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https://github.com/xcat2/xNBA.git
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312 lines
9.3 KiB
C
312 lines
9.3 KiB
C
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/** @file
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*
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*
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*
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*/
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/*
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* Copyright (C) 2004 Michael Brown <mbrown@fensystems.co.uk>.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of the
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* License, or any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#include "pxe.h"
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/* Global pointer to currently installed PXE stack */
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pxe_stack_t *pxe_stack = NULL;
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/* Various startup/shutdown routines. The startup/shutdown call
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* sequence is incredibly badly defined in the Intel PXE spec, for
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* example:
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*
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* PXENV_UNDI_INITIALIZE says that the parameters used to initialize
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* the adaptor should be those supplied to the most recent
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* PXENV_UNDI_STARTUP call. PXENV_UNDI_STARTUP takes no parameters.
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*
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* PXENV_UNDI_CLEANUP says that the rest of the API will not be
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* available after making this call. Figure 3-3 ("Early UNDI API
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* usage") shows a call to PXENV_UNDI_CLEANUP being followed by a
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* call to the supposedly now unavailable PXENV_STOP_UNDI.
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*
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* PXENV_UNLOAD_BASE_STACK talks about freeing up the memory
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* occupied by the PXE stack. Figure 4-3 ("PXE IPL") shows a call
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* to PXENV_STOP_UNDI being made after the call to
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* PXENV_UNLOAD_BASE_STACK, by which time the entire PXE stack
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* should have been freed (and, potentially, zeroed).
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*
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* Nothing, anywhere, seems to mention who's responsible for freeing
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* up the base memory allocated for the stack segment. It's not
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* even clear whether or not this is expected to be in free base
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* memory rather than claimed base memory.
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*
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* Consequently, we adopt a rather defensive strategy, designed to
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* work with any conceivable sequence of initialisation or shutdown
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* calls. We have only two things that we care about:
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*
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* 1. Have we hooked INT 1A and INT 15,E820(etc.)?
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* 2. Is the NIC initialised?
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*
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* The NIC should never be initialised without the vectors being
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* hooked, similarly the vectors should never be unhooked with the NIC
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* still initialised. We do, however, want to be able to have the
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* vectors hooked with the NIC shutdown. We therefore have three
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* possible states:
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*
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* 1. Ready to unload: interrupts unhooked, NIC shutdown.
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* 2. Midway: interrupts hooked, NIC shutdown.
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* 3. Fully ready: interrupts hooked, NIC initialised.
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*
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* We provide the three states CAN_UNLOAD, MIDWAY and READY to define
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* these, and the call pxe_ensure_state() to ensure that the stack is
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* in the specified state. All our PXE API call implementations
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* should use this call to ensure that the state is as required for
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* that PXE API call. This enables us to cope with whatever the
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* end-user's interpretation of the PXE spec may be. It even allows
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* for someone calling e.g. PXENV_START_UNDI followed by
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* PXENV_UDP_WRITE, without bothering with any of the intervening
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* calls.
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*
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* pxe_ensure_state() returns 1 for success, 0 for failure. In the
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* event of failure (which can arise from e.g. asking for state READY
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* when we don't know where our NIC is), the error code
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* PXENV_STATUS_UNDI_INVALID_STATE should be returned to the user.
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* The macros ENSURE_XXX() can be used to achieve this without lots of
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* duplicated code.
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*/
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/* pxe_[un]hook_stack are architecture-specific and provided in
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* pxe_callbacks.c
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*/
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int pxe_initialise_nic ( void ) {
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if ( pxe_stack->state >= READY ) return 1;
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#warning "device probing mechanism has completely changed"
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#if 0
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/* Check if NIC is initialised. dev.disable is set to 0
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* when disable() is called, so we use this.
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*/
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if ( dev.disable ) {
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/* NIC may have been initialised independently
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* (e.g. when we set up the stack prior to calling the
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* NBP).
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*/
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pxe_stack->state = READY;
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return 1;
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}
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/* If we already have a NIC defined, reuse that one with
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* PROBE_AWAKE. If one was specifed via PXENV_START_UNDI, try
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* that one first. Otherwise, set PROBE_FIRST.
