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xNBA/src/interface/pxe/pxe_undi.c
Michael Brown e3bbfd7a75 Call shutdown() from pxenv_undi_shutdown(). Probably not totally
correct, but it's enough to get RIS working.
2007-07-02 03:12:35 +01:00

568 lines
15 KiB
C

/** @file
*
* PXE UNDI API
*
*/
/*
* Copyright (C) 2004 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or any later version.
*
* This program 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
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <stdint.h>
#include <string.h>
#include <gpxe/netdevice.h>
#include <gpxe/device.h>
#include <gpxe/pci.h>
#include <gpxe/isapnp.h>
#include <gpxe/if_ether.h>
#include <gpxe/shutdown.h>
#include "pxe.h"
/* PXENV_UNDI_STARTUP
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_startup ( struct s_PXENV_UNDI_STARTUP *undi_startup ) {
DBG ( "PXENV_UNDI_STARTUP" );
undi_startup->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_CLEANUP
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_cleanup ( struct s_PXENV_UNDI_CLEANUP *undi_cleanup ) {
DBG ( "PXENV_UNDI_CLEANUP" );
undi_cleanup->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_INITIALIZE
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_initialize ( struct s_PXENV_UNDI_INITIALIZE
*undi_initialize ) {
DBG ( "PXENV_UNDI_INITIALIZE" );
undi_initialize->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_RESET_ADAPTER
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_reset_adapter ( struct s_PXENV_UNDI_RESET
*undi_reset_adapter ) {
DBG ( "PXENV_UNDI_RESET_ADAPTER" );
undi_reset_adapter->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_SHUTDOWN
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_shutdown ( struct s_PXENV_UNDI_SHUTDOWN
*undi_shutdown ) {
DBG ( "PXENV_UNDI_SHUTDOWN" );
shutdown();
undi_shutdown->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_OPEN
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_open ( struct s_PXENV_UNDI_OPEN *undi_open ) {
DBG ( "PXENV_UNDI_OPEN" );
#if 0
/* PXESPEC: This is where we choose to enable interrupts.
* Can't actually find where we're meant to in the PXE spec,
* but this should work.
*/
eth_irq ( ENABLE );
#endif
undi_open->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_CLOSE
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_close ( struct s_PXENV_UNDI_CLOSE *undi_close ) {
DBG ( "PXENV_UNDI_CLOSE" );
undi_close->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_TRANSMIT
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_transmit ( struct s_PXENV_UNDI_TRANSMIT
*undi_transmit ) {
struct s_PXENV_UNDI_TBD *tbd;
const char *dest;
unsigned int type;
unsigned int length;
const char *data;
DBG ( "PXENV_UNDI_TRANSMIT" );
#if 0
/* We support only the "immediate" portion of the TBD. Who
* knows what Intel's "engineers" were smoking when they came
* up with the array of transmit data blocks...
*/
tbd = SEGOFF16_TO_PTR ( undi_transmit->TBD );
if ( tbd->DataBlkCount > 0 ) {
undi_transmit->Status = PXENV_STATUS_UNDI_INVALID_PARAMETER;
return PXENV_EXIT_FAILURE;
}
data = SEGOFF16_TO_PTR ( tbd->Xmit );
length = tbd->ImmedLength;
/* If destination is broadcast, we need to supply the MAC address */
if ( undi_transmit->XmitFlag == XMT_BROADCAST ) {
dest = broadcast_mac;
} else {
dest = SEGOFF16_TO_PTR ( undi_transmit->DestAddr );
}
/* We can't properly support P_UNKNOWN without rewriting all
* the driver transmit() methods, so we cheat: if P_UNKNOWN is
* specified we rip the destination address and type out of
* the pre-assembled packet, then skip over the header.
