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v811_spc009/external/libpcap/msdos/pktdrvr.c

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/*
* File.........: pktdrvr.c
*
* Responsible..: Gisle Vanem, giva@bgnett.no
*
* Created......: 26.Sept 1995
*
* Description..: Packet-driver interface for 16/32-bit C :
* Borland C/C++ 3.0+ small/large model
* Watcom C/C++ 11+, DOS4GW flat model
* Metaware HighC 3.1+ and PharLap 386|DosX
* GNU C/C++ 2.7+ and djgpp 2.x extender
*
* References...: PC/TCP Packet driver Specification. rev 1.09
* FTP Software Inc.
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <dos.h>
#include "pcap-dos.h"
#include "pcap-int.h"
#include "msdos/pktdrvr.h"
#if (DOSX)
#define NUM_RX_BUF 32 /* # of buffers in Rx FIFO queue */
#else
#define NUM_RX_BUF 10
#endif
#define DIM(x) (sizeof((x)) / sizeof(x[0]))
#define PUTS(s) do { \
if (!pktInfo.quiet) \
pktInfo.error ? \
printf ("%s: %s\n", s, pktInfo.error) : \
printf ("%s\n", pktInfo.error = s); \
} while (0)
#if defined(__HIGHC__)
extern UINT _mwenv;
#elif defined(__DJGPP__)
#include <stddef.h>
#include <dpmi.h>
#include <go32.h>
#include <pc.h>
#include <sys/farptr.h>
#elif defined(__WATCOMC__)
#include <i86.h>
#include <stddef.h>
extern char _Extender;
#else
extern void far PktReceiver (void);
#endif
#if (DOSX & (DJGPP|DOS4GW))
#include <sys/pack_on.h>
struct DPMI_regs {
DWORD r_di;
DWORD r_si;
DWORD r_bp;
DWORD reserved;
DWORD r_bx;
DWORD r_dx;
DWORD r_cx;
DWORD r_ax;
WORD r_flags;
WORD r_es, r_ds, r_fs, r_gs;
WORD r_ip, r_cs, r_sp, r_ss;
};
/* Data located in a real-mode segment. This becomes far at runtime
*/
typedef struct { /* must match data/code in pkt_rx1.s */
WORD _rxOutOfs;
WORD _rxInOfs;
DWORD _pktDrop;
BYTE _pktTemp [20];
TX_ELEMENT _pktTxBuf[1];
RX_ELEMENT _pktRxBuf[NUM_RX_BUF];
WORD _dummy[2]; /* screenSeg,newInOffset */
BYTE _fanChars[4];
WORD _fanIndex;
BYTE _PktReceiver[15]; /* starts on a paragraph (16byte) */
} PktRealStub;
#include <sys/pack_off.h>
static BYTE real_stub_array [] = {
#include "pkt_stub.inc" /* generated opcode array */
};
#define rxOutOfs offsetof (PktRealStub,_rxOutOfs)
#define rxInOfs offsetof (PktRealStub,_rxInOfs)
#define PktReceiver offsetof (PktRealStub,_PktReceiver [para_skip])
#define pktDrop offsetof (PktRealStub,_pktDrop)
#define pktTemp offsetof (PktRealStub,_pktTemp)
#define pktTxBuf offsetof (PktRealStub,_pktTxBuf)
#define FIRST_RX_BUF offsetof (PktRealStub,_pktRxBuf [0])
#define LAST_RX_BUF offsetof (PktRealStub,_pktRxBuf [NUM_RX_BUF-1])
#else
extern WORD rxOutOfs; /* offsets into pktRxBuf FIFO queue */
extern WORD rxInOfs;
extern DWORD pktDrop; /* # packets dropped in PktReceiver() */
extern BYTE pktRxEnd; /* marks the end of r-mode code/data */
extern RX_ELEMENT pktRxBuf [NUM_RX_BUF]; /* PktDrvr Rx buffers */
extern TX_ELEMENT pktTxBuf; /* PktDrvr Tx buffer */
extern char pktTemp[20]; /* PktDrvr temp area */
#define FIRST_RX_BUF (WORD) &pktRxBuf [0]
#define LAST_RX_BUF (WORD) &pktRxBuf [NUM_RX_BUF-1]
#endif
#ifdef __BORLANDC__ /* Use Borland's inline functions */
#define memcpy __memcpy__
#define memcmp __memcmp__
#define memset __memset__
#endif
#if (DOSX & PHARLAP)
extern void PktReceiver (void); /* in pkt_rx0.asm */
static int RealCopy (ULONG, ULONG, REALPTR*, FARPTR*, USHORT*);
#undef FP_SEG
#undef FP_OFF
#define FP_OFF(x) ((WORD)(x))
#define FP_SEG(x) ((WORD)(realBase >> 16))
#define DOS_ADDR(s,o) (((DWORD)(s) << 16) + (WORD)(o))
#define r_ax eax
#define r_bx ebx
#define r_dx edx
#define r_cx ecx
#define r_si esi
#define r_di edi
#define r_ds ds
#define r_es es
LOCAL FARPTR protBase;
LOCAL REALPTR realBase;
LOCAL WORD realSeg; /* DOS para-address of allocated area */
LOCAL SWI_REGS reg;
static WORD _far *rxOutOfsFp, *rxInOfsFp;
#elif (DOSX & DJGPP)
