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|
/*
* Gaisler Research ethernet MAC driver
* adapted from Opencores driver by Marko Isomaki
*
* The license and distribution terms for this file may be
* found in found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*
* $Id$
*
* 2007-09-07, Ported GBIT support from 4.6.5
*/
#include <rtems.h>
#define GRETH_SUPPORTED
#include <bsp.h>
#include <inttypes.h>
#include <errno.h>
#include <rtems/bspIo.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <rtems/error.h>
#include <rtems/rtems_bsdnet.h>
#include "greth.h"
#include <sys/param.h>
#include <sys/mbuf.h>
#include <sys/socket.h>
#include <sys/sockio.h>
#include <net/if.h>
#include <netinet/in.h>
#include <netinet/if_ether.h>
#ifdef malloc
#undef malloc
#endif
#ifdef free
#undef free
#endif
#if defined(__m68k__)
extern m68k_isr_entry set_vector( rtems_isr_entry, rtems_vector_number, int );
#else
extern rtems_isr_entry set_vector( rtems_isr_entry, rtems_vector_number, int );
#endif
/* #define GRETH_DEBUG */
#ifdef CPU_U32_FIX
extern void ipalign(struct mbuf *m);
#endif
/*
* Number of OCs supported by this driver
*/
#define NOCDRIVER 1
/*
* Receive buffer size -- Allow for a full ethernet packet including CRC
*/
#define RBUF_SIZE 1518
#define ET_MINLEN 64 /* minimum message length */
/*
* RTEMS event used by interrupt handler to signal driver tasks.
* This must not be any of the events used by the network task synchronization.
*/
#define INTERRUPT_EVENT RTEMS_EVENT_1
/*
* RTEMS event used to start transmit daemon.
* This must not be the same as INTERRUPT_EVENT.
*/
#define START_TRANSMIT_EVENT RTEMS_EVENT_2
/* event to send when tx buffers become available */
#define GRETH_TX_WAIT_EVENT RTEMS_EVENT_3
/* suspend when all TX descriptors exhausted */
/*
#define GRETH_SUSPEND_NOTXBUF
*/
#if (MCLBYTES < RBUF_SIZE)
# error "Driver must have MCLBYTES > RBUF_SIZE"
#endif
/* 4s Autonegotiation Timeout */
#ifndef GRETH_AUTONEGO_TIMEOUT_MS
#define GRETH_AUTONEGO_TIMEOUT_MS 4000
#endif
/* For optimizing the autonegotiation time */
#define GRETH_AUTONEGO_PRINT_TIME
/* Ethernet buffer descriptor */
typedef struct _greth_rxtxdesc {
volatile uint32_t ctrl; /* Length and status */
uint32_t *addr; /* Buffer pointer */
} greth_rxtxdesc;
/*
* Per-device data
*/
struct greth_softc
{
struct arpcom arpcom;
greth_regs *regs;
int acceptBroadcast;
rtems_id rxDaemonTid;
rtems_id txDaemonTid;
unsigned int tx_ptr;
unsigned int tx_dptr;
unsigned int tx_cnt;
unsigned int rx_ptr;
unsigned int txbufs;
unsigned int rxbufs;
greth_rxtxdesc *txdesc;
