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PC/TCP Version 1.09 Packet Driver Specification 1
FTP Software, Inc.
PC/TCP Packet Driver Specification
Revision 1.09
September-14-1989
Developed by:
FTP Software, Inc.
26 Princess St.
Wakefield, MA 01880-3004
(617) 246-0900
Copyright (c) 1986, 1989 by FTP Software Inc. Permission is granted to
reproduce and distribute this document without restriction or fee. This
document may be re-formatted or translated, but the functional
specification of the programming interface described herein may not be
changed without FTP Software's permission. FTP Software's name and this
notice must appear on any reproduction of this document. This
specification was originally developed at FTP Software by John Romkey.
Support of a hardware interface, or mention of an interface manufacturer,
by the Packet Driver specification does not necessarily indicate that the
manufacturer endorses this specification.
1 Document Conventions
All numbers in this document are given in C-style representation. Decimal
is expressed as 11, hexadecimal is expressed as 0x0B, octal is expressed as
013. All reference to network hardware addresses (source, destination and
multicast) and demultiplexing information for the packet headers assumes
they are represented as they would be in a MAC-level packet header being
passed to the send_pkt() function.
2 Introduction and Motivation
This document describes the programming interface to FTP Software Packet
Drivers. Packet drivers provide a simple, common programming interface
that allows multiple applications to share a network interface at the data
link level. The packet drivers demultiplex incoming packets among the
applications by using the network media's standard packet type or service
access point field(s).
The intent of this specification is to allow protocol stack implementations
to be independent of the actual brand or model of the network interface in
2 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
use on a particular machine. Different versions of various protocol stacks
still must exist for different network media (Ethernet, 802.5 ring, serial
lines), because of differences in protocol-to-physical address mapping,
header formats, maximum transmission units (MTUs) and so forth.
The packet driver provides calls to initiate access to a specific packet
type, to end access to it, to send a packet, to get statistics on the
network interface and to get information about the interface.
Protocol implementations that use the packet driver can completely coexist
on a PC and can make use of one another's services, whereas multiple
applications which do not use the driver do not coexist on one machine
properly. Through use of the packet driver, a user could run TCP/IP, XNS,
and a proprietary protocol implementation such as DECnet, Banyan's,
LifeNet's, Novell's or 3Com's without the difficulties associated with pre-
empting the network interface.
Applications which use the packet driver can also run on new network
hardware of the same class without being modified; only a new packet driver
need be supplied.
Several levels of packet drivers are described in this specification. The
first is the basic packet driver, which provides minimal functionality but
should be simple to implement and which uses very few host resources. The
basic driver provides operations to broadcast and receive packets. The
second driver is the extended packet driver, which is a superset of the
basic driver. The extended driver supports less commonly used functions of
the network interface such as multicast, and also gathers statistics on use
of the interface and makes these available to the application. The third
level, the high-performance functions, support performance improvements and
tuning.
Functions which are available in only the extended packet driver are noted
as such in their descriptions. All basic packet driver functions are
available in the extended driver. The high-performance functions may be
available with either basic or extended drivers.
3 Identifying network interfaces
Network interfaces are named by a triplet of integers, <class, type,
number>. The first number is the class of interface. The class tells what
kind of media the interface supports: DEC/Intel/Xerox (DIX or Bluebook)
Ethernet, IEEE 802.3 Ethernet, IEEE 802.5 Token Ring, ProNET-10, Appletalk,
serial line, etc.
The second number is the type of interface: this specifies a particular
instance of an interface supporting a class of network medium. Interface
types for Ethernet might name these interfaces: 3Com 3C503 or 3C505,
Interlan NI5210, Univation, BICC Data Networks ISOLAN, Ungermann-Bass NIC,
etc. Interface types for IEEE 802.5 might name these interfaces: IBM Token
Ring adapter, Proteon p1340, etc.
PC/TCP Version 1.09 Packet Driver Specification 3
FTP Software, Inc.
