kc3-lang/libffi/src/s390/sysv.S

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• Author : Eddy S.
  Date : 2024-11-16 13:03:24
  Hash : 458b2ae2
  Message : Add static trampoline support for s390 (#862) * added static trampoline support for s390 * enable static tramp only for s390x 64bit

• src/s390/sysv.S

• /* -----------------------------------------------------------------------
     sysv.S - Copyright (c) 2000 Software AG
              Copyright (c) 2008 Red Hat, Inc.
  
     S390 Foreign Function Interface
  
     Permission is hereby granted, free of charge, to any person obtaining
     a copy of this software and associated documentation files (the
     ``Software''), to deal in the Software without restriction, including
     without limitation the rights to use, copy, modify, merge, publish,
     distribute, sublicense, and/or sell copies of the Software, and to
     permit persons to whom the Software is furnished to do so, subject to
     the following conditions:
  
     The above copyright notice and this permission notice shall be included
     in all copies or substantial portions of the Software.
  
     THE SOFTWARE IS PROVIDED ``AS IS'', WITHOUT WARRANTY OF ANY KIND,
     EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
     MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
     NONINFRINGEMENT.  IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
     HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
     WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
     OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
     DEALINGS IN THE SOFTWARE.
     ----------------------------------------------------------------------- */
  
  #define LIBFFI_ASM
  #include <fficonfig.h>
  #include <ffi.h>
  #include "internal.h"
  
  	.text
  
  #ifndef __s390x__
  
  	# r2:	frame
  	# r3:	ret_type
  	# r4:	ret_addr
  	# r5:	fun
  	# r6:	closure
  
  	# This assumes we are using gas.
  	.balign	8
  	.globl	ffi_call_SYSV
  	FFI_HIDDEN(ffi_call_SYSV)
  	.type	ffi_call_SYSV,%function
  ffi_call_SYSV:
  	.cfi_startproc
  	st	%r6,44(%r2)			# Save registers
  	stm	%r12,%r14,48(%r2)
  	lr	%r13,%r2			# Install frame pointer
  	.cfi_rel_offset r6, 44
  	.cfi_rel_offset r12, 48
  	.cfi_rel_offset r13, 52
  	.cfi_rel_offset r14, 56
  	.cfi_def_cfa_register r13
  	st	%r2,0(%r15)			# Set up back chain
  	sla	%r3,3				# ret_type *= 8
  	lr	%r12,%r4			# Save ret_addr
  	lr	%r1,%r5				# Save fun
  	lr	%r0,%r6				# Install static chain
  
  	# Set return address, so that there is only one indirect jump.
  #ifdef HAVE_AS_S390_ZARCH
  	larl	%r14,.Ltable
  	ar	%r14,%r3
  #else
  	basr	%r14,0
  0:	la	%r14,.Ltable-0b(%r14,%r3)
  #endif
  
  	lm	%r2,%r6,8(%r13)			# Load arguments
  	ld	%f0,64(%r13)
  	ld	%f2,72(%r13)
  	br	%r1				# ... and call function
  
  	.balign	8
  .Ltable:
  # FFI390_RET_DOUBLE
  	std	%f0,0(%r12)
  	j	.Ldone
  
  	.balign	8
  # FFI390_RET_FLOAT
  	ste	%f0,0(%r12)
  	j	.Ldone
  
  	.balign	8
  # FFI390_RET_INT64
  	st	%r3,4(%r12)
  	nop
  	# fallthru
  
  	.balign	8
  # FFI390_RET_INT32
  	st	%r2,0(%r12)
  	nop
  	# fallthru
  
  	.balign	8
  # FFI390_RET_VOID
  .Ldone:
  	l	%r14,56(%r13)
  	l	%r12,48(%r13)
  	l	%r6,44(%r13)
  	l	%r13,52(%r13)
  	.cfi_restore 14
  	.cfi_restore 13
  	.cfi_restore 12
  	.cfi_restore 6
  	.cfi_def_cfa r15, 96
  	br	%r14
  	.cfi_endproc
  	.size	 ffi_call_SYSV,.-ffi_call_SYSV
  
  
  	.balign	8
  	.globl	ffi_go_closure_SYSV
  	FFI_HIDDEN(ffi_go_closure_SYSV)
  	.type	ffi_go_closure_SYSV,%function
  ffi_go_closure_SYSV:
  	.cfi_startproc
  	stm	%r2,%r6,8(%r15)			# Save arguments
  	lr	%r4,%r0				# Load closure -> user_data
  	l	%r2,4(%r4)			#   ->cif
  	l	%r3,8(%r4)			#   ->fun
  	j	.Ldoclosure
  	.cfi_endproc
  
