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.
417 lines
11 KiB
C
417 lines
11 KiB
C
/*
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** File: 3c501.c Jan. 14, 1997
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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 (3c501) boards. This is a
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** very old board and its performances are very poor for today
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** network environments.
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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_3C501 == 1)
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#include "3c501.h"
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static unsigned char StationAddress[SA_ADDR_LEN] = {0, 0, 0, 0, 0, 0,};
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static buff_t *TxBuff = NULL;
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/*
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** Name: void el1_getstats(dpeth_t *dep)
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** Function: Reads statistics counters from board.
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**/
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static void el1_getstats(dpeth_t * dep)
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{
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return; /* Nothing to do */
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}
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/*
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** Name: void el1_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 el1_reset(dpeth_t * dep)
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{
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int ix;
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for (ix = 0; ix < 8; ix += 1) /* Resets the board */
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outb_el1(dep, EL1_CSR, ECSR_RESET);
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_SYS);
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/* Set Ethernet Address on controller */
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outb_el1(dep, EL1_CSR, ECSR_LOOP); /* Loopback mode */
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for (ix = EL1_ADDRESS; ix < SA_ADDR_LEN; ix += 1)
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outb_el1(dep, ix, StationAddress[ix]);
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lock();
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/* Enable DMA/Interrupt, gain control of Buffer */
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_SYS);
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/* Clear RX packet area */
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outw_el1(dep, EL1_RECVPTR, 0);
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/* Enable transmit/receive configuration and flush pending interrupts */
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outb_el1(dep, EL1_XMIT, EXSR_IDLE | EXSR_16JAM | EXSR_JAM | EXSR_UNDER);
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outb_el1(dep, EL1_RECV, dep->de_recv_mode);
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inb_el1(dep, EL1_RECV);
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inb_el1(dep, EL1_XMIT);
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dep->de_flags &= NOT(DEF_XMIT_BUSY);
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unlock();
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return; /* Done */
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}
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/*
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** Name: void el1_dumpstats(dpeth_t *dep, int port, vir_bytes size)
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** Function: Dumps counter on screen (support for console display).
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*/
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static void el1_dumpstats(dpeth_t * UNUSED(dep))
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{
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return;
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}
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/*
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** Name: void el1_mode_init(dpeth_t *dep)
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** Function: Initializes receicer mode
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*/
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static void el1_mode_init(dpeth_t * dep)
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{
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if (dep->de_flags & DEF_BROAD) {
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dep->de_recv_mode = ERSR_BROAD | ERSR_RMASK;
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} else if (dep->de_flags & DEF_PROMISC) {
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dep->de_recv_mode = ERSR_ALL | ERSR_RMASK;
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} else if (dep->de_flags & DEF_MULTI) {
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dep->de_recv_mode = ERSR_MULTI | ERSR_RMASK;
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} else {
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dep->de_recv_mode = ERSR_NONE | ERSR_RMASK;
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}
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outb_el1(dep, EL1_RECV, dep->de_recv_mode);
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inb_el1(dep, EL1_RECV);
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return;
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}
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/*
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** Name: void el1_recv(dpeth_t *dep, int from, int size)
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** Function: Receive function. Called from interrupt handler to
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** unload recv. buffer or from main (packet to client)
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*/
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static void el1_recv(dpeth_t * dep, int from, 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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/* Remove buffer from queue and free buffer */
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lock();
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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 */
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mem2user(dep, rxptr);
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/* Reply information */
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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 el1_send(dpeth_t *dep, int from_int, int pktsize)
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** Function: Send function. Called from main to transit a packet or
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** from interrupt handler when a new packet was queued.
