if1632/call.S - wine - Git at Google

 /*
  * Copyright  Robert J. Amstadt, 1993
  */
 #ifdef linux
 #define UDATASEL 0x2b
 #endif
 #if defined(__NetBSD__) || defined(__FreeBSD__)
 #define UDATASEL 0x27
 #endif
 	.data
 jump_target:
 return_value:
 	.long	0

 /**********************************************************************
  *	Places to keep info about the current 32-bit stack frame.
  */
 	.globl	_IF1632_Saved32_esp,_IF1632_Saved32_ebp,_IF1632_Saved32_ss
 _IF1632_Saved32_esp:
 	.long	0
 _IF1632_Saved32_ebp:
 	.long	0
 _IF1632_Saved32_ss:
 	.word	0

 /**********************************************************************
  *	Places to keep info about the current 16-bit stack frame.
  */
 	.globl	_IF1632_Saved16_esp,_IF1632_Saved16_ebp,_IF1632_Saved16_ss
 _IF1632_Saved16_esp:
 	.long	0
 _IF1632_Saved16_ebp:
 	.long	0
 _IF1632_Saved16_ss:
 	.word	0

 nbytes:
 	.word	0
 selector:
 	.word	0
 offset:
 	.word	0

 	.text

 /**********************************************************************
  *	int CallToInit16(unsigned long csip, unsigned long sssp,
  *		     unsigned short ds)
  *
  *	Stack:	 	0	ebp
  *		 	4	eip
  *		 	8	target ip
  *			10	target cs
  *			12	target sp
  *			14	target ss
  *			16	target ds
  */
 	.align	4
 	.globl _CallToInit16
 _CallToInit16:
 	pushl	%ebp
 	movl	%esp,%ebp

 	/*
  	 * Save our registers
 	 */
 	pushal
 	pushl	_IF1632_Saved32_esp
 	pushl	_IF1632_Saved32_ebp
 	pushw	_IF1632_Saved32_ss

 	/*
 	 * Get target address.
 	 */
 	movl	8(%ebp),%eax
 	movl	%eax,jump_target
 	lea	jump_target,%edx

 	/*
 	 * Put stack registers where we can get them after stack switch.
 	 */
 	movw	%ss,_IF1632_Saved32_ss
 	movl	%esp,_IF1632_Saved32_esp
 	movl	%ebp,_IF1632_Saved32_ebp

 	/*
 	 * Load initial registers
 	 */
 	movw	_WIN_StackSize,%bx
 	movw	_WIN_HeapSize,%cx
 	movl	$0,%esi
 	xorl	%eax,%eax
 	movw	_PSPSelector,%ax
 	movw	%ax,%es
 	movw	16(%ebp),%ax
 	movw	%ax,%ds
 	movl	%eax,%edi
 	xorl	%eax,%eax
 	movw	12(%ebp),%ax
 	movl	%eax,%esp
 	movw	14(%ebp),%ax
 	movw	%ax,%ss
 	movl	%esp,%eax
 	movl	%eax,%ebp
 	movw	$UDATASEL,%ax
 	movw	%ax,%fs
 	movw	%ax,%gs
 /*	movw	%ds,%ax */

 	/*
 	 * Call entry point
 	 */
 	.byte	0x66
 	lcall	%fs:(%edx)

 	/*
 	 * Restore old stack and segment registers.
 	 *
 	 * Two choices here:
 	 *	1. Trust that fs or gs hasn't changed.
 	 *	2. Rely on knowledge of Linux use of segments.
 	 *
 	 * I'll opt for choice 2 because who knows what programs we
 	 * going to run.  Linux should be fairly stable in terms of
 	 * GDT usage.
 	 */
 	pushl	%eax
 	movw	$UDATASEL,%ax
 	movw	%ax,%ds
 	movw	%ax,%es
 	movw	%ax,%fs
 	movw	%ax,%gs
 	popl	%eax
 	movw	_IF1632_Saved32_ss,%ss
 	movl	_IF1632_Saved32_esp,%esp
 	movl	_IF1632_Saved32_ebp,%ebp

 	/*
  	 * Restore registers, but do not destroy return value.
 	 */
 	popw	_IF1632_Saved32_ss
 	popl	_IF1632_Saved32_ebp
 	popl	_IF1632_Saved32_esp
 	movl	%eax,return_value
 	popal
 	movl	return_value,%eax
 	.align	2,0x90
 	leave
 	ret