greth_rxtxdesc *rxdesc;
struct mbuf **rxmbuf;
struct mbuf **txmbuf;
rtems_vector_number vector;
/*Status*/
struct phy_device_info phydev;
int fd;
int sp;
int gb;
int gbit_mac;
int auto_neg;
unsigned int auto_neg_time;
/*
* Statistics
*/
unsigned long rxInterrupts;
unsigned long rxPackets;
unsigned long rxLengthError;
unsigned long rxNonOctet;
unsigned long rxBadCRC;
unsigned long rxOverrun;
unsigned long txInterrupts;
unsigned long txDeferred;
unsigned long txHeartbeat;
unsigned long txLateCollision;
unsigned long txRetryLimit;
unsigned long txUnderrun;
};
static struct greth_softc greth;
static char *almalloc(int sz)
{
char *tmp;
tmp = calloc(1,2*sz);
tmp = (char *) (((uintptr_t)tmp+sz) & ~(sz -1));
return(tmp);
}
/* GRETH interrupt handler */
static rtems_isr
greth_interrupt_handler (rtems_vector_number v)
{
uint32_t status;
/* read and clear interrupt cause */
status = greth.regs->status;
greth.regs->status = status;
/* Frame received? */
if (status & (GRETH_STATUS_RXERR | GRETH_STATUS_RXIRQ))
{
greth.rxInterrupts++;
rtems_event_send (greth.rxDaemonTid, INTERRUPT_EVENT);
}
#ifdef GRETH_SUSPEND_NOTXBUF
if (status & (GRETH_STATUS_TXERR | GRETH_STATUS_TXIRQ))
{
greth.txInterrupts++;
rtems_event_send (greth.txDaemonTid, GRETH_TX_WAIT_EVENT);
}
#endif
/*
#ifdef __leon__
LEON_Clear_interrupt(v-0x10);
#endif
*/
}
static uint32_t read_mii(uint32_t phy_addr, uint32_t reg_addr)
{
while (greth.regs->mdio_ctrl & GRETH_MDIO_BUSY) {}
greth.regs->mdio_ctrl = (phy_addr << 11) | (reg_addr << 6) | GRETH_MDIO_READ;
while (greth.regs->mdio_ctrl & GRETH_MDIO_BUSY) {}
if (!(greth.regs->mdio_ctrl & GRETH_MDIO_LINKFAIL))
return((greth.regs->mdio_ctrl >> 16) & 0xFFFF);
else {
printf("greth: failed to read mii\n");
return (0);
}
}
static void write_mii(uint32_t phy_addr, uint32_t reg_addr, uint32_t data)
{
while (greth.regs->mdio_ctrl & GRETH_MDIO_BUSY) {}
greth.regs->mdio_ctrl =
((data & 0xFFFF) << 16) | (phy_addr << 11) | (reg_addr << 6) | GRETH_MDIO_WRITE;
while (greth.regs->mdio_ctrl & GRETH_MDIO_BUSY) {}
}
static void print_init_info(struct greth_softc *sc)
{
printf("greth: driver attached\n");
printf("**** PHY ****\n");
printf("Vendor: %x Device: %x Revision: %d\n",sc->phydev.vendor, sc->phydev.device, sc->phydev.rev);
printf("Current Operating Mode: ");
if (sc->gb) {
printf("1000 Mbit ");
} else if (sc->sp) {
printf("100 Mbit ");
} else {
printf("10 Mbit ");
}
if (sc->fd) {
printf("Full Duplex\n");
} else {
printf("Half Duplex\n");
}
#ifdef GRETH_AUTONEGO_PRINT_TIME
if ( sc->auto_neg ){
printf("Autonegotiation Time: %dms\n",sc->auto_neg_time);
}
#endif
