The Design and Implementation of the FreeBSD Operating System, Second Edition
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FreeBSD/Linux Kernel Cross Reference
sys/dev/pdq/pdq.c

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    1 /*      $NetBSD: pdq.c,v 1.33 2001/11/13 13:14:43 lukem Exp $   */
    2 
    3 /*-
    4  * Copyright (c) 1995,1996 Matt Thomas <matt@3am-software.com>
    5  * All rights reserved.
    6  *
    7  * Redistribution and use in source and binary forms, with or without
    8  * modification, are permitted provided that the following conditions
    9  * are met:
   10  * 1. Redistributions of source code must retain the above copyright
   11  *    notice, this list of conditions and the following disclaimer.
   12  * 2. The name of the author may not be used to endorse or promote products
   13  *    derived from this software without specific prior written permission
   14  *
   15  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
   16  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
   17  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
   18  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
   19  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
   20  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
   21  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
   22  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
   23  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
   24  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
   25  *
   26  * Id: pdq.c,v 1.32 1997/06/05 01:56:35 thomas Exp
   27  *
   28  */
   29 
   30 #include <sys/cdefs.h>
   31 __FBSDID("$FreeBSD: releng/10.0/sys/dev/pdq/pdq.c 147256 2005-06-10 16:49:24Z brooks $");
   32 
   33 /*
   34  * DEC PDQ FDDI Controller O/S independent code
   35  *
   36  * This module should work any on PDQ based board.  Note that changes for
   37  * MIPS and Alpha architectures (or any other architecture which requires
   38  * a flushing of memory or write buffers and/or has incoherent caches)
   39  * have yet to be made.
   40  *
   41  * However, it is expected that the PDQ_CSR_WRITE macro will cause a 
   42  * flushing of the write buffers.
   43  */
   44 
   45 
   46 #define PDQ_HWSUPPORT   /* for pdq.h */
   47 
   48 /*
   49  * What a botch having to specific includes for FreeBSD!
   50  */
   51 #include <dev/pdq/pdq_freebsd.h>
   52 #include <dev/pdq/pdqreg.h>
   53 
   54 #define PDQ_ROUNDUP(n, x)       (((n) + ((x) - 1)) & ~((x) - 1))
   55 #define PDQ_CMD_RX_ALIGNMENT    16
   56 
   57 #if (defined(PDQTEST) && !defined(PDQ_NOPRINTF)) || defined(PDQVERBOSE)
   58 #define PDQ_PRINTF(x)   printf x
   59 #else
   60 #define PDQ_PRINTF(x)   do { } while (0)
   61 #endif
   62 
   63 static const char * const pdq_halt_codes[] = {
   64     "Selftest Timeout", "Host Bus Parity Error", "Host Directed Fault",
   65     "Software Fault", "Hardware Fault", "PC Trace Path Test",
   66     "DMA Error", "Image CRC Error", "Adapter Processer Error"
   67 };
   68 
   69 static const char * const pdq_adapter_states[] = {
   70     "Reset", "Upgrade", "DMA Unavailable", "DMA Available",
   71     "Link Available", "Link Unavailable", "Halted", "Ring Member"
   72 };
   73 
   74 /*
   75  * The following are used in conjunction with 
   76  * unsolicited events
   77  */
   78 static const char * const pdq_entities[] = {
   79     "Station", "Link", "Phy Port"
   80 };
   81 
   82 static const char * const pdq_station_events[] = {
   83     "Unknown Event #0",
   84     "Trace Received"
   85 };
   86 
   87 static const char * const pdq_station_arguments[] = {
   88     "Reason"
   89 };
   90 
   91 static const char * const pdq_link_events[] = {
   92     "Transmit Underrun",
   93     "Transmit Failed",
   94     "Block Check Error (CRC)",
   95     "Frame Status Error",
   96     "PDU Length Error",
   97     NULL,
   98     NULL,
   99     "Receive Data Overrun",
  100     NULL,
  101     "No User Buffer",
  102     "Ring Initialization Initiated",
  103     "Ring Initialization Received",
  104     "Ring Beacon Initiated",
  105     "Duplicate Address Failure",
  106     "Duplicate Token Detected",
  107     "Ring Purger Error",
  108     "FCI Strip Error",
  109     "Trace Initiated",
  110     "Directed Beacon Received",
  111 };
  112 
  113 static const char * const pdq_link_arguments[] = {
  114     "Reason",
  115     "Data Link Header",
  116     "Source",
  117     "Upstream Neighbor"
  118 };
  119 
  120 static const char * const pdq_phy_events[] = {
  121     "LEM Error Monitor Reject",
  122     "Elasticy Buffer Error",
  123     "Link Confidence Test Reject"
  124 };
  125 
  126 static const char * const pdq_phy_arguments[] = {
  127     "Direction"
  128 };
  129 
  130 static const char * const * const pdq_event_arguments[] = {
  131     pdq_station_arguments,
  132     pdq_link_arguments,
  133     pdq_phy_arguments
  134 };
  135 
  136 static const char * const * const pdq_event_codes[] = {
  137     pdq_station_events,
  138     pdq_link_events,
  139     pdq_phy_events
  140 };
  141 
  142 static const char * const pdq_station_types[] = {
  143     "SAS", "DAC", "SAC", "NAC", "DAS"
  144 };
  145 
  146 static const char * const pdq_smt_versions[] = { "", "V6.2", "V7.2", "V7.3" };
  147 
  148 static const char pdq_phy_types[] = "ABSM";
  149 
  150 static const char * const pdq_pmd_types0[] = {
  151     "ANSI Multi-Mode", "ANSI Single-Mode Type 1", "ANSI Single-Mode Type 2",
  152     "ANSI Sonet"
  153 };
  154 
  155 static const char * const pdq_pmd_types100[] = {
  156     "Low Power", "Thin Wire", "Shielded Twisted Pair",
  157     "Unshielded Twisted Pair"
  158 };
  159 
  160 static const char * const * const pdq_pmd_types[] = { 
  161     pdq_pmd_types0, pdq_pmd_types100
  162 };
  163 
  164 static const char * const pdq_descriptions[] = {
  165     "DEFPA PCI",
  166     "DEFEA EISA",
  167     "DEFTA TC",
  168     "DEFAA Futurebus",
  169     "DEFQA Q-bus",
  170 };
  171 
  172 static void
  173 pdq_print_fddi_chars(
  174     pdq_t *pdq,
  175     const pdq_response_status_chars_get_t *rsp)
  176 {
  177     const char hexchars[] = "0123456789abcdef";
  178 
  179     printf(
  180            PDQ_OS_PREFIX
  181            "DEC %s FDDI %s Controller\n",
  182            PDQ_OS_PREFIX_ARGS,
  183            pdq_descriptions[pdq->pdq_type],
  184            pdq_station_types[rsp->status_chars_get.station_type]);
  185 
  186     printf(PDQ_OS_PREFIX "FDDI address %c%c:%c%c:%c%c:%c%c:%c%c:%c%c, FW=%c%c%c%c, HW=%c",
  187            PDQ_OS_PREFIX_ARGS,
  188            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[0] >> 4],
  189            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[0] & 0x0F],
  190            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[1] >> 4],
  191            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[1] & 0x0F],
  192            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[2] >> 4],
  193            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[2] & 0x0F],
  194            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[3] >> 4],
  195            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[3] & 0x0F],
  196            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[4] >> 4],
  197            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[4] & 0x0F],
  198            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[5] >> 4],
  199            hexchars[pdq->pdq_hwaddr.lanaddr_bytes[5] & 0x0F],
  200            pdq->pdq_fwrev.fwrev_bytes[0], pdq->pdq_fwrev.fwrev_bytes[1],
  201            pdq->pdq_fwrev.fwrev_bytes[2], pdq->pdq_fwrev.fwrev_bytes[3],
  202            rsp->status_chars_get.module_rev.fwrev_bytes[0]);
  203 
  204     if (rsp->status_chars_get.smt_version_id < PDQ_ARRAY_SIZE(pdq_smt_versions)) {
  205         printf(", SMT %s\n", pdq_smt_versions[rsp->status_chars_get.smt_version_id]);
  206     }
  207 
  208     printf(PDQ_OS_PREFIX "FDDI Port%s = %c (PMD = %s)",
  209            PDQ_OS_PREFIX_ARGS,
  210            rsp->status_chars_get.station_type == PDQ_STATION_TYPE_DAS ? "[A]" : "",
  211            pdq_phy_types[rsp->status_chars_get.phy_type[0]],
  212            pdq_pmd_types[rsp->status_chars_get.pmd_type[0] / 100][rsp->status_chars_get.pmd_type[0] % 100]);
  213 
  214     if (rsp->status_chars_get.station_type == PDQ_STATION_TYPE_DAS)
  215         printf(", FDDI Port[B] = %c (PMD = %s)",
  216                pdq_phy_types[rsp->status_chars_get.phy_type[1]],
  217                pdq_pmd_types[rsp->status_chars_get.pmd_type[1] / 100][rsp->status_chars_get.pmd_type[1] % 100]);
  218 
  219     printf("\n");
  220 
  221     pdq_os_update_status(pdq, rsp);
  222 }
  223 
  224 static void
  225 pdq_init_csrs(
  226     pdq_csrs_t *csrs,
  227     pdq_bus_t bus,
  228     pdq_bus_memaddr_t csr_base,
  229     size_t csrsize)
  230 {
  231     csrs->csr_bus = bus;
  232     csrs->csr_base = csr_base;
  233     csrs->csr_port_reset                = PDQ_CSR_OFFSET(csr_base,  0 * csrsize);
  234     csrs->csr_host_data                 = PDQ_CSR_OFFSET(csr_base,  1 * csrsize);
  235     csrs->csr_port_control              = PDQ_CSR_OFFSET(csr_base,  2 * csrsize);
  236     csrs->csr_port_data_a               = PDQ_CSR_OFFSET(csr_base,  3 * csrsize);
  237     csrs->csr_port_data_b               = PDQ_CSR_OFFSET(csr_base,  4 * csrsize);
  238     csrs->csr_port_status               = PDQ_CSR_OFFSET(csr_base,  5 * csrsize);
  239     csrs->csr_host_int_type_0           = PDQ_CSR_OFFSET(csr_base,  6 * csrsize);
  240     csrs->csr_host_int_enable           = PDQ_CSR_OFFSET(csr_base,  7 * csrsize);
  241     csrs->csr_type_2_producer           = PDQ_CSR_OFFSET(csr_base,  8 * csrsize);
  242     csrs->csr_cmd_response_producer     = PDQ_CSR_OFFSET(csr_base, 10 * csrsize);
  243     csrs->csr_cmd_request_producer      = PDQ_CSR_OFFSET(csr_base, 11 * csrsize);
  244     csrs->csr_host_smt_producer         = PDQ_CSR_OFFSET(csr_base, 12 * csrsize);
  245     csrs->csr_unsolicited_producer      = PDQ_CSR_OFFSET(csr_base, 13 * csrsize);
  246 }
  247 
  248 static void
  249 pdq_init_pci_csrs(
  250     pdq_pci_csrs_t *csrs,
  251     pdq_bus_t bus,
  252     pdq_bus_memaddr_t csr_base,
  253     size_t csrsize)
  254 {
  255     csrs->csr_bus = bus;
  256     csrs->csr_base = csr_base;
  257     csrs->csr_pfi_mode_control  = PDQ_CSR_OFFSET(csr_base, 16 * csrsize);
  258     csrs->csr_pfi_status        = PDQ_CSR_OFFSET(csr_base, 17 * csrsize);
  259     csrs->csr_fifo_write        = PDQ_CSR_OFFSET(csr_base, 18 * csrsize);
  260     csrs->csr_fifo_read         = PDQ_CSR_OFFSET(csr_base, 19 * csrsize);
  261 }
  262 
  263 static void
  264 pdq_flush_databuf_queue(
  265     pdq_t *pdq,
  266     pdq_databuf_queue_t *q)
  267 {
  268     PDQ_OS_DATABUF_T *pdu;
  269     for (;;) {
  270         PDQ_OS_DATABUF_DEQUEUE(q, pdu);
  271         if (pdu == NULL)
  272             return;
  273         PDQ_OS_DATABUF_FREE(pdq, pdu);
  274     }
  275 }
  276 
  277 static pdq_boolean_t
  278 pdq_do_port_control(
  279     const pdq_csrs_t * const csrs,
  280     pdq_uint32_t cmd)
  281 {
  282     int cnt = 0;
  283     PDQ_CSR_WRITE(csrs, csr_host_int_type_0, PDQ_HOST_INT_CSR_CMD_DONE);
