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CHAP6
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CHAPTER 6
Programming Technical Reference - IBM
Copyright 1988, Dave Williams
DOS CONTROL BLOCKS AND WORK AREAS
When DOS loads a program, it first sets aside a section of memory for the
program called the program segment, or code segment. Then it constructs a
control block called the program segment prefix, or PSP, in the first 256
(100h) bytes. Usually, the program is loaded directly after the PSP at
100h.
The PSP contains various information used by DOS to help run the program.
The PSP is always located at offset 0 within the code segment. When a program
recieves control certain registers are set to point to the PSP. For a COM
file, all registers are set to point to the beginning of the PSP and the
program begins at 100h. For the more complex EXE file structures, only DS and
ES registers are set to point to the PSP. The linker passes the settings for
the DS, IP, SS, and SP registers and may set the starting location in CS:IP to
a location other than 100h.
IBMBIO provides an IRET instruction at absolute address 847h for use as a
dummy routine for interrupts that are not used by DOS. This lets the
interrupts do nothing until their vectors are rerouted to ttheir appropriate
handlers.
A storage block is used by DOS to record the amount and location of allocated
memory withion the machine's address spacd.
A storage block, a Program Segment Prefix, and an environment area are built
by FDOS for each program currently resident in the address space. The storage
block is used by DOS to record the address range of memory allocated to a
program. IOt us used by DOs to find th enext availible area to load a program
and to determine if there is a\enough memory to run that porogram. When a
memory area is in use, it is said to be allocated. Then the program ends, or
releases memory, it is said to bne deallocated.
A storage block contains a pointer ro rhe Program Segment Prefix assoiciated
with each program. This control block is constructed by IBMDOS for the purpose
opf providing stanfdardized areas for DOS/program communication., Within ghr
PSP are arsas which are used to save interrupt vectors, pass parameters to
the program, record disk directory information, and to buffer disk reads and
writes. This control block is 100h bytes in lengrth and is followed by the
program mopdule loaded by DOS.
The PSP contains a pointer to the environment area for that program. This
area contains a copy of the current DOS SET, PROMPT, COMSPEC, and PATH values
as well as any user-set variables. The program may examine and modify this
information as desired.
Each storage block is 10h bytes long, although only 5 bytes are currently
used by DOS. The first byte contains 4Dh (a capital M) to indicate that it
contains a pointer to the next storage block. A 5Ah (a capital Z) in the
first byte of a storage block indicatres there are no more storage blocks
following this one (it is the end of the chain). The identifier byte is
followeed by a 2 byte segment number for the associated PSP for that program.
The next 2 bytes contain the number of segments what are allocated to the
program. If this is not the last storage block, then another storage block
follows the allocated memory area.
When thge storage block contains zero for the nuymber of allocated segments,
then no storage is allocated to thius block and the next storage block
immediately follows this one. This can ha-p[en whjen memory is allocated and
then deallocated repeatedly.
IBMDOS constructs a storage block and PSP before loading the command
interpreter (default is COMMAND.COM).
If the copy of COMMAND.COM is a secondary copy, it will lack an environment
address as PSP+2Ch.
The Disk Transfer Area (DTA)
DOS uses an area in memory to contain the data for all file reads and writes
that are performed with FCB function calls. This are is known as the disk
transfer area. This disk transfer area (DTA) is sometimes called a buffer.
It can be located anywhere in the data area of your application program and
should be set by your program.
Only one DTA can be in effect at a time, so your program must tell DOS what
memory location to use before using any disk read or write functions. Use
function call 1Ah (Set Disk Transfer Address) to set the disk transfer address.
Use function call 2Fh (Get Disk Transfer Address) to get the disk transfer
address. Once set, DOS continues to use that area for all disk operations until
another function call 1Ah is issued to define a new DTA. When a program is given
control by COMMAND.COM, a default DTA large enough to hold 128 bytes is
established at 80h into the program's Program Segment Prefix.
For file reads and writes that are performed with the extended function calls,
there is no need to set a DTA address. Instead, specify a buffer address when
you issue the read or write call.
DOS Program Segment
When you enter an external command or call a program through the EXEC function
call, DOS determines the lowest availible address space to use as the start of
available memory for the program being started. This area is called the Program
Segment.