}
/*
* Initialize the ethernet hardware
*/
static void
greth_initialize_hardware (struct greth_softc *sc)
{
struct mbuf *m;
int i;
int phyaddr;
int phyctrl;
int phystatus;
int tmp1;
int tmp2;
unsigned int msecs;
struct timeval tstart, tnow;
greth_regs *regs;
regs = sc->regs;
/* Reset the controller. */
greth.rxInterrupts = 0;
greth.rxPackets = 0;
regs->ctrl = 0;
regs->ctrl = GRETH_CTRL_RST; /* Reset ON */
regs->ctrl = 0; /* Reset OFF */
/* Check if mac is gbit capable*/
sc->gbit_mac = (regs->ctrl >> 27) & 1;
/* Get the phy address which assumed to have been set
correctly with the reset value in hardware*/
phyaddr = (regs->mdio_ctrl >> 11) & 0x1F;
/* get phy control register default values */
while ((phyctrl = read_mii(phyaddr, 0)) & 0x8000) {}
/* reset PHY and wait for completion */
write_mii(phyaddr, 0, 0x8000 | phyctrl);
while ((read_mii(phyaddr, 0)) & 0x8000) {}
/* Check if PHY is autoneg capable and then determine operating mode,
otherwise force it to 10 Mbit halfduplex */
sc->gb = 0;
sc->fd = 0;
sc->sp = 0;
sc->auto_neg = 0;
sc->auto_neg_time = 0;
if ((phyctrl >> 12) & 1) {
/*wait for auto negotiation to complete*/
msecs = 0;
sc->auto_neg = 1;
if ( rtems_clock_get_tod_timeval(&tstart) == RTEMS_NOT_DEFINED){
/* Not inited, set to epoch */
rtems_time_of_day time;
time.year = 1988;
time.month = 1;
time.day = 1;
time.hour = 0;
time.minute = 0;
time.second = 0;
time.ticks = 0;
rtems_clock_set(&time);
tstart.tv_sec = 0;
tstart.tv_usec = 0;
rtems_clock_get_tod_timeval(&tstart);
}
while (!(((phystatus = read_mii(phyaddr, 1)) >> 5) & 1)) {
if ( rtems_clock_get_tod_timeval(&tnow) != RTEMS_SUCCESSFUL )
printk("rtems_clock_get_tod_timeval failed\n\r");
msecs = (tnow.tv_sec-tstart.tv_sec)*1000+(tnow.tv_usec-tstart.tv_usec)/1000;
if ( msecs > GRETH_AUTONEGO_TIMEOUT_MS ){
sc->auto_neg_time = msecs;
printk("Auto negotiation timed out. Selecting default config\n\r");
tmp1 = read_mii(phyaddr, 0);
sc->gb = ((phyctrl >> 6) & 1) && !((phyctrl >> 13) & 1);
sc->sp = !((phyctrl >> 6) & 1) && ((phyctrl >> 13) & 1);
sc->fd = (phyctrl >> 8) & 1;
goto auto_neg_done;
}
}
sc->auto_neg_time = msecs;
sc->phydev.adv = read_mii(phyaddr, 4);
sc->phydev.part = read_mii(phyaddr, 5);
if ((phystatus >> 8) & 1) {
sc->phydev.extadv = read_mii(phyaddr, 9);
sc->phydev.extpart = read_mii(phyaddr, 10);
if ( (sc->phydev.extadv & GRETH_MII_EXTADV_1000FD) &&
(sc->phydev.extpart & GRETH_MII_EXTPRT_1000FD)) {
sc->gb = 1;
sc->fd = 1;
}
if ( (sc->phydev.extadv & GRETH_MII_EXTADV_1000HD) &&
(sc->phydev.extpart & GRETH_MII_EXTPRT_1000HD)) {
sc->gb = 1;
sc->fd = 0;
}
}
