AppleWin/source/Tfe/Tfe.cpp

1570 lines
48 KiB
C++

/*
* tfe.c - TFE ("The final ethernet") emulation.
*
* Written by
* Spiro Trikaliotis <Spiro.Trikaliotis@gmx.de>
*
* This file is part of VICE, the Versatile Commodore Emulator.
* See README for copyright notice.
*
* 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
* (at your option) 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., 59 Temple Place, Suite 330, Boston, MA
* 02111-1307 USA.
*
*/
#include "../StdAfx.h"
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef DOS_TFE
#include <pcap.h>
#endif
#include "tfe.h"
#include "tfearch.h"
#include "tfesupp.h"
#ifndef NULL
#define NULL 0
#endif
typedef unsigned int UINT;
#include "../Common.h" // For: IS_APPLE2
#include "../Memory.h"
/**/
/** #define TFE_DEBUG_DUMP 1 **/
/* #define TFE_DEBUG_FRAMES - might be defined in TFE.H! */
#define TFE_DEBUG_WARN 1 /* this should not be deactivated */
#define TFE_DEBUG_INIT 1
/** #define TFE_DEBUG_LOAD 1 **/
/** #define TFE_DEBUG_STORE 1 **/
/**/
/* ------------------------------------------------------------------------- */
/* variables needed */
/*
This variable is used when we need to postpone the initialization
because tfe_init() is not yet called
*/
static int should_activate = 0;
static int init_tfe_flag = 0;
/* status which received packages to accept
This is used in tfe_should_accept().
*/
static BYTE tfe_ia_mac[6];
/* remember the value of the hash mask */
static DWORD tfe_hash_mask[2];
static int tfe_recv_broadcast = 0; /* broadcast */
static int tfe_recv_mac = 0; /* individual address (IA) */
static int tfe_recv_multicast = 0; /* multicast if address passes the hash filter */
static int tfe_recv_correct = 0; /* accept correct frames */
static int tfe_recv_promiscuous = 0; /* promiscuous mode */
static int tfe_recv_hashfilter = 0; /* accept if IA passes the hash filter */
#ifdef TFE_DEBUG_WARN
/* remember if the TXCMD has been completed before a new one is issued */
static int tfe_started_tx = 0;
#endif
/* Flag: Can we even use TFE, or is the hardware not available? */
static int tfe_cannot_use = 0;
/* Flag: Do we have the TFE enabled? */
int tfe_enabled = 0;
/* Flag: Do we use the "original" memory map or the memory map of the RR-Net? */
//static int tfe_as_rr_net = 0;
char *tfe_interface = NULL;
/* TFE registers */
/* these are the 8 16-bit-ports for "I/O space configuration"
(see 4.10 on page 75 of cs8900a-4.pdf, the cs8900a data sheet)
REMARK: The TFE operatoes the cs8900a in IO space configuration, as
it generates I/OW and I/OR signals.
*/
#define TFE_COUNT_IO_REGISTER 0x10 /* we have 16 I/O register */
static BYTE *tfe = NULL;
/*
RW: RXTXDATA = DE00/DE01
RW: RXTXDATA2 = DE02/DE03 (for 32-bit-operation)
-W: TXCMD = DE04/DE05 (TxCMD, Transmit Command) mapped to PP + 0144 (Reg. 9, Sec. 4.4, page 46)
-W: TXLENGTH = DE06/DE07 (TxLenght, Transmit Length) mapped to PP + 0146
R-: INTSTQUEUE = DE08/DE09 (Interrupt Status Queue) mapped to PP + 0120 (ISQ, Sec. 5.1, page 78)
RW: PP_PTR = DE0A/DE0B (PacketPage Pointer) (see. page 75p: Read -011.---- ----.----)
RW: PP_DATA0 = DE0C/DE0D (PacketPage Data (Port 0))
RW: PP_DATA1 = DE0E/DE0F (PacketPage Data (Port 1)) (for 32 bit only)
*/
#define TFE_ADDR_RXTXDATA 0x00 /* RW */
#define TFE_ADDR_RXTXDATA2 0x02 /* RW 32 bit only! */
#define TFE_ADDR_TXCMD 0x04 /* -W Maps to PP+0144 */
#define TFE_ADDR_TXLENGTH 0x06 /* -W Maps to PP+0146 */
#define TFE_ADDR_INTSTQUEUE 0x08 /* R- Interrupt status queue, maps to PP + 0120 */
#define TFE_ADDR_PP_PTR 0x0a /* RW PacketPage Pointer */
#define TFE_ADDR_PP_DATA 0x0c /* RW PacketPage Data, Port 0 */
#define TFE_ADDR_PP_DATA2 0x0e /* RW PacketPage Data, Port 1 - 32 bit only */
/* Makros for reading and writing the visible TFE register: */
#define GET_TFE_8( _xxx_ ) \
( assert(_xxx_<TFE_COUNT_IO_REGISTER), \
tfe[_xxx_] \
)
#define SET_TFE_8( _xxx_, _val_ ) \
do { \
assert(_xxx_<TFE_COUNT_IO_REGISTER); \
tfe[_xxx_ ] = (_val_ ) & 0xff; \
} while (0)
#define GET_TFE_16( _xxx_ ) \
( assert(_xxx_<TFE_COUNT_IO_REGISTER), \
tfe[_xxx_] | (tfe[_xxx_+1] << 8) \
)
#define SET_TFE_16( _xxx_, _val_ ) \
do { \
assert(_xxx_<TFE_COUNT_IO_REGISTER); \
tfe[_xxx_ ] = (_val_ ) & 0xff; \
tfe[_xxx_+1] = (_val_ >> 8) & 0xff; \
} while (0)
/* The PacketPage register */
/* note: The locations 0 to MAX_PACKETPAGE_ARRAY-1 are handled in this array. */
#define MAX_PACKETPAGE_ARRAY 0x1000 /* 4 KB */
static BYTE *tfe_packetpage = NULL;