static _go32_dpmi_seginfo rm_mem;
static __dpmi_regs reg;
static DWORD realBase;
static int para_skip = 0;
#define DOS_ADDR(s,o) (((WORD)(s) << 4) + (o))
#define r_ax x.ax
#define r_bx x.bx
#define r_dx x.dx
#define r_cx x.cx
#define r_si x.si
#define r_di x.di
#define r_ds x.ds
#define r_es x.es
#elif (DOSX & DOS4GW)
LOCAL struct DPMI_regs reg;
LOCAL WORD rm_base_seg, rm_base_sel;
LOCAL DWORD realBase;
LOCAL int para_skip = 0;
LOCAL DWORD dpmi_get_real_vector (int intr);
LOCAL WORD dpmi_real_malloc (int size, WORD *selector);
LOCAL void dpmi_real_free (WORD selector);
#define DOS_ADDR(s,o) (((DWORD)(s) << 4) + (WORD)(o))
#else /* real-mode Borland etc. */
static struct {
WORD r_ax, r_bx, r_cx, r_dx, r_bp;
WORD r_si, r_di, r_ds, r_es, r_flags;
} reg;
#endif
#ifdef __HIGHC__
#pragma Alias (pktDrop, "_pktDrop")
#pragma Alias (pktRxBuf, "_pktRxBuf")
#pragma Alias (pktTxBuf, "_pktTxBuf")
#pragma Alias (pktTemp, "_pktTemp")
#pragma Alias (rxOutOfs, "_rxOutOfs")
#pragma Alias (rxInOfs, "_rxInOfs")
#pragma Alias (pktRxEnd, "_pktRxEnd")
#pragma Alias (PktReceiver,"_PktReceiver")
#endif
PUBLIC PKT_STAT pktStat; /* statistics for packets */
PUBLIC PKT_INFO pktInfo; /* packet-driver information */
PUBLIC PKT_RX_MODE receiveMode = PDRX_DIRECT;
PUBLIC ETHER myAddress = { 0, 0, 0, 0, 0, 0 };
PUBLIC ETHER ethBroadcast = { 255,255,255,255,255,255 };
LOCAL struct { /* internal statistics */
DWORD tooSmall; /* size < ETH_MIN */
DWORD tooLarge; /* size > ETH_MAX */
DWORD badSync; /* count_1 != count_2 */
DWORD wrongHandle; /* upcall to wrong handle */
} intStat;
/***************************************************************************/
PUBLIC const char *PktGetErrorStr (int errNum)
{
static const char *errStr[] = {
"",
"Invalid handle number",
"No interfaces of specified class found",
"No interfaces of specified type found",
"No interfaces of specified number found",
"Bad packet type specified",
"Interface does not support multicast",
"Packet driver cannot terminate",
"Invalid receiver mode specified",
"Insufficient memory space",
"Type previously accessed, and not released",
"Command out of range, or not implemented",
"Cannot send packet (usually hardware error)",
"Cannot change hardware address ( > 1 handle open)",
"Hardware address has bad length or format",
"Cannot reset interface (more than 1 handle open)",
"Bad Check-sum",
"Bad size",
"Bad sync" ,
"Source hit"
};
if (errNum < 0 || errNum >= DIM(errStr))
return ("Unknown driver error.");
return (errStr [errNum]);
}
/**************************************************************************/
PUBLIC const char *PktGetClassName (WORD class)
{
switch (class)
{
case PD_ETHER:
return ("DIX-Ether");
case PD_PRONET10:
return ("ProNET-10");
case PD_IEEE8025:
return ("IEEE 802.5");
case PD_OMNINET:
return ("OmniNet");
case PD_APPLETALK:
return ("AppleTalk");
case PD_SLIP:
return ("SLIP");
case PD_STARTLAN:
return ("StartLAN");
case PD_ARCNET:
return ("ArcNet");
case PD_AX25:
return ("AX.25");
case PD_KISS:
return ("KISS");
case PD_IEEE8023_2:
return ("IEEE 802.3 w/802.2 hdr");
case PD_FDDI8022:
return ("FDDI w/802.2 hdr");
case PD_X25:
return ("X.25");
case PD_LANstar:
return ("LANstar");
case PD_PPP:
return ("PPP");
default:
return ("unknown");
}
}
/**************************************************************************/
PUBLIC char const *PktRXmodeStr (PKT_RX_MODE mode)
{
static const char *modeStr [] = {
"Receiver turned off",
"Receive only directly addressed packets",
"Receive direct & broadcast packets",
"Receive direct,broadcast and limited multicast packets",
"Receive direct,broadcast and all multicast packets",
"Receive all packets (promiscuouos mode)"
};
if (mode > DIM(modeStr))
return ("??");
return (modeStr [mode-1]);
}
/**************************************************************************/