if ((sc->gb == 0) || ((sc->gb == 1) && (sc->gbit_mac == 0))) {
if ( (sc->phydev.adv & GRETH_MII_100TXFD) &&
(sc->phydev.part & GRETH_MII_100TXFD)) {
sc->sp = 1;
sc->fd = 1;
}
if ( (sc->phydev.adv & GRETH_MII_100TXHD) &&
(sc->phydev.part & GRETH_MII_100TXHD)) {
sc->sp = 1;
sc->fd = 0;
}
if ( (sc->phydev.adv & GRETH_MII_10FD) &&
(sc->phydev.part & GRETH_MII_10FD)) {
sc->fd = 1;
}
}
}
auto_neg_done:
sc->phydev.vendor = 0;
sc->phydev.device = 0;
sc->phydev.rev = 0;
phystatus = read_mii(phyaddr, 1);
/*Read out PHY info if extended registers are available */
if (phystatus & 1) {
tmp1 = read_mii(phyaddr, 2);
tmp2 = read_mii(phyaddr, 3);
sc->phydev.vendor = (tmp1 << 6) | ((tmp2 >> 10) & 0x3F);
sc->phydev.rev = tmp2 & 0xF;
sc->phydev.device = (tmp2 >> 4) & 0x3F;
}
/* Force to 10 mbit half duplex if the 10/100 MAC is used with a 1000 PHY*/
/*check if marvell 88EE1111 PHY. Needs special reset handling */
if ((phystatus & 1) && (sc->phydev.vendor == 0x005043) && (sc->phydev.device == 0x0C)) {
if (((sc->gb) && !(sc->gbit_mac)) || !((phyctrl >> 12) & 1)) {
write_mii(phyaddr, 0, sc->sp << 13);
write_mii(phyaddr, 0, 0x8000);
sc->gb = 0;
sc->sp = 0;
sc->fd = 0;
}
} else {
if (((sc->gb) && !(sc->gbit_mac)) || !((phyctrl >> 12) & 1)) {
write_mii(phyaddr, 0, sc->sp << 13);
sc->gb = 0;
sc->sp = 0;
sc->fd = 0;
}
}
while ((read_mii(phyaddr, 0)) & 0x8000) {}
regs->ctrl = 0;
regs->ctrl = GRETH_CTRL_RST; /* Reset ON */
regs->ctrl = 0;
/* Initialize rx/tx descriptor pointers */
sc->txdesc = (greth_rxtxdesc *) almalloc(1024);
sc->rxdesc = (greth_rxtxdesc *) almalloc(1024);
sc->tx_ptr = 0;
sc->tx_dptr = 0;
sc->tx_cnt = 0;
sc->rx_ptr = 0;
regs->txdesc = (uintptr_t) sc->txdesc;
regs->rxdesc = (uintptr_t) sc->rxdesc;
sc->rxmbuf = calloc(sc->rxbufs, sizeof(*sc->rxmbuf));
sc->txmbuf = calloc(sc->txbufs, sizeof(*sc->txmbuf));
for (i = 0; i < sc->txbufs; i++)
{
sc->txdesc[i].ctrl = 0;
if (!(sc->gbit_mac)) {
sc->txdesc[i].addr = malloc(GRETH_MAXBUF_LEN);
}
#ifdef GRETH_DEBUG
/* printf("TXBUF: %08x\n", (int) sc->txdesc[i].addr); */
#endif
}
for (i = 0; i < sc->rxbufs; i++)
{
MGETHDR (m, M_WAIT, MT_DATA);
MCLGET (m, M_WAIT);
if (sc->gbit_mac)
m->m_data += 2;
m->m_pkthdr.rcvif = &sc->arpcom.ac_if;
sc->rxmbuf[i] = m;
sc->rxdesc[i].addr = (uint32_t *) mtod(m, uint32_t *);
sc->rxdesc[i].ctrl = GRETH_RXD_ENABLE | GRETH_RXD_IRQ;
#ifdef GRETH_DEBUG
/* printf("RXBUF: %08x\n", (int) sc->rxdesc[i].addr); */
#endif
}
sc->rxdesc[sc->rxbufs - 1].ctrl |= GRETH_RXD_WRAP;
/* set ethernet address. */
regs->mac_addr_msb =
sc->arpcom.ac_enaddr[0] << 8 | sc->arpcom.ac_enaddr[1];
