pcie0; npei_int_enb2.s.c0_se = enable_pcie0; npei_int_enb2.s.crs0_er = enable_pcie0; npei_int_enb2.s.c0_aeri = enable_pcie0; npei_int_enb2.s.ptime = 1; npei_int_enb2.s.pcnt = 1; npei_int_enb2.s.pidbof = 1; npei_int_enb2.s.psldbof = 1; npei_int_enb2.s.dtime1 = 1; npei_int_enb2.s.dtime0 = 1; npei_int_enb2.s.dcnt1 = 1; npei_int_enb2.s.dcnt0 = 1; npei_int_enb2.s.dma1fi = 1; npei_int_enb2.s.dma0fi = 1; if (!OCTEON_IS_MODEL(OCTEON_CN52XX_PASS1_X)) npei_int_enb2.s.dma4dbo = 1; npei_int_enb2.s.dma3dbo = 1; npei_int_enb2.s.dma2dbo = 1; npei_int_enb2.s.dma1dbo = 1; npei_int_enb2.s.dma0dbo = 1; npei_int_enb2.s.iob2big = 1; npei_int_enb2.s.bar0_to = 1; npei_int_enb2.s.rml_wto = 1; npei_int_enb2.s.rml_rto = 1; } cvmx_write_csr(CVMX_PEXP_NPEI_INT_ENB2, npei_int_enb2.u64); if (enable_pcie0) __cvmx_interrupt_pescx_dbg_info_en_enable(0); if (enable_pcie1) __cvmx_interrupt_pescx_dbg_info_en_enable(1); } /** * __cvmx_interrupt_npi_int_enb_enable enables all interrupt bits in cvmx_npi_int_enb_t */ void __cvmx_interrupt_npi_int_enb_enable(void) { cvmx_npi_int_enb_t npi_int_enb; cvmx_write_csr(CVMX_NPI_INT_SUM, cvmx_read_csr(CVMX_NPI_INT_SUM)); npi_int_enb.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping npi_int_enb.s.reserved_62_63 npi_int_enb.s.q1_a_f = 1; npi_int_enb.s.q1_s_e = 1; npi_int_enb.s.pdf_p_f = 1; npi_int_enb.s.pdf_p_e = 1; npi_int_enb.s.pcf_p_f = 1; npi_int_enb.s.pcf_p_e = 1; npi_int_enb.s.rdx_s_e = 1; npi_int_enb.s.rwx_s_e = 1; npi_int_enb.s.pnc_a_f = 1; npi_int_enb.s.pnc_s_e = 1; npi_int_enb.s.com_a_f = 1; npi_int_enb.s.com_s_e = 1; npi_int_enb.s.q3_a_f = 1; npi_int_enb.s.q3_s_e = 1; npi_int_enb.s.q2_a_f = 1; npi_int_enb.s.q2_s_e = 1; npi_int_enb.s.pcr_a_f = 1; npi_int_enb.s.pcr_s_e = 1; npi_int_enb.s.fcr_a_f = 1; npi_int_enb.s.fcr_s_e = 1; npi_int_enb.s.iobdma = 1; npi_int_enb.s.p_dperr = 1; npi_int_enb.s.win_rto = 1; // Skipping npi_int_enb.s.reserved_36_38 npi_int_enb.s.i0_pperr = 1; // Skipping npi_int_enb.s.reserved_32_34 npi_int_enb.s.p0_ptout = 1; // Skipping npi_int_enb.s.reserved_28_30 npi_int_enb.s.p0_pperr = 1; // Skipping npi_int_enb.s.reserved_24_26 npi_int_enb.s.g0_rtout = 1; // Skipping npi_int_enb.s.reserved_20_22 npi_int_enb.s.p0_perr = 1; // Skipping npi_int_enb.s.reserved_16_18 npi_int_enb.s.p0_rtout = 1; // Skipping npi_int_enb.s.reserved_12_14 npi_int_enb.s.i0_overf = 1; // Skipping npi_int_enb.s.reserved_8_10 npi_int_enb.s.i0_rtout = 1; // Skipping npi_int_enb.s.reserved_4_6 npi_int_enb.s.po0_2sml = 1; npi_int_enb.s.pci_rsl = 1; npi_int_enb.s.rml_wto = 1; npi_int_enb.s.rml_rto = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping npi_int_enb.s.reserved_62_63 npi_int_enb.s.q1_a_f = 1; npi_int_enb.s.q1_s_e = 1; npi_int_enb.s.pdf_p_f = 1; npi_int_enb.s.pdf_p_e = 1; npi_int_enb.s.pcf_p_f = 1; npi_int_enb.s.pcf_p_e = 1; npi_int_enb.s.rdx_s_e = 1; npi_int_enb.s.rwx_s_e = 1; npi_int_enb.s.pnc_a_f = 1; npi_int_enb.s.pnc_s_e = 1; npi_int_enb.s.com_a_f = 1; npi_int_enb.s.com_s_e = 1; npi_int_enb.s.q3_a_f = 1; npi_int_enb.s.q3_s_e = 1; npi_int_enb.s.q2_a_f = 1; npi_int_enb.s.q2_s_e = 1; npi_int_enb.s.pcr_a_f = 1; npi_int_enb.s.pcr_s_e = 1; npi_int_enb.s.fcr_a_f = 1; npi_int_enb.s.fcr_s_e = 1; npi_int_enb.s.iobdma = 1; npi_int_enb.s.p_dperr = 1; npi_int_enb.s.win_rto = 1; // Skipping npi_int_enb.s.reserved_37_38 npi_int_enb.s.i1_pperr = 1; npi_int_enb.s.i0_pperr = 1; // Skipping npi_int_enb.s.reserved_33_34 npi_int_enb.s.p1_ptout = 1; npi_int_enb.s.p0_ptout = 1; // Skipping npi_int_enb.s.reserved_29_30 npi_int_enb.s.p1_pperr = 1; npi_int_enb.s.p0_pperr = 1; // Skipping npi_int_enb.s.reserved_25_26 npi_int_enb.s.g1_rtout = 1; npi_int_enb.s.g0_rtout = 1; // Skipping npi_int_enb.s.reserved_21_22 npi_int_enb.s.p1_perr = 1; npi_int_enb.s.p0_perr = 1; // Skipping npi_int_enb.s.reserved_17_18 npi_int_enb.s.p1_rtout = 1; npi_int_enb.s.p0_rtout = 1; // Skipping npi_int_enb.s.reserved_13_14 npi_int_enb.s.i1_overf = 1; npi_int_enb.s.i0_overf = 1; // Skipping npi_int_enb.s.reserved_9_10 npi_int_enb.s.i1_rtout = 1; npi_int_enb.s.i0_rtout = 1; // Skipping npi_int_enb.s.reserved_5_6 npi_int_enb.s.po1_2sml = 1; npi_int_enb.s.po0_2sml = 1; npi_int_enb.s.pci_rsl = 1; npi_int_enb.s.rml_wto = 1; npi_int_enb.s.rml_rto = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping npi_int_enb.s.reserved_62_63 npi_int_enb.s.q1_a_f = 1; npi_int_enb.s.q1_s_e = 1; npi_int_enb.s.pdf_p_f = 1; npi_int_enb.s.pdf_p_e = 1; npi_int_enb.s.pcf_p_f = 1; npi_int_enb.s.pcf_p_e = 1; npi_int_enb.s.rdx_s_e = 1; npi_int_enb.s.rwx_s_e = 1; npi_int_enb.s.pnc_a_f = 1; npi_int_enb.s.pnc_s_e = 1; npi_int_enb.s.com_a_f = 1; npi_int_enb.s.com_s_e = 1; npi_int_enb.s.q3_a_f = 1; npi_int_enb.s.q3_s_e = 1; npi_int_enb.s.q2_a_f = 1; npi_int_enb.s.q2_s_e = 1; npi_int_enb.s.pcr_a_f = 1; npi_int_enb.s.pcr_s_e = 1; npi_int_enb.s.fcr_a_f = 1; npi_int_enb.s.fcr_s_e = 1; npi_int_enb.s.iobdma = 1; npi_int_enb.s.p_dperr = 1; npi_int_enb.s.win_rto = 1; npi_int_enb.s.i3_pperr = 1; npi_int_enb.s.i2_pperr = 1; npi_int_enb.s.i1_pperr = 1; npi_int_enb.s.i0_pperr = 1; npi_int_enb.s.p3_ptout = 1; npi_int_enb.s.p2_ptout = 1; npi_int_enb.s.p1_ptout = 1; npi_int_enb.s.p0_ptout = 1; npi_int_enb.s.p3_pperr = 1; npi_int_enb.s.p2_pperr = 1; npi_int_enb.s.p1_pperr = 1; npi_int_enb.s.p0_pperr = 1; npi_int_enb.s.g3_rtout = 1; npi_int_enb.s.g2_rtout = 1; npi_int_enb.s.g1_rtout = 1; npi_int_enb.s.g0_rtout = 1; npi_int_enb.s.p3_perr = 1; npi_int_enb.s.p2_perr = 1; npi_int_enb.s.p1_perr = 1; npi_int_enb.s.p0_perr = 1; npi_int_enb.s.p3_rtout = 1; npi_int_enb.s.p2_rtout = 1; npi_int_enb.s.p1_rtout = 1; npi_int_enb.s.p0_rtout = 1; npi_int_enb.s.i3_overf = 1; npi_int_enb.s.i2_overf = 1; npi_int_enb.s.i1_overf = 1; npi_int_enb.s.i0_overf = 1; npi_int_enb.s.i3_rtout = 1; npi_int_enb.s.i2_rtout = 1; npi_int_enb.s.i1_rtout = 1; npi_int_enb.s.i0_rtout = 1; npi_int_enb.s.po3_2sml = 1; npi_int_enb.s.po2_2sml = 1; npi_int_enb.s.po1_2sml = 1; npi_int_enb.s.po0_2sml = 1; npi_int_enb.s.pci_rsl = 1; npi_int_enb.s.rml_wto = 1; npi_int_enb.s.rml_rto = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping npi_int_enb.s.reserved_62_63 npi_int_enb.s.q1_a_f = 1; npi_int_enb.s.q1_s_e = 1; npi_int_enb.s.pdf_p_f = 1; npi_int_enb.s.pdf_p_e = 1; npi_int_enb.s.pcf_p_f = 1; npi_int_enb.s.pcf_p_e = 1; npi_int_enb.s.rdx_s_e = 1; npi_int_enb.s.rwx_s_e = 1; npi_int_enb.s.pnc_a_f = 1; npi_int_enb.s.pnc_s_e = 1; npi_int_enb.s.com_a_f = 1; npi_int_enb.s.com_s_e = 1; npi_int_enb.s.q3_a_f = 1; npi_int_enb.s.q3_s_e = 1; npi_int_enb.s.q2_a_f = 1; npi_int_enb.s.q2_s_e = 1; npi_int_enb.s.pcr_a_f = 1; npi_int_enb.s.pcr_s_e = 1; npi_int_enb.s.fcr_a_f = 1; npi_int_enb.s.fcr_s_e = 1; npi_int_enb.s.iobdma = 1; npi_int_enb.s.p_dperr = 1; npi_int_enb.s.win_rto = 1; // Skipping npi_int_enb.s.reserved_37_38 npi_int_enb.s.i1_pperr = 1; npi_int_enb.s.i0_pperr = 1; // Skipping npi_int_enb.s.reserved_33_34 npi_int_enb.s.p1_ptout = 1; npi_int_enb.s.p0_ptout = 1; // Skipping npi_int_enb.s.reserved_29_30 npi_int_enb.s.p1_pperr = 1; npi_int_enb.s.p0_pperr = 1; // Skipping npi_int_enb.s.reserved_25_26 npi_int_enb.s.g1_rtout = 1; npi_int_enb.s.g0_rtout = 1; // Skipping npi_int_enb.s.reserved_21_22 npi_int_enb.s.p1_perr = 1; npi_int_enb.s.p0_perr = 1; // Skipping npi_int_enb.s.reserved_17_18 npi_int_enb.s.p1_rtout = 1; npi_int_enb.s.p0_rtout = 1; // Skipping npi_int_enb.s.reserved_13_14 npi_int_enb.s.i1_overf = 1; npi_int_enb.s.i0_overf = 1; // Skipping npi_int_enb.s.reserved_9_10 npi_int_enb.s.i1_rtout = 1; npi_int_enb.s.i0_rtout = 1; // Skipping npi_int_enb.s.reserved_5_6 npi_int_enb.s.po1_2sml = 1; npi_int_enb.s.po0_2sml = 1; npi_int_enb.s.pci_rsl = 1; npi_int_enb.s.rml_wto = 1; npi_int_enb.s.rml_rto = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping npi_int_enb.s.reserved_62_63 npi_int_enb.s.q1_a_f = 1; npi_int_enb.s.q1_s_e = 1; npi_int_enb.s.pdf_p_f = 1; npi_int_enb.s.pdf_p_e = 1; npi_int_enb.s.pcf_p_f = 1; npi_int_enb.s.pcf_p_e = 1; npi_int_enb.s.rdx_s_e = 1; npi_int_enb.s.rwx_s_e = 1; npi_int_enb.s.pnc_a_f = 1; npi_int_enb.s.pnc_s_e = 1; npi_int_enb.s.com_a_f = 1; npi_int_enb.s.com_s_e = 1; npi_int_enb.s.q3_a_f = 1; npi_int_enb.s.q3_s_e = 1; npi_int_enb.s.q2_a_f = 1; npi_int_enb.s.q2_s_e = 1; npi_int_enb.s.pcr_a_f = 1; npi_int_enb.s.pcr_s_e = 1; npi_int_enb.s.fcr_a_f = 1; npi_int_enb.s.fcr_s_e = 1; npi_int_enb.s.iobdma = 1; npi_int_enb.s.p_dperr = 1; npi_int_enb.s.win_rto = 1; npi_int_enb.s.i3_pperr = 1; npi_int_enb.s.i2_pperr = 1; npi_int_enb.s.i1_pperr = 1; npi_int_enb.s.i0_pperr = 1; npi_int_enb.s.p3_ptout = 1; npi_int_enb.s.p2_ptout = 1; npi_int_enb.s.p1_ptout = 1; npi_int_enb.s.p0_ptout = 1; npi_int_enb.s.p3_pperr = 1; npi_int_enb.s.p2_pperr = 1; npi_int_enb.s.p1_pperr = 1; npi_int_enb.s.p0_pperr = 1; npi_int_enb.s.g3_rtout = 1; npi_int_enb.s.g2_rtout = 1; npi_int_enb.s.g1_rtout = 1; npi_int_enb.s.g0_rtout = 1; npi_int_enb.s.p3_perr = 1; npi_int_enb.s.p2_perr = 1; npi_int_enb.s.p1_perr = 1; npi_int_enb.s.p0_perr = 1; npi_int_enb.s.p3_rtout = 1; npi_int_enb.s.p2_rtout = 1; npi_int_enb.s.p1_rtout = 1; npi_int_enb.s.p0_rtout = 1; npi_int_enb.s.i3_overf = 1; npi_int_enb.s.i2_overf = 1; npi_int_enb.s.i1_overf = 1; npi_int_enb.s.i0_overf = 1; npi_int_enb.s.i3_rtout = 1; npi_int_enb.s.i2_rtout = 1; npi_int_enb.s.i1_rtout = 1; npi_int_enb.s.i0_rtout = 1; npi_int_enb.s.po3_2sml = 1; npi_int_enb.s.po2_2sml = 1; npi_int_enb.s.po1_2sml = 1; npi_int_enb.s.po0_2sml = 1; npi_int_enb.s.pci_rsl = 1; npi_int_enb.s.rml_wto = 1; npi_int_enb.s.rml_rto = 1; } cvmx_write_csr(CVMX_NPI_INT_ENB, npi_int_enb.u64); __cvmx_interrupt_pci_int_enb2_enable(); } /** * __cvmx_interrupt_npi_int_sum_decode decodes all interrupt bits in cvmx_npi_int_sum_t */ void __cvmx_interrupt_npi_int_sum_decode(void) { cvmx_npi_int_sum_t npi_int_sum; npi_int_sum.u64 = cvmx_read_csr(CVMX_NPI_INT_SUM); npi_int_sum.u64 &= cvmx_read_csr(CVMX_NPI_INT_ENB); cvmx_write_csr(CVMX_NPI_INT_SUM, npi_int_sum.u64); // Skipping npi_int_sum.s.reserved_62_63 if (npi_int_sum.s.q1_a_f) PRINT_ERROR("NPI_INT_SUM[Q1_A_F]: Attempted to add when Queue-1 FIFO is full.