static WORD tfe_packetpage_ptr = 0;
/* Makros for reading and writing the PacketPage register: */
#define GET_PP_8( _xxx_ ) \
(assert(_xxx_<MAX_PACKETPAGE_ARRAY), \
tfe_packetpage[_xxx_] \
)
#define GET_PP_16( _xxx_ ) \
( assert(_xxx_<MAX_PACKETPAGE_ARRAY), \
assert((_xxx_ & 1) == 0 ), \
((WORD)tfe_packetpage[_xxx_] ) \
| ((WORD)tfe_packetpage[_xxx_+1] << 8) \
)
#define GET_PP_32( _xxx_ ) \
( assert(_xxx_<MAX_PACKETPAGE_ARRAY), \
assert((_xxx_ & 3) == 0 ), \
(((long)tfe_packetpage[_xxx_ ]) ) \
| (((long)tfe_packetpage[_xxx_+1]) << 8) \
| (((long)tfe_packetpage[_xxx_+2]) << 16) \
| (((long)tfe_packetpage[_xxx_+3]) << 24) \
)
#define SET_PP_8( _xxx_, _val_ ) \
do { \
assert(_xxx_<MAX_PACKETPAGE_ARRAY); \
tfe_packetpage[_xxx_ ] = (_val_ ) & 0xFF; \
} while (0)
#define SET_PP_16( _xxx_, _val_ ) \
do { \
assert(_xxx_<MAX_PACKETPAGE_ARRAY); \
assert((_xxx_ & 1) == 0 ), \
tfe_packetpage[_xxx_ ] = (_val_ ) & 0xFF; \
tfe_packetpage[_xxx_+1] = (_val_>> 8) & 0xFF; \
} while (0)
#define SET_PP_32( _xxx_, _val_ ) \
do { \
assert(_xxx_<MAX_PACKETPAGE_ARRAY); \
assert((_xxx_ & 3) == 0 ), \
tfe_packetpage[_xxx_ ] = (_val_ ) & 0xFF; \
tfe_packetpage[_xxx_+1] = (_val_>> 8) & 0xFF; \
tfe_packetpage[_xxx_+2] = (_val_>>16) & 0xFF; \
tfe_packetpage[_xxx_+3] = (_val_>>24) & 0xFF; \
} while (0)
/* The packetpage register: see p. 39f */
#define TFE_PP_ADDR_PRODUCTID 0x0000 /* R- - 4.3., p. 41 */
#define TFE_PP_ADDR_IOBASE 0x0020 /* i RW - 4.3., p. 41 - 4.7., p. 72 */
#define TFE_PP_ADDR_INTNO 0x0022 /* i RW - 3.2., p. 17 - 4.3., p. 41 */
#define TFE_PP_ADDR_DMA_CHAN 0x0024 /* i RW - 3.2., p. 17 - 4.3., p. 41 */
#define TFE_PP_ADDR_DMA_SOF 0x0026 /* ? R- - 4.3., p. 41 - 5.4., p. 89 */
#define TFE_PP_ADDR_DMA_FC 0x0028 /* ? R- - 4.3., p. 41, "Receive DMA" */
#define TFE_PP_ADDR_RXDMA_BC 0x002a /* ? R- - 4.3., p. 41 - 5.4., p. 89 */
#define TFE_PP_ADDR_MEMBASE 0x002c /* i RW - 4.3., p. 41 - 4.9., p. 73 */
#define TFE_PP_ADDR_BPROM_BASE 0x0030 /* i RW - 3.6., p. 24 - 4.3., p. 41 */
#define TFE_PP_ADDR_BPROM_MASK 0x0034 /* i RW - 3.6., p. 24 - 4.3., p. 41 */
/* 0x0038 - 0x003F: reserved */
#define TFE_PP_ADDR_EEPROM_CMD 0x0040 /* i RW - 3.5., p. 23 - 4.3., p. 41 */
#define TFE_PP_ADDR_EEPROM_DATA 0x0042 /* i RW - 3.5., p. 23 - 4.3., p. 41 */
/* 0x0044 - 0x004F: reserved */
#define TFE_PP_ADDR_REC_FRAME_BC 0x0050 /* RW - 4.3., p. 41 - 5.2.9., p. 86 */
/* 0x0052 - 0x00FF: reserved */
#define TFE_PP_ADDR_CONF_CTRL 0x0100 /* - RW - 4.4., p. 46; see below */
#define TFE_PP_ADDR_STATUS_EVENT 0x0120 /* - R- - 4.4., p. 46; see below */
/* 0x0140 - 0x0143: reserved */
#define TFE_PP_ADDR_TXCMD 0x0144 /* # -W - 4.5., p. 70 - 5.7., p. 98 */
#define TFE_PP_ADDR_TXLENGTH 0x0146 /* # -W - 4.5., p. 70 - 5.7., p. 98 */
/* 0x0148 - 0x014F: reserved */
#define TFE_PP_ADDR_LOG_ADDR_FILTER 0x0150 /* RW - 4.6., p. 71 - 5.3., p. 86 */
#define TFE_PP_ADDR_MAC_ADDR 0x0158 /* # RW - 4.6., p. 71 - 5.3., p. 86 */
/* 0x015E - 0x03FF: reserved */
#define TFE_PP_ADDR_RXSTATUS 0x0400 /* R- - 4.7., p. 72 - 5.2., p. 78 */
#define TFE_PP_ADDR_RXLENGTH 0x0402 /* R- - 4.7., p. 72 - 5.2., p. 78 */
#define TFE_PP_ADDR_RX_FRAMELOC 0x0404 /* R- - 4.7., p. 72 - 5.2., p. 78 */
/* here, the received frame is stored */
#define TFE_PP_ADDR_TX_FRAMELOC 0x0A00 /* -W - 4.7., p. 72 - 5.7., p. 98 */
/* here, the frame to transmit is stored */
#define TFE_PP_ADDR_END 0x1000 /* memory to TFE_PP_ADDR_END-1 is used */
/* TFE_PP_ADDR_CONF_CTRL is subdivided: */
#define TFE_PP_ADDR_CC_RXCFG 0x0102 /* # RW - 4.4.6., p. 52 - 0003 */
#define TFE_PP_ADDR_CC_RXCTL 0x0104 /* # RW - 4.4.8., p. 54 - 0005 */
#define TFE_PP_ADDR_CC_TXCFG 0x0106 /* RW - 4.4.9., p. 55 - 0007 */
#define TFE_PP_ADDR_CC_TXCMD 0x0108 /* R- - 4.4.11., p. 57 - 0009 */
#define TFE_PP_ADDR_CC_BUFCFG 0x010A /* RW - 4.4.12., p. 58 - 000B */
#define TFE_PP_ADDR_CC_LINECTL 0x0112 /* # RW - 4.4.16., p. 62 - 0013 */
#define TFE_PP_ADDR_CC_SELFCTL 0x0114 /* RW - 4.4.18., p. 64 - 0015 */
#define TFE_PP_ADDR_CC_BUSCTL 0x0116 /* RW - 4.4.20., p. 66 - 0017 */
#define TFE_PP_ADDR_CC_TESTCTL 0x0118 /* RW - 4.4.22., p. 68 - 0019 */
/* TFE_PP_ADDR_STATUS_EVENT is subdivided: */
#define TFE_PP_ADDR_SE_ISQ 0x0120 /* R- - 4.4.5., p. 51 - 0000 */
#define TFE_PP_ADDR_SE_RXEVENT 0x0124 /* # R- - 4.4.7., p. 53 - 0004 */
#define TFE_PP_ADDR_SE_TXEVENT 0x0128 /* R- - 4.4.10., p. 56 - 0008 */
#define TFE_PP_ADDR_SE_BUFEVENT 0x012C /* R- - 4.4.13., p. 59 - 000C */