uint32_t mac_addr_lsb;
mac_addr_lsb = sc->arpcom.ac_enaddr[2];
mac_addr_lsb <<= 8;
mac_addr_lsb |= sc->arpcom.ac_enaddr[3];
mac_addr_lsb <<= 8;
mac_addr_lsb |= sc->arpcom.ac_enaddr[4];
mac_addr_lsb <<= 8;
mac_addr_lsb |= sc->arpcom.ac_enaddr[5];
regs->mac_addr_lsb = mac_addr_lsb;
/* install interrupt vector */
set_vector(greth_interrupt_handler, sc->vector, 1);
/* clear all pending interrupts */
regs->status = 0xffffffff;
#ifdef GRETH_SUSPEND_NOTXBUF
regs->ctrl |= GRETH_CTRL_TXIRQ;
#endif
regs->ctrl |= GRETH_CTRL_RXEN | (sc->fd << 4) | GRETH_CTRL_RXIRQ | (sc->sp << 7) | (sc->gb << 8);
print_init_info(sc);
}
static void
greth_rxDaemon (void *arg)
{
struct ether_header *eh;
struct greth_softc *dp = (struct greth_softc *) &greth;
struct ifnet *ifp = &dp->arpcom.ac_if;
struct mbuf *m;
unsigned int len, len_status, bad;
rtems_event_set events;
for (;;)
{
rtems_bsdnet_event_receive (INTERRUPT_EVENT,
RTEMS_WAIT | RTEMS_EVENT_ANY,
RTEMS_NO_TIMEOUT, &events);
#ifdef GRETH_ETH_DEBUG
printf ("r\n");
#endif
while (!((len_status =
dp->rxdesc[dp->rx_ptr].ctrl) & GRETH_RXD_ENABLE))
{
bad = 0;
if (len_status & GRETH_RXD_TOOLONG)
{
dp->rxLengthError++;
bad = 1;
}
if (len_status & GRETH_RXD_DRIBBLE)
{
dp->rxNonOctet++;
bad = 1;
}
if (len_status & GRETH_RXD_CRCERR)
{
dp->rxBadCRC++;
bad = 1;
}
if (len_status & GRETH_RXD_OVERRUN)
{
dp->rxOverrun++;
bad = 1;
}
if (len_status & GRETH_RXD_LENERR)
{
dp->rxLengthError++;
bad = 1;
}
if (!bad)
{
/* pass on the packet in the receive buffer */
len = len_status & 0x7FF;
m = dp->rxmbuf[dp->rx_ptr];
#ifdef GRETH_DEBUG
int i;
printf("RX: 0x%08x, Len: %d : ", (int) m->m_data, len);
for (i=0; i<len; i++)
printf("%x%x", (m->m_data[i] >> 4) & 0x0ff, m->m_data[i] & 0x0ff);
printf("\n");
#endif
m->m_len = m->m_pkthdr.len =
len - sizeof (struct ether_header);
eh = mtod (m, struct ether_header *);
m->m_data += sizeof (struct ether_header);
#ifdef CPU_U32_FIX
if(!(dp->gbit_mac))
ipalign(m); /* Align packet on 32-bit boundary */
#endif
ether_input (ifp, eh, m);
MGETHDR (m, M_WAIT, MT_DATA);
MCLGET (m, M_WAIT);
if (dp->gbit_mac)
m->m_data += 2;
dp->rxmbuf[dp->rx_ptr] = m;
m->m_pkthdr.rcvif = ifp;
dp->rxdesc[dp->rx_ptr].addr =
(uint32_t *) mtod (m, uint32_t *);
dp->rxPackets++;
}
if (dp->rx_ptr == dp->rxbufs - 1) {
dp->rxdesc[dp->rx_ptr].ctrl = GRETH_RXD_ENABLE | GRETH_RXD_IRQ | GRETH_RXD_WRAP;
} else {
dp->rxdesc[dp->rx_ptr].ctrl = GRETH_RXD_ENABLE | GRETH_RXD_IRQ;
}
dp->regs->ctrl |= GRETH_CTRL_RXEN;
dp->rx_ptr = (dp->rx_ptr + 1) % dp->rxbufs;
}
}
}
static int inside = 0;
static void
sendpacket (struct ifnet *ifp, struct mbuf *m)