\n" " PASS3 Field.\n"); if (npi_int_sum.s.q1_s_e) PRINT_ERROR("NPI_INT_SUM[Q1_S_E]: Attempted to subtract when Queue-1 FIFO is empty.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pdf_p_f) PRINT_ERROR("NPI_INT_SUM[PDF_P_F]: Attempted to push a full PCN-DATA-FIFO.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pdf_p_e) PRINT_ERROR("NPI_INT_SUM[PDF_P_E]: Attempted to pop an empty PCN-DATA-FIFO.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pcf_p_f) PRINT_ERROR("NPI_INT_SUM[PCF_P_F]: Attempted to push a full PCN-CNT-FIFO.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pcf_p_e) PRINT_ERROR("NPI_INT_SUM[PCF_P_E]: Attempted to pop an empty PCN-CNT-FIFO.\n" " PASS3 Field.\n"); if (npi_int_sum.s.rdx_s_e) PRINT_ERROR("NPI_INT_SUM[RDX_S_E]: Attempted to subtract when DPI-XFR-Wait count is 0.\n" " PASS3 Field.\n"); if (npi_int_sum.s.rwx_s_e) PRINT_ERROR("NPI_INT_SUM[RWX_S_E]: Attempted to subtract when RDN-XFR-Wait count is 0.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pnc_a_f) PRINT_ERROR("NPI_INT_SUM[PNC_A_F]: Attempted to add when PNI-NPI Credits are max.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pnc_s_e) PRINT_ERROR("NPI_INT_SUM[PNC_S_E]: Attempted to subtract when PNI-NPI Credits are 0.\n" " PASS3 Field.\n"); if (npi_int_sum.s.com_a_f) PRINT_ERROR("NPI_INT_SUM[COM_A_F]: Attempted to add when PCN-Commit Counter is max.\n" " PASS3 Field.\n"); if (npi_int_sum.s.com_s_e) PRINT_ERROR("NPI_INT_SUM[COM_S_E]: Attempted to subtract when PCN-Commit Counter is 0.\n" " PASS3 Field.\n"); if (npi_int_sum.s.q3_a_f) PRINT_ERROR("NPI_INT_SUM[Q3_A_F]: Attempted to add when Queue-3 FIFO is full.\n" " PASS3 Field.\n"); if (npi_int_sum.s.q3_s_e) PRINT_ERROR("NPI_INT_SUM[Q3_S_E]: Attempted to subtract when Queue-3 FIFO is empty.\n" " PASS3 Field.\n"); if (npi_int_sum.s.q2_a_f) PRINT_ERROR("NPI_INT_SUM[Q2_A_F]: Attempted to add when Queue-2 FIFO is full.\n" " PASS3 Field.\n"); if (npi_int_sum.s.q2_s_e) PRINT_ERROR("NPI_INT_SUM[Q2_S_E]: Attempted to subtract when Queue-2 FIFO is empty.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pcr_a_f) PRINT_ERROR("NPI_INT_SUM[PCR_A_F]: Attempted to add when POW Credits is full.\n" " PASS3 Field.\n"); if (npi_int_sum.s.pcr_s_e) PRINT_ERROR("NPI_INT_SUM[PCR_S_E]: Attempted to subtract when POW Credits is empty.\n" " PASS3 Field.\n"); if (npi_int_sum.s.fcr_a_f) PRINT_ERROR("NPI_INT_SUM[FCR_A_F]: Attempted to add when FPA Credits is full.\n" " PASS3 Field.\n"); if (npi_int_sum.s.fcr_s_e) PRINT_ERROR("NPI_INT_SUM[FCR_S_E]: Attempted to subtract when FPA Credits is empty.\n" " PASS3 Field.\n"); if (npi_int_sum.s.iobdma) PRINT_ERROR("NPI_INT_SUM[IOBDMA]: Requested IOBDMA read size exceeded 128 words.\n"); if (npi_int_sum.s.p_dperr) PRINT_ERROR("NPI_INT_SUM[P_DPERR]: If a parity error occured on data written to L2C\n" " from the PCI this bit may be set.\n"); if (npi_int_sum.s.win_rto) PRINT_ERROR("NPI_INT_SUM[WIN_RTO]: Windowed Load Timed Out.\n"); if (npi_int_sum.s.i3_pperr) PRINT_ERROR("NPI_INT_SUM[I3_PPERR]: If a parity error occured on the port's instruction\n" " this bit may be set.\n"); if (npi_int_sum.s.i2_pperr) PRINT_ERROR("NPI_INT_SUM[I2_PPERR]: If a parity error occured on the port's instruction\n" " this bit may be set.\n"); if (npi_int_sum.s.i1_pperr) PRINT_ERROR("NPI_INT_SUM[I1_PPERR]: If a parity error occured on the port's instruction\n" " this bit may be set.\n"); if (npi_int_sum.s.i0_pperr) PRINT_ERROR("NPI_INT_SUM[I0_PPERR]: If a parity error occured on the port's instruction\n" " this bit may be set.\n"); if (npi_int_sum.s.p3_ptout) PRINT_ERROR("NPI_INT_SUM[P3_PTOUT]: Port-3 output had a read timeout on a DATA/INFO\n" " pair.\n"); if (npi_int_sum.s.p2_ptout) PRINT_ERROR("NPI_INT_SUM[P2_PTOUT]: Port-2 output had a read timeout on a DATA/INFO\n" " pair.\n"); if (npi_int_sum.s.p1_ptout) PRINT_ERROR("NPI_INT_SUM[P1_PTOUT]: Port-1 output had a read timeout on a DATA/INFO\n" " pair.\n"); if (npi_int_sum.s.p0_ptout) PRINT_ERROR("NPI_INT_SUM[P0_PTOUT]: Port-0 output had a read timeout on a DATA/INFO\n" " pair.\n"); if (npi_int_sum.s.p3_pperr) PRINT_ERROR("NPI_INT_SUM[P3_PPERR]: If a parity error occured on the port DATA/INFO\n" " pointer-pair, this bit may be set.\n"); if (npi_int_sum.s.p2_pperr) PRINT_ERROR("NPI_INT_SUM[P2_PPERR]: If a parity error occured on the port DATA/INFO\n" " pointer-pair, this bit may be set.\n"); if (npi_int_sum.s.p1_pperr) PRINT_ERROR("NPI_INT_SUM[P1_PPERR]: If a parity error occured on the port DATA/INFO\n" " pointer-pair, this bit may be set.\n"); if (npi_int_sum.s.p0_pperr) PRINT_ERROR("NPI_INT_SUM[P0_PPERR]: If a parity error occured on the port DATA/INFO\n" " pointer-pair, this bit may be set.\n"); if (npi_int_sum.s.g3_rtout) PRINT_ERROR("NPI_INT_SUM[G3_RTOUT]: Port-3 had a read timeout while attempting to\n" " read a gather list.\n"); if (npi_int_sum.s.g2_rtout) PRINT_ERROR("NPI_INT_SUM[G2_RTOUT]: Port-2 had a read timeout while attempting to\n" " read a gather list.\n"); if (npi_int_sum.s.g1_rtout) PRINT_ERROR("NPI_INT_SUM[G1_RTOUT]: Port-1 had a read timeout while attempting to\n" " read a gather list.\n"); if (npi_int_sum.s.g0_rtout) PRINT_ERROR("NPI_INT_SUM[G0_RTOUT]: Port-0 had a read timeout while attempting to\n" " read a gather list.\n"); if (npi_int_sum.s.p3_perr) PRINT_ERROR("NPI_INT_SUM[P3_PERR]: If a parity error occured on the port's packet\n" " data this bit may be set.\n"); if (npi_int_sum.s.p2_perr) PRINT_ERROR("NPI_INT_SUM[P2_PERR]: If a parity error occured on the port's packet\n" " data this bit may be set.\n"); if (npi_int_sum.s.p1_perr) PRINT_ERROR("NPI_INT_SUM[P1_PERR]: If a parity error occured on the port's packet\n" " data this bit may be set.\n"); if (npi_int_sum.s.p0_perr) PRINT_ERROR("NPI_INT_SUM[P0_PERR]: If a parity error occured on the port's packet\n" " data this bit may be set.\n"); if (npi_int_sum.s.p3_rtout) PRINT_ERROR("NPI_INT_SUM[P3_RTOUT]: Port-3 had a read timeout while attempting to\n" " read packet data.\n"); if (npi_int_sum.s.p2_rtout) PRINT_ERROR("NPI_INT_SUM[P2_RTOUT]: Port-2 had a read timeout while attempting to\n" " read packet data.\n"); if (npi_int_sum.s.p1_rtout) PRINT_ERROR("NPI_INT_SUM[P1_RTOUT]: Port-1 had a read timeout while attempting to\n" " read packet data.\n"); if (npi_int_sum.s.p0_rtout) PRINT_ERROR("NPI_INT_SUM[P0_RTOUT]: Port-0 had a read timeout while attempting to\n" " read packet data.\n"); if (npi_int_sum.s.i3_overf) PRINT_ERROR("NPI_INT_SUM[I3_OVERF]: Port-3 had a doorbell overflow. Bit[31] of the\n" " doorbell count was set.\n"); if (npi_int_sum.s.i2_overf) PRINT_ERROR("NPI_INT_SUM[I2_OVERF]: Port-2 had a doorbell overflow. Bit[31] of the\n" " doorbell count was set.\n"); if (npi_int_sum.s.i1_overf) PRINT_ERROR("NPI_INT_SUM[I1_OVERF]: Port-1 had a doorbell overflow. Bit[31] of the\n" " doorbell count was set.\n"); if (npi_int_sum.s.i0_overf) PRINT_ERROR("NPI_INT_SUM[I0_OVERF]: Port-0 had a doorbell overflow. Bit[31] of the\n" " doorbell count was set.\n"); if (npi_int_sum.s.i3_rtout) PRINT_ERROR("NPI_INT_SUM[I3_RTOUT]: Port-3 had a read timeout while attempting to\n" " read instructions.\n"); if (npi_int_sum.s.i2_rtout) PRINT_ERROR("NPI_INT_SUM[I2_RTOUT]: Port-2 had a read timeout while attempting to\n" " read instructions.\n"); if (npi_int_sum.s.i1_rtout) PRINT_ERROR("NPI_INT_SUM[I1_RTOUT]: Port-1 had a read timeout while attempting to\n" " read instructions.\n"); if (npi_int_sum.s.i0_rtout) PRINT_ERROR("NPI_INT_SUM[I0_RTOUT]: Port-0 had a read timeout while attempting to\n" " read instructions.\n"); if (npi_int_sum.s.po3_2sml) PRINT_ERROR("NPI_INT_SUM[PO3_2SML]: The packet being sent out on Port3 is smaller\n" " than the NPI_BUFF_SIZE_OUTPUT3[ISIZE] field.