windows-nt/Source/XPSP1/NT/base/mvdm/dos/v86/redir/redir.asm

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/*++
Copyright (c) 1991 Microsoft Corporation
Module Name:
redir.asm
Abstract:
This module contains the stub redir TSR code for NT VDM net support
Author:
Richard L Firth (rfirth) 05-Sep-1991
Environment:
Dos mode only
Revision History:
05-Sep-1991 rfirth
Created
--*/
endif
;
; DOS include files
;
.xlist
.xcref
include dossym.inc ; includes MS-DOS version etc
include pdb.inc ; PSP defines
include syscall.inc ; AssignOper
include enumapis.inc ; Local_API_GetRedirVersion, etc.
include segorder.inc ; load order of 'redir' segments
include rdrsvc.inc ; BOP and SVC macros/dispatch codes
include rdrmisc.inc ; miscellaneous definitions
include debugmac.inc ; debug display macros
include asmmacro.inc ; jumps which may be short or near
include int5c.inc ; Int to be used for pseudo network adapter
.cref
.list
;
; Misc. local manifests
;
LOAD_STACK_SIZE equ 256
;
; Define externals in resident code and data
;
ResidentCodeStart
extrn OldMultHandler:dword
extrn MultHandler:near
extrn Old2aHandler:dword
extrn Int2aHandler:near
extrn Old5cHandler:dword
extrn Int5cHandler:near
extrn OldNetworkHandler:dword
extrn IntNetworkHandler:near
extrn dwPostRoutineAddress:dword
if DEBUG
extrn Old21Handler:dword
extrn CheckInt21Function5e:near
endif
ResidentCodeEnd
ResidentDataStart
extrn LanRootLength:word
extrn LanRoot:byte
ResidentDataEnd
InitStack segment stack para 'stack'
dw LOAD_STACK_SIZE dup (?)
top_of_stack equ $
InitStack ends
InitDataStart
;
; pull in messages. Kept in a separate file to make internationalisation easier
;
include redirmsg.inc
public ComputerName
ComputerName db LM20_CNLEN + 1 dup (?)
DefaultLanRoot db "C:\LANMAN.DOS",0
DEFAULT_LANROOT_LENGTH equ $-DefaultLanRoot
InitDataEnd
InitCodeStart
assume cs:InitCode
assume ds:nothing
assume es:nothing
assume ss:nothing
public start
start proc near
;
; when we start up we could be on any old PC - even an original, so don't
; assume anything other than a model-T processor
;
.8086
;
; let's do the decent thing and create a stack. This way we're covered
;
mov dx,InitStack
mov ss,dx ; disables ints until after next ins.
mov sp,offset top_of_stack
assume ss:InitStack
;
; may as well set the data segment while we're at it - all paths set it sooner
; or later. NOTE: es will point to the PSP until we change it!
;
mov dx,InitData
mov ds,dx
assume ds:InitData
;
; first off, get the DOS version. If we're not running on NT (VDM) then this
; TSR's not going to do much, so exit. Exit using various methods, depending
; on the DOS version (don't you hate compatibility?)
;
mov ah,30h
int 21h
jc ancient_version ; version not even supported, forcrissake
;
; version is 2.0 or higher. Check it out. al = major#, ah = minor#
;
cmp al,major_version
jne invalid_version
;
; what do you know? We're actually running on NT (unless some evil programmer
; has pinched int 21h/30h and done something execrable with it!). We'd better
; do something...
; Also: at this point we know we're on at a 386, so lets enable some 286
; instructions to be generated. Eh? you justifiably ponder - is this a typo?
; Unfortunately, SoftPc only emulates the lowly 286 processor. We need to wait
; until Microsoft has paid Insignia lots of money before they can afford some
; new brains who will then dutifully provide us with full 386+ emulation (maybe)
;
.286c
mov ax,(AssignOper SHL 8) + Local_API_RedirGetVersion
int 21h ; is redir already loaded?
jnc already_here ; yep
;
; OK, the redir is not already loaded - we're in business. Get and set the
; various interrupt vectors, Calculate the amount of space we want to keep,
; free up any unused space (like the environment segment), display a message
; in the DEBUG version, then terminate and stay resident. Remember: at this
; point we expect ES to point at the PSP
;
@@: call InstallInterruptHandlers
; OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD
;;
;; Initialize VDM DOS memory window address (in virtual DLC driver).
;; The memory window is used for the async Netbios, DLC and
;; named pipe post routines.