{
struct greth_softc *dp = ifp->if_softc;
unsigned char *temp;
struct mbuf *n;
unsigned int len;
/*printf("Send packet entered\n");*/
if (inside) printf ("error: sendpacket re-entered!!\n");
inside = 1;
/*
* Waiting for Transmitter ready
*/
n = m;
while (dp->txdesc[dp->tx_ptr].ctrl & GRETH_TXD_ENABLE)
{
#ifdef GRETH_SUSPEND_NOTXBUF
dp->txdesc[dp->tx_ptr].ctrl |= GRETH_TXD_IRQ;
rtems_event_set events;
rtems_bsdnet_event_receive (GRETH_TX_WAIT_EVENT,
RTEMS_WAIT | RTEMS_EVENT_ANY,
TOD_MILLISECONDS_TO_TICKS(500), &events);
#endif
}
len = 0;
temp = (unsigned char *) dp->txdesc[dp->tx_ptr].addr;
#ifdef GRETH_DEBUG
printf("TXD: 0x%08x : BUF: 0x%08x\n", (int) m->m_data, (int) temp);
#endif
for (;;)
{
#ifdef GRETH_DEBUG
int i;
printf("MBUF: 0x%08x : ", (int) m->m_data);
for (i=0;i<m->m_len;i++)
printf("%x%x", (m->m_data[i] >> 4) & 0x0ff, m->m_data[i] & 0x0ff);
printf("\n");
#endif
len += m->m_len;
if (len <= RBUF_SIZE)
memcpy ((void *) temp, (char *) m->m_data, m->m_len);
temp += m->m_len;
if ((m = m->m_next) == NULL)
break;
}
m_freem (n);
/* don't send long packets */
if (len <= GRETH_MAXBUF_LEN) {
if (dp->tx_ptr < dp->txbufs-1) {
dp->txdesc[dp->tx_ptr].ctrl = GRETH_TXD_ENABLE | len;
} else {
dp->txdesc[dp->tx_ptr].ctrl =
GRETH_TXD_WRAP | GRETH_TXD_ENABLE | len;
}
dp->regs->ctrl = dp->regs->ctrl | GRETH_CTRL_TXEN;
dp->tx_ptr = (dp->tx_ptr + 1) % dp->txbufs;
}
inside = 0;
}
static void
sendpacket_gbit (struct ifnet *ifp, struct mbuf *m)
{
struct greth_softc *dp = ifp->if_softc;
unsigned int len;
/*printf("Send packet entered\n");*/
if (inside) printf ("error: sendpacket re-entered!!\n");
inside = 1;
/*
* Waiting for Transmitter ready
*/
len = 0;
#ifdef GRETH_DEBUG
printf("TXD: 0x%08x\n", (int) m->m_data);
#endif
for (;;)
{
while (dp->txdesc[dp->tx_ptr].ctrl & GRETH_TXD_ENABLE)
{
#ifdef GRETH_SUSPEND_NOTXBUF
dp->txdesc[dp->tx_ptr].ctrl |= GRETH_TXD_IRQ;
rtems_event_set events;
rtems_bsdnet_event_receive (GRETH_TX_WAIT_EVENT,
RTEMS_WAIT | RTEMS_EVENT_ANY,
TOD_MILLISECONDS_TO_TICKS(500), &events);
#endif
}
#ifdef GRETH_DEBUG
int i;
printf("MBUF: 0x%08x, Len: %d : ", (int) m->m_data, m->m_len);
for (i=0; i<m->m_len; i++)
printf("%x%x", (m->m_data[i] >> 4) & 0x0ff, m->m_data[i] & 0x0ff);
printf("\n");
#endif
len += m->m_len;
dp->txdesc[dp->tx_ptr].addr = (uint32_t *)m->m_data;
if (dp->tx_ptr < dp->txbufs-1) {
if ((m->m_next) == NULL) {
dp->txdesc[dp->tx_ptr].ctrl = GRETH_TXD_ENABLE | GRETH_TXD_CS | m->m_len;
break;
} else {
dp->txdesc[dp->tx_ptr].ctrl = GRETH_TXD_ENABLE | GRETH_TXD_MORE | GRETH_TXD_CS | m->m_len;
}
} else {
if ((m->m_next) == NULL) {
