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  1. /*
  2.  * Copyright (c) 1987,1997, 2006, Vrije Universiteit, Amsterdam, The Netherlands All rights reserved. Redistribution and use of the MINIX 3 operating system in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
  3.  *
  4.  * * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
  5.  * * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
  6.  * * Neither the name of the Vrije Universiteit nor the names of the software authors or contributors may be used to endorse or promote products derived from this software without specific prior written permission.
  7.  * * Any deviations from these conditions require written permission from the copyright holder in advance
  8.  *
  9.  *
  10.  * Disclaimer
  11.  *
  12.  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS, AUTHORS, AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR
  13.  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  14.  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  15.  * IN NO EVENT SHALL THE COPYRIGHT HOLDER OR ANY AUTHORS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
  16.  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  17.  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  18.  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  19.  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  20.  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  21.  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  22.  *
  23.  * Changes:
  24.  *  2009 ported to HelenOS, Lukas Mejdrech
  25.  */
  26.  
  27. /** @addtogroup ne2k
  28.  *  @{
  29.  */
  30.  
  31. /** @file
  32.  *  NE1000 and NE2000 network interface initialization and probe functions implementation.
  33.  */
  34.  
  35. #include <stdio.h>
  36. #include <unistd.h>
  37.  
  38. #include "dp8390_port.h"
  39.  
  40. /*
  41. ne2000.c
  42.  
  43. Driver for the ne2000 ethernet cards. This file contains only the ne2000
  44. specific code, the rest is in dp8390.c
  45.  
  46. Created:    March 15, 1994 by Philip Homburg <philip@f-mnx.phicoh.com>
  47. */
  48.  
  49. //#include "../drivers.h"
  50.  
  51. //#include <net/gen/ether.h>
  52. //#include <net/gen/eth_io.h>
  53. //#if __minix_vmd
  54. //#include "config.h"
  55. //#endif
  56.  
  57. #include "local.h"
  58. #include "dp8390.h"
  59. #include "ne2000.h"
  60.  
  61. #if ENABLE_NE2000
  62.  
  63. /** Number of bytes to transfer.
  64.  */
  65. #define N 100
  66.  
  67. //#define MILLIS_TO_TICKS(m)  (((m)*HZ/1000)+1)
  68.  
  69. /** Sleeps for the defined millicesonds.
  70.  *  @param[in] millis The number of milliseconds to sleep.
  71.  */
  72. #define milli_delay( millis )   usleep(( millis ) * 1000 )
  73.  
  74. /** Type definition of the testing function.
  75.  */
  76. _PROTOTYPE( typedef int (*testf_t), (dpeth_t *dep, int pos, u8_t *pat)  );
  77.  
  78. /** First data pattern.
  79.  */
  80. u8_t    pat0[]= { 0x00, 0x00, 0x00, 0x00 };
  81.  
  82. /** Second data pattern.
  83.  */
  84. u8_t    pat1[]= { 0xFF, 0xFF, 0xFF, 0xFF };
  85.  
  86. /** Third data pattern.
  87.  */
  88. u8_t    pat2[]= { 0xA5, 0x5A, 0x69, 0x96 };
  89.  
  90. /** Fourth data pattern.
  91.  */
  92. u8_t    pat3[]= { 0x96, 0x69, 0x5A, 0xA5 };
  93.  
  94. /** Tests 8 bit NE2000 network interface.
  95.  *  @param[in,out] dep The network interface structure.
  96.  *  @param[in] pos The starting position.
  97.  *  @param[in] pat The data pattern to be written.
  98.  *  @returns True on success.
  99.  *  @returns FALSE otherwise.
  100.  */
  101. static int test_8(dpeth_t *dep, int pos, u8_t *pat);
  102.  
  103. /** Tests 16 bit NE2000 network interface.
  104.  *  @param[in,out] dep The network interface structure.
  105.  *  @param[in] pos The starting position.
  106.  *  @param[in] pat The data pattern to be written.
  107.  *  @returns True on success.
  108.  *  @returns FALSE otherwise.
  109.  */
  110. static int test_16(dpeth_t *dep, int pos, u8_t *pat);
  111.  