The last number is the interface number. If a machine is equipped with
more than one interface of a class and type, the interfaces must be
numbered to distinguish between them.
An appendix details constants for classes and types. The class of an
interface is an 8-bit integer, and its type is a 16 bit integer. Class and
type constants are managed by FTP Software. Contact FTP to register a new
class or type number.
The type 0xFFFF is a wildcard type which matches any interface in the
specified class. It is unnecessary to wildcard interface numbers, as 0
will always correspond to the first interface of the specified class and
type.
This specification has no provision for the support of multiple network
interfaces (with similar or different characteristics) via a single Packet
Driver and associated interrupt. We feel that this issue is best addressed
by loading several Packet Drivers, one per interface, with different
interrupts (although all may be included in a single TSR software module).
Applications software must check the class and type returned from a
driver_info() call in any case, to make sure that the Packet Driver is for
the correct media and packet format. This can easily be generalized by
searching for another Packet Driver if the first is not of the right kind.
4 Initiating driver operations
The packet driver is invoked via a software interrupt in the range 0x60
through 0x80. This document does not specify a particular interrupt, but
describes a mechanism for locating which interrupt the driver uses. The
interrupt must be configurable to avoid conflicts with other pieces of
software that also use software interrupts. The program which installs the
packet driver should provide some mechanism for the user to specify the
interrupt.
The handler for the interrupt is assumed to start with 3 bytes of
executable code; this can either be a 3-byte jump instruction, or a 2-byte
jump followed by a NOP (do not specify "jmp short" unless you also specify
an explicit NOP). This must be followed by the null-terminated ASCII text
string "PKT DRVR". To find the interrupt being used by the driver, an
application should scan through the handlers for vectors 0x60 through 0x80
until it finds one with the text string "PKT DRVR" in the 12 bytes
immediately following the entry point.
5 Link-layer demultiplexing
If a network media standard is to support simultaneous use by different
transport protocols (e.g. TCP/IP, XNS, OSI), it must define some link-level
mechanism which allows a host to decide which protocol a packet is intended
for. In DIX Ethernet, this is the 16-bit "ethertype" field immediately
4 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
following the 6-byte destination and source addresses. In IEEE 802.3 where
802.2 headers are used, this information is in the variable-length 802.2
header. In Proteon's ProNET-10, this is done via the 32-bit "type" field.
Other media standards may demultiplex via a method of their own, or 802.2
headers as in 802.3.
Our access_type() function provides access to this link-layer
demultiplexing. Each call establishes a destination for a particular type
of link-layer packet, which remains in effect until release_type() is
called with the handle returned by that particular access_type(). The link-
layer demultiplexing information is passed via the type and typelen fields,
but values and interpretation depend on the class of packet driver (and
thus on the media in use).
A class 1 driver (DIX Ethernet) should expect type to point at an
"ethertype" value (in network byte order, and greater than 0x05EE), and
might reasonably require typelen to equal 2. A class 2 driver could
require 4 bytes. However, a class 3 (802.5) or 11 (Ethernet with 802.2
headers) driver should be prepared for typelen values between 2 (for the
DSAP/SSAP fields only) and 8 (3 byte 802.2 header plus 3-byte Sub-Network
Access Protocol extension header plus 2-byte "ethertype" as defined in RFC
1042).
6 Programming interface
All functions are accessed via the software interrupt determined to be the
driver's via the mechanism described earlier. On entry, register AH
contains the code of the function desired.
The handle is an arbitrary integer value associated with each MAC-level
demultiplexing type that has been established via the access_type call.
Internally to the packet driver, it will probably be a pointer, or a table
offset. The application calling the packet driver cannot depend on it
assuming any particular range, or any other characteristics. In
particular, if an application uses two or more packet drivers, handles
returned by different drivers for the same or different types may have the
same value.