#define TFE_PP_ADDR_SE_RXMISS 0x0130 /* R- - 4.4.14., p. 60 - 0010 */
#define TFE_PP_ADDR_SE_TXCOL 0x0132 /* R- - 4.4.15., p. 61 - 0012 */
#define TFE_PP_ADDR_SE_LINEST 0x0134 /* R- - 4.4.17., p. 63 - 0014 */
#define TFE_PP_ADDR_SE_SELFST 0x0136 /* R- - 4.4.19., p. 65 - 0016 */
#define TFE_PP_ADDR_SE_BUSST 0x0138 /* # R- - 4.4.21., p. 67 - 0018 */
#define TFE_PP_ADDR_SE_TDR 0x013C /* R- - 4.4.23., p. 69 - 001C */
/* ------------------------------------------------------------------------- */
/* more variables needed */
static WORD txcollect_buffer = TFE_PP_ADDR_TX_FRAMELOC;
static WORD rx_buffer = TFE_PP_ADDR_RXSTATUS;
/* ------------------------------------------------------------------------- */
/* some parameter definitions */
#define MAX_TXLENGTH 1518
#define MIN_TXLENGTH 4
#define MAX_RXLENGTH 1518
#define MIN_RXLENGTH 64
/* ------------------------------------------------------------------------- */
/* debugging functions */
#ifdef TFE_DEBUG_FRAMES
static int TfeDebugMaxFrameLengthToDump = 150;
char *debug_outbuffer(const int length, const unsigned char * const buffer)
{
#define MAXLEN_DEBUG 1600
int i;
static char outbuffer[MAXLEN_DEBUG*4+1];
char *p = outbuffer;
assert( TfeDebugMaxFrameLengthToDump <= MAXLEN_DEBUG );
*p = 0;
for (i=0; i<TfeDebugMaxFrameLengthToDump; i++) {
if (i>=length)
break;
sprintf( p, "%02X%c", buffer[i], ((i+1)%16==0)?'*':(((i+1)%8==0)?'-':' '));
p+=3;
}
return outbuffer;
}
#endif
#ifdef TFE_DEBUG_DUMP
#define NUMBER_PER_LINE 8
static
void tfe_debug_output_general( char *what, WORD (*getFunc)(int), int count )
{
int i;
char buffer[7+(6*NUMBER_PER_LINE)+2];
if(g_fh) fprintf(g_fh, "%s contents:", what );
for (i=0; i<count; i += 2*NUMBER_PER_LINE )
{
int j;
char *p = buffer + 7;
sprintf( buffer, "%04X: ", i );
for (j=0; j<NUMBER_PER_LINE; j++)
{
sprintf( p, "%04X, ", (*getFunc)(i+j+j) );
p += 6;
}
*p = 0;
if(g_fh) fprintf(g_fh, "%s", buffer );
}
}
static
WORD tfe_debug_output_io_getFunc( int i )
{
return GET_TFE_16(i);
}
static
void tfe_debug_output_io( void )
{
tfe_debug_output_general( "TFE I/O", tfe_debug_output_io_getFunc, TFE_COUNT_IO_REGISTER );
}
#define TFE_DEBUG_OUTPUT_IO() tfe_debug_output_io()
static
WORD tfe_debug_output_pp_getFunc( int i )
{
return GET_PP_16(i);
}
static
void tfe_debug_output_pp( void )
{
tfe_debug_output_general( "PacketPage", tfe_debug_output_pp_getFunc, 0x0160 /* MAX_PACKETPAGE_ARRAY */ );
}
#define TFE_DEBUG_OUTPUT_PP() tfe_debug_output_pp()
#define TFE_DEBUG_OUTPUT_REG() \
do { TFE_DEBUG_OUTPUT_IO(); TFE_DEBUG_OUTPUT_PP(); } while (0)
#else
#define TFE_DEBUG_OUTPUT_IO()
#define TFE_DEBUG_OUTPUT_PP()
#define TFE_DEBUG_OUTPUT_REG()
#endif
/* ------------------------------------------------------------------------- */
/* initialization and deinitialization functions */
BYTE __stdcall TfeIoCxxx (WORD programcounter, WORD address, BYTE write, BYTE value, ULONG nCycles);
BYTE __stdcall TfeIo (WORD programcounter, WORD address, BYTE write, BYTE value, ULONG nCycles);
void tfe_reset(void)
{
if (tfe_enabled && !should_activate)
{
assert( tfe );
assert( tfe_packetpage );
tfe_arch_pre_reset();
/* initialize visible IO register and PacketPage registers */
memset( tfe, 0, TFE_COUNT_IO_REGISTER );
memset( tfe_packetpage, 0, MAX_PACKETPAGE_ARRAY );
/* according to page 19 unless stated otherwise */
SET_PP_32(TFE_PP_ADDR_PRODUCTID, 0x0700630E ); /* p.41: 0E630007 for Rev. B; reversed order! */
SET_PP_16(TFE_PP_ADDR_IOBASE, 0x0300);
SET_PP_16(TFE_PP_ADDR_INTNO, 0x0004); /* xxxx xxxx xxxx x100b */
SET_PP_16(TFE_PP_ADDR_DMA_CHAN, 0x0003); /* xxxx xxxx xxxx xx11b */
#if 0 /* not needed since all memory is initialized with 0 */
SET_PP_16(TFE_PP_ADDR_DMA_SOF, 0x0000);
SET_PP_16(TFE_PP_ADDR_DMA_FC, 0x0000); /* x000h */
SET_PP_16(TFE_PP_ADDR_RXDMA_BC, 0x0000);
SET_PP_32(TFE_PP_ADDR_MEMBASE, 0x0000); /* xxx0 0000h */
SET_PP_32(TFE_PP_ADDR_BPROM_BASE, 0x00000000); /* xxx0 0000h */
SET_PP_32(TFE_PP_ADDR_BPROM_MASK, 0x00000000); /* xxx0 0000h */
SET_PP_16(TFE_PP_ADDR_SE_ISQ, 0x0000); /* p. 51 */
#endif
/* according to descriptions of the registers, see definitions of
TFE_PP_ADDR_CC_... and TFE_PP_ADDR_SE_... above! */
SET_PP_16(TFE_PP_ADDR_CC_RXCFG, 0x0003);
SET_PP_16(TFE_PP_ADDR_CC_RXCTL, 0x0005);
SET_PP_16(TFE_PP_ADDR_CC_TXCFG, 0x0007);
SET_PP_16(TFE_PP_ADDR_CC_TXCMD, 0x0009);
SET_PP_16(TFE_PP_ADDR_CC_BUFCFG, 0x000B);
SET_PP_16(TFE_PP_ADDR_CC_LINECTL, 0x0013);
SET_PP_16(TFE_PP_ADDR_CC_SELFCTL, 0x0015);
