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1993-10-21
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@Part(I370KERMIT,root="kuser")
@string(-ikvrsn="4.3")
@Chapter<IBM 370 KERMIT>
@Begin<Description,Leftmargin +15,Indent -15,spread 0>
@i(Program:)@\John Chandler (Harvard/Smithsonian Center for
Astrophysics); contributions from
Va@ccd()e Kundak@ccd()i and
Daphne Tzoar (Columbia U),
Bob Shields (U. Maryland),
Greg Small (UC Berkeley), Clark Frazier (Harvard
Bus. Sch.), Bob Bolch and Steve Blankinship (Triangle), Ron Rusnak
(U. Chicago), Roger Fajman and Dale Wright (NIH),
Andr@eac() Pirard (U. Li@egr()ge), Pierre Goyette (McGill U.)
@i(Language:)@\IBM 370 Assembler
@i(Documentation:)@\John Chandler (CfA)
@i(Version:)@\@value(-ikvrsn)
@i(Date:)@\1993 September
@end<Description>
@Index(IBM)
@Index(TTY)@Index(Series/1)@Index(SNA)
Kermit-370 is a family of programs
implementing the KERMIT file transfer
protocol for IBM 370-series mainframes (System/370, 303x, 43xx, 308x,
3090, @i<etc.>) under a variety of operating systems.
Kermit-370 operates over asynchronous ASCII communication
lines attached to a 3705-style or protocol enveloping 3708
@Index(Front end)
front end (@qq<TTY> or line-mode devices),
to a Series/1 or 4994 running the
Yale ASCII Terminal Communication System or
the IBM 7171 ASCII Device Control Unit or a 9370 with ASCII subsystem
(@qq<SERIES1> devices), to the IBM 3174 protocol converter at level B2.0
@Index(3174)
or higher (@qq<AEA> devices), or
to front-ends with graphics pass-through mode, such as the
Datastream/Leedata 8010 and PCI 1076
(@qq<GRAPHICS> devices). As of this writing, the pending
implementation of full(er) 7171 compatibility in the program product
SIM3278 has not been completed. The non-line-mode devices are often
called full-screen devices.
For more details on front ends, see the section SET CONTROLLER.
The source is coded in IBM 370 assembly language and is
compatible with the F, VS, and H assemblers. The code is
divided into sections, some generic and some
specific to an individual operating system. While the details of
file-system and supervisor interaction vary widely among the systems
available for IBM 370's, the basic features are essentially the same.
This chapter describes the features common to all variants of
Kermit-370, and a separate chapter will deal with the system-specific
details for each variant.
IBM 370 systems have some peculiarities that users should be aware
of. First, these systems are essentially half-duplex;
the communication line must "turn
around" before any data can be sent.
The @qq<TTY> devices are strictly half-duplex,
and even the @qq<SERIES1>, @qq<GRAPHICS>, and @qq<AEA>
devices, although they maintain full-duplex communication with the
terminal, must transmit a block at a time to the mainframe.
The fact that a packet has
been received from the IBM system through a @qq<TTY> device
is no guarantee that it is ready for
a reply; generally, the true indicator of readiness is the
line turnaround character (XON), which the operating system sends
immediately before issuing a read request. On some systems, however,
it is possible for Kermit to do away with the system-supplied
turnaround and schedule read requests immediately after the
corresponding writes.
It is up to the user to tell the other Kermit how it must conform to
the requirements of the IBM mainframe.
@Index(Binary files)@Index(Translation)
A second distinction is that disk files are encoded using
the EBCDIC character set. Consequently, there are three layers of
character translation on packets exchanged on a @qq(TTY) device. For
an incoming packet, the outer layer is provided by the
operating system, which translates all characters
from ASCII to EBCDIC. Kermit-370 must then translate
the packets back to ASCII (the middle layer)
in order to calculate and verify
the checksum. Data arriving through
a @qq(SERIES1), @qq(GRAPHICS), or @qq(AEA) device are still in
ASCII and therefore bypass the two outer layers.
In any case, Kermit-370 translates text files finally into EBCDIC
(the inner layer)
before storing on disk.
When Kermit-370 sends a file, the opposite translations occur.
The middle-layer tables used by Kermit must be the inverses of the
corresponding outer-layer ones used by the host operating system if
file transfers are to work at all. If necessary, the system programmer
should add the appropriate SET TATOE/TETOA/TTABLE subcommands (@i<q.v.>)
@Index(Initialization files)
to the global INIT file. Indeed,
it is usually a good idea to set TTABLE ON in the global INIT
file to force using different built-in sets of tables for the
inner and middle layers whenever the system has @qq(TTY) devices.
The standard 7-bit ASCII-to-EBCDIC translations can be
found in the Appendix or the IBM System/370 Reference Card.
See the section "Translation Tables" for more details.
Another distinction of IBM 370's is that they store and retrieve files
as records rather than byte streams. Records may be either
fixed-length with some sort of padding (as needed) or varying-length
with some sort of (generally hidden) delimiters. Thus,
Kermit-370 must assemble incoming
data packets into records by stripping off carriage return-linefeed
pairs (CRLF's) and padding with blanks or truncating as needed
@Indexentry(key="Trailing blanks",entry="Trailing blanks. @i<See> Blanks")
@Indexentry(key="Stripping blanks",entry="Stripping blanks. @i<See> Blanks")
@Indexsecondary(primary="Blanks",secondary="trailing")
@Indexsecondary(primary="Blanks",secondary="stripping")
and must strip trailing blanks and append CRLF's to
outgoing records.
@Index(Records)@Index(CRLF)@Index(LRECL)@Index(RECFM)
(See the SET FILE TYPE subcommand.)
Further, disk files typically have the records combined into blocks
for efficiency. One consequence of this form of storage is that files
@Index(File attributes)
@Indexentry(key="Attributes",entry="Attributes. @i<See> File attributes")
have attributes describing the component records: maximum record
length (LRECL), record format (RECFM), and sometimes block size
@Index(BLKSIZE)
(BLKSIZE).
As mentioned before, Kermit-370 is a family of programs. At present,
only the CMS, TSO, MUSIC, ROSCOE, and CICS variants are operational.
Variants for DOS-4
@Index(DOS-4)
and MTS
@Index(MTS)
have at least reached the "drawing board,"
but no others have even been started as of this writing.
Volunteers are always
welcome to port Kermit-370 to other operating systems or add new
features to the existing family. Anyone interested should first get
in touch with the Center for Computing Activities at Columbia
University to find out what projects of a similar nature are already
pending (and thereby prevent unnecessary duplication of effort).
There are supplemental files in the Kermit distribution with
explanations of how to go about porting Kermit-370 and how to add
support for new terminal controller types. For details, refer
to the installation
guide for the variant of your choice.
@Section<Translation Tables>
Traditionally, IBM mainframe Kermits have translated
7-bit ASCII characters to 8-bit EBCDIC characters and ignored the
"parity" bit in the process. Similarly, the 8-bit EBCDIC characters
have been mapped onto 7-bit ASCII, thereby producing many ambiguities
in translating the ASCII files back to EBCDIC. These ambiguities fall
into two categories: EBCDIC characters not representable in ASCII
have been rendered as ASCII nulls,
and alternate EBCDIC representations of characters such
as the ASCII backslash have been mapped together,
but at least no two 7-bit ASCII characters
are translated into the same EBCDIC character.
The ambiguities
were tolerable in environments where the traditionally non-printable
characters never occurred in text files, but text processing has
increasingly tended to include such characters for mathematical
formulas or for languages other than English. Ultimately, the
translation tables must become completely invertible, lest information
be lost in the transfer. There has long been
an option to replace parts of the translation tables via commands from
the user (or imbedded in the INIT files), but such replacements
were always supported locally and were, therefore, basically
non-standard.
The concept of standard translations is currently in a state of flux
because of the proliferation of 8-bit code pages and the countervailing
efforts at standardization among groups such as the ISO and Kermit
developers.
In particular, Kermit-370 now supports a
set of EBCDIC and "extended ASCII" code pages with built-in
translation tables and automatic identification of the "ASCII"
transfer character set via Attribute packets.
This facility supports
@Index(Code pages)@Index(Character sets)
@seealso(primary="Code pages",other="Character sets")
files stored using numerous IBM Country Extended Code Pages and permits
transfers using character sets ASCII, ARABIC, CYRILLIC, GREEK, HEBREW,
JAPAN-EUC, KATAKANA, LATIN1, LATIN2, LATIN3, and
THAI. See Table @ref(-ikchars) for a display of the allowed
combinations of character sets.
@Index<Arabic>@Index<Thai>
@Index<Kanji>@Index<Greek>@Index<Cyrillic>@Index<Hebrew>@Index<Katakana>
See also file ISOK7.TXT in the Kermit distribution
for a somewhat outdated description of the protocol extensions.
Kermit-370 currently supports text files in the following
languages:
@Index(Languages)
Afrikaans, Albanian, Arabic, Bulgarian, Byelorussian, Catalan, Czech, Croatian,
Danish, Dutch, English, Esperanto, Faeroese, Finnish, French, Gaelic,
Galician, German, Greek, Hebrew, Hungarian, Icelandic, Italian, Japanese
(Katakana and Kanji), Lao, Latin, Macedonian,
Maltese, Norwegian, Polish, Portuguese,
Quechua, Romanian, Russian, Serbian, Slovak,
Slovene, Spanish, Swahili, Swedish, Thai, Turkish,
Ukrainian, and Volap@uum()k.
Visual representations of the characters sets may be found in the ISO
register (for transfer) and in various IBM documents, such as S544-3156
"About Type" (for files).
Kermit itself normally operates in English, but there are versions
with the interactive messages translated into other languages. The
currently available languages are Czech, Dutch, Finnish, French,
German, Italian, Polish, Portuguese, Russian, and Spanish. Special
thanks to Petr Adelsberger, Mauricio Alvarenga, Lorenzo Beltrame,
Janusz Bien, Jose Eduardo de Lucca, Richard Gatersleben, Kauko
Haumalainen, Jaroslaw Kurowski, Roberto Magana, Alberto Rio, Christian
Robert, Gisbert Selke, Karel Smuk, Rob van der Wal, Konstantin
Vinogradov, and Joachim Wlodarz for preparing these translations. See
the installation guide for details on the alternate-language versions. There
are no translations yet of the help files, nor of this document.
@begin<table,use format>
@tabclear()
@tabset(0.9in,1.5in,2.1in,2.6in,3.2in,3.7in,4.3in,5.0in,5.4in,5.7in,6.0in,6.5in)
@bar()
@blankspace(1)
@\ @\ @\ @u<Transfer character set>
@blankspace(1)
@=@u<Local>@=ASCII@=ARAB.@=CYR.@=GREEK@=HEB.@=JAPAN@=KATAK.@=L1@=L2@=L3@=THAI@=
@blankspace(1)
@=CP037 @=*@= @= @= @= @= @= @=**@= @= @= @=
@=CP273 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP275 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP277 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP278 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP280 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP281 @= @= @= @= @= @=*@= @=**@= @= @= @=
@=CP282 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP284 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP285 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP290 @= @= @= @= @= @=*@=**@= @= @= @= @=
@=CP297 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP420 @= @=**@= @= @= @= @= @= @= @= @= @=
@=CP424 @= @= @= @= @=**@= @= @= @= @= @= @=
@=CP500 @=*@= @= @= @= @=*@= @=**@= @= @= @=
@=CP838 @= @= @= @= @= @= @= @= @= @= @=**@=
@=CP870 @= @= @= @= @= @= @= @= @=**@= @= @=
@=CP871 @= @= @= @= @= @= @= @=**@= @= @= @=
@=CP875 @= @= @= @=**@= @= @= @= @= @= @= @=
@=CP880 @=*@= @=**@= @= @= @= @= @= @= @= @=
@=CP905 @= @= @= @= @= @= @= @= @= @=**@= @=
@=CZECH @= @= @= @= @= @= @= @= @=*@= @= @=
@=DKOI @=*@= @=***@= @= @= @= @= @= @= @= @=
@=EBCDIC@=*@= *@= @= @= @= @= @=***@= @= @= @=
@=H-EBCD@= @= @= @= @= @=*@=*@= @= @= @= @=
@=KANJI @= @= @= @= @= @=*@= @= @= @= @= @=
@caption<Allowed character set combinations in Kermit-370>
@tag<-ikchars>
@begin<text,fill>
@Index<Arabic>@Index<Thai>
@Index<Kanji>@Index<Greek>@Index<Cyrillic>@Index<Hebrew>@Index<Katakana>
All allowed combinations are marked with asterisks, and the preferred
combination in each row or column is the one with the most asterisks.
Whenever a character set is specified, either directly or through an
Attribute packet, the other category of character set is checked to see
if it makes up an allowed combination. If not, it is forced to the
preferred character set.
@end<text>
@blankspace(1)
@bar()
@end<table>
@Index(Translation tables)
As nearly as possible, the tables in
Kermit-370 are
invertible, but all of the character sets reserve many (typically 65)
code points for control characters and leave them officially undefined
and unprintable. This applies both to IBM code pages and ISO standard
8-bit character sets. Although 33 of the controls have widely accepted
mappings, the others do not, and Kermit-370 currently uses those given
in an appendix of IBM's VS/Fortran Reference Manual. Needless to say,
such translations are arbitrary and may be invalidated by future
decisions at IBM or ISO. Still, most of the translations are likely
to be stable in the long run. Table @ref(-ikatoe) shows the current
translation from LATIN1 to EBCDIC, which is likely to be the most
often used. Other translations, including the reverse ones, may be
displayed using the TDUMP subcommand of Kermit-370.
