ld/testsuite/ld-empic/empic.exp - binutils-gdb - Git at Google

 # Expect script for ld-empic tests
 #   Copyright (C) 1994,1995, 1996, 1997 Free Software Foundation
 #
 # This file is free software; you can redistribute it and/or modify
 # it under the terms of the GNU General Public License as published by
 # the Free Software Foundation; either version 2 of the License, or
 # (at your option) any later version.
 #
 # This program is distributed in the hope that it will be useful,
 # but WITHOUT ANY WARRANTY; without even the implied warranty of
 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 # GNU General Public License for more details.
 #
 # You should have received a copy of the GNU General Public License
 # along with this program; if not, write to the Free Software
 # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
 #
 # Written by Ian Lance Taylor (ian@cygnus.com)
 #

 # Test the handling of MIPS embedded PIC code.  This test essentially
 # tests the compiler and assembler as well as the linker, since MIPS
 # embedded PIC is a GNU enhancement to standard MIPS tools.

 # Embedded PIC is only supported for MIPS ECOFF targets.
 if ![istarget mips*-*-ecoff*] {
     return
 }

 set testname relax

 if { [which $CC] == 0 } {
     untested $testname
     return
 }

 # Test that relaxation works correctly.  This testsuite was composed
 # (by experimentation) to force the linker to relax twice--that is,
 # the first relaxation pass will force another call to be out of
 # range, requiring a second relaxation pass.
 if { ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax1.c tmpdir/relax1.o]
      || ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax2.c tmpdir/relax2.o]
      || ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax3.c tmpdir/relax3.o]
      || ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax4.c tmpdir/relax4.o] } {
     unresolved $testname
     return
 }

 if ![ld_simple_link $ld tmpdir/relax "--relax -T $srcdir/$subdir/relax.t tmpdir/relax1.o tmpdir/relax2.o tmpdir/relax3.o tmpdir/relax4.o"] {
     fail $testname
 } else {
     # Check that the relaxation produced the correct result.  Check
     # each bal instruction.  Some will go directly to the start of a
     # function, which is OK.  Some will form part of the five
     # instruction expanded call sequence, in which case we compute the
     # real destination and make sure it is the start of a function.
     # Some bal instructions are used to locate the start of the
     # function in order to do position independent addressing into the
     # text section, in which case we just check that it correctly
     # computes the start of the function.

     # Get the symbol table.
     if ![ld_nm $nm tmpdir/relax] {
 	unresolved $testname
 	return
     }

     # Get a disassembly.
     send_log "$objdump -d tmpdir/relax >tmpdir/relax.dis\n"
     verbose "$objdump -d tmpdir/relax >tmpdir/relax.dis"
     catch "exec $objdump -d tmpdir/relax >tmpdir/relax.dis" exec_output
     if ![string match "" $exec_output] {
 	send_log "$exec_output\n"
 	verbose $exec_output
 	unresolved $testname
 	return
     }

     set balcnt 0
     set file [open tmpdir/relax.dis r]
     while { [gets $file line] != -1 } {
 	verbose "$line" 2

 	if ![string match "*bal*" $line] {
 	    continue
 	}

 	verbose "$line"

 	incr balcnt

 	if ![regexp "^(\[0-9a-fA-F\]+) (<\[a-z+0-9A-Z.\]+>)? bal (\[0-9a-fA-F\]+)" $line whole addr label dest] {
 	    perror "unrecognized format for $line"
 	    unresolved $testname
 	    return
 	}

 	if "0x$addr + 8 != 0x$dest" {
 	    # This is a straight function call.  All function calls in
 	    # this example are to either foo or bar.
 	    if "0x$dest != $nm_output(foo) && 0x$dest != $nm_output(bar)" {
 		send_log "fail 1\n"
 		send_log "$line\n"
 		fail $testname
 		return
 	    }
 	} else {
 	    # Pick up the next line.  If it is sll, this is a switch
 	    # prologue, and there is not much we can do to test it.
 	    # Otherwise, it should be lui, and the next instruction
 	    # should be an addiu, followed by an addu to $31.
 	    if { [gets $file l] == -1 } {
 		send_log "fail 2\n"
 		send_log "$line\n"
 		fail $testname
 		return
 	    }
 	    verbose $l