dp->txdesc[dp->tx_ptr].ctrl =
GRETH_TXD_WRAP | GRETH_TXD_ENABLE | GRETH_TXD_CS | m->m_len;
break;
} else {
dp->txdesc[dp->tx_ptr].ctrl =
GRETH_TXD_WRAP | GRETH_TXD_ENABLE | GRETH_TXD_MORE | GRETH_TXD_CS | m->m_len;
}
}
dp->txmbuf[dp->tx_ptr] = m;
dp->tx_ptr = (dp->tx_ptr + 1) % dp->txbufs;
dp->tx_cnt++;
m = m->m_next;
}
dp->txmbuf[dp->tx_ptr] = m;
dp->tx_cnt++;
dp->regs->ctrl = dp->regs->ctrl | GRETH_CTRL_TXEN;
dp->tx_ptr = (dp->tx_ptr + 1) % dp->txbufs;
inside = 0;
}
/*
* Driver transmit daemon
*/
void
greth_txDaemon (void *arg)
{
struct greth_softc *sc = (struct greth_softc *) arg;
struct ifnet *ifp = &sc->arpcom.ac_if;
struct mbuf *m;
rtems_event_set events;
for (;;)
{
/*
* Wait for packet
*/
rtems_bsdnet_event_receive (START_TRANSMIT_EVENT,
RTEMS_EVENT_ANY | RTEMS_WAIT,
RTEMS_NO_TIMEOUT, &events);
#ifdef GRETH_DEBUG
printf ("t\n");
#endif
/*
* Send packets till queue is empty
*/
for (;;)
{
/*
* Get the next mbuf chain to transmit.
*/
IF_DEQUEUE (&ifp->if_snd, m);
if (!m)
break;
sendpacket(ifp, m);
}
ifp->if_flags &= ~IFF_OACTIVE;
}
}
/*
* Driver transmit daemon
*/
void
greth_txDaemon_gbit (void *arg)
{
struct greth_softc *sc = (struct greth_softc *) arg;
struct ifnet *ifp = &sc->arpcom.ac_if;
struct mbuf *m;
rtems_event_set events;
for (;;)
{
/*
* Wait for packet
*/
rtems_bsdnet_event_receive (START_TRANSMIT_EVENT,
RTEMS_EVENT_ANY | RTEMS_WAIT,
RTEMS_NO_TIMEOUT, &events);
#ifdef GRETH_DEBUG
printf ("t\n");
#endif
/*
* Send packets till queue is empty
*/
for (;;)
{
while((sc->tx_cnt > 0) && !(sc->txdesc[sc->tx_dptr].ctrl & GRETH_TXD_ENABLE)) {
m_free(sc->txmbuf[sc->tx_dptr]);
sc->tx_dptr = (sc->tx_dptr + 1) % sc->txbufs;
sc->tx_cnt--;
}
/*
* Get the next mbuf chain to transmit.
*/
IF_DEQUEUE (&ifp->if_snd, m);
if (!m)
break;
sendpacket_gbit(ifp, m);
}
ifp->if_flags &= ~IFF_OACTIVE;
}
}
static void
greth_start (struct ifnet *ifp)
{
struct greth_softc *sc = ifp->if_softc;
ifp->if_flags |= IFF_OACTIVE;
rtems_event_send (sc->txDaemonTid, START_TRANSMIT_EVENT);
}
/*
* Initialize and start the device
*/
static void
greth_init (void *arg)
{
struct greth_softc *sc = arg;
struct ifnet *ifp = &sc->arpcom.ac_if;
if (sc->txDaemonTid == 0)
{
/*
* Set up GRETH hardware
*/
greth_initialize_hardware (sc);
/*
* Start driver tasks
*/
sc->rxDaemonTid = rtems_bsdnet_newproc ("DCrx", 4096,
greth_rxDaemon, sc);
if (sc->gbit_mac) {
sc->txDaemonTid = rtems_bsdnet_newproc ("DCtx", 4096,
greth_txDaemon_gbit, sc);
} else {
sc->txDaemonTid = rtems_bsdnet_newproc ("DCtx", 4096,
greth_txDaemon, sc);
}
}
/*
* Tell the world that we're running.