SET_PP_16(TFE_PP_ADDR_CC_BUSCTL, 0x0017);
SET_PP_16(TFE_PP_ADDR_CC_TESTCTL, 0x0019);
SET_PP_16(TFE_PP_ADDR_SE_ISQ, 0x0000);
SET_PP_16(TFE_PP_ADDR_SE_RXEVENT, 0x0004);
SET_PP_16(TFE_PP_ADDR_SE_TXEVENT, 0x0008);
SET_PP_16(TFE_PP_ADDR_SE_BUFEVENT, 0x000C);
SET_PP_16(TFE_PP_ADDR_SE_RXMISS, 0x0010);
SET_PP_16(TFE_PP_ADDR_SE_TXCOL, 0x0012);
SET_PP_16(TFE_PP_ADDR_SE_LINEST, 0x0014);
SET_PP_16(TFE_PP_ADDR_SE_SELFST, 0x0016);
SET_PP_16(TFE_PP_ADDR_SE_BUSST, 0x0018);
SET_PP_16(TFE_PP_ADDR_SE_TDR, 0x001C);
tfe_arch_post_reset();
TFE_DEBUG_OUTPUT_REG();
}
const UINT uSlot = 3;
RegisterIoHandler(uSlot, TfeIo, TfeIo, TfeIoCxxx, TfeIoCxxx, NULL, NULL);
}
#ifdef DOS_TFE
static void set_standard_tfe_interface(void)
{
char *dev, errbuf[PCAP_ERRBUF_SIZE];
dev = pcap_lookupdev(errbuf);
util_string_set(&tfe_interface, dev);
}
#endif
static
int tfe_activate_i(void)
{
assert( tfe == NULL );
assert( tfe_packetpage == NULL );
#ifdef TFE_DEBUG
if(g_fh) fprintf( g_fh, "tfe_activate_i()." );
#endif
/* allocate memory for visible IO register */
/* RGJ added BYTE * for AppleWin */
tfe = (BYTE * )lib_malloc( TFE_COUNT_IO_REGISTER );
if (tfe==NULL)
{
#ifdef TFE_DEBUG_INIT
if(g_fh) fprintf(g_fh, "tfe_activate_i: Allocating tfe failed.\n");
#endif
tfe_enabled = 0;
return 0;
}
/* allocate memory for PacketPage register */
/* RGJ added BYTE * for AppleWin */
tfe_packetpage = (BYTE * ) lib_malloc( MAX_PACKETPAGE_ARRAY );
if (tfe_packetpage==NULL)
{
#ifdef TFE_DEBUG_INIT
if(g_fh) fprintf(g_fh, "tfe_activate: Allocating tfe_packetpage failed.\n");
#endif
lib_free(tfe);
tfe=NULL;
tfe_enabled = 0;
return 0;
}
#ifdef TFE_DEBUG_INIT
if(g_fh) fprintf(g_fh, "tfe_activate: Allocated memory successfully.\n");
if(g_fh) fprintf(g_fh, "\ttfe at $%08X, tfe_packetpage at $%08X\n", uintptr_t(tfe), uintptr_t(tfe_packetpage) );
#endif
#ifdef DOS_TFE
set_standard_tfe_interface();
#endif
if (!tfe_arch_activate(tfe_interface)) {
lib_free(tfe_packetpage);
lib_free(tfe);
tfe=NULL;
tfe_packetpage=NULL;
tfe_enabled = 0;
tfe_cannot_use = 1;
return 0;
}
/* virtually reset the LAN chip */
tfe_reset();
return 0;
}
static
int tfe_deactivate_i(void)
{
#ifdef TFE_DEBUG
if(g_fh) fprintf( g_fh, "tfe_deactivate_i()." );
#endif
assert(tfe && tfe_packetpage);
tfe_arch_deactivate();
lib_free(tfe);
tfe = NULL;
lib_free(tfe_packetpage);
tfe_packetpage = NULL;
return 0;
}
static
int tfe_activate(void) {
#ifdef TFE_DEBUG
if(g_fh) fprintf( g_fh, "tfe_activate()." );
#endif
if (init_tfe_flag) {
return tfe_activate_i();
}
else {
should_activate = 1;
}
return 0;
}
static
int tfe_deactivate(void) {
#ifdef TFE_DEBUG
if(g_fh) fprintf( g_fh, "tfe_deactivate()." );
#endif
if (should_activate)
should_activate = 0;
else {
if (init_tfe_flag)
return tfe_deactivate_i();
}
return 0;
}
void tfe_init(void)
{
init_tfe_flag = 1;
if (!tfe_arch_init()) {
tfe_enabled = 0;
tfe_cannot_use = 1;
}
if (should_activate) {
should_activate = 0;
if (tfe_activate() < 0) {
tfe_enabled = 0;
tfe_cannot_use = 1;
}
}
}
void tfe_shutdown(void)
{
assert( (tfe && tfe_packetpage) || (!tfe && !tfe_packetpage));
if (tfe)
tfe_deactivate();
if (tfe_interface != NULL)
lib_free(tfe_interface);
}
/* ------------------------------------------------------------------------- */
/* reading and writing TFE register functions */
/*
These registers are currently fully or partially supported:
TFE_PP_ADDR_CC_RXCFG 0x0102 * # RW - 4.4.6., p. 52 - 0003 *
TFE_PP_ADDR_CC_RXCTL 0x0104 * # RW - 4.4.8., p. 54 - 0005 *
TFE_PP_ADDR_CC_LINECTL 0x0112 * # RW - 4.4.16., p. 62 - 0013 *
TFE_PP_ADDR_SE_RXEVENT 0x0124 * # R- - 4.4.7., p. 53 - 0004 *
TFE_PP_ADDR_SE_BUSST 0x0138 * # R- - 4.4.21., p. 67 - 0018 *
TFE_PP_ADDR_TXCMD 0x0144 * # -W - 4.5., p. 70 - 5.7., p. 98 *
TFE_PP_ADDR_TXLENGTH 0x0146 * # -W - 4.5., p. 70 - 5.7., p. 98 *
TFE_PP_ADDR_MAC_ADDR 0x0158 * # RW - 4.6., p. 71 - 5.3., p. 86 *
0x015a
0x015c
*/
#ifdef TFE_DEBUG_FRAMES
#define return( _x_ ) \
{ \
int retval = _x_; \
\
if(g_fh) fprintf(g_fh, "%s correct_mac=%u, broadcast=%u, multicast=%u, hashed=%u, hash_index=%u", (retval? "+++ ACCEPTED":"--- rejected"), *pcorrect_mac, *pbroadcast, *pmulticast, *phashed, *phash_index); \
\
return retval; \
}
#endif
/*
This is a helper for tfe_receive() to determine if the received frame should be accepted
according to the settings.
This function is even allowed to be called in tfearch.c from tfe_arch_receive() if
necessary, which is the reason why its prototype is included here in tfearch.h.