LOCAL __inline BOOL PktInterrupt (void)
{
BOOL okay;
#if (DOSX & PHARLAP)
_dx_real_int ((UINT)pktInfo.intr, &reg);
okay = ((reg.flags & 1) == 0); /* OK if carry clear */
#elif (DOSX & DJGPP)
__dpmi_int ((int)pktInfo.intr, &reg);
okay = ((reg.x.flags & 1) == 0);
#elif (DOSX & DOS4GW)
union REGS r;
struct SREGS s;
memset (&r, 0, sizeof(r));
segread (&s);
r.w.ax = 0x300;
r.x.ebx = pktInfo.intr;
r.w.cx = 0;
s.es = FP_SEG (&reg);
r.x.edi = FP_OFF (&reg);
reg.r_flags = 0;
reg.r_ss = reg.r_sp = 0; /* DPMI host provides stack */
int386x (0x31, &r, &r, &s);
okay = (!r.w.cflag);
#else
reg.r_flags = 0;
intr (pktInfo.intr, (struct REGPACK*)&reg);
okay = ((reg.r_flags & 1) == 0);
#endif
if (okay)
pktInfo.error = NULL;
else pktInfo.error = PktGetErrorStr (reg.r_dx >> 8);
return (okay);
}
/**************************************************************************/
/*
* Search for packet driver at interrupt 60h through 80h. If ASCIIZ
* string "PKT DRVR" found at offset 3 in the interrupt handler, return
* interrupt number, else return zero in pktInfo.intr
*/
PUBLIC BOOL PktSearchDriver (void)
{
BYTE intr = 0x20;
BOOL found = FALSE;
while (!found && intr < 0xFF)
{
static char str[12]; /* 3 + strlen("PKT DRVR") */
static char pktStr[9] = "PKT DRVR"; /* ASCIIZ string at ofs 3 */
DWORD rp; /* in interrupt routine */
#if (DOSX & PHARLAP)
_dx_rmiv_get (intr, &rp);
ReadRealMem (&str, (REALPTR)rp, sizeof(str));
#elif (DOSX & DJGPP)
__dpmi_raddr realAdr;
__dpmi_get_real_mode_interrupt_vector (intr, &realAdr);
rp = (realAdr.segment << 4) + realAdr.offset16;
dosmemget (rp, sizeof(str), &str);
#elif (DOSX & DOS4GW)
rp = dpmi_get_real_vector (intr);
memcpy (&str, (void*)rp, sizeof(str));
#else
_fmemcpy (&str, getvect(intr), sizeof(str));
#endif
found = memcmp (&str[3],&pktStr,sizeof(pktStr)) == 0;
intr++;
}
pktInfo.intr = (found ? intr-1 : 0);
return (found);
}
/**************************************************************************/
static BOOL PktSetAccess (void)
{
reg.r_ax = 0x0200 + pktInfo.class;
reg.r_bx = 0xFFFF;
reg.r_dx = 0;
reg.r_cx = 0;
#if (DOSX & PHARLAP)
reg.ds = 0;
reg.esi = 0;
reg.es = RP_SEG (realBase);
reg.edi = (WORD) &PktReceiver;
#elif (DOSX & DJGPP)
reg.x.ds = 0;
reg.x.si = 0;
reg.x.es = rm_mem.rm_segment;
reg.x.di = PktReceiver;
#elif (DOSX & DOS4GW)
reg.r_ds = 0;
reg.r_si = 0;
reg.r_es = rm_base_seg;
reg.r_di = PktReceiver;
#else
reg.r_ds = 0;
reg.r_si = 0;
reg.r_es = FP_SEG (&PktReceiver);
reg.r_di = FP_OFF (&PktReceiver);
#endif
if (!PktInterrupt())
return (FALSE);
pktInfo.handle = reg.r_ax;
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktReleaseHandle (WORD handle)
{
reg.r_ax = 0x0300;
reg.r_bx = handle;
return PktInterrupt();
}
/**************************************************************************/
PUBLIC BOOL PktTransmit (const void *eth, int len)
{
if (len > ETH_MTU)
return (FALSE);
reg.r_ax = 0x0400; /* Function 4, send pkt */
reg.r_cx = len; /* total size of frame */
#if (DOSX & DJGPP)
dosmemput (eth, len, realBase+pktTxBuf);
reg.x.ds = rm_mem.rm_segment; /* DOS data segment and */
reg.x.si = pktTxBuf; /* DOS offset to buffer */
#elif (DOSX & DOS4GW)
memcpy ((void*)(realBase+pktTxBuf), eth, len);
reg.r_ds = rm_base_seg;
reg.r_si = pktTxBuf;
#elif (DOSX & PHARLAP)
memcpy (&pktTxBuf, eth, len);
reg.r_ds = FP_SEG (&pktTxBuf);
reg.r_si = FP_OFF (&pktTxBuf);
#else
reg.r_ds = FP_SEG (eth);
reg.r_si = FP_OFF (eth);
#endif
return PktInterrupt();
}
/**************************************************************************/
#if (DOSX & (DJGPP|DOS4GW))
LOCAL __inline BOOL CheckElement (RX_ELEMENT *rx)
#else
LOCAL __inline BOOL CheckElement (RX_ELEMENT _far *rx)
#endif
{
WORD count_1, count_2;
/*
* We got an upcall to the same RMCB with wrong handle.
