void
dumppkt(void)
{
uint8_t *a = uip_buf;
DC('e');DC(' ');
DU(uip_len,5);
display_channel &= ~DISPLAY_TCP;
uint8_t ole = log_enabled;
log_enabled = 0;
DC(' '); DC('d'); DC(' '); display_mac(a); a+= sizeof(struct uip_eth_addr);
DC(' '); DC('s'); DC(' '); display_mac(a); a+= sizeof(struct uip_eth_addr);
DC(' '); DC('t'); DH2(*a++); DH2(*a++);
DNL();
if(eth_debug > 2)
dumpmem(a, uip_len - sizeof(struct uip_eth_hdr));
display_channel |= DISPLAY_TCP;
log_enabled = ole;
}
void
eth_func(char *in)
{
if(in[1] == 'i') {
ethernet_init();
} else if(in[1] == 'c') {
display_ip4((uint8_t *)uip_hostaddr); DC(' ');
display_mac((uint8_t *)uip_ethaddr.addr);
DNL();
} else if(in[1] == 'd') {
eth_debug = (eth_debug+1) & 0x3;
DH2(eth_debug);
DNL();
} else if(in[1] == 'n') {
ntp_sendpacket();
}
}
/**
* @brief Send data to the interface
*
* Writes data to be sent to network.
*/
void rtl8029_write (pok_port_id_t port_id, const void* data, uint32_t len)
{
uint32_t nbdest;
uint32_t tmp;
uint32_t dest;
pok_ret_t ret;
char node2[6] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
pok_packet_t packet;
const char* d;
size_t cpylen = 0;
size_t sndlen = 0;
unsigned char state; // ISR state
ret = pok_port_virtual_nb_destinations (port_id, &nbdest);
if (ret != POK_ERRNO_OK)
{
return;
}
for (tmp = 0 ; tmp < nbdest ; tmp++)
{
ret = pok_port_virtual_destination (port_id, tmp, &dest);
if (ret == POK_ERRNO_OK)
{
uint32_t msg_len = len;
memcpy(packet.eth.src, dev.mac, ETH_MAC_LEN);
#ifdef POK_NEEDS_MAC_ADDR
uint8_t node_id = 0;
pok_port_virtual_node(dest, &node_id);
pok_node_mac_addr(&node_id, node2);
#endif
#ifdef POK_NEEDS_DEBUG
printf ("[RTL8029] SEND DATA THROUGH NETWORK FROM LOCAL PORT %d "
"TO GLOBAL PORT %d, size=%d\n", port_id, dest, len);
printf("[RTL8029] DESTINATION MAC ADDR: ");
display_mac(node2);
#endif
memcpy(packet.eth.dst, node2, ETH_MAC_LEN);
packet.eth.ethertype = 0x4242;
packet.udp.src = port_id;
packet.udp.dst = dest;
for (d = data; msg_len != 0; msg_len -= cpylen, d += cpylen)
{
// too short; let's cut
if (msg_len <= NET_DATA_MINLEN)
{
cpylen = msg_len;
sndlen = ETH_DATA_MINLEN + sizeof(eth_hdr_t);
}
else
{
// too big; let's pad
if (msg_len >= NET_DATA_MAXLEN)
{
cpylen = NET_DATA_MAXLEN;
sndlen = ETH_DATA_MAXLEN + sizeof(eth_hdr_t);
}
// normal
else
{
cpylen = msg_len;
sndlen = sizeof(eth_hdr_t) + sizeof(udp_hdr_t) + cpylen;
}
}
packet.udp.len = cpylen;
memcpy(&(packet.data), d, cpylen);
ne2000_write(&dev, &packet, sndlen, NE2000_TXBUF * 256);
do
{
state = inb(dev.addr + NE2000_ISR);
}
while ((state & NE2000_ISR_RDC) != NE2000_ISR_RDC);
/* This register sets the start page address of
the packet to the transmitted. */
outb(dev.addr + NE2000_TPSR, NE2000_TXBUF); //?
/* These two registers set the byte counts of
the packet to be transmitted. */
outb(dev.addr + NE2000_TBCR0, sndlen);
outb(dev.addr + NE2000_TBCR1, sndlen >> 8);
/* This bit must be set to transmit a packet. */
outb(dev.addr + NE2000_CR,
inb(dev.addr + NE2000_CR) | NE2000_CR_TXP);
outb(dev.addr + NE2000_ISR,
NE2000_ISR_RDC); // Clear RDC bit
}
}
}
