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https://git.hardenedbsd.org/hardenedbsd/HardenedBSD.git
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1d386b48a5
Remove /^[\s*]*__FBSDID\("\$FreeBSD\$"\);?\s*\n/
415 lines
12 KiB
C
415 lines
12 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause
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*
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* Copyright (c) 2018 Chelsio Communications, Inc.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*/
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#include <sys/cdefs.h>
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/* Auto-generated file. Avoid direct editing. */
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/* Edits will be lost when file regenerated. */
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#include <stdio.h>
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#include "tcb_common.h"
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void t4_display_tcb_aux_0 (_TCBVAR *tvp, int aux)
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{
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PR("STATE:\n");
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PR(" %-12s (%-2u), %s, lock_tid %u, init %u\n",
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spr_tcp_state(val("t_state")),
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val("t_state"),
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spr_ip_version(val("ip_version")),
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val("lock_tid"),
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val("init")
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);
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PR(" l2t_ix 0x%x, smac sel 0x%x, tos 0x%x\n",
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val("l2t_ix"),
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val("smac_sel"),
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val("tos")
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);
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PR(" maxseg %u, recv_scaleflag %u, recv_tstmp %u, recv_sack %u\n",
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val("t_maxseg"), val("recv_scale"),
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val("recv_tstmp"), val("recv_sack"));
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PR("TIMERS:\n"); /* **************************************** */
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PR(" timer %u, dack_timer %u\n",
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val("timer"), val("dack_timer"));
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PR(" mod_schd: tx: %u, rx: %u, reason 0x%1x\n",
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val("mod_schd_tx"),
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val("mod_schd_rx"),
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((val("mod_schd_reason2")<<2) | (val("mod_schd_reason1")<<1) |
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val("mod_schd_reason0"))
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);
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PR(" max_rt %-2u, rxtshift %u, keepalive %u\n",
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val("max_rt"), val("t_rxtshift"),
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val("keepalive"));
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PR(" timestamp_offset 0x%x, timestamp 0x%x\n",
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val("timestamp_offset"),val("timestamp"));
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PR(" t_rtt_ts_recent_age %u t_rttseq_recent %u\n",
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val("t_rtt_ts_recent_age"), val("t_rtseq_recent"));
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PR(" t_srtt %u, t_rttvar %u\n",
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val("t_srtt"),val("t_rttvar"));
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PR("TRANSMIT BUFFER:\n"); /* *************************** */
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PR(" snd_una %u, snd_nxt %u, snd_max %u, tx_max %u\n",
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val("snd_una"),val("snd_nxt"),
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val("snd_max"),val("tx_max"));
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PR(" core_fin %u, tx_hdr_offset %u\n",
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val("core_fin"), SEQ_SUB(val("tx_max"),val("snd_una"))
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);
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if (val("recv_scale") && !val("active_open")) {
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PR(" rcv_adv %-5u << %-2u == %u (recv_scaleflag %u rcv_scale %u active open %u)\n",
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val("rcv_adv"), val("rcv_scale"),
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val("rcv_adv") << val("rcv_scale"),
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val("recv_scale"), val("rcv_scale"), val("active_open"));
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} else {
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PR(" rcv_adv %-5u (rcv_scale %-2u recv_scaleflag %u active_open %u)\n",
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val("rcv_adv"), val("rcv_scale"),
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val("recv_scale"), val("active_open"));
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}
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PR(" snd_cwnd %-5u snd_ssthresh %u snd_rec %u\n",
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val("snd_cwnd") , val("snd_ssthresh"), val("snd_rec")
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);
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PR(" cctrl: sel %s, ecn %u, ece %u, cwr %u, rfr %u\n",
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spr_cctrl_sel(val("cctrl_sel0"),val("cctrl_sel1")),