 /**********************************************************************
  *	int CallTo16(unsigned long csip, unsigned short ds)
  *
  *	Stack:	 	0	ebp
  *		 	4	eip
  *		 	8	target ip
  *			10	target cs
  *			12	target ds
  */
 	.align	4
 	.globl _CallTo16
 _CallTo16:
 	pushl	%ebp
 	movl	%esp,%ebp

 	/*
 	 * Get target address and new ds
 	 */
 	movl	8(%ebp),%eax
 	movl	%eax,jump_target
 	lea	jump_target,%edx
 	movw	12(%ebp),%ax

 	/*
 	 * Switch to 16-bit stack
 	 */
 	pushl	_IF1632_Saved32_esp
 	pushl	_IF1632_Saved32_ebp
 	pushw	_IF1632_Saved32_ss

 	movw	%ss,_IF1632_Saved32_ss
 	movl	%esp,_IF1632_Saved32_esp
 	movl	%ebp,_IF1632_Saved32_ebp

 	movw	_IF1632_Saved16_ss,%ss
 	movl	_IF1632_Saved16_esp,%esp
 	movl	_IF1632_Saved16_ebp,%ebp

 	/*
 	 * Call entry point
 	 */
 	movw	%ax,%ds
 	.byte	0x66
 	lcall	%fs:(%edx)

 	/*
 	 * Restore old stack and segment registers.
 	 *
 	 * Two choices here:
 	 *	1. Trust that fs or gs hasn't changed.
 	 *	2. Rely on knowledge of Linux use of segments.
 	 *
 	 * I'll opt for choice 2 because who knows what programs we
 	 * going to run.  Linux should be fairly stable in terms of
 	 * GDT usage.
 	 */
 	pushl	%eax
 	movw	$UDATASEL,%ax
 	movw	%ax,%ds
 	movw	%ax,%es
 	movw	%ax,%fs
 	movw	%ax,%gs
 	popl	%eax

 	movw	%ss,_IF1632_Saved16_ss
 	movl	%esp,_IF1632_Saved16_esp
 	movl	%ebp,_IF1632_Saved16_ebp

 	movw	_IF1632_Saved32_ss,%ss
 	movl	_IF1632_Saved32_esp,%esp
 	movl	_IF1632_Saved32_ebp,%ebp

 	popw	_IF1632_Saved32_ss
 	popl	_IF1632_Saved32_ebp
 	popl	_IF1632_Saved32_esp

 	movl	%eax,return_value
 	movw	return_value+2,%dx
 	.align	2,0x90
 	leave
 	ret

 /**********************************************************************
  *	CallTo32()
  *
  *	This function is called as a relay point to the built function
  *	handler.  KERNEL, USER and GDI calls are dealt with by this
  *	handler.  Calls to these DLLs will be mapped to a call handler
  *	which will set EAX to a number indicating which DLL and which
  *	function within that DLL.
  *
  *	This function will pass to the function handler two arguments.
  *	The first argument will be the contents of EAX, the second
  *	argument will be a segment:offset pair that points to the
  *	16-bit stack.
  */
 	.align	4
 	.globl _CallTo32
 _CallTo32:
 	pushl	%ebp
 	movl	%esp,%ebp

 	/*
  	 * Save registers.  286 mode does not have fs or gs.
 	 */
 	pushw	%ds
 	pushw	%es

 	/*
 	 * Restore segment registers.
 	 */
 	pushl	%eax
 	movw	$UDATASEL,%ax
 	movw	%ax,%ds
 	movw	%ax,%es
 	popl	%eax

 	/*
 	 * Save old stack save variables, save stack registers, reload
 	 * stack registers.
 	 */
 	pushl	_IF1632_Saved16_esp
 	pushl	_IF1632_Saved16_ebp
 	pushw	_IF1632_Saved16_ss

 	movw	%ss,_IF1632_Saved16_ss
 	movl	%esp,_IF1632_Saved16_esp
 	movl	%ebp,_IF1632_Saved16_ebp

 	movw	_IF1632_Saved32_ss,%ss
 	movl	_IF1632_Saved32_esp,%esp
 	movl	_IF1632_Saved32_ebp,%ebp