;;
;
; push es ; PSP
; mov bx,ResidentCode
; mov es,bx
;
; assume es:ResidentCode
;
;;
;; now that VDMREDIR support is a DLL, we can fail initialization on the 32-bit
;; side if the DLL cannot be loaded, or the entry points not found. In this case
;; we will fail to load redir.exe, rather than constantly returning
;; ERROR_NOT_SUPPORTED every time we make a redir BOP
;;
;
; mov bx,offset dwPostRoutineAddress
; SVC SVC_VDM_WINDOW_INIT
; pop es ; es back to PSP
; jmpc initialization_error
; OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD
assume es:nothing
;
; free the environment segment
;
mov es,es:[PDB_environ]
mov ah,49h
int 21h ; free environment segment
if DEBUG
ifdef PROLIX
DbgPrintString <"Redir successfully loaded",13,10>
endif
endif
; OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD
;;
;; now perform the BOP which will let the 32-bit redir support know that the
;; DOS redirector TSR is successfully loaded. This must be the last action -
;; we cannot fail installation after this point (unless we call the BOP to
;; uninitialize 32-bit VDM redir support
;;
;
; mov bx,seg ComputerName
; mov es,bx
;
; assume es:seg ComputerName
;
; mov bx,offset ComputerName ; initialization returns the computer name
; mov cx,size ComputerName ; which will be gettable using int 21/ah=5e
; SVC SVC_RDRINITIALIZE
; jmpc initialization_error ; 32-bit DLL failed (?)
; OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD
; DbgBreakPoint ; check computer name returned
;
; set the computer name returned from the 32-bit side
;
if DEBUG
ifdef PROLIX
DbgPrintString <"Set computer name here",13,10>
endif
endif
if 0
mov ax,5e01h ; set machine name
xor cx,cx ; cx is 'user num'
int 21h
endif
;
; do initialisation things - set the lanroot to the default if not otherwise
; specified
;
mov ax,InitData
mov ds,ax
assume ds:InitData
mov ax,ResidentData
mov es,ax
assume es:ResidentData
mov LanRootLength,DEFAULT_LANROOT_LENGTH
mov si,offset DefaultLanRoot
mov di,offset LanRoot
cld
mov cx,DEFAULT_LANROOT_LENGTH/2
rep movsw
if (DEFAULT_LANROOT_LENGTH and 1)
movsb
endif
;
; finally terminate and stay resident
;
mov dx,ResidentEnd
sub dx,ResidentStart ; number of paragraphs in resident code
add dx,10h ; additional for PSP (PDB)
; DbgBreakPoint
if DEBUG
ifdef PROLIX
DbgPrintString "Staying resident with "
DbgPrintHexWord dx
DbgPrintString " paragraphs. Load seg is ",NOBANNER
mov ah,62h
int 21h
DbgPrintHexWord bx
DbgPrintString " current seg is ",NOBANNER
DbgPrintHexWord cs
DbgCrLf
endif
endif
mov ax,3100h
int 21h ; terminate and stay resident
;
; here if the MS-DOS version check (Ah=30h) call is not supported
;
ancient_version:
mov dx,InitData
mov ds,dx
assume ds:InitData
mov dx,offset bad_ver_msg
mov ah,9 ; cp/m-style write to output
int 21h
;
; safe exit: what we really want to do here is INT 20H, but when you do this,
; CS must be the segment of the PSP of this program. Knowing that CD 20 is
; embedded at the start of the PSP, the most foolproof way of doing this is
; to jump (using far return) to the start of the PSP
;
push es
xor ax,ax
push ax
retf ; terminate
;
; we are running on a version of DOS >= 2.00, but its not NT, so we still can't
; help. Display the familiar message and exit, but using a less programmer-
; hostile mechanism
;
invalid_version:
mov dx,offset bad_ver_msg
mov cx,BAD_VER_MSG_LEN
jmp short print_error_message_and_exit
; OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD
;;
;; if we cannot initialize 32-bit support (because we can't find/load the DLL)
;; then put back the hooked interrupt vectors as they were when this TSR started,
;; display a message and fail to load the redir TSR
;;
;
;initialization_error:
; call RestoreInterruptHandlers
; mov dx,offset cannot_load_msg