 	    if [string match "*sll*" $l] {
 		continue
 	    }
 	    if ![regexp "lui (\[\$a-z0-9\]+),(\[0-9a-fA-Fx\]+)" $l whole reg upper] {
 		send_log "fail 3\n"
 		send_log "$line\n"
 		send_log "$l\n"
 		fail $testname
 		return
 	    }

 	    if { [gets $file l] == -1 } {
 		send_log "fail 4\n"
 		send_log "$line\n"
 		fail $testname
 		return
 	    }
 	    verbose "$l"
 	    if ![regexp "addiu \\$reg,\\$reg,(\[-0-9\]+)" $l whole lower] {
 		send_log "fail 5\n"
 		send_log "$line\n"
 		send_log "$l\n"
 		send_log "addiu \\$reg,\\$reg,(\[-0-9\]+)\n"
 		fail $testname
 		return
 	    }

 	    if { [gets $file l] == -1 } {
 		send_log "fail 6\n"
 		send_log "$line\n"
 		fail $testname
 		return
 	    }
 	    verbose "$l"
 	    if ![regexp "addu \\$reg,\\$reg,\\\$ra" $l] {
 		send_log "fail 7\n"
 		send_log "$line\n"
 		send_log "$l\n"
 		fail $testname
 		return
 	    }

 	    # The next line will be jalr in the case of an expanded
 	    # call.  Otherwise, the code is getting the start of the
 	    # function, and the next line can be anything.

 	    if { [gets $file l] == -1 } {
 		send_log "fail 8\n"
 		send_log "$line\n"
 		fail $testname
 		return
 	    }
 	    verbose "$l"
 	    if [string match "*jalr*" $l] {
 		set dest [expr 0x$addr + 8 + ($upper << 16) + $lower]
 		if { $dest != $nm_output(foo) && $dest != $nm_output(bar) } {
 		    send_log "fail 9\n"
 		    send_log "$line\n"
 		    fail $testname
 		    return
 		}
 	    } else {
 		set dest [expr ($upper << 16) + $lower]
 		if ![regexp "<(\[.a-z\]+)\\+(\[0-9a-fA-F\]+)>" $label whole base offset] {
 		    send_log "fail 10\n"
 		    send_log "$line\n"
 		    fail $testname
 		    return
 		}
 		set offset 0x$offset
 		if { $base == ".foo" } {
 		    set offset [expr $offset - ($nm_output(foo) - 0x30)]
 		}
 		if { $offset + 8 != - $dest } {
 		    send_log "fail 11\n"
 		    send_log "$line\n"
 		    fail $testname
 		    return
 		}
 	    }
 	}
     }

     close $file

     if {$balcnt < 10} {
 	send_log "fail 12\n"
 	fail $testname
     } else {
 	verbose "$balcnt bal instructions"
 	pass $testname
     }
 }

 # We now test actually running embedded MIPS PIC code.  This can only
 # be done on a MIPS host with the same endianness as our target.
 if [istarget mipsel-*-*] {
     if ![ishost mips*-*-ultrix*] {
 	return
     }
 } else {
     if ![ishost mips*-*-irix*] {
 	return
     }
 }

 set testname "run embedded PIC code"

 # Compile the program which will run the test.  This code must be
 # compiled for the host, not the target.
 send_log "$CC_FOR_HOST $CFLAGS_FOR_HOST -o tmpdir/run $srcdir/$subdir/run.c\n"
 verbose "$CC_FOR_HOST $CFLAGS_FOR_HOST -o tmpdir/run $srcdir/$subdir/run.c"
 catch "exec $CC_FOR_HOST $CFLAGS_FOR_HOST -o tmpdir/run $srcdir/$subdir/run.c" exec_output
 if ![string match "" $exec_output] {
     send_log "$exec_output\n"
     verbose "$exec_output"
     unresolved $testname
     return
 }

