e67fc5771d
In order to make it more clear that ticks should be used for timers and realtime should be used for timestamps / displaying the date/time, getuptime() was renamed to getticks() and getuptime2() was renamed to getuptime(). Servers, drivers, libraries, tests, etc that use getuptime()/getuptime2() have been updated. In instances where a realtime was calculated, the calculation was changed to use realtime. System calls clock_getres() and clock_gettime() were added to PM/libc.
594 lines
17 KiB
C
594 lines
17 KiB
C
/*
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** File: 3c509.c Jun. 01, 2000
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**
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** Author: Giovanni Falzoni <gfalzoni@inwind.it>
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**
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** This file contains specific implementation of the ethernet
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** device driver for 3Com Etherlink III (3c509) boards.
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** NOTE: The board has to be setup to disable PnP and to assign
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** I/O base and IRQ. The driver is for ISA bus only
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*/
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#include <minix/drivers.h>
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#include <minix/com.h>
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#include <net/gen/ether.h>
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#include <net/gen/eth_io.h>
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#include "dp.h"
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#if (ENABLE_3C509 == 1)
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#include "3c509.h"
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static const char *const IfNamesMsg[] = {
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"10BaseT", "AUI", "unknown", "BNC",
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};
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/*
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** Name: void el3_update_stats(dpeth_t *dep)
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** Function: Reads statistic counters from board
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** and updates local counters.
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*/
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static void el3_update_stats(dpeth_t * dep)
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{
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/* Disables statistics while reading and switches to the correct window */
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outw_el3(dep, REG_CmdStatus, CMD_StatsDisable);
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SetWindow(WNO_Statistics);
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/* Reads everything, adding values to the local counters */
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dep->de_stat.ets_sendErr += inb_el3(dep, REG_TxCarrierLost); /* Reg. 00 */
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dep->de_stat.ets_sendErr += inb_el3(dep, REG_TxNoCD); /* Reg. 01 */
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dep->de_stat.ets_collision += inb_el3(dep, REG_TxMultColl); /* Reg. 02 */
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dep->de_stat.ets_collision += inb_el3(dep, REG_TxSingleColl); /* Reg. 03 */
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dep->de_stat.ets_collision += inb_el3(dep, REG_TxLate); /* Reg. 04 */
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dep->de_stat.ets_recvErr += inb_el3(dep, REG_RxDiscarded); /* Reg. 05 */
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dep->de_stat.ets_packetT += inb_el3(dep, REG_TxFrames); /* Reg. 06 */
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dep->de_stat.ets_packetR += inb_el3(dep, REG_RxFrames); /* Reg. 07 */
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dep->de_stat.ets_transDef += inb_el3(dep, REG_TxDefer); /* Reg. 08 */
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dep->bytes_Rx += (unsigned) inw_el3(dep, REG_RxBytes); /* Reg. 10 */
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dep->bytes_Tx += (unsigned) inw_el3(dep, REG_TxBytes); /* Reg. 12 */
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/* Goes back to operating window and enables statistics */
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SetWindow(WNO_Operating);
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outw_el3(dep, REG_CmdStatus, CMD_StatsEnable);
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return;
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}
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/*
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** Name: void el3_getstats(dpeth_t *dep)
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** Function: Reads statistics counters from board.
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*/
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static void el3_getstats(dpeth_t * dep)
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{
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lock();
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el3_update_stats(dep);
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unlock();
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return;
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}
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/*
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** Name: void el3_dodump(dpeth_t *dep)
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** Function: Dumps counter on screen (support for console display).
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*/
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static void el3_dodump(dpeth_t * dep)
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{
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el3_getstats(dep);
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return;
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}
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/*
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** Name: void el3_rx_mode(dpeth_t *dep)
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** Function: Initializes receiver mode
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*/
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static void el3_rx_mode(dpeth_t * dep)
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{
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dep->de_recv_mode = FilterIndividual;
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if (dep->de_flags & DEF_BROAD) dep->de_recv_mode |= FilterBroadcast;
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if (dep->de_flags & DEF_MULTI) dep->de_recv_mode |= FilterMulticast;
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if (dep->de_flags & DEF_PROMISC) dep->de_recv_mode |= FilterPromiscuous;
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outw_el3(dep, REG_CmdStatus, CMD_RxReset);
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outw_el3(dep, REG_CmdStatus, CMD_SetRxFilter | dep->de_recv_mode);
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outw_el3(dep, REG_CmdStatus, CMD_RxEnable);
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return;
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}
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/*
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** Name: void el3_reset(dpeth_t *dep)
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** Function: Reset function specific for Etherlink hardware.