  284     PDQ_CSR_WRITE(csrs, csr_port_control, PDQ_PCTL_CMD_ERROR | cmd);
  285     while ((PDQ_CSR_READ(csrs, csr_host_int_type_0) & PDQ_HOST_INT_CSR_CMD_DONE) == 0 && cnt < 33000000)
  286         cnt++;
  287     PDQ_PRINTF(("CSR cmd spun %d times\n", cnt));
  288     if (PDQ_CSR_READ(csrs, csr_host_int_type_0) & PDQ_HOST_INT_CSR_CMD_DONE) {
  289         PDQ_CSR_WRITE(csrs, csr_host_int_type_0, PDQ_HOST_INT_CSR_CMD_DONE);
  290         return (PDQ_CSR_READ(csrs, csr_port_control) & PDQ_PCTL_CMD_ERROR) ? PDQ_FALSE : PDQ_TRUE;
  291     }
  292     /* adapter failure */
  293     PDQ_ASSERT(0);
  294     return PDQ_FALSE;
  295 }
  296 
  297 static void
  298 pdq_read_mla(
  299     const pdq_csrs_t * const csrs,
  300     pdq_lanaddr_t *hwaddr)
  301 {
  302     pdq_uint32_t data;
  303 
  304     PDQ_CSR_WRITE(csrs, csr_port_data_a, 0);
  305     pdq_do_port_control(csrs, PDQ_PCTL_MLA_READ);
  306     data = PDQ_CSR_READ(csrs, csr_host_data);
  307 
  308     hwaddr->lanaddr_bytes[0] = (data >> 0) & 0xFF;
  309     hwaddr->lanaddr_bytes[1] = (data >> 8) & 0xFF;
  310     hwaddr->lanaddr_bytes[2] = (data >> 16) & 0xFF;
  311     hwaddr->lanaddr_bytes[3] = (data >> 24) & 0xFF;
  312 
  313     PDQ_CSR_WRITE(csrs, csr_port_data_a, 1);
  314     pdq_do_port_control(csrs, PDQ_PCTL_MLA_READ);
  315     data = PDQ_CSR_READ(csrs, csr_host_data);
  316 
  317     hwaddr->lanaddr_bytes[4] = (data >> 0) & 0xFF;
  318     hwaddr->lanaddr_bytes[5] = (data >> 8) & 0xFF;
  319 }
  320 
  321 static void
  322 pdq_read_fwrev(
  323     const pdq_csrs_t * const csrs,
  324     pdq_fwrev_t *fwrev)
  325 {
  326     pdq_uint32_t data;
  327 
  328     pdq_do_port_control(csrs, PDQ_PCTL_FW_REV_READ);
  329     data = PDQ_CSR_READ(csrs, csr_host_data);
  330 
  331     fwrev->fwrev_bytes[3] = (data >> 0) & 0xFF;
  332     fwrev->fwrev_bytes[2] = (data >> 8) & 0xFF;
  333     fwrev->fwrev_bytes[1] = (data >> 16) & 0xFF;
  334     fwrev->fwrev_bytes[0] = (data >> 24) & 0xFF;
  335 }
  336 
  337 static pdq_boolean_t
  338 pdq_read_error_log(
  339     pdq_t *pdq,
  340     pdq_response_error_log_get_t *log_entry)
  341 {
  342     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
  343     pdq_uint32_t *ptr = (pdq_uint32_t *) log_entry;
  344 
  345     pdq_do_port_control(csrs, PDQ_PCTL_ERROR_LOG_START);
  346 
  347     while (pdq_do_port_control(csrs, PDQ_PCTL_FW_REV_READ) == PDQ_TRUE) {
  348         *ptr++ = PDQ_CSR_READ(csrs, csr_host_data);
  349         if ((pdq_uint8_t *) ptr - (pdq_uint8_t *) log_entry == sizeof(*log_entry))
  350             break;
  351     }
  352     return (ptr == (pdq_uint32_t *) log_entry) ? PDQ_FALSE : PDQ_TRUE;
  353 }
  354 
  355 static pdq_chip_rev_t
  356 pdq_read_chiprev(
  357     const pdq_csrs_t * const csrs)
  358 {
  359     pdq_uint32_t data;
  360 
  361     PDQ_CSR_WRITE(csrs, csr_port_data_a, PDQ_SUB_CMD_PDQ_REV_GET);
  362     pdq_do_port_control(csrs, PDQ_PCTL_SUB_CMD);
  363     data = PDQ_CSR_READ(csrs, csr_host_data);
  364 
  365     return (pdq_chip_rev_t) data;
  366 }
  367 
  368 static const struct {
  369     size_t cmd_len;
  370     size_t rsp_len;
  371     const char *cmd_name;
  372 } pdq_cmd_info[] = {
  373     { sizeof(pdq_cmd_generic_t),                /* 0 - PDQC_START */
  374       sizeof(pdq_response_generic_t),
  375       "Start"
  376     },
  377     { sizeof(pdq_cmd_filter_set_t),             /* 1 - PDQC_FILTER_SET */
  378       sizeof(pdq_response_generic_t),
  379       "Filter Set"
  380     },
  381     { sizeof(pdq_cmd_generic_t),                /* 2 - PDQC_FILTER_GET */
  382       sizeof(pdq_response_filter_get_t),
  383       "Filter Get"
  384     },
  385     { sizeof(pdq_cmd_chars_set_t),              /* 3 - PDQC_CHARS_SET */
  386       sizeof(pdq_response_generic_t),
  387       "Chars Set"
  388     },
  389     { sizeof(pdq_cmd_generic_t),                /* 4 - PDQC_STATUS_CHARS_GET */
  390       sizeof(pdq_response_status_chars_get_t),
  391       "Status Chars Get"
  392     },
  393 #if 0
  394     { sizeof(pdq_cmd_generic_t),                /* 5 - PDQC_COUNTERS_GET */
  395       sizeof(pdq_response_counters_get_t),
  396       "Counters Get"
  397     },
  398     { sizeof(pdq_cmd_counters_set_t),           /* 6 - PDQC_COUNTERS_SET */
  399       sizeof(pdq_response_generic_t),
  400       "Counters Set"
  401     },
  402 #else
  403     { 0, 0, "Counters Get" },
  404     { 0, 0, "Counters Set" },
  405 #endif
  406     { sizeof(pdq_cmd_addr_filter_set_t),        /* 7 - PDQC_ADDR_FILTER_SET */
  407       sizeof(pdq_response_generic_t),
  408       "Addr Filter Set"
  409     },
  410     { sizeof(pdq_cmd_generic_t),                /* 8 - PDQC_ADDR_FILTER_GET */
  411       sizeof(pdq_response_addr_filter_get_t),
  412       "Addr Filter Get"
  413     },
  414     { sizeof(pdq_cmd_generic_t),                /* 9 - PDQC_ERROR_LOG_CLEAR */
  415       sizeof(pdq_response_generic_t),
  416       "Error Log Clear"
  417     },
  418     { sizeof(pdq_cmd_generic_t),                /* 10 - PDQC_ERROR_LOG_SET */
  419       sizeof(pdq_response_generic_t),
  420       "Error Log Set"
  421     },
  422     { sizeof(pdq_cmd_generic_t),                /* 11 - PDQC_FDDI_MIB_GET */
  423       sizeof(pdq_response_generic_t),
  424       "FDDI MIB Get"
  425     },
  426     { sizeof(pdq_cmd_generic_t),                /* 12 - PDQC_DEC_EXT_MIB_GET */
  427       sizeof(pdq_response_generic_t),
  428       "DEC Ext MIB Get"
  429     },
  430     { sizeof(pdq_cmd_generic_t),                /* 13 - PDQC_DEC_SPECIFIC_GET */
  431       sizeof(pdq_response_generic_t),
  432       "DEC Specific Get"
  433     },
  434     { sizeof(pdq_cmd_generic_t),                /* 14 - PDQC_SNMP_SET */
  435       sizeof(pdq_response_generic_t),
  436       "SNMP Set"
  437     },
  438     { 0, 0, "N/A" },
  439     { sizeof(pdq_cmd_generic_t),                /* 16 - PDQC_SMT_MIB_GET */
  440       sizeof(pdq_response_generic_t),
  441       "SMT MIB Get"
  442     },
  443     { sizeof(pdq_cmd_generic_t),                /* 17 - PDQC_SMT_MIB_SET */
  444       sizeof(pdq_response_generic_t),
  445       "SMT MIB Set",
  446     },
  447     { 0, 0, "Bogus CMD" },
  448 };
  449 
  450 static void
  451 pdq_queue_commands(
  452     pdq_t *pdq)
  453 {
  454     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
  455     pdq_command_info_t * const ci = &pdq->pdq_command_info;
  456     pdq_descriptor_block_t * const dbp = pdq->pdq_dbp;
  457     pdq_txdesc_t * const txd = &dbp->pdqdb_command_requests[ci->ci_request_producer];
  458     pdq_cmd_code_t op;
  459     pdq_uint32_t cmdlen, rsplen, mask;
  460 
  461     /*
  462      * If there are commands or responses active or there aren't
  463      * any pending commands, then don't queue any more.
  464      */
  465     if (ci->ci_command_active || ci->ci_pending_commands == 0)
  466         return;
  467 
  468     /*
  469      * Determine which command needs to be queued.
  470      */
  471     op = PDQC_SMT_MIB_SET;
  472     for (mask = 1 << ((int) op); (mask & ci->ci_pending_commands) == 0; mask >>= 1)
  473         op = (pdq_cmd_code_t) ((int) op - 1);
  474     /*
  475      * Obtain the sizes needed for the command and response.
  476      * Round up to PDQ_CMD_RX_ALIGNMENT so the receive buffer is
  477      * always properly aligned.
  478      */
  479     cmdlen = PDQ_ROUNDUP(pdq_cmd_info[op].cmd_len, PDQ_CMD_RX_ALIGNMENT);
  480     rsplen = PDQ_ROUNDUP(pdq_cmd_info[op].rsp_len, PDQ_CMD_RX_ALIGNMENT);
  481     if (cmdlen < rsplen)
  482         cmdlen = rsplen;
  483     /*
  484      * Since only one command at a time will be queued, there will always
  485      * be enough space.
  486      */
  487 
  488     /*
  489      * Obtain and fill in the descriptor for the command (descriptor is
  490      * pre-initialized)
  491      */
  492     txd->txd_seg_len = cmdlen;
  493 
  494     /*
  495      * Clear the command area, set the opcode, and the command from the pending
  496      * mask.
  497      */
  498 
  499     ci->ci_queued_commands[ci->ci_request_producer] = op;
  500 #if defined(PDQVERBOSE)
  501     ((pdq_response_generic_t *) ci->ci_response_bufstart)->generic_op = PDQC_BOGUS_CMD;
  502 #endif
  503     PDQ_OS_MEMZERO(ci->ci_request_bufstart, cmdlen);
  504     *(pdq_cmd_code_t *) ci->ci_request_bufstart = op;
  505     ci->ci_pending_commands &= ~mask;
  506 
  507     /*
  508      * Fill in the command area, if needed.
  509      */
  510     switch (op) {
  511         case PDQC_FILTER_SET: {
  512             pdq_cmd_filter_set_t *filter_set = (pdq_cmd_filter_set_t *) ci->ci_request_bufstart;
  513             unsigned idx = 0;
  514             filter_set->filter_set_items[idx].item_code = PDQI_IND_GROUP_PROM;
  515             filter_set->filter_set_items[idx].filter_state = (pdq->pdq_flags & PDQ_PROMISC ? PDQ_FILTER_PASS : PDQ_FILTER_BLOCK);
  516             idx++;
  517             filter_set->filter_set_items[idx].item_code = PDQI_GROUP_PROM;
  518             filter_set->filter_set_items[idx].filter_state = (pdq->pdq_flags & PDQ_ALLMULTI ? PDQ_FILTER_PASS : PDQ_FILTER_BLOCK);
  519             idx++;
  520             filter_set->filter_set_items[idx].item_code = PDQI_SMT_PROM;
  521             filter_set->filter_set_items[idx].filter_state = ((pdq->pdq_flags & (PDQ_PROMISC|PDQ_PASS_SMT)) == (PDQ_PROMISC|PDQ_PASS_SMT) ? PDQ_FILTER_PASS : PDQ_FILTER_BLOCK);
  522             idx++;
  523             filter_set->filter_set_items[idx].item_code = PDQI_SMT_USER;
  524             filter_set->filter_set_items[idx].filter_state = (pdq->pdq_flags & PDQ_PASS_SMT ? PDQ_FILTER_PASS : PDQ_FILTER_BLOCK);
  525             idx++;
  526             filter_set->filter_set_items[idx].item_code = PDQI_EOL;
  527             break;
  528         }
  529         case PDQC_ADDR_FILTER_SET: {
  530             pdq_cmd_addr_filter_set_t *addr_filter_set = (pdq_cmd_addr_filter_set_t *) ci->ci_request_bufstart;
  531             pdq_lanaddr_t *addr = addr_filter_set->addr_filter_set_addresses;
  532             addr->lanaddr_bytes[0] = 0xFF;
  533             addr->lanaddr_bytes[1] = 0xFF;
  534             addr->lanaddr_bytes[2] = 0xFF;
  535             addr->lanaddr_bytes[3] = 0xFF;
  536             addr->lanaddr_bytes[4] = 0xFF;
  537             addr->lanaddr_bytes[5] = 0xFF;
  538             addr++;
  539             pdq_os_addr_fill(pdq, addr, 61);
  540             break;
  541         }
  542         case PDQC_SNMP_SET: {
  543             pdq_cmd_snmp_set_t *snmp_set = (pdq_cmd_snmp_set_t *) ci->ci_request_bufstart;
  544             unsigned idx = 0;
  545             snmp_set->snmp_set_items[idx].item_code = PDQSNMP_FULL_DUPLEX_ENABLE;
  546             snmp_set->snmp_set_items[idx].item_value = (pdq->pdq_flags & PDQ_WANT_FDX ? 1 : 2);
  547             snmp_set->snmp_set_items[idx].item_port = 0;
  548             idx++;
  549             snmp_set->snmp_set_items[idx].item_code = PDQSNMP_EOL;
  550             break;
  551         }
  552         default: {      /* to make gcc happy */
  553             break;
  554         }
  555     }
  556 
  557 
  558     /*
  559      * Sync the command request buffer and descriptor, then advance
  560      * the request producer index.