@begin<table,use format>
@tabclear()@tabset(0.6in,0.9in,1.2in,1.5in,1.8in,2.1in,2.4in,2.7in,
3.0in,3.3in,3.6in,3.9in,4.2in,4.5in,4.8in,5.1in,5.4in)
@bar()
@blankspace(1)
@= @=-0@=-1@=-2@=-3@=-4@=-5@=-6@=-7@=-8@=-9@=-A@=-B@=-C@=-D@=-E@=-F@=
@blankspace(1)
@=0-@=00@=01@=02@=03@=37@=2D@=2E@=2F@=16@=05@=25@=0B@=0C@=0D@=0E@=0F@=
@=1-@=10@=11@=12@=13@=3C@=3D@=32@=26@=18@=19@=3F@=27@=1C@=1D@=1E@=1F@=
@=2-@=40@=5A@=7F@=7B@=5B@=6C@=50@=7D@=4D@=5D@=5C@=4E@=6B@=60@=4B@=61@=
@=3-@=F0@=F1@=F2@=F3@=F4@=F5@=F6@=F7@=F8@=F9@=7A@=5E@=4C@=7E@=6E@=6F@=
@=4-@=7C@=C1@=C2@=C3@=C4@=C5@=C6@=C7@=C8@=C9@=D1@=D2@=D3@=D4@=D5@=D6@=
@=5-@=D7@=D8@=D9@=E2@=E3@=E4@=E5@=E6@=E7@=E8@=E9@=AD@=E0@=BD@=5F@=6D@=
@=6-@=79@=81@=82@=83@=84@=85@=86@=87@=88@=89@=91@=92@=93@=94@=95@=96@=
@=7-@=97@=98@=99@=A2@=A3@=A4@=A5@=A6@=A7@=A8@=A9@=C0@=4F@=D0@=A1@=07@=
@=8-@=20@=21@=22@=23@=24@=15@=06@=17@=28@=29@=2A@=2B@=2C@=09@=0A@=1B@=
@=9-@=30@=31@=1A@=33@=34@=35@=36@=08@=38@=39@=3A@=3B@=04@=14@=3E@=FF@=
@=A-@=41@=AA@=4A@=B1@=9F@=B2@=6A@=B5@=BB@=B4@=9A@=8A@=B0@=CA@=AF@=BC@=
@=B-@=90@=8F@=EA@=FA@=BE@=A0@=B6@=B3@=9D@=DA@=9B@=8B@=B7@=B8@=B9@=AB@=
@=C-@=64@=65@=62@=66@=63@=67@=9E@=68@=74@=71@=72@=73@=78@=75@=76@=77@=
@=D-@=AC@=69@=ED@=EE@=EB@=EF@=EC@=BF@=80@=FD@=FE@=FB@=FC@=BA@=AE@=59@=
@=E-@=44@=45@=42@=46@=43@=47@=9C@=48@=54@=51@=52@=53@=58@=55@=56@=57@=
@=F-@=8C@=49@=CD@=CE@=CB@=CF@=CC@=E1@=70@=DD@=DE@=DB@=DC@=8D@=8E@=DF@=
@blankspace(1)
@caption<EBCDIC (hexadecimal) code points for LATIN1>
@tag<-ikatoe>
@begin<text,fill>
This table shows the values of the EBCDIC equivalents for the
code points in the LATIN1 character set. The values are arranged in
LATIN1 collating sequence, and the rows and columns are labeled with
the first and second digits, respectively, of the LATIN1 code points.
For example, LATIN1 code 41 (hex) is upper-case "A", and
the intersection of row "4-" and column "-1" has the value C1 (hex),
which is the EBCDIC code for "A". Rows "0-", "1-", "8-", and "9-" are
officially undefined in ISO 8859-1 and so, in principle, could be
changed at some future time, especially "8-" and "9-". Note that
this table uses a format close to that of the TDUMP subcommand and
of the Kermit code itself, but
character-set tables are often displayed with the rows and columns
interchanged.
@end<text>
@blankspace(1)
@bar()
@end<table>
Besides converting files for transmission, Kermit-370 must also
@Index(Translation) compensate for the EBCDIC/ASCII translation
performed by some front ends and must, therefore, be able to apply the
exact reverse translations on both input and output. This is the
"middle layer" of translation described earlier for @qq(TTY) devices.
Consider the fate of a Left Square Bracket character in an inbound
packet on a @qq(TTY) line. It begins as ASCII code x'5B' (91
decimal), but the front end translates it to EBCDIC before presenting
it to Kermit-370. In this example, suppose it becomes EBCDIC code
x'4A' (74 decimal) instead of the standard x'AD' (173 decimal). Then,
Kermit must be primed with a @q(SET TETOA 74 91) so that, when
reconstructing the original ASCII packet, the character becomes x'5B'
again. Otherwise, the packet checksum will appear invalid. Kermit
comes with a pair of default tables, but it may be necessary to
customize them, as this example shows. The following procedure will
reveal any changes needed. The procedure has two stages: the first is
for any line-mode front end, and the second only for front ends capable
of full 8-bit data transfer. Note that, although the discussion
refers to hexadecimal values, the Kermit-370 SET subcommands require
decimal numeric arguments. Also, note that this procedure assumes you
will run Kermit with TTABLE set on; hence, the references to
Kermit-370 tables are to TATOE and TETOA. If you choose to define
Kermit's file translation to match that of the front end, you should
leave TTABLE set off and remove the T's from the SET subcommands
described below. This will also turn off the automatic switching of
translation tables according to the Attribute packets received from
the other Kermit. Under CMS, you must issue a @q(CMS SET INPUT) and
a @q(CMS SET OUTPUT) before starting this procedure.
@begin(enumerate,spread 0.5)
Create a file containing all the non-control EBCDIC characters (hex
codes 40-FF) and display the file on any available ASCII terminal
hooked up to the line-mode front end in question.
If any printable ASCII character is missing from the display, Kermit
cannot work through this front end (unless you modify the tables in
the front end itself).
If any ASCII character appears twice, there is no cause for alarm.
If any ASCII character does not appear where it should, according to
Table @ref(-iketoa), a SET TATOE must be added to the system
INIT file.
For example, if EBCDIC code 5F (Not Sign, according to the
Appendix) appears as an ASCII Tilde (7E), but EBCDIC A1 (Tilde)
does not, a SET TATOE 126 95 is required. Warning: characters
considered unprintable by the front end are likely to be filtered
out entirely when you display the file; do not expect the display
to line up just like Table @ref(-iketoa).
Create a file on the mainframe
using an ASCII terminal for input, and enter all 95
printable ASCII characters in collating
sequence. You can presumably save time by skipping the 52 upper-
and lower-case letters and the 10 digits.
Display the file from the previous
step in hexadecimal or other binary form.
If any duplicates appear among the 95 characters (or 33, if you have
taken the short cut), Kermit
cannot work through this front end (unless you modify the tables in
the front end).
Compare the hexadecimal codes with rows 2-7 of Table @ref(-ikatoe).
If a discrepancy appears, a SET TETOA must be added to the system INIT
file. For example, if ASCII Left Bracket (5B) appears as EBCDIC
4A, a SET TETOA 74 91 is needed. At this point, the first stage is
complete.
If 8-bit line-mode file transfer is desired, you must now verify the
extended character set.
Display the file of EBCDIC codes again, this time using a terminal with
extended character set display, or capture the session with a micro
Kermit and display the resulting file in hexadecimal. If any
code in the range A0-FE does not appear, the front end will
not allow 8-bit Kermit data transfers. Generate SET TATOE entries
for the entire range, as needed,
just as in the example given for 7-bit codes.
If the front end's translation tables are documented, it may be easier
to work from the manual, but you must be sure that you have tables for
all of the translations that occur on the data path.
Create a file of the 95 extended ASCII codes A0-FE, if possible, by
using a terminal capable of transmitting those codes or transmitting
a pre-made file "raw". If necessary, use the appropriate table(s) in
the manual(s) instead.
Again, if any duplicates appear, this front end is incapable of 8-bit
file transfers. Otherwise, generate SET TETOA entries as before.
@end<enumerate>
@begin<table,use format>
@tabclear()@tabset(0.6in,0.9in,1.2in,1.5in,1.8in,2.1in,2.4in,2.7in,
3.0in,3.3in,3.6in,3.9in,4.2in,4.5in,4.8in,5.1in,5.4in)
@bar()
@blankspace(1)
@= @=0@=1@=2@=3@=4@=5@=6@=7@=8@=9@=A@=B@=C@=D@=E@=F@=
@blankspace(1)
@=4-@= @= @= @= @= @= @= @= @= @= @= @=.@=<@=(@=+@=|@=
@=5-@=&@= @= @= @= @= @= @= @= @= @=!@=$@=*@=)@=;@=^@=
@=6-@=-@=/@= @= @= @= @= @= @= @= @= @=,@=%@=_@=>@=?@=
@=7-@= @= @= @= @= @= @= @= @= @=@q(`)@=:@=#@=@@@=@q(')@==@="@=
@=8-@= @=a@=b@=c@=d@=e@=f@=g@=h@=i@= @= @= @= @= @= @=
@=9-@= @=j@=k@=l@=m@=n@=o@=p@=q@=r@= @= @= @= @= @= @=
@=A-@= @=~@=s@=t@=u@=v@=w@=x@=y@=z@= @= @= @=[@= @= @=
@=B-@= @= @= @= @= @= @= @= @= @= @= @= @= @=]@= @= @=
@=C-@={@=A@=B@=C@=D@=E@=F@=G@=H@=I@= @= @= @= @= @= @=
@=D-@=}@=J@=K@=L@=M@=N@=O@=P@=Q@=R@= @= @= @= @= @= @=
@=E-@=\@= @=S@=T@=U@=V@=W@=X@=Y@=Z@= @= @= @= @= @= @=
@=F-@=0@=1@=2@=3@=4@=5@=6@=7@=8@=9@= @= @= @= @= @= @=
@blankspace(1)
@caption<Character graphics for EBCDIC codes>
@tag<-iketoa>
@begin<text,fill>
This table shows the representations of the EBCDIC codes
arranged in
EBCDIC collating sequence, row by row.
Codes that do not correspond to
ISO 646 characters (7-bit ASCII), have been left blank. One
special case is the EBCDIC code 5F, which represents a Not Sign in
IBM's CP037, but which is traditionally mapped to the ASCII
Circumflex, as shown here. WARNING: this manual may have been printed
on a device that maps characters differently. Consult the Appendix to
verify.
@end<text>
@blankspace(1)
@bar()
@end<table>
@Section<File Attributes>
Kermit-370 attempts to send and receive file attributes along with
the files themselves. Before Kermit
receives a file, it compares the Length attribute (if available)
with the amount of disk space available (if known) so that
the file can be rejected if it will not fit. In addition, the Type,
Access, Encoding, Disposition, and Format attributes, if any, are
interpreted in order to match the received file to the original as
nearly as possible. All
other attributes (including Date) are simply ignored.
For Type, Kermit recognizes text and binary
specifications; for Access, it recognizes append, normal, and
supersede; for Encoding, it recognizes ASCII, extended, and EBCDIC
(which it treats as binary); for Disposition, it recognizes mail,
print, and job; and for Format, it recognizes text, D-binary,
V-binary, binary, and LRECL. Any other values are rejected.
On sending a file, if the other Kermit is willing to accept
Attribute packets, Kermit-370 sends the Type, Encoding, Format,
Date, and Length attributes (unless some or all of them have
been disabled -- see the SET ATTRIBUTE subcommand).
Unfortunately, the set of file attributes defined in the Kermit
protocol is not well matched to the needs of IBM 370 file systems,
so that much of the machinery for creating and interpreting of
Attribute packets is useless. For example, the "Format"
attribute, which should logically specify the record format of the
received file, gives only the format of the file in transmission
and cannot distinguish between fixed-length and varying-length
records for text files. This limitation is partly due to the
fact that other Kermits do not generally support the same attributes.
In short, even if the protocol made it possible, some of the
important attributes would never be specified anyway. Nonetheless,
efforts are being made to extend the protocol to be more
comprehensive.
@Section<Program Operation>
Kermit-370 can be invoked directly or from a command procedure.
In either case, it reads and executes subcommands sequentially until
directed to quit, and then returns.
A subcommand consists of one or more fields (words) separated by spaces
or commas.
@Index(Initialization files)
Upon startup, the program looks for two (optional)
initialization files, one system-wide and a second specific to the
user. Both @i<filespecs>
are, of course, system-dependent.
The purpose of these files is to allow Kermit to be customized for a
particular system and for a user's specific settings without changing
the source code.
The system-wide file, which is maintained by a systems programmer,
should contain Kermit subcommands
that all users would need to issue in order for
Kermit to run on the system, such as subcommands to modify the
ASCII/EBCDIC tables used by Kermit-370. The
user-specific file, if any,
should contain subcommands that the user generally
issues every time Kermit is run. Kermit-370 executes any subcommands
found in these files as though they were typed at the terminal.
Here is a sample INIT file:
@begin(example)
* Asterisk in column one is a comment.
set transfer character-set latin1
set file collision rename
set block 3
@end(example)
During interactive execution,
you may use the built-in help feature while typing
Kermit-370 subcommands. A question mark ("?") typed at almost any point
in a subcommand, followed by a carriage return, produces a brief
description of what is expected or possible at that point. Moreover,
mistyping a subcommand will generally produce a helpful error message or
a list of possible options at the point of error. Keywords in such
lists are displayed with the minimum-length abbreviation in upper case
and the remainder, if any, in lower case. In entering Kermit
subcommands, any keyword may be shortened to any substring that contains
the minimum abbreviation.