* This can happen if we failed to release handle at program exit
*/
if (rx->handle != pktInfo.handle)
{
pktInfo.error = "Wrong handle";
intStat.wrongHandle++;
PktReleaseHandle (rx->handle);
return (FALSE);
}
count_1 = rx->firstCount;
count_2 = rx->secondCount;
if (count_1 != count_2)
{
pktInfo.error = "Bad sync";
intStat.badSync++;
return (FALSE);
}
if (count_1 > ETH_MAX)
{
pktInfo.error = "Large esize";
intStat.tooLarge++;
return (FALSE);
}
#if 0
if (count_1 < ETH_MIN)
{
pktInfo.error = "Small esize";
intStat.tooSmall++;
return (FALSE);
}
#endif
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktTerminHandle (WORD handle)
{
reg.r_ax = 0x0500;
reg.r_bx = handle;
return PktInterrupt();
}
/**************************************************************************/
PUBLIC BOOL PktResetInterface (WORD handle)
{
reg.r_ax = 0x0700;
reg.r_bx = handle;
return PktInterrupt();
}
/**************************************************************************/
PUBLIC BOOL PktSetReceiverMode (PKT_RX_MODE mode)
{
if (pktInfo.class == PD_SLIP || pktInfo.class == PD_PPP)
return (TRUE);
reg.r_ax = 0x1400;
reg.r_bx = pktInfo.handle;
reg.r_cx = (WORD)mode;
if (!PktInterrupt())
return (FALSE);
receiveMode = mode;
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktGetReceiverMode (PKT_RX_MODE *mode)
{
reg.r_ax = 0x1500;
reg.r_bx = pktInfo.handle;
if (!PktInterrupt())
return (FALSE);
*mode = reg.r_ax;
return (TRUE);
}
/**************************************************************************/
static PKT_STAT initialStat; /* statistics at startup */
static BOOL resetStat = FALSE; /* statistics reset ? */
PUBLIC BOOL PktGetStatistics (WORD handle)
{
reg.r_ax = 0x1800;
reg.r_bx = handle;
if (!PktInterrupt())
return (FALSE);
#if (DOSX & PHARLAP)
ReadRealMem (&pktStat, DOS_ADDR(reg.ds,reg.esi), sizeof(pktStat));
#elif (DOSX & DJGPP)
dosmemget (DOS_ADDR(reg.x.ds,reg.x.si), sizeof(pktStat), &pktStat);
#elif (DOSX & DOS4GW)
memcpy (&pktStat, (void*)DOS_ADDR(reg.r_ds,reg.r_si), sizeof(pktStat));
#else
_fmemcpy (&pktStat, MK_FP(reg.r_ds,reg.r_si), sizeof(pktStat));
#endif
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktSessStatistics (WORD handle)
{
if (!PktGetStatistics(pktInfo.handle))
return (FALSE);
if (resetStat)
{
pktStat.inPackets -= initialStat.inPackets;
pktStat.outPackets -= initialStat.outPackets;
pktStat.inBytes -= initialStat.inBytes;
pktStat.outBytes -= initialStat.outBytes;
pktStat.inErrors -= initialStat.inErrors;
pktStat.outErrors -= initialStat.outErrors;
pktStat.outErrors -= initialStat.outErrors;
pktStat.lost -= initialStat.lost;
}
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktResetStatistics (WORD handle)
{
if (!PktGetStatistics(pktInfo.handle))
return (FALSE);
memcpy (&initialStat, &pktStat, sizeof(initialStat));
resetStat = TRUE;
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktGetAddress (ETHER *addr)
{
reg.r_ax = 0x0600;
reg.r_bx = pktInfo.handle;
reg.r_cx = sizeof (*addr);
#if (DOSX & DJGPP)
reg.x.es = rm_mem.rm_segment;
reg.x.di = pktTemp;
#elif (DOSX & DOS4GW)
reg.r_es = rm_base_seg;
reg.r_di = pktTemp;
#else
reg.r_es = FP_SEG (&pktTemp);
reg.r_di = FP_OFF (&pktTemp); /* ES:DI = address for result */
#endif
if (!PktInterrupt())
return (FALSE);
#if (DOSX & PHARLAP)
ReadRealMem (addr, realBase + (WORD)&pktTemp, sizeof(*addr));
#elif (DOSX & DJGPP)
dosmemget (realBase+pktTemp, sizeof(*addr), addr);
#elif (DOSX & DOS4GW)
memcpy (addr, (void*)(realBase+pktTemp), sizeof(*addr));
#else
memcpy ((void*)addr, &pktTemp, sizeof(*addr));
#endif
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktSetAddress (const ETHER *addr)
{
/* copy addr to real-mode scrath area */
#if (DOSX & PHARLAP)
WriteRealMem (realBase + (WORD)&pktTemp, (void*)addr, sizeof(*addr));
#elif (DOSX & DJGPP)
dosmemput (addr, sizeof(*addr), realBase+pktTemp);
#elif (DOSX & DOS4GW)
memcpy ((void*)(realBase+pktTemp), addr, sizeof(*addr));
#else
memcpy (&pktTemp, (void*)addr, sizeof(*addr));
#endif
reg.r_ax = 0x1900;
reg.r_cx = sizeof (*addr); /* address length */
#if (DOSX & DJGPP)
reg.x.es = rm_mem.rm_segment; /* DOS offset to param */
reg.x.di = pktTemp; /* DOS segment to param */
#elif (DOSX & DOS4GW)
reg.r_es = rm_base_seg;
reg.r_di = pktTemp;
#else
reg.r_es = FP_SEG (&pktTemp);
reg.r_di = FP_OFF (&pktTemp);
#endif
return PktInterrupt();
}
/**************************************************************************/
PUBLIC BOOL PktGetDriverInfo (void)
{
pktInfo.majVer = 0;
pktInfo.minVer = 0;
memset (&pktInfo.name, 0, sizeof(pktInfo.name));
reg.r_ax = 0x01FF;
reg.r_bx = 0;
if (!PktInterrupt())
return (FALSE);
pktInfo.number = reg.r_cx & 0xFF;
pktInfo.class = reg.r_cx >> 8;
#if 0
pktInfo.minVer = reg.r_bx % 10;
pktInfo.majVer = reg.r_bx / 10;
#else
pktInfo.majVer = reg.r_bx; // !!