Note that some of the functions defined below are labelled as extended
driver functions and high-performance functions. Because these are not
required for basic network operations, their implementation may be
considered optional. Programs wishing to use these functions should use
the driver_info() function to determine if they are available in a given
packet driver.
6.1 Entry conditions
FTP Software applications which call the packet driver are coded in
Microsoft C and assembly language. All necessary registers are saved by
PC/TCP Version 1.09 Packet Driver Specification 5
FTP Software, Inc.
FTP's routines before the INT instruction to call the packet driver is
executed. Our current receiver() functions behave as follows: DS, SS, SP
and the flags are saved and restored. All other registers may be modified,
and should be saved by the packet driver, if necessary. Processor
interrupts may be enabled while in the upcall, but the upcall doesn't
assume interrupts are disabled on entry. On entry, receiver() switches to
a local stack, and switches back before returning.
Note that some older versions of PC/TCP may enable interrupts during the
upcall, and leave them enabled on return to the Packet Driver.
When using a class 1 driver, PC/TCP will normally make 5 access_type()
calls for IP, ARP and 3 kinds of Berkeley Trailer encapsulation packets.
On other media, the number of handles we open will vary, but it is usually
at least two (IP and ARP). Implementors should make their tables large
enough to allow two protocol stacks to co-exist. We recommend support for
at least 10 open handles simultaneously.
6.2 Byte and Bit ordering
Developers should note that, on many networks and protocol families, the
byte-ordering of 16-bit quantities on the network is opposite to the native
byte-order of the PC. (802.5 Token Ring is an exception). This means that
DEC-Intel-Xerox ethertype values passed to access_type() must be swapped
(passed in network order). The IEE 802.3 length field needs similar
handling, and care should be taken with packets passed to send_pkt(), so
all fields are in the proper order. Developers working with MSB LANs
(802.5 and FDDI) should be aware that a MAC address changes bit order
depending on whether it appears in the header or as data.
6.3 driver_info()
driver_info(handle) AH == 1, AL == 255
int handle; BX /* Optional */
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE /* older drivers only */
non-error return:
carry flag clear
version BX
class CH
type DX
number CL
name DS:SI
functionality AL
1 == basic functions present.
2 == basic and extended present.
6 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
5 == basic and high-performance.
6 == basic, high-performance, extended.
255 == not installed.
This function returns information about the interface. The version is
assumed to be an internal hardware driver identifier. In earlier versions
of this spec, the handle argument (which must have been obtained via
access_type()) was required. It is now optional, but drivers developed
according to versions of this spec previous to 1.07 may require it, so
implementers should take care.
6.4 access_type()
int access_type(if_class, if_type, if_number, type, typelen, receiver) AH ==
2
int if_class; AL
int if_type; BX
int if_number; DL
char far *type; DS:SI
unsigned typelen; CX
int (far *receiver)(); ES:DI
error return:
carry flag set
error code DH
possible errors:
NO_CLASS
NO_TYPE
NO_NUMBER
BAD_TYPE
NO_SPACE
TYPE_INUSE
non-error return:
carry flag clear
handle AX
receiver call:
(*receiver)(handle, flag, len [, buffer])
int handle; BX
int flag; AX
unsigned len; CX
if AX == 1,
char far *buffer; DS:SI
Initiates access to packets of the specified type. The argument type is a
pointer to a packet type specification. The argument typelen is the length
in bytes of the type field. The argument receiver is a pointer to a
subroutine which is called when a packet is received. If the typelen
argument is 0, this indicates that the caller wants to match all packets
(match all requests may be refused by packet drivers developed to conform
to versions of this spec previous to 1.07).
PC/TCP Version 1.09 Packet Driver Specification 7
FTP Software, Inc.
When a packet is received, receiver is called twice by the packet driver.
The first time it is called to request a buffer from the application to
copy the packet into. AX == 0 on this call. The application should return
a pointer to the buffer in ES:DI. If the application has no buffers, it
may return 0:0 in ES:DI, and the driver should throw away the packet and
not perform the second call.