*/
int tfe_should_accept(unsigned char *buffer, int length, int *phashed, int *phash_index,
int *pcorrect_mac, int *pbroadcast, int *pmulticast)
{
int hashreg; /* Hash Register (for hash computation) */
assert(length>=6); /* we need at least 6 octets since the DA has this length */
/* first of all, delete any status */
*phashed = 0;
*phash_index = 0;
*pcorrect_mac = 0;
*pbroadcast = 0;
*pmulticast = 0;
#ifdef TFE_DEBUG_FRAMES
if(g_fh) fprintf(g_fh, "tfe_should_accept called with %02X:%02X:%02X:%02X:%02X:%02X, length=%4u and buffer %s",
tfe_ia_mac[0], tfe_ia_mac[1], tfe_ia_mac[2],
tfe_ia_mac[3], tfe_ia_mac[4], tfe_ia_mac[5],
length,
debug_outbuffer(length, buffer)
);
#endif
if ( buffer[0]==tfe_ia_mac[0]
&& buffer[1]==tfe_ia_mac[1]
&& buffer[2]==tfe_ia_mac[2]
&& buffer[3]==tfe_ia_mac[3]
&& buffer[4]==tfe_ia_mac[4]
&& buffer[5]==tfe_ia_mac[5]
) {
/* this is our individual address (IA) */
*pcorrect_mac = 1;
/* if we don't want "correct MAC", we might have the chance
* that this address fits the hash index
*/
if (tfe_recv_mac || tfe_recv_promiscuous)
return(1);
}
if ( buffer[0]==0xFF
&& buffer[1]==0xFF
&& buffer[2]==0xFF
&& buffer[3]==0xFF
&& buffer[4]==0xFF
&& buffer[5]==0xFF
) {
/* this is a broadcast address */
*pbroadcast = 1;
/* broadcasts cannot be accepted by the hash filter */
return((tfe_recv_broadcast || tfe_recv_promiscuous) ? 1 : 0);
}
/* now check if DA passes the hash filter */
/* RGJ added (const char *) for AppleWin */
hashreg = (~crc32_buf((const char *)buffer,6) >> 26) & 0x3F;
*phashed = (tfe_hash_mask[(hashreg>=32)?1:0] & (1 << (hashreg&0x1F))) ? 1 : 0;
if (*phashed) {
*phash_index = hashreg;
if (buffer[0] & 0x80) {
/* we have a multicast address */
*pmulticast = 1;
/* if the multicast address fits into the hash filter,
* the hashed bit has to be clear
*/
*phashed = 0;
return((tfe_recv_multicast || tfe_recv_promiscuous) ? 1 : 0);
}
return((tfe_recv_hashfilter || tfe_recv_promiscuous) ? 1 : 0);
}
return(tfe_recv_promiscuous ? 1 : 0);
}
#ifdef TFE_DEBUG_FRAMES
#undef return
#endif
static
WORD tfe_receive(void)
{
WORD ret_val = 0x0004;
BYTE buffer[MAX_RXLENGTH];
int len;
int hashed;
int hash_index;
int rx_ok;
int correct_mac;
int broadcast;
int multicast = 0;
int crc_error;
int newframe;
int ready;
#ifdef TFE_DEBUG_FRAMES
if(g_fh) fprintf( g_fh, "");
#endif
do {
len = MAX_RXLENGTH;
ready = 1 ; /* assume we will find a good frame */
newframe = tfe_arch_receive(
buffer, /* where to store a frame */
&len, /* length of received frame */
&hashed, /* set if the dest. address is accepted by the hash filter */
&hash_index, /* hash table index if hashed == TRUE */
&rx_ok, /* set if good CRC and valid length */
&correct_mac, /* set if dest. address is exactly our IA */
&broadcast, /* set if dest. address is a broadcast address */
&crc_error /* set if received frame had a CRC error */
);
assert((len&1) == 0); /* length has to be even! */
if (newframe) {
if (hashed || correct_mac || broadcast) {
/* we already know the type of frame: Trust it! */
#ifdef TFE_DEBUG_FRAMES
if(g_fh) fprintf( g_fh, "+++ tfe_receive(): *** hashed=%u, correct_mac=%u, "
"broadcast=%u", hashed, correct_mac, broadcast);
#endif
}
else {
/* determine ourself the type of frame */
if (!tfe_should_accept(buffer,
len, &hashed, &hash_index, &correct_mac, &broadcast, &multicast)) {
/* if we should not accept this frame, just do nothing
* now, look for another one */
ready = 0; /* try another frame */
continue;
}
}
/* we did receive a frame, return that status */
ret_val |= rx_ok ? 0x0100 : 0;
ret_val |= multicast ? 0x0200 : 0;
if (!multicast) {
ret_val |= hashed ? 0x0040 : 0;
}
if (hashed && rx_ok) {
/* we have the 2nd, special format with hash index: */
assert(hash_index < 64);
ret_val |= hash_index << 9;
}
else {
/* we have the regular format */
ret_val |= correct_mac ? 0x0400 : 0;
ret_val |= broadcast ? 0x0800 : 0;
ret_val |= crc_error ? 0x1000 : 0;
ret_val |= (len<MIN_RXLENGTH) ? 0x2000 : 0;
ret_val |= (len>MAX_RXLENGTH) ? 0x4000 : 0;
}
/* discard any octets that are beyond the MAX_RXLEN */
if (len>MAX_RXLENGTH) {
len = MAX_RXLENGTH;
}
if (rx_ok) {
int i;
/* set relevant parts of the PP area to correct values */
SET_PP_16(TFE_PP_ADDR_RXLENGTH, len);
for (i=0;i<len; i++) {
SET_PP_8(TFE_PP_ADDR_RX_FRAMELOC+i, buffer[i]);
}
/* set rx_buffer to where start reading *
* According to 4.10.9 (pp. 76-77), we start with RxStatus and RxLength!