  561      */
  562     PDQ_OS_CMDRQST_PRESYNC(pdq, txd->txd_seg_len);
  563     PDQ_OS_DESC_PRESYNC(pdq, txd, sizeof(pdq_txdesc_t));
  564     PDQ_ADVANCE(ci->ci_request_producer, 1, PDQ_RING_MASK(dbp->pdqdb_command_requests));
  565 
  566     /*
  567      * Sync the command response buffer and advance the response
  568      * producer index (descriptor is already pre-initialized)
  569      */
  570     PDQ_OS_CMDRSP_PRESYNC(pdq, PDQ_SIZE_COMMAND_RESPONSE);
  571     PDQ_ADVANCE(ci->ci_response_producer, 1, PDQ_RING_MASK(dbp->pdqdb_command_responses));
  572     /*
  573      * At this point the command is done.  All that needs to be done is to
  574      * produce it to the PDQ.
  575      */
  576     PDQ_PRINTF(("PDQ Queue Command Request: %s queued\n",
  577                 pdq_cmd_info[op].cmd_name));
  578 
  579     ci->ci_command_active++;
  580     PDQ_CSR_WRITE(csrs, csr_cmd_response_producer, ci->ci_response_producer | (ci->ci_response_completion << 8));
  581     PDQ_CSR_WRITE(csrs, csr_cmd_request_producer, ci->ci_request_producer | (ci->ci_request_completion << 8));
  582 }
  583 
  584 static void
  585 pdq_process_command_responses(
  586     pdq_t * const pdq)
  587 {
  588     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
  589     pdq_command_info_t * const ci = &pdq->pdq_command_info;
  590     volatile const pdq_consumer_block_t * const cbp = pdq->pdq_cbp;
  591     pdq_descriptor_block_t * const dbp = pdq->pdq_dbp;
  592     const pdq_response_generic_t *rspgen;
  593 
  594     /*
  595      * We have to process the command and response in tandem so
  596      * just wait for the response to be consumed.  If it has been
  597      * consumed then the command must have been as well.
  598      */
  599 
  600     if (cbp->pdqcb_command_response == ci->ci_response_completion)
  601         return;
  602 
  603     PDQ_ASSERT(cbp->pdqcb_command_request != ci->ci_request_completion);
  604 
  605     PDQ_OS_CMDRSP_POSTSYNC(pdq, PDQ_SIZE_COMMAND_RESPONSE);
  606     rspgen = (const pdq_response_generic_t *) ci->ci_response_bufstart;
  607     PDQ_ASSERT(rspgen->generic_op == ci->ci_queued_commands[ci->ci_request_completion]);
  608     PDQ_ASSERT(rspgen->generic_status == PDQR_SUCCESS);
  609     PDQ_PRINTF(("PDQ Process Command Response: %s completed (status=%d [0x%x])\n",
  610                 pdq_cmd_info[rspgen->generic_op].cmd_name,
  611                 rspgen->generic_status, rspgen->generic_status));
  612 
  613     if (rspgen->generic_op == PDQC_STATUS_CHARS_GET && (pdq->pdq_flags & PDQ_PRINTCHARS)) {
  614         pdq->pdq_flags &= ~PDQ_PRINTCHARS;
  615         pdq_print_fddi_chars(pdq, (const pdq_response_status_chars_get_t *) rspgen);
  616     } else if (rspgen->generic_op == PDQC_DEC_EXT_MIB_GET) {
  617         pdq->pdq_flags &= ~PDQ_IS_FDX;
  618         if (((const pdq_response_dec_ext_mib_get_t *)rspgen)->dec_ext_mib_get.fdx_operational)
  619             pdq->pdq_flags |= PDQ_IS_FDX;
  620     }
  621 
  622     PDQ_ADVANCE(ci->ci_request_completion, 1, PDQ_RING_MASK(dbp->pdqdb_command_requests));
  623     PDQ_ADVANCE(ci->ci_response_completion, 1, PDQ_RING_MASK(dbp->pdqdb_command_responses));
  624     ci->ci_command_active = 0;
  625 
  626     if (ci->ci_pending_commands != 0) {
  627         pdq_queue_commands(pdq);
  628     } else {
  629         PDQ_CSR_WRITE(csrs, csr_cmd_response_producer,
  630                       ci->ci_response_producer | (ci->ci_response_completion << 8));
  631         PDQ_CSR_WRITE(csrs, csr_cmd_request_producer,
  632                       ci->ci_request_producer | (ci->ci_request_completion << 8));
  633     }
  634 }
  635 
  636 /*
  637  * This following routine processes unsolicited events.
  638  * In addition, it also fills the unsolicited queue with
  639  * event buffers so it can be used to initialize the queue
  640  * as well.
  641  */
  642 static void
  643 pdq_process_unsolicited_events(
  644     pdq_t *pdq)
  645 {
  646     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
  647     pdq_unsolicited_info_t *ui = &pdq->pdq_unsolicited_info;
  648     volatile const pdq_consumer_block_t *cbp = pdq->pdq_cbp;
  649     pdq_descriptor_block_t *dbp = pdq->pdq_dbp;
  650 
  651     /*
  652      * Process each unsolicited event (if any).
  653      */
  654 
  655     while (cbp->pdqcb_unsolicited_event != ui->ui_completion) {
  656         const pdq_unsolicited_event_t *event;
  657         event = &ui->ui_events[ui->ui_completion & (PDQ_NUM_UNSOLICITED_EVENTS-1)];
  658         PDQ_OS_UNSOL_EVENT_POSTSYNC(pdq, event);
  659 
  660         switch (event->event_type) {
  661             case PDQ_UNSOLICITED_EVENT: {
  662                 int bad_event = 0;
  663                 switch (event->event_entity) {
  664                     case PDQ_ENTITY_STATION: {
  665                         bad_event = event->event_code.value >= PDQ_STATION_EVENT_MAX;
  666                         break;
  667                     }
  668                     case PDQ_ENTITY_LINK: {
  669                         bad_event = event->event_code.value >= PDQ_LINK_EVENT_MAX;
  670                         break;
  671                     }
  672                     case PDQ_ENTITY_PHY_PORT: {
  673                         bad_event = event->event_code.value >= PDQ_PHY_EVENT_MAX;
  674                         break;
  675                     }
  676                     default: {
  677                         bad_event = 1;
  678                         break;
  679                     }
  680                 }
  681                 if (bad_event) {
  682                     break;
  683                 }
  684                 printf(PDQ_OS_PREFIX "Unsolicited Event: %s: %s",
  685                        PDQ_OS_PREFIX_ARGS,
  686                        pdq_entities[event->event_entity],
  687                        pdq_event_codes[event->event_entity][event->event_code.value]);
  688                 if (event->event_entity == PDQ_ENTITY_PHY_PORT)
  689                     printf("[%d]", event->event_index);
  690                 printf("\n");
  691                 break;
  692             }
  693             case PDQ_UNSOLICITED_COUNTERS: {
  694                 break;
  695             }
  696         }
  697         PDQ_OS_UNSOL_EVENT_PRESYNC(pdq, event);
  698         PDQ_ADVANCE(ui->ui_completion, 1, PDQ_RING_MASK(dbp->pdqdb_unsolicited_events));
  699         ui->ui_free++;
  700     }
  701 
  702     /*
  703      * Now give back the event buffers back to the PDQ.
  704      */
  705     PDQ_ADVANCE(ui->ui_producer, ui->ui_free, PDQ_RING_MASK(dbp->pdqdb_unsolicited_events));
  706     ui->ui_free = 0;
  707 
  708     PDQ_CSR_WRITE(csrs, csr_unsolicited_producer,
  709                   ui->ui_producer | (ui->ui_completion << 8));
  710 }
  711 
  712 static void
  713 pdq_process_received_data(
  714     pdq_t *pdq,
  715     pdq_rx_info_t *rx,
  716     pdq_rxdesc_t *receives,
  717     pdq_uint32_t completion_goal,
  718     pdq_uint32_t ring_mask)
  719 {
  720     pdq_uint32_t completion = rx->rx_completion;
  721     pdq_uint32_t producer = rx->rx_producer;
  722     PDQ_OS_DATABUF_T **buffers = (PDQ_OS_DATABUF_T **) rx->rx_buffers;
  723     pdq_rxdesc_t *rxd;
  724     pdq_uint32_t idx;
  725 
  726     while (completion != completion_goal) {
  727         PDQ_OS_DATABUF_T *fpdu, *lpdu, *npdu;
  728         pdq_uint8_t *dataptr;
  729         pdq_uint32_t fc, datalen, pdulen, segcnt;
  730         pdq_rxstatus_t status;
  731 
  732         fpdu = lpdu = buffers[completion];
  733         PDQ_ASSERT(fpdu != NULL);
  734         PDQ_OS_RXPDU_POSTSYNC(pdq, fpdu, 0, sizeof(u_int32_t));
  735         dataptr = PDQ_OS_DATABUF_PTR(fpdu);
  736         status = *(pdq_rxstatus_t *) dataptr;
  737         if (status.rxs_rcc_badpdu == 0) {
  738             datalen = status.rxs_len;
  739             PDQ_OS_RXPDU_POSTSYNC(pdq, fpdu, sizeof(u_int32_t),
  740                                   PDQ_RX_FC_OFFSET + 1 - sizeof(u_int32_t));
  741             fc = dataptr[PDQ_RX_FC_OFFSET];
  742             switch (fc & (PDQ_FDDIFC_C|PDQ_FDDIFC_L|PDQ_FDDIFC_F)) {
  743                 case PDQ_FDDI_LLC_ASYNC:
  744                 case PDQ_FDDI_LLC_SYNC:
  745                 case PDQ_FDDI_IMP_ASYNC:
  746                 case PDQ_FDDI_IMP_SYNC: {
  747                     if (datalen > PDQ_FDDI_MAX || datalen < PDQ_FDDI_LLC_MIN) {
  748                         PDQ_PRINTF(("discard: bad length %d\n", datalen));
  749                         goto discard_frame;
  750                     }
  751                     break;
  752                 }
  753                 case PDQ_FDDI_SMT: {
  754                     if (datalen > PDQ_FDDI_MAX || datalen < PDQ_FDDI_SMT_MIN)
  755                         goto discard_frame;
  756                     break;
  757                 }
  758                 default: {
  759                     PDQ_PRINTF(("discard: bad fc 0x%x\n", fc));
  760                     goto discard_frame;
  761                 }
  762             }
  763             /*
  764              * Update the lengths of the data buffers now that we know
  765              * the real length.