It is important that the packet length (CX) be valid on the AX == 0 call,
so that the receiver can allocate a buffer of the proper size. This length
(as well as the copy performed prior to the AX == 1 call) must include the
MAC header and all received data, but not the trailing Frame Check Sequence
(if any).
On the second call, AX == 1. This call indicates that the copy has been
completed, and the application may do as it wishes with the buffer. The
buffer that the packet was copied into is pointed to by DS:SI.
6.5 release_type()
int release_type(handle) AH == 3
int handle; BX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
non-error return:
carry flag clear
This function ends access to packets associated with a handle returned by
access_type(). The handle is no longer valid.
6.6 send_pkt()
int send_pkt(buffer, length) AH == 4
char far *buffer; DS:SI
unsigned length; CX
error return:
carry flag set
error code DH
possible errors:
CANT_SEND
non-error return:
carry flag clear
Transmits length bytes of data, starting at buffer. The application must
supply the entire packet, including local network headers. Any MAC or LLC
8 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
information in use for packet demultiplexing (e.g. the DEC-Intel-Xerox
Ethertype) must be filled in by the application as well. This cannot be
performed by the driver, as no handle is specified in a call to the
send_packet() function.
6.7 terminate()
terminate(handle) AH == 5
int handle; BX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
CANT_TERMINATE
non-error return:
carry flag clear
Terminates the driver associated with handle. If possible, the driver will
exit and allow MS-DOS to reclaim the memory it was using.
6.8 get_address()
get_address(handle, buf, len) AH == 6
int handle; BX
char far *buf; ES:DI
int len; CX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
NO_SPACE
non-error return:
carry flag clear
length CX
Copies the current local net address of the interface into buf. The buffer
buf is len bytes long. The actual number of bytes copied is returned in
CX. If the NO_SPACE error is returned, this indicates that len was
insufficient to hold the local net address. If the address has been changed
by set_address(), the new address should be returned.
6.9 reset_interface()
reset_interface(handle) AH == 7
PC/TCP Version 1.09 Packet Driver Specification 9
FTP Software, Inc.
int handle; BX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
CANT_RESET
non-error return:
carry flag clear
Resets the interface associated with handle to a known state, aborting any
transmits in process and reinitializing the receiver. The local net address
is reset to the default (from ROM), the multicast list is cleared, and the
receive mode is set to 3 (own address & broadcasts). If multiple handles
are open, these actions might seriously disrupt other applications using
the interface, so CANT_RESET should be returned.
6.10 get_parameters()
high-performance driver function
get_parameters() AH = 10
error return:
carry flag set
error code DH
possible errors:
BAD_COMMAND /* No high-performance support */
non error return:
carry flag clear
struct param far *; ES:DI
struct param {
unsigned char major_rev; /* Revision of Packet Driver spec */
unsigned char minor_rev; /* this driver conforms to. */
unsigned char length; /* Length of structure in bytes */
unsigned char addr_len; /* Length of a MAC-layer address */
unsigned short mtu; /* MTU, including MAC headers */
unsigned short multicast_aval; /* Buffer size for multicast addr */
unsigned short rcv_bufs; /* (# of back-to-back MTU rcvs) - 1 */
unsigned short xmt_bufs; /* (# of successive xmits) - 1 */
unsigned short int_num; /* Interrupt # to hook for post-EOI
processing, 0 == none */
};
The performance of an application may benefit from using get_parameters()
to obtain a number of driver parameters. This function was added to v1.09
of this specification, and may not be implemented by all drivers (see
driver_info()).
10 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
The major_rev and minor_rev fields are the major and minor revision numbers
of the version of this specification the driver conforms to. For this
document, major_rev is 1 and minor_rev is 9. The length field may be used
to determine which values are valid, should a later revision of this
specification add more values at the end of this structure. For this
document, length is 14. The addr_len field is the length of a MAC address,
in bytes. Note the param structure is assumed to be packed, such that these
fields occupy four consecutive bytes of storage.