*/
rx_buffer = TFE_PP_ADDR_RXSTATUS;
}
}
} while (!ready);
#ifdef TFE_DEBUG_FRAMES
if (ret_val != 0x0004)
if(g_fh) fprintf( g_fh, "+++ tfe_receive(): ret_val=%04X", ret_val);
#endif
return ret_val;
}
static
void tfe_sideeffects_write_pp_on_txframe(WORD ppaddress)
{
if (ppaddress==TFE_PP_ADDR_TX_FRAMELOC+GET_PP_16(TFE_PP_ADDR_TXLENGTH)-1) {
/* we have collected the whole frame, now start transmission */
WORD txcmd = GET_PP_16(TFE_PP_ADDR_TXCMD);
WORD txlen = GET_PP_16(TFE_PP_ADDR_TXLENGTH);
WORD busst = GET_PP_16(TFE_PP_ADDR_SE_BUSST);
if ( (txlen>MAX_TXLENGTH)
|| ((txlen>MAX_TXLENGTH-4) && (!(txcmd&0x1000)))
|| (txlen<MIN_TXLENGTH)
) {
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Should send %u octets: Not allowed, thus ignoring!\n", txlen);
#endif
}
else {
/* clear BusST */
SET_PP_16(TFE_PP_ADDR_SE_BUSST, busst & ~0x180);
#ifdef TFE_DEBUG_FRAMES
if(g_fh) fprintf(g_fh, "tfe_arch_transmit() called with: "
"length=%4u and buffer %s", txlen,
debug_outbuffer(txlen, &tfe_packetpage[TFE_PP_ADDR_TX_FRAMELOC])
);
#endif
tfe_arch_transmit(
txcmd & 0x0100 ? 1 : 0, /* FORCE: Delete waiting frames in transmit buffer */
txcmd & 0x0200 ? 1 : 0, /* ONECOLL: Terminate after just one collision */
txcmd & 0x1000 ? 1 : 0, /* INHIBITCRC: Do not append CRC to the transmission */
txcmd & 0x2000 ? 1 : 0, /* TXPADDIS: Disable padding to 60/64 octets */
txlen,
&tfe_packetpage[TFE_PP_ADDR_TX_FRAMELOC]
);
txcollect_buffer = TFE_PP_ADDR_TX_FRAMELOC;
#ifdef TFE_DEBUG_WARN
/* remember that the TXCMD has been completed */
tfe_started_tx = 0;
#endif
}
}
}
/*
This is called *after* the relevant octets are written
*/
static
void tfe_sideeffects_write_pp(WORD ppaddress, int oddaddress)
{
WORD content = GET_PP_16( ppaddress );
assert((ppaddress & 1) == 0);
oddaddress = oddaddress ? 1 : 0;
switch (ppaddress)
{
case TFE_PP_ADDR_CC_RXCFG:
if (content & 0x40)
{
/* remove 1 */
/* tfe_arch_receive_remove_committed_frame(); */
/* this is an "act once" bit, thus restore it to zero. */
content &= ~0x40;
SET_PP_16( ppaddress, content );
}
/* @SRT TODO: Other bits are not used by TFE */
break;
case TFE_PP_ADDR_CC_RXCTL:
tfe_recv_broadcast = content & 0x0800; /* broadcast */
tfe_recv_mac = content & 0x0400; /* individual address (IA) */
tfe_recv_multicast = content & 0x0200; /* multicast if address passes the hash filter */
tfe_recv_correct = content & 0x0100; /* accept correct frames */
tfe_recv_promiscuous = content & 0x0080; /* promiscuous mode */
tfe_recv_hashfilter = content & 0x0040; /* accept if IA passes the hash filter */
tfe_arch_recv_ctl( tfe_recv_broadcast,
tfe_recv_mac,
tfe_recv_multicast,
tfe_recv_correct,
tfe_recv_promiscuous,
tfe_recv_hashfilter
);
break;
case TFE_PP_ADDR_CC_LINECTL:
tfe_arch_line_ctl( content & 0x0080, /* enable transmitter */
content & 0x0040 /* enable receiver */
);
break;
case TFE_PP_ADDR_SE_RXEVENT:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Written read-only register TFE_PP_ADDR_SE_RXEVENT: IGNORED\n");
#endif
break;
case TFE_PP_ADDR_SE_BUSST:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Written read-only register TFE_PP_ADDR_SE_BUSST: IGNORED\n");
#endif
break;
case TFE_PP_ADDR_TXCMD:
/* The transmit status command gets the last transmit command */
SET_PP_16(TFE_PP_ADDR_CC_TXCMD, GET_PP_16(TFE_PP_ADDR_TXCMD));
#ifdef TFE_DEBUG_WARN
/* check if we had a TXCMD, but not all octets were written */
if (tfe_started_tx && !oddaddress) {
if(g_fh) fprintf(g_fh, "WARNING! Early abort of transmitted frame\n");
}
tfe_started_tx = 1;
#endif
/* make sure we put the octets to transmit at the right place */
txcollect_buffer = TFE_PP_ADDR_TX_FRAMELOC;
break;
case TFE_PP_ADDR_TXLENGTH:
{
WORD txlength = GET_PP_16(TFE_PP_ADDR_TXLENGTH);
WORD txcommand = GET_PP_16(TFE_PP_ADDR_TXCMD);
if ( (txlength>MAX_TXLENGTH)
|| ((txlength>MAX_TXLENGTH-4) && (!(txcommand&0x1000)))
) {
/* txlength too big, mark an error */
SET_PP_16(TFE_PP_ADDR_SE_BUSST, (GET_PP_16(TFE_PP_ADDR_SE_BUSST) | 0x80) & ~0x100);
}
else {
/* all right, signal that we're ready for the next frame */
SET_PP_16(TFE_PP_ADDR_SE_BUSST, (GET_PP_16(TFE_PP_ADDR_SE_BUSST) & ~0x80) | 0x100);
}
}
break;
case TFE_PP_ADDR_LOG_ADDR_FILTER:
case TFE_PP_ADDR_LOG_ADDR_FILTER+2:
case TFE_PP_ADDR_LOG_ADDR_FILTER+4:
case TFE_PP_ADDR_LOG_ADDR_FILTER+6:
{
unsigned int pos = 8 * (ppaddress - TFE_PP_ADDR_LOG_ADDR_FILTER + oddaddress);
DWORD *p = (pos < 32) ? &tfe_hash_mask[0] : &tfe_hash_mask[1];
*p &= ~(0xFF << pos); /* clear out relevant bits */
*p |= GET_PP_8(ppaddress+oddaddress) << pos;
tfe_arch_set_hashfilter(tfe_hash_mask);
}
break;
case TFE_PP_ADDR_MAC_ADDR:
case TFE_PP_ADDR_MAC_ADDR+2:
case TFE_PP_ADDR_MAC_ADDR+4:
/* the MAC address has been changed */
tfe_ia_mac[ppaddress-TFE_PP_ADDR_MAC_ADDR+oddaddress] =
GET_PP_8(ppaddress+oddaddress);
tfe_arch_set_mac(tfe_ia_mac);
break;
}
}
/*
This is called *before* the relevant octets are read
*/
static
void tfe_sideeffects_read_pp(WORD ppaddress)
{
assert((ppaddress & 1) == 0);
switch (ppaddress)
{
case TFE_PP_ADDR_SE_RXEVENT:
/* reading this before all octets of the frame are read
performs an "implied skip" */
{
WORD ret_val = tfe_receive();
/*
RXSTATUS and RXEVENT are the same, except that RXSTATUS buffers
the old value while RXEVENT sets a new value whenever it is called
*/
SET_PP_16(TFE_PP_ADDR_RXSTATUS, ret_val);
SET_PP_16(TFE_PP_ADDR_SE_RXEVENT, ret_val);
}
break;
case TFE_PP_ADDR_SE_BUSST:
break;
case TFE_PP_ADDR_TXCMD:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Read write-only register TFE_PP_ADDR_TXCMD: IGNORED\n");
#endif
break;
case TFE_PP_ADDR_TXLENGTH:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Read write-only register TFE_PP_ADDR_TXLENGTH: IGNORED\n");
#endif
break;
}
}
void tfe_proceed_rx_buffer(int oddaddress) {
/*
According to the CS8900 spec, the handling is the following:
first read H, then L, then H, then L.