At offset 0 within the program segment, DOS builds the Program Segment Prefix
control block. EXEC loads the program after the Program Segment Prefix (at
offset 100h) and gives it control.
The program returns from EXEC by a jump to offset 0 in the Program Segment
Prefix, by issuing an int 20h, or by issuing an int 21h with register AH=00h or
4Ch, or by calling location 50h in the PSP with AH=00h or 4Ch.
It is the responsibility of all programs to ensure that the CS register
contains the segment address of the Program Segment Prefix when terminating by
any of these methods except call 4Ch.
All of these methods result in returning to the program that issued the EXEC.
During this returning process, interrupt vectors 22h, 23h, and 24h (Terminate,
Ctrl-Break, and Critical Error Exit addresses) are restored from the values
saved in the PSP of the terminating program. Control is then given to the
terminate address.
When a program receives control, the following conditions are in effect:
For all programs:
1) The segment address of the passed environment is contained at offset 2Ch in
the Program Segment Prefix.
2) The environment is a series of ASCII strings totalling less than 32k bytes
in the form: NAME=parameter The default environment is 160 bytes.
Each string is terminated by a byte of zeroes, and the entire set of strings
is terminated by abother byte of zeroes. Following the byte of zeroes that
terminates the set of environment string is a set of initial arguments passed
to a program that contains a word count followed by an ASCIIZ string. The
ASCIIZ string contains the drive, path, and filename.ext of the executable
program. Programs may use this area to determine where the program was loaded
from. The environment built by the command processor (and passed to all
programs it invokes) contains a COMSPEC=string at a minimum (the parameter on
COMSPEC is the path used by DOS to locate COMMAND.COM on disk). The last PATH
and PROMPT commands issued will also be in the environment, along with any
environment strings entered through the SET command.
The environment that you are passed is actually a copy of the invoking
process's environment. If your application terminates and stays resident
through int 27h, you should be aware that the copy of the environment passed
to you is static. That is, it will not change even if subsequent PATH,
PROMPT, or SET commands are issued.
The environment can be used to transfer information between processes or to
store strings for later use by application programs. The environment is
always located on a paragraph boundary. This is its format:
byte ASCIIZ string 1
byte ASCIIZ string 2
....
byte ASCIIZ string n
byte of zeros (0)
Typically the environment strings have the form:
parameter = value
Following the byte of zeros in the environment, a WORD indicates the number
of other strings following.
If the environment is part of an EXECed command interpreter, it is followed
by a copy of the DS:DX filename passed to the child process. A zero value
causes the newly created process to inherit the parent's environment.
3) Offset 80h in the PSP contains code to invoke the DOS function dispatcher.
Thus, by placing the desired function number in AH, a program can issue a
long call to PSP+50h to invoke a DOS function rather than issuing an int 21h.
4) The disk transfer address (DTA) is set to 80h (default DTA in PSP).
5) File Control Blocks 5Ch and 6Ch are formatted from the first two parameters
entered when the command was invoked. Note that if either parameter contained
a path name, then the corresponding FCB will contain only a valid drive
number. The filename field will not be valid.
6) An unformatted parameter area at 81h contains all the characters entered
after the command name (including leading and imbedded delimiters), with 80h
set to the number of characters. If the <, >, or | parameters were entered
on the command line, they (and the filenames associated with them) will not
appear in this area, because redirection of standard input and output is
transparent to applications.
(For EXE files only)
7) DS and ES registers are set to point to the PSP.
8) CS, IP, SS, and SP registers are set to the values passed by the linker.
(For COM files only)
9) For COM files, offset 6 (one word) contains the number of bytes availible in
the segment.
10) Register AX reflects the validity of drive specifiers entered with the
first two parameters as follows:
AL=0FFh is the first parameter contained an invalid drive specifier,
otherwise AL=00h.
AL=0FFh if the second parameter contained an invalid drive specifier,
otherwise AL=00h.
11) All four segment registers contain the segment address of the inital
allocation block, that starts within the PSP control block. All of user
memory is allocated to the program. If the program needs to invoke another
program through the EXEC function call (4Bh), it must first free some memory
through the SETBLOCK function call to provide space for the program being
invoked.
12) The Instruction Pointer (IP) is set to 100h.
13) The SP register is set to the end of the program's segment. The segment size
at offset 6 is rounded down to the paragraph size.