*/
switch ( undi_transmit->Protocol ) {
case P_IP: type = ETH_P_IP; break;
case P_ARP: type = ETH_P_ARP; break;
case P_RARP: type = ETH_P_RARP; break;
case P_UNKNOWN:
media_header = (media_header_t*)data;
dest = media_header->dest;
type = ntohs ( media_header->nstype );
data += ETH_HLEN;
length -= ETH_HLEN;
break;
default:
undi_transmit->Status = PXENV_STATUS_UNDI_INVALID_PARAMETER;
return PXENV_EXIT_FAILURE;
}
/* Send the packet */
eth_transmit ( dest, type, length, data );
#endif
undi_transmit->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_SET_MCAST_ADDRESS
*
* Status: stub (no PXE multicast support)
*/
PXENV_EXIT_t
pxenv_undi_set_mcast_address ( struct s_PXENV_UNDI_SET_MCAST_ADDRESS
*undi_set_mcast_address ) {
DBG ( "PXENV_UNDI_SET_MCAST_ADDRESS" );
undi_set_mcast_address->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_SET_STATION_ADDRESS
*
* Status: working (deliberately incomplete)
*/
PXENV_EXIT_t
pxenv_undi_set_station_address ( struct s_PXENV_UNDI_SET_STATION_ADDRESS
*undi_set_station_address ) {
DBG ( "PXENV_UNDI_SET_STATION_ADDRESS" );
#if 0
/* We don't offer a facility to set the MAC address; this
* would require adding extra code to all the Etherboot
* drivers, for very little benefit. If we're setting it to
* the current value anyway then return success, otherwise
* return UNSUPPORTED.
*/
if ( memcmp ( nic.node_addr,
&undi_set_station_address->StationAddress,
ETH_ALEN ) == 0 ) {
undi_set_station_address->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
#endif
undi_set_station_address->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_SET_PACKET_FILTER
*
* Status: won't implement (would require driver API changes for no
* real benefit)
*/
PXENV_EXIT_t
pxenv_undi_set_packet_filter ( struct s_PXENV_UNDI_SET_PACKET_FILTER
*undi_set_packet_filter ) {
DBG ( "PXENV_UNDI_SET_PACKET_FILTER" );
undi_set_packet_filter->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_GET_INFORMATION
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_get_information ( struct s_PXENV_UNDI_GET_INFORMATION
*undi_get_information ) {
struct device *dev = pxe_netdev->dev;
struct ll_protocol *ll_protocol = pxe_netdev->ll_protocol;
unsigned int ioaddr;
unsigned int irqno;
DBG ( "PXENV_UNDI_GET_INFORMATION" );
switch ( dev->desc.bus_type ) {
case BUS_TYPE_PCI: {
struct pci_device *pci =
container_of ( dev, struct pci_device, dev );
ioaddr = pci->ioaddr;
irqno = pci->irq;
break; }
case BUS_TYPE_ISAPNP: {
struct isapnp_device *isapnp =
container_of ( dev, struct isapnp_device, dev );
ioaddr = isapnp->ioaddr;
irqno = isapnp->irqno;
break; }
default:
undi_get_information->Status = PXENV_STATUS_FAILURE;
return PXENV_EXIT_FAILURE;
}
undi_get_information->BaseIo = ioaddr;
undi_get_information->IntNumber = irqno;
/* Cheat: assume all cards can cope with this */
undi_get_information->MaxTranUnit = ETH_MAX_MTU;
undi_get_information->HwType = ntohs ( ll_protocol->ll_proto );
undi_get_information->HwAddrLen = ll_protocol->ll_addr_len;
/* Cheat: assume card is always configured with its permanent
* node address. This is a valid assumption within Etherboot
* at the time of writing.
*/
memcpy ( &undi_get_information->CurrentNodeAddress,
pxe_netdev->ll_addr,
sizeof ( undi_get_information->CurrentNodeAddress ) );
memcpy ( &undi_get_information->PermNodeAddress,
pxe_netdev->ll_addr,
sizeof ( undi_get_information->PermNodeAddress ) );
undi_get_information->ROMAddress = 0;
/* nic.rom_info->rom_segment; */
/* We only provide the ability to receive or transmit a single
* packet at a time. This is a bootloader, not an OS.