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val("cctrl_ecn"), val("cctrl_ece"), val("cctrl_cwr"),
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val("cctrl_rfr"));
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PR(" t_dupacks %u, dupack_count_odd %u, fast_recovery %u\n",
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val("t_dupacks"), val("dupack_count_odd"),val("fast_recovery"));
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PR(" core_more %u, core_urg, %u core_push %u,",
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val("core_more"),val("core_urg"),val("core_push"));
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PR(" core_flush %u\n",val("core_flush"));
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PR(" nagle %u, ssws_disable %u, turbo %u,",
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val("nagle"), val("ssws_disabled"), val("turbo"));
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PR(" tx_pdu_out %u\n",val("tx_pdu_out"));
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PR(" tx_pace_auto %u, tx_pace_fixed %u, tx_queue %u",
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val("tx_pace_auto"),val("tx_pace_fixed"),val("tx_queue"));
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PR(" tx_quiesce %u\n",val("tx_quiesce"));
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PR(" tx_channel %u, tx_channel1 %u, tx_channel0 %u\n",
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val("tx_channel"),
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(val("tx_channel")>>1)&1,
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val("tx_channel")&1
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);
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PR(" tx_hdr_ptr 0x%-6x tx_last_ptr 0x%-6x tx_compact %u\n",
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val("tx_hdr_ptr"),val("tx_last_ptr"),val("tx_compact"));
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PR("RECEIVE BUFFER:\n"); /* *************************** */
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PR(" last_ack_sent %-10u rx_compact %u\n",
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val("ts_last_ack_sent"),val("rx_compact"));
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PR(" rcv_nxt %-10u hdr_off %-10u\n",
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val("rcv_nxt"), val("rx_hdr_offset"));
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PR(" frag0_idx %-10u length %-10u frag0_ptr 0x%-8x\n",
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val("rx_frag0_start_idx"),
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val("rx_frag0_len"),
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val("rx_ptr"));
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PR(" frag1_idx %-10u length %-10u ",
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val("rx_frag1_start_idx_offset"),
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val("rx_frag1_len"));
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if (val("ulp_type")!=4) { /* RDMA has FRAG1 idx && len, but no ptr? Should I not display frag1 at all? */
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PR("frag1_ptr 0x%-8x\n",val("rx_frag1_ptr"));
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} else {
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PR("\n");
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}
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if (val("ulp_type") !=6 && val("ulp_type") != 5 && val("ulp_type") !=4) {
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PR(" frag2_idx %-10u length %-10u frag2_ptr 0x%-8x\n",
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val("rx_frag2_start_idx_offset"),
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val("rx_frag2_len"),
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val("rx_frag2_ptr"));
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PR(" frag3_idx %-10u length %-10u frag3_ptr 0x%-8x\n",
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val("rx_frag3_start_idx_offset"),
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val("rx_frag3_len"),
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val("rx_frag3_ptr"));
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}
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PR(" peer_fin %u, rx_pdu_out %u, pdu_len %u\n",
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val("peer_fin"),val("rx_pdu_out"), val("pdu_len"));
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if (val("recv_scale")) {
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PR(" rcv_wnd %u >> snd_scale %u == %u, recv_scaleflag = %u\n",
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val("rcv_wnd"), val("snd_scale"),
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val("rcv_wnd") >> val("snd_scale"),
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val("recv_scale"));
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} else {
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PR(" rcv_wnd %u. (snd_scale %u, recv_scaleflag = %u)\n",
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val("rcv_wnd"), val("snd_scale"),
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val("recv_scale"));
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}
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PR(" dack_mss %u dack %u, dack_not_acked: %u\n",
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val("dack_mss"),val("dack"),val("dack_not_acked"));
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PR(" rcv_coal %u rcv_co_psh %u rcv_co_last_psh %u heart %u\n",
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val("rcv_coalesce_enable"),
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val("rcv_coalesce_push"),
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val("rcv_coalesce_last_psh"),
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val("rcv_coalesce_heartbeat"));
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PR(" rx_channel %u rx_quiesce %u rx_flow_ctrl_dis %u,",