; mov cx,CANNOT_LOAD_MSG_LEN
; jmps print_error_message_and_exit
; OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD OLD
;
; The DOS version's OK, but this TSR is already loaded
;
already_here:
mov dx,offset already_loaded_msg
mov cx,ALREADY_LOADED_MSG_LEN
print_error_message_and_exit:
mov bx,1 ; bx = stdout handle
mov ah,40h ; write to handle
int 21h ; write (cx) bytes @ (ds:dx) to stdout
mov ax,4c01h ; terminate program
int 21h ; au revoir, cruel environment
start endp
;*******************************************************************************
;*
;* InstallInterruptHandlers
;*
;* Sets the interrupt handlers for all the ints we use - 2a, 2f, 5c
;* and NETWORK_INTERRUPT (0e)
;*
;* ENTRY es = PSP segment
;* ds =
;*
;* EXIT OldMultHandler contains the original interrupt 2f vector
;* Old2aHandler contains the original interrupt 2a vector
;* Old5cHandler contains the original interrupt 5c vector
;* OldNetworkHandler contains the original interrupt 0e vector
;*
;* RETURNS nothing
;*
;* ASSUMES
;*
;*******************************************************************************
InstallInterruptHandlers proc
push es ; PSP segment - destroyed by INT 21/35h
push ds
;
; note: if we use ResidentCode here, explicitly, instead of seg OldMultHandler,
; then we can leave out an extraneous load of ds for the ISR address
;
mov dx,ResidentCode
mov ds,dx
assume ds:ResidentCode
mov ax,352fh ; get current INT 2Fh vector
int 21h
mov word ptr OldMultHandler,bx
mov word ptr OldMultHandler+2,es
mov dx,offset ResidentCode:MultHandler
mov ax,252fh
int 21h ; set INT 2Fh vector to our handler
;
; we have to pinch int 2a too - certain parts of the net libraries perform a
; net check using a presence check on 2ah
;
mov ax,352ah
int 21h
mov word ptr Old2aHandler,bx
mov word ptr Old2aHandler+2,es
mov dx,offset ResidentCode:Int2aHandler
mov ax,252ah
int 21h
;
; we have to pinch int 5c for Netbios and DLC
;
mov ax,355ch
int 21h
mov word ptr Old5cHandler,bx
mov word ptr Old5cHandler+2,es
mov dx,offset ResidentCode:Int5cHandler
mov ax,255ch
int 21h
;
; we have to pinch int NETWORK_INTERRUPT for Netbios and DLC
;
mov ax,3500h OR NETWORK_INTERRUPT
int 21h
mov word ptr OldNetworkHandler,bx
mov word ptr OldNetworkHandler+2,es
mov dx,offset ResidentCode:IntNetworkHandler
mov ax,2500h OR NETWORK_INTERRUPT
int 21h
;if DEBUG
;;
;; get the int 21 handler too so we can find out if anyone's calling the
;; (unsupported) int 21/ah=5e
;;
;
; mov ax,3521h
; int 21h
; mov word ptr Old21Handler,bx
; mov word ptr Old21Handler+2,es
; mov dx,offset ResidentCode:CheckInt21Function5e
; mov ax,2521h
; int 21h
;endif
pop ds ; restore segment registers
pop es
ret
InstallInterruptHandlers endp
;*******************************************************************************
;*
;* RestoreInterruptHandlers
;*
;* Resets the interrupt handlers for all the ints we use - 2a, 2f, 5c
;* and NETWORK_INTERRUPT (0e). Called in the event we cannot complete
;* installation
;*
;* ENTRY OldMultHandler, Old2aHandler, Old5cHandler, OldNetworkHandler
;* contain the interrupt vectors from before redir.exe was loaded
;*
;* EXIT Original interrupt vectors are restored
;*
;* RETURNS nothing
;*
;* ASSUMES
;*
;*******************************************************************************
RestoreInterruptHandlers proc
push ds
assume ds:nothing
push es
mov dx,ResidentCode
mov es,dx
assume es:ResidentCode
lds dx,OldMultHandler
mov ax,252fh
int 21h ; set INT 2Fh vector to previous handler
lds dx,Old2aHandler
mov ax,252ah
int 21h
lds dx,Old5cHandler
mov ax,255ch
int 21h
lds dx,OldNetworkHandler
mov ax,2500h OR NETWORK_INTERRUPT
int 21h
;if DEBUG
; lds dx,Old21Handler
; mov ax,2521h
; int 21h
;endif
pop es
pop ds
ret
RestoreInterruptHandlers endp
InitCodeEnd
end start