  766              */
  767             pdulen = datalen + (PDQ_RX_FC_OFFSET - PDQ_OS_HDR_OFFSET) - 4 /* CRC */;
  768             segcnt = (pdulen + PDQ_OS_HDR_OFFSET + PDQ_OS_DATABUF_SIZE - 1) / PDQ_OS_DATABUF_SIZE; 
  769             PDQ_OS_DATABUF_ALLOC(pdq, npdu);
  770             if (npdu == NULL) {
  771                 PDQ_PRINTF(("discard: no databuf #0\n"));
  772                 goto discard_frame;
  773             }
  774             buffers[completion] = npdu;
  775             for (idx = 1; idx < segcnt; idx++) {
  776                 PDQ_OS_DATABUF_ALLOC(pdq, npdu);
  777                 if (npdu == NULL) {
  778                     PDQ_OS_DATABUF_NEXT_SET(lpdu, NULL);
  779                     PDQ_OS_DATABUF_FREE(pdq, fpdu);
  780                     goto discard_frame;
  781                 }
  782                 PDQ_OS_DATABUF_NEXT_SET(lpdu, buffers[(completion + idx) & ring_mask]);
  783                 lpdu = PDQ_OS_DATABUF_NEXT(lpdu);
  784                 buffers[(completion + idx) & ring_mask] = npdu;
  785             }
  786             PDQ_OS_DATABUF_NEXT_SET(lpdu, NULL);
  787             for (idx = 0; idx < PDQ_RX_SEGCNT; idx++) {
  788                 buffers[(producer + idx) & ring_mask] = 
  789                     buffers[(completion + idx) & ring_mask];
  790                 buffers[(completion + idx) & ring_mask] = NULL;
  791             }
  792             PDQ_OS_DATABUF_ADJ(fpdu, PDQ_OS_HDR_OFFSET);
  793             if (segcnt == 1) {
  794                 PDQ_OS_DATABUF_LEN_SET(fpdu, pdulen);
  795             } else {
  796                 PDQ_OS_DATABUF_LEN_SET(lpdu, pdulen + PDQ_OS_HDR_OFFSET - (segcnt - 1) * PDQ_OS_DATABUF_SIZE);
  797             }
  798             /*
  799              * Do not pass to protocol if packet was received promiscuously
  800              */
  801             pdq_os_receive_pdu(pdq, fpdu, pdulen,
  802                                status.rxs_rcc_dd < PDQ_RXS_RCC_DD_CAM_MATCH);
  803             rx->rx_free += PDQ_RX_SEGCNT;
  804             PDQ_ADVANCE(producer, PDQ_RX_SEGCNT, ring_mask);
  805             PDQ_ADVANCE(completion, PDQ_RX_SEGCNT, ring_mask);
  806             continue;
  807         } else {
  808             PDQ_PRINTF(("discard: bad pdu 0x%x(%d.%d.%d.%d.%d)\n", status.rxs_status,
  809                         status.rxs_rcc_badpdu, status.rxs_rcc_badcrc,
  810                         status.rxs_rcc_reason, status.rxs_fsc, status.rxs_fsb_e));
  811             if (status.rxs_rcc_reason == 7)
  812                 goto discard_frame;
  813             if (status.rxs_rcc_reason != 0) {
  814                 /* hardware fault */
  815                 if (status.rxs_rcc_badcrc) {
  816                     printf(PDQ_OS_PREFIX " MAC CRC error (source=%x-%x-%x-%x-%x-%x)\n",
  817                            PDQ_OS_PREFIX_ARGS,
  818                            dataptr[PDQ_RX_FC_OFFSET+1],
  819                            dataptr[PDQ_RX_FC_OFFSET+2],
  820                            dataptr[PDQ_RX_FC_OFFSET+3],
  821                            dataptr[PDQ_RX_FC_OFFSET+4],
  822                            dataptr[PDQ_RX_FC_OFFSET+5],
  823                            dataptr[PDQ_RX_FC_OFFSET+6]);
  824                     /* rx->rx_badcrc++; */
  825                 } else if (status.rxs_fsc == 0 || status.rxs_fsb_e == 1) {
  826                     /* rx->rx_frame_status_errors++; */
  827                 } else {
  828                     /* hardware fault */
  829                 }
  830             }
  831         }
  832       discard_frame:
  833         /*
  834          * Discarded frames go right back on the queue; therefore
  835          * ring entries were freed.
  836          */
  837         for (idx = 0; idx < PDQ_RX_SEGCNT; idx++) {
  838             buffers[producer] = buffers[completion];
  839             buffers[completion] = NULL;
  840             rxd = &receives[rx->rx_producer];
  841             if (idx == 0) {
  842                 rxd->rxd_sop = 1; rxd->rxd_seg_cnt = PDQ_RX_SEGCNT - 1;
  843             } else {
  844                 rxd->rxd_sop = 0; rxd->rxd_seg_cnt = 0;
  845             }
  846             rxd->rxd_pa_hi = 0;
  847             rxd->rxd_seg_len_hi = PDQ_OS_DATABUF_SIZE / 16;
  848             rxd->rxd_pa_lo = PDQ_OS_DATABUF_BUSPA(pdq, buffers[rx->rx_producer]);
  849             PDQ_OS_RXPDU_PRESYNC(pdq, buffers[rx->rx_producer], 0, PDQ_OS_DATABUF_SIZE);
  850             PDQ_OS_DESC_PRESYNC(pdq, rxd, sizeof(*rxd));
  851             PDQ_ADVANCE(rx->rx_producer, 1, ring_mask); 
  852             PDQ_ADVANCE(producer, 1, ring_mask);        
  853             PDQ_ADVANCE(completion, 1, ring_mask);
  854         }
  855     }
  856     rx->rx_completion = completion;
  857 
  858     while (rx->rx_free > PDQ_RX_SEGCNT && rx->rx_free > rx->rx_target) {
  859         PDQ_OS_DATABUF_T *pdu;
  860         /*
  861          * Allocate the needed number of data buffers.
  862          * Try to obtain them from our free queue before
  863          * asking the system for more.
  864          */
  865         for (idx = 0; idx < PDQ_RX_SEGCNT; idx++) {
  866             if ((pdu = buffers[(rx->rx_producer + idx) & ring_mask]) == NULL) {
  867                 PDQ_OS_DATABUF_ALLOC(pdq, pdu);
  868                 if (pdu == NULL)
  869                     break;
  870                 buffers[(rx->rx_producer + idx) & ring_mask] = pdu;
  871             }
  872             rxd = &receives[(rx->rx_producer + idx) & ring_mask];
  873             if (idx == 0) {
  874                 rxd->rxd_sop = 1; rxd->rxd_seg_cnt = PDQ_RX_SEGCNT - 1;
  875             } else {
  876                 rxd->rxd_sop = 0; rxd->rxd_seg_cnt = 0;
  877             }
  878             rxd->rxd_pa_hi = 0;
  879             rxd->rxd_seg_len_hi = PDQ_OS_DATABUF_SIZE / 16;
  880             rxd->rxd_pa_lo = PDQ_OS_DATABUF_BUSPA(pdq, pdu);
  881             PDQ_OS_RXPDU_PRESYNC(pdq, pdu, 0, PDQ_OS_DATABUF_SIZE);
  882             PDQ_OS_DESC_PRESYNC(pdq, rxd, sizeof(*rxd));
  883         }
  884         if (idx < PDQ_RX_SEGCNT) {
  885             /*
  886              * We didn't get all databufs required to complete a new
  887              * receive buffer.  Keep the ones we got and retry a bit
  888              * later for the rest.
  889              */
  890             break;
  891         }
  892         PDQ_ADVANCE(rx->rx_producer, PDQ_RX_SEGCNT, ring_mask);
  893         rx->rx_free -= PDQ_RX_SEGCNT;
  894     }
  895 }
  896 
  897 static void pdq_process_transmitted_data(pdq_t *pdq);
  898 
  899 pdq_boolean_t
  900 pdq_queue_transmit_data(
  901     pdq_t *pdq,
  902     PDQ_OS_DATABUF_T *pdu)
  903 {
  904     pdq_tx_info_t * const tx = &pdq->pdq_tx_info;
  905     pdq_descriptor_block_t * const dbp = pdq->pdq_dbp;
  906     pdq_uint32_t producer = tx->tx_producer;
  907     pdq_txdesc_t *eop = NULL;
  908     PDQ_OS_DATABUF_T *pdu0;
  909     pdq_uint32_t freecnt;
  910 #if defined(PDQ_BUS_DMA)
  911     bus_dmamap_t map;
  912 #endif
  913 
  914   again:
  915     if (PDQ_RX_FC_OFFSET == PDQ_OS_HDR_OFFSET) {
  916         freecnt = tx->tx_free - 1;
  917     } else {
  918         freecnt = tx->tx_free;
  919     }
  920     /*
  921      * Need 2 or more descriptors to be able to send.
  922      */
  923     if (freecnt == 0) {
  924         pdq->pdq_intrmask |= PDQ_HOST_INT_TX_ENABLE;
  925         PDQ_CSR_WRITE(&pdq->pdq_csrs, csr_host_int_enable, pdq->pdq_intrmask);
  926         return PDQ_FALSE;
  927     }
  928 
  929     if (PDQ_RX_FC_OFFSET == PDQ_OS_HDR_OFFSET) {
  930         dbp->pdqdb_transmits[producer] = tx->tx_hdrdesc;
  931         PDQ_OS_DESC_PRESYNC(pdq, &dbp->pdqdb_transmits[producer], sizeof(pdq_txdesc_t));
  932         PDQ_ADVANCE(producer, 1, PDQ_RING_MASK(dbp->pdqdb_transmits));
  933     }
  934 
  935 #if defined(PDQ_BUS_DMA)
  936     map = M_GETCTX(pdu, bus_dmamap_t);
  937     if (freecnt >= map->dm_nsegs) {
  938         int idx;
  939         for (idx = 0; idx < map->dm_nsegs; idx++) {
  940             /*
  941              * Initialize the transmit descriptor
  942              */
  943             eop = &dbp->pdqdb_transmits[producer];
  944             eop->txd_seg_len = map->dm_segs[idx].ds_len;
  945             eop->txd_pa_lo = map->dm_segs[idx].ds_addr;
  946             eop->txd_sop = eop->txd_eop = eop->txd_pa_hi = 0;
  947             PDQ_OS_DESC_PRESYNC(pdq, eop, sizeof(pdq_txdesc_t));
  948             freecnt--;
  949             PDQ_ADVANCE(producer, 1, PDQ_RING_MASK(dbp->pdqdb_transmits));
  950         }
  951         pdu0 = NULL;
  952     } else {
  953         pdu0 = pdu;
  954     }
  955 #else
  956     for (freecnt = tx->tx_free - 1, pdu0 = pdu; pdu0 != NULL && freecnt > 0;) {
  957         pdq_uint32_t fraglen, datalen = PDQ_OS_DATABUF_LEN(pdu0);
  958         const pdq_uint8_t *dataptr = PDQ_OS_DATABUF_PTR(pdu0);
  959 
  960         /*
  961          * The first segment is limited to the space remaining in
  962          * page.  All segments after that can be up to a full page
  963          * in size.
  964          */
  965         fraglen = PDQ_OS_PAGESIZE - ((dataptr - (pdq_uint8_t *) NULL) & (PDQ_OS_PAGESIZE-1));
  966         while (datalen > 0 && freecnt > 0) {
  967             pdq_uint32_t seglen = (fraglen < datalen ? fraglen : datalen);
  968 
  969             /*
  970              * Initialize the transmit descriptor
  971              */
  972             eop = &dbp->pdqdb_transmits[producer];
  973             eop->txd_seg_len = seglen;
  974             eop->txd_pa_lo = PDQ_OS_VA_TO_BUSPA(pdq, dataptr);
  975             eop->txd_sop = eop->txd_eop = eop->txd_pa_hi = 0;
  976             PDQ_OS_DESC_PRESYNC(pdq, eop, sizeof(pdq_txdesc_t));
  977             datalen -= seglen;
  978             dataptr += seglen;
  979             fraglen = PDQ_OS_PAGESIZE;
  980             freecnt--;
  981             PDQ_ADVANCE(producer, 1, PDQ_RING_MASK(dbp->pdqdb_transmits));
  982         }
  983         pdu0 = PDQ_OS_DATABUF_NEXT(pdu0);
  984     }
  985 #endif /* defined(PDQ_BUS_DMA) */
  986     if (pdu0 != NULL) {
  987         unsigned completion = tx->tx_completion;
  988         PDQ_ASSERT(freecnt == 0);
  989         PDQ_OS_CONSUMER_POSTSYNC(pdq);
  990         pdq_process_transmitted_data(pdq);
  991         if (completion != tx->tx_completion) {
  992             producer = tx->tx_producer;
  993             eop = NULL;
  994             goto again;
  995         }
  996         /*
  997          * If we still have data to process then the ring was too full
  998          * to store the PDU.  Return FALSE so the caller will requeue
  999          * the PDU for later.
 1000          */
 1001         pdq->pdq_intrmask |= PDQ_HOST_INT_TX_ENABLE;
 1002         PDQ_CSR_WRITE(&pdq->pdq_csrs, csr_host_int_enable, pdq->pdq_intrmask);
 1003         return PDQ_FALSE;
 1004     }
 1005     /*
 1006      * Everything went fine.  Finish it up.