Now, we're inside the RX frame, now, we always get L then H, until the end is reached.
even odd
TFE_PP_ADDR_RXSTATUS: - proceed 1)
TFE_PP_ADDR_RXLENGTH: - proceed
TFE_PP_ADDR_RX_FRAMELOC: 2),3) -
TFE_PP_ADDR_RX_FRAMELOC+2: proceed -
TFE_PP_ADDR_RX_FRAMELOC+4: like TFE_PP_ADDR_RX_FRAMELOC+2
1) set status "Inside FRAMELOC" FALSE
2) set status "Inside FRAMELOC" TRUE if it is not already
3) if "Inside FRAMELOC", proceed
*/
static int inside_frameloc;
int proceed = 0;
if (rx_buffer==TFE_PP_ADDR_RX_FRAMELOC+GET_PP_16(TFE_PP_ADDR_RXLENGTH)) {
/* we've read all that is available, go to start again */
rx_buffer = TFE_PP_ADDR_RXSTATUS;
inside_frameloc = 0;
}
else {
switch (rx_buffer) {
case TFE_PP_ADDR_RXSTATUS:
if (oddaddress) {
proceed = 1;
inside_frameloc = 0;
}
break;
case TFE_PP_ADDR_RXLENGTH:
if (oddaddress) {
proceed = 1;
}
break;
case TFE_PP_ADDR_RX_FRAMELOC:
if (oddaddress==0) {
if (inside_frameloc) {
proceed = 1;
}
else {
inside_frameloc = 1;
}
}
break;
default:
proceed = (oddaddress==0) ? 1 : 0;
break;
}
}
if (proceed) {
SET_TFE_16(TFE_ADDR_RXTXDATA, GET_PP_16(rx_buffer));
rx_buffer += 2;
}
}
BYTE REGPARM1 tfe_read(WORD ioaddress)
{
BYTE retval;
assert( tfe );
assert( tfe_packetpage );
assert( ioaddress < 0x10);
switch (ioaddress) {
case TFE_ADDR_TXCMD:
case TFE_ADDR_TXCMD+1:
case TFE_ADDR_TXLENGTH:
case TFE_ADDR_TXLENGTH+1:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Reading write-only TFE register $%02X!\n", ioaddress);
#endif
/* @SRT TODO: Verify with reality */
retval = GET_TFE_8(ioaddress);
break;
case TFE_ADDR_RXTXDATA2:
case TFE_ADDR_RXTXDATA2+1:
case TFE_ADDR_PP_DATA2:
case TFE_ADDR_PP_DATA2+1:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Reading not supported TFE register $%02X!\n", ioaddress);
#endif
/* @SRT TODO */
retval = GET_TFE_8(ioaddress);
break;
case TFE_ADDR_PP_DATA:
case TFE_ADDR_PP_DATA+1:
/* make sure the TFE register have the correct content */
{
WORD ppaddress = tfe_packetpage_ptr & (MAX_PACKETPAGE_ARRAY-1);
/* perform side-effects the read may perform */
tfe_sideeffects_read_pp( ppaddress );
/* [3] make sure the data matches the real value - [1] assumes this! */
SET_TFE_16( TFE_ADDR_PP_DATA, GET_PP_16(ppaddress) );
}
#ifdef TFE_DEBUG_LOAD
if(g_fh) fprintf(g_fh, "reading PP Ptr: $%04X => $%04X.",
tfe_packetpage_ptr, GET_PP_16(tfe_packetpage_ptr) );
#endif
retval = GET_TFE_8(ioaddress);
break;
case TFE_ADDR_INTSTQUEUE:
case TFE_ADDR_INTSTQUEUE+1:
SET_TFE_16( TFE_ADDR_INTSTQUEUE, GET_PP_16(0x0120) );
retval = GET_TFE_8(ioaddress);
break;
case TFE_ADDR_RXTXDATA:
case TFE_ADDR_RXTXDATA+1:
/* we're trying to read a new 16 bit word, get it from the
receive buffer
*/
tfe_proceed_rx_buffer(ioaddress & 0x01);
retval = GET_TFE_8(ioaddress);
break;
default:
retval = GET_TFE_8(ioaddress);
break;
};
#ifdef TFE_DEBUG_LOAD
if(g_fh) fprintf(g_fh, "read [$%02X] => $%02X.", ioaddress, retval);
#endif
return retval;
}
void REGPARM2 tfe_store(WORD ioaddress, BYTE byte)
{
assert( tfe );
assert( tfe_packetpage );
assert( ioaddress < 0x10);
switch (ioaddress)
{
case TFE_ADDR_RXTXDATA:
case TFE_ADDR_RXTXDATA+1:
SET_PP_8(txcollect_buffer, byte);
tfe_sideeffects_write_pp_on_txframe(txcollect_buffer++);
break;
case TFE_ADDR_INTSTQUEUE:
case TFE_ADDR_INTSTQUEUE+1:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Writing read-only TFE register $%02X!\n", ioaddress);
#endif
/* @SRT TODO: Verify with reality */
/* do nothing */
return;
case TFE_ADDR_RXTXDATA2:
case TFE_ADDR_RXTXDATA2+1:
case TFE_ADDR_PP_DATA2:
case TFE_ADDR_PP_DATA2+1:
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh, "WARNING! Writing not supported TFE register $%02X!\n", ioaddress);
#endif
/* do nothing */
return;
case TFE_ADDR_TXCMD:
case TFE_ADDR_TXCMD+1:
SET_TFE_8(ioaddress, byte);
SET_PP_8((ioaddress-TFE_ADDR_TXCMD)+TFE_PP_ADDR_TXCMD, byte); /* perform the mapping to PP+0144 */
tfe_sideeffects_write_pp(TFE_PP_ADDR_TXCMD, ioaddress-TFE_ADDR_TXCMD);
break;
case TFE_ADDR_TXLENGTH:
case TFE_ADDR_TXLENGTH+1:
SET_TFE_8(ioaddress, byte);
SET_PP_8((ioaddress-TFE_ADDR_TXLENGTH)+TFE_PP_ADDR_TXLENGTH, byte ); /* perform the mapping to PP+0144 */
tfe_sideeffects_write_pp(TFE_PP_ADDR_TXLENGTH, ioaddress-TFE_ADDR_TXLENGTH);
break;
/*
#define TFE_ADDR_TXCMD 0x04 * -W Maps to PP+0144 *
#define TFE_ADDR_TXLENGTH 0x06 * -W Maps to PP+0146 *
#define TFE_ADDR_INTSTQUEUE 0x08 * R- Interrupt status queue, maps to PP + 0120 *
*/
case TFE_ADDR_PP_DATA:
case TFE_ADDR_PP_DATA+1:
/* [2] make sure the data matches the real value - [1] assumes this! */
SET_TFE_16(TFE_ADDR_PP_DATA, GET_PP_16(tfe_packetpage_ptr));
/* FALL THROUGH */
default:
SET_TFE_8(ioaddress, byte);
}
#ifdef TFE_DEBUG_STORE
if(g_fh) fprintf(g_fh, "store [$%02X] <= $%02X.", ioaddress, (int)byte);
#endif
/* now check if we have to do any side-effects */
switch (ioaddress)
{
case TFE_ADDR_PP_PTR:
case TFE_ADDR_PP_PTR+1:
tfe_packetpage_ptr = GET_TFE_16(TFE_ADDR_PP_PTR);
#ifdef TFE_DEBUG_STORE
if(g_fh) fprintf(g_fh, "set PP Ptr to $%04X.", tfe_packetpage_ptr);
#endif
if ((tfe_packetpage_ptr & 1) != 0) {
#ifdef TFE_DEBUG_WARN
if(g_fh) fprintf(g_fh,
"WARNING! PacketPage register set to odd address $%04X (not allowed!)\n",
tfe_packetpage_ptr );
#endif /* #ifdef TFE_DEBUG_WARN */
/* "correct" the address to the next lower address
REMARK: I don't know how a real cs8900a will behave in this case,
since it is not allowed. Nevertheless, this "correction"
prevents assert()s to fail.