\n"); if (npi_int_sum.s.po2_2sml) PRINT_ERROR("NPI_INT_SUM[PO2_2SML]: The packet being sent out on Port2 is smaller\n" " than the NPI_BUFF_SIZE_OUTPUT2[ISIZE] field.\n"); if (npi_int_sum.s.po1_2sml) PRINT_ERROR("NPI_INT_SUM[PO1_2SML]: The packet being sent out on Port1 is smaller\n" " than the NPI_BUFF_SIZE_OUTPUT1[ISIZE] field.\n"); if (npi_int_sum.s.po0_2sml) PRINT_ERROR("NPI_INT_SUM[PO0_2SML]: The packet being sent out on Port0 is smaller\n" " than the NPI_BUFF_SIZE_OUTPUT0[ISIZE] field.\n"); if (npi_int_sum.s.pci_rsl) { #if 0 PRINT_ERROR("NPI_INT_SUM[PCI_RSL]: This '1' when a bit in PCI_INT_SUM2 is SET and the\n" " corresponding bit in the PCI_INT_ENB2 is SET.\n"); #endif __cvmx_interrupt_pci_int_sum2_decode(); } if (npi_int_sum.s.rml_wto) PRINT_ERROR("NPI_INT_SUM[RML_WTO]: Set '1' when the RML does not receive a commit\n" " back from a RSL after sending a write command to\n" " a RSL.\n"); if (npi_int_sum.s.rml_rto) PRINT_ERROR("NPI_INT_SUM[RML_RTO]: Set '1' when the RML does not receive read data\n" " back from a RSL after sending a read command to\n" " a RSL.\n"); } /** * __cvmx_interrupt_pci_int_enb2_enable enables all interrupt bits in cvmx_pci_int_enb2_t */ void __cvmx_interrupt_pci_int_enb2_enable(void) { cvmx_pci_int_enb2_t pci_int_enb2; cvmx_write_csr(CVMX_NPI_PCI_INT_SUM2, cvmx_read_csr(CVMX_NPI_PCI_INT_SUM2)); pci_int_enb2.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping pci_int_enb2.s.reserved_34_63 pci_int_enb2.s.ill_rd = 1; pci_int_enb2.s.ill_wr = 1; pci_int_enb2.s.win_wr = 1; // pci_int_enb2.s.dma1_fi = 1; // Not an error condition // pci_int_enb2.s.dma0_fi = 1; // Not an error condition // pci_int_enb2.s.rdtime1 = 1; // Not an error condition // pci_int_enb2.s.rdtime0 = 1; // Not an error condition // pci_int_enb2.s.rdcnt1 = 1; // Not an error condition // pci_int_enb2.s.rdcnt0 = 1; // Not an error condition // Skipping pci_int_enb2.s.reserved_22_24 // pci_int_enb2.s.rptime0 = 1; // Not an error condition // Skipping pci_int_enb2.s.reserved_18_20 // pci_int_enb2.s.rpcnt0 = 1; // Not an error condition // pci_int_enb2.s.rrsl_int = 1; // Not an error condition pci_int_enb2.s.ill_rrd = 1; pci_int_enb2.s.ill_rwr = 1; pci_int_enb2.s.rdperr = 1; pci_int_enb2.s.raperr = 1; pci_int_enb2.s.rserr = 1; pci_int_enb2.s.rtsr_abt = 1; pci_int_enb2.s.rmsc_msg = 1; pci_int_enb2.s.rmsi_mabt = 1; pci_int_enb2.s.rmsi_tabt = 1; pci_int_enb2.s.rmsi_per = 1; pci_int_enb2.s.rmr_tto = 1; pci_int_enb2.s.rmr_abt = 1; pci_int_enb2.s.rtr_abt = 1; pci_int_enb2.s.rmr_wtto = 1; pci_int_enb2.s.rmr_wabt = 1; pci_int_enb2.s.rtr_wabt = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping pci_int_enb2.s.reserved_34_63 pci_int_enb2.s.ill_rd = 1; pci_int_enb2.s.ill_wr = 1; pci_int_enb2.s.win_wr = 1; // pci_int_enb2.s.dma1_fi = 1; // Not an error condition // pci_int_enb2.s.dma0_fi = 1; // Not an error condition // pci_int_enb2.s.rdtime1 = 1; // Not an error condition // pci_int_enb2.s.rdtime0 = 1; // Not an error condition // pci_int_enb2.s.rdcnt1 = 1; // Not an error condition // pci_int_enb2.s.rdcnt0 = 1; // Not an error condition // Skipping pci_int_enb2.s.reserved_23_24 // pci_int_enb2.s.rptime1 = 1; // Not an error condition // pci_int_enb2.s.rptime0 = 1; // Not an error condition // Skipping pci_int_enb2.s.reserved_19_20 // pci_int_enb2.s.rpcnt1 = 1; // Not an error condition // pci_int_enb2.s.rpcnt0 = 1; // Not an error condition // pci_int_enb2.s.rrsl_int = 1; // Not an error condition pci_int_enb2.s.ill_rrd = 1; pci_int_enb2.s.ill_rwr = 1; pci_int_enb2.s.rdperr = 1; pci_int_enb2.s.raperr = 1; pci_int_enb2.s.rserr = 1; pci_int_enb2.s.rtsr_abt = 1; pci_int_enb2.s.rmsc_msg = 1; pci_int_enb2.s.rmsi_mabt = 1; pci_int_enb2.s.rmsi_tabt = 1; pci_int_enb2.s.rmsi_per = 1; pci_int_enb2.s.rmr_tto = 1; pci_int_enb2.s.rmr_abt = 1; pci_int_enb2.s.rtr_abt = 1; pci_int_enb2.s.rmr_wtto = 1; pci_int_enb2.s.rmr_wabt = 1; pci_int_enb2.s.rtr_wabt = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping pci_int_enb2.s.reserved_34_63 pci_int_enb2.s.ill_rd = 1; pci_int_enb2.s.ill_wr = 1; pci_int_enb2.s.win_wr = 1; // pci_int_enb2.s.dma1_fi = 1; // Not an error condition // pci_int_enb2.s.dma0_fi = 1; // Not an error condition // pci_int_enb2.s.rdtime1 = 1; // Not an error condition // pci_int_enb2.s.rdtime0 = 1; // Not an error condition // pci_int_enb2.s.rdcnt1 = 1; // Not an error condition // pci_int_enb2.s.rdcnt0 = 1; // Not an error condition // pci_int_enb2.s.rptime3 = 1; // Not an error condition // pci_int_enb2.s.rptime2 = 1; // Not an error condition // pci_int_enb2.s.rptime1 = 1; // Not an error condition // pci_int_enb2.s.rptime0 = 1; // Not an error condition // pci_int_enb2.s.rpcnt3 = 1; // Not an error condition // pci_int_enb2.s.rpcnt2 = 1; // Not an error condition // pci_int_enb2.s.rpcnt1 = 1; // Not an error condition // pci_int_enb2.s.rpcnt0 = 1; // Not an error condition // pci_int_enb2.s.rrsl_int = 1; // Not an error condition pci_int_enb2.s.ill_rrd = 1; pci_int_enb2.s.ill_rwr = 1; pci_int_enb2.s.rdperr = 1; pci_int_enb2.s.raperr = 1; pci_int_enb2.s.rserr = 1; pci_int_enb2.s.rtsr_abt = 1; pci_int_enb2.s.rmsc_msg = 1; pci_int_enb2.s.rmsi_mabt = 1; pci_int_enb2.s.rmsi_tabt = 1; pci_int_enb2.s.rmsi_per = 1; pci_int_enb2.s.rmr_tto = 1; pci_int_enb2.s.rmr_abt = 1; pci_int_enb2.s.rtr_abt = 1; pci_int_enb2.s.rmr_wtto = 1; pci_int_enb2.s.rmr_wabt = 1; pci_int_enb2.s.rtr_wabt = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping pci_int_enb2.s.reserved_34_63 pci_int_enb2.s.ill_rd = 1; pci_int_enb2.s.ill_wr = 1; pci_int_enb2.s.win_wr = 1; // pci_int_enb2.s.dma1_fi = 1; // Not an error condition // pci_int_enb2.s.dma0_fi = 1; // Not an error condition // pci_int_enb2.s.rdtime1 = 1; // Not an error condition // pci_int_enb2.s.rdtime0 = 1; // Not an error condition // pci_int_enb2.s.rdcnt1 = 1; // Not an error condition // pci_int_enb2.s.rdcnt0 = 1; // Not an error condition // Skipping pci_int_enb2.s.reserved_23_24 // pci_int_enb2.s.rptime1 = 1; // Not an error condition // pci_int_enb2.s.rptime0 = 1; // Not an error condition // Skipping pci_int_enb2.s.reserved_19_20 // pci_int_enb2.s.rpcnt1 = 1; // Not an error condition // pci_int_enb2.s.rpcnt0 = 1; // Not an error condition // pci_int_enb2.s.rrsl_int = 1; // Not an error condition pci_int_enb2.s.ill_rrd = 1; pci_int_enb2.s.ill_rwr = 1; pci_int_enb2.s.rdperr = 1; pci_int_enb2.s.raperr = 1; pci_int_enb2.s.rserr = 1; pci_int_enb2.s.rtsr_abt = 1; pci_int_enb2.s.rmsc_msg = 1; pci_int_enb2.s.rmsi_mabt = 1; pci_int_enb2.s.rmsi_tabt = 1; pci_int_enb2.s.rmsi_per = 1; pci_int_enb2.s.rmr_tto = 1; pci_int_enb2.s.rmr_abt = 1; pci_int_enb2.s.rtr_abt = 1; pci_int_enb2.s.rmr_wtto = 1; pci_int_enb2.s.rmr_wabt = 1; pci_int_enb2.s.rtr_wabt = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping pci_int_enb2.s.reserved_34_63 pci_int_enb2.s.ill_rd = 1; pci_int_enb2.s.ill_wr = 1; pci_int_enb2.s.win_wr = 1; // pci_int_enb2.s.dma1_fi = 1; // Not an error condition // pci_int_enb2.s.dma0_fi = 1; // Not an error condition // pci_int_enb2.s.rdtime1 = 1; // Not an error condition // pci_int_enb2.s.rdtime0 = 1; // Not an error condition // pci_int_enb2.s.rdcnt1 = 1; // Not an error condition // pci_int_enb2.s.rdcnt0 = 1; // Not an error condition // pci_int_enb2.s.rptime3 = 1; // Not an error condition // pci_int_enb2.s.rptime2 = 1; // Not an error condition // pci_int_enb2.s.rptime1 = 1; // Not an error condition // pci_int_enb2.s.rptime0 = 1; // Not an error condition // pci_int_enb2.s.rpcnt3 = 1; // Not an error condition // pci_int_enb2.s.rpcnt2 = 1; // Not an error condition // pci_int_enb2.s.rpcnt1 = 1; // Not an error condition // pci_int_enb2.s.rpcnt0 = 1; // Not an error condition // pci_int_enb2.s.rrsl_int = 1; // Not an error condition pci_int_enb2.s.ill_rrd = 1; pci_int_enb2.s.ill_rwr = 1; pci_int_enb2.s.rdperr = 1; pci_int_enb2.s.raperr = 1; pci_int_enb2.s.rserr = 1; pci_int_enb2.s.rtsr_abt = 1; pci_int_enb2.s.rmsc_msg = 1; pci_int_enb2.s.rmsi_mabt = 1; pci_int_enb2.s.rmsi_tabt = 1; pci_int_enb2.s.rmsi_per = 1; pci_int_enb2.s.rmr_tto = 1; pci_int_enb2.s.rmr_abt = 1; pci_int_enb2.s.rtr_abt = 1; pci_int_enb2.s.rmr_wtto = 1; pci_int_enb2.s.rmr_wabt = 1; pci_int_enb2.s.rtr_wabt = 1; } cvmx_write_csr(CVMX_NPI_PCI_INT_ENB2, pci_int_enb2.u64); } /** * __cvmx_interrupt_pci_int_sum2_decode decodes all interrupt bits in cvmx_pci_int_sum2_t */ void __cvmx_interrupt_pci_int_sum2_decode(void) { cvmx_pci_int_sum2_t pci_int_sum2; pci_int_sum2.u64 = cvmx_read_csr(CVMX_NPI_PCI_INT_SUM2); pci_int_sum2.u64 &= cvmx_read_csr(CVMX_NPI_PCI_INT_ENB2); cvmx_write_csr(CVMX_NPI_PCI_INT_SUM2, pci_int_sum2.u64); // Skipping pci_int_sum2.s.reserved_34_63 if (pci_int_sum2.s.ill_rd) PRINT_ERROR("PCI_INT_SUM2[ILL_RD]: A read to a disabled area of bar1 or bar2,\n" " when the mem area is disabled.