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*/
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static void el1_send(dpeth_t * dep, int from_int, int pktsize)
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{
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buff_t *txbuff;
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clock_t now;
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if (from_int == FALSE) {
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if ((txbuff = alloc_buff(dep, pktsize + sizeof(buff_t))) != NULL) {
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/* Fill transmit buffer from user area */
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txbuff->next = NULL;
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txbuff->size = pktsize;
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txbuff->client = dep->de_client;
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user2mem(dep, txbuff);
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} else
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panic("out of memory for Tx");
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} else if ((txbuff = dep->de_xmitq_head) != NULL) {
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/* Get first packet in queue */
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lock();
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if (dep->de_xmitq_tail == dep->de_xmitq_head)
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dep->de_xmitq_head = dep->de_xmitq_tail = NULL;
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else
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dep->de_xmitq_head = txbuff->next;
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unlock();
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pktsize = txbuff->size;
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} else
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panic("should not be sending ");
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if ((dep->de_flags & DEF_XMIT_BUSY)) {
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if (from_int) panic("should not be sending ");
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getticks(&now);
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if ((now - dep->de_xmit_start) > 4) {
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/* Transmitter timed out */
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DEBUG(printf("3c501: transmitter timed out ... \n"));
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dep->de_stat.ets_sendErr += 1;
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dep->de_flags &= NOT(DEF_XMIT_BUSY);
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el1_reset(dep);
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}
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/* Queue packet */
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lock(); /* Queue packet to receive queue */
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if (dep->de_xmitq_head == NULL)
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dep->de_xmitq_head = txbuff;
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else
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dep->de_xmitq_tail->next = txbuff;
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dep->de_xmitq_tail = txbuff;
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unlock();
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} else {
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/* Save for retransmission */
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TxBuff = txbuff;
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dep->de_flags |= (DEF_XMIT_BUSY | DEF_ACK_SEND);
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/* Setup board for packet loading */
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lock(); /* Buffer to processor */
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_SYS);
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inb_el1(dep, EL1_RECV); /* Clears any spurious interrupt */
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inb_el1(dep, EL1_XMIT);
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outw_el1(dep, EL1_RECVPTR, 0); /* Clears RX packet area */
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/* Loads packet */
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outw_el1(dep, EL1_XMITPTR, (EL1_BFRSIZ - pktsize));
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outsb(dep->de_data_port, SELF, txbuff->buffer, pktsize);
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/* Starts transmitter */
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outw_el1(dep, EL1_XMITPTR, (EL1_BFRSIZ - pktsize));
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_XMIT); /* There it goes... */
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unlock();
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getticks(&dep->de_xmit_start);
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dep->de_flags &= NOT(DEF_SENDING);
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}
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return;
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}
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/*
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** Name: void el1_stop(dpeth_t *dep)
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** Function: Stops board and disable interrupts.
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*/
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static void el1_stop(dpeth_t * dep)
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{
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int ix;
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DEBUG(printf("%s: stopping Etherlink ....\n", dep->de_name));
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for (ix = 0; ix < 8; ix += 1) /* Reset board */
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outb_el1(dep, EL1_CSR, ECSR_RESET);
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outb_el1(dep, EL1_CSR, ECSR_SYS);
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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 el1_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 el1_interrupt(dpeth_t * dep)
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{
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u16_t csr, isr;
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int pktsize;
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buff_t *rxptr;
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csr = inb_el1(dep, EL1_CSR);
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if ((csr & ECSR_XMIT) && (dep->de_flags & DEF_XMIT_BUSY)) {
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/* Got a transmit interrupt */
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isr = inb_el1(dep, EL1_XMIT);
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if ((isr & (EXSR_16JAM | EXSR_UNDER | EXSR_JAM)) || !(isr & EXSR_IDLE)) {
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DEBUG(printf("3c501: got xmit interrupt (ASR=0x%02X XSR=0x%02X)\n", csr, isr));
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if (isr & EXSR_JAM) {
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/* Sending, packet got a collision */
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dep->de_stat.ets_collision += 1;
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/* Put pointer back to beginning of packet */
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_SYS);
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outw_el1(dep, EL1_XMITPTR, (EL1_BFRSIZ - TxBuff->size));
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/* And retrigger transmission */
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_XMIT);
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return;
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} else if ((isr & EXSR_16JAM) || !(isr & EXSR_IDLE)) {
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dep->de_stat.ets_sendErr += 1;
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} else if (isr & EXSR_UNDER) {
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dep->de_stat.ets_fifoUnder += 1;
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}
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DEBUG(printf("3c501: got xmit interrupt (0x%02X)\n", isr));
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el1_reset(dep);
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} else {
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/** if (inw_el1(dep, EL1_XMITPTR) == EL1_BFRSIZ) **/
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/* Packet transmitted successfully */
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dep->de_stat.ets_packetT += 1;
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dep->bytes_Tx += (long) (TxBuff->size);
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free_buff(dep, TxBuff);