#endif
pktInfo.funcs = reg.r_ax & 0xFF;
pktInfo.type = reg.r_dx & 0xFF;
#if (DOSX & PHARLAP)
ReadRealMem (&pktInfo.name, DOS_ADDR(reg.ds,reg.esi), sizeof(pktInfo.name));
#elif (DOSX & DJGPP)
dosmemget (DOS_ADDR(reg.x.ds,reg.x.si), sizeof(pktInfo.name), &pktInfo.name);
#elif (DOSX & DOS4GW)
memcpy (&pktInfo.name, (void*)DOS_ADDR(reg.r_ds,reg.r_si), sizeof(pktInfo.name));
#else
_fmemcpy (&pktInfo.name, MK_FP(reg.r_ds,reg.r_si), sizeof(pktInfo.name));
#endif
return (TRUE);
}
/**************************************************************************/
PUBLIC BOOL PktGetDriverParam (void)
{
reg.r_ax = 0x0A00;
if (!PktInterrupt())
return (FALSE);
#if (DOSX & PHARLAP)
ReadRealMem (&pktInfo.majVer, DOS_ADDR(reg.es,reg.edi), PKT_PARAM_SIZE);
#elif (DOSX & DJGPP)
dosmemget (DOS_ADDR(reg.x.es,reg.x.di), PKT_PARAM_SIZE, &pktInfo.majVer);
#elif (DOSX & DOS4GW)
memcpy (&pktInfo.majVer, (void*)DOS_ADDR(reg.r_es,reg.r_di), PKT_PARAM_SIZE);
#else
_fmemcpy (&pktInfo.majVer, MK_FP(reg.r_es,reg.r_di), PKT_PARAM_SIZE);
#endif
return (TRUE);
}
/**************************************************************************/
#if (DOSX & PHARLAP)
PUBLIC int PktReceive (BYTE *buf, int max)
{
WORD inOfs = *rxInOfsFp;
WORD outOfs = *rxOutOfsFp;
if (outOfs != inOfs)
{
RX_ELEMENT _far *head = (RX_ELEMENT _far*)(protBase+outOfs);
int size, len = max;
if (CheckElement(head))
{
size = min (head->firstCount, sizeof(RX_ELEMENT));
len = min (size, max);
_fmemcpy (buf, &head->destin, len);
}
else
size = -1;
outOfs += sizeof (RX_ELEMENT);
if (outOfs > LAST_RX_BUF)
outOfs = FIRST_RX_BUF;
*rxOutOfsFp = outOfs;
return (size);
}
return (0);
}
PUBLIC void PktQueueBusy (BOOL busy)
{
*rxOutOfsFp = busy ? (*rxInOfsFp + sizeof(RX_ELEMENT)) : *rxInOfsFp;
if (*rxOutOfsFp > LAST_RX_BUF)
*rxOutOfsFp = FIRST_RX_BUF;
*(DWORD _far*)(protBase + (WORD)&pktDrop) = 0;
}
PUBLIC WORD PktBuffersUsed (void)
{
WORD inOfs = *rxInOfsFp;
WORD outOfs = *rxOutOfsFp;
if (inOfs >= outOfs)
return (inOfs - outOfs) / sizeof(RX_ELEMENT);
return (NUM_RX_BUF - (outOfs - inOfs) / sizeof(RX_ELEMENT));
}
PUBLIC DWORD PktRxDropped (void)
{
return (*(DWORD _far*)(protBase + (WORD)&pktDrop));
}
#elif (DOSX & DJGPP)
PUBLIC int PktReceive (BYTE *buf, int max)
{
WORD ofs = _farpeekw (_dos_ds, realBase+rxOutOfs);
if (ofs != _farpeekw (_dos_ds, realBase+rxInOfs))
{
RX_ELEMENT head;
int size, len = max;
head.firstCount = _farpeekw (_dos_ds, realBase+ofs);
head.secondCount = _farpeekw (_dos_ds, realBase+ofs+2);
head.handle = _farpeekw (_dos_ds, realBase+ofs+4);
if (CheckElement(&head))
{
size = min (head.firstCount, sizeof(RX_ELEMENT));
len = min (size, max);
dosmemget (realBase+ofs+6, len, buf);
}
else
size = -1;
ofs += sizeof (RX_ELEMENT);
if (ofs > LAST_RX_BUF)
_farpokew (_dos_ds, realBase+rxOutOfs, FIRST_RX_BUF);
else _farpokew (_dos_ds, realBase+rxOutOfs, ofs);
return (size);
}
return (0);
}
PUBLIC void PktQueueBusy (BOOL busy)
{
WORD ofs;
disable();
ofs = _farpeekw (_dos_ds, realBase+rxInOfs);
if (busy)
ofs += sizeof (RX_ELEMENT);
if (ofs > LAST_RX_BUF)
_farpokew (_dos_ds, realBase+rxOutOfs, FIRST_RX_BUF);
else _farpokew (_dos_ds, realBase+rxOutOfs, ofs);
_farpokel (_dos_ds, realBase+pktDrop, 0UL);
enable();
}
PUBLIC WORD PktBuffersUsed (void)
{
WORD inOfs, outOfs;
disable();
inOfs = _farpeekw (_dos_ds, realBase+rxInOfs);
outOfs = _farpeekw (_dos_ds, realBase+rxOutOfs);
enable();
if (inOfs >= outOfs)
return (inOfs - outOfs) / sizeof(RX_ELEMENT);
return (NUM_RX_BUF - (outOfs - inOfs) / sizeof(RX_ELEMENT));
}
PUBLIC DWORD PktRxDropped (void)
{
return _farpeekl (_dos_ds, realBase+pktDrop);
}
#elif (DOSX & DOS4GW)
PUBLIC int PktReceive (BYTE *buf, int max)
{
WORD ofs = *(WORD*) (realBase+rxOutOfs);
if (ofs != *(WORD*) (realBase+rxInOfs))
{
RX_ELEMENT head;
int size, len = max;
head.firstCount = *(WORD*) (realBase+ofs);
head.secondCount = *(WORD*) (realBase+ofs+2);
head.handle = *(WORD*) (realBase+ofs+4);
if (CheckElement(&head))
{
size = min (head.firstCount, sizeof(RX_ELEMENT));
len = min (size, max);
memcpy (buf, (const void*)(realBase+ofs+6), len);
}
else
size = -1;
ofs += sizeof (RX_ELEMENT);
if (ofs > LAST_RX_BUF)
*(WORD*) (realBase+rxOutOfs) = FIRST_RX_BUF;
else *(WORD*) (realBase+rxOutOfs) = ofs;