 	/*
 	 * Call entry point
 	 */
 	pushw	_IF1632_Saved16_ss
 	pushw	_IF1632_Saved16_esp
 	pushl	%eax
 	call	_DLLRelay

 	/*
  	 * Restore registers, but do not destroy return value.
 	 */
 	movw	_IF1632_Saved16_ss,%ss
 	movl	_IF1632_Saved16_esp,%esp
 	movl	_IF1632_Saved16_ebp,%ebp

 	popw	_IF1632_Saved16_ss
 	popl	_IF1632_Saved16_ebp
 	popl	_IF1632_Saved16_esp

 	popw	%es
 	popw	%ds

 	.align	2,0x90
 	leave
 	/*
 	 * Now we need to ditch the parameter bytes that were left on the
 	 * stack. We do this by effectively popping the number of bytes,
 	 * and the return address, removing the parameters and then putting
 	 * the return address back on the stack.
 	 * Normally this field is filled in by the relevant function in
 	 * the emulation library, since it should know how many bytes to
 	 * expect.
 	 */
 	popw	%gs:nbytes
 	cmpw	$0,%gs:nbytes
 	je	noargs
 	popw	%gs:offset
 	popw	%gs:selector
 	addw	%gs:nbytes,%esp
 	pushw	%gs:selector
 	pushw	%gs:offset
 noargs:

 	/*
 	 * Last, but not least we need to move the high word from eax to dx
 	 */
 	pushl	%eax
 	popw	%dx
 	popw	%dx

 	.byte	0x66
 	lret

 /**********************************************************************
  *	ReturnFromRegisterFunc()
  */
 	.globl _ReturnFromRegisterFunc
 _ReturnFromRegisterFunc:
 	/*
  	 * Restore 16-bit stack
 	 */
 	movw	_IF1632_Saved16_ss,%ss
 	movl	_IF1632_Saved16_esp,%esp
 	movl	_IF1632_Saved16_ebp,%ebp

 	popw	_IF1632_Saved16_ss
 	popl	_IF1632_Saved16_ebp
 	popl	_IF1632_Saved16_esp

 	popw	%es
 	popw	%ds

 	.align	2,0x90
 	leave
 	/*
 	 * This leaves us with a stack that has number of arguments,
 	 * the return address, the saved registers, and the return
 	 * address again.
 	 */
 	add	$6,%esp		/* argument count, return address */
 	popw	%gs
 	add	$2,%esp
 	popw	%fs
 	add	$2,%esp
 	popw	%es
 	add	$2,%esp
 	popw	%ds
 	add	$2,%esp
 	popal
 	add	$16,%esp	/* trapno, err, eip, cs */
 	popfl
 	add	$20,%esp	/* esp, ss, i387, oldmask, cr2 */

 	/*
 	 * Return to original caller.
 	 */
 	.byte	0x66
 	lret
	/*
	* Copyright Robert J. Amstadt, 1993
	*/
	#ifdef linux
	#define UDATASEL 0x2b
	#endif
	#if defined(__NetBSD__) \|\| defined(__FreeBSD__)
	#define UDATASEL 0x27
	#endif
	.data
	jump_target:
	return_value:
	.long 0

	/**********************************************************************
	* Places to keep info about the current 32-bit stack frame.
	*/
	.globl _IF1632_Saved32_esp,_IF1632_Saved32_ebp,_IF1632_Saved32_ss
	_IF1632_Saved32_esp:
	.long 0
	_IF1632_Saved32_ebp:
	.long 0
	_IF1632_Saved32_ss:
	.word 0

	/**********************************************************************
	* Places to keep info about the current 16-bit stack frame.
	*/
	.globl _IF1632_Saved16_esp,_IF1632_Saved16_ebp,_IF1632_Saved16_ss
	_IF1632_Saved16_esp:
	.long 0
	_IF1632_Saved16_ebp:
	.long 0
	_IF1632_Saved16_ss:
	.word 0

	nbytes:
	.word 0
	selector:
	.word 0
	offset:
	.word 0

	.text

	/**********************************************************************
	* int CallToInit16(unsigned long csip, unsigned long sssp,
	* unsigned short ds)
	*
	* Stack: 0 ebp
	* 4 eip
	* 8 target ip
	* 10 target cs
	* 12 target sp
	* 14 target ss
	* 16 target ds
	*/
	.align 4
	.globl _CallToInit16
	_CallToInit16:
	pushl %ebp
	movl %esp,%ebp