Besides knowing the mechanics of entering Kermit subcommands and
interpreting responses, the user must understand
which subcommands are necessary. The
default values for Kermit-370 options have, in some cases, been
constrained by a desire for continuity, so that some of the default
behavior is distinctly "suboptimal." An example of this is the
traditional 80-byte default RECEIVE packet size, which generally gives
much slower transmission than a size of 1000 or more.
@Index(Initialization files)
Such options are flagged in this chapter with a notation that they
perhaps ought to be set in the INIT files.
Note, however, that the interplay of Kermit protocol sometimes
provides a performance upgrade with no special action required from
the Kermit-370 user. An example of this is the SEND packet-size,
which is always under the control of the other Kermit. Kermit-370
always sends packets as long as the other Kermit allows, unless the
frequency of transmission errors indicates that shorter packets
would be more efficient (see the subcommand SET SPEED).
Kermit-370 also attempts to produce optimal results by adapting to
the file attributes sent by the other Kermit along with
the files, such as TYPE and LRECL. Such attributes, when sent by
the other Kermit, temporarily override the current settings in
Kermit-370 during the reception of the associated file. Potentially
even more importantly, Kermit-370 automatically recognizes the
character set used for the file transfer and chooses, if necessary,
a compatible character set for file storage. Table @ref(-ikchars)
shows the currently supported list of character sets. As with
any automatic operation, Kermit's honoring of the transmitted
attributes may need to be suppressed in part or altogether, and the
SET ATTRIBUTE subcommand provides this capability.
Another attribute that Kermit-370 supports is file disposition,
@Index(File disposition)@Index(Electronic mail)@Index(Mail)
which allows files to be received and immediately retransmitted
as electronic mail, sent to a printer, or submitted as a
@Index(Printing files)@Index(Submitting jobs)@Index(Batch jobs)
@seealso(primary="Submitting jobs",other="Batch jobs")
@seealso(primary="Mail",other="Electronic mail")
batch job. These three options are highly site-specific and are
implemented as a set of three host commands with
similar calling sequences. In each case, the command is invoked
in two different ways in the process of processing the file. It
is called without any @i(filespec)
or other options as soon as the corresponding attribute is
recognized by Kermit-370. If the command is not implemented or
for some reason returns a non-zero completion code (such a code
should be negative, if at all possible), Kermit-370
rejects the file using the normal attribute exchange mechanism.
Otherwise, the file is received as usual, and the command is
invoked again at the end-of-file. The second time, the command is
given the name of the received file and the options received from
the sending Kermit (such as the list of recipients for electronic
mail). The command is then responsible for disposing of the file (and
deleting it, if desired). If, for any reason, the file cannot be
sent as required, the command should return a negative completion
code (or non-zero, at any rate), and Kermit-370 will send back an
error message to the sending Kermit. The command itself should
refrain from issuing any messages of its own or permitting commands that
it invokes to issue messages.
See the beginning of the chapter on the
system-specific variant of Kermit-370 for the exact command
syntax. Some sample implementations of such commands may be
available in the Kermit distribution -- refer to the system-specific
installation guide for a list of samples.
@Section<Kermit-370 Subcommands>
The following is a summary of Kermit subcommands. The starred
subcommands can be issued as
remote Kermit commands to Kermit-370 when it is in
server mode. System-specific subcommands are omitted from this list.
@Begin(Format,spread 0)
@tabclear()@tabset(1.25inches,1.4inches,1.65inches)
@>BYE@\ @\ logs out other Kermit server.
@>CWD@\*@\ establishes a new working directory.
@>DIRECTORY@\ @\ displays all or part of the disk directory.
@>ECHO@\ @\ a line back to the user.
@>EXIT@\ @\ from Kermit-370.
@>FINISH@\ @\ other Kermit server.
@>GET@\ @\ file(s) from a Kermit server.
@>GIVE@\*@\ creates a TAKE file snapshot of a table.
@>HELP@\ @\ about Kermit-370.
@>HOST@\*@\ executes a system command.
@>KERMIT@\*@\ executes a Kermit subcommand.
@>QUIT@\ @\ from Kermit-370.
@>RECEIVE@\ @\ file(s) from other Kermit.
@>SEND@\ @\ file(s) to other Kermit.
@>SERVER@\ @\ mode of remote operation.
@>SET@\*@\ various parameters.
@>SHOW@\*@\ various parameters.
@>SPACE@\*@\ displays disk storage allocation.
@>STATUS@\*@\ inquiry.
@>STOP@\ @\ easy escape from protocol mode.
@>TAKE@\*@\ subcommands from file.
@>TDUMP@\*@\ dumps the contents of a table.
@>TYPE@\*@\ a file.
@>VERSION@\*@\ of Kermit-370.
@>XECHO@\ @\ echoes a line (transparently).
@>XTYPE@\ @\ displays a file (transparently).
@End(format)
@Index(Remote)@Index(Local)
Although Kermit-370 is generally a remote Kermit, it has
the capability of communicating with another Kermit in server mode.
@Indexentry(key="Prefix",entry="Prefix. @i<See> Command, Eighth-bit, Foreign")
@Indexentry(key="Subcommand prefix",
entry="Subcommand prefix. @i<See> Command prefix")
In that situation, the
@Index(Command prefix)
subcommand prefixes REMOTE and LOCAL refer to the Kermit server and
Kermit-370, respectively, even when Kermit-370 is, strictly speaking,
the remote Kermit. To help avoid confusion, this chapter will often
@Index(Foreign)
use the term "foreign" to apply to the Kermit at the other end from
Kermit-370. All the above subcommands may be preceded by the
LOCAL prefix, but only certain ones are valid with REMOTE, including
some not shown here. See the description of the SERVER subcommand
for details. Any text replies Kermit-370 gets from the foreign
Kermit server are added to a disk file (whose @i<filespec> is,
of course, system-dependent).
Such a transaction can be carried out, for example, under control of
a TAKE file if Kermit-370 is not operating locally.
If the local Kermit has a "magic" character sequence that switches it
from terminal emulation to server mode, then an entire session
could be controlled from the mainframe, possibly in response to a
single command issued by a naive user. For example,
@Begin(example)
.@ux(grab)
@i(Kermit-370 is invoked and executes the following TAKE file)
ECHO Serve Me! @i(the local Kermit switches to server mode)
GET file.a @i(the server uploads file.a)
FINISH @i(the server switches back to terminal mode)
@End(example)
The remainder of this section describes
subcommands with special meaning or use in Kermit-370, except
the highly system-dependent ones. For the latter, refer to the
appropriate chapter. Subcommands are
listed in alphabetical order.
@Heading(The ECHO and XECHO Subcommands)
@Index(ECHO)@Index(XECHO)
Syntax:@q< [X]ECHO @i(line)>
These subcommands type the @i(line) back at the user.
The @i(line) may contain control characters or any desired
text, including upper or lower case. These
subcommands may be used, for example, to test the ASCII/EBCDIC translate
tables or to issue coded commands to the user's terminal.
XECHO differs from ECHO primarily in that it sends the text as a
@Index(Raw transmission)raw transmission according to the current
CONTROLLER setting. Thus, XECHO will, if necessary, break the text
into pieces no larger than the current SEND PACKET-SIZE and will
use transparent mode if CONTROLLER is
@Index(Transparent mode)
SERIES1, GRAPHICS or AEA. It also offers its own
brand of control-character quoting, using the @qq<^> character to
indicate that only the five low-order bits of the ASCII codes are
to be used.
Thus, @qq(^a), @qq(^A), and @qq(^!) are all translated to SOH (CTRL-A),
while @qq(^[) becomes ESC. However, there must be one exception for
@qq(^) itself: @qq(^>) and @qq(^~) are both translated to RS
(CTRL-@q<^>), but @qq(^^) becomes just @qq(^). XECHO also decodes
8th-bit quoting, just as in Kermit protocol, and this feature can be
disabled by setting 8th-bit quoting off. For example, if the 8th-bit
quote character is @qq(&), entering the subcommand @qq(XECHO &A) will
transmit a code x'C1', but the same subcommand with quoting off will
transmit two bytes: x'2641'.
@Heading<The GET Subcommand>
@Index(GET)
@Index(SEND)@Index(RECEIVE)
Syntax:@q< GET [@i(foreign-filespec) [@i(filespec)]]>
The GET subcommand tells Kermit to request a file or file group
from the other system, which must have a Kermit running in server mode.
Provided the other Kermit complies, the effect is the same as if
SEND @i(foreign-filespec) had been issued directly to the other Kermit
and RECEIVE [@i(filespec)] to Kermit-370.
If this subcommand is issued without any arguments,
Kermit-370 will prompt the user for both foreign and native
@i<filespecs> (and will insist on getting the former, but will do
without the latter). See the respective SEND and RECEIVE
subcommands for a description of the each @i<filespec>.
@Heading(The GIVE Subcommand)
@Index(GIVE)@Index(Translation tables)
Syntax:@q< GIVE @i(table-name) @i(filespec)>
This
compares the named translation or selection
table with its current default values and
saves the differences
in the form of a TAKE file consisting of SET subcommands that would
convert the default into the current arrangement.
ATOE, ETOA, TATOE, and TETOA are the available
translation tables, and CONTROL-CHAR is the selection table.
The details of the @i<filespec> are system-dependent, but those details
will, in general, be the same as for the TAKE subcommand (@i<q.v.>).
In the case of tables ATOE and ETOA, the current defaults are the
values from the most recent character-set definition, if any, but the
defaults for TATOE and TETOA always remain at the initial values.
See the SET FILE CHARACTER-SET and SET TRANSFER CHARACTER-SET
subcommands for more details.
@Heading(The HINTS Subcommand)
Syntax:@q< HINTS>
This subcommand produces a screenful of suggestions for Kermit operation,
including warnings about any current settings that may be undesirable.
@Heading(The HOST Subcommand)
@Index(Host commands)
Syntax:@q< HOST @i(text of command)>
This issues a command to the host operating system from Kermit-370.
When a command returns a non-zero completion code, the
code will be displayed.
Generally, the name of the system (@i<e.g.>, CMS)
is treated as a synonym for the HOST subcommand.
When Kermit-370 is in (non-local) server mode, you must avoid
sending it any HOST commands that trigger full-screen terminal I/O,
since the server-client interface does not provide any full-screen
@Index(Full screen)
terminal emulation, nor is Kermit-370 usually able to intercept such
I/O in any case.
@Heading(The KERMIT Subcommand)
Syntax:@q< KERMIT @i(text of subcommand)>
This is provided for redundancy as the counterpart of the
HOST subcommand. Kermit-370 executes the specified text as a Kermit
subcommand just as if the LOCAL prefix had been entered. Note, however,
that the specified text must not begin with a second KERMIT prefix.
@Index(Command prefix)
@Heading<The RECEIVE Subcommand>
@Index(RECEIVE)
Syntax:@q< RECEIVE [@i(filespec)]>
The RECEIVE subcommand tells Kermit-370 to accept a file or file group.
The user must issue the corresponding
SEND subcommand to the other Kermit.
When files
are received, their names are recorded in a transaction log in
@Index(Transaction log)
memory and may be viewed later
via the TDUMP NAMES subcommand. The log contains the names along
with the file sizes and any relevant error messages.
Another form of log may be provided through an accounting exit routine,
which is called at the end of every RECEIVE session. Such an accounting
log may contain elapsed time and numbers of bytes sent, received, and
transferred to/from disk.
@Index(Incomplete files)
If an error occurs during the file transfer, as much of the file as
was received is saved on disk. If, however, the sending of a file is
cancelled by the user of the foreign system, Kermit-370 will discard
whatever had arrived, unless FILE COLLISION is APPEND
or INCOMPLETE is KEEP.
Kermit-370 has a context-dependent
maximum record length, and received records
longer than that will be folded or
truncated to the proper length; when this happens, Kermit may or may
not stop, depending on the FILE subparameter LONGLINE. If truncation
does occur, Kermit will later note the fact
as an error (unless something more serious happens in the meantime).
In addition, when a fixed record length is specified, received records
are padded to the correct length. The padding character is a blank
for text files and a null for binary files.
@Index(Binary files)
Received binary (but not V-binary or D-binary) files are treated as
byte streams and broken up into records all of the logical record
length, @i<i.e.>, folded.
For more details on the RECEIVE
subcommand syntax and operation,
see the chapter on the desired system-specific variant of Kermit-370
under both RECEIVE and SET FILE.
See also (in this chapter) the SET FILE LONGLINE subcommand for details
on record truncation and folding.
@Index(Truncation)@Index(Folding)
@Heading<The SEND Subcommand>
@Index(SEND)@Index(Long packets)
Syntax:@q{ SEND [@i(filespec)[<@i(options)>] [@i(foreign-filespec)]][, ...]}
The SEND subcommand tells Kermit-370 to send a file or file group to the
other (foreign)
Kermit. If no such file exists, Kermit-370 simply displays an
error message and issues another prompt.
@Index(Transaction log)
Like RECEIVE, SEND keeps a transaction log of all files transferred
in a group and calls the accounting exit routine
at the end of the session.
If this subcommand is issued without any arguments,
Kermit-370 will prompt the user for both native and foreign
@i<filespec>s (and will insist on getting the former, but will do
without the latter). Either with or without prompting, SEND allows
specifying a list of up to 13 files (or file groups)
separated by commas.
(By ending the command line or subsequent response with a comma, the
user ensures further prompting.)
In this syntax, the @i<options> enclosed in angle brackets may be
regarded as part of the native @i<filespec>. There must be no
intervening blanks. At present, the only supported option is a
range of line numbers within the file to be sent. The range
takes the form [@i(n)][-[@i(m)]], where @i(n) is the number of the
first line to send (counting from 1), and @i(m) is the last. Omitting
either number implies the corresponding limit is the physical
beginning or end of the file.