return (size);
}
return (0);
}
PUBLIC void PktQueueBusy (BOOL busy)
{
WORD ofs;
_disable();
ofs = *(WORD*) (realBase+rxInOfs);
if (busy)
ofs += sizeof (RX_ELEMENT);
if (ofs > LAST_RX_BUF)
*(WORD*) (realBase+rxOutOfs) = FIRST_RX_BUF;
else *(WORD*) (realBase+rxOutOfs) = ofs;
*(DWORD*) (realBase+pktDrop) = 0UL;
_enable();
}
PUBLIC WORD PktBuffersUsed (void)
{
WORD inOfs, outOfs;
_disable();
inOfs = *(WORD*) (realBase+rxInOfs);
outOfs = *(WORD*) (realBase+rxOutOfs);
_enable();
if (inOfs >= outOfs)
return (inOfs - outOfs) / sizeof(RX_ELEMENT);
return (NUM_RX_BUF - (outOfs - inOfs) / sizeof(RX_ELEMENT));
}
PUBLIC DWORD PktRxDropped (void)
{
return *(DWORD*) (realBase+pktDrop);
}
#else /* real-mode small/large model */
PUBLIC int PktReceive (BYTE *buf, int max)
{
if (rxOutOfs != rxInOfs)
{
RX_ELEMENT far *head = (RX_ELEMENT far*) MK_FP (_DS,rxOutOfs);
int size, len = max;
if (CheckElement(head))
{
size = min (head->firstCount, sizeof(RX_ELEMENT));
len = min (size, max);
_fmemcpy (buf, &head->destin, len);
}
else
size = -1;
rxOutOfs += sizeof (RX_ELEMENT);
if (rxOutOfs > LAST_RX_BUF)
rxOutOfs = FIRST_RX_BUF;
return (size);
}
return (0);
}
PUBLIC void PktQueueBusy (BOOL busy)
{
rxOutOfs = busy ? (rxInOfs + sizeof(RX_ELEMENT)) : rxInOfs;
if (rxOutOfs > LAST_RX_BUF)
rxOutOfs = FIRST_RX_BUF;
pktDrop = 0L;
}
PUBLIC WORD PktBuffersUsed (void)
{
WORD inOfs = rxInOfs;
WORD outOfs = rxOutOfs;
if (inOfs >= outOfs)
return ((inOfs - outOfs) / sizeof(RX_ELEMENT));
return (NUM_RX_BUF - (outOfs - inOfs) / sizeof(RX_ELEMENT));
}
PUBLIC DWORD PktRxDropped (void)
{
return (pktDrop);
}
#endif
/**************************************************************************/
LOCAL __inline void PktFreeMem (void)
{
#if (DOSX & PHARLAP)
if (realSeg)
{
_dx_real_free (realSeg);
realSeg = 0;
}
#elif (DOSX & DJGPP)
if (rm_mem.rm_segment)
{
unsigned ofs; /* clear the DOS-mem to prevent further upcalls */
for (ofs = 0; ofs < 16 * rm_mem.size / 4; ofs += 4)
_farpokel (_dos_ds, realBase + ofs, 0);
_go32_dpmi_free_dos_memory (&rm_mem);
rm_mem.rm_segment = 0;
}
#elif (DOSX & DOS4GW)
if (rm_base_sel)
{
dpmi_real_free (rm_base_sel);
rm_base_sel = 0;
}
#endif
}
/**************************************************************************/
PUBLIC BOOL PktExitDriver (void)
{
if (pktInfo.handle)
{
if (!PktSetReceiverMode(PDRX_BROADCAST))
PUTS ("Error restoring receiver mode.");
if (!PktReleaseHandle(pktInfo.handle))
PUTS ("Error releasing PKT-DRVR handle.");
PktFreeMem();
pktInfo.handle = 0;
}
if (pcap_pkt_debug >= 1)
printf ("Internal stats: too-small %lu, too-large %lu, bad-sync %lu, "
"wrong-handle %lu\n",
intStat.tooSmall, intStat.tooLarge,
intStat.badSync, intStat.wrongHandle);
return (TRUE);
}
#if (DOSX & (DJGPP|DOS4GW))
static void dump_pkt_stub (void)
{
int i;
fprintf (stderr, "PktReceiver %lu, pkt_stub[PktReceiver] =\n",
PktReceiver);
for (i = 0; i < 15; i++)
fprintf (stderr, "%02X, ", real_stub_array[i+PktReceiver]);
fputs ("\n", stderr);
}
#endif
/*
* Front end initialization routine
*/
PUBLIC BOOL PktInitDriver (PKT_RX_MODE mode)
{
PKT_RX_MODE rxMode;
BOOL writeInfo = (pcap_pkt_debug >= 3);
pktInfo.quiet = (pcap_pkt_debug < 3);
#if (DOSX & PHARLAP) && defined(__HIGHC__)
if (_mwenv != 2)
{
fprintf (stderr, "Only Pharlap DOS extender supported.\n");
return (FALSE);
}
#endif
#if (DOSX & PHARLAP) && defined(__WATCOMC__)
if (_Extender != 1)
{
fprintf (stderr, "Only DOS4GW style extenders supported.\n");
return (FALSE);
}
#endif
if (!PktSearchDriver())
{
PUTS ("Packet driver not found.");
PktFreeMem();
return (FALSE);
}
if (!PktGetDriverInfo())
{
PUTS ("Error getting pkt-drvr information.");
PktFreeMem();
return (FALSE);
}
#if (DOSX & PHARLAP)
if (RealCopy((ULONG)&rxOutOfs, (ULONG)&pktRxEnd,
&realBase, &protBase, (USHORT*)&realSeg))
{
rxOutOfsFp = (WORD _far *) (protBase + (WORD) &rxOutOfs);
rxInOfsFp = (WORD _far *) (protBase + (WORD) &rxInOfs);
*rxOutOfsFp = FIRST_RX_BUF;
*rxInOfsFp = FIRST_RX_BUF;
}
else
{
PUTS ("Cannot allocate real-mode stub.");
return (FALSE);
}
#elif (DOSX & (DJGPP|DOS4GW))
if (sizeof(real_stub_array) > 0xFFFF)
{
fprintf (stderr, "`real_stub_array[]' too big.\n");
return (FALSE);
}
#if (DOSX & DJGPP)
