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27c857784d
Bochs/bochs/iodev/pcipnic.cc
Volker Ruppert 27c857784d - prepared receive status callback function that returns several flags. 
For now it returns a flag that indicated that the device can receive data
  from the eth module and flags for the device speed. TODO: Use this callback
  in the eth modules before sending data to the device.
2011-12-17 08:22:33 +00:00

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/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2003 Fen Systems Ltd.
// http://www.fensystems.co.uk/
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
/////////////////////////////////////////////////////////////////////////
// Define BX_PLUGGABLE in files that can be compiled into plugins. For
// platforms that require a special tag on exported symbols, BX_PLUGGABLE
// is used to know when we are exporting symbols and when we are importing.
#define BX_PLUGGABLE
#include "iodev.h"
#if BX_SUPPORT_PCI && BX_SUPPORT_PCIPNIC
#include "pci.h"
#include "netmod.h"
#include "pcipnic.h"
#define LOG_THIS thePNICDevice->
bx_pcipnic_c* thePNICDevice = NULL;
const Bit8u pnic_iomask[16] = {2, 0, 2, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
int libpcipnic_LTX_plugin_init(plugin_t *plugin, plugintype_t type, int argc, char *argv[])
{
thePNICDevice = new bx_pcipnic_c();
BX_REGISTER_DEVICE_DEVMODEL(plugin, type, thePNICDevice, BX_PLUGIN_PCIPNIC);
return 0; // Success
}
void libpcipnic_LTX_plugin_fini(void)
{
delete thePNICDevice;
}
bx_pcipnic_c::bx_pcipnic_c()
{
put("PNIC");
}
bx_pcipnic_c::~bx_pcipnic_c()
{
BX_DEBUG(("Exit"));
}
void bx_pcipnic_c::init(void)
{
bx_list_c *base;
// Read in values from config interface
base = (bx_list_c*) SIM->get_param(BXPN_PNIC);
memcpy(BX_PNIC_THIS s.macaddr, SIM->get_param_string("macaddr", base)->getptr(), 6);
BX_PNIC_THIS s.devfunc = 0x00;
DEV_register_pci_handlers(this, &BX_PNIC_THIS s.devfunc, BX_PLUGIN_PCIPNIC,
"Experimental PCI Pseudo NIC");
for (unsigned i=0; i<256; i++) {
BX_PNIC_THIS pci_conf[i] = 0x0;
}
// Attach to the selected ethernet module
BX_PNIC_THIS ethdev = DEV_net_init_module(base, rx_handler, rx_status_handler, this);
BX_PNIC_THIS pci_base_address[4] = 0;
BX_INFO(("PCI Pseudo NIC initialized"));
}
void bx_pcipnic_c::reset(unsigned type)
{
unsigned i;
static const struct reset_vals_t {
unsigned addr;
unsigned char val;
} reset_vals[] = {
{ 0x00, PNIC_PCI_VENDOR & 0xff },
{ 0x01, PNIC_PCI_VENDOR >> 8 },
{ 0x02, PNIC_PCI_DEVICE & 0xff },
{ 0x03, PNIC_PCI_DEVICE >> 8 },
{ 0x04, 0x05 }, { 0x05, 0x00 }, // command_io
{ 0x06, 0x80 }, { 0x07, 0x02 }, // status
{ 0x08, 0x01 }, // revision number
{ 0x09, 0x00 }, // interface
{ 0x0a, 0x00 }, // class_sub
{ 0x0b, 0x02 }, // class_base Network Controller
{ 0x0D, 0x20 }, // bus latency
{ 0x0e, 0x00 }, // header_type_generic
// address space 0x20 - 0x23
{ 0x20, 0x01 }, { 0x21, 0x00 },
{ 0x22, 0x00 }, { 0x23, 0x00 },
{ 0x3c, 0x00, }, // IRQ
{ 0x3d, BX_PCI_INTA }, // INT
{ 0x6a, 0x01 }, // PNIC clock
{ 0xc1, 0x20 } // PIRQ enable
};
for (i = 0; i < sizeof(reset_vals) / sizeof(*reset_vals); ++i) {
BX_PNIC_THIS pci_conf[reset_vals[i].addr] = reset_vals[i].val;