This same option syntax may be used in some
commands issued to the foreign Kermit, namely, those involving
@i<filespec>s in 370 form. In particular,
GET and REMOTE TYPE can use this syntax.
@Index(Type)
Note that a trailing @qq(>) is used by some other Kermits, such as
MS-Kermit, to indicate redirection of the output from REMOTE
commands to disk. In order to transmit the @qq(>) and also prevent the
redirection to disk, it would be necessary to add an explicit
redirection to the terminal, as in
@example(REM TYPE @i<filespec><@i<n>-@i<m>> > CON)
@Index(Cancelling a file transfer)
Although file transfers cannot be cancelled from the 370 side,
Kermit-370 is capable of responding to
"cancel file" or "cancel batch"
signals from the local Kermit; these are typically entered by typing
CTRL-X or CTRL-Z, respectively.
When Kermit-370 sends files using long packets (longer than 94), the
throughput is especially sensitive to the level of noise on the line
because retries are so time-consuming. Therefore, Kermit-370
imposes an
extra, heuristic size limit on packets when retries have been found
necessary. When that is the case, after every 15 packets, Kermit
computes the packet size
@Index(Packet size)@Index(Optimum packet size)
for maximum throughput assuming that the
transmission errors were due to sparse, Poisson-distributed noise
bursts. The result of this calculation is then used as another limit on
the size of outgoing packets besides the one specified by the other
Kermit. If no retries are required, then Kermit-370 assumes the line to
be noiseless and sends packets of the maximum length the
other Kermit allows. The algorithm is explained in @i(Kermit News)
V. 3 #1.
For more details on the SEND
subcommand syntax and operation,
see the chapter on the desired system-specific variant of Kermit-370.
@Heading<The SERVER Subcommand>
@Index(SERVER)
Kermit-370 is capable of acting as a server. In server mode,
Kermit-370 can send and receive files, execute host commands,
execute a restricted set of Kermit subcommands, and perform a variety of
generic Kermit functions. The following list shows the typical local
Kermit commands along with the server functions they elicit.
When Kermit-370 is talking to another Kermit running in server mode,
these same subcommands may be used in the other direction.
@begin(format,spread 0)
@tabclear()@tabset(2.0inches)
BYE@\log out the Kermit server.
FINISH@\server mode.
GET@\a file or files from the server.
REMOTE
COPY@\a file or files.
CWD@\set new working directory.
DELETE@\a file or files.
DIRECTORY@\display file attributes.
HELP@\display a command summary, such as this.
HOST@\execute a system command.
KERMIT@\execute a Kermit-370 subcommand.
PRINT@\send a file to be printed by the server.
RENAME@\a file or files.
SPACE@\display disk space.
TYPE@\a file.
SEND@\a file or files to the server.
@end(format)
If your local Kermit does not support the REMOTE KERMIT command,
you may need to issue SET
subcommands to select various options before typing the SERVER
subcommand. Once in server mode,
Kermit-370 will await all further instructions from the client Kermit
on the other end of the connection until a FINISH or BYE command is
given.
Command execution in server mode is different in some respects
from normal operation. First of all, some Kermit subcommands
are not allowed (see the list at the beginning of this section).
Moreover, command errors
always terminate any active TAKE file.
Also, all commands will be run in the
special environment that Kermit sets up during protocol transfers.
Among other things, Kermit intercepts all
terminal I/O (if possible) in this environment in order to
transmit the data to the local
Kermit as text packets.
Note that some operations can be requested by several different
commands. If for example, the IBM 370 system has a command @qq(PRT) for
displaying a file, a user interacting with a Kermit-370 server
can choose to display a file by issuing any
@Index(Type)
of the commands: REMOTE TYPE, REMOTE HOST PRT, REMOTE KERMIT TYPE,
REMOTE KERMIT HOST PRT, or (if SYSCMD has been set ON) REMOTE KERMIT
PRT. The first form simply transfers the
requested file as text, but the others invoke the @qq(PRT) command
with any specified options, intercept the terminal output,
and return the results to the local Kermit.
The first form is also distinguished by the fact that the line range
may be specified in the same manner as in the SEND subcommand. The
syntax of the others is system-dependent.
@Heading<The SET Subcommand>
@Index(SET)
Syntax:@q< SET @i(parameter) [@i(value)]>
The SET subcommand establishes or modifies various parameters
controlling file transfers. The values can, in turn, be
examined with the SHOW subcommand.
Some parameters have two levels. In particular, there are two
matching lists of SEND and RECEIVE sub-parameters corresponding to
the values exchanged by Kermits in the Send-Init/ACK sequence.
For each of these SEND/RECEIVE pairs one element is encoded in
outgoing parameter packets, and the other is decoded from incoming ones.
Setting the latter by hand may be needed to establish contact and also
has the effect of redefining the default value for decoding from
subsequent parameter packets.
Generally, the distinction between SEND and RECEIVE parameters is
unambiguous, the only exception being TIMEOUT (@i<q.v.>).
The following SET
subcommands are available in Kermit-370:
@Begin(Format,spread 0)
@tabclear()@tabset(2.0inches)
ATOE@\Modify the Kermit-370 ASCII-to-EBCDIC table.
ATTRIBUTE@\Determine A-packet generation.
BLOCK-CHECK@\Level of error checking for file transfer.
CONTROLLER@\Indicate type of terminal connection.
CONTROL-CHAR@\Set prefixing state.
DEBUG@\Log packet traffic during file transfer.
DELAY@\Length of pause before a SEND subcommand.
EOF@\Text file truncation at CTRL-Z.
ETOA@\Modify the Kermit-370 EBCDIC-to-ASCII table.
FILE@\Attributes for incoming or outgoing files...
CHARACTER-SET@\... for 370 storage.
COLLISION@\... treatment for duplicate names.
LONGLINE@\... treatment of too-long records.
OVERWRITE@\... treatment of attributes.
TYPE@\... text or binary.
@i(other)@\... system-specific attributes.
FOREIGN@\Strings added to outgoing filespec...
PREFIX
SUFFIX
INCOMPLETE@\Determine the action on an aborted file transfer.
LINE@\Specify alternate communication line.
MARGIN@\for sending files...
LEFT
RIGHT
PROMPT@\For Kermit-370 subcommands.
RETRY@\Maximum retry count...
INIT@\... for initial packet exchange.
PACKET@\... per packet for ongoing transfer.
SERVER-TIMEOUT@\Spacing between server NAK's.
SPEED@\Line speed for packet-size calculations.
SYSCMD@\Try apparently invalid Kermit subcommands on host system.
TABS-EXPAND@\Determine tab-to-space conversion on reception.
TAKE
ECHO@\Echo subcommands read from TAKE files.
ERROR-ACTION@\Exit from TAKE file on command error.
TEST@\Facilitate testing of Kermit.
TATOE@\Modify the Kermit-370 ASCII-to-EBCDIC table.
TETOA@\Modify the Kermit-370 EBCDIC-to-ASCII table.
TRANSFER@\Options for transmission...
CHARACTER-SET@\... of text files.
LOCKING-SHIFT@\... protocol extension.
TTABLE@\Determine which tables undo the terminal translation.
8-BIT-QUOTE@\Determine state of 8th-bit prefixing.
SEND or RECEIVE
END-OF-LINE@\Packet terminator.
PACKET-SIZE@\Maximum packet size.
PAD-CHAR@\Character to insert before each packet.
PADDING@\Number of pad characters to insert.
PARITY@\Indicate if 7-bit or 8-bit data.
QUOTE@\Use to quote control characters in packets.
START-OF-PACKET@\Packet beginning marker.
TIMEOUT@\Time limit for response.
@End(format)
@Subheading<SET ATOE etc.>
@Index(ASCII-to-EBCDIC)@Index(EBCDIC-to-ASCII)
Syntax:@q< SET @i(table) [@i(num1) @i(num2)]>
This modifies one of the ASCII/EBCDIC translation tables
used by Kermit-370 (for example,
to conform to your system). The valid table names are ATOE, ETOA,
TATOE, and TETOA. The arguments are, respectively,
the offset within the named table and
the new value for that offset. If the arguments are omitted, the table
is restored to its initial arrangement.
Both @i(num1) and @i(num2) should be in the range 0-255 (decimal).
For example, in ATOE or TATOE, the offset is the
ASCII character code, and the new value is the new EBCDIC result code.
Initially, ATOE and TATOE each
contain two identical copies of the 7-bit ASCII character table.
Helpful hint: if you have files that make use of extended (8-bit) ASCII
codes and wish to upload them via Kermit-370, be sure to define unique
EBCDIC equivalents of all the needed 8-bit ASCII codes or else treat
such files as binary data.
@Index(Extended ASCII)
Any time you use the SET ATOE or SET ETOA subcommands, that has a
side effect equivalent to SET ATTRIBUTE ENCODING OFF (@i<q.v.>).
If the extended ASCII character set is one of those supported for file
transfer in Kermit-370, you need only issue a SET TRANSFER
CHARACTER-SET (@i<q.v.>).
Note: the meaning of the tables depends on the TTABLE setting -- if
TTABLE is OFF, the TATOE and TETOA tables are not used.
@Subheading<SET ATTRIBUTE>
@Index(File attributes)
Syntax:@q< SET ATTRIBUTE [@i(attribute)] ON @i(or) OFF>
The individual @i(attribute)s are
LENGTH, TYPE, DATE, CREATOR, ACCOUNT, AREA, PASSWORD, BLOCKSIZE, ACCESS,
ENCODING, DISPOSITION, PROTECT, ORIGIN, FORMAT, SYS-INFO, and
BYTE-LENGTH. Kermit-370 distinguishes between the two forms of this
subcommand by counting "words". In order to see the list of supported
attributes, you must enter @qq(SET ATTR ? ?); if you enter just
@qq(SET ATTR ?), Kermit will list just the alternatives ON and OFF.
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\The
specified attribute is to be processed, or
attribute packets are generated for all outgoing files, provided
the other Kermit indicates the ability to accept them.
(Default).
OFF@\The specified attribute
is to be ignored and not generated, or
attribute packets are never generated.
@End(Description)
@Subheading<SET BLOCK-CHECK>
@Index(Block check)
Syntax:@q< SET BLOCK-CHECK @i(type)>
This determines the type of block check used during file transfer,
provided the other Kermit agrees. Valid options for @i(type) are:
1-byte (for a one-character checksum), 2-byte (for a two-character
checksum), 3-byte (for a three-character CRC), and Blank-free-2 (for a
shifted two-character checksum that avoids using blanks. This is one
of only two Send-Init parameters that cannot be SET separately for
SEND and RECEIVE.
@Subheading<SET CONTROLLER>
@Index(Series/1)@Index(TTY)@Index(SNA)@Index(Controller)
Syntax:@q< SET CONTROLLER @i(type)>
The @i(type) may be TTY, SERIES1, GRAPHICS, AEA, FULLSCREEN, VTAMTTY, or NONE.
Kermit-370 automatically determines whether you are connected via a
Series/1 (or similar) emulation controller
or a TTY line. In some circumstances, such as when the connection is
through a non-graphics-capable 3174 port,
@Index(3174)
Kermit will set CONTROLLER to NONE, which has the effect
of disabling file transfers. This subcommand is provided, though, to
allow the automatic choice to be superseded, and because Kermit may
not be able to distinguish between Series/1-type and other
3270-emulation controllers. In particular, there is no way to
distinguish between FULLSCREEN and GRAPHICS from within Kermit. When
CONTROLLER is set to SERIES1, GRAPHICS, or AEA, Kermit disables the
3270 protocol conversion function by putting the terminal controller
into "transparent mode", which allows Kermit packets to pass through
intact. Note: an incorrect CONTROLLER setting may lock up or wipe out
your session when you try to transfer files.
Kermit operation is possible through an IBM
@Index(3708)
3708 front end, but only in a rather specific
configuration. See the installation guide for your variant of
Kermit-370 for the details of that and other hardware-related
restrictions and configurations.
@Subheading<SET CONTROL-CHAR>
@Index(Control characters)@Index<Prefixing>
Syntax:@q< SET CONTROL-CHAR @i(mode) [@i(number)]>
The @i(mode) may be PREFIXED (normal Kermit protocol for control
characters) or UNPREFIXED. In the latter case, the specified control
character (given as a decimal number in the range 0-31 or 128-159) is
transmitted "as is". If the @i(number) is omitted,
then all control characters are set accordingly. Kermit-370 automatically
overrides the user's settings for certain characters used for Kermit
protocol: the start-of-packet, the end-of-packet, the handshake (if
set), and XOFF (not really used, but too dangerous to send). Sending
control characters without prefixes can speed up transfers of binary
files.
The status of prefixing is initially
"PREFIXED" for all control characters. It can be displayed by the
TDUMP CONTROL subcommand, or saved in the form of a TAKE file by the
GIVE CONTROL subcommand (@i<q.v.>).
@Subheading<SET DEBUG>
@Index(Debugging)
Syntax:@q< SET DEBUG OFF @i(or) ON [RAW] [I/O] [SAVE] [LONG] [TIME]>
Note: any combination, in any order, of RAW, I/O, SAVE, and TIME may follow
or replace ON. Each of the three implies ON.
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\Keep a journal of all packets sent and received in a log file on
disk. If the file already exists, it is erased and overwritten. The
@i<filespec> of the log is, of course, system-dependent. All packets
are logged in EBCDIC for legibility, even when CONTROLLER is set to
SERIES1, GRAPHICS, or AEA.