In the param structure, the mtu is the maximum MAC-level packet the driver
can handle (on Ethernet this number is fixed, but it may vary on other
media, e.g. 802.5 or FDDI). The multicast_aval field is the number of
bytes required to store all the multicast addresses supported by any
"perfect filter" mechanism in the hardware. Calling set_multicast_list()
with its len argument equal to this value should not fail with a NO_SPACE
error. A value of zero implies no multicast support.
The rcv_bufs and xmt_bufs indicate the number of back-to-back receives or
transmits the card/driver combination can accomodate, minus 1. The
application can use this information to adjust flow-control or transmit
strategies. A single-buffered card (for example, an Interlan NI5010) would
normally return 0 in both fields. A value of 0 in rcv_bufs could also be
used by a driver author to indicate that the hardware has limitations which
prevent it from receiving as fast as other systems can send, and to
recommend that the upper-layer protocols invoke lock-step flow control to
avoid packet loss.
The int_num field should be set to a hardware interrupt that the
application can hook in order to perform interrupt-time protocol processing
after the EOI has been sent to the 8259 interrupt controller and the card
is ready for more interrupts. A value of zero indicates that there is no
such interrupt. Any application hooking this interrupt and finding a non-
zero value in the vector must pass the interrupt down the chain and wait
for its predecessors to return before performing any processing or stack
switches. Any driver which implements this function via a separate INT
instruction and vector, instead of just using the hardware interrupt, must
prevent any saved context from being overwritten by a later interrupt. In
other words, if the driver switches to its own stack, it must allow re-
entrancy.
6.11 as_send_pkt()
high-performance driver function
int as_send_pkt(buffer, length, upcall) AH == 11
char far *buffer; DS:SI
unsigned length; CX
int (far *upcall)(); ES:DI
error return:
carry flag set
error code DH
possible errors:
PC/TCP Version 1.09 Packet Driver Specification 11
FTP Software, Inc.
CANT_SEND /* transmit error, re-entered, etc. */
BAD_COMMAND /* Level 0 or 1 driver */
non-error return:
carry flag clear
buffer available upcall:
(*upcall)(buffer, result)
int result; AX /* 0 for copy ok */
char far *buffer; ES:DI /* from as_send_pkt() call */
as_send_pkt() differs from send_pkt() in that the upcall() routine is
called when the application's data has been copied out of the buffer, and
the application can safely modify or re-use the buffer. The driver may
pass a non-zero error code to upcall() if the copy failed, or some other
error was detected, otherwise it should indicate success, even if the
packet hasn't actually been transmitted yet. Note that the buffer passed
to send_pkt() is assumed to be modifiable when that call returns, whereas
with as_send_pkt(), the buffer may be queued by the driver and dealt with
later. If an error is returned on the initial call, the upcall will not be
executed. This function was added in v1.09 of this specification, and may
not be implemented by all drivers (see driver_info()).
6.12 set_rcv_mode()
extended driver function
set_rcv_mode(handle, mode) AH == 20
int handle; BX
int mode; CX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
BAD_MODE
non-error return:
carry flag clear
Sets the receive mode on the interface associated with handle. The
following values are accepted for mode:
mode meaning
1 turn off receiver
2 receive only packets sent to this interface
3 mode 2 plus broadcast packets
4 mode 3 plus limited multicast packets
5 mode 3 plus all multicast packets
6 all packets
12 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
Note that not all interfaces support all modes. The receive mode affects
all packets received by this interface, not just packets associated with
the handle argument. See the extended driver functions
get_multicast_list() and set_multicast_list() for programming "perfect
filters" to receive specific multicast addresses.
Note that mode 3 is the default, and if the set_rcv_mode() function is not
implemented, mode 3 is assumed to be in force as long as any handles are
open (from the first access_type() to the last release_type()).