*/
undi_get_information->RxBufCt = 1;
undi_get_information->TxBufCt = 1;
undi_get_information->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_GET_STATISTICS
*
* Status: won't implement (would require driver API changes for no
* real benefit)
*/
PXENV_EXIT_t pxenv_undi_get_statistics ( struct s_PXENV_UNDI_GET_STATISTICS
*undi_get_statistics ) {
DBG ( "PXENV_UNDI_GET_STATISTICS" );
undi_get_statistics->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_CLEAR_STATISTICS
*
* Status: won't implement (would require driver API changes for no
* real benefit)
*/
PXENV_EXIT_t pxenv_undi_clear_statistics ( struct s_PXENV_UNDI_CLEAR_STATISTICS
*undi_clear_statistics ) {
DBG ( "PXENV_UNDI_CLEAR_STATISTICS" );
undi_clear_statistics->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_INITIATE_DIAGS
*
* Status: won't implement (would require driver API changes for no
* real benefit)
*/
PXENV_EXIT_t pxenv_undi_initiate_diags ( struct s_PXENV_UNDI_INITIATE_DIAGS
*undi_initiate_diags ) {
DBG ( "PXENV_UNDI_INITIATE_DIAGS" );
undi_initiate_diags->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_FORCE_INTERRUPT
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_force_interrupt ( struct s_PXENV_UNDI_FORCE_INTERRUPT
*undi_force_interrupt ) {
DBG ( "PXENV_UNDI_FORCE_INTERRUPT" );
#if 0
eth_irq ( FORCE );
#endif
undi_force_interrupt->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_GET_MCAST_ADDRESS
*
* Status: stub (no PXE multicast support)
*/
PXENV_EXIT_t
pxenv_undi_get_mcast_address ( struct s_PXENV_UNDI_GET_MCAST_ADDRESS
*undi_get_mcast_address ) {
DBG ( "PXENV_UNDI_GET_MCAST_ADDRESS" );
undi_get_mcast_address->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
}
/* PXENV_UNDI_GET_NIC_TYPE
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_get_nic_type ( struct s_PXENV_UNDI_GET_NIC_TYPE
*undi_get_nic_type ) {
struct device *dev = pxe_netdev->dev;
DBG ( "PXENV_UNDI_GET_NIC_TYPE" );
memset ( &undi_get_nic_type->info, 0,
sizeof ( undi_get_nic_type->info ) );
switch ( dev->desc.bus_type ) {
case BUS_TYPE_PCI: {
struct pci_device *pci =
container_of ( dev, struct pci_device, dev );
struct pci_nic_info *info = &undi_get_nic_type->info.pci;
undi_get_nic_type->NicType = PCI_NIC;
info->Vendor_ID = pci->vendor;
info->Dev_ID = pci->device;
info->Base_Class = PCI_BASE_CLASS ( pci->class );
info->Sub_Class = PCI_SUB_CLASS ( pci->class );
info->Prog_Intf = PCI_PROG_INTF ( pci->class );
info->BusDevFunc = PCI_BUSDEVFN ( pci->bus, pci->devfn );
/* Cheat: remaining fields are probably unnecessary,
* and would require adding extra code to pci.c.
*/
undi_get_nic_type->info.pci.SubVendor_ID = 0xffff;
undi_get_nic_type->info.pci.SubDevice_ID = 0xffff;
break; }
case BUS_TYPE_ISAPNP: {
struct isapnp_device *isapnp =
container_of ( dev, struct isapnp_device, dev );
struct pnp_nic_info *info = &undi_get_nic_type->info.pnp;
undi_get_nic_type->NicType = PnP_NIC;
info->EISA_Dev_ID = ( ( isapnp->vendor_id << 16 ) |
isapnp->prod_id );
info->CardSelNum = isapnp->csn;
/* Cheat: remaining fields are probably unnecessary,
* and would require adding extra code to isapnp.c.
*/
break; }
default:
undi_get_nic_type->Status = PXENV_STATUS_FAILURE;
return PXENV_EXIT_FAILURE;
}
undi_get_nic_type->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_GET_IFACE_INFO
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_get_iface_info ( struct s_PXENV_UNDI_GET_IFACE_INFO
*undi_get_iface_info ) {
DBG ( "PXENV_UNDI_GET_IFACE_INFO" );
#if 0
/* Just hand back some info, doesn't really matter what it is.
* Most PXE stacks seem to take this approach.
*/
sprintf ( undi_get_iface_info->IfaceType, "Etherboot" );
undi_get_iface_info->LinkSpeed = 10000000; /* 10 Mbps */
undi_get_iface_info->ServiceFlags = 0;
memset ( undi_get_iface_info->Reserved, 0,
sizeof(undi_get_iface_info->Reserved) );
#endif
undi_get_iface_info->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}
/* PXENV_UNDI_GET_STATE
*
* Status: impossible
*/
PXENV_EXIT_t pxenv_undi_get_state ( struct s_PXENV_UNDI_GET_STATE
*undi_get_state ) {
DBG ( "PXENV_UNDI_GET_STATE" );
undi_get_state->Status = PXENV_STATUS_UNSUPPORTED;
return PXENV_EXIT_FAILURE;
};
/* PXENV_UNDI_ISR
*
* Status: working
*/
PXENV_EXIT_t pxenv_undi_isr ( struct s_PXENV_UNDI_ISR *undi_isr ) {
DBG ( "PXENV_UNDI_ISR" );
#if 0
/* We can't call ENSURE_READY, because this could be being
* called as part of an interrupt service routine. Instead,
* we should simply die if we're not READY.