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dep->de_flags &= NOT(DEF_XMIT_BUSY);
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if ((dep->de_flags & DEF_SENDING) && dep->de_xmitq_head) {
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/* Pending transmit request available in queue */
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el1_send(dep, TRUE, 0);
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if (dep->de_flags & (DEF_XMIT_BUSY | DEF_ACK_SEND))
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return;
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}
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}
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} else if ((csr & (ECSR_RECV | ECSR_XMTBSY)) == (ECSR_RECV | ECSR_XMTBSY)) {
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/* Got a receive interrupt */
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isr = inb_el1(dep, EL1_RECV);
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pktsize = inw_el1(dep, EL1_RECVPTR);
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if ((isr & ERSR_RERROR) || (isr & ERSR_STALE)) {
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DEBUG(printf("Rx0 (ASR=0x%02X RSR=0x%02X size=%d)\n", csr, isr, pktsize));
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dep->de_stat.ets_recvErr += 1;
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} else if (pktsize < ETH_MIN_PACK_SIZE || pktsize > ETH_MAX_PACK_SIZE) {
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DEBUG(printf("Rx1 (ASR=0x%02X RSR=0x%02X size=%d)\n", csr, isr, pktsize));
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dep->de_stat.ets_recvErr += 1;
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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 if (isr & (ERSR_GOOD | ERSR_ANY)) {
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/* Got a good packet. Read it from buffer */
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_SYS);
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outw_el1(dep, EL1_XMITPTR, 0);
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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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dep->de_stat.ets_packetR += 1;
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dep->bytes_Rx += (long) 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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el1_recv(dep, TRUE, 0);
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}
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} else { /* Nasty condition, should never happen */
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DEBUG(
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printf("3c501: got interrupt with status 0x%02X\n"
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" de_flags=0x%04X XSR=0x%02X RSR=0x%02X \n"
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" xmit buffer = 0x%4X recv buffer = 0x%4X\n",
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csr, dep->de_flags,
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inb_el1(dep, EL1_RECV),
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inb_el1(dep, EL1_XMIT),
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inw_el1(dep, EL1_XMITPTR),
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inw_el1(dep, EL1_RECVPTR))
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);
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el1_reset(dep);
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}
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/* Move into receive mode */
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_RECV);
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outw_el1(dep, EL1_RECVPTR, 0);
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/* Be sure that interrupts are cleared */
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inb_el1(dep, EL1_RECV);
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inb_el1(dep, EL1_XMIT);
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return;
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}
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/*
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** Name: void el1_init(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 el1_init(dpeth_t * dep)
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{
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int ix;
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dep->de_irq &= NOT(DEI_DEFAULT); /* Strip the default flag. */
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dep->de_offset_page = 0;
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dep->de_data_port = dep->de_base_port + EL1_DATAPORT;
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el1_reset(dep); /* Reset and initialize board */
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/* Start receiver (default mode) */
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outw_el1(dep, EL1_RECVPTR, 0);
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outb_el1(dep, EL1_CSR, ECSR_RIDE | ECSR_RECV);
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/* Initializes buffer pool */
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init_buff(dep, NULL);
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el1_mode_init(dep);
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printf("%s: Etherlink (%s) at %X:%d - ",
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dep->de_name, "3c501", dep->de_base_port, dep->de_irq);
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for (ix = 0; ix < SA_ADDR_LEN; ix += 1)
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printf("%02X%c", (dep->de_address.ea_addr[ix] = StationAddress[ix]),
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ix < SA_ADDR_LEN - 1 ? ':' : '\n');
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/* Device specific functions */
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dep->de_recvf = el1_recv;
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dep->de_sendf = el1_send;
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dep->de_flagsf = el1_mode_init;
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dep->de_resetf = el1_reset;
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dep->de_getstatsf = el1_getstats;
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dep->de_dumpstatsf = el1_dumpstats;
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dep->de_interruptf = el1_interrupt;
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return; /* Done */
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}
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/*
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** Name: int el1_probe(dpeth_t *dep)
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** Function: Checks for presence of the board.
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*/
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int el1_probe(dpeth_t * dep)
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{
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int ix;
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for (ix = 0; ix < 8; ix += 1) /* Reset the board */
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outb_el1(dep, EL1_CSR, ECSR_RESET);
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outb_el1(dep, EL1_CSR, ECSR_SYS); /* Leaves buffer to system */
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/* Check station address */
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for (ix = 0; ix < SA_ADDR_LEN; ix += 1) {
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outw_el1(dep, EL1_XMITPTR, ix);
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StationAddress[ix] = inb_el1(dep, EL1_SAPROM);
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}
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if (StationAddress[0] != 0x02 || /* Etherlink Station address */
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StationAddress[1] != 0x60 || /* MUST be 02:60:8c:xx:xx:xx */
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StationAddress[2] != 0x8C)
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return FALSE; /* No Etherlink board at this address */
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dep->de_ramsize = 0; /* RAM size is meaningless */
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dep->de_linmem = 0L; /* Access is via I/O port */
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/* Device specific functions */
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dep->de_initf = el1_init;
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dep->de_stopf = el1_stop;
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return TRUE; /* Etherlink board found */
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}
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#endif /* ENABLE_3C501 */
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/** 3c501.c **/
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