6.13 get_rcv_mode()
extended driver function
get_rcv_mode(handle, mode) AH == 21
int handle; BX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
non-error return:
carry flag clear
mode AX
Returns the current receive mode of the interface associated with handle.
6.14 set_multicast_list()
extended driver function
set_multicast_list(addrlst, len) AH == 22
char far *addrlst; ES:DI
int len; CX
error return:
carry flag set
error code DH
possible errors:
NO_MULTICAST
NO_SPACE
BAD_ADDRESS
non-error return:
carry flag clear
The addrlst argument is assumed to point to an len-byte buffer containing a
number of multicast addresses. BAD_ADDRESS is returned if len modulo the
size of an address is not equal to 0, or the data is unacceptable for some
PC/TCP Version 1.09 Packet Driver Specification 13
FTP Software, Inc.
reason. NO_SPACE is returned (and no addresses are set) if there are more
addresses than the hardware supports directly.
The recommended procedure for setting multicast addresses is to issue a
get_multicast_list(), copy the information to a local buffer, add any
addresses desired, and issue a set_multicast_list(). This should be
reversed when the application exits. If the set_multicast_list() fails due
to NO_SPACE, use set_rcv_mode() to set mode 5 instead.
6.15 get_multicast_list()
extended driver function
get_multicast_list() AH == 23
error return:
carry flag set
error code DH
possible errors:
NO_MULTICAST
NO_SPACE
non-error return:
carry flag clear
char far *addrlst; ES:DI
int len; CX
On a successful return, addrlst points to len bytes of multicast addresses
currently in use. The application program must not modify this information
in-place. A NO_SPACE error indicates that there wasn't enough room for all
active multicast addresses.
6.16 get_statistics()
extended driver function
get_statistics(handle) AH == 24
int handle; BX
error return:
carry flag set
error code DH
possible errors:
BAD_HANDLE
non-error return:
carry flag clear
char far *stats; DS:SI
struct statistics {
unsigned long packets_in; /* Totals across all handles */
unsigned long packets_out;
unsigned long bytes_in; /* Including MAC headers */
14 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
unsigned long bytes_out;
unsigned long errors_in; /* Totals across all error types */
unsigned long errors_out;
unsigned long packets_lost; /* No buffer from receiver(), card */
/* out of resources, etc. */
};
Returns a pointer to a statistics structure for the interface. The values
are stored as to be normal 80xx 32-bit integers.
6.17 set_address()
extended driver function
set_address(addr, len) AH == 25
char far *addr; ES:DI
int len; CX
error return:
carry flag set
error code DH
possible errors:
CANT_SET
BAD_ADDRESS
non-error return:
carry flag clear
length CX
This call is used when the application or protocol stack needs to use a
specific LAN address. For instance, DECnet protocols on Ethernet encode
the protocol address in the Ethernet address, requiring that it be set when
the protocol stack is loaded. A BAD_ADDRESS error indicates that the
Packet Driver doesn't like the len (too short or too long), or the data
itself. Note that packet drivers should refuse to change the address (with
a CANT_SET error) if more than one handle is open (lest it be changed out
from under another protocol stack).
PC/TCP Version 1.09 Packet Driver Specification A.1
FTP Software, Inc.
Appendix A
Interface classes and types
The following are defined as network interface classes, with their
individual types listed immediately following the class.
DEC/Intel/Xerox "Bluebook" Ethernet
Class 1
3COM 3C500/3C501 1
3COM 3C505 2
Interlan Ni5010 3
BICC Data Networks 4110 4
BICC Data Networks 4117 5
MICOM-Interlan NP600 6
Ungermann-Bass PC-NIC 8
Univation NC-516 9
TRW PC-2000 10
Interlan Ni5210 11
3COM 3C503 12
3COM 3C523 13
Western Digital WD8003 14
Spider Systems S4 15
Torus Frame Level 16
10NET Communications 17
Gateway PC-bus 18
Gateway AT-bus 19
Gateway MCA-bus 20
IMC PCnic 21
IMC PCnic II 22
IMC PCnic 8bit 23
Tigan Communications 24
Micromatic Research 25
Clarkson "Multiplexor" 26
D-Link 8-bit 27
D-Link 16-bit 28
D-Link PS/2 29
Research Machines 8 30
Research Machines 16 31
Research Machines MCA 32
Radix Microsys. EXM1 16-bit
33
Interlan Ni9210 34
Interlan Ni6510 35
Vestra LANMASTER 16-bit 36
Vestra LANMASTER 8-bit 37
A.2 PC/TCP Version 1.09 Packet Driver Specification
FTP Software, Inc.