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*/
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static void el3_reset(dpeth_t * UNUSED(dep))
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{
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return; /* Done */
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}
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/*
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** Name: void el3_write_fifo(dpeth_t * dep, int pktsize);
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** Function: Writes a packet from user area to board.
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** Remark: Writing a word/dword at a time may result faster
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** but is a lot more complicated. Let's go simpler way.
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*/
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static void el3_write_fifo(dpeth_t * dep, int pktsize)
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{
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int bytes, ix = 0;
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iovec_dat_s_t *iovp = &dep->de_write_iovec;
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int r, padding = pktsize;
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do { /* Writes chuncks of packet from user buffers */
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bytes = iovp->iod_iovec[ix].iov_size; /* Size of buffer */
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if (bytes > pktsize) bytes = pktsize;
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/* Writes from user buffer to Tx FIFO */
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r= sys_safe_outsb(dep->de_data_port, iovp->iod_proc_nr,
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iovp->iod_iovec[ix].iov_grant, 0, bytes);
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if (r != OK)
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panic("el3_write_fifo: sys_safe_outsb failed: %d", r);
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if (++ix >= IOVEC_NR) { /* Next buffer of IO vector */
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dp_next_iovec(iovp);
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ix = 0;
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}
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/* Till packet done */
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} while ((pktsize -= bytes) > 0);
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while ((padding++ % sizeof(long)) != 0) outb(dep->de_data_port, 0x00);
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return;
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}
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/*
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** Name: void el3_recv(dpeth_t *dep, int fromint, int size)
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** Function: Receive function. Called from interrupt handler or
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** from main to unload recv. buffer (packet to client)
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*/
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static void el3_recv(dpeth_t *dep, int fromint, int size)
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{
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buff_t *rxptr;
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while ((dep->de_flags & DEF_READING) && (rxptr = dep->de_recvq_head)) {
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lock(); /* Remove buffer from queue */
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if (dep->de_recvq_tail == dep->de_recvq_head)
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dep->de_recvq_head = dep->de_recvq_tail = NULL;
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else
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dep->de_recvq_head = rxptr->next;
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unlock();
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/* Copy buffer to user area and free it */
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mem2user(dep, rxptr);
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dep->de_read_s = rxptr->size;
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dep->de_flags |= DEF_ACK_RECV;
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dep->de_flags &= NOT(DEF_READING);
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/* Return buffer to the idle pool */
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free_buff(dep, rxptr);
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}
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return;
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}
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/*
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** Name: void el3_rx_complete(dpeth_t * dep);
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** Function: Upon receiving a packet, provides status checks
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** and if packet is OK copies it to local buffer.
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*/
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static void el3_rx_complete(dpeth_t * dep)
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{
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short int RxStatus;
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int pktsize;
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buff_t *rxptr;
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RxStatus = inw_el3(dep, REG_RxStatus);
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pktsize = RxStatus & RXS_Length; /* Mask off packet length */
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if (RxStatus & RXS_Error) {
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/* First checks for receiving errors */
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RxStatus &= RXS_ErrType;
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switch (RxStatus) { /* Bad packet (see error type) */
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case RXS_Dribble:
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case RXS_Oversize:
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case RXS_Runt: dep->de_stat.ets_recvErr += 1; break;
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case RXS_Overrun: dep->de_stat.ets_OVW += 1; break;
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case RXS_Framing: dep->de_stat.ets_frameAll += 1; break;
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case RXS_CRC: dep->de_stat.ets_CRCerr += 1; break;
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}
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} else if ((rxptr = alloc_buff(dep, pktsize + sizeof(buff_t))) == NULL) {
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/* Memory not available. Drop packet */
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dep->de_stat.ets_fifoOver += 1;
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} else {
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/* Good packet. Read it from FIFO */
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insb(dep->de_data_port, SELF, rxptr->buffer, pktsize);
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rxptr->next = NULL;
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rxptr->size = pktsize;
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lock(); /* Queue packet to receive queue */
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if (dep->de_recvq_head == NULL)
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dep->de_recvq_head = rxptr;
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else
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dep->de_recvq_tail->next = rxptr;
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dep->de_recvq_tail = rxptr;
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unlock();
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/* Reply to pending Receive requests, if any */
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el3_recv(dep, TRUE, pktsize);
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}
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/* Discard top packet from queue */
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outw_el3(dep, REG_CmdStatus, CMD_RxDiscard);
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return;
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}
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/*
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** Name: void el3_send(dpeth_t *dep, int count)
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** Function: Send function. Called from main to transit a packet or
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** from interrupt handler when Tx FIFO gets available.