}
// Set up initial register values
BX_PNIC_THIS s.rCmd = PNIC_CMD_NOOP;
BX_PNIC_THIS s.rStatus = PNIC_STATUS_OK;
BX_PNIC_THIS s.rLength = 0;
BX_PNIC_THIS s.rDataCursor = 0;
BX_PNIC_THIS s.recvIndex = 0;
BX_PNIC_THIS s.recvQueueLength = 0;
BX_PNIC_THIS s.irqEnabled = 0;
// Deassert IRQ
set_irq_level(0);
}
void bx_pcipnic_c::register_state(void)
{
unsigned i;
char name[6];
bx_list_c *list = new bx_list_c(SIM->get_bochs_root(), "pcipnic", "PCI Pseudo NIC State", 11);
new bx_shadow_num_c(list, "irqEnabled", &BX_PNIC_THIS s.irqEnabled);
new bx_shadow_num_c(list, "rCmd", &BX_PNIC_THIS s.rCmd);
new bx_shadow_num_c(list, "rStatus", &BX_PNIC_THIS s.rStatus);
new bx_shadow_num_c(list, "rLength", &BX_PNIC_THIS s.rLength);
new bx_shadow_num_c(list, "rDataCursor", &BX_PNIC_THIS s.rDataCursor);
new bx_shadow_num_c(list, "recvIndex", &BX_PNIC_THIS s.recvIndex);
new bx_shadow_num_c(list, "recvQueueLength", &BX_PNIC_THIS s.recvQueueLength);
bx_list_c *recvRL = new bx_list_c(list, "recvRingLength", PNIC_RECV_RINGS);
for (i=0; i<PNIC_RECV_RINGS; i++) {
sprintf(name, "%d", i);
new bx_shadow_num_c(recvRL, name, &BX_PNIC_THIS s.recvRingLength[i]);
}
new bx_shadow_data_c(list, "rData", BX_PNIC_THIS s.rData, PNIC_DATA_SIZE);
new bx_shadow_data_c(list, "recvRing", (Bit8u*)BX_PNIC_THIS s.recvRing, PNIC_RECV_RINGS*PNIC_DATA_SIZE);
register_pci_state(list);
}
void bx_pcipnic_c::after_restore_state(void)
{
if (DEV_pci_set_base_io(BX_PNIC_THIS_PTR, read_handler, write_handler,
&BX_PNIC_THIS pci_base_address[4],
&BX_PNIC_THIS pci_conf[0x20],
16, &pnic_iomask[0], "PNIC")) {
BX_INFO(("new base address: 0x%04x", BX_PNIC_THIS pci_base_address[4]));
}
}
void bx_pcipnic_c::set_irq_level(bx_bool level)
{
DEV_pci_set_irq(BX_PNIC_THIS s.devfunc, BX_PNIC_THIS pci_conf[0x3d], level);
}
// static IO port read callback handler
// redirects to non-static class handler to avoid virtual functions
Bit32u bx_pcipnic_c::read_handler(void *this_ptr, Bit32u address, unsigned io_len)
{
#if !BX_USE_PCIPNIC_SMF
bx_pcipnic_c *class_ptr = (bx_pcipnic_c *) this_ptr;
return class_ptr->read(address, io_len);
}
Bit32u bx_pcipnic_c::read(Bit32u address, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_PCIPNIC_SMF
Bit32u val = 0x0;
Bit8u offset;
BX_DEBUG(("register read from address 0x%04x - ", (unsigned) address));
offset = address - BX_PNIC_THIS pci_base_address[4];
switch (offset) {
case PNIC_REG_STAT:
val = BX_PNIC_THIS s.rStatus;
break;
case PNIC_REG_LEN:
val = BX_PNIC_THIS s.rLength;
break;
case PNIC_REG_DATA:
if (BX_PNIC_THIS s.rDataCursor >= BX_PNIC_THIS s.rLength)
BX_PANIC(("PNIC read at %u, beyond end of data register array",
BX_PNIC_THIS s.rDataCursor));
val = BX_PNIC_THIS s.rData[BX_PNIC_THIS s.rDataCursor++];
break;
default :
val = 0; // keep compiler happy
BX_PANIC(("unsupported io read from address=0x%04x!", (unsigned) address));
break;
}
BX_DEBUG(("val = 0x%04x", (Bit16u) val));
return(val);
}
// static IO port write callback handler
// redirects to non-static class handler to avoid virtual functions
void bx_pcipnic_c::write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
#if !BX_USE_PCIPNIC_SMF