  	.balign	8
  	.globl	ffi_closure_SYSV
  	FFI_HIDDEN(ffi_closure_SYSV)
  	.type	ffi_closure_SYSV,%function
  ffi_closure_SYSV:
  	.cfi_startproc
  	stm	%r2,%r6,8(%r15)			# Save arguments
  	lr	%r4,%r0				# Closure
  	l	%r2,16(%r4)			#   ->cif
  	l	%r3,20(%r4)			#   ->fun
  	l	%r4,24(%r4)			#   ->user_data
  .Ldoclosure:
  	stm	%r12,%r15,48(%r15)		# Save registers
  	lr	%r12,%r15
  	.cfi_def_cfa_register r12
  	.cfi_rel_offset r6, 24
  	.cfi_rel_offset r12, 48
  	.cfi_rel_offset r13, 52
  	.cfi_rel_offset r14, 56
  	.cfi_rel_offset r15, 60
  #ifndef HAVE_AS_S390_ZARCH
  	basr	%r13,0				# Set up base register
  .Lcbase:
  	l	%r1,.Lchelper-.Lcbase(%r13)	# Get helper function
  #endif
  	ahi	%r15,-96-8			# Set up stack frame
  	st	%r12,0(%r15)			# Set up back chain
  
  	std	%f0,64(%r12)			# Save fp arguments
  	std	%f2,72(%r12)
  
  	la	%r5,96(%r12)			# Overflow
  	st	%r5,96(%r15)
  	la	%r6,64(%r12)			# FPRs
  	la	%r5,8(%r12)			# GPRs
  #ifdef HAVE_AS_S390_ZARCH
  	brasl	%r14,ffi_closure_helper_SYSV
  #else
  	bas	%r14,0(%r1,%r13)		# Call helper
  #endif
  
  	lr	%r15,%r12
  	.cfi_def_cfa_register r15
  	lm	%r12,%r14,48(%r12)		# Restore saved registers
  	l	%r6,24(%r15)
  	ld	%f0,64(%r15)			# Load return registers
  	lm	%r2,%r3,8(%r15)
  	br	%r14
  	.cfi_endproc
  
  #ifndef HAVE_AS_S390_ZARCH
  	.align 4
  .Lchelper:
  	.long	ffi_closure_helper_SYSV-.Lcbase
  #endif
  
  	.size	 ffi_closure_SYSV,.-ffi_closure_SYSV
  
  #else
  
  	# r2:	frame
  	# r3:	ret_type
  	# r4:	ret_addr
  	# r5:	fun
  	# r6:	closure
  
  	# This assumes we are using gas.
  	.balign	8
  	.globl	ffi_call_SYSV
  	FFI_HIDDEN(ffi_call_SYSV)
  	.type	ffi_call_SYSV,%function
  ffi_call_SYSV:
  	.cfi_startproc
  	stg	%r6,88(%r2)			# Save registers
  	stmg	%r12,%r14,96(%r2)
  	lgr	%r13,%r2			# Install frame pointer
  	.cfi_rel_offset r6, 88
  	.cfi_rel_offset r12, 96
  	.cfi_rel_offset r13, 104
  	.cfi_rel_offset r14, 112
  	.cfi_def_cfa_register r13
  	stg	%r2,0(%r15)			# Set up back chain
  	larl	%r14,.Ltable			# Set up return address
  	slag	%r3,%r3,3			# ret_type *= 8
  	lgr	%r12,%r4			# Save ret_addr
  	lgr	%r1,%r5				# Save fun
  	lgr	%r0,%r6				# Install static chain
  	agr	%r14,%r3
  	lmg	%r2,%r6,16(%r13)		# Load arguments
  	ld	%f0,128(%r13)
  	ld	%f2,136(%r13)
  	ld	%f4,144(%r13)
  	ld	%f6,152(%r13)
  	br	%r1				# ... and call function
  
  	.balign	8
  .Ltable:
  # FFI390_RET_DOUBLE
  	std	%f0,0(%r12)
  	j	.Ldone
  
  	.balign	8
  # FFI390_RET_DOUBLE
  	ste	%f0,0(%r12)
  	j	.Ldone
  
  	.balign	8
  # FFI390_RET_INT64
  	stg	%r2,0(%r12)
  
  	.balign	8
  # FFI390_RET_INT32
  	# Never used, as we always store type ffi_arg.
  	# But the stg above is 6 bytes and we cannot
  	# jump around this case, so fall through.
  	nop
  	nop
  