RAW@\The same as ON, but packets are logged in the form that is passed
to or from
the operating system, @i<i.e.>, EBCDIC for TTY or VTAMTTY
terminals, and ASCII for
SERIES1, GRAPHICS, and AEA terminals. This option is generally not
recommended; I/O is preferable.
I/O@\The same as ON, but
the log includes
additional transmission status information, such as the AID returned
by a full-screen device. See below for a summary of the log formats.
SAVE@\The same as ON, but the log file is closed after each entry is
added, so that, if the session is abnormally terminated, the log file
will be complete and readable.
LONG@\The same as I/O, but the additional information is not
truncated to 36 bytes.
TIME@\Used only with I/O or LONG. The lines of hexadecimal dump are
tagged with the time of day from the CPU clock, truncated to the
nearest second.
OFF@\Stop logging packets and close the the log file.
(Default.)
@End(Description)
Often, problems with Kermit file transfers or server-mode operations can
be diagnosed by setting DEBUG on in one or both Kermits, regardless of
where the problems actually lie. For Kermit-370, the maximum amount of
information can generally be obtained by setting DEBUG to I/O or LONG,
but the
format of the log depends somewhat on which variant of Kermit-370 is
involved. Before examining the log, you should set DEBUG OFF either
explicitly or by exiting from Kermit-370.
@Index(Dumping storage)
There is an optional feature for logging dumps of storage blocks
at selected points in the execution. By default, this feature is
disabled (at assembly time) by having the variable symbol &KTRACE set
to NO and also by virtue of the fact that no calls to the dump routine
are present in the distribution code.
Further, the dumps are suppressed unless both DEBUG and TEST
(@i<q.v.>) are set on. To select when and what blocks to dump, it is
necessary to insert calls to KHDMP at appropriate points in the source
before assembling. Each such call generates a dump each time it is
executed, provided that DEBUG and TEST are set, and the contents of all
registers are preserved. The
call specifies the starting address, the length, and a short title for
the block. Only eight characters of the title will be used. Some
examples:
@Begin(Description,spread 0.5,leftmargin +26, indent -14)
@q<KHDMP ATOE+128,128,'ATOEhigh'>@\Dump the 2nd half of the ATOE table.
@q<KHDMP KHDSAV,20,'R14 - R2'>@\Dump registers 14-2.
@q<KHDMP 32(,13),40,'**R3-R12'>@\Dump registers 3-12.
@q<KHDMP (3),(0),'**QBLOCK'>@\Dump block addressed by R3 with length
specified in R0.
@End(Description)
@Index(Tracing execution)
There is another debugging facility that is enabled by the variable
symbol &KTRACE along with the dump option, namely, an execution
trace. There is a circular buffer of trace elements in Kermit's
working storage, and a new element is written each time a Kermit
subroutine is called or returns. The elements contain the subroutine
name plus (on entry) a sequence number and the contents of registers
0 and 1 or (on exit) the character @qq(>) and the contents of registers
15 and 1. There is also a mechanism for tracing extra events by
inserting KTRACE calls into the source. For example,
@Begin(Description,spread 0.5,leftmargin +26, indent -14)
@q<KTRACE 0(5),REGS=5>@\Trace eight bytes pointed to by R5 and R5
itself.
@q<KTRACE FOOBAR>@\Trace eight bytes at label FOOBAR.
@q<KTRACE 'Found it',REGS=(1,7)>@\Trace "Found it", R1, and R7.
@End(Description)
The trace table is simply updated in storage, eating its own tail. It
can be found in a memory dump by locating the "eye-catcher" that says
@qq(KTRACE:), which precedes the start, current, and end pointers for
the table. The table is also accessible interactively via the TDUMP
subcommand (@i<q.v.>).
Each line in the debug log begins with a one-letter tag and a colon and
contains information according to the tag. The following tags are
defined.
@Begin(Description,leftmargin +4,indent -4,spread 0.5)
S:@\The text of a packet sent. Normally, it will be encoded in EBCDIC
for convenience, but if DEBUG is set to RAW, the packet will appear
exactly as passed to or from the system, i.e., in EBCDIC for TTY or
VTAMTTY lines and in ASCII for full-screen lines.
R:@\The text of a packet received. The same encoding applies.
A:@\The AID and buffer address returned by a full-screen device along
with a read operation (three characters in all). The values should
all be printable EBCDIC. This obsolete tag was
used by TSO and MUSIC Kermits
and appeared only when DEBUG was set to I/O.
*:@\Data dumped by the optional KHDMP routine.
@End(Description)
The following tags appear only when
DEBUG is set to I/O or LONG. All values are in hexadecimal. The
meanings differ slightly according to the operating system. For CMS,
@Index(CMS)the I/O parameter list is a channel command;
for TSO or ROSCOE,
@Index(TSO)@Index(ROSCOE)
the SVC 93
(TPUT/TGET)
@Index(TPUT)@Index(TGET)
parameters; for CICS, an intermediate string similar to
channel commands. Similarly, the status data consist of the stored
CSW@Index(CSW) plus an attention interrupt indicator for CMS, but the
return code from the I/O operation for TSO, ROSCOE, CICS, and MUSIC.
@Index(CICS)@Index(MUSIC)
@Begin(Description,leftmargin +4,indent -4,spread 0.5)
a:@\Channel and device status after an unexpected attention interrupt.
b:@\I/O parameter list for recovering from a CP break-in on screen.
c:@\I/O parameter list for resuming normal screen operation.
d:@\Data transferred on the previously indicated I/O operation.
e:@\Status data after an I/O command has completed with an error.
g:@\I/O parameter list for reading from the screen buffer.
i:@\Status data after an I/O command has completed normally.
m:@\I/O parameter list for displaying text on the screen.
o:@\I/O parameter list for initializing the screen for transfers.
r:@\I/O parameter list for reading from the terminal.
w:@\I/O parameter list for a transparent write.
?:@\I/O parameter list for some other operation, such as clearing the
screen.
@End(Description)
@Subheading<SET DELAY>
@Index(SEND delay)
Syntax:@q< SET DELAY @i(number)>
Normally, Kermit-370 waits 10 seconds after the SEND subcommand before
starting the transfer, but this delay may be set to any non-negative
value. Two DELAY values have special meaning. When DELAY is 1, the
usual two-line greeting displayed during protocol mode is
abbreviated to a short message (the default
Kermit prompt with three dots...),
and when DELAY is 0, the greeting is suppressed entirely, along with
the extra one-second pause for subcommands like
RECEIVE, SERVER, REMOTE, and the like.
@Subheading<SET EOF>
@Index(File truncation)@Index(End of file)
@seealso(primary="Truncation",other="File truncation")
Syntax:@q< SET EOF ON @i(or) OFF>
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\Scan each incoming TEXT file for the first
occurrence of CTRL-Z and ignore the remainder of the file (but
continue decoding up to the actual end of the file). BINARY files
are not affected.
OFF@\Accept incoming files in their entirety.
(Default.)
@End(Description)
@Subheading<SET FILE CHARACTER-SET>
@Index(Character sets)
Syntax:@q< SET FILE CHARACTER-SET @i(name)>
Specifies the name of the character set used in files stored on disk.
This setting may be superseded by an Attribute packet of an incoming
file. Currently, the available names are CP037, CP273, CP275, CP277,
CP278, CP280, CP281, CP282, CP284, CP285, CP290, CP297, CP420, CP424, CP500,
CP838, CP870, CP871, CP875, CP880, CP905, CP1047, CZECH, DKOI, EBCDIC,
H-EBCDIK-DASH, and KANJI (or FUJITSU-KANJI, HITACHI-KANJI, or
IBM-KANJI). The names beginning with CP refer to IBM code pages,
@Index<Kanji>@Index<Cyrillic>
while DKOI is the Cyrillic standard GOST 19768-87 used in the USSR,
CZECH is a character set sometimes used in Czechoslovakia, and EBCDIC
(the default) is the traditional @i<de facto> standard EBCDIC
character set. A character set other than the default may be required
by local conventions and, if so, should be specified in the system or
user INIT files. See Table @ref<-ikchars> for the allowed
combinations of transfer and file character sets. Explicitly setting
this option has a side effect equivalent to issuing SET ATTRIBUTE
ENCODING ON (@i<q.v.>).
The name KANJI is actually just an alias for the local preferred
proprietary Kanji code (Fujitsu, Hitachi, or IBM). The various Kanji
character sets have two-byte codes (DBCS), but are used with one-byte
code pages (SBCS) as well. It is normally necessary to issue two SET
FILE CHARACTER-SET SUBCOMMANDS in order to set up for a DBCS: first,
selecting a compatible SBCS, and, second, selecting the DBCS itself.
If the current SBCS is incompatible with the selected DBCS, a default
will be chosen. This default, along with the choice of the particular
proprietary character set associated with the alias KANJI, is
chosen by the installer.
@Subheading<SET FILE COLLISION>
@Index(Filename collision)
@Indexentry(key="Collision",entry="Collision. @i<See> Filename collision")
Syntax:@q< SET FILE COLLISION @i(action)>
Specifies the action to take when an
incoming file has the same name as an existing one. Two of the options
involve choosing an alternative, unique name similar to the one in
conflict, but the details of choosing are system-specific. Typically,
the method involves adding digits to the existing name.
@Index(File renaming)@Index(Renaming files)
@seealso(primary="Renaming files",other="File renaming")
@Begin(Description,leftmargin +13,indent -13,spread 0.5)
APPEND@\The new file is appended to the old one. This option has the
the same effect as the old subcommand SET APPEND ON.
@Index(Appending)
BACKUP@\The existing file is renamed, and the new file is given the
desired name as if no conflict had occurred.
@Index(Discarding files)
@seealso(primary="Discarding files",other="DELETE")
DISCARD@\The incoming file is rejected by returning a "cancel file"
indication on any Data packets.
OVERWRITE@\The existing file is overwritten with
the incoming file.
@Index(Initialization files)
This is the default for the CMS, TSO, ROSCOE, and MUSIC
variants. Changing this default is a good candidate for INIT
files.
@Index(CMS)@Index(TSO)@Index(ROSCOE)@Index(MUSIC)
When COLLISION is set to OVERWRITE, the attributes of the new file are
determined by the current setting of FILE OVERWRITE (@i<q.v.>).
@Index(RENAME)
RENAME@\The incoming file is renamed so
as not to destroy (overwrite) the pre-@|existing one, and the new
name is returned to the sending Kermit for information purposes. This
has the same effect as the old subcommand
SET WARNING ON.
@Index(Warning)
This is the default for the CICS variant.
@Index(CICS)
@End(Description)
@Subheading(SET FILE LONGLINE)
Syntax:@q< SET FILE LONGLINE FOLD @i(or) TRUNCATE @i(or) HALT>
@Index(Truncation)@Index(Folding)
This specifies the action to take when a received line is longer than
the current maximum record length. That length is determined by the
context in a system-specific way. Refer to the description of the
RECEIVE subcommand in the appropriate chapter for details.
@Begin(Description,leftmargin +12,indent -12,spread 0.5)
FOLD@\Specifies that long lines
are to be split into two or more records as needed, all
but the last being of the maximum length. No null records are
created when the received line is an exact multiple of the record
length. BINARY files are always considered, by definition, as a single
line and, therefore, are @i(always) folded, regardless of the setting of
this parameter.
@Index(Binary files)
V-BINARY and D-BINARY
files, on the other hand, are
reconstructed by folding at points determined by the context within
the received file, and cannot be folded further to fit the current
maximum length. Any such records that are too long will be truncated.
TRUNCATE@\Specifies that long lines
are to be truncated at the maximum length.
(Default.)
Kermit-370 takes note of the number of such truncations performed on
a file and reports it in the STATUS message and also treats the fact
of truncation as an error when the file transfer is complete. The file
will have been transferred, but obviously not quite intact.
However, this option can be useful for some tasks, such as stripping
sequence numbers from card images. The process is similar to that
provided by the SET MARGIN RIGHT subcommand for sending files.
HALT@\Specifies that a file transfer is to halt immediately if a
received line is too long. Kermit-370
then issues an error packet and stops the transfer.
@End(Description)
@Subheading(SET FILE OVERWRITE)
Syntax:@q< SET FILE OVERWRITE DEFAULT @i(or) PRESERVE>
@Index(Overwriting files)
@seealso(primary="Overwriting files",other="Filename collision")
@Begin(Description,leftmargin +11,indent -11,spread 0.5)
DEFAULT@\Specifies that the current file attribute settings are to be
used for the new file. The result is roughly the same as if
the old file, if any, were completely erased before the new file is
received. (Default.)
PRESERVE@\Specifies that the attributes of the file being
overwritten are to be retained and used for the new file. The result
is roughly the same as if the old files contents were deleted, and the
new file were appended to the empty stub.
@End(Description)
@Subheading(SET FILE TYPE)
@Index(Binary files)@Index(CRLF)
Syntax:@q< SET FILE TYPE @i(type)>
Specifies the type of data comprising files to be sent or received.
This setting may be temporarily superseded by the Attribute packets
for a file being received.
@Begin(Description,leftmargin +11,indent -11,spread 0.5)
TEXT@\Specifies ordinary text. ASCII-to-EBCDIC
or EBCDIC-to-ASCII translation is performed on the data. Trailing
blanks are removed, and CRLF's
are appended to outgoing records. CRLF's are used, in turn, to
determine the end of incoming records, which are padded with blanks
if necessary to fill buffers.
@Indexsecondary(primary="Blanks",secondary="preserving trailing")
@Indexsecondary(primary="Blanks",secondary="stripping")
(Default.) Note: trailing blanks are removed from outgoing,
varying-length
records only if they consist of a single blank each, or if there is a
right margin specified (@i<q.v.>). Further note: a given file is
intrinsically
categorized as fixed-length or varying-length
(or undefined-length) by the file system and
cannot be changed simply by setting the FILE RECFM parameter in Kermit.