bx_pcipnic_c *class_ptr = (bx_pcipnic_c *) this_ptr;
class_ptr->write(address, value, io_len);
}
void bx_pcipnic_c::write(Bit32u address, Bit32u value, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_PCIPNIC_SMF
Bit8u offset;
BX_DEBUG(("register write to address 0x%04x - ", (unsigned) address));
offset = address - BX_PNIC_THIS pci_base_address[4];
switch (offset) {
case PNIC_REG_CMD:
BX_PNIC_THIS s.rCmd = value;
BX_PNIC_THIS exec_command();
break;
case PNIC_REG_LEN:
if (value > PNIC_DATA_SIZE)
BX_PANIC(("PNIC bad length %u written to length register, max is %u",
value, PNIC_DATA_SIZE));
BX_PNIC_THIS s.rLength = value;
BX_PNIC_THIS s.rDataCursor = 0;
break;
case PNIC_REG_DATA:
if (BX_PNIC_THIS s.rDataCursor >= BX_PNIC_THIS s.rLength)
BX_PANIC(("PNIC write at %u, beyond end of data register array",
BX_PNIC_THIS s.rDataCursor));
BX_PNIC_THIS s.rData[BX_PNIC_THIS s.rDataCursor++] = value;
break;
default:
BX_PANIC(("unsupported io write to address=0x%04x!", (unsigned) address));
break;
}
}
void bx_pcipnic_c::pnic_timer_handler(void *this_ptr)
{
bx_pcipnic_c *class_ptr = (bx_pcipnic_c *) this_ptr;
class_ptr->pnic_timer();
}
// Called once every 1ms
void bx_pcipnic_c::pnic_timer(void)
{
// Do nothing atm
}
// pci configuration space read callback handler
Bit32u bx_pcipnic_c::pci_read_handler(Bit8u address, unsigned io_len)
{
Bit32u value = 0;
for (unsigned i=0; i<io_len; i++) {
value |= (BX_PNIC_THIS pci_conf[address+i] << (i*8));
}
if (io_len == 1)
BX_DEBUG(("read PCI register 0x%02x value 0x%02x", address, value));
else if (io_len == 2)
BX_DEBUG(("read PCI register 0x%02x value 0x%04x", address, value));
else if (io_len == 4)
BX_DEBUG(("read PCI register 0x%02x value 0x%08x", address, value));
return value;
}
// pci configuration space write callback handler
void bx_pcipnic_c::pci_write_handler(Bit8u address, Bit32u value, unsigned io_len)
{
Bit8u value8, oldval;
bx_bool baseaddr_change = 0;
if (((address >= 0x10) && (address < 0x20)) ||
((address > 0x23) && (address < 0x34)))
return;
for (unsigned i=0; i<io_len; i++) {
value8 = (value >> (i*8)) & 0xFF;
oldval = BX_PNIC_THIS pci_conf[address+i];
switch (address+i) {
case 0x3d: //
case 0x05: // disallowing write to command hi-byte
case 0x06: // disallowing write to status lo-byte (is that expected?)
break;
case 0x3c:
if (value8 != oldval) {
BX_INFO(("new irq line = %d", value8));
BX_PNIC_THIS pci_conf[address+i] = value8;
}
break;
case 0x20:
value8 = (value8 & 0xfc) | 0x01;
case 0x21:
case 0x22:
case 0x23:
baseaddr_change = (value8 != oldval);
default:
BX_PNIC_THIS pci_conf[address+i] = value8;
}
}
if (baseaddr_change) {
if (DEV_pci_set_base_io(BX_PNIC_THIS_PTR, read_handler, write_handler,
&BX_PNIC_THIS pci_base_address[4],
&BX_PNIC_THIS pci_conf[0x20],
16, &pnic_iomask[0], "PNIC")) {
BX_INFO(("new base address: 0x%04x", BX_PNIC_THIS pci_base_address[4]));
}
}
if (io_len == 1)
BX_DEBUG(("write PCI register 0x%02x value 0x%02x", address, value));
else if (io_len == 2)
BX_DEBUG(("write PCI register 0x%02x value 0x%04x", address, value));
else if (io_len == 4)
BX_DEBUG(("write PCI register 0x%02x value 0x%08x", address, value));
}
/*
* Execute a hardware command.