\n"); if (pci_int_sum2.s.ill_wr) PRINT_ERROR("PCI_INT_SUM2[ILL_WR]: A write to a disabled area of bar1 or bar2,\n" " when the mem area is disabled.\n"); if (pci_int_sum2.s.win_wr) PRINT_ERROR("PCI_INT_SUM2[WIN_WR]: A write to the disabled Window Write Data or\n" " Read-Address Register took place.\n"); if (pci_int_sum2.s.dma1_fi) PRINT_ERROR("PCI_INT_SUM2[DMA1_FI]: A DMA operation operation finished that was\n" " required to set the FORCE-INT bit for counter 1.\n"); if (pci_int_sum2.s.dma0_fi) PRINT_ERROR("PCI_INT_SUM2[DMA0_FI]: A DMA operation operation finished that was\n" " required to set the FORCE-INT bit for counter 0.\n"); if (pci_int_sum2.s.dtime1) PRINT_ERROR("PCI_INT_SUM2[DTIME1]: When the value in the PCI_DMA_CNT1\n" " register is not 0 the DMA_CNT1 timer counts.\n" " When the DMA1_CNT timer has a value greater\n" " than the PCI_DMA_TIME1 register this\n" " bit is set. The timer is reset when bit is\n" " written with a one.\n"); if (pci_int_sum2.s.dtime0) PRINT_ERROR("PCI_INT_SUM2[DTIME0]: When the value in the PCI_DMA_CNT0\n" " register is not 0 the DMA_CNT0 timer counts.\n" " When the DMA0_CNT timer has a value greater\n" " than the PCI_DMA_TIME0 register this\n" " bit is set. The timer is reset when bit is\n" " written with a one.\n"); if (pci_int_sum2.s.dcnt1) PRINT_ERROR("PCI_INT_SUM2[DCNT1]: This bit indicates that PCI_DMA_CNT1\n" " value is greater than the value\n" " in the PCI_DMA_INT_LEV1 register.\n"); if (pci_int_sum2.s.dcnt0) PRINT_ERROR("PCI_INT_SUM2[DCNT0]: This bit indicates that PCI_DMA_CNT0\n" " value is greater than the value\n" " in the PCI_DMA_INT_LEV0 register.\n"); if (pci_int_sum2.s.ptime3) PRINT_ERROR("PCI_INT_SUM2[PTIME3]: When the value in the PCI_PKTS_SENT3\n" " register is not 0 the Sent-3 timer counts.\n" " When the Sent-3 timer has a value greater\n" " than the PCI_PKTS_SENT_TIME3 register this\n" " bit is set. The timer is reset when bit is\n" " written with a one.\n"); if (pci_int_sum2.s.ptime2) PRINT_ERROR("PCI_INT_SUM2[PTIME2]: When the value in the PCI_PKTS_SENT2\n" " register is not 0 the Sent-2 timer counts.\n" " When the Sent-2 timer has a value greater\n" " than the PCI_PKTS_SENT_TIME2 register this\n" " bit is set. The timer is reset when bit is\n" " written with a one.\n"); if (pci_int_sum2.s.ptime1) PRINT_ERROR("PCI_INT_SUM2[PTIME1]: When the value in the PCI_PKTS_SENT1\n" " register is not 0 the Sent-1 timer counts.\n" " When the Sent-1 timer has a value greater\n" " than the PCI_PKTS_SENT_TIME1 register this\n" " bit is set. The timer is reset when bit is\n" " written with a one.\n"); if (pci_int_sum2.s.ptime0) PRINT_ERROR("PCI_INT_SUM2[PTIME0]: When the value in the PCI_PKTS_SENT0\n" " register is not 0 the Sent-0 timer counts.\n" " When the Sent-0 timer has a value greater\n" " than the PCI_PKTS_SENT_TIME0 register this\n" " bit is set. The timer is reset when bit is\n" " written with a one.\n"); if (pci_int_sum2.s.pcnt3) PRINT_ERROR("PCI_INT_SUM2[PCNT3]: This bit indicates that PCI_PKTS_SENT3\n" " value is greater than the value\n" " in the PCI_PKTS_SENT_INT_LEV3 register.\n"); if (pci_int_sum2.s.pcnt2) PRINT_ERROR("PCI_INT_SUM2[PCNT2]: This bit indicates that PCI_PKTS_SENT2\n" " value is greater than the value\n" " in the PCI_PKTS_SENT_INT_LEV2 register.\n"); if (pci_int_sum2.s.pcnt1) PRINT_ERROR("PCI_INT_SUM2[PCNT1]: This bit indicates that PCI_PKTS_SENT1\n" " value is greater than the value\n" " in the PCI_PKTS_SENT_INT_LEV1 register.\n"); if (pci_int_sum2.s.pcnt0) PRINT_ERROR("PCI_INT_SUM2[PCNT0]: This bit indicates that PCI_PKTS_SENT0\n" " value is greater than the value\n" " in the PCI_PKTS_SENT_INT_LEV0 register.\n"); if (pci_int_sum2.s.rsl_int) PRINT_ERROR("PCI_INT_SUM2[RSL_INT]: This bit is set when the RSL Chain has\n" " generated an interrupt.\n"); if (pci_int_sum2.s.ill_rrd) PRINT_ERROR("PCI_INT_SUM2[ILL_RRD]: A read to the disabled PCI registers took place.\n"); if (pci_int_sum2.s.ill_rwr) PRINT_ERROR("PCI_INT_SUM2[ILL_RWR]: A write to the disabled PCI registers took place.\n"); if (pci_int_sum2.s.dperr) PRINT_ERROR("PCI_INT_SUM2[DPERR]: Data Parity Error detected by PCX Core\n"); if (pci_int_sum2.s.aperr) PRINT_ERROR("PCI_INT_SUM2[APERR]: Address Parity Error detected by PCX Core\n"); if (pci_int_sum2.s.serr) PRINT_ERROR("PCI_INT_SUM2[SERR]: SERR# detected by PCX Core\n"); if (pci_int_sum2.s.tsr_abt) PRINT_ERROR("PCI_INT_SUM2[TSR_ABT]: Target Split-Read Abort Detected\n"); if (pci_int_sum2.s.msc_msg) PRINT_ERROR("PCI_INT_SUM2[MSC_MSG]: Master Split Completion Message Detected\n"); if (pci_int_sum2.s.msi_mabt) PRINT_ERROR("PCI_INT_SUM2[MSI_MABT]: PCI MSI Master Abort.\n"); if (pci_int_sum2.s.msi_tabt) PRINT_ERROR("PCI_INT_SUM2[MSI_TABT]: PCI MSI Target Abort.\n"); if (pci_int_sum2.s.msi_per) PRINT_ERROR("PCI_INT_SUM2[MSI_PER]: PCI MSI Parity Error.\n"); if (pci_int_sum2.s.mr_tto) PRINT_ERROR("PCI_INT_SUM2[MR_TTO]: PCI Master Retry Timeout On Read.\n"); if (pci_int_sum2.s.mr_abt) PRINT_ERROR("PCI_INT_SUM2[MR_ABT]: PCI Master Abort On Read.\n"); if (pci_int_sum2.s.tr_abt) PRINT_ERROR("PCI_INT_SUM2[TR_ABT]: PCI Target Abort On Read.\n"); if (pci_int_sum2.s.mr_wtto) PRINT_ERROR("PCI_INT_SUM2[MR_WTTO]: PCI Master Retry Timeout on write.\n"); if (pci_int_sum2.s.mr_wabt) PRINT_ERROR("PCI_INT_SUM2[MR_WABT]: PCI Master Abort detected on write.\n"); if (pci_int_sum2.s.tr_wabt) PRINT_ERROR("PCI_INT_SUM2[TR_WABT]: PCI Target Abort detected on write.\n"); } /** * __cvmx_interrupt_pcsx_intx_en_reg_enable enables all interrupt bits in cvmx_pcsx_intx_en_reg_t */ void __cvmx_interrupt_pcsx_intx_en_reg_enable(int index, int block) { cvmx_pcsx_intx_en_reg_t pcs_int_en_reg; cvmx_write_csr(CVMX_PCSX_INTX_REG(index, block), cvmx_read_csr(CVMX_PCSX_INTX_REG(index, block))); pcs_int_en_reg.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping pcs_int_en_reg.s.reserved_12_63 //pcs_int_en_reg.s.dup = 1; // This happens during normal operation pcs_int_en_reg.s.sync_bad_en = 1; pcs_int_en_reg.s.an_bad_en = 1; pcs_int_en_reg.s.rxlock_en = 1; pcs_int_en_reg.s.rxbad_en = 1; //pcs_int_en_reg.s.rxerr_en = 1; // This happens during normal operation pcs_int_en_reg.s.txbad_en = 1; pcs_int_en_reg.s.txfifo_en = 1; pcs_int_en_reg.s.txfifu_en = 1; pcs_int_en_reg.s.an_err_en = 1; //pcs_int_en_reg.s.xmit_en = 1; // This happens during normal operation //pcs_int_en_reg.s.lnkspd_en = 1; // This happens during normal operation } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping pcs_int_en_reg.s.reserved_12_63 //pcs_int_en_reg.s.dup = 1; // This happens during normal operation pcs_int_en_reg.s.sync_bad_en = 1; pcs_int_en_reg.s.an_bad_en = 1; pcs_int_en_reg.s.rxlock_en = 1; pcs_int_en_reg.s.rxbad_en = 1; //pcs_int_en_reg.s.rxerr_en = 1; // This happens during normal operation pcs_int_en_reg.s.txbad_en = 1; pcs_int_en_reg.s.txfifo_en = 1; pcs_int_en_reg.s.txfifu_en = 1; pcs_int_en_reg.s.an_err_en = 1; //pcs_int_en_reg.s.xmit_en = 1; // This happens during normal operation //pcs_int_en_reg.s.lnkspd_en = 1; // This happens during normal operation } cvmx_write_csr(CVMX_PCSX_INTX_EN_REG(index, block), pcs_int_en_reg.u64); } /** * __cvmx_interrupt_pcsx_intx_reg_decode decodes all interrupt bits in cvmx_pcsx_intx_reg_t */ void __cvmx_interrupt_pcsx_intx_reg_decode(int index, int block) { cvmx_pcsx_intx_reg_t pcs_int_reg; pcs_int_reg.u64 = cvmx_read_csr(CVMX_PCSX_INTX_REG(index, block)); pcs_int_reg.u64 &= cvmx_read_csr(CVMX_PCSX_INTX_EN_REG(index, block)); cvmx_write_csr(CVMX_PCSX_INTX_REG(index, block), pcs_int_reg.u64); // Skipping pcs_int_reg.s.reserved_12_63 if (pcs_int_reg.s.dup) PRINT_ERROR("PCS%d_INT%d_REG[DUP]: Set whenever Duplex mode changes on the link\n", block, index); if (pcs_int_reg.s.sync_bad) PRINT_ERROR("PCS%d_INT%d_REG[SYNC_BAD]: Set by HW whenever rx sync st machine reaches a bad\n" " state. Should never be set during normal operation\n", block, index); if (pcs_int_reg.s.an_bad) PRINT_ERROR("PCS%d_INT%d_REG[AN_BAD]: Set by HW whenever AN st machine reaches a bad\n" " state. Should never be set during normal operation\n", block, index); if (pcs_int_reg.s.rxlock) PRINT_ERROR("PCS%d_INT%d_REG[RXLOCK]: Set by HW whenever code group Sync or bit lock\n" " failure occurs\n" " Cannot fire in loopback1 mode\n", block, index); if (pcs_int_reg.s.rxbad) PRINT_ERROR("PCS%d_INT%d_REG[RXBAD]: Set by HW whenever rx st machine reaches a bad\n" " state. Should never be set during normal operation\n", block, index); if (pcs_int_reg.s.rxerr) PRINT_ERROR("PCS%d_INT%d_REG[RXERR]: Set whenever RX receives a code group error in\n" " 10 bit to 8 bit decode logic\n" " Cannot fire in loopback1 mode\n", block, index); if (pcs_int_reg.s.txbad) PRINT_ERROR("PCS%d_INT%d_REG[TXBAD]: Set by HW whenever tx st machine reaches a bad\n" " state. Should never be set during normal operation\n", block, index); if (pcs_int_reg.s.txfifo) PRINT_ERROR("PCS%d_INT%d_REG[TXFIFO]: Set whenever HW detects a TX fifo overflow\n" " condition\n", block, index); if (pcs_int_reg.s.txfifu) PRINT_ERROR("PCS%d_INT%d_REG[TXFIFU]: Set whenever HW detects a TX fifo underflowflow\n" " condition\n", block, index); if (pcs_int_reg.s.an_err) PRINT_ERROR("PCS%d_INT%d_REG[AN_ERR]: AN Error, AN resolution function failed\n", block, index); if (pcs_int_reg.s.xmit) PRINT_ERROR("PCS%d_INT%d_REG[XMIT]: Set whenever HW detects a change in the XMIT\n" " variable. XMIT variable states are IDLE, CONFIG and\n" " DATA\n", block, index); if (pcs_int_reg.s.lnkspd) PRINT_ERROR("PCS%d_INT%d_REG[LNKSPD]: Set by HW whenever Link Speed has changed\n", block, index); } /** * __cvmx_interrupt_pcsxx_int_en_reg_enable enables all interrupt bits in cvmx_pcsxx_int_en_reg_t */ void __cvmx_interrupt_pcsxx_int_en_reg_enable(int index) { cvmx_pcsxx_int_en_reg_t pcsx_int_en_reg; cvmx_write_csr(CVMX_PCSXX_INT_REG(index), cvmx_read_csr(CVMX_PCSXX_INT_REG(index))); pcsx_int_en_reg.