 1007      */
 1008     tx->tx_descriptor_count[tx->tx_producer] = tx->tx_free - freecnt;
 1009     if (PDQ_RX_FC_OFFSET != PDQ_OS_HDR_OFFSET) {
 1010         dbp->pdqdb_transmits[tx->tx_producer].txd_sop = 1;
 1011         PDQ_OS_DESC_PRESYNC(pdq, &dbp->pdqdb_transmits[tx->tx_producer],
 1012             sizeof(pdq_txdesc_t));
 1013     }
 1014     eop->txd_eop = 1;
 1015     PDQ_OS_DESC_PRESYNC(pdq, eop, sizeof(pdq_txdesc_t));
 1016     PDQ_OS_DATABUF_ENQUEUE(&tx->tx_txq, pdu);
 1017     tx->tx_producer = producer;
 1018     tx->tx_free = freecnt;
 1019     PDQ_DO_TYPE2_PRODUCER(pdq);
 1020     return PDQ_TRUE;
 1021 }
 1022 
 1023 static void
 1024 pdq_process_transmitted_data(
 1025     pdq_t *pdq)
 1026 {
 1027     pdq_tx_info_t *tx = &pdq->pdq_tx_info;
 1028     volatile const pdq_consumer_block_t *cbp = pdq->pdq_cbp;
 1029     pdq_descriptor_block_t *dbp = pdq->pdq_dbp;
 1030     pdq_uint32_t completion = tx->tx_completion;
 1031     int reclaimed = 0;
 1032 
 1033     while (completion != cbp->pdqcb_transmits) {
 1034         PDQ_OS_DATABUF_T *pdu;
 1035         pdq_uint32_t descriptor_count = tx->tx_descriptor_count[completion];
 1036         PDQ_ASSERT(dbp->pdqdb_transmits[completion].txd_sop == 1);
 1037         PDQ_ASSERT(dbp->pdqdb_transmits[(completion + descriptor_count - 1) & PDQ_RING_MASK(dbp->pdqdb_transmits)].txd_eop == 1);
 1038         PDQ_OS_DATABUF_DEQUEUE(&tx->tx_txq, pdu);
 1039         pdq_os_transmit_done(pdq, pdu);
 1040         tx->tx_free += descriptor_count;
 1041         reclaimed = 1;
 1042         PDQ_ADVANCE(completion, descriptor_count, PDQ_RING_MASK(dbp->pdqdb_transmits));
 1043     }
 1044     if (tx->tx_completion != completion) {
 1045         tx->tx_completion = completion;
 1046         pdq->pdq_intrmask &= ~PDQ_HOST_INT_TX_ENABLE;
 1047         PDQ_CSR_WRITE(&pdq->pdq_csrs, csr_host_int_enable, pdq->pdq_intrmask);
 1048         pdq_os_restart_transmitter(pdq);
 1049     }
 1050     if (reclaimed)
 1051         PDQ_DO_TYPE2_PRODUCER(pdq);
 1052 }
 1053 
 1054 void
 1055 pdq_flush_transmitter(
 1056     pdq_t *pdq)
 1057 {
 1058     volatile pdq_consumer_block_t *cbp = pdq->pdq_cbp;
 1059     pdq_tx_info_t *tx = &pdq->pdq_tx_info;
 1060 
 1061     for (;;) {
 1062         PDQ_OS_DATABUF_T *pdu;
 1063         PDQ_OS_DATABUF_DEQUEUE(&tx->tx_txq, pdu);
 1064         if (pdu == NULL)
 1065             break;
 1066         /*
 1067          * Don't call transmit done since the packet never made it
 1068          * out on the wire.
 1069          */
 1070         PDQ_OS_DATABUF_FREE(pdq, pdu);
 1071     }
 1072 
 1073     tx->tx_free = PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_transmits);
 1074     cbp->pdqcb_transmits = tx->tx_completion = tx->tx_producer;
 1075     PDQ_OS_CONSUMER_PRESYNC(pdq);
 1076 
 1077     PDQ_DO_TYPE2_PRODUCER(pdq);
 1078 }
 1079 
 1080 void
 1081 pdq_hwreset(
 1082     pdq_t *pdq)
 1083 {
 1084     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
 1085     pdq_state_t state;
 1086     int cnt;
 1087 
 1088     state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1089     if (state == PDQS_DMA_UNAVAILABLE)
 1090         return;
 1091     PDQ_CSR_WRITE(csrs, csr_port_data_a,
 1092                   (state == PDQS_HALTED && pdq->pdq_type != PDQ_DEFTA) ? 0 : PDQ_PRESET_SKIP_SELFTEST);
 1093     PDQ_CSR_WRITE(csrs, csr_port_reset, 1);
 1094     PDQ_OS_USEC_DELAY(100);
 1095     PDQ_CSR_WRITE(csrs, csr_port_reset, 0);
 1096     for (cnt = 100000;;cnt--) {
 1097         PDQ_OS_USEC_DELAY(1000);
 1098         state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1099         if (state == PDQS_DMA_UNAVAILABLE || cnt == 0)
 1100             break;
 1101     }
 1102     PDQ_PRINTF(("PDQ Reset spun %d cycles\n", 100000 - cnt));
 1103     PDQ_OS_USEC_DELAY(10000);
 1104     state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1105     PDQ_ASSERT(state == PDQS_DMA_UNAVAILABLE);
 1106     PDQ_ASSERT(cnt > 0);
 1107 }
 1108 
 1109 /*
 1110  * The following routine brings the PDQ from whatever state it is 
 1111  * in to DMA_UNAVAILABLE (ie. like a RESET but without doing a RESET).
 1112  */
 1113 pdq_state_t
 1114 pdq_stop(
 1115     pdq_t *pdq)
 1116 {
 1117     pdq_state_t state;
 1118     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
 1119     int cnt, pass = 0, idx;
 1120     PDQ_OS_DATABUF_T **buffers;
 1121 
 1122   restart:
 1123     state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1124     if (state != PDQS_DMA_UNAVAILABLE) {
 1125         pdq_hwreset(pdq);
 1126         state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1127         PDQ_ASSERT(state == PDQS_DMA_UNAVAILABLE);
 1128     }
 1129 #if 0
 1130     switch (state) {
 1131         case PDQS_RING_MEMBER:
 1132         case PDQS_LINK_UNAVAILABLE:
 1133         case PDQS_LINK_AVAILABLE: {
 1134             PDQ_CSR_WRITE(csrs, csr_port_data_a, PDQ_SUB_CMD_LINK_UNINIT);
 1135             PDQ_CSR_WRITE(csrs, csr_port_data_b, 0);
 1136             pdq_do_port_control(csrs, PDQ_PCTL_SUB_CMD);
 1137             state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1138             PDQ_ASSERT(state == PDQS_DMA_AVAILABLE);
 1139             /* FALLTHROUGH */
 1140         }
 1141         case PDQS_DMA_AVAILABLE: {
 1142             PDQ_CSR_WRITE(csrs, csr_port_data_a, 0);
 1143             PDQ_CSR_WRITE(csrs, csr_port_data_b, 0);
 1144             pdq_do_port_control(csrs, PDQ_PCTL_DMA_UNINIT);
 1145             state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1146             PDQ_ASSERT(state == PDQS_DMA_UNAVAILABLE);
 1147             /* FALLTHROUGH */
 1148         }
 1149         case PDQS_DMA_UNAVAILABLE: {
 1150             break;
 1151         }
 1152     }
 1153 #endif
 1154     /*
 1155      * Now we should be in DMA_UNAVAILABLE.  So bring the PDQ into
 1156      * DMA_AVAILABLE.
 1157      */
 1158 
 1159     /*
 1160      * Obtain the hardware address and firmware revisions
 1161      * (MLA = my long address which is FDDI speak for hardware address)
 1162      */
 1163     pdq_read_mla(&pdq->pdq_csrs, &pdq->pdq_hwaddr);
 1164     pdq_read_fwrev(&pdq->pdq_csrs, &pdq->pdq_fwrev);
 1165     pdq->pdq_chip_rev = pdq_read_chiprev(&pdq->pdq_csrs);
 1166 
 1167     if (pdq->pdq_type == PDQ_DEFPA) {
 1168         /*
 1169          * Disable interrupts and DMA.
 1170          */
 1171         PDQ_CSR_WRITE(&pdq->pdq_pci_csrs, csr_pfi_mode_control, 0);
 1172         PDQ_CSR_WRITE(&pdq->pdq_pci_csrs, csr_pfi_status, 0x10);
 1173     }
 1174 
 1175     /*
 1176      * Flush all the databuf queues.
 1177      */
 1178     pdq_flush_databuf_queue(pdq, &pdq->pdq_tx_info.tx_txq);
 1179     pdq->pdq_flags &= ~(PDQ_TXOK|PDQ_IS_ONRING|PDQ_IS_FDX);
 1180     buffers = (PDQ_OS_DATABUF_T **) pdq->pdq_rx_info.rx_buffers;
 1181     for (idx = 0; idx < PDQ_RING_SIZE(pdq->pdq_dbp->pdqdb_receives); idx++) {
 1182         if (buffers[idx] != NULL) {
 1183             PDQ_OS_DATABUF_FREE(pdq, buffers[idx]);
 1184             buffers[idx] = NULL;
 1185         }
 1186     }
 1187     pdq->pdq_rx_info.rx_free = PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_receives);
 1188     buffers = (PDQ_OS_DATABUF_T **) pdq->pdq_host_smt_info.rx_buffers;
 1189     for (idx = 0; idx < PDQ_RING_SIZE(pdq->pdq_dbp->pdqdb_host_smt); idx++) {
 1190         if (buffers[idx] != NULL) {
 1191             PDQ_OS_DATABUF_FREE(pdq, buffers[idx]);
 1192             buffers[idx] = NULL;
 1193         }
 1194     }
 1195     pdq->pdq_host_smt_info.rx_free = PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_host_smt);
 1196 
 1197     /*
 1198      * Reset the consumer indexes to 0.
 1199      */
 1200     pdq->pdq_cbp->pdqcb_receives = 0;
 1201     pdq->pdq_cbp->pdqcb_transmits = 0;
 1202     pdq->pdq_cbp->pdqcb_host_smt = 0;
 1203     pdq->pdq_cbp->pdqcb_unsolicited_event = 0;
 1204     pdq->pdq_cbp->pdqcb_command_response = 0;
 1205     pdq->pdq_cbp->pdqcb_command_request = 0;
 1206     PDQ_OS_CONSUMER_PRESYNC(pdq);
 1207 
 1208     /*
 1209      * Reset the producer and completion indexes to 0.
 1210      */
 1211     pdq->pdq_command_info.ci_request_producer = 0;
 1212     pdq->pdq_command_info.ci_response_producer = 0;
 1213     pdq->pdq_command_info.ci_request_completion = 0;
 1214     pdq->pdq_command_info.ci_response_completion = 0;
 1215     pdq->pdq_unsolicited_info.ui_producer = 0;
 1216     pdq->pdq_unsolicited_info.ui_completion = 0;
 1217     pdq->pdq_rx_info.rx_producer = 0;
 1218     pdq->pdq_rx_info.rx_completion = 0;
 1219     pdq->pdq_tx_info.tx_producer = 0;
 1220     pdq->pdq_tx_info.tx_completion = 0;
 1221     pdq->pdq_host_smt_info.rx_producer = 0;
 1222     pdq->pdq_host_smt_info.rx_completion = 0;
 1223 
 1224     pdq->pdq_command_info.ci_command_active = 0;
 1225     pdq->pdq_unsolicited_info.ui_free = PDQ_NUM_UNSOLICITED_EVENTS;
 1226     pdq->pdq_tx_info.tx_free = PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_transmits);
 1227 
 1228     /*
 1229      * Allow the DEFPA to do DMA.  Then program the physical 
 1230      * addresses of the consumer and descriptor blocks.
 1231      */
 1232     if (pdq->pdq_type == PDQ_DEFPA) {
 1233 #ifdef PDQTEST
 1234         PDQ_CSR_WRITE(&pdq->pdq_pci_csrs, csr_pfi_mode_control,
 1235                       PDQ_PFI_MODE_DMA_ENABLE);
 1236 #else
 1237         PDQ_CSR_WRITE(&pdq->pdq_pci_csrs, csr_pfi_mode_control,
 1238                       PDQ_PFI_MODE_DMA_ENABLE
 1239             /*|PDQ_PFI_MODE_PFI_PCI_INTR*/|PDQ_PFI_MODE_PDQ_PCI_INTR);
 1240 #endif
 1241     }
 1242 
 1243     /*
 1244      * Make sure the unsolicited queue has events ...