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*/
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static void el3_send(dpeth_t * dep, int from_int, int count)
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{
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clock_t now;
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int ix;
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short int TxStatus;
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getticks(&now);
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if ((dep->de_flags & DEF_XMIT_BUSY) &&
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(now - dep->de_xmit_start) > 4) {
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DEBUG(printf("3c509: Transmitter timed out. Resetting ....\n");)
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dep->de_stat.ets_sendErr += 1;
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/* Resets and restars the transmitter */
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outw_el3(dep, REG_CmdStatus, CMD_TxReset);
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outw_el3(dep, REG_CmdStatus, CMD_TxEnable);
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dep->de_flags &= NOT(DEF_XMIT_BUSY);
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}
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if (!(dep->de_flags & DEF_XMIT_BUSY)) {
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/* Writes Transmitter preamble 1st Word (packet len, no ints) */
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outw_el3(dep, REG_TxFIFO, count);
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/* Writes Transmitter preamble 2nd Word (all zero) */
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outw_el3(dep, REG_TxFIFO, 0);
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/* Writes packet */
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el3_write_fifo(dep, count);
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getticks(&dep->de_xmit_start);
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dep->de_flags |= (DEF_XMIT_BUSY | DEF_ACK_SEND);
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if (inw_el3(dep, REG_TxFree) > ETH_MAX_PACK_SIZE) {
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/* Tx has enough room for a packet of maximum size */
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dep->de_flags &= NOT(DEF_XMIT_BUSY | DEF_SENDING);
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} else {
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/* Interrupt driver when enough room is available */
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outw_el3(dep, REG_CmdStatus, CMD_SetTxAvailable | ETH_MAX_PACK_SIZE);
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dep->de_flags &= NOT(DEF_SENDING);
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}
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/* Pops Tx status stack */
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for (ix = 4; --ix && (TxStatus = inb_el3(dep, REG_TxStatus)) > 0;) {
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if (TxStatus & 0x38) dep->de_stat.ets_sendErr += 1;
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if (TxStatus & 0x30)
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outw_el3(dep, REG_CmdStatus, CMD_TxReset);
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if (TxStatus & 0x3C)
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outw_el3(dep, REG_CmdStatus, CMD_TxEnable);
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outb_el3(dep, REG_TxStatus, 0);
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}
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}
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return;
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}
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/*
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** Name: void el3_close(dpeth_t *dep)
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** Function: Stops board and makes it ready to shut down.
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*/
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static void el3_close(dpeth_t * dep)
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{
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/* Disables statistics, Receiver and Transmitter */
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outw_el3(dep, REG_CmdStatus, CMD_StatsDisable);
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outw_el3(dep, REG_CmdStatus, CMD_RxDisable);
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outw_el3(dep, REG_CmdStatus, CMD_TxDisable);
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if (dep->de_if_port == BNC_XCVR) {
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outw_el3(dep, REG_CmdStatus, CMD_StopIntXcvr);
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/* milli_delay(5); */
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} else if (dep->de_if_port == TP_XCVR) {
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SetWindow(WNO_Diagnostics);
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outw_el3(dep, REG_MediaStatus, inw_el3(dep, REG_MediaStatus) &
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NOT((MediaLBeatEnable | MediaJabberEnable)));
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/* milli_delay(5); */
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}
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DEBUG(printf("%s: stopping Etherlink ... \n", dep->de_name));
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/* Issues a global reset
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outw_el3(dep, REG_CmdStatus, CMD_GlobalReset); */
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sys_irqdisable(&dep->de_hook); /* Disable interrupt */
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return;
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}
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/*
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** Name: void el3_interrupt(dpeth_t *dep)
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** Function: Interrupt handler. Acknwledges transmit interrupts
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** or unloads receive buffer to memory queue.