*/
void bx_pcipnic_c::exec_command(void)
{
Bit16u command = BX_PNIC_THIS s.rCmd;
Bit16u ilength = BX_PNIC_THIS s.rLength;
Bit8u *data = BX_PNIC_THIS s.rData;
// Default return values
Bit16u status = PNIC_STATUS_UNKNOWN_CMD;
Bit16u olength = 0;
if (ilength != BX_PNIC_THIS s.rDataCursor)
BX_PANIC(("PNIC command issued with incomplete data (should be %u, is %u)",
ilength, BX_PNIC_THIS s.rDataCursor));
switch (command) {
case PNIC_CMD_NOOP:
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_API_VER:
Bit16u api_version;
api_version = PNIC_API_VERSION;
olength = sizeof(api_version);
memcpy (data, &api_version, sizeof(api_version));
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_READ_MAC:
olength = sizeof (BX_PNIC_THIS s.macaddr);
memcpy (data, BX_PNIC_THIS s.macaddr, olength);
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_RESET:
/* Flush the receive queue */
BX_PNIC_THIS s.recvQueueLength = 0;
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_XMIT:
BX_PNIC_THIS ethdev->sendpkt(data, ilength);
if (BX_PNIC_THIS s.irqEnabled) {
set_irq_level(1);
}
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_RECV:
if (BX_PNIC_THIS s.recvQueueLength > 0) {
int idx = (BX_PNIC_THIS s.recvIndex - BX_PNIC_THIS s.recvQueueLength
+ PNIC_RECV_RINGS) % PNIC_RECV_RINGS;
olength = BX_PNIC_THIS s.recvRingLength[idx];
memcpy (data, BX_PNIC_THIS s.recvRing[idx], olength);
BX_PNIC_THIS s.recvQueueLength--;
}
if (! BX_PNIC_THIS s.recvQueueLength) {
set_irq_level(0);
}
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_RECV_QLEN:
Bit16u qlen;
qlen = BX_PNIC_THIS s.recvQueueLength;
olength = sizeof(qlen);
memcpy (data, &qlen, sizeof(qlen));
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_MASK_IRQ:
Bit8u enabled;
enabled = *((Bit8u*)data);
BX_PNIC_THIS s.irqEnabled = enabled;
if (enabled && BX_PNIC_THIS s.recvQueueLength) {
set_irq_level(1);
} else {
set_irq_level(0);
}
status = PNIC_STATUS_OK;
break;
case PNIC_CMD_FORCE_IRQ:
set_irq_level(1);
status = PNIC_STATUS_OK;
break;
default:
BX_ERROR(("Unknown PNIC command %x (data length %u)", command, ilength));
status = PNIC_STATUS_UNKNOWN_CMD;
break;
}
// Set registers
BX_PNIC_THIS s.rStatus = status;
BX_PNIC_THIS s.rLength = olength;
BX_PNIC_THIS s.rDataCursor = 0;
}
/*
* Callback from the eth system driver to check if the device can receive
*/
Bit32u bx_pcipnic_c::rx_status_handler(void *arg)
{
bx_pcipnic_c *class_ptr = (bx_pcipnic_c *) arg;
return class_ptr->rx_status();
}
Bit32u bx_pcipnic_c::rx_status()
{
Bit32u status = BX_NETDEV_100MBIT;
if (BX_PNIC_THIS s.recvQueueLength < PNIC_RECV_RINGS) {
status |= BX_NETDEV_RXREADY;
}
return status;
}
/*
* Callback from the eth system driver when a frame has arrived
*/
void bx_pcipnic_c::rx_handler(void *arg, const void *buf, unsigned len)
{
// BX_DEBUG(("rx_handler with length %d", len));
bx_pcipnic_c *class_ptr = (bx_pcipnic_c *) arg;
class_ptr->rx_frame(buf, len);
}
/*
* rx_frame() - called by the platform-specific code when an
* ethernet frame has been received. The destination address
* is tested to see if it should be accepted, and if the
* rx ring has enough room, it is copied into it and
* the receive process is updated
*/
void bx_pcipnic_c::rx_frame(const void *buf, unsigned io_len)
{
// Check packet length
if (io_len > PNIC_DATA_SIZE) {
BX_PANIC(("PNIC receive: data size %u exceeded buffer size %u",
io_len, PNIC_DATA_SIZE));
// Truncate if user continues
io_len = PNIC_DATA_SIZE;
}
// Check receive ring is not full
if (BX_PNIC_THIS s.recvQueueLength == PNIC_RECV_RINGS) {
BX_ERROR(("PNIC receive: receive ring full, discarding packet"));
return;
}
// Copy data to receive ring and record length
memcpy (BX_PNIC_THIS s.recvRing[BX_PNIC_THIS s.recvIndex], buf, io_len);
BX_PNIC_THIS s.recvRingLength[BX_PNIC_THIS s.recvIndex] = io_len;
// Move to next ring entry
BX_PNIC_THIS s.recvIndex = (BX_PNIC_THIS s.recvIndex + 1) % PNIC_RECV_RINGS;
BX_PNIC_THIS s.recvQueueLength++;
// Generate interrupt if enabled
if (BX_PNIC_THIS s.irqEnabled) {
set_irq_level(1);
}
}
#endif // BX_SUPPORT_PCI && BX_SUPPORT_PCIPNIC
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