  112. /** Stops the NE2000 network interface.
  113.  *  @param[in,out] dep The network interface structure.
  114.  */
  115. static void ne_stop(dpeth_t *dep);
  116. //_PROTOTYPE( static void milli_delay, (unsigned long millis)       );
  117.  
  118. /** Initializes the NE2000 network interface.
  119.  *  @param[in,out] dep The network interface structure.
  120.  */
  121. void ne_init(struct dpeth *dep);
  122.  
  123. /*===========================================================================*
  124.  *              ne_probe                     *
  125.  *===========================================================================*/
  126. int ne_probe(dep)
  127. dpeth_t *dep;
  128. {
  129.     int byte;
  130.     int i;
  131.     int loc1, loc2;
  132.     testf_t f;
  133.  
  134.     dep->de_dp8390_port= dep->de_base_port + NE_DP8390;
  135.  
  136.     /* We probe for an ne1000 or an ne2000 by testing whether the
  137.      * on board is reachable through the dp8390. Note that the
  138.      * ne1000 is an 8bit card and has a memory region distict from
  139.      * the 16bit ne2000
  140.      */
  141.  
  142.     for (dep->de_16bit= 0; dep->de_16bit < 2; dep->de_16bit++)
  143.     {
  144.         /* Reset the ethernet card */
  145.         byte= inb_ne(dep, NE_RESET);
  146.         milli_delay(2);
  147.         outb_ne(dep, NE_RESET, byte);
  148.         milli_delay(2);
  149.  
  150.         /* Reset the dp8390 */
  151.         outb_reg0(dep, DP_CR, CR_STP | CR_DM_ABORT);
  152.         for (i= 0; i < 0x1000 && ((inb_reg0(dep, DP_ISR) & ISR_RST) == 0); i++)
  153.             ; /* Do nothing */
  154.  
  155.         /* Check if the dp8390 is really there */
  156.         if ((inb_reg0(dep, DP_CR) & (CR_STP|CR_DM_ABORT)) !=
  157.             (CR_STP|CR_DM_ABORT))
  158.         {
  159.             return 0;
  160.         }
  161.  
  162.         /* Disable the receiver and init TCR and DCR. */
  163.         outb_reg0(dep, DP_RCR, RCR_MON);
  164.         outb_reg0(dep, DP_TCR, TCR_NORMAL);
  165.         if (dep->de_16bit)
  166.         {
  167.             outb_reg0(dep, DP_DCR, DCR_WORDWIDE | DCR_8BYTES |
  168.                 DCR_BMS);
  169.         }
  170.         else
  171.         {
  172.             outb_reg0(dep, DP_DCR, DCR_BYTEWIDE | DCR_8BYTES |
  173.                 DCR_BMS);
  174.         }
  175.  
  176.         if (dep->de_16bit)
  177.         {
  178.             loc1= NE2000_START;
  179.             loc2= NE2000_START + NE2000_SIZE - 4;
  180.             f= test_16;
  181.         }
  182.         else
  183.         {
  184.             loc1= NE1000_START;
  185.             loc2= NE1000_START + NE1000_SIZE - 4;
  186.             f= test_8;
  187.         }
  188.         if (f(dep, loc1, pat0) && f(dep, loc1, pat1) &&
  189.             f(dep, loc1, pat2) && f(dep, loc1, pat3) &&
  190.             f(dep, loc2, pat0) && f(dep, loc2, pat1) &&
  191.             f(dep, loc2, pat2) && f(dep, loc2, pat3))
  192.         {
  193.             /* We don't need a memory segment */
  194.             dep->de_linmem= 0;
  195.             if (!dep->de_pci)
  196.                 dep->de_initf= ne_init;
  197.             dep->de_stopf= ne_stop;
  198.             dep->de_prog_IO= 1;
  199.             return 1;
  200.         }
  201.     }
  202.     return 0;
  203. }
  204.  
  205. /*===========================================================================*
  206.  *              ne_init                      *
  207.  *===========================================================================*/
  208. void ne_init(dep)
  209. dpeth_t *dep;
  210. {
  211.     int i;
  212.     int word, sendq_nr;
  213.  