	/*
	* Save our registers
	*/
	pushal
	pushl _IF1632_Saved32_esp
	pushl _IF1632_Saved32_ebp
	pushw _IF1632_Saved32_ss

	/*
	* Get target address.
	*/
	movl 8(%ebp),%eax
	movl %eax,jump_target
	lea jump_target,%edx

	/*
	* Put stack registers where we can get them after stack switch.
	*/
	movw %ss,_IF1632_Saved32_ss
	movl %esp,_IF1632_Saved32_esp
	movl %ebp,_IF1632_Saved32_ebp

	/*
	* Load initial registers
	*/
	movw _WIN_StackSize,%bx
	movw _WIN_HeapSize,%cx
	movl $0,%esi
	xorl %eax,%eax
	movw _PSPSelector,%ax
	movw %ax,%es
	movw 16(%ebp),%ax
	movw %ax,%ds
	movl %eax,%edi
	xorl %eax,%eax
	movw 12(%ebp),%ax
	movl %eax,%esp
	movw 14(%ebp),%ax
	movw %ax,%ss
	movl %esp,%eax
	movl %eax,%ebp
	movw $UDATASEL,%ax
	movw %ax,%fs
	movw %ax,%gs
	/* movw %ds,%ax */

	/*
	* Call entry point
	*/
	.byte 0x66
	lcall %fs:(%edx)

	/*
	* Restore old stack and segment registers.
	*
	* Two choices here:
	* 1. Trust that fs or gs hasn't changed.
	* 2. Rely on knowledge of Linux use of segments.
	*
	* I'll opt for choice 2 because who knows what programs we
	* going to run. Linux should be fairly stable in terms of
	* GDT usage.
	*/
	pushl %eax
	movw $UDATASEL,%ax
	movw %ax,%ds
	movw %ax,%es
	movw %ax,%fs
	movw %ax,%gs
	popl %eax
	movw _IF1632_Saved32_ss,%ss
	movl _IF1632_Saved32_esp,%esp
	movl _IF1632_Saved32_ebp,%ebp

	/*
	* Restore registers, but do not destroy return value.
	*/
	popw _IF1632_Saved32_ss
	popl _IF1632_Saved32_ebp
	popl _IF1632_Saved32_esp
	movl %eax,return_value
	popal
	movl return_value,%eax
	.align 2,0x90
	leave
	ret

	/**********************************************************************
	* int CallTo16(unsigned long csip, unsigned short ds)
	*
	* Stack: 0 ebp
	* 4 eip
	* 8 target ip
	* 10 target cs
	* 12 target ds
	*/
	.align 4
	.globl _CallTo16
	_CallTo16:
	pushl %ebp
	movl %esp,%ebp

	/*
	* Get target address and new ds
	*/
	movl 8(%ebp),%eax
	movl %eax,jump_target
	lea jump_target,%edx
	movw 12(%ebp),%ax

	/*
	* Switch to 16-bit stack
	*/
	pushl _IF1632_Saved32_esp
	pushl _IF1632_Saved32_ebp
	pushw _IF1632_Saved32_ss

	movw %ss,_IF1632_Saved32_ss
	movl %esp,_IF1632_Saved32_esp
	movl %ebp,_IF1632_Saved32_ebp

	movw _IF1632_Saved16_ss,%ss
	movl _IF1632_Saved16_esp,%esp
	movl _IF1632_Saved16_ebp,%ebp

	/*
	* Call entry point
	*/
	movw %ax,%ds
	.byte 0x66
	lcall %fs:(%edx)

	/*
	* Restore old stack and segment registers.
	*
	* Two choices here:
	* 1. Trust that fs or gs hasn't changed.
	* 2. Rely on knowledge of Linux use of segments.
	*
	* I'll opt for choice 2 because who knows what programs we
	* going to run. Linux should be fairly stable in terms of
	* GDT usage.
	*/
	pushl %eax
	movw $UDATASEL,%ax
	movw %ax,%ds
	movw %ax,%es
	movw %ax,%fs
	movw %ax,%gs
	popl %eax

	movw %ss,_IF1632_Saved16_ss
	movl %esp,_IF1632_Saved16_esp
	movl %ebp,_IF1632_Saved16_ebp