14) A word of zeroes is placed on top of the stack.
The PSP (with offsets in hexadecimal) is formatted as follows:
┌──────────────────────────────────────────────────────────────────────────────┐
│ P R O G R A M S E G M E N T P R E F I X │
├───────┬──────────┬───────────────────────────────────────────────────────────┤
│ offset│ size │ C O N T E N T S │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0000h │ 2 bytes │ int 20h │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0002h │ 2 bytes │ segment address, end of allocation block │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0004h │ 1 byte │ reserved, normally 0 │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0005h │ 5 bytes │ long call to MSDOS function dispatcher │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 000Ah │ 4 bytes │ previous termination handler interrupt vector (int 22h) │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 000Eh │ 4 bytes │ previous contents of ctrl-C interrupt vector (int 23h) │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0012h │ 4 bytes │ prev. critical error handler interrupt vector (int 24h) │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0016h │ 22 bytes │ reserved for DOS │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 002Ch │ 2 bytes │ segment address of environment block │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 002Eh │ 34 bytes │ reserved, DOS work area │
└───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 4 bytes │ stores the calling process's stack pointer when │
│ │ switching to DOS's internal stack. │
┌───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0050h │ 3 bytes │ int 21h, RETF instructions │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0053h │ 2 bytes │ reserved │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0055h │ 7 bytes │ reserved, or FCB#1 extension │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 005Ch │ │ default File Control Block #1 │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 006Ch │ │ default File Control Block #2 (overlaid if FCB #1 opened) │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0080h │ 1 byte │ parameter length │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 0081h │ │ parameters │
├───────┼──────────┼───────────────────────────────────────────────────────────┤
│ 00FFh │ 128 bytes│ command tail and default Disk Transfer Area (DTA) │
└───────┴──────────┴───────────────────────────────────────────────────────────┘
1. The first segment of availible memory is in segment (paragraph) form. For
example, 1000h would respresent 64k.
2. The word at offset 6 contains the number of bytes availible in the segment.
3. Offset 2Ch contains the segment address of the environment.
4. Programs must not alter any part of the PSP below offset 5Ch.
offset 0 contains hex bytes CD 20, the int 20h opcode. A program can end
by making a jump to this location when the CS points to the PSP.
For normal cases, int 21, function 4Ch should be used.
offset 2 contains the segment-paragraph address of the end of memory as
reported by DOS. (which may not be the same as the real end of RAM).
Multiply this number by 10h or 16 to get the amount of memory availible.
offset 4 reserved
offset 05 contains a long call to the DOS function dispatcher. Programs may
jump to this address instead of calling int 21 if they wish.
offsets 10, 14, 18 vectors
offset 2C is the segment:offset address of the environment for the program
using this particular PSP.
offset 2E The DWORD at PSP+2EH is used by DOS to store the calling process's
stack pointer when switching to DOS's own private stack - at the end of
a DOS function call, SS:SP is restored from this address.
offset 50h contains a long call to the DOS function dispatcher.
offsets 5C, 65, 6C contain FCB information for use with FCB function calls.
The first FCB may overlay the second if it is an extended call; your
program should revector these areas to a safe place if you intend to
use them.
offset 80h and 81h contain th elength and value of parameters passed on the
command line.