  214.     /* Setup a transfer to get the ethernet address. */
  215.     if (dep->de_16bit)
  216.         outb_reg0(dep, DP_RBCR0, 6*2);
  217.     else
  218.         outb_reg0(dep, DP_RBCR0, 6);
  219.     outb_reg0(dep, DP_RBCR1, 0);
  220.     outb_reg0(dep, DP_RSAR0, 0);
  221.     outb_reg0(dep, DP_RSAR1, 0);
  222.     outb_reg0(dep, DP_CR, CR_DM_RR | CR_PS_P0 | CR_STA);
  223.  
  224.     for (i= 0; i<6; i++)
  225.     {
  226.         if (dep->de_16bit)
  227.         {
  228.             word= inw_ne(dep, NE_DATA);
  229.             dep->de_address.ea_addr[i]= word;
  230.         }
  231.         else
  232.         {
  233.             dep->de_address.ea_addr[i] = inb_ne(dep, NE_DATA);
  234.         }
  235.     }
  236.     dep->de_data_port= dep->de_base_port + NE_DATA;
  237.     if (dep->de_16bit)
  238.     {
  239.         dep->de_ramsize= NE2000_SIZE;
  240.         dep->de_offset_page= NE2000_START / DP_PAGESIZE;
  241.     }
  242.     else
  243.     {
  244.         dep->de_ramsize= NE1000_SIZE;
  245.         dep->de_offset_page= NE1000_START / DP_PAGESIZE;
  246.     }
  247.  
  248.     /* Allocate one send buffer (1.5KB) per 8KB of on board memory. */
  249.     sendq_nr= dep->de_ramsize / 0x2000;
  250.     if (sendq_nr < 1)
  251.         sendq_nr= 1;
  252.     else if (sendq_nr > SENDQ_NR)
  253.         sendq_nr= SENDQ_NR;
  254.     dep->de_sendq_nr= sendq_nr;
  255.     for (i= 0; i<sendq_nr; i++)
  256.     {
  257.         dep->de_sendq[i].sq_sendpage= dep->de_offset_page +
  258.             i*SENDQ_PAGES; 
  259.     }
  260.  
  261.     dep->de_startpage= dep->de_offset_page + i*SENDQ_PAGES;
  262.     dep->de_stoppage= dep->de_offset_page + dep->de_ramsize / DP_PAGESIZE;
  263.  
  264.     /* Can't override the default IRQ. */
  265.     dep->de_irq &= ~DEI_DEFAULT;
  266.  
  267.     if (!debug)
  268.     {
  269.         printf("%s: NE%d000 at %X:%d\n",
  270.             dep->de_name, dep->de_16bit ? 2 : 1,
  271.             dep->de_base_port, dep->de_irq);
  272.     }
  273.     else
  274.     {
  275.         printf("%s: Novell NE%d000 ethernet card at I/O address "
  276.             "0x%X, memory size 0x%X, irq %d\n",
  277.             dep->de_name, dep->de_16bit ? 2 : 1,
  278.             dep->de_base_port, dep->de_ramsize, dep->de_irq);
  279.     }
  280. }
  281.  
  282. /*===========================================================================*
  283.  *              test_8                       *
  284.  *===========================================================================*/
  285. static int test_8(dep, pos, pat)
  286. dpeth_t *dep;
  287. int pos;
  288. u8_t *pat;
  289. {
  290.     u8_t buf[4];
  291.     int i;
  292.     int r;
  293.  
  294.     outb_reg0(dep, DP_ISR, 0xFF);
  295.  
  296.     /* Setup a transfer to put the pattern. */
  297.     outb_reg0(dep, DP_RBCR0, 4);
  298.     outb_reg0(dep, DP_RBCR1, 0);
  299.     outb_reg0(dep, DP_RSAR0, pos & 0xFF);
  300.     outb_reg0(dep, DP_RSAR1, pos >> 8);
  301.     outb_reg0(dep, DP_CR, CR_DM_RW | CR_PS_P0 | CR_STA);
  302.  
  303.     for (i= 0; i<4; i++)
  304.         outb_ne(dep, NE_DATA, pat[i]);
  305.  