*/
if ( ( pxe_stack == NULL ) || ( pxe_stack->state < READY ) ) {
undi_isr->Status = PXENV_STATUS_UNDI_INVALID_STATE;
return PXENV_EXIT_FAILURE;
}
/* Just in case some idiot actually looks at these fields when
* we weren't meant to fill them in...
*/
undi_isr->BufferLength = 0;
undi_isr->FrameLength = 0;
undi_isr->FrameHeaderLength = 0;
undi_isr->ProtType = 0;
undi_isr->PktType = 0;
switch ( undi_isr->FuncFlag ) {
case PXENV_UNDI_ISR_IN_START :
/* Is there a packet waiting? If so, disable
* interrupts on the NIC and return "it's ours". Do
* *not* necessarily acknowledge the interrupt; this
* can happen later when eth_poll(1) is called. As
* long as the interrupt is masked off so that it
* doesn't immediately retrigger the 8259A then all
* should be well.
*/
DBG ( " START" );
if ( eth_poll ( 0 ) ) {
DBG ( " OURS" );
eth_irq ( DISABLE );
undi_isr->FuncFlag = PXENV_UNDI_ISR_OUT_OURS;
} else {
DBG ( " NOT_OURS" );
undi_isr->FuncFlag = PXENV_UNDI_ISR_OUT_NOT_OURS;
}
break;
case PXENV_UNDI_ISR_IN_PROCESS :
/* Call poll(), return packet. If no packet, return "done".
*/
DBG ( " PROCESS" );
if ( eth_poll ( 1 ) ) {
DBG ( " RECEIVE %d", nic.packetlen );
if ( nic.packetlen > sizeof(pxe_stack->packet) ) {
/* Should never happen */
undi_isr->FuncFlag = PXENV_UNDI_ISR_OUT_DONE;
undi_isr->Status =
PXENV_STATUS_OUT_OF_RESOURCES;
return PXENV_EXIT_FAILURE;
}
undi_isr->FuncFlag = PXENV_UNDI_ISR_OUT_RECEIVE;
undi_isr->BufferLength = nic.packetlen;
undi_isr->FrameLength = nic.packetlen;
undi_isr->FrameHeaderLength = ETH_HLEN;
memcpy ( pxe_stack->packet, nic.packet, nic.packetlen);
PTR_TO_SEGOFF16 ( pxe_stack->packet, undi_isr->Frame );
switch ( ntohs(media_header->nstype) ) {
case ETH_P_IP: undi_isr->ProtType = P_IP; break;
case ETH_P_ARP: undi_isr->ProtType = P_ARP; break;
case ETH_P_RARP: undi_isr->ProtType = P_RARP; break;
default : undi_isr->ProtType = P_UNKNOWN;
}
if ( memcmp ( media_header->dest, broadcast_mac,
sizeof(broadcast_mac) ) ) {
undi_isr->PktType = XMT_BROADCAST;
} else {
undi_isr->PktType = XMT_DESTADDR;
}
break;
} else {
/* No break - fall through to IN_GET_NEXT */
}
case PXENV_UNDI_ISR_IN_GET_NEXT :
/* We only ever return one frame at a time */
DBG ( " GET_NEXT DONE" );
/* Re-enable interrupts */
eth_irq ( ENABLE );
/* Force an interrupt if there's a packet still
* waiting, since we only handle one packet per
* interrupt.
*/
if ( eth_poll ( 0 ) ) {
DBG ( " (RETRIGGER)" );
eth_irq ( FORCE );
}
undi_isr->FuncFlag = PXENV_UNDI_ISR_OUT_DONE;
break;
default :
/* Should never happen */
undi_isr->FuncFlag = PXENV_UNDI_ISR_OUT_DONE;
undi_isr->Status = PXENV_STATUS_UNDI_INVALID_PARAMETER;
return PXENV_EXIT_FAILURE;
}
#endif
undi_isr->Status = PXENV_STATUS_SUCCESS;
return PXENV_EXIT_SUCCESS;
}