#! @PERL@ # This script handles linking the tool executables on Linux, # statically and at an alternative load address. # # Linking statically sidesteps all sorts of complications to do with # having two copies of the dynamic linker (valgrind's and the # client's) coexisting in the same process. The alternative load # address is needed because Valgrind itself will load the client at # whatever address it specifies, which is almost invariably the # default load address. Hence we can't allow Valgrind itself (viz, # the tool executable) to be loaded at that address. # # Unfortunately there's no standard way to do 'static link at # alternative address', so these link_tool_exe_*.in scripts handle # the per-platform hoop-jumping. # # What we get passed here is: # first arg # the alternative load address # all the rest of the args # the gcc invokation to do the final link, that # the build system would have done, left to itself # # We just let the script 'die' if something is wrong, rather than do # proper error reporting. We don't expect the users to run this # directly. It is only run as part of the build process, with # carefully constrained inputs. # # # So: what we actually do is: # # Look at the specified gcc invokation. Ignore all parts of it except # the *.a, *.o and -o outfile parts. Wrap them up in a new command # which looks (eg) as follows: # # (64-bit): # # /usr/bin/ld -static -arch x86_64 -macosx_version_min 10.5 \ # -o memcheck-amd64-darwin -u __start -e __start \ # -image_base 0x138000000 -stack_addr 0x13c000000 \ # -stack_size 0x800000 \ # memcheck_amd*.o \ # ../coregrind/libcoregrind-amd64-darwin.a \ # ../VEX/libvex-amd64-darwin.a # # (32-bit) # # /usr/bin/ld -static -arch i386 -macosx_version_min 10.5 \ # -o memcheck-x86-darwin -u __start -e __start \ # -image_base 0x38000000 -stack_addr 0x3c000000 \ # -stack_size 0x800000 \ # memcheck_x86*.o \ # ../coregrind/libcoregrind-x86-darwin.a \ # ../VEX/libvex-x86-darwin.a # # The addresses shown above will actually work, although "for real" we # of course need to take it from argv[1]. In these examples the stack # is placed 64M after the executable start. It is probably safer to # place it 64M before the executable's start point, so the executable # + data + bss can grow arbitrarily in future without colliding with # the stack. # # There's one more twist: we need to know the word size of the # executable for which we are linking. We need to know this because # we must tell the linker that, by handing it either "-arch x86_64" or # "-arch i386". Fortunately we can figure this out by scanning the # gcc invokation, which itself must contain either "-arch x86_64" or # "-arch i386". use warnings; use strict; # we need to be able to do 64-bit arithmetic: use Math::BigInt; # User configurable constants: how far before the exe should we # place the stack? my $TX_STACK_OFFSET_BEFORE_TEXT = 64 * 1024 * 1024; # and how big should the stack be? my $TX_STACK_SIZE = 8 * 1024 * 1024; # string -> bool sub is_dota_or_doto($) { my ($str) = @_; if ($str =~ /.\.a$/ || $str =~ /.\.o$/) { return 1; } else { return 0; } } # expect at least: alt-load-address gcc -o foo bar.o die "Not enough arguments" if (($#ARGV + 1) < 5); my $ala = $ARGV[0]; # the load address to use my $cc = $ARGV[1]; # the C compiler in use # check for plausible-ish alt load address die "Bogus alt-load address (1)" if (length($ala) < 3 || index($ala, "0x") != 0); die "Bogus alt-load address (2)" if ($ala !~ /^0x[0-9a-fA-F]+$/); # get hold of the outfile name (following "-o") my $outname = ""; foreach my $n (2 .. $#ARGV - 1) { my $str = $ARGV[$n]; if ($str eq "-o" && $outname eq "") { $outname = $ARGV[$n + 1]; } } die "Can't find '-o outfilename' in command line" if ($outname eq ""); # get hold of the string following "-arch" my $archstr = ""; foreach my $n (2 .. $#ARGV - 1) { my $str = $ARGV[$n]; if ($str eq "-arch" && $archstr eq "") { $archstr = $ARGV[$n + 1]; } } die "Can't find '-arch archstr' in command line" if ($archstr eq ""); # build the command line my $cmd = "/usr/bin/ld"; $cmd = "$cmd -static"; # If we're building with clang (viz, the C compiler as specified # by the 2nd arg ends in "clang"), we also need -new_linker. See # https://bugs.kde.org/show_bug.cgi?id=295427 if ("$cc" =~ /clang$/) { $cmd = "$cmd -new_linker"; } $cmd = "$cmd -arch $archstr"; $cmd = "$cmd -macosx_version_min 10.5"; $cmd = "$cmd -o $outname"; $cmd = "$cmd -u __start -e __start"; my $stack_addr = Math::BigInt->new( $ala ) - $TX_STACK_OFFSET_BEFORE_TEXT; my $stack_addr_str = $stack_addr->as_hex(); my $stack_size_str = Math::BigInt::as_hex($TX_STACK_SIZE); $cmd = "$cmd -image_base $ala"; $cmd = "$cmd -stack_addr $stack_addr_str"; $cmd = "$cmd -stack_size $stack_size_str"; foreach my $n (2 .. $#ARGV) { my $str = $ARGV[$n]; if (is_dota_or_doto($str)) { $cmd = "$cmd $str"; } } print "link_tool_exe_darwin: $cmd\n"; # Execute the command: my $r = system("$cmd"); if ($r != 0) { exit 1; } # and now kludge the tool exe # see bug 267997 $cmd = "../coregrind/fixup_macho_loadcmds"; $cmd = "$cmd $stack_addr_str $stack_size_str $outname"; print "link_tool_exe_darwin: $cmd\n"; $r = system("$cmd"); if ($r != 0) { exit 1; } exit 0;