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping pcsx_int_en_reg.s.reserved_6_63 pcsx_int_en_reg.s.algnlos_en = 1; pcsx_int_en_reg.s.synlos_en = 1; pcsx_int_en_reg.s.bitlckls_en = 1; pcsx_int_en_reg.s.rxsynbad_en = 1; pcsx_int_en_reg.s.rxbad_en = 1; pcsx_int_en_reg.s.txflt_en = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping pcsx_int_en_reg.s.reserved_6_63 pcsx_int_en_reg.s.algnlos_en = 1; pcsx_int_en_reg.s.synlos_en = 1; pcsx_int_en_reg.s.bitlckls_en = 0; // Happens if XAUI module is not installed pcsx_int_en_reg.s.rxsynbad_en = 1; pcsx_int_en_reg.s.rxbad_en = 1; pcsx_int_en_reg.s.txflt_en = 1; } cvmx_write_csr(CVMX_PCSXX_INT_EN_REG(index), pcsx_int_en_reg.u64); } /** * __cvmx_interrupt_pcsxx_int_reg_decode decodes all interrupt bits in cvmx_pcsxx_int_reg_t */ void __cvmx_interrupt_pcsxx_int_reg_decode(int index) { cvmx_pcsxx_int_reg_t pcsx_int_reg; pcsx_int_reg.u64 = cvmx_read_csr(CVMX_PCSXX_INT_REG(index)); pcsx_int_reg.u64 &= cvmx_read_csr(CVMX_PCSXX_INT_EN_REG(index)); cvmx_write_csr(CVMX_PCSXX_INT_REG(index), pcsx_int_reg.u64); // Skipping pcsx_int_reg.s.reserved_6_63 if (pcsx_int_reg.s.algnlos) PRINT_ERROR("PCSX%d_INT_REG[ALGNLOS]: Set when XAUI lanes lose alignment\n", index); if (pcsx_int_reg.s.synlos) PRINT_ERROR("PCSX%d_INT_REG[SYNLOS]: Set when Code group sync lost on 1 or more lanes\n", index); if (pcsx_int_reg.s.bitlckls) PRINT_ERROR("PCSX%d_INT_REG[BITLCKLS]: Set when Bit lock lost on 1 or more xaui lanes\n", index); if (pcsx_int_reg.s.rxsynbad) PRINT_ERROR("PCSX%d_INT_REG[RXSYNBAD]: Set when RX code grp sync st machine in bad state\n" " in one of the 4 xaui lanes\n", index); if (pcsx_int_reg.s.rxbad) PRINT_ERROR("PCSX%d_INT_REG[RXBAD]: Set when RX state machine in bad state\n", index); if (pcsx_int_reg.s.txflt) PRINT_ERROR("PCSX%d_INT_REG[TXFLT]: None defined at this time, always 0x0\n", index); } /** * __cvmx_interrupt_pescx_dbg_info_en_enable enables all interrupt bits in cvmx_pescx_dbg_info_en_t */ void __cvmx_interrupt_pescx_dbg_info_en_enable(int index) { cvmx_pescx_dbg_info_en_t pesc_dbg_info_en; cvmx_write_csr(CVMX_PESCX_DBG_INFO(index), cvmx_read_csr(CVMX_PESCX_DBG_INFO(index))); pesc_dbg_info_en.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping pesc_dbg_info_en.s.reserved_31_63 pesc_dbg_info_en.s.ecrc_e = 1; pesc_dbg_info_en.s.rawwpp = 1; pesc_dbg_info_en.s.racpp = 1; pesc_dbg_info_en.s.ramtlp = 1; pesc_dbg_info_en.s.rarwdns = 1; pesc_dbg_info_en.s.caar = 1; pesc_dbg_info_en.s.racca = 1; pesc_dbg_info_en.s.racur = 1; pesc_dbg_info_en.s.rauc = 1; pesc_dbg_info_en.s.rqo = 1; pesc_dbg_info_en.s.fcuv = 1; pesc_dbg_info_en.s.rpe = 1; pesc_dbg_info_en.s.fcpvwt = 1; pesc_dbg_info_en.s.dpeoosd = 1; pesc_dbg_info_en.s.rtwdle = 1; pesc_dbg_info_en.s.rdwdle = 1; pesc_dbg_info_en.s.mre = 1; pesc_dbg_info_en.s.rte = 1; pesc_dbg_info_en.s.acto = 1; pesc_dbg_info_en.s.rvdm = 1; pesc_dbg_info_en.s.rumep = 1; pesc_dbg_info_en.s.rptamrc = 1; pesc_dbg_info_en.s.rpmerc = 1; pesc_dbg_info_en.s.rfemrc = 1; pesc_dbg_info_en.s.rnfemrc = 1; pesc_dbg_info_en.s.rcemrc = 1; pesc_dbg_info_en.s.rpoison = 1; pesc_dbg_info_en.s.recrce = 1; pesc_dbg_info_en.s.rtlplle = 1; #if 0 /* RTLPMAL is disabled since it will be generated under normal conditions, like devices causing legacy PCI interrupts */ pesc_dbg_info_en.s.rtlpmal = 1; #endif pesc_dbg_info_en.s.spoison = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping pesc_dbg_info_en.s.reserved_31_63 pesc_dbg_info_en.s.ecrc_e = 1; pesc_dbg_info_en.s.rawwpp = 1; pesc_dbg_info_en.s.racpp = 1; pesc_dbg_info_en.s.ramtlp = 1; pesc_dbg_info_en.s.rarwdns = 1; pesc_dbg_info_en.s.caar = 1; pesc_dbg_info_en.s.racca = 1; pesc_dbg_info_en.s.racur = 1; pesc_dbg_info_en.s.rauc = 1; pesc_dbg_info_en.s.rqo = 1; pesc_dbg_info_en.s.fcuv = 1; pesc_dbg_info_en.s.rpe = 1; pesc_dbg_info_en.s.fcpvwt = 1; pesc_dbg_info_en.s.dpeoosd = 1; pesc_dbg_info_en.s.rtwdle = 1; pesc_dbg_info_en.s.rdwdle = 1; pesc_dbg_info_en.s.mre = 1; pesc_dbg_info_en.s.rte = 1; pesc_dbg_info_en.s.acto = 1; pesc_dbg_info_en.s.rvdm = 1; pesc_dbg_info_en.s.rumep = 1; pesc_dbg_info_en.s.rptamrc = 1; pesc_dbg_info_en.s.rpmerc = 1; pesc_dbg_info_en.s.rfemrc = 1; pesc_dbg_info_en.s.rnfemrc = 1; pesc_dbg_info_en.s.rcemrc = 1; pesc_dbg_info_en.s.rpoison = 1; pesc_dbg_info_en.s.recrce = 1; pesc_dbg_info_en.s.rtlplle = 1; #if 0 /* RTLPMAL is disabled since it will be generated under normal conditions, like devices causing legacy PCI interrupts */ pesc_dbg_info_en.s.rtlpmal = 1; #endif pesc_dbg_info_en.s.spoison = 1; } cvmx_write_csr(CVMX_PESCX_DBG_INFO_EN(index), pesc_dbg_info_en.u64); } /** * __cvmx_interrupt_pescx_dbg_info_decode decodes all interrupt bits in cvmx_pescx_dbg_info_t */ void __cvmx_interrupt_pescx_dbg_info_decode(int index) { cvmx_pescx_dbg_info_t pesc_dbg_info; pesc_dbg_info.u64 = cvmx_read_csr(CVMX_PESCX_DBG_INFO(index)); pesc_dbg_info.u64 &= cvmx_read_csr(CVMX_PESCX_DBG_INFO_EN(index)); cvmx_write_csr(CVMX_PESCX_DBG_INFO(index), pesc_dbg_info.u64); // Skipping pesc_dbg_info.s.reserved_31_63 if (pesc_dbg_info.s.ecrc_e) PRINT_ERROR("PESC%d_DBG_INFO[ECRC_E]: Received a ECRC error.\n" " radm_ecrc_err\n", index); if (pesc_dbg_info.s.rawwpp) PRINT_ERROR("PESC%d_DBG_INFO[RAWWPP]: Received a write with poisoned payload\n" " radm_rcvd_wreq_poisoned\n", index); if (pesc_dbg_info.s.racpp) PRINT_ERROR("PESC%d_DBG_INFO[RACPP]: Received a completion with poisoned payload\n" " radm_rcvd_cpl_poisoned\n", index); if (pesc_dbg_info.s.ramtlp) PRINT_ERROR("PESC%d_DBG_INFO[RAMTLP]: Received a malformed TLP\n" " radm_mlf_tlp_err\n", index); if (pesc_dbg_info.s.rarwdns) PRINT_ERROR("PESC%d_DBG_INFO[RARWDNS]: Recieved a request which device does not support\n" " radm_rcvd_ur_req\n", index); if (pesc_dbg_info.s.caar) PRINT_ERROR("PESC%d_DBG_INFO[CAAR]: Completer aborted a request\n" " radm_rcvd_ca_req\n" " This bit will never be set because Octeon does\n" " not generate Completer Aborts.\n", index); if (pesc_dbg_info.s.racca) PRINT_ERROR("PESC%d_DBG_INFO[RACCA]: Received a completion with CA status\n" " radm_rcvd_cpl_ca\n", index); if (pesc_dbg_info.s.racur) PRINT_ERROR("PESC%d_DBG_INFO[RACUR]: Received a completion with UR status\n" " radm_rcvd_cpl_ur\n", index); if (pesc_dbg_info.s.rauc) PRINT_ERROR("PESC%d_DBG_INFO[RAUC]: Received an unexpected completion\n" " radm_unexp_cpl_err\n", index); if (pesc_dbg_info.s.rqo) PRINT_ERROR("PESC%d_DBG_INFO[RQO]: Receive queue overflow. Normally happens only when\n" " flow control advertisements are ignored\n" " radm_qoverflow\n", index); if (pesc_dbg_info.s.fcuv) PRINT_ERROR("PESC%d_DBG_INFO[FCUV]: Flow Control Update Violation (opt. checks)\n" " int_xadm_fc_prot_err\n", index); if (pesc_dbg_info.s.rpe) PRINT_ERROR("PESC%d_DBG_INFO[RPE]: When the PHY reports 8B/10B decode error\n" " (RxStatus = 3b100) or disparity error\n" " (RxStatus = 3b111), the signal rmlh_rcvd_err will\n" " be asserted.\n" " rmlh_rcvd_err\n", index); if (pesc_dbg_info.s.fcpvwt) PRINT_ERROR("PESC%d_DBG_INFO[FCPVWT]: Flow Control Protocol Violation (Watchdog Timer)\n" " rtlh_fc_prot_err\n", index); if (pesc_dbg_info.s.dpeoosd) PRINT_ERROR("PESC%d_DBG_INFO[DPEOOSD]: DLLP protocol error (out of sequence DLLP)\n" " rdlh_prot_err\n", index); if (pesc_dbg_info.s.rtwdle) PRINT_ERROR("PESC%d_DBG_INFO[RTWDLE]: Received TLP with DataLink Layer Error\n" " rdlh_bad_tlp_err\n", index); if (pesc_dbg_info.s.rdwdle) PRINT_ERROR("PESC%d_DBG_INFO[RDWDLE]: Received DLLP with DataLink Layer Error\n" " rdlh_bad_dllp_err\n", index); if (pesc_dbg_info.s.mre) PRINT_ERROR("PESC%d_DBG_INFO[MRE]: Max Retries Exceeded\n" " xdlh_replay_num_rlover_err\n", index); if (pesc_dbg_info.s.rte) PRINT_ERROR("PESC%d_DBG_INFO[RTE]: Replay Timer Expired\n" " xdlh_replay_timeout_err\n" " This bit is set when the REPLAY_TIMER expires in\n" " the PCIE core. The probability of this bit being\n" " set will increase with the traffic load.