	movw _IF1632_Saved32_ss,%ss
	movl _IF1632_Saved32_esp,%esp
	movl _IF1632_Saved32_ebp,%ebp

	popw _IF1632_Saved32_ss
	popl _IF1632_Saved32_ebp
	popl _IF1632_Saved32_esp

	movl %eax,return_value
	movw return_value+2,%dx
	.align 2,0x90
	leave
	ret

	/**********************************************************************
	* CallTo32()
	*
	* This function is called as a relay point to the built function
	* handler. KERNEL, USER and GDI calls are dealt with by this
	* handler. Calls to these DLLs will be mapped to a call handler
	* which will set EAX to a number indicating which DLL and which
	* function within that DLL.
	*
	* This function will pass to the function handler two arguments.
	* The first argument will be the contents of EAX, the second
	* argument will be a segment:offset pair that points to the
	* 16-bit stack.
	*/
	.align 4
	.globl _CallTo32
	_CallTo32:
	pushl %ebp
	movl %esp,%ebp

	/*
	* Save registers. 286 mode does not have fs or gs.
	*/
	pushw %ds
	pushw %es

	/*
	* Restore segment registers.
	*/
	pushl %eax
	movw $UDATASEL,%ax
	movw %ax,%ds
	movw %ax,%es
	popl %eax

	/*
	* Save old stack save variables, save stack registers, reload
	* stack registers.
	*/
	pushl _IF1632_Saved16_esp
	pushl _IF1632_Saved16_ebp
	pushw _IF1632_Saved16_ss

	movw %ss,_IF1632_Saved16_ss
	movl %esp,_IF1632_Saved16_esp
	movl %ebp,_IF1632_Saved16_ebp

	movw _IF1632_Saved32_ss,%ss
	movl _IF1632_Saved32_esp,%esp
	movl _IF1632_Saved32_ebp,%ebp

	/*
	* Call entry point
	*/
	pushw _IF1632_Saved16_ss
	pushw _IF1632_Saved16_esp
	pushl %eax
	call _DLLRelay

	/*
	* Restore registers, but do not destroy return value.
	*/
	movw _IF1632_Saved16_ss,%ss
	movl _IF1632_Saved16_esp,%esp
	movl _IF1632_Saved16_ebp,%ebp

	popw _IF1632_Saved16_ss
	popl _IF1632_Saved16_ebp
	popl _IF1632_Saved16_esp

	popw %es
	popw %ds

	.align 2,0x90
	leave
	/*
	* Now we need to ditch the parameter bytes that were left on the
	* stack. We do this by effectively popping the number of bytes,
	* and the return address, removing the parameters and then putting
	* the return address back on the stack.
	* Normally this field is filled in by the relevant function in
	* the emulation library, since it should know how many bytes to
	* expect.
	*/
	popw %gs:nbytes
	cmpw $0,%gs:nbytes
	je noargs
	popw %gs:offset
	popw %gs:selector
	addw %gs:nbytes,%esp
	pushw %gs:selector
	pushw %gs:offset
	noargs:

	/*
	* Last, but not least we need to move the high word from eax to dx
	*/
	pushl %eax
	popw %dx
	popw %dx

	.byte 0x66
	lret

	/**********************************************************************
	* ReturnFromRegisterFunc()
	*/
	.globl _ReturnFromRegisterFunc
	_ReturnFromRegisterFunc:
	/*
	* Restore 16-bit stack
	*/
	movw _IF1632_Saved16_ss,%ss
	movl _IF1632_Saved16_esp,%esp
	movl _IF1632_Saved16_ebp,%ebp

	popw _IF1632_Saved16_ss
	popl _IF1632_Saved16_ebp
	popl _IF1632_Saved16_esp

	popw %es
	popw %ds

	.align 2,0x90
	leave
	/*
	* This leaves us with a stack that has number of arguments,
	* the return address, the saved registers, and the return
	* address again.
	*/
	add $6,%esp /* argument count, return address */
	popw %gs
	add $2,%esp
	popw %fs
	add $2,%esp
	popw %es
	add $2,%esp
	popw %ds
	add $2,%esp
	popal
	add $16,%esp /* trapno, err, eip, cs */
	popfl
	add $20,%esp /* esp, ss, i387, oldmask, cr2 */

	/*
	* Return to original caller.
	*/
	.byte 0x66
	lret