 # Compile and link the test.
 if { ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/runtesti.s tmpdir/runtesti.o]
      || ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/runtest1.c tmpdir/runtest1.o]
      || ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/runtest2.c tmpdir/runtest2.o] } {
     unresolved $testname
     return
 }
 if ![ld_simple_link $ld tmpdir/runtest "--embedded-relocs tmpdir/runtesti.o tmpdir/runtest1.o tmpdir/runtest2.o"] {
     fail $testname
 } else {
     # Now run the test.
     send_log "tmpdir/run tmpdir/runtest\n"
     verbose "tmpdir/run tmpdir/runtest"
     catch "exec tmpdir/run tmpdir/runtest" exec_output
     if [string match "*ran and returned 0*" $exec_output] {
 	send_log "$exec_output\n"
 	verbose "$exec_output"
 	pass $testname
     } else {
 	send_log "$exec_output\n"
 	verbose "$exec_output"
 	fail $testname
     }
 }
	# Expect script for ld-empic tests
	# Copyright (C) 1994,1995, 1996, 1997 Free Software Foundation
	#
	# This file is free software; you can redistribute it and/or modify
	# it under the terms of the GNU General Public License as published by
	# the Free Software Foundation; either version 2 of the License, or
	# (at your option) any later version.
	#
	# This program is distributed in the hope that it will be useful,
	# but WITHOUT ANY WARRANTY; without even the implied warranty of
	# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	# GNU General Public License for more details.
	#
	# You should have received a copy of the GNU General Public License
	# along with this program; if not, write to the Free Software
	# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	#
	# Written by Ian Lance Taylor (ian@cygnus.com)
	#

	# Test the handling of MIPS embedded PIC code. This test essentially
	# tests the compiler and assembler as well as the linker, since MIPS
	# embedded PIC is a GNU enhancement to standard MIPS tools.

	# Embedded PIC is only supported for MIPS ECOFF targets.
	if ![istarget mips--ecoff*] {
	return
	}

	set testname relax

	if { [which $CC] == 0 } {
	untested $testname
	return
	}

	# Test that relaxation works correctly. This testsuite was composed
	# (by experimentation) to force the linker to relax twice--that is,
	# the first relaxation pass will force another call to be out of
	# range, requiring a second relaxation pass.
	if { ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax1.c tmpdir/relax1.o]
	\|\| ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax2.c tmpdir/relax2.o]
	\|\| ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax3.c tmpdir/relax3.o]
	\|\| ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/relax4.c tmpdir/relax4.o] } {
	unresolved $testname
	return
	}

	if ![ld_simple_link $ld tmpdir/relax "--relax -T $srcdir/$subdir/relax.t tmpdir/relax1.o tmpdir/relax2.o tmpdir/relax3.o tmpdir/relax4.o"] {
	fail $testname
	} else {
	# Check that the relaxation produced the correct result. Check
	# each bal instruction. Some will go directly to the start of a
	# function, which is OK. Some will form part of the five
	# instruction expanded call sequence, in which case we compute the
	# real destination and make sure it is the start of a function.
	# Some bal instructions are used to locate the start of the
	# function in order to do position independent addressing into the
	# text section, in which case we just check that it correctly
	# computes the start of the function.

	# Get the symbol table.
	if ![ld_nm $nm tmpdir/relax] {
	unresolved $testname
	return
	}

	# Get a disassembly.
	send_log "$objdump -d tmpdir/relax >tmpdir/relax.dis\n"
	verbose "$objdump -d tmpdir/relax >tmpdir/relax.dis"
	catch "exec $objdump -d tmpdir/relax >tmpdir/relax.dis" exec_output
	if ![string match "" $exec_output] {
	send_log "$exec_output\n"
	verbose $exec_output
	unresolved $testname
	return
	}

	set balcnt 0
	set file [open tmpdir/relax.dis r]
	while { [gets $file line] != -1 } {
	verbose "$line" 2

	if ![string match "bal" $line] {
	continue
	}

	verbose "$line"

	incr balcnt

	if ![regexp "^(\[0-9a-fA-F\]+) (<\[a-z+0-9A-Z.\]+>)? bal (\[0-9a-fA-F\]+)" $line whole addr label dest] {
	perror "unrecognized format for $line"
	unresolved $testname
	return
	}

	if "0x$addr + 8 != 0x$dest" {
	# This is a straight function call. All function calls in
	# this example are to either foo or bar.
	if "0x$dest != $nm_output(foo) && 0x$dest != $nm_output(bar)" {
	send_log "fail 1\n"
	send_log "$line\n"
	fail $testname
	return
	}
	} else {
	# Pick up the next line. If it is sll, this is a switch
	# prologue, and there is not much we can do to test it.
	# Otherwise, it should be lui, and the next instruction
	# should be an addiu, followed by an addu to $31.
	if { [gets $file l] == -1 } {
	send_log "fail 2\n"
	send_log "$line\n"
	fail $testname
	return
	}
	verbose $l