offset FF contains the DTA
STANDRD FILE CONTROL BLOCK
The standard file control block is defined as follows, with the offsets in
decimal:
┌──────────────────────────────────────────────────────────────────────────────┐
│ F I L E C O N T R O L B L O C K │
├───────┬──────────────────────────────────────────────────────────────────────┤
│ Bytes │ Function │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 0 │ Drive number. For example: │
│ │ Before open: 00h = default drive │
│ │ 01h = drive A: │
│ │ 02h = drive B: etc. │
│ │ After open: 00h = drive C: │
│ │ 01h = drive A: │
│ │ 02h = drive B: etc. │
│ │ 0 is replaced by the actual drive number during open. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 1-8 │ Filename, left justified with trailing blanks. If a reserved device │
│ │ name is placed here (such as PRN) do not include the optional colon. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 9-11 │ Filename extension, left justified with trailing blanks. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 12-13 │ Current block number relative to beginning of file, starting with 0 │
│ │ (set to 0 by the open function call). A block consists of 128 │
│ │ records, each of the size specified in the logical record size field.│
│ │ The current block number is used with the current record field │
│ │ (below) for sequential reads and writes. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 14-15 │ Logical record size in bytes. Set to 80h by the OPEN function call. │
│ │ If this is not correct, you must set the value because DOS uses it │
│ │ to determine the proper locations in the file for all disk reads and │
│ │ writes. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 16-19 │ File size in bytes. In this 2 word field, the first word is the │
│ │ low-order part of the size. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 20-21 │ Date the file was created or last updated. The mm/dd/yy are mapped │
│ │ as follows: │
│ │ 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 │
│ │ y y y y y y y m m m m d d d d d │
│ │ where: mm is 1-12 │
│ │ dd is 1-31 │
│ │ yy is 0-119 (1980-2099) │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 22-31 │ Reserved for system use. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 32 │ Current relative record number (0-127) within the current block. │
│ │ (See above). You must set this field before doing sequential │
│ │ read/write operations to the diskette. This field is not initialized │
│ │ by the open function call. │
│ │ If the record size is less than 64 bytes, both words are used. │
│ │ Otherwise, only the first 3 bytes are used. Note that if you use the │
│ │ File Control Block at 5Ch in the program segment, the last byte of │
│ │ the FCB overlaps the first byte of the unformatted parameter area. │
└───────┴──────────────────────────────────────────────────────────────────────┘
note 1) An unopened FCB consists of the FCB prefix (if used), drive number, and
filename.ext properly filled in. An open FCB is one in which the
remaining fields have been filled in by the CREAT or OPEN function
calls.
2) Bytes 0-5 and 32-36 must be set by the user program. Bytes 16-31 are set
by DOS and must not be changed by user programs.
3) All word fields are stored with the least significant byte first. For
example, a record length of 128 is stored as 80h at offset 14, and 00h
at offset 15.
EXTENDED FILE CONTROL BLOCK
The extended file control block is used to create or search for files in the
disk directory that have special attributes.
It adds a 7 byte prefix to the FCB, formatted as follows:
┌──────────────────────────────────────────────────────────────────────────────┐
│ E X T E N D E D F I L E C O N T R O L B L O C K │
├───────┬──────────────────────────────────────────────────────────────────────┤
│ Bytes │ Function │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 0 │ Flag byte containing 0FFh to indicate an extended FCB. │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 1-6 │ Reserved │
├───────┼──────────────────────────────────────────────────────────────────────┤
│ 6-7 │ Attribute byte. Refer to function call 11h (search first) for │
│ │ details on using the attribute bits during directory searches. This │
│ │ function is present to allow applications to define their own files │
│ │ as hidden (and thereby excluded from normal directory searches) and │
│ │ to allow selective directory searches. │
└───────┴──────────────────────────────────────────────────────────────────────┘
Any reference in the DOS function calls to an FCB, whether opened or unopened,
may use either a normal or extended FCB. If you are using an extended FCB, the
appropriate register should be set to the first byte of the prefix, rather than
the drive-number field.
MEMORY CONTROL BLOCKS
DOS keeps track of allocated and availible memory blocks, and provides three
function calls for application programs to communicate their memory needs to
DOS. These calls are 48h to allocate a memory block, 49h to free a previously
allocated memory block, and 4Ah (SETBLOCK) to change the size of an allocated
memory block.
CONTROL BLOCK
DOS manages memory as follows:
DOS build a control block for each block of memory, whether free or allocated.
For example, if a program issues an "allocate" (48h), DOS locates a block of
free memory that satisfies the request, and then "carves" the requested memory
out of that block. The requesting program is passed the location of the first
byte of the block that was allocated for it - a memory management control block,
describing the allocated block, has been built for the allocated block and a
second memory management control block describes the amount of space left in the
original free block of memory. When you do a setblock to shrink an allocated
block, DOS builds a memory management control block for the area being freed and
adds it to the chain of control blocks. Thus, any program that changed memory
that is not allocated to it stands a chance of destroying a DOS memory
management control block. This causes unpredictable results that don't show up
until an activity is performed where DOS uses its chain of control blocks. The
normal result is a memory allocation error, which means a system reset will be
required.
When a program (command or application program) is to be loaded, DOS uses the
EXEC function call 4Bh to perform the loading.