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val("rx_channel"), val("rx_quiesce"),
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val("rx_flow_control_disable"));
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PR(" rx_flow_ctrl_ddp %u\n",
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val("rx_flow_control_ddp"));
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PR("MISCELLANEOUS:\n"); /* *************************** */
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PR(" pend_ctl: 0x%1x, unused_flags: 0x%x, main_slush: 0x%x\n",
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((val("pend_ctl2")<<2) | (val("pend_ctl1")<<1) |
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val("pend_ctl0")),
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val("unused"),val("main_slush"));
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PR(" Migrating %u, ask_mode %u, non_offload %u, rss_info %u\n",
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val("migrating"),
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val("ask_mode"), val("non_offload"), val("rss_info"));
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PR(" ULP: ulp_type %u (%s), ulp_raw %u\n",
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val("ulp_type"), spr_ulp_type(val("ulp_type")),val("ulp_raw"));
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PR(" RDMA: error %u, flm_err %u\n",
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val("rdma_error"), val("rdma_flm_error"));
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}
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void t4_display_tcb_aux_1 (_TCBVAR *tvp, int aux)
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{
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PR(" aux1_slush0: 0x%x aux1_slush1 0x%x\n",
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val("aux1_slush0"), val("aux1_slush1"));
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PR(" pdu_hdr_len %u\n",val("pdu_hdr_len"));
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}
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void t4_display_tcb_aux_2 (_TCBVAR *tvp, int aux)
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{
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PR(" qp_id %u, pd_id %u, stag %u\n",
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val("qp_id"), val("pd_id"),val("stag"));
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PR(" irs_ulp %u, iss_ulp %u\n",
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val("irs_ulp"),val("iss_ulp"));
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PR(" tx_pdu_len %u\n",
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val("tx_pdu_len"));
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PR(" cq_idx_sq %u, cq_idx_rq %u\n",
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val("cq_idx_sq"),val("cq_idx_rq"));
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PR(" rq_start %u, rq_MSN %u, rq_max_off %u, rq_write_ptr %u\n",
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val("rq_start"),val("rq_msn"),val("rq_max_offset"),
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val("rq_write_ptr"));
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PR(" L_valid %u, rdmap opcode %u\n",
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val("ord_l_bit_vld"),val("rdmap_opcode"));
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PR(" tx_flush: %u, tx_oos_rxmt %u, tx_oos_txmt %u\n",
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val("tx_flush"),val("tx_oos_rxmt"),val("tx_oos_txmt"));
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}
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void t4_display_tcb_aux_3 (_TCBVAR *tvp, int aux)
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{
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PR(" aux3_slush: 0x%x, unused: buf0 0x%x, buf1: 0x%x, main: 0x%x\n",
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val("aux3_slush"),val("ddp_buf0_unused"),val("ddp_buf1_unused"),
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val("ddp_main_unused"));
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PR(" DDP: DDPOFF ActBuf IndOut WaitFrag Rx2Tx BufInf\n");
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PR(" %u %u %u %u %u %u\n",
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val("ddp_off"),val("ddp_active_buf"),val("ddp_indicate_out"),
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val("ddp_wait_frag"),val("ddp_rx2tx"),val("ddp_buf_inf")
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);
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PR(" Ind PshfEn PushDis Flush NoInvalidate\n");
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PR(" Buf0: %u %u %u %u %u\n",
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val("ddp_buf0_indicate"),
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val("ddp_pshf_enable_0"), val("ddp_push_disable_0"),
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val("ddp_buf0_flush"), val("ddp_psh_no_invalidate0")
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);
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PR(" Buf1: %u %u %u %u %u\n",
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val("ddp_buf1_indicate"),
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val("ddp_pshf_enable_1"), val("ddp_push_disable_1"),
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val("ddp_buf1_flush"), val("ddp_psh_no_invalidate1")
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);
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PR(" Valid Offset Length Tag\n");
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PR(" Buf0: %u 0x%6.6x 0x%6.6x 0x%8.8x",
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val("ddp_buf0_valid"),val("rx_ddp_buf0_offset"),
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val("rx_ddp_buf0_len"),val("rx_ddp_buf0_tag")
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);