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*/
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if ( dev.state.pci.dev.use_specified == 1 ) {
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dev.how_probe = PROBE_NEXT;
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DBG ( " initialising NIC specified via START_UNDI" );
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} else if ( dev.state.pci.dev.driver ) {
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DBG ( " reinitialising NIC" );
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dev.how_probe = PROBE_AWAKE;
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} else {
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DBG ( " probing for any NIC" );
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dev.how_probe = PROBE_FIRST;
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}
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/* Call probe routine to bring up the NIC */
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if ( eth_probe ( &dev ) != PROBE_WORKED ) {
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DBG ( " failed" );
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return 0;
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}
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#endif
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pxe_stack->state = READY;
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return 1;
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}
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int pxe_shutdown_nic ( void ) {
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if ( pxe_stack->state <= MIDWAY ) return 1;
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eth_irq ( DISABLE );
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disable ( &dev );
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pxe_stack->state = MIDWAY;
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return 1;
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}
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int ensure_pxe_state ( pxe_stack_state_t wanted ) {
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int success = 1;
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if ( ! pxe_stack ) return 0;
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if ( wanted >= MIDWAY )
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success = success & hook_pxe_stack();
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if ( wanted > MIDWAY ) {
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success = success & pxe_initialise_nic();
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} else {
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success = success & pxe_shutdown_nic();
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}
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if ( wanted < MIDWAY )
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success = success & unhook_pxe_stack();
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return success;
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}
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/* API call dispatcher
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*
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* Status: complete
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*/
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PXENV_EXIT_t pxe_api_call ( int opcode, union u_PXENV_ANY *any ) {
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PXENV_EXIT_t ret = PXENV_EXIT_FAILURE;
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/* Set default status in case child routine fails to do so */
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any->Status = PXENV_STATUS_FAILURE;
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DBG ( "[" );
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/* Hand off to relevant API routine */
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switch ( opcode ) {
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case PXENV_START_UNDI:
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ret = pxenv_start_undi ( &any->start_undi );
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break;
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case PXENV_UNDI_STARTUP:
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ret = pxenv_undi_startup ( &any->undi_startup );
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break;
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case PXENV_UNDI_CLEANUP:
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ret = pxenv_undi_cleanup ( &any->undi_cleanup );
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break;
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case PXENV_UNDI_INITIALIZE:
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ret = pxenv_undi_initialize ( &any->undi_initialize );
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break;
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case PXENV_UNDI_RESET_ADAPTER:
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ret = pxenv_undi_reset_adapter ( &any->undi_reset_adapter );
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break;
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case PXENV_UNDI_SHUTDOWN:
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ret = pxenv_undi_shutdown ( &any->undi_shutdown );
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break;
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case PXENV_UNDI_OPEN:
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ret = pxenv_undi_open ( &any->undi_open );
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break;
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case PXENV_UNDI_CLOSE:
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ret = pxenv_undi_close ( &any->undi_close );
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break;
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case PXENV_UNDI_TRANSMIT:
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ret = pxenv_undi_transmit ( &any->undi_transmit );
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break;
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case PXENV_UNDI_SET_MCAST_ADDRESS:
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ret = pxenv_undi_set_mcast_address (
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&any->undi_set_mcast_address );
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break;
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case PXENV_UNDI_SET_STATION_ADDRESS:
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ret = pxenv_undi_set_station_address (
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&any->undi_set_station_address );
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break;
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case PXENV_UNDI_SET_PACKET_FILTER:
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ret = pxenv_undi_set_packet_filter (
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&any->undi_set_packet_filter );
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break;
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case PXENV_UNDI_GET_INFORMATION:
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ret = pxenv_undi_get_information (
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&any->undi_get_information );
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break;
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case PXENV_UNDI_GET_STATISTICS:
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ret = pxenv_undi_get_statistics ( &any->undi_get_statistics );
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break;
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case PXENV_UNDI_CLEAR_STATISTICS:
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ret = pxenv_undi_clear_statistics (
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&any->undi_clear_statistics );
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break;
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case PXENV_UNDI_INITIATE_DIAGS:
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ret = pxenv_undi_initiate_diags ( &any->undi_initiate_diags );
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break;
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case PXENV_UNDI_FORCE_INTERRUPT:
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ret = pxenv_undi_force_interrupt (
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&any->undi_force_interrupt );
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break;
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case PXENV_UNDI_GET_MCAST_ADDRESS:
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ret = pxenv_undi_get_mcast_address (
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&any->undi_get_mcast_address );
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break;
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case PXENV_UNDI_GET_NIC_TYPE:
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ret = pxenv_undi_get_nic_type ( &any->undi_get_nic_type );
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break;
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case PXENV_UNDI_GET_IFACE_INFO:
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ret = pxenv_undi_get_iface_info ( &any->undi_get_iface_info );
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break;
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case PXENV_UNDI_ISR:
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ret = pxenv_undi_isr ( &any->undi_isr );
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break;
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case PXENV_STOP_UNDI:
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ret = pxenv_stop_undi ( &any->stop_undi );
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break;
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case PXENV_TFTP_OPEN:
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ret = pxenv_tftp_open ( &any->tftp_open );
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break;
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case PXENV_TFTP_CLOSE:
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ret = pxenv_tftp_close ( &any->tftp_close );
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break;
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case PXENV_TFTP_READ:
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ret = pxenv_tftp_read ( &any->tftp_read );
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break;
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case PXENV_TFTP_READ_FILE:
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ret = pxenv_tftp_read_file ( &any->tftp_read_file );
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break;
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case PXENV_TFTP_GET_FSIZE:
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ret = pxenv_tftp_get_fsize ( &any->tftp_get_fsize );
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break;
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case PXENV_UDP_OPEN:
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ret = pxenv_udp_open ( &any->udp_open );
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break;
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case PXENV_UDP_CLOSE:
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ret = pxenv_udp_close ( &any->udp_close );
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break;
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case PXENV_UDP_READ:
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ret = pxenv_udp_read ( &any->udp_read );
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break;
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case PXENV_UDP_WRITE:
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ret = pxenv_udp_write ( &any->udp_write );
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break;
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case PXENV_UNLOAD_STACK:
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ret = pxenv_unload_stack ( &any->unload_stack );
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break;
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case PXENV_GET_CACHED_INFO:
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ret = pxenv_get_cached_info ( &any->get_cached_info );
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break;
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case PXENV_RESTART_TFTP:
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ret = pxenv_restart_tftp ( &any->restart_tftp );
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break;
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case PXENV_START_BASE:
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ret = pxenv_start_base ( &any->start_base );
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break;
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case PXENV_STOP_BASE:
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ret = pxenv_stop_base ( &any->stop_base );
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break;
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default:
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DBG ( "PXENV_UNKNOWN_%hx", opcode );
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any->Status = PXENV_STATUS_UNSUPPORTED;
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ret = PXENV_EXIT_FAILURE;
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break;
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}
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if ( any->Status != PXENV_STATUS_SUCCESS ) {
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DBG ( " %hx", any->Status );
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}
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if ( ret != PXENV_EXIT_SUCCESS ) {
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DBG ( ret == PXENV_EXIT_FAILURE ? " err" : " ??" );
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}
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DBG ( "]" );
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return ret;
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}
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