*/
tfe_packetpage_ptr -= 1;
}
/*
[1] The TFE_ADDR_PP_DATA does not need to be modified here,
since it will be modified just before a read or store operation
is to be performed.
See [2] and [3]
*/
break;
case TFE_ADDR_PP_DATA:
case TFE_ADDR_PP_DATA+1:
{
WORD ppaddress = tfe_packetpage_ptr & (MAX_PACKETPAGE_ARRAY-1);
#ifdef TFE_DEBUG_STORE
if(g_fh) fprintf(g_fh, "before writing to PP Ptr: $%04X <= $%04X.",
ppaddress, GET_PP_16(ppaddress) );
#endif
{
register WORD tmpIoAddr = ioaddress & ~1; /* word-align the address */
SET_PP_16(ppaddress, GET_TFE_16(tmpIoAddr));
}
/* perform side-effects the write may perform */
/* the addresses are always aligned on the whole 16-bit-word */
tfe_sideeffects_write_pp(ppaddress, ioaddress-TFE_ADDR_PP_DATA);
#ifdef TFE_DEBUG_STORE
if(g_fh) fprintf(g_fh, "after writing to PP Ptr: $%04X <= $%04X.",
ppaddress, GET_PP_16(ppaddress) );
#endif
}
break;
}
TFE_DEBUG_OUTPUT_REG();
}
static
int set_tfe_disabled(void *v, void *param)
{
/* dummy function since we don't want "disabled" to be stored on disk */
return 0;
}
static
int set_tfe_enabled(void *v, void *param)
{
if (!tfe_cannot_use) {
if (!(int)v) {
/* TFE should be deactived */
if (tfe_enabled) {
tfe_enabled = 0;
/* RGJ Commented out forAppleWin */
//c64export_remove(&export_res);
if (tfe_deactivate() < 0) {
return -1;
}
}
return 0;
} else {
if (!tfe_enabled) {
/* RGJ Commented out forAppleWin */
//if (c64export_query(&export_res) < 0)
// return -1;
tfe_enabled = 1;
if (tfe_activate() < 0) {
return -1;
}
/* RGJ Commented out forAppleWin */
//if (c64export_add(&export_res) < 0)
// return -1;
}
return 0;
}
}
return 0;
}
static
int set_tfe_interface(void *v, void *param)
{
const char *name = (const char *)v;
if (tfe_interface != NULL && name != NULL
&& strcmp(name, tfe_interface) == 0)
return 0;
util_string_set(&tfe_interface, name);
if (tfe_enabled) {
/* ethernet is enabled, make sure that the new name is
taken account of
*/
if (tfe_deactivate() < 0) {
return -1;
}
if (tfe_activate() < 0) {
return -1;
}
/* virtually reset the LAN chip */
if (tfe) {
tfe_reset();
}
}
return 0;
}
/* ------------------------------------------------------------------------- */
/* commandline support functions */
//#ifdef HAS_TRANSLATION
//static const cmdline_option_t cmdline_options[] =
//{
// { "-tfe", SET_RESOURCE, 0, NULL, NULL, "ETHERNET_ACTIVE", (resource_value_t)1,
// 0, IDCLS_ENABLE_TFE },
// { "+tfe", SET_RESOURCE, 0, NULL, NULL, "ETHERNET_ACTIVE", (resource_value_t)0,
// 0, IDCLS_DISABLE_TFE },
// { NULL }
//};
//#else
//static const cmdline_option_t cmdline_options[] =
//{
// { "-tfe", SET_RESOURCE, 0, NULL, NULL, "ETHERNET_ACTIVE", (resource_value_t)1,
// NULL, N_("Enable the TFE (\"the final ethernet\") unit") },
// { "+tfe", SET_RESOURCE, 0, NULL, NULL, "ETHERNET_ACTIVE", (resource_value_t)0,
// NULL, N_("Disable the TFE (\"the final ethernet\") unit") },
// { NULL }
//};
//#endif
//int tfe_cmdline_options_init(void)
//{
// return cmdline_register_options(cmdline_options);
//}
/* ------------------------------------------------------------------------- */
/* snapshot support functions */
#if 0
static char snap_module_name[] = "TFE1764";
#define SNAP_MAJOR 0
#define SNAP_MINOR 0
int tfe_read_snapshot_module(struct snapshot_s *s)
{
/* @SRT TODO: not yet implemented */
return -1;
}
int tfe_write_snapshot_module(struct snapshot_s *s)
{
/* @SRT TODO: not yet implemented */
return -1;
}
#endif /* #if 0 */
/* ------------------------------------------------------------------------- */
/* functions for selecting and querying available NICs */
int tfe_enumadapter_open(void)
{
if (!tfe_arch_enumadapter_open()) {
tfe_cannot_use = 1;
return 0;
}
return 1;
}
int tfe_enumadapter(char **ppname, char **ppdescription)
{
return tfe_arch_enumadapter(ppname, ppdescription);
}
int tfe_enumadapter_close(void)
{
return tfe_arch_enumadapter_close();
}
// Go via TfeIoCxxx() instead of directly calling IO_Null() to include this specific (slot-3) _DEBUG check
static BYTE __stdcall TfeIoCxxx (WORD programcounter, WORD address, BYTE write, BYTE value, ULONG nCycles)
{
#ifdef _DEBUG
if (!IS_APPLE2)
{
// Derived from UTAIIe:5-28
//
// INTCXROM SLOTC3ROM TFE floating bus?
// 0 0 N (internal ROM)
// 0 1 Y
// 1 0 N (internal ROM)
// 1 1 N (internal ROM)
if (! (!MemCheckINTCXROM() && MemCheckSLOTC3ROM()) )
{
_ASSERT(0); // Card ROM disabled, so IO_Cxxx() returns the internal ROM
}
}
#endif
return IO_Null(programcounter, address, write, value,nCycles);
}
static BYTE __stdcall TfeIo (WORD programcounter, WORD address, BYTE write, BYTE value, ULONG nCycles)
{
BYTE ret = 0;
if (write) {
if (tfe_enabled)
tfe_store((WORD)(address & 0x0f), value);
}
else {
if (tfe_enabled)
ret = tfe_read((WORD)(address & 0x0f));
}
return ret;
}
void get_disabled_state(int * param)
{
*param = tfe_cannot_use;
}
int update_tfe_interface(void *v, void *param)
{
return set_tfe_interface(v,param);
}
void * get_tfe_interface(void)
{
void *v;
v = tfe_interface;
return v;
}
void get_tfe_enabled(int * param)
{
*param = tfe_enabled;
}
//#endif /* #ifdef HAVE_TFE */