This is the same function call that is availible to applications programs for
loading other programs. This function call has two options:
Function 00h, to load and execute a program (this is what the command
processor uses to load and execute external commands)
Function 03h, to load an overlay (program) without executing it.
Although both functions perform their loading in the same way (relocation is
performed for EXE files) their handling of memory management is different.
FUNCTION 0: For function 0 to load and execute a program, EXEC first allocates
the largest availible block of memory (the new program's PSP will be at offset
0 in that block). Then EXEC loads the program. Thus, in most cases, the new
program owns all the memory from its PSP to the end of memory, including memory
occupied by the transient parent of COMMAND.COM. If the program were to issue
its own EXEC function call to load and execute another program, the request
would fail because no availible memory exists to load the new program into.
NOTE: For EXE programs, the amount of memory allocated is the size of the
program's memory image plus the value in the MAX_ALLOC field of the file's
header (offset 0Ch, if that much memory is availible. If not, EXEC
allocates the size of the program's memory image plus the value in the
MIN_ALLOC field in the header (offset 0Ah). These fields are set by the
Linker).
A well-behaved program uses the SETBLOCK function call when it receives
control, to shrink its allocated memory block down to the size it really needs.
A COM program should remember to set up its own stack before doing the SETBLOCK,
since it is likely that the default stack supplied by DOS lies in the area of
memory being used. This frees unneeded memory, which can be used for loading
other programs.
If the program requires additional memory during processing, it can obtain
the memory using the allocate function call and later free it using the free
memory function call.
When a program is loaded using EXEC function call 00h exits, its initial
allocation block (the block beginning with its PSP) is automatically freed
before the calling program regains control. It is the responsibility of all
programs to free any memory they allocate before exiting to the calling
program.
FUNCTION 3: For function 3, to load an overlay, no PSP is built and EXEC
assumes the calling program has already allocated memory to load the new program
into - it will NOT allocate memory for it. Thus the calling program should
either allow for the loading of overlays when it determines the amount of memory
to keep when issuing the SETBLOCK call, or should initially free as much memory
as possible. The calling program should then allocate a block (based on the size
of the program to be loaded) to hold the program that will be loaded using the
"load overlay" call. Note that "load overlay" does not check to see if the
calling program actually owns the memory block it has been instructed to load
into - it assumes the calling program has followed the rules. If the calling
program does not own the memory into which the overlay is being loaded, there is
a chance the program being loaded will overlay one of the control blocks that
DOS uses to keep track of memory blocks.
Programs loaded using function 3 should not issue any SETBLOCK calls since
they don't own the memory they are operating in. (This memory is owned by the
calling program)
Because programs loaded using function 3 are given control directly by (and
return contrrol directly to) the calling program, no memory is automatically
freed when the called program exits. It is up to the calling program to
determine the disposition of the memory that had been occupied by the exiting
program. Note that if the exiting program had itself allocated any memory, it
is responsible for freeing that memory before exiting.
MEMORY CONTROL BLOCKS
Only the first 5 bytes of the memory control block are used. The first byte
will always have the value of 4Dh or 5Ah. The value 5Ah indicates the block is
the last in a chain, all memory above it is unused. 4Dh means that the block is
intermediate in a chain, the memory above it belongs to the next program or to
DOS.
The next two bytes hold the PSP segment address of the program that owns the
corresponding block of memory. A value of 0 means the block is free to be
claimed, any other value represents a segment address. Bytes 3 and 4 indicate
the size in paragraphs of the memory block. If you know the address of the first
block, you can find the next block by adding the length of the memory block plus
1 to the segment address of the control block.
Finding the first block can be difficult, as this varies according to the DOS
version and the configuration.
The remaining 11 bytes are not currently used by DOS, and may contain "trash"
characters left in memory from previous applications.
If DOS determines that the allocation chain of memory control blocks has been
corrupted, it will halt the system and display the message "Memory Allocation
Error", and the system will halt, requiring a reboot.
Each memory block consists of a signature byte (4Dh or 5Ah) then a word which
is the PSP value of the owner of the block (which allocated it), followed by a
word which is the size in paragraphs of the block. The last block has a
signature of 5Ah. All others have 4Dh. If the owner is 0000 then the block is
free.
User memory is allocated from the lowest end of available memory that will
satisfy the request for memory.