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*/
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static void el3_interrupt(dpeth_t * dep)
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{
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int loop;
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unsigned short isr;
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for (loop = 5; loop > 0 && ((isr = inw_el3(dep, REG_CmdStatus)) &
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(INT_Latch | INT_RxComplete | INT_UpdateStats)); loop -= 1) {
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if (isr & INT_RxComplete) /* Got a new packet */
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el3_rx_complete(dep);
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if (isr & INT_TxAvailable) { /* Tx has room for big packets */
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DEBUG(printf("3c509: got Tx interrupt, Status=0x%04x\n", isr);)
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dep->de_flags &= NOT(DEF_XMIT_BUSY);
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outw_el3(dep, REG_CmdStatus, CMD_Acknowledge | INT_TxAvailable);
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if (dep->de_flags & DEF_SENDING) /* Send pending */
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el3_send(dep, TRUE, dep->de_send_s);
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}
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if (isr & (INT_AdapterFail | INT_RxEarly | INT_UpdateStats)) {
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if (isr & INT_UpdateStats) /* Empties statistics */
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el3_getstats(dep);
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if (isr & INT_RxEarly) /* Not really used. Do nothing */
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outw_el3(dep, REG_CmdStatus, CMD_Acknowledge | (INT_RxEarly));
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if (isr & INT_AdapterFail) {
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/* Adapter error. Reset and re-enable receiver */
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DEBUG(printf("3c509: got Rx fail interrupt, Status=0x%04x\n", isr);)
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el3_rx_mode(dep);
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outw_el3(dep, REG_CmdStatus, CMD_Acknowledge | INT_AdapterFail);
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}
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}
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/* Acknowledge interrupt */
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outw_el3(dep, REG_CmdStatus, CMD_Acknowledge | (INT_Latch | INT_Requested));
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}
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return;
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}
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/*
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** Name: unsigned el3_read_eeprom(port_t port, unsigned address);
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** Function: Reads the EEPROM at specified address
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*/
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static unsigned el3_read_eeprom(port_t port, unsigned address)
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{
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unsigned int result;
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int bit;
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address |= EL3_READ_EEPROM;
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outb(port, address);
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milli_delay(5); /* Allows EEPROM reads */
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for (result = 0, bit = 16; bit > 0; bit -= 1) {
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result = (result << 1) | (inb(port) & 0x0001);
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}
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return result;
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}
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/*
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** Name: void el3_read_StationAddress(dpeth_t *dep)
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** Function: Reads station address from board
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*/
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static void el3_read_StationAddress(dpeth_t * dep)
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{
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unsigned int ix, rc;
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for (ix = EE_3COM_NODE_ADDR; ix < SA_ADDR_LEN+EE_3COM_NODE_ADDR;) {
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/* Accesses with word No. */
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rc = el3_read_eeprom(dep->de_id_port, ix / 2);
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/* Swaps bytes of word */
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dep->de_address.ea_addr[ix++] = (rc >> 8) & 0xFF;
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dep->de_address.ea_addr[ix++] = rc & 0xFF;
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}
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return;
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}
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/*
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** Name: void el3_open(dpeth_t *dep)
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** Function: Initalizes board hardware and driver data structures.