\n", index); if (pesc_dbg_info.s.acto) PRINT_ERROR("PESC%d_DBG_INFO[ACTO]: A Completion Timeout Occured\n" " pedc_radm_cpl_timeout\n", index); if (pesc_dbg_info.s.rvdm) PRINT_ERROR("PESC%d_DBG_INFO[RVDM]: Received Vendor-Defined Message\n" " pedc_radm_vendor_msg\n", index); if (pesc_dbg_info.s.rumep) PRINT_ERROR("PESC%d_DBG_INFO[RUMEP]: Received Unlock Message (EP Mode Only)\n" " pedc_radm_msg_unlock\n", index); if (pesc_dbg_info.s.rptamrc) PRINT_ERROR("PESC%d_DBG_INFO[RPTAMRC]: Received PME Turnoff Acknowledge Message\n" " (RC Mode only)\n" " pedc_radm_pm_to_ack\n", index); if (pesc_dbg_info.s.rpmerc) PRINT_ERROR("PESC%d_DBG_INFO[RPMERC]: Received PME Message (RC Mode only)\n" " pedc_radm_pm_pme\n", index); if (pesc_dbg_info.s.rfemrc) PRINT_ERROR("PESC%d_DBG_INFO[RFEMRC]: Received Fatal Error Message (RC Mode only)\n" " pedc_radm_fatal_err\n" " Bit set when a message with ERR_FATAL is set.\n", index); if (pesc_dbg_info.s.rnfemrc) PRINT_ERROR("PESC%d_DBG_INFO[RNFEMRC]: Received Non-Fatal Error Message (RC Mode only)\n" " pedc_radm_nonfatal_err\n", index); if (pesc_dbg_info.s.rcemrc) PRINT_ERROR("PESC%d_DBG_INFO[RCEMRC]: Received Correctable Error Message (RC Mode only)\n" " pedc_radm_correctable_err\n", index); if (pesc_dbg_info.s.rpoison) PRINT_ERROR("PESC%d_DBG_INFO[RPOISON]: Received Poisoned TLP\n" " pedc__radm_trgt1_poisoned & pedc__radm_trgt1_hv\n", index); if (pesc_dbg_info.s.recrce) PRINT_ERROR("PESC%d_DBG_INFO[RECRCE]: Received ECRC Error\n" " pedc_radm_trgt1_ecrc_err & pedc__radm_trgt1_eot\n", index); if (pesc_dbg_info.s.rtlplle) PRINT_ERROR("PESC%d_DBG_INFO[RTLPLLE]: Received TLP has link layer error\n" " pedc_radm_trgt1_dllp_abort & pedc__radm_trgt1_eot\n", index); if (pesc_dbg_info.s.rtlpmal) PRINT_ERROR("PESC%d_DBG_INFO[RTLPMAL]: Received TLP is malformed or a message.\n" " pedc_radm_trgt1_tlp_abort & pedc__radm_trgt1_eot\n" " If the core receives a MSG (or Vendor Message)\n" " this bit will be set.\n", index); if (pesc_dbg_info.s.spoison) PRINT_ERROR("PESC%d_DBG_INFO[SPOISON]: Poisoned TLP sent\n" " peai__client0_tlp_ep & peai__client0_tlp_hv\n", index); } /** * __cvmx_interrupt_pip_int_en_enable enables all interrupt bits in cvmx_pip_int_en_t */ void __cvmx_interrupt_pip_int_en_enable(void) { cvmx_pip_int_en_t pip_int_en; cvmx_write_csr(CVMX_PIP_INT_REG, cvmx_read_csr(CVMX_PIP_INT_REG)); pip_int_en.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping pip_int_en.s.reserved_13_63 pip_int_en.s.punyerr = 1; //pip_int_en.s.lenerr = 1; // Signalled in packet WQE //pip_int_en.s.maxerr = 1; // Signalled in packet WQE //pip_int_en.s.minerr = 1; // Signalled in packet WQE pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care //pip_int_en.s.crcerr = 1; // Signalled in packet WQE //pip_int_en.s.pktdrp = 1; // Don't care } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping pip_int_en.s.reserved_9_63 pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care //pip_int_en.s.crcerr = 1; // Signalled in packet WQE //pip_int_en.s.pktdrp = 1; // Don't care } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping pip_int_en.s.reserved_12_63 //pip_int_en.s.lenerr = 1; // Signalled in packet WQE //pip_int_en.s.maxerr = 1; // Signalled in packet WQE //pip_int_en.s.minerr = 1; // Signalled in packet WQE pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care // Skipping pip_int_en.s.reserved_1_1 //pip_int_en.s.pktdrp = 1; // Don't care } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping pip_int_en.s.reserved_9_63 pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care //pip_int_en.s.crcerr = 1; // Signalled in packet WQE //pip_int_en.s.pktdrp = 1; // Don't care } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping pip_int_en.s.reserved_9_63 pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care //pip_int_en.s.crcerr = 1; // Signalled in packet WQE //pip_int_en.s.pktdrp = 1; // Don't care } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping pip_int_en.s.reserved_13_63 pip_int_en.s.punyerr = 1; // Skipping pip_int_en.s.reserved_9_11 pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care //pip_int_en.s.crcerr = 1; // Signalled in packet WQE //pip_int_en.s.pktdrp = 1; // Don't care } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping pip_int_en.s.reserved_13_63 pip_int_en.s.punyerr = 1; //pip_int_en.s.lenerr = 1; // Signalled in packet WQE //pip_int_en.s.maxerr = 1; // Signalled in packet WQE //pip_int_en.s.minerr = 1; // Signalled in packet WQE pip_int_en.s.beperr = 1; pip_int_en.s.feperr = 1; pip_int_en.s.todoovr = 1; pip_int_en.s.skprunt = 1; pip_int_en.s.badtag = 1; pip_int_en.s.prtnxa = 1; //pip_int_en.s.bckprs = 1; // Don't care // Skipping pip_int_en.s.reserved_1_1 //pip_int_en.s.pktdrp = 1; // Don't care } cvmx_write_csr(CVMX_PIP_INT_EN, pip_int_en.u64); } /** * __cvmx_interrupt_pip_int_reg_decode decodes all interrupt bits in cvmx_pip_int_reg_t */ void __cvmx_interrupt_pip_int_reg_decode(void) { cvmx_pip_int_reg_t pip_int_reg; pip_int_reg.u64 = cvmx_read_csr(CVMX_PIP_INT_REG); pip_int_reg.u64 &= cvmx_read_csr(CVMX_PIP_INT_EN); cvmx_write_csr(CVMX_PIP_INT_REG, pip_int_reg.u64); // Skipping pip_int_reg.s.reserved_13_63 if (pip_int_reg.s.punyerr) PRINT_ERROR("PIP_INT_REG[PUNYERR]: Frame was received with length <=4B when CRC\n" " stripping in IPD is enable\n"); if (pip_int_reg.s.lenerr) PRINT_ERROR("PIP_INT_REG[LENERR]: Frame was received with length error\n"); if (pip_int_reg.s.maxerr) PRINT_ERROR("PIP_INT_REG[MAXERR]: Frame was received with length > max_length\n"); if (pip_int_reg.s.minerr) PRINT_ERROR("PIP_INT_REG[MINERR]: Frame was received with length < min_length\n"); if (pip_int_reg.s.beperr) PRINT_ERROR("PIP_INT_REG[BEPERR]: Parity Error in back end memory\n"); if (pip_int_reg.s.feperr) PRINT_ERROR("PIP_INT_REG[FEPERR]: Parity Error in front end memory\n"); if (pip_int_reg.s.todoovr) PRINT_ERROR("PIP_INT_REG[TODOOVR]: Todo list overflow (see PIP_BCK_PRS[HIWATER])\n"); if (pip_int_reg.s.skprunt) PRINT_ERROR("PIP_INT_REG[SKPRUNT]: Packet was engulfed by skipper\n" " This interrupt can occur with received PARTIAL\n" " packets that are truncated to SKIP bytes or\n" " smaller.\n"); if (pip_int_reg.s.badtag) PRINT_ERROR("PIP_INT_REG[BADTAG]: A bad tag was sent from IPD\n"); if (pip_int_reg.s.prtnxa) PRINT_ERROR("PIP_INT_REG[PRTNXA]: Non-existent port\n"); if (pip_int_reg.s.bckprs) PRINT_ERROR("PIP_INT_REG[BCKPRS]: PIP asserted backpressure\n"); if (pip_int_reg.s.crcerr) PRINT_ERROR("PIP_INT_REG[CRCERR]: PIP calculated bad CRC\n"); if (pip_int_reg.s.pktdrp) PRINT_ERROR("PIP_INT_REG[PKTDRP]: Packet Dropped due to QOS\n"); } /** * __cvmx_interrupt_pko_reg_int_mask_enable enables all interrupt bits in cvmx_pko_reg_int_mask_t */ void __cvmx_interrupt_pko_reg_int_mask_enable(void) { cvmx_pko_reg_int_mask_t pko_reg_int_mask; cvmx_write_csr(CVMX_PKO_REG_ERROR, cvmx_read_csr(CVMX_PKO_REG_ERROR)); pko_reg_int_mask.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping pko_reg_int_mask.s.reserved_3_63 pko_reg_int_mask.s.currzero = 1; pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping pko_reg_int_mask.s.reserved_2_63 pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping pko_reg_int_mask.s.reserved_3_63 pko_reg_int_mask.s.currzero = 1; pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping pko_reg_int_mask.s.reserved_2_63 pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping pko_reg_int_mask.s.reserved_2_63 pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping pko_reg_int_mask.s.reserved_3_63 pko_reg_int_mask.s.currzero = 1; pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping pko_reg_int_mask.s.reserved_3_63 pko_reg_int_mask.s.currzero = 1; pko_reg_int_mask.s.doorbell = 1; pko_reg_int_mask.s.parity = 1; } cvmx_write_csr(CVMX_PKO_REG_INT_MASK, pko_reg_int_mask.u64); } /** * __cvmx_interrupt_pko_reg_error_decode decodes all interrupt bits in cvmx_pko_reg_error_t */ void __cvmx_interrupt_pko_reg_error_decode(void) { cvmx_pko_reg_error_t pko_reg_error; pko_reg_error.u64 = cvmx_read_csr(CVMX_PKO_REG_ERROR); pko_reg_error.u64 &= cvmx_read_csr(CVMX_PKO_REG_INT_MASK); cvmx_write_csr(CVMX_PKO_REG_ERROR, pko_reg_error.u64); // Skipping pko_reg_error.s.reserved_3_63 if (pko_reg_error.s.currzero) PRINT_ERROR("PKO_REG_ERROR[CURRZERO]: A packet data pointer has size=0\n"); if (pko_reg_error.s.doorbell) PRINT_ERROR("PKO_REG_ERROR[DOORBELL]: A doorbell count has overflowed\n"); if (pko_reg_error.s.parity) PRINT_ERROR("PKO_REG_ERROR[PARITY]: Read parity error at port data buffer\n"); } /** * __cvmx_interrupt_rad_reg_int_mask_enable enables all interrupt bits in cvmx_rad_reg_int_mask_t */ void __cvmx_interrupt_rad_reg_int_mask_enable(void) { cvmx_rad_reg_int_mask_t rad_reg_int_mask; cvmx_write_csr(CVMX_RAD_REG_ERROR, cvmx_read_csr(CVMX_RAD_REG_ERROR)); rad_reg_int_mask.