 1245      */
 1246     pdq_process_unsolicited_events(pdq);
 1247 
 1248     if ((pdq->pdq_type == PDQ_DEFEA && pdq->pdq_chip_rev == PDQ_CHIP_REV_E)
 1249             || pdq->pdq_type == PDQ_DEFTA)
 1250         PDQ_CSR_WRITE(csrs, csr_port_data_b, PDQ_DMA_BURST_16LW);
 1251     else
 1252         PDQ_CSR_WRITE(csrs, csr_port_data_b, PDQ_DMA_BURST_8LW);
 1253     PDQ_CSR_WRITE(csrs, csr_port_data_a, PDQ_SUB_CMD_DMA_BURST_SIZE_SET);
 1254     pdq_do_port_control(csrs, PDQ_PCTL_SUB_CMD);
 1255 
 1256     /*
 1257      * Make sure there isn't stale information in the caches before
 1258      * tell the adapter about the blocks it's going to use.
 1259      */
 1260     PDQ_OS_CONSUMER_PRESYNC(pdq);
 1261 
 1262     PDQ_CSR_WRITE(csrs, csr_port_data_b, 0);
 1263     PDQ_CSR_WRITE(csrs, csr_port_data_a, pdq->pdq_pa_consumer_block);
 1264     pdq_do_port_control(csrs, PDQ_PCTL_CONSUMER_BLOCK);
 1265 
 1266     PDQ_CSR_WRITE(csrs, csr_port_data_b, 0);
 1267 #if !defined(BYTE_ORDER) || BYTE_ORDER == LITTLE_ENDIAN
 1268     PDQ_CSR_WRITE(csrs, csr_port_data_a, pdq->pdq_pa_descriptor_block | PDQ_DMA_INIT_LW_BSWAP_DATA);
 1269 #else
 1270     PDQ_CSR_WRITE(csrs, csr_port_data_a, pdq->pdq_pa_descriptor_block | PDQ_DMA_INIT_LW_BSWAP_DATA | PDQ_DMA_INIT_LW_BSWAP_LITERAL);
 1271 #endif
 1272     pdq_do_port_control(csrs, PDQ_PCTL_DMA_INIT);
 1273 
 1274     for (cnt = 0; cnt < 1000; cnt++) {
 1275         state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1276         if (state == PDQS_HALTED) {
 1277             if (pass > 0)
 1278                 return PDQS_HALTED;
 1279             pass = 1;
 1280             goto restart;
 1281         }
 1282         if (state == PDQS_DMA_AVAILABLE) {
 1283             PDQ_PRINTF(("Transition to DMA Available took %d spins\n", cnt));
 1284             break;
 1285         }
 1286         PDQ_OS_USEC_DELAY(1000);
 1287     }
 1288     PDQ_ASSERT(state == PDQS_DMA_AVAILABLE);
 1289     
 1290     PDQ_CSR_WRITE(csrs, csr_host_int_type_0, 0xFF);
 1291     pdq->pdq_intrmask = 0;
 1292       /* PDQ_HOST_INT_STATE_CHANGE
 1293         |PDQ_HOST_INT_FATAL_ERROR|PDQ_HOST_INT_CMD_RSP_ENABLE
 1294         |PDQ_HOST_INT_UNSOL_ENABLE */;
 1295     PDQ_CSR_WRITE(csrs, csr_host_int_enable, pdq->pdq_intrmask);
 1296 
 1297     /*
 1298      * Any other command but START should be valid.
 1299      */
 1300     pdq->pdq_command_info.ci_pending_commands &= ~(PDQ_BITMASK(PDQC_START));
 1301     if (pdq->pdq_flags & PDQ_PRINTCHARS)
 1302         pdq->pdq_command_info.ci_pending_commands |= PDQ_BITMASK(PDQC_STATUS_CHARS_GET);
 1303     pdq_queue_commands(pdq);
 1304 
 1305     if (pdq->pdq_flags & PDQ_PRINTCHARS) {
 1306         /*
 1307          * Now wait (up to 100ms) for the command(s) to finish.
 1308          */
 1309         for (cnt = 0; cnt < 1000; cnt++) {
 1310             PDQ_OS_CONSUMER_POSTSYNC(pdq);
 1311             pdq_process_command_responses(pdq);
 1312             if (pdq->pdq_command_info.ci_response_producer == pdq->pdq_command_info.ci_response_completion)
 1313                 break;
 1314             PDQ_OS_USEC_DELAY(1000);
 1315         }
 1316         state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1317     }
 1318 
 1319     return state;
 1320 }
 1321 
 1322 void
 1323 pdq_run(
 1324     pdq_t *pdq)
 1325 {
 1326     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
 1327     pdq_state_t state;
 1328 
 1329     state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1330     PDQ_ASSERT(state != PDQS_DMA_UNAVAILABLE);
 1331     PDQ_ASSERT(state != PDQS_RESET);
 1332     PDQ_ASSERT(state != PDQS_HALTED);
 1333     PDQ_ASSERT(state != PDQS_UPGRADE);
 1334     PDQ_ASSERT(state != PDQS_RING_MEMBER);
 1335     switch (state) {
 1336         case PDQS_DMA_AVAILABLE: {
 1337             /*
 1338              * The PDQ after being reset screws up some of its state.
 1339              * So we need to clear all the errors/interrupts so the real
 1340              * ones will get through.
 1341              */
 1342             PDQ_CSR_WRITE(csrs, csr_host_int_type_0, 0xFF);
 1343             pdq->pdq_intrmask = PDQ_HOST_INT_STATE_CHANGE
 1344                 |PDQ_HOST_INT_XMT_DATA_FLUSH|PDQ_HOST_INT_FATAL_ERROR
 1345                 |PDQ_HOST_INT_CMD_RSP_ENABLE|PDQ_HOST_INT_UNSOL_ENABLE
 1346                 |PDQ_HOST_INT_RX_ENABLE|PDQ_HOST_INT_HOST_SMT_ENABLE;
 1347             PDQ_CSR_WRITE(csrs, csr_host_int_enable, pdq->pdq_intrmask);
 1348             /*
 1349              * Set the MAC and address filters and start up the PDQ.
 1350              */
 1351             pdq_process_unsolicited_events(pdq);
 1352             pdq_process_received_data(pdq, &pdq->pdq_rx_info,
 1353                                       pdq->pdq_dbp->pdqdb_receives,
 1354                                       pdq->pdq_cbp->pdqcb_receives,
 1355                                       PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_receives));
 1356             PDQ_DO_TYPE2_PRODUCER(pdq);
 1357             if (pdq->pdq_flags & PDQ_PASS_SMT) {
 1358                 pdq_process_received_data(pdq, &pdq->pdq_host_smt_info,
 1359                                           pdq->pdq_dbp->pdqdb_host_smt,
 1360                                           pdq->pdq_cbp->pdqcb_host_smt,
 1361                                           PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_host_smt));
 1362                 PDQ_CSR_WRITE(csrs, csr_host_smt_producer,
 1363                               pdq->pdq_host_smt_info.rx_producer
 1364                                   | (pdq->pdq_host_smt_info.rx_completion << 8));
 1365             }
 1366             pdq->pdq_command_info.ci_pending_commands = PDQ_BITMASK(PDQC_FILTER_SET)
 1367                 | PDQ_BITMASK(PDQC_ADDR_FILTER_SET)
 1368                 | PDQ_BITMASK(PDQC_SNMP_SET)
 1369                 | PDQ_BITMASK(PDQC_START);
 1370             if (pdq->pdq_flags & PDQ_PRINTCHARS)
 1371                 pdq->pdq_command_info.ci_pending_commands |= PDQ_BITMASK(PDQC_STATUS_CHARS_GET);
 1372             pdq_queue_commands(pdq);
 1373             break;
 1374         }
 1375         case PDQS_LINK_UNAVAILABLE:
 1376         case PDQS_LINK_AVAILABLE: {
 1377             pdq->pdq_command_info.ci_pending_commands = PDQ_BITMASK(PDQC_FILTER_SET)
 1378                 | PDQ_BITMASK(PDQC_ADDR_FILTER_SET)
 1379                 | PDQ_BITMASK(PDQC_SNMP_SET);
 1380             if (pdq->pdq_flags & PDQ_PRINTCHARS)
 1381                 pdq->pdq_command_info.ci_pending_commands |= PDQ_BITMASK(PDQC_STATUS_CHARS_GET);
 1382             if (pdq->pdq_flags & PDQ_PASS_SMT) {
 1383                 pdq_process_received_data(pdq, &pdq->pdq_host_smt_info,
 1384                                           pdq->pdq_dbp->pdqdb_host_smt,
 1385                                           pdq->pdq_cbp->pdqcb_host_smt,
 1386                                           PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_host_smt));
 1387                 PDQ_CSR_WRITE(csrs, csr_host_smt_producer,
 1388                               pdq->pdq_host_smt_info.rx_producer
 1389                                   | (pdq->pdq_host_smt_info.rx_completion << 8));
 1390             }
 1391             pdq_process_unsolicited_events(pdq);
 1392             pdq_queue_commands(pdq);
 1393             break;
 1394         }
 1395         case PDQS_RING_MEMBER: {
 1396         }
 1397         default: {      /* to make gcc happy */
 1398             break;
 1399         }
 1400     }
 1401 }
 1402 
 1403 int
 1404 pdq_interrupt(
 1405     pdq_t *pdq)
 1406 {
 1407     const pdq_csrs_t * const csrs = &pdq->pdq_csrs;
 1408     pdq_uint32_t data;
 1409     int progress = 0;
 1410 
 1411     if (pdq->pdq_type == PDQ_DEFPA)
 1412         PDQ_CSR_WRITE(&pdq->pdq_pci_csrs, csr_pfi_status, 0x18);
 1413 
 1414     while ((data = PDQ_CSR_READ(csrs, csr_port_status)) & PDQ_PSTS_INTR_PENDING) {
 1415         progress = 1;
 1416         PDQ_PRINTF(("PDQ Interrupt: Status = 0x%08x\n", data));
 1417         PDQ_OS_CONSUMER_POSTSYNC(pdq);
 1418         if (data & PDQ_PSTS_RCV_DATA_PENDING) {
 1419             pdq_process_received_data(pdq, &pdq->pdq_rx_info,
 1420                                       pdq->pdq_dbp->pdqdb_receives,
 1421                                       pdq->pdq_cbp->pdqcb_receives,
 1422                                       PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_receives));
 1423             PDQ_DO_TYPE2_PRODUCER(pdq);
 1424         }
 1425         if (data & PDQ_PSTS_HOST_SMT_PENDING) {
 1426             pdq_process_received_data(pdq, &pdq->pdq_host_smt_info,
 1427                                       pdq->pdq_dbp->pdqdb_host_smt,
 1428                                       pdq->pdq_cbp->pdqcb_host_smt,
 1429                                       PDQ_RING_MASK(pdq->pdq_dbp->pdqdb_host_smt));
 1430             PDQ_DO_HOST_SMT_PRODUCER(pdq);
 1431         }
 1432         /* if (data & PDQ_PSTS_XMT_DATA_PENDING) */
 1433             pdq_process_transmitted_data(pdq);
 1434         if (data & PDQ_PSTS_UNSOL_PENDING)
 1435             pdq_process_unsolicited_events(pdq);
 1436         if (data & PDQ_PSTS_CMD_RSP_PENDING)
 1437             pdq_process_command_responses(pdq);
 1438         if (data & PDQ_PSTS_TYPE_0_PENDING) {
 1439             data = PDQ_CSR_READ(csrs, csr_host_int_type_0);
 1440             if (data & PDQ_HOST_INT_STATE_CHANGE) {
 1441                 pdq_state_t state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(csrs, csr_port_status));
 1442                 printf(PDQ_OS_PREFIX "%s", PDQ_OS_PREFIX_ARGS, pdq_adapter_states[state]);
 1443                 if (state == PDQS_LINK_UNAVAILABLE) {
 1444                     pdq->pdq_flags &= ~(PDQ_TXOK|PDQ_IS_ONRING|PDQ_IS_FDX);
 1445                 } else if (state == PDQS_LINK_AVAILABLE) {
 1446                     if (pdq->pdq_flags & PDQ_WANT_FDX) {
 1447                         pdq->pdq_command_info.ci_pending_commands |= PDQ_BITMASK(PDQC_DEC_EXT_MIB_GET);
 1448                         pdq_queue_commands(pdq);
 1449                     }