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*/
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static void el3_open(dpeth_t * dep)
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{
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unsigned int AddrCfgReg, ResCfgReg;
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unsigned int ix;
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el3_read_StationAddress(dep); /* Get ethernet address */
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/* Get address and resource configurations */
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AddrCfgReg = el3_read_eeprom(dep->de_id_port, EE_ADDR_CFG);
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ResCfgReg = el3_read_eeprom(dep->de_id_port, EE_RESOURCE_CFG);
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outb(dep->de_id_port, EL3_ACTIVATE); /* Activate the board */
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/* Gets xcvr configuration */
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dep->de_if_port = AddrCfgReg & EL3_CONFIG_XCVR_MASK;
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AddrCfgReg = ((AddrCfgReg & EL3_CONFIG_IOBASE_MASK) << 4) + EL3_IO_BASE_ADDR;
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if (AddrCfgReg != dep->de_base_port)
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panic("Bad I/O port for Etherlink board");
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ResCfgReg >>= 12;
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dep->de_irq &= NOT(DEI_DEFAULT); /* Strips the default flag */
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if (ResCfgReg != dep->de_irq) panic("Bad IRQ for Etherlink board");
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SetWindow(WNO_Setup);
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/* Reset transmitter and receiver */
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outw_el3(dep, REG_CmdStatus, CMD_TxReset);
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outw_el3(dep, REG_CmdStatus, CMD_RxReset);
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/* Enable the adapter */
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outb_el3(dep, REG_CfgControl, EL3_EnableAdapter);
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/* Disable Status bits */
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outw_el3(dep, REG_CmdStatus, CMD_SetStatusEnab + 0x00);
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/* Set "my own" address */
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SetWindow(WNO_StationAddress);
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for (ix = 0; ix < 6; ix += 1)
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outb_el3(dep, REG_SA0_1 + ix, dep->de_address.ea_addr[ix]);
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/* Start Transceivers as required */
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if (dep->de_if_port == BNC_XCVR) {
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/* Start internal transceiver for Coaxial cable */
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outw_el3(dep, REG_CmdStatus, CMD_StartIntXcvr);
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milli_delay(5);
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} else if (dep->de_if_port == TP_XCVR) {
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/* Start internal transceiver for Twisted pair cable */
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SetWindow(WNO_Diagnostics);
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outw_el3(dep, REG_MediaStatus,
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inw_el3(dep, REG_MediaStatus) | (MediaLBeatEnable | MediaJabberEnable));
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}
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/* Switch to the statistic window, and clear counts (by reading) */
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SetWindow(WNO_Statistics);
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for (ix = REG_TxCarrierLost; ix <= REG_TxDefer; ix += 1) inb_el3(dep, ix);
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inw_el3(dep, REG_RxBytes);
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inw_el3(dep, REG_TxBytes);
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/* Switch to operating window for normal use */
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SetWindow(WNO_Operating);
|
|
|
|
/* Receive individual address & broadcast. (Mofified later by rx_mode) */
|
|
outw_el3(dep, REG_CmdStatus, CMD_SetRxFilter |
|
|
(FilterIndividual | FilterBroadcast));
|
|
|
|
/* Turn on statistics */
|
|
outw_el3(dep, REG_CmdStatus, CMD_StatsEnable);
|
|
|
|
/* Enable transmitter and receiver */
|
|
outw_el3(dep, REG_CmdStatus, CMD_TxEnable);
|
|
outw_el3(dep, REG_CmdStatus, CMD_RxEnable);
|
|
|
|
/* Enable all the status bits */
|
|
outw_el3(dep, REG_CmdStatus, CMD_SetStatusEnab | 0xFF);
|
|
|
|
/* Acknowledge all interrupts to clear adapter. Enable interrupts */
|
|
outw_el3(dep, REG_CmdStatus, CMD_Acknowledge | 0xFF);
|
|
outw_el3(dep, REG_CmdStatus, CMD_SetIntMask |
|
|
(INT_Latch | INT_TxAvailable | INT_RxComplete | INT_UpdateStats));
|
|
|
|
/* Ready to operate, sets the environment for eth_task */
|
|
dep->de_data_port = dep->de_base_port;
|
|
/* Allocates Rx/Tx buffers */
|
|
init_buff(dep, NULL);
|
|
|
|
/* Device specific functions */
|
|
dep->de_recvf = el3_recv;
|
|
dep->de_sendf = el3_send;
|
|
dep->de_flagsf = el3_rx_mode;
|
|
dep->de_resetf = el3_reset;
|
|
dep->de_getstatsf = el3_getstats;
|
|
dep->de_dumpstatsf = el3_dodump;
|
|
dep->de_interruptf = el3_interrupt;
|
|
|
|
printf("%s: Etherlink III (%s) at %X:%d, %s port - ",
|
|
dep->de_name, "3c509", dep->de_base_port, dep->de_irq,
|
|
IfNamesMsg[dep->de_if_port >> 14]);
|
|
for (ix = 0; ix < SA_ADDR_LEN; ix += 1)
|
|
printf("%02X%c", dep->de_address.ea_addr[ix],
|
|
ix < SA_ADDR_LEN - 1 ? ':' : '\n');