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping rad_reg_int_mask.s.reserved_1_63 rad_reg_int_mask.s.doorbell = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping rad_reg_int_mask.s.reserved_1_63 rad_reg_int_mask.s.doorbell = 1; } cvmx_write_csr(CVMX_RAD_REG_INT_MASK, rad_reg_int_mask.u64); } /** * __cvmx_interrupt_rad_reg_error_decode decodes all interrupt bits in cvmx_rad_reg_error_t */ void __cvmx_interrupt_rad_reg_error_decode(void) { cvmx_rad_reg_error_t rad_reg_error; rad_reg_error.u64 = cvmx_read_csr(CVMX_RAD_REG_ERROR); rad_reg_error.u64 &= cvmx_read_csr(CVMX_RAD_REG_INT_MASK); cvmx_write_csr(CVMX_RAD_REG_ERROR, rad_reg_error.u64); // Skipping rad_reg_error.s.reserved_1_63 if (rad_reg_error.s.doorbell) PRINT_ERROR("RAD_REG_ERROR[DOORBELL]: A doorbell count has overflowed\n"); } /** * __cvmx_interrupt_spxx_int_msk_enable enables all interrupt bits in cvmx_spxx_int_msk_t */ void __cvmx_interrupt_spxx_int_msk_enable(int index) { cvmx_spxx_int_msk_t spx_int_msk; cvmx_write_csr(CVMX_SPXX_INT_REG(index), cvmx_read_csr(CVMX_SPXX_INT_REG(index))); spx_int_msk.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping spx_int_msk.s.reserved_12_63 spx_int_msk.s.calerr = 1; spx_int_msk.s.syncerr = 1; spx_int_msk.s.diperr = 1; spx_int_msk.s.tpaovr = 1; spx_int_msk.s.rsverr = 1; spx_int_msk.s.drwnng = 1; spx_int_msk.s.clserr = 1; spx_int_msk.s.spiovr = 1; // Skipping spx_int_msk.s.reserved_2_3 spx_int_msk.s.abnorm = 1; spx_int_msk.s.prtnxa = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping spx_int_msk.s.reserved_12_63 spx_int_msk.s.calerr = 1; spx_int_msk.s.syncerr = 1; spx_int_msk.s.diperr = 1; spx_int_msk.s.tpaovr = 1; spx_int_msk.s.rsverr = 1; spx_int_msk.s.drwnng = 1; spx_int_msk.s.clserr = 1; spx_int_msk.s.spiovr = 1; // Skipping spx_int_msk.s.reserved_2_3 spx_int_msk.s.abnorm = 1; spx_int_msk.s.prtnxa = 1; } cvmx_write_csr(CVMX_SPXX_INT_MSK(index), spx_int_msk.u64); } /** * __cvmx_interrupt_spxx_int_reg_decode decodes all interrupt bits in cvmx_spxx_int_reg_t */ void __cvmx_interrupt_spxx_int_reg_decode(int index) { cvmx_spxx_int_reg_t spx_int_reg; spx_int_reg.u64 = cvmx_read_csr(CVMX_SPXX_INT_REG(index)); spx_int_reg.u64 &= cvmx_read_csr(CVMX_SPXX_INT_MSK(index)); cvmx_write_csr(CVMX_SPXX_INT_REG(index), spx_int_reg.u64); // Skipping spx_int_reg.s.reserved_32_63 if (spx_int_reg.s.spf) PRINT_ERROR("SPX%d_INT_REG[SPF]: Spi interface down\n", index); // Skipping spx_int_reg.s.reserved_12_30 if (spx_int_reg.s.calerr) PRINT_ERROR("SPX%d_INT_REG[CALERR]: Spi4 Calendar table parity error\n", index); if (spx_int_reg.s.syncerr) PRINT_ERROR("SPX%d_INT_REG[SYNCERR]: Consecutive Spi4 DIP4 errors have exceeded\n" " SPX_ERR_CTL[ERRCNT]\n", index); if (spx_int_reg.s.diperr) PRINT_ERROR("SPX%d_INT_REG[DIPERR]: Spi4 DIP4 error\n", index); if (spx_int_reg.s.tpaovr) PRINT_ERROR("SPX%d_INT_REG[TPAOVR]: Selected port has hit TPA overflow\n", index); if (spx_int_reg.s.rsverr) PRINT_ERROR("SPX%d_INT_REG[RSVERR]: Spi4 reserved control word detected\n", index); if (spx_int_reg.s.drwnng) PRINT_ERROR("SPX%d_INT_REG[DRWNNG]: Spi4 receive FIFO drowning/overflow\n", index); if (spx_int_reg.s.clserr) PRINT_ERROR("SPX%d_INT_REG[CLSERR]: Spi4 packet closed on non-16B alignment without EOP\n", index); if (spx_int_reg.s.spiovr) PRINT_ERROR("SPX%d_INT_REG[SPIOVR]: Spi async FIFO overflow\n", index); // Skipping spx_int_reg.s.reserved_2_3 if (spx_int_reg.s.abnorm) PRINT_ERROR("SPX%d_INT_REG[ABNORM]: Abnormal packet termination (ERR bit)\n", index); if (spx_int_reg.s.prtnxa) PRINT_ERROR("SPX%d_INT_REG[PRTNXA]: Port out of range\n", index); } /** * __cvmx_interrupt_stxx_int_msk_enable enables all interrupt bits in cvmx_stxx_int_msk_t */ void __cvmx_interrupt_stxx_int_msk_enable(int index) { cvmx_stxx_int_msk_t stx_int_msk; cvmx_write_csr(CVMX_STXX_INT_REG(index), cvmx_read_csr(CVMX_STXX_INT_REG(index))); stx_int_msk.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping stx_int_msk.s.reserved_8_63 stx_int_msk.s.frmerr = 1; stx_int_msk.s.unxfrm = 1; stx_int_msk.s.nosync = 1; stx_int_msk.s.diperr = 1; stx_int_msk.s.datovr = 1; stx_int_msk.s.ovrbst = 1; stx_int_msk.s.calpar1 = 1; stx_int_msk.s.calpar0 = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping stx_int_msk.s.reserved_8_63 stx_int_msk.s.frmerr = 1; stx_int_msk.s.unxfrm = 1; stx_int_msk.s.nosync = 1; stx_int_msk.s.diperr = 1; stx_int_msk.s.datovr = 1; stx_int_msk.s.ovrbst = 1; stx_int_msk.s.calpar1 = 1; stx_int_msk.s.calpar0 = 1; } cvmx_write_csr(CVMX_STXX_INT_MSK(index), stx_int_msk.u64); } /** * __cvmx_interrupt_stxx_int_reg_decode decodes all interrupt bits in cvmx_stxx_int_reg_t */ void __cvmx_interrupt_stxx_int_reg_decode(int index) { cvmx_stxx_int_reg_t stx_int_reg; stx_int_reg.u64 = cvmx_read_csr(CVMX_STXX_INT_REG(index)); stx_int_reg.u64 &= cvmx_read_csr(CVMX_STXX_INT_MSK(index)); cvmx_write_csr(CVMX_STXX_INT_REG(index), stx_int_reg.u64); // Skipping stx_int_reg.s.reserved_9_63 if (stx_int_reg.s.syncerr) PRINT_ERROR("STX%d_INT_REG[SYNCERR]: Interface encountered a fatal error\n", index); if (stx_int_reg.s.frmerr) PRINT_ERROR("STX%d_INT_REG[FRMERR]: FRMCNT has exceeded STX_DIP_CNT[MAXFRM]\n", index); if (stx_int_reg.s.unxfrm) PRINT_ERROR("STX%d_INT_REG[UNXFRM]: Unexpected framing sequence\n", index); if (stx_int_reg.s.nosync) PRINT_ERROR("STX%d_INT_REG[NOSYNC]: ERRCNT has exceeded STX_DIP_CNT[MAXDIP]\n", index); if (stx_int_reg.s.diperr) PRINT_ERROR("STX%d_INT_REG[DIPERR]: DIP2 error on the Spi4 Status channel\n", index); if (stx_int_reg.s.datovr) PRINT_ERROR("STX%d_INT_REG[DATOVR]: Spi4 FIFO overflow error\n", index); if (stx_int_reg.s.ovrbst) PRINT_ERROR("STX%d_INT_REG[OVRBST]: Transmit packet burst too big\n", index); if (stx_int_reg.s.calpar1) PRINT_ERROR("STX%d_INT_REG[CALPAR1]: STX Calendar Table Parity Error Bank1\n", index); if (stx_int_reg.s.calpar0) PRINT_ERROR("STX%d_INT_REG[CALPAR0]: STX Calendar Table Parity Error Bank0\n", index); } /** * __cvmx_interrupt_usbnx_int_enb_enable enables all interrupt bits in cvmx_usbnx_int_enb_t */ void __cvmx_interrupt_usbnx_int_enb_enable(int index) { cvmx_usbnx_int_enb_t usbn_int_enb; cvmx_write_csr(CVMX_USBNX_INT_SUM(index), cvmx_read_csr(CVMX_USBNX_INT_SUM(index))); usbn_int_enb.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN30XX)) { // Skipping usbn_int_enb.s.reserved_38_63 usbn_int_enb.s.nd4o_dpf = 1; usbn_int_enb.s.nd4o_dpe = 1; usbn_int_enb.s.nd4o_rpf = 1; usbn_int_enb.s.nd4o_rpe = 1; usbn_int_enb.s.ltl_f_pf = 1; usbn_int_enb.s.ltl_f_pe = 1; usbn_int_enb.s.u2n_c_pe = 1; usbn_int_enb.s.u2n_c_pf = 1; usbn_int_enb.s.u2n_d_pf = 1; usbn_int_enb.s.u2n_d_pe = 1; usbn_int_enb.s.n2u_pe = 1; usbn_int_enb.s.n2u_pf = 1; usbn_int_enb.s.uod_pf = 1; usbn_int_enb.s.uod_pe = 1; usbn_int_enb.s.rq_q3_e = 1; usbn_int_enb.s.rq_q3_f = 1; usbn_int_enb.s.rq_q2_e = 1; usbn_int_enb.s.rq_q2_f = 1; usbn_int_enb.s.rg_fi_f = 1; usbn_int_enb.s.rg_fi_e = 1; usbn_int_enb.s.l2_fi_f = 1; usbn_int_enb.s.l2_fi_e = 1; usbn_int_enb.s.l2c_a_f = 1; usbn_int_enb.s.l2c_s_e = 1; usbn_int_enb.s.dcred_f = 1; usbn_int_enb.s.dcred_e = 1; usbn_int_enb.s.lt_pu_f = 1; usbn_int_enb.s.lt_po_e = 1; usbn_int_enb.s.nt_pu_f = 1; usbn_int_enb.s.nt_po_e = 1; usbn_int_enb.s.pt_pu_f = 1; usbn_int_enb.s.pt_po_e = 1; usbn_int_enb.s.lr_pu_f = 1; usbn_int_enb.s.lr_po_e = 1; usbn_int_enb.s.nr_pu_f = 1; usbn_int_enb.s.nr_po_e = 1; usbn_int_enb.s.pr_pu_f = 1; usbn_int_enb.s.pr_po_e = 1; } if (OCTEON_IS_MODEL(OCTEON_CN50XX)) { // Skipping usbn_int_enb.s.reserved_38_63 usbn_int_enb.s.nd4o_dpf = 1; usbn_int_enb.s.nd4o_dpe = 1; usbn_int_enb.s.nd4o_rpf = 1; usbn_int_enb.s.nd4o_rpe = 1; usbn_int_enb.s.ltl_f_pf = 1; usbn_int_enb.s.ltl_f_pe = 1; // Skipping usbn_int_enb.s.reserved_26_31 usbn_int_enb.s.uod_pf = 1; usbn_int_enb.s.uod_pe = 1; usbn_int_enb.s.rq_q3_e = 1; usbn_int_enb.s.rq_q3_f = 1; usbn_int_enb.s.rq_q2_e = 1; usbn_int_enb.s.rq_q2_f = 1; usbn_int_enb.s.rg_fi_f = 1; usbn_int_enb.s.rg_fi_e = 1; usbn_int_enb.s.l2_fi_f = 1; usbn_int_enb.s.l2_fi_e = 1; usbn_int_enb.s.l2c_a_f = 1; usbn_int_enb.s.l2c_s_e = 1; usbn_int_enb.s.dcred_f = 1; usbn_int_enb.s.dcred_e = 1; usbn_int_enb.s.lt_pu_f = 1; usbn_int_enb.s.lt_po_e = 1; usbn_int_enb.s.nt_pu_f = 1; usbn_int_enb.s.nt_po_e = 1; usbn_int_enb.s.pt_pu_f = 1; usbn_int_enb.s.pt_po_e = 1; usbn_int_enb.s.lr_pu_f = 1; usbn_int_enb.s.lr_po_e = 1; usbn_int_enb.s.nr_pu_f = 1; usbn_int_enb.s.nr_po_e = 1; usbn_int_enb.s.pr_pu_f = 1; usbn_int_enb.s.pr_po_e = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping usbn_int_enb.s.reserved_38_63 usbn_int_enb.s.nd4o_dpf = 1; usbn_int_enb.s.nd4o_dpe = 1; usbn_int_enb.s.nd4o_rpf = 1; usbn_int_enb.s.nd4o_rpe = 1; usbn_int_enb.s.ltl_f_pf = 1; usbn_int_enb.s.ltl_f_pe = 1; usbn_int_enb.s.u2n_c_pe = 1; usbn_int_enb.s.u2n_c_pf = 1; usbn_int_enb.s.u2n_d_pf = 1; usbn_int_enb.s.u2n_d_pe = 1; usbn_int_enb.s.n2u_pe = 1; usbn_int_enb.s.n2u_pf = 1; usbn_int_enb.s.uod_pf = 1; usbn_int_enb.s.uod_pe = 1; usbn_int_enb.s.rq_q3_e = 1; usbn_int_enb.s.rq_q3_f = 1; usbn_int_enb.s.rq_q2_e = 1; usbn_int_enb.s.rq_q2_f = 1; usbn_int_enb.s.rg_fi_f = 1; usbn_int_enb.s.rg_fi_e = 1; usbn_int_enb.s.l2_fi_f = 1; usbn_int_enb.s.l2_fi_e = 1; usbn_int_enb.s.l2c_a_f = 1; usbn_int_enb.s.l2c_s_e = 1; usbn_int_enb.s.dcred_f = 1; usbn_int_enb.s.dcred_e = 1; usbn_int_enb.s.lt_pu_f = 1; usbn_int_enb.s.lt_po_e = 1; usbn_int_enb.s.nt_pu_f = 1; usbn_int_enb.s.nt_po_e = 1; usbn_int_enb.s.pt_pu_f = 1; usbn_int_enb.s.pt_po_e = 1; usbn_int_enb.s.lr_pu_f = 1; usbn_int_enb.s.lr_po_e = 1; usbn_int_enb.s.nr_pu_f = 1; usbn_int_enb.s.nr_po_e = 1; usbn_int_enb.s.pr_pu_f = 1; usbn_int_enb.s.pr_po_e = 1; } if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping usbn_int_enb.s.reserved_38_63 usbn_int_enb.s.nd4o_dpf = 1; usbn_int_enb.s.nd4o_dpe = 1; usbn_int_enb.s.nd4o_rpf = 1; usbn_int_enb.s.nd4o_rpe = 1; usbn_int_enb.s.ltl_f_pf = 1; usbn_int_enb.s.ltl_f_pe = 1; // Skipping usbn_int_enb.s.reserved_26_31 usbn_int_enb.s.uod_pf = 1; usbn_int_enb.s.uod_pe = 1; usbn_int_enb.s.rq_q3_e = 1; usbn_int_enb.s.rq_q3_f = 1; usbn_int_enb.s.rq_q2_e = 1; usbn_int_enb.s.rq_q2_f = 1; usbn_int_enb.s.rg_fi_f = 1; usbn_int_enb.s.rg_fi_e = 1; usbn_int_enb.s.l2_fi_f = 1; usbn_int_enb.s.l2_fi_e = 1; usbn_int_enb.s.l2c_a_f = 1; usbn_int_enb.s.l2c_s_e = 1; usbn_int_enb.s.dcred_f = 1; usbn_int_enb.s.dcred_e = 1; usbn_int_enb.s.lt_pu_f = 1; usbn_int_enb.s.lt_po_e = 1; usbn_int_enb.s.nt_pu_f = 1; usbn_int_enb.s.nt_po_e = 1; usbn_int_enb.s.pt_pu_f = 1; usbn_int_enb.s.pt_po_e = 1; usbn_int_enb.s.lr_pu_f = 1; usbn_int_enb.s.lr_po_e = 1; usbn_int_enb.s.nr_pu_f = 1; usbn_int_enb.s.nr_po_e = 1; usbn_int_enb.s.pr_pu_f = 1; usbn_int_enb.s.pr_po_e = 1; } if (OCTEON_IS_MODEL(OCTEON_CN52XX)) { // Skipping usbn_int_enb.s.reserved_38_63 usbn_int_enb.s.nd4o_dpf = 1; usbn_int_enb.s.nd4o_dpe = 1; usbn_int_enb.s.nd4o_rpf = 1; usbn_int_enb.s.nd4o_rpe = 1; usbn_int_enb.s.ltl_f_pf = 1; usbn_int_enb.s.ltl_f_pe = 1; // Skipping usbn_int_enb.s.reserved_26_31 usbn_int_enb.s.uod_pf = 1; usbn_int_enb.s.uod_pe = 1; usbn_int_enb.s.rq_q3_e = 1; usbn_int_enb.s.rq_q3_f = 1; usbn_int_enb.s.rq_q2_e = 1; usbn_int_enb.s.rq_q2_f = 1; usbn_int_enb.s.rg_fi_f = 1; usbn_int_enb.s.rg_fi_e = 1; usbn_int_enb.s.l2_fi_f = 1; usbn_int_enb.s.l2_fi_e = 1; usbn_int_enb.s.l2c_a_f = 1; usbn_int_enb.s.l2c_s_e = 1; usbn_int_enb.s.dcred_f = 1; usbn_int_enb.s.dcred_e = 1; usbn_int_enb.s.lt_pu_f = 1; usbn_int_enb.s.lt_po_e = 1; usbn_int_enb.s.nt_pu_f = 1; usbn_int_enb.s.nt_po_e = 1; usbn_int_enb.s.pt_pu_f = 1; usbn_int_enb.s.pt_po_e = 1; usbn_int_enb.s.lr_pu_f = 1; usbn_int_enb.s.lr_po_e = 1; usbn_int_enb.s.nr_pu_f = 1; usbn_int_enb.s.nr_po_e = 1; usbn_int_enb.s.pr_pu_f = 1; usbn_int_enb.s.pr_po_e = 1; } cvmx_write_csr(CVMX_USBNX_INT_ENB(index), usbn_int_enb.u64); } /** * __cvmx_interrupt_usbnx_int_sum_decode decodes all interrupt bits in cvmx_usbnx_int_sum_t */ void __cvmx_interrupt_usbnx_int_sum_decode(int index) { cvmx_usbnx_int_sum_t usbn_int_sum; usbn_int_sum.u64 = cvmx_read_csr(CVMX_USBNX_INT_SUM(index)); usbn_int_sum.u64 &= cvmx_read_csr(CVMX_USBNX_INT_ENB(index)); cvmx_write_csr(CVMX_USBNX_INT_SUM(index), usbn_int_sum.u64); // Skipping usbn_int_sum.s.reserved_38_63 if (usbn_int_sum.s.nd4o_dpf) PRINT_ERROR("USBN%d_INT_SUM[ND4O_DPF]: NCB DMA Out Data Fifo Push Full.\n", index); if (usbn_int_sum.s.nd4o_dpe) PRINT_ERROR("USBN%d_INT_SUM[ND4O_DPE]: NCB DMA Out Data Fifo Pop Empty.\n", index); if (usbn_int_sum.s.nd4o_rpf) PRINT_ERROR("USBN%d_INT_SUM[ND4O_RPF]: NCB DMA Out Request Fifo Push Full.\n", index); if (usbn_int_sum.s.nd4o_rpe) PRINT_ERROR("USBN%d_INT_SUM[ND4O_RPE]: NCB DMA Out Request Fifo Pop Empty.\n", index); if (usbn_int_sum.s.ltl_f_pf) PRINT_ERROR("USBN%d_INT_SUM[LTL_F_PF]: L2C Transfer Length Fifo Push Full.\n", index); if (usbn_int_sum.s.ltl_f_pe) PRINT_ERROR("USBN%d_INT_SUM[LTL_F_PE]: L2C Transfer Length Fifo Pop Empty.\n", index); if (usbn_int_sum.s.u2n_c_pe) PRINT_ERROR("USBN%d_INT_SUM[U2N_C_PE]: U2N Control Fifo Pop Empty.\n", index); if (usbn_int_sum.s.u2n_c_pf) PRINT_ERROR("USBN%d_INT_SUM[U2N_C_PF]: U2N Control Fifo Push Full.\n", index); if (usbn_int_sum.s.u2n_d_pf) PRINT_ERROR("USBN%d_INT_SUM[U2N_D_PF]: U2N Data Fifo Push Full.\n", index); if (usbn_int_sum.s.u2n_d_pe) PRINT_ERROR("USBN%d_INT_SUM[U2N_D_PE]: U2N Data Fifo Pop Empty.\n", index); if (usbn_int_sum.s.n2u_pe) PRINT_ERROR("USBN%d_INT_SUM[N2U_PE]: N2U Fifo Pop Empty.\n", index); if (usbn_int_sum.s.n2u_pf) PRINT_ERROR("USBN%d_INT_SUM[N2U_PF]: N2U Fifo Push Full.\n", index); if (usbn_int_sum.s.uod_pf) PRINT_ERROR("USBN%d_INT_SUM[UOD_PF]: UOD Fifo Push Full.\n", index); if (usbn_int_sum.s.uod_pe) PRINT_ERROR("USBN%d_INT_SUM[UOD_PE]: UOD Fifo Pop Empty.\n", index); if (usbn_int_sum.s.rq_q3_e) PRINT_ERROR("USBN%d_INT_SUM[RQ_Q3_E]: Request Queue-3 Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.rq_q3_f) PRINT_ERROR("USBN%d_INT_SUM[RQ_Q3_F]: Request Queue-3 Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.rq_q2_e) PRINT_ERROR("USBN%d_INT_SUM[RQ_Q2_E]: Request Queue-2 Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.rq_q2_f) PRINT_ERROR("USBN%d_INT_SUM[RQ_Q2_F]: Request Queue-2 Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.rg_fi_f) PRINT_ERROR("USBN%d_INT_SUM[RG_FI_F]: Register Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.rg_fi_e) PRINT_ERROR("USBN%d_INT_SUM[RG_FI_E]: Register Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.lt_fi_f) PRINT_ERROR("USBN%d_INT_SUM[LT_FI_F]: L2C Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.lt_fi_e) PRINT_ERROR("USBN%d_INT_SUM[LT_FI_E]: L2C Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.l2c_a_f) PRINT_ERROR("USBN%d_INT_SUM[L2C_A_F]: L2C Credit Count Added When Full.\n", index); if (usbn_int_sum.s.l2c_s_e) PRINT_ERROR("USBN%d_INT_SUM[L2C_S_E]: L2C Credit Count Subtracted When Empty.\n", index); if (usbn_int_sum.s.dcred_f) PRINT_ERROR("USBN%d_INT_SUM[DCRED_F]: Data CreditFifo Pushed When Full.\n", index); if (usbn_int_sum.s.dcred_e) PRINT_ERROR("USBN%d_INT_SUM[DCRED_E]: Data Credit Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.lt_pu_f) PRINT_ERROR("USBN%d_INT_SUM[LT_PU_F]: L2C Trasaction Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.lt_po_e) PRINT_ERROR("USBN%d_INT_SUM[LT_PO_E]: L2C Trasaction Fifo Popped When Full.\n", index); if (usbn_int_sum.s.nt_pu_f) PRINT_ERROR("USBN%d_INT_SUM[NT_PU_F]: NPI Trasaction Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.nt_po_e) PRINT_ERROR("USBN%d_INT_SUM[NT_PO_E]: NPI Trasaction Fifo Popped When Full.\n", index); if (usbn_int_sum.s.pt_pu_f) PRINT_ERROR("USBN%d_INT_SUM[PT_PU_F]: PP Trasaction Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.pt_po_e) PRINT_ERROR("USBN%d_INT_SUM[PT_PO_E]: PP Trasaction Fifo Popped When Full.\n", index); if (usbn_int_sum.s.lr_pu_f) PRINT_ERROR("USBN%d_INT_SUM[LR_PU_F]: L2C Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.lr_po_e) PRINT_ERROR("USBN%d_INT_SUM[LR_PO_E]: L2C Request Fifo Popped When Empty.\n", index); if (usbn_int_sum.s.nr_pu_f) PRINT_ERROR("USBN%d_INT_SUM[NR_PU_F]: NPI Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.nr_po_e) PRINT_ERROR("USBN%d_INT_SUM[NR_PO_E]: NPI Request Fifo Popped When Empty.\n", index); if (usbn_int_sum.s.pr_pu_f) PRINT_ERROR("USBN%d_INT_SUM[PR_PU_F]: PP Request Fifo Pushed When Full.\n", index); if (usbn_int_sum.s.pr_po_e) PRINT_ERROR("USBN%d_INT_SUM[PR_PO_E]: PP Request Fifo Popped When Empty.\n", index); } /** * __cvmx_interrupt_zip_int_mask_enable enables all interrupt bits in cvmx_zip_int_mask_t */ void __cvmx_interrupt_zip_int_mask_enable(void) { cvmx_zip_int_mask_t zip_int_mask; cvmx_write_csr(CVMX_ZIP_ERROR, cvmx_read_csr(CVMX_ZIP_ERROR)); zip_int_mask.u64 = 0; if (OCTEON_IS_MODEL(OCTEON_CN56XX)) { // Skipping zip_int_mask.s.reserved_1_63 zip_int_mask.s.doorbell = 1; } if (OCTEON_IS_MODEL(OCTEON_CN38XX)) { // Skipping zip_int_mask.s.reserved_1_63 zip_int_mask.s.doorbell = 1; } if (OCTEON_IS_MODEL(OCTEON_CN31XX)) { // Skipping zip_int_mask.s.reserved_1_63 zip_int_mask.s.doorbell = 1; } if (OCTEON_IS_MODEL(OCTEON_CN58XX)) { // Skipping zip_int_mask.s.reserved_1_63 zip_int_mask.s.doorbell = 1; } cvmx_write_csr(CVMX_ZIP_INT_MASK, zip_int_mask.u64); } /** * __cvmx_interrupt_zip_error_decode decodes all interrupt bits in cvmx_zip_error_t */ void __cvmx_interrupt_zip_error_decode(void) { cvmx_zip_error_t zip_error; zip_error.u64 = cvmx_read_csr(CVMX_ZIP_ERROR); zip_error.u64 &= cvmx_read_csr(CVMX_ZIP_INT_MASK); cvmx_write_csr(CVMX_ZIP_ERROR, zip_error.u64); // Skipping zip_error.s.reserved_1_63 if (zip_error.s.doorbell) PRINT_ERROR("ZIP_ERROR[DOORBELL]: A doorbell count has overflowed\n"); }