*/
ifp->if_flags |= IFF_RUNNING;
}
/*
* Stop the device
*/
static void
greth_stop (struct greth_softc *sc)
{
struct ifnet *ifp = &sc->arpcom.ac_if;
ifp->if_flags &= ~IFF_RUNNING;
sc->regs->ctrl = 0; /* RX/TX OFF */
sc->regs->ctrl = GRETH_CTRL_RST; /* Reset ON */
sc->regs->ctrl = 0; /* Reset OFF */
}
/*
* Show interface statistics
*/
static void
greth_stats (struct greth_softc *sc)
{
printf (" Rx Interrupts:%-8lu", sc->rxInterrupts);
printf (" Rx Packets:%-8lu", sc->rxPackets);
printf (" Length:%-8lu", sc->rxLengthError);
printf (" Non-octet:%-8lu\n", sc->rxNonOctet);
printf (" Bad CRC:%-8lu", sc->rxBadCRC);
printf (" Overrun:%-8lu", sc->rxOverrun);
printf (" Tx Interrupts:%-8lu", sc->txInterrupts);
}
/*
* Driver ioctl handler
*/
static int
greth_ioctl (struct ifnet *ifp, ioctl_command_t command, caddr_t data)
{
struct greth_softc *sc = ifp->if_softc;
int error = 0;
switch (command)
{
case SIOCGIFADDR:
case SIOCSIFADDR:
ether_ioctl (ifp, command, data);
break;
case SIOCSIFFLAGS:
switch (ifp->if_flags & (IFF_UP | IFF_RUNNING))
{
case IFF_RUNNING:
greth_stop (sc);
break;
case IFF_UP:
greth_init (sc);
break;
case IFF_UP | IFF_RUNNING:
greth_stop (sc);
greth_init (sc);
break;
default:
break;
}
break;
case SIO_RTEMS_SHOW_STATS:
greth_stats (sc);
break;
/*
* FIXME: All sorts of multicast commands need to be added here!
*/
default:
error = EINVAL;
break;
}
return error;
}
/*
* Attach an GRETH driver to the system
*/
int
rtems_greth_driver_attach (struct rtems_bsdnet_ifconfig *config,
greth_configuration_t *chip)
{
struct greth_softc *sc;
struct ifnet *ifp;
int mtu;
int unitNumber;
char *unitName;
/* parse driver name */
if ((unitNumber = rtems_bsdnet_parse_driver_name (config, &unitName)) < 0)
return 0;
sc = &greth;
ifp = &sc->arpcom.ac_if;
memset (sc, 0, sizeof (*sc));
if (config->hardware_address)
{
memcpy (sc->arpcom.ac_enaddr, config->hardware_address,
ETHER_ADDR_LEN);
}
else
{
memset (sc->arpcom.ac_enaddr, 0x08, ETHER_ADDR_LEN);
}
if (config->mtu)
mtu = config->mtu;
else
mtu = ETHERMTU;
sc->acceptBroadcast = !config->ignore_broadcast;
sc->regs = (void *) chip->base_address;
sc->vector = chip->vector;
sc->txbufs = chip->txd_count;
sc->rxbufs = chip->rxd_count;
/*
* Set up network interface values
*/
ifp->if_softc = sc;
ifp->if_unit = unitNumber;
ifp->if_name = unitName;
ifp->if_mtu = mtu;
ifp->if_init = greth_init;
ifp->if_ioctl = greth_ioctl;
ifp->if_start = greth_start;
ifp->if_output = ether_output;
ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX;
if (ifp->if_snd.ifq_maxlen == 0)
ifp->if_snd.ifq_maxlen = ifqmaxlen;
/*
* Attach the interface
*/
if_attach (ifp);
ether_ifattach (ifp);
#ifdef GRETH_DEBUG
printf ("GRETH : driver has been attached\n");
#endif
return 1;
};
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