rm_mem.size = (sizeof(real_stub_array) + 15) / 16;
if (_go32_dpmi_allocate_dos_memory(&rm_mem) || rm_mem.rm_offset != 0)
{
PUTS ("real-mode init failed.");
return (FALSE);
}
realBase = (rm_mem.rm_segment << 4);
dosmemput (&real_stub_array, sizeof(real_stub_array), realBase);
_farpokel (_dos_ds, realBase+rxOutOfs, FIRST_RX_BUF);
_farpokel (_dos_ds, realBase+rxInOfs, FIRST_RX_BUF);
#elif (DOSX & DOS4GW)
rm_base_seg = dpmi_real_malloc (sizeof(real_stub_array), &rm_base_sel);
if (!rm_base_seg)
{
PUTS ("real-mode init failed.");
return (FALSE);
}
realBase = (rm_base_seg << 4);
memcpy ((void*)realBase, &real_stub_array, sizeof(real_stub_array));
*(WORD*) (realBase+rxOutOfs) = FIRST_RX_BUF;
*(WORD*) (realBase+rxInOfs) = FIRST_RX_BUF;
#endif
{
int pushf = PktReceiver;
while (real_stub_array[pushf++] != 0x9C && /* pushf */
real_stub_array[pushf] != 0xFA) /* cli */
{
if (++para_skip > 16)
{
fprintf (stderr, "Something wrong with `pkt_stub.inc'.\n");
para_skip = 0;
dump_pkt_stub();
return (FALSE);
}
}
if (*(WORD*)(real_stub_array + offsetof(PktRealStub,_dummy)) != 0xB800)
{
fprintf (stderr, "`real_stub_array[]' is misaligned.\n");
return (FALSE);
}
}
if (pcap_pkt_debug > 2)
dump_pkt_stub();
#else
rxOutOfs = FIRST_RX_BUF;
rxInOfs = FIRST_RX_BUF;
#endif
if (!PktSetAccess())
{
PUTS ("Error setting pkt-drvr access.");
PktFreeMem();
return (FALSE);
}
if (!PktGetAddress(&myAddress))
{
PUTS ("Error fetching adapter address.");
PktFreeMem();
return (FALSE);
}
if (!PktSetReceiverMode(mode))
{
PUTS ("Error setting receiver mode.");
PktFreeMem();
return (FALSE);
}
if (!PktGetReceiverMode(&rxMode))
{
PUTS ("Error getting receiver mode.");
PktFreeMem();
return (FALSE);
}
if (writeInfo)
printf ("Pkt-driver information:\n"
" Version : %d.%d\n"
" Name : %.15s\n"
" Class : %u (%s)\n"
" Type : %u\n"
" Number : %u\n"
" Funcs : %u\n"
" Intr : %Xh\n"
" Handle : %u\n"
" Extended : %s\n"
" Hi-perf : %s\n"
" RX mode : %s\n"
" Eth-addr : %02X:%02X:%02X:%02X:%02X:%02X\n",
pktInfo.majVer, pktInfo.minVer, pktInfo.name,
pktInfo.class, PktGetClassName(pktInfo.class),
pktInfo.type, pktInfo.number,
pktInfo.funcs, pktInfo.intr, pktInfo.handle,
pktInfo.funcs == 2 || pktInfo.funcs == 6 ? "Yes" : "No",
pktInfo.funcs == 5 || pktInfo.funcs == 6 ? "Yes" : "No",
PktRXmodeStr(rxMode),
myAddress[0], myAddress[1], myAddress[2],
myAddress[3], myAddress[4], myAddress[5]);
#if defined(DEBUG) && (DOSX & PHARLAP)
if (writeInfo)
{
DWORD rAdr = realBase + (WORD)&PktReceiver;
unsigned sel, ofs;
printf ("\nReceiver at %04X:%04X\n", RP_SEG(rAdr), RP_OFF(rAdr));
printf ("Realbase = %04X:%04X\n", RP_SEG(realBase),RP_OFF(realBase));
sel = _FP_SEG (protBase);
ofs = _FP_OFF (protBase);
printf ("Protbase = %04X:%08X\n", sel,ofs);
printf ("RealSeg = %04X\n", realSeg);
sel = _FP_SEG (rxOutOfsFp);
ofs = _FP_OFF (rxOutOfsFp);
printf ("rxOutOfsFp = %04X:%08X\n", sel,ofs);
sel = _FP_SEG (rxInOfsFp);
ofs = _FP_OFF (rxInOfsFp);
printf ("rxInOfsFp = %04X:%08X\n", sel,ofs);
printf ("Ready: *rxOutOfsFp = %04X *rxInOfsFp = %04X\n",
*rxOutOfsFp, *rxInOfsFp);
PktQueueBusy (TRUE);
printf ("Busy: *rxOutOfsFp = %04X *rxInOfsFp = %04X\n",
*rxOutOfsFp, *rxInOfsFp);
}
#endif
memset (&pktStat, 0, sizeof(pktStat)); /* clear statistics */
PktQueueBusy (TRUE);
return (TRUE);
}
/*
* DPMI functions only for Watcom + DOS4GW extenders
*/
#if (DOSX & DOS4GW)
LOCAL DWORD dpmi_get_real_vector (int intr)
{
union REGS r;
r.x.eax = 0x200;
r.x.ebx = (DWORD) intr;
int386 (0x31, &r, &r);
return ((r.w.cx << 4) + r.w.dx);
}
LOCAL WORD dpmi_real_malloc (int size, WORD *selector)
{
union REGS r;
r.x.eax = 0x0100; /* DPMI allocate DOS memory */
r.x.ebx = (size + 15) / 16; /* Number of paragraphs requested */
int386 (0x31, &r, &r);
if (r.w.cflag & 1)
return (0);
*selector = r.w.dx;
return (r.w.ax); /* Return segment address */
}
LOCAL void dpmi_real_free (WORD selector)
{
union REGS r;
r.x.eax = 0x101; /* DPMI free DOS memory */
r.x.ebx = selector; /* Selector to free */
int386 (0x31, &r, &r);
}
#endif
#if defined(DOSX) && (DOSX & PHARLAP)
/*
* Description:
* This routine allocates conventional memory for the specified block
* of code (which must be within the first 64K of the protected mode
* program segment) and copies the code to it.