Allied Telesis PC/XT/AT 38
Allied Telesis NEC PC-98 39
Allied Telesis Fujitsu FMR
40
Ungermann-Bass NIC/PS2 41
Tiara LANCard/E AT 42
Tiara LANCard/E MC 43
Tiara LANCard/E TP 44
Spider Comm. SpiderComm 845
Spider Comm. SpiderComm 16
46
AT&T Starlan NAU 47
AT&T Starlan-10 NAU 48
AT&T Ethernet NAU 49
Intel smart card 50
ProNET-10
Class 2
Proteon p1300 1
Proteon p1800 2
IEEE 802.5/ProNET-4
Class 3
IBM Token ring adapter 1
Proteon p1340 2
Proteon p1344 3
Gateway PC-bus 4
Gateway AT-bus 5
Gateway MCA-bus 6
Omninet
Class 4
Appletalk
Class 5
Serial line
Class 6
Clarkson 8250-SLIP 1
Clarkson "Multiplexor" 2
Starlan
Class 7 (NOTE: Class has been subsumed by Ethernet)
ArcNet
Class 8
Datapoint RIM 1
AX.25Class 9
KISS Class 10
PC/TCP Version 1.09 Packet Driver Specification A.3
FTP Software, Inc.
IEE 802.3 w/802.2 hdrs
Class 11
Types as given under DIX Ethernet
See Appendix D.
FDDI w/802.2 hdrs
Class 12
Internet X.25
Class 13
Western Digital 1
Frontier Technology 2
N.T. LANSTAR (encapsulating DIX)
Class 14
NT LANSTAR/8 1
NT LANSTAR/MC 2
PC/TCP Version 1.09 Packet Driver Specification B.1
FTP Software, Inc.
Appendix B
Function call numbers
The following decimal numbers are used to specify which operation the
packet driver should perform. The number is stored in register AH on call
to the packet driver.
driver_info 1
access_type 2
release_type 3
send_pkt 4
terminate 5
get_address 6
reset_interface 7
+get_parameters 10
+as_send_pkt 11
*set_rcv_mode 20
*get_rcv_mode 21
*set_multicast_list 22
*get_multicast_list 23
*get_statistics 24
*set_address 25
+ indicates a high-performance packet driver function
* indicates an extended packet driver function
AH values from 128 through 255 (0x80 through 0xFF) are reserved for
user-developed extensions to this specification. While FTP Software
cannot support user extensions, we are willing to act as a clearing
house for information about them. For more information, contact us.
PC/TCP Version 1.09 Packet Driver Specification C.1
FTP Software, Inc.
Appendix C
Error codes
Packet driver calls indicate error by setting the carry flag on return.
The error code is returned in register DH (a register not used to pass
values to functions must be used to return the error code). The following
error codes are defined:
1 BAD_HANDLE Invalid handle number,
2 NO_CLASS No interfaces of specified class found,
3 NO_TYPE No interfaces of specified type found,
4 NO_NUMBER No interfaces of specified number found,
5 BAD_TYPE Bad packet type specified,
6 NO_MULTICAST This interface does not support multicast,
7 CANT_TERMINATE This packet driver cannot terminate,
8 BAD_MODE An invalid receiver mode was specified,
9 NO_SPACE Operation failed because of insufficient space,
10 TYPE_INUSE The type had previously been accessed, and not
released,
11 BAD_COMMAND The command was out of range, or not implemented,
12 CANT_SEND The packet couldn't be sent (usually hardware error),
13 CANT_SET Hardware address couldn't be changed (more than 1
handle open),
14 BAD_ADDRESS Hardware address has bad length or format,
15 CANT_RESET Couldn't reset interface (more than 1 handle open).
PC/TCP Version 1.09 Packet Driver Specification D.1
FTP Software, Inc.