Conversion between formats is a system-specific function; see the
system documentation or consult your local support staff for details
on conversion techniques.
@Index(LRECL)
BINARY@\Specifies bit-stream data. No translation is performed,
no CRLF's are added to outgoing records, and blanks are neither added
nor removed. Incoming bytes are added successively to
the current record buffer, which is written out when the current
LRECL is reached. Padding, if necessary, is done with nulls.
V-BINARY@\Specifies varying-length-record binary data. This type is
like BINARY, except that a
two-byte binary prefix is added to each outgoing record
giving the number of data bytes, and incoming records are set off by
(and stripped of) their prefixes on receipt.
D-BINARY@\Is like V-BINARY except that the length prefixes are five-byte
ASCII-encoded decimal (right-justified with leading zeroes).
@End(Description)
@Subheading(SET FOREIGN)
@Index(Foreign)
Syntax:@q< SET FOREIGN PREFIX @i(string)>
This defines a prefix string to be added to the outgoing
@i(filespec) generated by the SEND subcommand. For example, the string
might be set to @qq(B:) to specify output to the B disk drive on the
other Kermit's system. The default is a null string. There is also a
FOREIGN SUFFIX handled in the same manner.
@Subheading(SET HANDSHAKE)
@Index(Handshake)
Syntax:@q< SET HANDSHAKE @i(number)>
This defines the character, if any, that Kermit-370 should
send (or cause to be sent) immediately
before reading each packet. The character is given as the decimal
of an ASCII control character, or as zero if no handshake is to be
sent.
The default is 17 (XON), and any value in the range
0-31 is valid, but 13 (CR) should not be used because it is generally
the end-of-packet character. When Kermit-370 is running through a
full-duplex connection (such as a @qq<SERIES1>), the traditional IBM
handshaking is not necessary, and HANDSHAKE should be set to 0
(as long as the other Kermit can be
instructed not to expect a handshake).
Note the distinction between @q(SET
HANDSHAKE) in Kermit-370 (where it defines a character to be sent) and
in many micro Kermits (where it defines a character to be expected).
@Subheading(SET INCOMPLETE)
@Index(Incomplete files)
@Index(Discarding files)
Syntax:@q< SET INCOMPLETE DISCARD @i(or) KEEP>
@Begin(Description,leftmargin +10,indent -10,spread 0.5)
DISCARD@\Specifies that incomplete files (that is, files partially
received in a transfer cancelled by the other Kermit)
are to be erased. This is
the default. Note that when FILE COLLISION is APPEND,
incomplete files are never
erased, lest pre-existing data be lost.
KEEP@\Specifies that incomplete files are to be kept.
@End(Description)
@Subheading(SET LINE)
@Index(Alternate lines)
Syntax:@q< SET LINE [@i(name)]>
This specifies an alternate communication line for file
transfers. If the @i(name) is omitted, the default line (the user's
terminal) is used. The format of @i(name) is, of course,
system-dependent, and some variants of Kermit-370 do not support any
alternate lines. No variant currently allows Kermit-370 to CONNECT
over an alternate line.
@Subheading(SET MARGIN)
@Index(Margins)
Syntax:@q< SET MARGIN @i(side) @i(column)>
When Kermit-370 sends a text file, each line may be truncated on the
left or right (or both) at fixed column numbers. Only the text from
the left margin to the right margin (inclusive) will be sent, and any
@Indexsecondary(primary="Blanks",secondary="trailing")
@Indexsecondary(primary="Blanks",secondary="stripping")
trailing blanks in the truncated lines will be stripped. A value of
zero for either margin disables truncation on that side.
@Subheading(SET PROMPT)
@Index(Prompt)
Syntax:@q< SET PROMPT [@i(string)]>
This defines the character string that Kermit-370 displays
when asking for a subcommand. The prompt may be any string of up to 20
characters. The default is the name of the system-specific variant of
Kermit-370 followed by a ">" sign, @i<e.g.>, @q(Kermit-CMS>).
If the @i(string) is omitted, normal system prompting will occur.
@Subheading(SET RETRY)
Syntax:@q< SET RETRY INITIAL @i(or) PACKETS @i(number)>
Kermit-370 resends its last packet after receiving a NAK or bad packet,
but it eventually gives up after repeated failures on the same
packet. The limit on retries
can be set separately for the initial
packet exchange (Send-Init or server-mode command) and for ordinary
packets. The default for INITIAL
is 16 and for PACKETS, 5. Either limit can be set to any positive
value.
@Subheading(SET SERVER-TIMEOUT)
@Index(Timeout)
Syntax:@q< SET SERVER-TIMEOUT @i(time)>
This defines the @i(time) in seconds that Kermit-370 in server mode
should wait for a command before sending a NAK packet. The default is
120. A value of 0 means that Kermit should wait indefinitely, not
only in the server loop, but in all transfers, regardless of the
timeout value specified by the other Kermit. Some variants are unable
to time out in any case. Also, timeouts are not implemented for any of
the full-screen terminal controllers.
@Subheading<SET SPEED>
@Index(Optimum packet size)
Syntax:@q< SET SPEED @i(number)>
This determines the communication line speed assumed by Kermit-370
in calculating the optimum packet size. If the value is zero, such
calculations are suppressed. This option is purely informative and
has no effect on actual line speed.
(Default 1200.)
@Subheading<SET SYSCMD>
@Index(Host commands)
Syntax:@q< SET SYSCMD ON @i(or) OFF>
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\If the user enters a command string which is not a valid
Kermit subcommand, Kermit-370 will pass the string along to the host
operating system for execution. If the string is rejected by the system
as well, Kermit will report it as an invalid @i(Kermit) subcommand.
Otherwise, Kermit will assume the string was intended as a host command
and will simply report the completion code if non-zero.
OFF@\Invalid Kermit subcommands are simply rejected as such. System
commands may be executed, of course, but only by specifying the
generic prefix @qq(HOST) or the appropriate system-specific prefix,
such as CMS or TSO.
@Index(Command prefix)
(Default.)
@End(Description)
@Subheading<SET TABS-EXPAND>
Syntax:@q< SET TABS-EXPAND ON [@i(list)] @i(or) OFF>
@Index(Tabs)
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\Tab characters in incoming TEXT files are replaced by one or more
blanks to bring the record size up to the next higher multiple of eight
for each tab. If tab settings other than columns 1, 9, 17, @i<etc.> are
desired, they may be specified explicitly in a list following the
keyword @qq(ON). Items in the list may be separated by spaces or
commas and must be in strictly increasing order.
OFF@\Incoming tabs are retained.
(Default.)
@End(Description)
@Subheading<SET TAKE ECHO>
@Index(Command echoing)
@seealso(primary="Echo",other="Command echoing")
Syntax:@q< SET TAKE ECHO ON @i(or) OFF>
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\Subcommands are echoed to the terminal as they are executed from
a TAKE file.
OFF@\Subcommands from a TAKE file are executed "silently."
(Default.)
@End(Description)
@Subheading<SET TAKE ERROR-ACTION>
Syntax:@q< SET TAKE ERROR-ACTION CONTINUE @i(or) HALT>
@Begin(Description,leftmargin +11,indent -11,spread 0.5)
CONTINUE@\Execution continues in a TAKE file regardless of illegal
commands, except in server mode. (This is the default.)
HALT@\A command error in a TAKE file causes immediate exit to Kermit
subcommand level.
@End(Description)
@Subheading<SET TEST>
@Index(TEST)
Syntax:@q< SET TEST ON @i(or) OFF>
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\Allow setting the START-OF-PACKET and other special characters
to any value, and suppress type 1
checksum testing on received packets.
OFF@\Normal operation.
(Default.)
@End(Description)
@Subheading<SET TRANSFER CHARACTER-SET>
@Index(Character sets)
Syntax:@q< SET TRANSFER CHARACTER-SET @i(name)>
@Index<Kanji>@Index<Greek>@Index<Cyrillic>@Index<Hebrew>@Index<Katakana>
@Index<Arabic>
Specifies the name of the character set used in sending or receiving
files. This setting may be superseded by an Attribute packet of an
incoming file. Currently, the available names are ASCII (the
default), ARABIC, CYRILLIC, GREEK, HEBREW, JAPAN-EUC, KATAKANA, LATIN1,
LATIN2, LATIN3, THAI, and TRANSPARENT. There are also special aliases
L1, L2, and L3 for the LATINx names. All but JAPAN-EUC, TRANSPARENT,
and ASCII represent 8-bit codes composed of a pair of 94- or
96-character sets from the ISO registry combined with normal
definitions for the so-called C0 and C1 characters. JAPAN-EUC is a
DBCS for encoding Kanji characters, plus Roman, Greek, and Cyrillic.
ASCII is the traditional character set supported by Kermit,
but one of the newer, 8-bit sets would be preferable for most users.
This option is, therefore, a good candidate for
@Index(Initialization files)
inclusion in the system INIT file.
See Table @ref<-ikchars> for the allowed combinations of transfer and
file character sets.
Explicitly setting this option has a side effect equivalent to issuing
SET ATTRIBUTE ENCODING ON (@i<q.v.>). There is one exception, namely,
TRANSPARENT, which sets ENCODING OFF and replaces both translation
tables with null operations, regardless of the current nominal file
character set.
@Index(Translation tables)
The biggest drawback of the built-in tables
for the various character sets is that neither the ISO registry
nor IBM defines any mapping between the C1 characters (hex 80-9F in
ISO arrangements) and the characters of EBCDIC code pages. Thus, the
mappings in Kermit-370 tables are somewhat arbitrary, and future
pronouncements may suddenly invalidate some or all of those 32 mappings.
@Subheading<SET TRANSFER LOCKING-SHIFT>
@Index(Character sets)
Syntax:@q< SET TRANSFER LOCKING-SHIFT ON @i(or) OFF @i(or) FORCED>
@Begin(Description,leftmargin +9,indent -9,spread 0.5)
ON@\The Kermit locking-shift protocol is to be used in transfers to or
from cooperating partners, provided that 8th-bit quoting is enabled.
OFF@\The Kermit locking-shift protocol is not to be used.
FORCED@\The Kermit locking-shift protocol is to be used, regardless of the
cooperation of the other Kermit. The encoding uses only the locking shifts,
to the exclusion of 8th-bit quoting.
@End(Description)
@Subheading<SET TTABLE>
@Index(Translation)
Syntax:@q< SET TTABLE ON @i(or) OFF @i(or) KP>
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
ON@\The translation that undoes the terminal controller's
ASCII/EBCDIC conversion comes from the TATOE and TETOA tables, rather
than the ATOE and ETOA tables (which are used only for translating
disk files). This option has no effect when there is no translation
built into the controller, @i<i.e.>, with SERIES1,
GRAPHICS, and AEA connections.
OFF@\The ATOE and ETOA tables are used for all translations by
Kermit-370. (Default.)
KP@\Same as ON, but also establishes values in the TATOE and TETOA
tables based on IBM's corporate standard ASCII/EBCDIC translation
(distinct from the internationally accepted @i<de facto> standard).
@End(Description)
@Subheading<SET 8-BIT-QUOTE>
@Index(Eighth-bit prefix)
@Indexentry(key="Quote",entry="Quote. @i<See> Prefix")
Syntax:@q< SET 8-BIT-QUOTE @i(char) @i(or) ON @i(or) OFF>
This controls whether eighth-bit prefixing is done and can be
used to specify the character to be used. This is
one of only two
Send-Init parameters that cannot be SET separately for SEND
and RECEIVE.
@Begin(Description,leftmargin +8,indent -8,spread 0.5)
char@\Eighth-bit prefixing will be done using @i(char), provided the
other Kermit agrees. The default value is an ampersand.
ON@\Eighth-bit prefixing will be done, provided the other Kermit
explicitly requests it (and specifies the character).
OFF@\Eighth-bit prefixing will not be done.
@End(Description)
@Subheading(SET SEND/RECEIVE)
The following parameters can be set either as SEND or RECEIVE options.
As a rule, in each pair, one is the operational value, and the other
is used to change the default for Send-Init packets received from the
other Kermit and to set up parameter values as if the other Kermit
had specified them on the previous exchange.
When both values are described, the operational one will be first.
For all parameters besides QUOTE, the operational value is the RECEIVE.
After a transfer, the operational values will be unchanged, but the
others (as displayed by SHOW) will reflect the parameters specified
by the other Kermit. The underlying defaults established by previous
SET subcommands will still be in effect.
In the syntax descriptions, @i(mode) is SEND or RECEIVE.
@Subheading(END-OF-LINE)
Syntax:@q< SET @i(mode) END-OF-LINE @i(number)>
RECEIVE should not be changed.
SEND may be needed to establish contact.
If the other system needs packets to be terminated
by anything other than carriage return, specify the
decimal value of the desired ASCII character.
@i(number) must be in the range 0-31 (decimal). The default is 13
(CR).
@Subheading(PACKET-SIZE)
@Index(Packet size)
Syntax:@q< SET @i(mode) PACKET-SIZE @i(number)>
RECEIVE defines @i(number) as the maximum length for incoming
packets. The valid range is 26-9024, but 94 is the limit for normal
short-packet protocol. The default is 80.
@Index(Long packets)
Specifying a value greater than 94 is necessary and sufficient to
enable the long-packet protocol for transfers to Kermit-370
(provided the other Kermit is willing). Kermit-370 will actually
accept long packets in any case, but the protocol requires that the
other Kermit not
send them unless Kermit-370 asks.