*
* The caller should free up the conventional memory block when it
* is done with the conventional memory.
*
* NOTE THIS ROUTINE REQUIRES 386|DOS-EXTENDER 3.0 OR LATER.
*
* Calling arguments:
* start_offs start of real mode code in program segment
* end_offs 1 byte past end of real mode code in program segment
* real_basep returned; real mode ptr to use as a base for the
* real mode code (eg, to get the real mode FAR
* addr of a function foo(), take
* real_basep + (ULONG) foo).
* This pointer is constructed such that
* offsets within the real mode segment are
* the same as the link-time offsets in the
* protected mode program segment
* prot_basep returned; prot mode ptr to use as a base for getting
* to the conventional memory, also constructed
* so that adding the prot mode offset of a
* function or variable to the base gets you a
* ptr to the function or variable in the
* conventional memory block.
* rmem_adrp returned; real mode para addr of allocated
* conventional memory block, to be used to free
* up the conventional memory when done. DO NOT
* USE THIS TO CONSTRUCT A REAL MODE PTR, USE
* REAL_BASEP INSTEAD SO THAT OFFSETS WORK OUT
* CORRECTLY.
*
* Returned values:
* 0 if error
* 1 if success
*/
int RealCopy (ULONG start_offs,
ULONG end_offs,
REALPTR *real_basep,
FARPTR *prot_basep,
USHORT *rmem_adrp)
{
ULONG rm_base; /* base real mode para addr for accessing */
/* allocated conventional memory */
UCHAR *source; /* source pointer for copy */
FARPTR destin; /* destination pointer for copy */
ULONG len; /* number of bytes to copy */
ULONG temp;
USHORT stemp;
/* First check for valid inputs
*/
if (start_offs >= end_offs || end_offs > 0x10000)
return (FALSE);
/* Round start_offs down to a paragraph (16-byte) boundary so we can set up
* the real mode pointer easily. Round up end_offs to make sure we allocate
* enough paragraphs
*/
start_offs &= ~15;
end_offs = (15 + (end_offs << 4)) >> 4;
/* Allocate the conventional memory for our real mode code. Remember to
* round byte count UP to 16-byte paragraph size. We alloc it
* above the DOS data buffer so both the DOS data buffer and the appl
* conventional mem block can still be resized.
*
* First just try to alloc it; if we can't get it, shrink the appl mem
* block down to the minimum, try to alloc the memory again, then grow the
* appl mem block back to the maximum. (Don't try to shrink the DOS data
* buffer to free conventional memory; it wouldn't be good for this routine
* to have the possible side effect of making file I/O run slower.)
*/
len = ((end_offs - start_offs) + 15) >> 4;
if (_dx_real_above(len, rmem_adrp, &stemp) != _DOSE_NONE)
{
if (_dx_cmem_usage(0, 0, &temp, &temp) != _DOSE_NONE)
return (FALSE);
if (_dx_real_above(len, rmem_adrp, &stemp) != _DOSE_NONE)
*rmem_adrp = 0;
if (_dx_cmem_usage(0, 1, &temp, &temp) != _DOSE_NONE)
{
if (*rmem_adrp != 0)
_dx_real_free (*rmem_adrp);
return (FALSE);
}
if (*rmem_adrp == 0)
return (FALSE);
}
/* Construct real mode & protected mode pointers to access the allocated
* memory. Note we know start_offs is aligned on a paragraph (16-byte)
* boundary, because we rounded it down.
*
* We make the offsets come out rights by backing off the real mode selector
* by start_offs.
*/
rm_base = ((ULONG) *rmem_adrp) - (start_offs >> 4);
RP_SET (*real_basep, 0, rm_base);
FP_SET (*prot_basep, rm_base << 4, SS_DOSMEM);
/* Copy the real mode code/data to the allocated memory
*/
source = (UCHAR *) start_offs;
destin = *prot_basep;
FP_SET (destin, FP_OFF(*prot_basep) + start_offs, FP_SEL(*prot_basep));
len = end_offs - start_offs;
WriteFarMem (destin, source, len);
return (TRUE);
}
#endif /* DOSX && (DOSX & PHARLAP) */
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