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if (0==val("ddp_off") && 1==val("ddp_buf0_valid") && 0==val("ddp_active_buf")) {
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PR(" (Active)\n");
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} else {
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PR(" (Inactive)\n");
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}
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PR(" Buf1: %u 0x%6.6x 0x%6.6x 0x%8.8x",
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val("ddp_buf1_valid"),val("rx_ddp_buf1_offset"),
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val("rx_ddp_buf1_len"),val("rx_ddp_buf1_tag")
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);
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if (0==val("ddp_off") && 1==val("ddp_buf1_valid") && 1==val("ddp_active_buf")) {
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PR(" (Active)\n");
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} else {
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PR(" (Inactive)\n");
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}
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if (1==val("ddp_off")) {
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PR(" DDP is off (which also disables indicate)\n");
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} else if (1==val("ddp_buf0_valid") && 0==val("ddp_active_buf")) {
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PR(" Data being DDP'ed to buf 0, ");
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PR("which has %u - %u = %u bytes of space left\n",
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val("rx_ddp_buf0_len"),val("rx_ddp_buf0_offset"),
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val("rx_ddp_buf0_len")-val("rx_ddp_buf0_offset")
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);
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if (1==val("ddp_buf1_valid")) {
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PR(" And buf1, which is also valid, has %u - %u = %u bytes of space left\n",
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val("rx_ddp_buf1_len"),val("rx_ddp_buf1_offset"),
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val("rx_ddp_buf1_len")-val("rx_ddp_buf1_offset")
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);
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}
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} else if (1==val("ddp_buf1_valid") && 1==val("ddp_active_buf")) {
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PR(" Data being DDP'ed to buf 1, ");
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PR("which has %u - %u = %u bytes of space left\n",
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val("rx_ddp_buf1_len"),val("rx_ddp_buf1_offset"),
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val("rx_ddp_buf1_len")-val("rx_ddp_buf1_offset")
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);
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if (1==val("ddp_buf0_valid")) {
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PR(" And buf0, which is also valid, has %u - %u = %u bytes of space left\n",
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val("rx_ddp_buf0_len"),val("rx_ddp_buf0_offset"),
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val("rx_ddp_buf0_len")-val("rx_ddp_buf0_offset")
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);
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}
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} else if (0==val("ddp_buf0_valid") && 1==val("ddp_buf1_valid") && 0==val("ddp_active_buf")) {
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PR(" !!! Invalid DDP buf 1 valid, but buf 0 active.\n");
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} else if (1==val("ddp_buf0_valid") && 0==val("ddp_buf1_valid") && 1==val("ddp_active_buf")) {
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PR(" !!! Invalid DDP buf 0 valid, but buf 1 active.\n");
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} else {
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PR(" DDP is enabled, but no buffers are active && valid.\n");
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if (0==val("ddp_indicate_out")) {
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if (0==val("ddp_buf0_indicate") && 0==val("ddp_buf1_indicate")) {
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PR(" 0 length Indicate buffers ");
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if (0==val("rx_hdr_offset")) {
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PR("will cause new data to be held in PMRX.\n");
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} else {
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PR("is causing %u bytes to be held in PMRX\n",
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val("rx_hdr_offset"));
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}
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} else {
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PR(" Data being indicated to host\n");
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}
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} else if (1==val("ddp_indicate_out")) {
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PR(" Indicate is off, which ");
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if (0==val("rx_hdr_offset")) {
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PR("will cause new data to be held in PMRX.\n");
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} else {
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PR("is causing %u bytes to be held in PMRX\n",
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val("rx_hdr_offset"));
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}
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}
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}
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}
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