 1450                     pdq->pdq_flags |= PDQ_TXOK|PDQ_IS_ONRING;
 1451                     pdq_os_restart_transmitter(pdq);
 1452                 } else if (state == PDQS_HALTED) {
 1453                     pdq_response_error_log_get_t log_entry;
 1454                     pdq_halt_code_t halt_code = PDQ_PSTS_HALT_ID(PDQ_CSR_READ(csrs, csr_port_status));
 1455                     printf(": halt code = %d (%s)\n",
 1456                            halt_code, pdq_halt_codes[halt_code]);
 1457                     if (halt_code == PDQH_DMA_ERROR && pdq->pdq_type == PDQ_DEFPA) {
 1458                         PDQ_PRINTF(("\tPFI status = 0x%x, Host 0 Fatal Interrupt = 0x%x\n",
 1459                                PDQ_CSR_READ(&pdq->pdq_pci_csrs, csr_pfi_status),
 1460                                data & PDQ_HOST_INT_FATAL_ERROR));
 1461                     }
 1462                     PDQ_OS_MEMZERO(&log_entry, sizeof(log_entry));
 1463                     if (pdq_read_error_log(pdq, &log_entry)) {
 1464                         PDQ_PRINTF(("  Error log Entry:\n"));
 1465                         PDQ_PRINTF(("    CMD Status           = %d (0x%x)\n",
 1466                                     log_entry.error_log_get_status,
 1467                                     log_entry.error_log_get_status));
 1468                         PDQ_PRINTF(("    Event Status         = %d (0x%x)\n", 
 1469                                     log_entry.error_log_get_event_status,
 1470                                     log_entry.error_log_get_event_status));
 1471                         PDQ_PRINTF(("    Caller Id            = %d (0x%x)\n", 
 1472                                     log_entry.error_log_get_caller_id,
 1473                                     log_entry.error_log_get_caller_id));
 1474                         PDQ_PRINTF(("    Write Count          = %d (0x%x)\n", 
 1475                                     log_entry.error_log_get_write_count,
 1476                                     log_entry.error_log_get_write_count));
 1477                         PDQ_PRINTF(("    FRU Implication Mask = %d (0x%x)\n", 
 1478                                     log_entry.error_log_get_fru_implication_mask,
 1479                                     log_entry.error_log_get_fru_implication_mask));
 1480                         PDQ_PRINTF(("    Test ID              = %d (0x%x)\n", 
 1481                                     log_entry.error_log_get_test_id,
 1482                                     log_entry.error_log_get_test_id));
 1483                     }
 1484                     pdq_stop(pdq);
 1485                     if (pdq->pdq_flags & PDQ_RUNNING)
 1486                         pdq_run(pdq);
 1487                     return 1;
 1488                 }
 1489                 printf("\n");
 1490                 PDQ_CSR_WRITE(csrs, csr_host_int_type_0, PDQ_HOST_INT_STATE_CHANGE);
 1491             }
 1492             if (data & PDQ_HOST_INT_FATAL_ERROR) {
 1493                 pdq_stop(pdq);
 1494                 if (pdq->pdq_flags & PDQ_RUNNING)
 1495                     pdq_run(pdq);
 1496                 return 1;
 1497             }
 1498             if (data & PDQ_HOST_INT_XMT_DATA_FLUSH) {
 1499                 printf(PDQ_OS_PREFIX "Flushing transmit queue\n", PDQ_OS_PREFIX_ARGS);
 1500                 pdq->pdq_flags &= ~PDQ_TXOK;
 1501                 pdq_flush_transmitter(pdq);
 1502                 pdq_do_port_control(csrs, PDQ_PCTL_XMT_DATA_FLUSH_DONE);
 1503                 PDQ_CSR_WRITE(csrs, csr_host_int_type_0, PDQ_HOST_INT_XMT_DATA_FLUSH);
 1504             }
 1505         }
 1506         if (pdq->pdq_type == PDQ_DEFPA)
 1507             PDQ_CSR_WRITE(&pdq->pdq_pci_csrs, csr_pfi_status, 0x18);
 1508     }
 1509     return progress;
 1510 }
 1511 
 1512 pdq_t *
 1513 pdq_initialize(
 1514     pdq_bus_t bus,
 1515     pdq_bus_memaddr_t csr_base,
 1516     const char *name,
 1517     int unit,
 1518     void *ctx,
 1519     pdq_type_t type)
 1520 {
 1521     pdq_t *pdq;
 1522     pdq_state_t state;
 1523     pdq_descriptor_block_t *dbp;
 1524 #if !defined(PDQ_BUS_DMA)
 1525     const pdq_uint32_t contig_bytes = (sizeof(pdq_descriptor_block_t) * 2) - PDQ_OS_PAGESIZE;
 1526     pdq_uint8_t *p;
 1527 #endif
 1528     int idx;
 1529 
 1530     PDQ_ASSERT(sizeof(pdq_descriptor_block_t) == 8192);
 1531     PDQ_ASSERT(sizeof(pdq_consumer_block_t) == 64);
 1532     PDQ_ASSERT(sizeof(pdq_response_filter_get_t) == PDQ_SIZE_RESPONSE_FILTER_GET);
 1533     PDQ_ASSERT(sizeof(pdq_cmd_addr_filter_set_t) == PDQ_SIZE_CMD_ADDR_FILTER_SET);
 1534     PDQ_ASSERT(sizeof(pdq_response_addr_filter_get_t) == PDQ_SIZE_RESPONSE_ADDR_FILTER_GET);
 1535     PDQ_ASSERT(sizeof(pdq_response_status_chars_get_t) == PDQ_SIZE_RESPONSE_STATUS_CHARS_GET);
 1536     PDQ_ASSERT(sizeof(pdq_response_fddi_mib_get_t) == PDQ_SIZE_RESPONSE_FDDI_MIB_GET);
 1537     PDQ_ASSERT(sizeof(pdq_response_dec_ext_mib_get_t) == PDQ_SIZE_RESPONSE_DEC_EXT_MIB_GET);
 1538     PDQ_ASSERT(sizeof(pdq_unsolicited_event_t) == 512);
 1539 
 1540     pdq = (pdq_t *) PDQ_OS_MEMALLOC(sizeof(pdq_t));
 1541     if (pdq == NULL) {
 1542         PDQ_PRINTF(("malloc(%d) failed\n", sizeof(*pdq)));
 1543         return NULL;
 1544     }
 1545     PDQ_OS_MEMZERO(pdq, sizeof(pdq_t));
 1546     pdq->pdq_type = type;
 1547     pdq->pdq_unit = unit;
 1548     pdq->pdq_os_ctx = (void *) ctx;
 1549     pdq->pdq_os_name = name;
 1550     pdq->pdq_flags = PDQ_PRINTCHARS;
 1551     /*
 1552      * Allocate the additional data structures required by
 1553      * the PDQ driver.  Allocate a contiguous region of memory
 1554      * for the descriptor block.  We need to allocated enough
 1555      * to guarantee that we will a get 8KB block of memory aligned
 1556      * on a 8KB boundary.  This turns to require that we allocate
 1557      * (N*2 - 1 page) pages of memory.  On machine with less than
 1558      * a 8KB page size, it mean we will allocate more memory than
 1559      * we need.  The extra will be used for the unsolicited event
 1560      * buffers (though on machines with 8KB pages we will to allocate
 1561      * them separately since there will be nothing left overs.)
 1562      */
 1563 #if defined(PDQ_OS_MEMALLOC_CONTIG)
 1564     p = (pdq_uint8_t *) PDQ_OS_MEMALLOC_CONTIG(contig_bytes);
 1565 
 1566     if (p == NULL)
 1567         printf("%s() - PDQ_OS_MEMALLOC_CONTIG() failed!\n", __func__);
 1568 
 1569     if (p != NULL) {
 1570         pdq_physaddr_t physaddr = PDQ_OS_VA_TO_BUSPA(pdq, p);
 1571         /*
 1572          * Assert that we really got contiguous memory.  This isn't really
 1573          * needed on systems that actually have physical contiguous allocation
 1574          * routines, but on those systems that don't ...
 1575          */
 1576         for (idx = PDQ_OS_PAGESIZE; idx < 0x2000; idx += PDQ_OS_PAGESIZE) {
 1577             if (PDQ_OS_VA_TO_BUSPA(pdq, p + idx) - physaddr != idx)
 1578                 goto cleanup_and_return;
 1579         }
 1580         if (physaddr & 0x1FFF) {
 1581             pdq->pdq_unsolicited_info.ui_events = (pdq_unsolicited_event_t *) p;
 1582             pdq->pdq_unsolicited_info.ui_pa_bufstart = physaddr;
 1583             pdq->pdq_dbp = (pdq_descriptor_block_t *) &p[0x2000 - (physaddr & 0x1FFF)];
 1584             pdq->pdq_pa_descriptor_block = physaddr & ~0x1FFFUL;
 1585         } else {
 1586             pdq->pdq_dbp = (pdq_descriptor_block_t *) p;
 1587             pdq->pdq_pa_descriptor_block = physaddr;
 1588             pdq->pdq_unsolicited_info.ui_events = (pdq_unsolicited_event_t *) &p[0x2000];
 1589             pdq->pdq_unsolicited_info.ui_pa_bufstart = physaddr + 0x2000;
 1590         }
 1591     }
 1592     pdq->pdq_cbp = (volatile pdq_consumer_block_t *) &pdq->pdq_dbp->pdqdb_consumer;
 1593     pdq->pdq_pa_consumer_block = PDQ_DB_BUSPA(pdq, pdq->pdq_cbp);
 1594     if (contig_bytes == sizeof(pdq_descriptor_block_t)) {
 1595         pdq->pdq_unsolicited_info.ui_events =
 1596             (pdq_unsolicited_event_t *) PDQ_OS_MEMALLOC(
 1597                 PDQ_NUM_UNSOLICITED_EVENTS * sizeof(pdq_unsolicited_event_t));
 1598     }
 1599 #else
 1600     if (pdq_os_memalloc_contig(pdq))
 1601         goto cleanup_and_return;
 1602 #endif
 1603 
 1604     /*
 1605      * Make sure everything got allocated.  If not, free what did
 1606      * get allocated and return.
 1607      */
 1608     if (pdq->pdq_dbp == NULL || pdq->pdq_unsolicited_info.ui_events == NULL) {
 1609       cleanup_and_return:
 1610 #ifdef PDQ_OS_MEMFREE_CONTIG
 1611         if (p /* pdq->pdq_dbp */ != NULL)
 1612             PDQ_OS_MEMFREE_CONTIG(p /* pdq->pdq_dbp */, contig_bytes);
 1613         if (contig_bytes == sizeof(pdq_descriptor_block_t) && pdq->pdq_unsolicited_info.ui_events != NULL)
 1614             PDQ_OS_MEMFREE(pdq->pdq_unsolicited_info.ui_events,
 1615                            PDQ_NUM_UNSOLICITED_EVENTS * sizeof(pdq_unsolicited_event_t));
 1616 #endif
 1617         PDQ_OS_MEMFREE(pdq, sizeof(pdq_t));
 1618         return NULL;
 1619     }
 1620     dbp = pdq->pdq_dbp;
 1621 
 1622     PDQ_PRINTF(("\nPDQ Descriptor Block = " PDQ_OS_PTR_FMT " (PA = 0x%x)\n", dbp, pdq->pdq_pa_descriptor_block));
 1623     PDQ_PRINTF(("    Receive Queue          = " PDQ_OS_PTR_FMT "\n", dbp->pdqdb_receives));
 1624     PDQ_PRINTF(("    Transmit Queue         = " PDQ_OS_PTR_FMT "\n", dbp->pdqdb_transmits));
 1625     PDQ_PRINTF(("    Host SMT Queue         = " PDQ_OS_PTR_FMT "\n", dbp->pdqdb_host_smt));
 1626     PDQ_PRINTF(("    Command Response Queue = " PDQ_OS_PTR_FMT "\n", dbp->pdqdb_command_responses));
 1627     PDQ_PRINTF(("    Command Request Queue  = " PDQ_OS_PTR_FMT "\n", dbp->pdqdb_command_requests));
 1628     PDQ_PRINTF(("PDQ Consumer Block = " PDQ_OS_PTR_FMT "\n", pdq->pdq_cbp));
 1629 
 1630     /*
 1631      * Zero out the descriptor block.  Not really required but
 1632      * it pays to be neat.  This will also zero out the consumer
 1633      * block, command pool, and buffer pointers for the receive
 1634      * host_smt rings.
 1635      */
 1636     PDQ_OS_MEMZERO(dbp, sizeof(*dbp));
 1637 
 1638     /*
 1639      * Initialize the CSR references.