Appendix D
802.3 vs. Blue Book Ethernet
One weakness of the present specification is that there is no provision for
simultaneous support of 802.3 and Blue Book (the old DEC-Intel-Xerox
standard) Ethernet headers via a single Packet Driver (as defined by its
interrupt). The problem is that the "ethertype" of Blue Book packets is in
bytes 12 and 13 of the header, and in 802.3 the corresponding bytes are
interpreted as a length. In 802.3, the field which would appear to be most
useful to begin the type check in is the 802.2 header, starting at byte 14.
This is only a problem on Ethernet and variants (e.g. Starlan), where 802.3
headers and Blue Book headers are likely to need co-exist for many years to
come.
One solution is to redefine class 1 as Blue Book Ethernet, and define a
parallel class for 802.3 with 802.2 packet headers. This requires that a
2nd Packet Driver (as defined by its interrupt) be implemented where it is
necessary to handle both kinds of packets, although they could both be part
of the same TSR module.
As of v1.07 of this specification, class 11 was assigned to 802.3 using
802.2 headers, to implement the above.
Note: According to this scheme, an application wishing to receive IP
encapsulated with an 802.2 SNAP header and "ethertype" of 0x800, per RFC
1042, would specify an typelen argument of 8, and type would point to:
char iee_ip[] = {0xAA, 0xAA, 3, 0, 0, 0, 0x00, 0x08};
James B. VanBokkelen
jbvb@ftp.com
...!ftp!jbvb
Table of Contents
1 Document Conventions . . . . . . . . . . . . . . . . . . 1
2 Introduction and Motivation . . . . . . . . . . . . . . . 1
3 Identifying network interfaces . . . . . . . . . . . . . 2
4 Initiating driver operations . . . . . . . . . . . . . . 3
5 Link-layer demultiplexing . . . . . . . . . . . . . . . . 3
6 Programming interface . . . . . . . . . . . . . . . . . . 4
6.1 Entry conditions . . . . . . . . . . . . . . . . . . 4
6.2 Byte and Bit ordering . . . . . . . . . . . . . . . 5
6.3 driver_info() . . . . . . . . . . . . . . . . . . . 5
6.4 access_type() . . . . . . . . . . . . . . . . . . . 6
6.5 release_type() . . . . . . . . . . . . . . . . . . . 7
6.6 send_pkt() . . . . . . . . . . . . . . . . . . . . . 7
6.7 terminate() . . . . . . . . . . . . . . . . . . . . 8
6.8 get_address() . . . . . . . . . . . . . . . . . . . 8
6.9 reset_interface() . . . . . . . . . . . . . . . . . 9
6.10 get_parameters() . . . . . . . . . . . . . . . . . 9
6.11 as_send_pkt() . . . . . . . . . . . . . . . . . . 10
6.12 set_rcv_mode() . . . . . . . . . . . . . . . . . 11
6.13 get_rcv_mode() . . . . . . . . . . . . . . . . . 12
6.14 set_multicast_list() . . . . . . . . . . . . . . 12
6.15 get_multicast_list() . . . . . . . . . . . . . . 13
6.16 get_statistics() . . . . . . . . . . . . . . . . 13
6.17 set_address() . . . . . . . . . . . . . . . . . . 14
Appendix A Interface classes and types A-1
Appendix B Function call numbers B-1
Appendix C Error codes C-1
Appendix D 802.3 vs. Blue Book Ethernet D-1
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