  	.balign	8
  # FFI390_RET_VOID
  .Ldone:
  	lg	%r14,112(%r13)
  	lg	%r12,96(%r13)
  	lg	%r6,88(%r13)
  	lg	%r13,104(%r13)
  	.cfi_restore r14
  	.cfi_restore r13
  	.cfi_restore r12
  	.cfi_restore r6
  	.cfi_def_cfa r15, 160
  	br	%r14
  	.cfi_endproc
  	.size	 ffi_call_SYSV,.-ffi_call_SYSV
  
  
  	.balign	8
  	.globl	ffi_go_closure_SYSV
  	FFI_HIDDEN(ffi_go_closure_SYSV)
  	.type	ffi_go_closure_SYSV,%function
  ffi_go_closure_SYSV:
  	.cfi_startproc
  	stmg	%r2,%r6,16(%r15)		# Save arguments
  	lgr	%r4,%r0				# Load closure -> user_data
  	lg	%r2,8(%r4)			#   ->cif
  	lg	%r3,16(%r4)			#   ->fun
  	j	.Ldoclosure
  	.cfi_endproc
  	.size	 ffi_go_closure_SYSV,.-ffi_go_closure_SYSV
  
  
  	.balign	8
  	.globl	ffi_closure_SYSV
  	FFI_HIDDEN(ffi_closure_SYSV)
  	.type	ffi_closure_SYSV,%function
  ffi_closure_SYSV:
  	.cfi_startproc
  	stmg	%r2,%r6,16(%r15)		# Save arguments
  	lgr	%r4,%r0				# Load closure
  	lg	%r2,32(%r4)			#   ->cif
  	lg	%r3,40(%r4)			#   ->fun
  	lg	%r4,48(%r4)			#   ->user_data
  .Ldoclosure:
  	stmg	%r13,%r15,104(%r15)		# Save registers
  	lgr	%r13,%r15
  	.cfi_def_cfa_register r13
  	.cfi_rel_offset r6, 48
  	.cfi_rel_offset r13, 104
  	.cfi_rel_offset r14, 112
  	.cfi_rel_offset r15, 120
  	aghi	%r15,-160-16			# Set up stack frame
  	stg	%r13,0(%r15)			# Set up back chain
  
  	std	%f0,128(%r13)			# Save fp arguments
  	std	%f2,136(%r13)
  	std	%f4,144(%r13)
  	std	%f6,152(%r13)
  	la	%r5,160(%r13)			# Overflow
  	stg	%r5,160(%r15)
  	la	%r6,128(%r13)			# FPRs
  	la	%r5,16(%r13)			# GPRs
  	brasl	%r14,ffi_closure_helper_SYSV	# Call helper
  
  	lgr	%r15,%r13
  	.cfi_def_cfa_register r15
  	lmg	%r13,%r14,104(%r13)		# Restore saved registers
  	lg	%r6,48(%r15)
  	ld	%f0,128(%r15)			# Load return registers
  	lg	%r2,16(%r15)
  	br	%r14
  	.cfi_endproc
  	.size	 ffi_closure_SYSV,.-ffi_closure_SYSV
  
  
  #if defined(FFI_EXEC_STATIC_TRAMP)
  /*
   * Below is the definition of the trampoline code table. Each element in
   * the code table is a trampoline.
   */
  /*
   * The trampoline uses the volatile register r0 and r1. As the registers are
   * marked volatile in the ABI, the original values are not saved.
   *
   * The trampoline has two parameters - target code to jump to and data for
   * the target code. The trampoline extracts the parameters from its parameter
   * block (see tramp_table_map()). The trampoline saves the data address in r0.
   * Finally, it jumps to the target code.
   */
  
  	.align	FFI390_TRAMP_MAP_SIZE
  trampoline_code_table:
  	.rept	FFI390_TRAMP_MAP_SIZE / FFI390_TRAMP_SIZE
  	basr %r1,0              # load next instruction address to r1
  	lmg %r0,%r1,4094(%r1)   # load parameter block
  							# 		r0 -> data
  							# 		r1 -> code
  	br %r1                  # jump to r1/code
  	.balign	8
  	.endr
  
  	.globl trampoline_code_table
  	FFI_HIDDEN(trampoline_code_table)
  #ifdef __ELF__
  	.type	trampoline_code_table, @function
  	.size	trampoline_code_table,.- trampoline_code_table
  #endif
  	.align	FFI390_TRAMP_MAP_SIZE
  #endif /* FFI_EXEC_STATIC_TRAMP */
  
  #endif /* !s390x */
  
  #if defined __ELF__ && defined __linux__
  	.section	.note.GNU-stack,"",@progbits
  #endif