@Index(Initialization files)
Raising this value from the
default is a good candidate for inclusion in INIT
files.
In practice, the packet size may be limited by hardware and programming
considerations. See the system-specific chapters for details.
SEND might be needed for sending files to a minimal Kermit that
neither specifies a buffer size in the Send-Init sequence nor can
accept the default (80). It may also be used to specify the packet
size for a "raw" download via the XTYPE subcommand.
This parameter has no other function and is completely irrelevant to
long packets. If the other Kermit asks for long
packets, Kermit-370 will always comply.
@Subheading(PAD-CHAR)
Syntax:@q< SET @i(mode) PAD-CHAR @i(number)>
RECEIVE defines @i(number) as the character to be used by the other
Kermit for padding
packets. The character must be an ASCII control
character (in the range 0-31). The default is 0 (NULL).
This option is seldom useful.
SEND may be needed to establish contact if the other Kermit
(or the transmission line) needs padded packets.
@Subheading(PADDING)
Syntax:@q< SET @i(mode) PADDING @i(number)>
RECEIVE defines the @i(number) of pad characters to be used for padding
packets from the other Kermit. This number may be anywhere from 0 to
94. The default is 0. This option is seldom useful.
SEND may be needed to establish contact if the other Kermit
(or the transmission line) needs padded packets.
@Subheading(PARITY)
@Index(Parity)
Syntax:@q< SET @i(mode) PARITY MARK @i(or) NONE>
RECEIVE specifies the parity expected in the
transparent-mode ASCII data received by the mainframe from a
full-screen device. Such data will
typically have either all Mark parity (seven data bits with the eighth
bit set) or no parity (eight data bits). This is typically not the
same as the parity used in communications between the protocol
convertor and the terminal. Kermit-370 must know which
kind of parity to expect in order to calculate checksums properly.
Since Kermit-370 does not actually verify parity, the other possible
variants (ODD, EVEN, and SPACE) are lumped together with MARK parity
for the purpose of this subcommand, which merely chooses between 7-bit
and 8-bit data transfer. The default is MARK.
SEND is also an operational value, specifying the parity to be used in
constructing outgoing data packets on full-screen
devices. NONE is the default and is
generally preferable, in that it permits binary transfers without the
need for eighth-bit prefixing, but MARK may be required in some
configurations.
@Index(Eighth-bit prefix)
@Subheading(QUOTE)
Syntax:@q< SET @i(mode) QUOTE @i(char)>
SEND indicates a printable character for prefixing (quoting) control
characters and other prefix characters.
The only good reason to change this would be for sending a file
that contains many @qq(#) characters (the
normal control prefix) as data. It must be a single character with
ASCII value 33-62 or 96-126 (decimal).
RECEIVE would be needed only for talking to a crippled Kermit that
uses a non-standard quoting character, but does not admit it.
@Subheading(START-OF-PACKET)
Syntax:@q< SET @i(mode) START-OF-PACKET @i(number)>
RECEIVE defines @i(number) as the character to be expected to mark the
start of packets from the other Kermit. The character must be an
ASCII control
character (in the range 0-31). The default is 1 (SOH). This may
need to be changed to establish contact.
SEND may also need to be changed to establish contact.
It defines @i(number) as the character to be used to mark outgoing
packets.
@Subheading(TIMEOUT)
@Index(Timeout)
Syntax:@q< SET @i(mode) TIMEOUT @i(time)>
RECEIVE defines the @i(time) in seconds the other Kermit is to wait for
a response from Kermit-370 before resending a packet. The default is 5.
A value of 0 means the other Kermit should wait indefinitely.
SEND may be needed to
define the @i(time) in seconds Kermit-370 is to wait for a
response from the other Kermit in the initial packet exchange, although
the default value 0 (indefinite wait) is probably satisfactory,
especially since Kermit-370 in many cases cannot time out anyway.
Specifying a non-zero value will prevent the other Kermit from ever
requesting infinite "patience" from Kermit-370.
@Heading(The SHOW Subcommand)
@Index(SHOW)
Syntax:@q< SHOW [@i(option)]>
The SHOW subcommand displays the values of all
parameters that can be changed with
the SET subcommand, except CONTROL-CHAR, ATOE, ETOA, TATOE, and TETOA
(for those, see the TDUMP subcommand). If specified,
@i(option) can be a particular parameter or the keyword @qq<ALL>
(the default).
Groups of parameters, such as SEND, can be displayed by requesting
the group name, or individual sub-parameters can be displayed
by specifying the complete name. For example,
@example(SHOW RECEIVE EOL)
will display the decimal value of the packet terminator that Kermit-370
currently expects, @i<i.e.>, 13. Similarly,
@example(SHOW FOREIGN)
will display the character strings currently in use for prefix and
suffix on each outgoing @i(filespec). When @qq(ALL) is specified
or implied, all parameters other than the attribute switches are
displayed.
@Index(File attributes)
@Heading(The STATUS Subcommand)
@Index(STATUS)
Syntax:@q< STATUS>
This subcommand displays information about the previously executed
subcommand.
The response will include either the appropriate error message or
the message @qq<No errors>.
The initial status is @qq(No file transfers yet).
If the status reflects an error condition, the name of the last file
used (excluding TAKE files) will be displayed as well. If
the error was detected by the other Kermit, the message will be
@qq(Micro aborted) followed by the text from the Error packet.
Conversely, if Kermit-370 detected the error, the text of the status
message will have constituted the error packet sent out.
In any case, if the last file transfer was cancelled (by virtue of an
attribute mismatch or manual intervention), the reason for
cancellation is displayed. Also, if the error occurred in disk I/O,
any available explanatory information is displayed.
Normally, the error status is altered only when a transfer-initiating
subcommand (SEND or RECEIVE) is executed, but
there are several exceptions. If an invalid subcommand is entered, the
status becomes @qq(Kermit command error), and the next subcommand
entered will reset the status. Also, in server mode @i(every)
subcommand is received through a transfer from the other Kermit and
may affect the status (except the STATUS subcommand itself, of course).
Other information is also included. When Kermit-370
has been forced to truncate one or more records in the last
RECEIVE operation (because of the current maximum record length), the
number of records truncated is reported.
The status display also includes throughput statistics for the last
transfer: number of files sent, duration, number of packets, number of
retries, and averages of bytes/packet and
bytes/second. These last two quantities are calculated separately
for bytes sent and received on the communication line
(including padding, if
any), and the last quantity is also calculated on the basis of the
number of bytes read from or written to disk.
Further, if retries were
necessary, Kermit-370 computes the optimum packet size assuming the
retries to have been due to sparse, Poisson-distributed bursts
of noise. @Index(Long packets)This is the
same heuristic optimum that Kermit-370 computes and uses as
an alternative packet-size limit when sending long packets. If TEST is
set on, Kermit also reports the maximum size attained by its storage
stack since execution began.
@Heading(The STOP Subcommand)
@Index(STOP)
Syntax:@q< STOP>
This is not a subcommand in the usual sense. Instead, it is a command
string that can be entered on the communication line
while Kermit-370 is in protocol mode and will
cause protocol mode to cease immediately. This may be useful if the
other Kermit has crashed. The word "stop" may be entered in either
upper or lower case, but it must be the only character
string in the "packet" in question. If you are using a full-screen
terminal, and if other information appears on the screen, you must
clear that other text from the screen (using CLEAR EOF) before
pressing ENTER.
@Heading<The TAKE Subcommand>
@Index(TAKE)@Index(Command echoing)
Syntax:@q< TAKE @i(filespec)>
Execute Kermit subcommands from the specified file, usually called a
TAKE file. The TAKE file may in turn include TAKE
subcommands, and the
nesting may continue to a depth of ten. If a TAKE file includes the
subcommand SERVER, however, the nesting count is saved and
starts over again in
server mode in case the client Kermit should transmit a REMOTE KERMIT
TAKE command. The user has the option of seeing
the subcommands echoed from the TAKE file as they are executed and also
the option of automatically exiting from a TAKE file on error. See
the subcommand SET TAKE for details.
@Heading(The TDUMP Subcommand)
@Index(TDUMP)
Syntax:@q< TDUMP @i(table-name) @i(or) NAMES @i(or) TRACE>
This
displays the contents of @i(table-name). The same table can be modified
using the SET subcommand. The ATOE, ETOA, TATOE, and TETOA translation
tables and the CONTROL-CHAR prefixing selection table
@Index<Control characters>
can presently be displayed and changed. The NAMES table is the
@Index(Transaction log)
transaction log for the last transfer, consisting of the
@i<filespec> of each file sent or received, along with the size (in
Kbytes) and any error messages.
If the Kermit TRACE facility is enabled, the TRACE table may be
displayed (and destroyed in the process). This table contains
entries for subroutine calls and returns during program execution, but
Kermit normally does not have the facility enabled. See SET DEBUG for
more details on execution tracing.
@Index(Tracing execution)
@Heading(The TYPE and XTYPE Subcommands)
Syntax:@q< [X]TYPE @i(filespec)>
These subcommands display the named file.
TYPE is effectively a synonym for (and allows the same options as) the
host system command for displaying files at the terminal, but XTYPE
performs a raw file transfer on the current communication line
@Index(Raw transmission)
(which need not be the terminal) according to the current CONTROLLER
setting. Thus, XTYPE
uses transparent mode if CONTROLLER is
@Index(Transparent mode)
SERIES1, GRAPHICS, or AEA. Also, it sends the data in bursts
no larger than the current SEND PACKET-SIZE. Since XTYPE is basically
a modified SEND, the options allowed on the @i<filespec> for SEND are
also allowed for XTYPE.
@Heading(The VERSION Subcommand)
Syntax:@q< VERSION>
This subcommand displays the program version number and date.
@Section<Before Connecting to the Mainframe>
@Index(TTY)@Index(LOCAL-ECHO)@Index(Flow control)@Index(Handshake)
Several options must be set in the micro Kermit before
connecting to an IBM 370 system as a line-mode device.
You should set LOCAL-ECHO to ON (to indicate
half-duplex). This is the norm but not true in absolutely
every case; if each
character appears twice on your terminal screen,
set LOCAL-ECHO to OFF.
FLOW-CONTROL should be set to NONE, and on some systems
HANDSHAKE should be set to XON.
The parity should be set according to the system's specifications. On
some micro Kermits, all of the above is done in one step
using the DO IBM macro (or SET IBM ON). Set the baud rate to
correspond to the line speed.
@Index(Full screen)@Index(PARITY)
Connecting through a
full-screen device also
requires that certain options be set
in the micro Kermit. You should set LOCAL-ECHO to
OFF (to indicate full-duplex). FLOW-CONTROL should be set to XON/XOFF,
and HANDSHAKE should be set to OFF. For many systems,
the PARITY should be set to EVEN. Set the baud rate to correspond to
the line speed.
One exception to these rules is the case where
the micro Kermit is attempting automated file transfer, @i<e.g.>,
downloading several separate files from Kermit-370 running in server
mode. In fact, under those circumstances, handshaking is necessary
even with @qq(SERIES1) connections, and the two Kermits must be
instructed to adopt a common handshake character
(@i<e.g.>, by SET HANDSHAKE
10 to Kermit-370 and SET HANDSHAKE LF to the micro).
@Index(Timeout)
In any case, you should make sure that either the micro Kermit or
Kermit-370 will provide timeouts during file transfers (if not
both). Some variants of Kermit-370 (notably CMS) cannot provide
timeouts, and you may need to set the TIMER to ON in the micro.
When you are connecting through a protocol convertor,
it is useful to know the key sequence that causes the screen image to
be repainted
@Index(Screen refresh)
from the controller's memory. In many cases, it is CTRL-V,
although CTRL-G and CTRL-C are also sometimes used. In general, this
sequence should be typed whenever reconnecting to Kermit-370 after being
in Kermit protocol mode (and sometimes after merely escaping to the
local Kermit), since the local Kermit may have modified the screen.
@Section<Trouble-shooting Protocol Converters>
Many, but not all, protocol
converters have transparent modes that permit Kermit file transfers. The
welter of competing and often incompatible communications devices would cause
a major headache, except for three circumstances.
First, Kermit-370 has routines for automatically detecting which kind of
front end is controlling the current session; second, the Kermit installer is
encouraged to tailor Kermit to force the correct choice of @q<CONTROLLER>
whenever those routines don't work properly; and, third, Kermit offers a
last-resort mode of operation that will work with almost any protocol
converter. Because of the limitations in the catch-all mode (known as
@q<FULLSCREEN> mode), it is still best to take advantage of the transparency,
if any, in the protocol converter, and the automatic detection routines still
play an important role. It will be instructive to outline what those
routines actually do and how they can go wrong.
@subheading(Recognizing a Series/1)
Although protocol converters are advertised as simulating the behavior of IBM
3270-type terminals, there generally are differences which could be used to
distinguish each type of device from the others and from real 3270-type
terminals. However, all that really matters to Kermit-370 is whether there
is a transparent mode available such that file transfers can be carried out.
To date, only three fundamentally different transparent modes have been
reported to Columbia, and it seems likely that no others have been (or,
perhaps, ever will be) implemented. All are supported by Kermit.
Kermit-370 recognizes these front ends automatically by making two simple
tests. The first takes advantage of one of the advanced features first
implemented in the Yale ASCII system and subsequently copied in many of the
devices that adopted the same transparent mode. This feature is a special
3270 data-stream order which requests a status report from the protocol
converter. Kermit sends this order and then reads the "3270 screen".
If Kermit sees a valid status report, it sets @q<CONTROLLER> to @q<SERIES1>
and stops testing.