  306.     for (i= 0; i<N; i++)
  307.     {
  308.         if (inb_reg0(dep, DP_ISR) & ISR_RDC)
  309.             break;
  310.     }
  311.     if (i == N)
  312.     {
  313.         if (debug)
  314.         {
  315.             printf("%s: NE1000 remote DMA test failed\n",
  316.                 dep->de_name);
  317.         }
  318.         return 0;
  319.     }
  320.  
  321.     outb_reg0(dep, DP_RBCR0, 4);
  322.     outb_reg0(dep, DP_RBCR1, 0);
  323.     outb_reg0(dep, DP_RSAR0, pos & 0xFF);
  324.     outb_reg0(dep, DP_RSAR1, pos >> 8);
  325.     outb_reg0(dep, DP_CR, CR_DM_RR | CR_PS_P0 | CR_STA);
  326.  
  327.     for (i= 0; i<4; i++)
  328.         buf[i]= inb_ne(dep, NE_DATA);
  329.  
  330.     r= (memcmp(buf, pat, 4) == 0);
  331.     return r;
  332. }
  333.  
  334. /*===========================================================================*
  335.  *              test_16                      *
  336.  *===========================================================================*/
  337. static int test_16(dep, pos, pat)
  338. dpeth_t *dep;
  339. int pos;
  340. u8_t *pat;
  341. {
  342.     u8_t buf[4];
  343.     int i;
  344.     int r;
  345.  
  346.     outb_reg0(dep, DP_ISR, 0xFF);
  347.  
  348.     /* Setup a transfer to put the pattern. */
  349.     outb_reg0(dep, DP_RBCR0, 4);
  350.     outb_reg0(dep, DP_RBCR1, 0);
  351.     outb_reg0(dep, DP_RSAR0, pos & 0xFF);
  352.     outb_reg0(dep, DP_RSAR1, pos >> 8);
  353.     outb_reg0(dep, DP_CR, CR_DM_RW | CR_PS_P0 | CR_STA);
  354.  
  355.     for (i= 0; i<4; i += 2)
  356.     {
  357.         outw_ne(dep, NE_DATA, *(u16_t *)(pat+i));
  358.     }
  359.  
  360.     for (i= 0; i<N; i++)
  361.     {
  362.         if (inb_reg0(dep, DP_ISR) & ISR_RDC)
  363.             break;
  364.     }
  365.     if (i == N)
  366.     {
  367.         if (debug)
  368.         {
  369.             printf("%s: NE2000 remote DMA test failed\n",
  370.                 dep->de_name);
  371.         }
  372.         return 0;
  373.     }
  374.  
  375.     outb_reg0(dep, DP_RBCR0, 4);
  376.     outb_reg0(dep, DP_RBCR1, 0);
  377.     outb_reg0(dep, DP_RSAR0, pos & 0xFF);
  378.     outb_reg0(dep, DP_RSAR1, pos >> 8);
  379.     outb_reg0(dep, DP_CR, CR_DM_RR | CR_PS_P0 | CR_STA);
  380.  
  381.     for (i= 0; i<4; i += 2)
  382.     {
  383.         *(u16_t *)(buf+i)= inw_ne(dep, NE_DATA);
  384.     }
  385.  
  386.     r= (memcmp(buf, pat, 4) == 0);
  387.     return r;
  388. }
  389.  
  390. /*===========================================================================*
  391.  *              ne_stop                      *
  392.  *===========================================================================*/
  393. static void ne_stop(dep)
  394. dpeth_t *dep;
  395. {
  396.     int byte;
  397.  
  398.     /* Reset the ethernet card */
  399.     byte= inb_ne(dep, NE_RESET);
  400.     milli_delay(2);
  401.     outb_ne(dep, NE_RESET, byte);
  402. }
  403. /*
  404. static void milli_delay(unsigned long millis)
  405. {
  406.     tickdelay(MILLIS_TO_TICKS(millis));
  407. }
  408. */
  409. #endif /* ENABLE_NE2000 */
  410.  
  411. /*
  412.  * $PchId: ne2000.c,v 1.10 2004/08/03 12:03:00 philip Exp $
  413.  */
  414.  
  415. /** @}
  416.  */
  417.