|
|
|
|
return; /* Done */
|
|
}
|
|
|
|
/*
|
|
** Name: unsigned int el3_checksum(port_t port);
|
|
** Function: Reads EEPROM and computes checksum.
|
|
*/
|
|
static unsigned short el3_checksum(port_t port)
|
|
{
|
|
unsigned short rc, checksum, address;
|
|
unsigned char lo, hi;
|
|
|
|
for (checksum = address = 0; address < 15; address += 1) {
|
|
rc = el3_read_eeprom(port, address);
|
|
lo = rc & 0xFF;
|
|
hi = (rc >> 8) & 0xFF;
|
|
if ((address == EE_PROD_ID && (rc & EE_PROD_ID_MASK) != EL3_PRODUCT_ID) ||
|
|
(address == EE_3COM_CODE && rc != EL3_3COM_CODE))
|
|
return address;
|
|
if (address == EE_ADDR_CFG ||
|
|
address == EE_RESOURCE_CFG ||
|
|
address == EE_SW_CONFIG_INFO) {
|
|
lo ^= hi;
|
|
hi = 0;
|
|
} else {
|
|
hi ^= lo;
|
|
lo = 0;
|
|
}
|
|
rc = ((unsigned) hi << 8) + lo;
|
|
checksum ^= rc;
|
|
}
|
|
rc = el3_read_eeprom(port, address);
|
|
return(checksum ^= rc); /* If OK checksum is 0 */
|
|
}
|
|
|
|
/*
|
|
** Name: void el3_write_id(port_t port);
|
|
** Function: Writes the ID sequence to the board.
|
|
*/
|
|
static void el3_write_id(port_t port)
|
|
{
|
|
int ix, pattern;
|
|
|
|
outb(port, 0); /* Selects the ID port */
|
|
outb(port, 0); /* Resets hardware pattern generator */
|
|
for (pattern = ix = 0x00FF; ix > 0; ix -= 1) {
|
|
outb(port, pattern);
|
|
pattern <<= 1;
|
|
pattern = (pattern & 0x0100) ? pattern ^ 0xCF : pattern;
|
|
}
|
|
return;
|
|
}
|
|
|
|
/*
|
|
** Name: int el3_probe(dpeth_t *dep)
|
|
** Function: Checks for presence of the board.
|
|
*/
|
|
int el3_probe(dpeth_t * dep)
|
|
{
|
|
port_t id_port;
|
|
|
|
/* Don't ask me what is this for !! */
|
|
outb(0x0279, 0x02); /* Select PnP config control register. */
|
|
outb(0x0A79, 0x02); /* Return to WaitForKey state. */
|
|
/* Tests I/O ports in the 0x1xF range for a valid ID port */
|
|
for (id_port = 0x110; id_port < 0x200; id_port += 0x10) {
|
|
outb(id_port, 0x00);
|
|
outb(id_port, 0xFF);
|
|
if (inb(id_port) & 0x01) break;
|
|
}
|
|
if (id_port == 0x200) return 0; /* No board responding */
|
|
|
|
el3_write_id(id_port);
|
|
outb(id_port, EL3_ID_GLOBAL_RESET); /* Reset the board */
|
|
milli_delay(5); /* Technical reference says 162 micro sec. */
|
|
el3_write_id(id_port);
|
|
outb(id_port, EL3_SET_TAG_REGISTER);
|
|
milli_delay(5);
|
|
|
|
dep->de_id_port = id_port; /* Stores ID port No. */
|
|
dep->de_ramsize = /* RAM size is meaningless */
|
|
dep->de_offset_page = 0;
|
|
dep->de_linmem = 0L; /* Access is via I/O port */
|
|
|
|
/* Device specific functions */
|
|
dep->de_initf = el3_open;
|
|
dep->de_stopf = el3_close;
|
|
|
|
return(el3_checksum(id_port) == 0); /* Etherlink board found/not found */
|
|
}
|
|
|
|
#endif /* ENABLE_3C509 */
|
|
|
|
/** 3c509.c **/
|