@subheading(Two catches)
Obviously, the Yale status order is not implemented in most other kinds of
hardware. Thus, the order would be rejected by a non-Yale-type controller,
and that could have undesirable side effects on the hardware. However,
hardware is generally designed to be robust -- the real drawback lies in the
side effects on certain communications software (notably VTAM/TSO), which may
respond badly while trying to protect the robust hardware from illegal
orders. If it proves impossible to make the external software behave
properly, the only recourse is to modify Kermit-370 to skip the first test
altogether and possibly to force the @q<CONTROLLER> setting; this
modification is described in the relevant "Beware" file in a note dated
89/2/27.
Catch Two is that the status order is not implemented in all of the devices
that support Yale-ASCII-style transparent mode. This means that some devices
"fall through the cracks" in this procedure. A site where such devices are
used may find it expedient to modify Kermit (following the same "Beware"
pattern) to force the procedure to set @q<CONTROLLER> to @q<SERIES1>
(assuming there are no other protocol converters also in use that support one
of the other transparent modes). A list of such devices can be found in a
footnote in the Kermit distribution file @q<ik0aaa.hlp>.
@subheading(Recognizing a 3174)
The second diagnostic test uses a hardware command (Read Partition Query)
that is defined by IBM, but is not implemented on all 3270-type equipment.
There is, thus, the same danger as in the first test, but the danger appears
to be slight. Indeed, both CMS and TSO allow a user program to know in
advance whether a Query is permitted. The Query response consists of one or
more structured fields, and the 3174 AEA ASCII Graphics system (the only
device with the @q<AEA> style of transparency) is easily identified by the
appearance and content of a particular type of field. In fact, it is
possible to tell from the Query data whether the particular 3174 line is
allowed to use the ASCII Graphics transparency. Therefore, this test has
three possible outcomes: Kermit may detect a transparency-enabled 3174 line
(and set @q<CONTROLLER> to @q<AEA>); it may detect an incapable 3174 line
(and set @q<CONTROLLER> to @q<NONE>); or it may detect "none of the above"
(and set @q<CONTROLLER> to @q<GRAPHICS>). Thus, aside from the exceptions
already noted, @q<GRAPHICS> simply means that the front end either supports
SAS-style transparency or none at all.
@subheading(Fallback positions)
What should you do when the automatic detection fails? Obviously, the first
thing is Be Prepared. Often, the misbehavior of VTAM can be halted by
pressing ENTER or PA1, so you should be sure to know how to generate a PA1
when trying out Kermit on an unfamiliar type of protocol converter. Also,
you should know what kind of transparency to expect for the front end and
verify that Kermit-370 has, in fact, set @q<CONTROLLER> appropriately. This
means checking the list of devices in the Kermit distribution file
@q<ik0aaa.hlp>. If your configuration is listed as @i(un)supported, you may
be wasting your time, but the list is not necessarily up-to-date. If your
configuration is not listed at all, you have the opportunity to be a pioneer
and report your findings back to Columbia for inclusion in future editions of
the list. There are a few rules of thumb for quickly deducing the controller
type by reading the manuals for the device; the manuals may not be specific
enough, but this is clearly the easiest way of determining whether Kermit can
support a given device and which controller type is applicable. The rules
are as follows (in order of simplicity and likelihood):
@begin(enumerate,spread 0.5)
GRAPHICS or SERIES1 may be implied when the device has a transparent or
graphics mode described as compatible with that of a supported device listed in
@q<ik0aaa.hlp>.
SERIES1 is implied when the device runs the "Yale ASCII Communication
System" or something with a similar name.
GRAPHICS is implied if the manual mentions the SAS Institute in the context
of ASCII graphics.
GRAPHICS is implied when output transparent data may be preceded by a WCC
(Write Control Character) and 70 (hex).
SERIES1 is implied when transparent data must be preceded by a WCC and either
115D7F110005 (write-read) or 115D7F110000 (write-only).
GRAPHICS or SERIES1 may be implied when some of the manufacturer's other
products are listed in @q<ik0aaa.hlp>, and all are shown as being of one
type.
If none of the above rules apply, but the manuals describe a transparent mode
in detail, the device may be a totally new type. The distribution file
@q<ik0con.hlp> has hints on implementing Kermit support for the new type.
If nothing else works, you can probably use FULLSCREEN mode, as long
as the micro Kermit supports it.
@end(enumerate)
If Kermit tries to transfer a file with the wrong @q<CONTROLLER> value, there
is a distressing possibility for the session to lock or, at least, appear to
lock. When and if this happens, be sure to connect back to the mainframe,
type @qq<STOP>, and press ENTER several times (perhaps as many as 15 times)
before taking any drastic steps like breaking the connection. @qq<STOP> is a
special escape mechanism for getting out of Kermit protocol mode quickly.
Kermit-370 recognizes such a request in most situations where terminal I/O is
not entirely frozen. Sometimes, apparent lock-ups are due to something as
simple as incorrect parity settings in the micro Kermit, so always check the
basic communication settings and, if necessary, experiment before trying a
different @q<CONTROLLER> type. Also, to avoid unnecessary confusion, check
for the existence of a Kermit initialization file (possibly created by the
installer) which could be re-setting @q<CONTROLLER> after the automatic
procedure has finished. Such a re-setting is a poor idea in an
initialization file, even a personal one, unless there is absolutely only one
kind of communications equipment on your system.
If file transfers do not work at first, it is best to do the following
before trying again:
@begin(enumerate)
Reduce the packet size to no more than 80 at both ends.
Enable 8th-bit quoting at both ends.
Set @q<SEND PARITY MARK> in Kermit-370.
@end(enumerate)
If those changes do not make transfers work, the next remedial action depends
on the symptoms of failure.
@begin(itemize)
No packets exchanged and session locked up after reconnecting: change packet
characters in both directions.
No packets exchanged, but no lockup: change packet characters or parity.
Always multiple retries of third or fourth packet: reduce receiving packet
size.
Multiple retries after random number of packets: check hardware and cables.
Multiple retries after file-dependent number of packets: check for equipment
that intercepts one or more printable characters or reduce the packet size.
@end(itemize)
When all else fails, you should be ready to reset @q<CONTROLLER> by hand and
try again. The change most likely to be necessary is from @q<GRAPHICS> to
@q<SERIES1>. However, it is conceivable that the installer has modified
Kermit-370 at your location to force the @q<CONTROLLER> setting from the
start, in which case, you might need to go the other way. Normally, Kermit's
diagnostic procedure at start-up takes one or two seconds (because of
programmed delays), so you should be suspicious if the Kermit prompt appears
immediately after you start the program. The only initial @q<CONTROLLER>
setting that you should @i<not> change by hand is @q<NONE>, which means that
Kermit-370 has recognized a 3174 AEA line that is not configured for file
transfer (or else the Kermit installer has a warped sense of humor).
If no amount of experimenting gets a transparent mode to work, it is time to
recheck the list of supported devices and the age of your equipment. If
yours is very old, it may require new microcode or some other software or
hardware upgrade. In any case, if your results (whether positive or
negative) are not already shown in @q<ik0aaa.hlp>, you should report them to
Columbia so that others may profit by your experience.
@Section<After Returning from Kermit-370>
When Kermit-370 receives a QUIT or EXIT subcommand or finishes the
subcommand or subcommands
specified in the original command string that invoked
Kermit, control is returned to the caller. Before returning,
Kermit-370 closes any active TAKE files (the EXIT or QUIT subcommand may
be issued from a TAKE file). On return, the completion code is set
from the current error status according to the codes in Table
@ref(-ikcodes).
@Index(Error codes)@Index(Completion codes)
@seealso(primary="Completion codes",other="Error codes")
@begin<table,leftmargin +0,use format>
@tabclear()@tabset(0.6in,1.4in)
@bar()
@blankspace(1)
@u(Code)@\@u<Symbol>@\@ux<Error Message>
0@\NOE@\No errors
1@\NFT@\No file transfers yet
2@\TRC@\Transfer cancelled
3@\USC@\Invalid server command
4@\TIE@\Terminal I/O error
5@\BPC@\Bad packet count or chksum
6@\IPS@\Invalid packet syntax
7@\IPT@\Invalid packet type
8@\MIS@\Lost a packet
9@\NAK@\Micro sent a NAK
10@\ABO@\Micro aborted
11@\FNE@\Invalid file name
12@\FNF@\File not found
13@\FUL@\Disk or file is full
14@\DIE@\Disk I/O error
15@\MOP@\Missing operand
16@\SYS@\Illegal system command
17@\KCE@\Kermit command error
18@\TIM@\No packet received
19@\RTR@\Records truncated
20@\COM@\Bad communication line
21@\PTY@\8th-bit quote not set
22@\FTS@\File too short
23@\SOH@\Missing start-of-packet
24@\OPT@\Option error on filespec
25@\DSP@\Unable to dispose of file
@caption<Error messages and codes for Kermit-370>
@tag<-ikcodes>
@blankspace(1)
@bar()
@end<table>
The error codes in Table
@ref<-ikcodes> bear no relationship to the severity of the associated
error conditions, aside from the assignment of code 0. The underlying
rationale is that the only current generic system
for the treatment of completion
codes is to take a non-zero code as an indication of error.
Indeed, Kermit
returns a completion code of 0 when "error" condition 1 holds.
@Section<What's New>
Below is a list of the changes in Version @value(-ikvrsn) of
Kermit-370.
@begin(enumerate,spread 0.5)
Compatibility with the (aging) F-level assembler.
Support for LATIN2, LATIN3, TRANSPARENT,
CP870, CP905, and CP880, as well as the
aliases L1, L2, and L3. New alias CP1047 for EBCDIC.
Support for IBM 3174 ASCII Graphics mode.
Improved controller detection, including local customization options.
Support for new unprefixed transmission of selected control characters.
Support for REMOTE PRINT, REMOTE MAIL, and REMOTE SUBMIT.
Improved error message for bad packet-size, new alias PACKET-LENGTH
for PACKET-SIZE.
Correct observance of FILE COLLISION for all files in a group.
Ignoring spurious flow-control "packets" from (for example) MS-Kermit.
Support for new locking-shift Kermit protocol.
Support for Japanese Kanji file transfer and support for the Thai
and Arabic character sets.
New versions of Kermit with the interactive messages in languages
other than English.
New FULLSCREEN controller type.
New HINTS subcommand.
More graceful recovery from terminal I/O errors and exceptions.
Support for SNA LU1 3770-type devices and 8-bit, no-parity devices.
Optional conversion of EBCDIC printer carriage control into ASCII
control characters.
Support for STOP command on "dumb" 3270 terminals and PCI protocol converters.
New efficiency display in STATUS report, based on SPEED setting.
New, uniform messages upon entering protocol mode, in the
form "KERMIT READY TO SEND..." (or RECEIVE or SERVE).
8-bit XECHO output.
Control prefixing for C1 controls.
New VERSION subcommand.
Improved debugging facilities.
@end(enumerate)
@Section(What's Missing)
Work on Kermit-370 will continue. Features that need to be
improved or added include:
@begin(itemize)
Implement file archiving.
Implement file transfer checkpointing.
Add SET REPEAT subcommand.
Improve Kermit-370 operation as a local Kermit.
Implement public server mode.
Allow REMOTE KERMIT HELP, REMOTE KERMIT DIR, and REMOTE SET from a micro.
@Index(Discarding files)
Add new SET FILE LONGLINE DISCARD option to allow multi-file
transfer to proceed past a truncation problem.
System-specific upgrades; see the respective chapters for details.
@end(itemize)
Anyone interested in working on these or other improvements should first
get in touch with the Center for Computing Activities at Columbia
University to find out if someone else has already begun a similar
project (and, if so, who).
@Section<Further Reading>
Below is a list of references for some of the material in this chapter.
@begin(enumerate,spread 0.5)
@i<About Type: IBM's Technical Reference for 240-Pel Digitized Type>,
S544-3156-02 (1989). This manual contains visual tables of many
EBCDIC code pages and a comprehensive list of character names and
acronyms.
@i<IBM System/370 Reference Summary>, GX20-1850-3 (1976). This reference
card contains EBCDIC and ASCII character codes.
@i<IBM VS Fortran Application Programming: Language Reference>,
GC26-3986-1 (1982). Appendix E contains a table of EBCDIC and
ASCII characters with an implied full 256-byte translation table.
@i<IBM 3174 Character Set Reference>,
GA27-3831-02 (1990). Chapter 5 contains visual tables of many EBCDIC
code pages.
@i<Info-Kermit Digest> Vol. 11 #1 (1989). This issue contains draft
specifications of some Kermit protocol extensions.
@i<ISO International Register of Coded Character Sets to be used with
Escape Sequences> (1989). This (very large) document has complete
and unambiguous descriptions of standard coded character sets. It
can be obtained from the ECMA.
@i<Kermit, A File Transfer Protocol> by Frank da Cruz; Digital Press
(1987). This book contains a thorough description of the Kermit
protocol and services with copious examples.
Kermit distribution file ISOK7.TXT (1992). This preliminary draft
describes the new transfer protocol, including the international
character-set support.
@i<Kermit News> Vol. 3 #1, p.5, "Dynamic Packet Size Control" (1988).
This article describes an algorithm for
optimizing Kermit throughput in the face of line noise.
@i<Kermit News> #4, p.16, "International Character Sets" (1990).
This article discusses the new transfer protocol.
@i<ASCII and EBCDIC Character Set and Code Issues in Systems
Applications Architecture>,
SHARE white paper by Edwin Hart (1989). This document, available as
file SHARE REQUIRE from LISTSERV@@JHUVM, lays out general considerations
for character codes and translatability.
Kermit distribution file LSHIFT.TXT (1991). This file describes the new
protocol extension for better compression of 8th-bit text on 7-bit
channels.
@end(enumerate)