 1640      * the DEFAA (FutureBus+) skips a longword between registers
 1641      */
 1642     pdq_init_csrs(&pdq->pdq_csrs, bus, csr_base, pdq->pdq_type == PDQ_DEFAA ? 2 : 1);
 1643     if (pdq->pdq_type == PDQ_DEFPA)
 1644         pdq_init_pci_csrs(&pdq->pdq_pci_csrs, bus, csr_base, 1);
 1645 
 1646     PDQ_PRINTF(("PDQ CSRs: BASE = " PDQ_OS_CSR_FMT "\n", pdq->pdq_csrs.csr_base));
 1647     PDQ_PRINTF(("    Port Reset                = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1648            pdq->pdq_csrs.csr_port_reset, PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_reset)));
 1649     PDQ_PRINTF(("    Host Data                 = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1650            pdq->pdq_csrs.csr_host_data, PDQ_CSR_READ(&pdq->pdq_csrs, csr_host_data)));
 1651     PDQ_PRINTF(("    Port Control              = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1652            pdq->pdq_csrs.csr_port_control, PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_control)));
 1653     PDQ_PRINTF(("    Port Data A               = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1654            pdq->pdq_csrs.csr_port_data_a, PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_data_a)));
 1655     PDQ_PRINTF(("    Port Data B               = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1656            pdq->pdq_csrs.csr_port_data_b, PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_data_b)));
 1657     PDQ_PRINTF(("    Port Status               = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1658            pdq->pdq_csrs.csr_port_status, PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_status)));
 1659     PDQ_PRINTF(("    Host Int Type 0           = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1660            pdq->pdq_csrs.csr_host_int_type_0, PDQ_CSR_READ(&pdq->pdq_csrs, csr_host_int_type_0)));
 1661     PDQ_PRINTF(("    Host Int Enable           = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1662            pdq->pdq_csrs.csr_host_int_enable, PDQ_CSR_READ(&pdq->pdq_csrs, csr_host_int_enable)));
 1663     PDQ_PRINTF(("    Type 2 Producer           = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1664            pdq->pdq_csrs.csr_type_2_producer, PDQ_CSR_READ(&pdq->pdq_csrs, csr_type_2_producer)));
 1665     PDQ_PRINTF(("    Command Response Producer = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1666            pdq->pdq_csrs.csr_cmd_response_producer, PDQ_CSR_READ(&pdq->pdq_csrs, csr_cmd_response_producer)));
 1667     PDQ_PRINTF(("    Command Request Producer  = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1668            pdq->pdq_csrs.csr_cmd_request_producer, PDQ_CSR_READ(&pdq->pdq_csrs, csr_cmd_request_producer)));
 1669     PDQ_PRINTF(("    Host SMT Producer         = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1670            pdq->pdq_csrs.csr_host_smt_producer, PDQ_CSR_READ(&pdq->pdq_csrs, csr_host_smt_producer)));
 1671     PDQ_PRINTF(("    Unsolicited Producer      = " PDQ_OS_CSR_FMT " [0x%08x]\n",
 1672            pdq->pdq_csrs.csr_unsolicited_producer, PDQ_CSR_READ(&pdq->pdq_csrs, csr_unsolicited_producer)));
 1673 
 1674     /*
 1675      * Initialize the command information block
 1676      */
 1677     pdq->pdq_command_info.ci_request_bufstart = dbp->pdqdb_cmd_request_buf;
 1678     pdq->pdq_command_info.ci_pa_request_bufstart = PDQ_DB_BUSPA(pdq, pdq->pdq_command_info.ci_request_bufstart);
 1679     pdq->pdq_command_info.ci_pa_request_descriptors = PDQ_DB_BUSPA(pdq, dbp->pdqdb_command_requests);
 1680     PDQ_PRINTF(("PDQ Command Request Buffer = " PDQ_OS_PTR_FMT " (PA=0x%x)\n",
 1681                 pdq->pdq_command_info.ci_request_bufstart,
 1682                 pdq->pdq_command_info.ci_pa_request_bufstart));
 1683     for (idx = 0; idx < sizeof(dbp->pdqdb_command_requests)/sizeof(dbp->pdqdb_command_requests[0]); idx++) {
 1684         pdq_txdesc_t *txd = &dbp->pdqdb_command_requests[idx];
 1685 
 1686         txd->txd_pa_lo = pdq->pdq_command_info.ci_pa_request_bufstart;
 1687         txd->txd_eop = txd->txd_sop = 1;
 1688         txd->txd_pa_hi = 0;
 1689     }
 1690     PDQ_OS_DESC_PRESYNC(pdq, dbp->pdqdb_command_requests,
 1691                         sizeof(dbp->pdqdb_command_requests));
 1692 
 1693     pdq->pdq_command_info.ci_response_bufstart = dbp->pdqdb_cmd_response_buf;
 1694     pdq->pdq_command_info.ci_pa_response_bufstart = PDQ_DB_BUSPA(pdq, pdq->pdq_command_info.ci_response_bufstart);
 1695     pdq->pdq_command_info.ci_pa_response_descriptors = PDQ_DB_BUSPA(pdq, dbp->pdqdb_command_responses);
 1696     PDQ_PRINTF(("PDQ Command Response Buffer = " PDQ_OS_PTR_FMT " (PA=0x%x)\n",
 1697                 pdq->pdq_command_info.ci_response_bufstart,
 1698                 pdq->pdq_command_info.ci_pa_response_bufstart));
 1699     for (idx = 0; idx < sizeof(dbp->pdqdb_command_responses)/sizeof(dbp->pdqdb_command_responses[0]); idx++) {
 1700         pdq_rxdesc_t *rxd = &dbp->pdqdb_command_responses[idx];
 1701 
 1702         rxd->rxd_pa_lo = pdq->pdq_command_info.ci_pa_response_bufstart;
 1703         rxd->rxd_sop = 1;
 1704         rxd->rxd_seg_cnt = 0;
 1705         rxd->rxd_seg_len_lo = 0;
 1706         rxd->rxd_seg_len_hi = PDQ_SIZE_COMMAND_RESPONSE / 16;
 1707     }
 1708     PDQ_OS_DESC_PRESYNC(pdq, dbp->pdqdb_command_responses,
 1709                         sizeof(dbp->pdqdb_command_responses));
 1710 
 1711     /*
 1712      * Initialize the unsolicited event information block
 1713      */
 1714     pdq->pdq_unsolicited_info.ui_free = PDQ_NUM_UNSOLICITED_EVENTS;
 1715     pdq->pdq_unsolicited_info.ui_pa_descriptors = PDQ_DB_BUSPA(pdq, dbp->pdqdb_unsolicited_events);
 1716     PDQ_PRINTF(("PDQ Unsolicit Event Buffer = " PDQ_OS_PTR_FMT " (PA=0x%x)\n",
 1717                 pdq->pdq_unsolicited_info.ui_events,
 1718                 pdq->pdq_unsolicited_info.ui_pa_bufstart));
 1719     for (idx = 0; idx < sizeof(dbp->pdqdb_unsolicited_events)/sizeof(dbp->pdqdb_unsolicited_events[0]); idx++) {
 1720         pdq_rxdesc_t *rxd = &dbp->pdqdb_unsolicited_events[idx];
 1721         pdq_unsolicited_event_t *event = &pdq->pdq_unsolicited_info.ui_events[idx & (PDQ_NUM_UNSOLICITED_EVENTS-1)];
 1722 
 1723         rxd->rxd_sop = 1;
 1724         rxd->rxd_seg_cnt = 0;
 1725         rxd->rxd_seg_len_hi = sizeof(pdq_unsolicited_event_t) / 16;
 1726         rxd->rxd_pa_lo = pdq->pdq_unsolicited_info.ui_pa_bufstart + (const pdq_uint8_t *) event
 1727             - (const pdq_uint8_t *) pdq->pdq_unsolicited_info.ui_events;
 1728         rxd->rxd_pa_hi = 0;
 1729         PDQ_OS_UNSOL_EVENT_PRESYNC(pdq, event);
 1730     }
 1731     PDQ_OS_DESC_PRESYNC(pdq, dbp->pdqdb_unsolicited_events,
 1732                         sizeof(dbp->pdqdb_unsolicited_events));
 1733 
 1734     /*
 1735      * Initialize the receive information blocks (normal and SMT).
 1736      */
 1737     pdq->pdq_rx_info.rx_buffers = pdq->pdq_receive_buffers;
 1738     pdq->pdq_rx_info.rx_free = PDQ_RING_MASK(dbp->pdqdb_receives);
 1739     pdq->pdq_rx_info.rx_target = pdq->pdq_rx_info.rx_free - PDQ_RX_SEGCNT * 8;
 1740     pdq->pdq_rx_info.rx_pa_descriptors = PDQ_DB_BUSPA(pdq, dbp->pdqdb_receives);
 1741 
 1742     pdq->pdq_host_smt_info.rx_buffers = pdq->pdq_host_smt_buffers;
 1743     pdq->pdq_host_smt_info.rx_free = PDQ_RING_MASK(dbp->pdqdb_host_smt);
 1744     pdq->pdq_host_smt_info.rx_target = pdq->pdq_host_smt_info.rx_free - PDQ_RX_SEGCNT * 3;
 1745     pdq->pdq_host_smt_info.rx_pa_descriptors = PDQ_DB_BUSPA(pdq, dbp->pdqdb_host_smt);
 1746 
 1747     /*
 1748      * Initialize the transmit information block.
 1749      */
 1750     dbp->pdqdb_tx_hdr[0] = PDQ_FDDI_PH0;
 1751     dbp->pdqdb_tx_hdr[1] = PDQ_FDDI_PH1;
 1752     dbp->pdqdb_tx_hdr[2] = PDQ_FDDI_PH2;
 1753     pdq->pdq_tx_info.tx_free = PDQ_RING_MASK(dbp->pdqdb_transmits);
 1754     pdq->pdq_tx_info.tx_hdrdesc.txd_seg_len = 3;
 1755     pdq->pdq_tx_info.tx_hdrdesc.txd_sop = 1;
 1756     pdq->pdq_tx_info.tx_hdrdesc.txd_pa_lo = PDQ_DB_BUSPA(pdq, dbp->pdqdb_tx_hdr);
 1757     pdq->pdq_tx_info.tx_pa_descriptors = PDQ_DB_BUSPA(pdq, dbp->pdqdb_transmits);
 1758 
 1759     state = PDQ_PSTS_ADAPTER_STATE(PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_status));
 1760     PDQ_PRINTF(("PDQ Adapter State = %s\n", pdq_adapter_states[state]));
 1761 
 1762     /*
 1763      * Stop the PDQ if it is running and put it into a known state.
 1764      */
 1765     state = pdq_stop(pdq);
 1766 
 1767     PDQ_PRINTF(("PDQ Adapter State = %s\n", pdq_adapter_states[state]));
 1768     PDQ_ASSERT(state == PDQS_DMA_AVAILABLE);
 1769     /*
 1770      * If the adapter is not the state we expect, then the initialization
 1771      * failed.  Cleanup and exit.
 1772      */
 1773 #if defined(PDQVERBOSE)
 1774     if (state == PDQS_HALTED) {
 1775         pdq_halt_code_t halt_code = PDQ_PSTS_HALT_ID(PDQ_CSR_READ(&pdq->pdq_csrs, csr_port_status));
 1776         printf("Halt code = %d (%s)\n", halt_code, pdq_halt_codes[halt_code]);
 1777         if (halt_code == PDQH_DMA_ERROR && pdq->pdq_type == PDQ_DEFPA)
 1778             PDQ_PRINTF(("PFI status = 0x%x, Host 0 Fatal Interrupt = 0x%x\n",
 1779                        PDQ_CSR_READ(&pdq->pdq_pci_csrs, csr_pfi_status),
 1780                        PDQ_CSR_READ(&pdq->pdq_csrs, csr_host_int_type_0) & PDQ_HOST_INT_FATAL_ERROR));
 1781     }
 1782 #endif
 1783     if (state == PDQS_RESET || state == PDQS_HALTED || state == PDQS_UPGRADE)
 1784         goto cleanup_and_return;
 1785 
 1786     PDQ_PRINTF(("PDQ Hardware Address = %02x-%02x-%02x-%02x-%02x-%02x\n",
 1787            pdq->pdq_hwaddr.lanaddr_bytes[0], pdq->pdq_hwaddr.lanaddr_bytes[1],
 1788            pdq->pdq_hwaddr.lanaddr_bytes[2], pdq->pdq_hwaddr.lanaddr_bytes[3],
 1789            pdq->pdq_hwaddr.lanaddr_bytes[4], pdq->pdq_hwaddr.lanaddr_bytes[5]));
 1790     PDQ_PRINTF(("PDQ Firmware Revision = %c%c%c%c\n",
 1791            pdq->pdq_fwrev.fwrev_bytes[0], pdq->pdq_fwrev.fwrev_bytes[1],
 1792            pdq->pdq_fwrev.fwrev_bytes[2], pdq->pdq_fwrev.fwrev_bytes[3]));
 1793     PDQ_PRINTF(("PDQ Chip Revision = "));
 1794     switch (pdq->pdq_chip_rev) {
 1795         case PDQ_CHIP_REV_A_B_OR_C: PDQ_PRINTF(("Rev C or below")); break;
 1796         case PDQ_CHIP_REV_D: PDQ_PRINTF(("Rev D")); break;
 1797         case PDQ_CHIP_REV_E: PDQ_PRINTF(("Rev E")); break;
 1798         default: PDQ_PRINTF(("Unknown Rev %d", (int) pdq->pdq_chip_rev));
 1799     }
 1800     PDQ_PRINTF(("\n"));
 1801 
 1802     return pdq;
 1803 }

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