	if [string match "sll" $l] {
	continue
	}
	if ![regexp "lui (\[\$a-z0-9\]+),(\[0-9a-fA-Fx\]+)" $l whole reg upper] {
	send_log "fail 3\n"
	send_log "$line\n"
	send_log "$l\n"
	fail $testname
	return
	}

	if { [gets $file l] == -1 } {
	send_log "fail 4\n"
	send_log "$line\n"
	fail $testname
	return
	}
	verbose "$l"
	if ![regexp "addiu \\$reg,\\$reg,(\[-0-9\]+)" $l whole lower] {
	send_log "fail 5\n"
	send_log "$line\n"
	send_log "$l\n"
	send_log "addiu \\$reg,\\$reg,(\[-0-9\]+)\n"
	fail $testname
	return
	}

	if { [gets $file l] == -1 } {
	send_log "fail 6\n"
	send_log "$line\n"
	fail $testname
	return
	}
	verbose "$l"
	if ![regexp "addu \\$reg,\\$reg,\\\$ra" $l] {
	send_log "fail 7\n"
	send_log "$line\n"
	send_log "$l\n"
	fail $testname
	return
	}

	# The next line will be jalr in the case of an expanded
	# call. Otherwise, the code is getting the start of the
	# function, and the next line can be anything.

	if { [gets $file l] == -1 } {
	send_log "fail 8\n"
	send_log "$line\n"
	fail $testname
	return
	}
	verbose "$l"
	if [string match "jalr" $l] {
	set dest [expr 0x$addr + 8 + ($upper << 16) + $lower]
	if { $dest != $nm_output(foo) && $dest != $nm_output(bar) } {
	send_log "fail 9\n"
	send_log "$line\n"
	fail $testname
	return
	}
	} else {
	set dest [expr ($upper << 16) + $lower]
	if ![regexp "<(\[.a-z\]+)\\+(\[0-9a-fA-F\]+)>" $label whole base offset] {
	send_log "fail 10\n"
	send_log "$line\n"
	fail $testname
	return
	}
	set offset 0x$offset
	if { $base == ".foo" } {
	set offset [expr $offset - ($nm_output(foo) - 0x30)]
	}
	if { $offset + 8 != - $dest } {
	send_log "fail 11\n"
	send_log "$line\n"
	fail $testname
	return
	}
	}
	}
	}

	close $file

	if {$balcnt < 10} {
	send_log "fail 12\n"
	fail $testname
	} else {
	verbose "$balcnt bal instructions"
	pass $testname
	}
	}

	# We now test actually running embedded MIPS PIC code. This can only
	# be done on a MIPS host with the same endianness as our target.
	if [istarget mipsel--] {
	if ![ishost mips--ultrix*] {
	return
	}
	} else {
	if ![ishost mips--irix*] {
	return
	}
	}

	set testname "run embedded PIC code"

	# Compile the program which will run the test. This code must be
	# compiled for the host, not the target.
	send_log "$CC_FOR_HOST $CFLAGS_FOR_HOST -o tmpdir/run $srcdir/$subdir/run.c\n"
	verbose "$CC_FOR_HOST $CFLAGS_FOR_HOST -o tmpdir/run $srcdir/$subdir/run.c"
	catch "exec $CC_FOR_HOST $CFLAGS_FOR_HOST -o tmpdir/run $srcdir/$subdir/run.c" exec_output
	if ![string match "" $exec_output] {
	send_log "$exec_output\n"
	verbose "$exec_output"
	unresolved $testname
	return
	}

	# Compile and link the test.
	if { ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/runtesti.s tmpdir/runtesti.o]
	\|\| ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/runtest1.c tmpdir/runtest1.o]
	\|\| ![ld_compile "$CC $CFLAGS -membedded-pic" $srcdir/$subdir/runtest2.c tmpdir/runtest2.o] } {
	unresolved $testname
	return
	}
	if ![ld_simple_link $ld tmpdir/runtest "--embedded-relocs tmpdir/runtesti.o tmpdir/runtest1.o tmpdir/runtest2.o"] {
	fail $testname
	} else {
	# Now run the test.
	send_log "tmpdir/run tmpdir/runtest\n"
	verbose "tmpdir/run tmpdir/runtest"
	catch "exec tmpdir/run tmpdir/runtest" exec_output
	if [string match "ran and returned 0" $exec_output] {
	send_log "$exec_output\n"
	verbose "$exec_output"
	pass $testname
	} else {
	send_log "$exec_output\n"
	verbose "$exec_output"
	fail $testname
	}
	}