package winapi_local; use strict; sub check_function { my $options = shift; my $output = shift; my $return_type = shift; my $calling_convention = shift; my $name = shift; my $refargument_types = shift; my @argument_types = @$refargument_types; my $winapi = shift; my $module = $winapi->function_module($name); if($winapi->name eq "win16") { my $name16 = $name; $name16 =~ s/16$//; if($name16 ne $name && $winapi->function_stub($name16)) { if($options->implemented) { &$output("function implemented but declared as stub in .spec file"); } return; } elsif($winapi->function_stub($name)) { if($options->implemented_win32) { &$output("32-bit variant of function implemented but declared as stub in .spec file"); } return; } } elsif($winapi->function_stub($name)) { if($options->implemented) { &$output("function implemented but declared as stub in .spec file"); } return; } my $forbidden_return_type = 0; my $implemented_return_kind; $winapi->type_used_in_module($return_type,$module); if(!defined($implemented_return_kind = $winapi->translate_argument($return_type))) { if($return_type ne "") { &$output("no translation defined: " . $return_type); } } elsif(!$winapi->is_allowed_kind($implemented_return_kind) || !$winapi->allowed_type_in_module($return_type,$module)) { $forbidden_return_type = 1; if($options->report_argument_forbidden($return_type)) { &$output("forbidden return type: $return_type ($implemented_return_kind)"); } } my $segmented = 0; if($implemented_return_kind =~ /^segptr|segstr$/) { $segmented = 1; } my $implemented_calling_convention; if($winapi->name eq "win16") { if($calling_convention =~ /^__cdecl$/) { $implemented_calling_convention = "cdecl"; } elsif($calling_convention = ~ /^__stdcall|VFWAPI|WINAPI$/) { if($implemented_return_kind =~ /^s_word|word|void$/) { $implemented_calling_convention = "pascal16"; } else { $implemented_calling_convention = "pascal"; } } } elsif($winapi->name eq "win32") { if($calling_convention =~ /^__cdecl$/) { $implemented_calling_convention = "cdecl"; } elsif($calling_convention =~ /^VFWAPIV|WINAPIV$/) { $implemented_calling_convention = "varargs"; } elsif($calling_convention =~ /^__stdcall|VFWAPI|WINAPI$/) { $implemented_calling_convention = "stdcall"; } else { $implemented_calling_convention = ""; } } my $declared_calling_convention = $winapi->function_calling_convention($name); my @declared_argument_kinds = split(/\s+/, $winapi->function_arguments($name)); if($declared_calling_convention =~ /^register|interrupt$/) { push @declared_argument_kinds, "ptr"; } if($declared_calling_convention =~ /^register|interupt$/ && (($winapi->name eq "win32" && $implemented_calling_convention eq "stdcall") || (($winapi->name eq "win16" && $implemented_calling_convention =~ /^pascal/)))) { # correct } elsif($implemented_calling_convention ne $declared_calling_convention && !($declared_calling_convention =~ /^pascal/ && $forbidden_return_type)) { if($options->calling_convention) { &$output("calling convention mismatch: $implemented_calling_convention != $declared_calling_convention"); } } if($declared_calling_convention eq "varargs") { if($#argument_types != -1 && $argument_types[$#argument_types] eq "...") { pop @argument_types; } else { &$output("function not implemented as vararg"); } } elsif($#argument_types != -1 && $argument_types[$#argument_types] eq "...") { &$output("function not declared as vararg"); } if($name =~ /^CRTDLL__ftol|CRTDLL__CIpow$/) { # ignore } else { my $n = 0; my @argument_kinds = map { my $type = $_; my $kind = "unknown"; $winapi->type_used_in_module($type,$module); if(!defined($kind = $winapi->translate_argument($type))) { &$output("no translation defined: " . $type); } elsif(!$winapi->is_allowed_kind($kind) || !$winapi->allowed_type_in_module($type, $module)) { if($options->report_argument_forbidden($type)) { &$output("forbidden argument " . ($n + 1) . " type (" . $type . ")"); } } if(defined($kind) && $kind eq "longlong") { $n+=2; ("long", "long"); } else { $n++; $kind; } } @argument_types; for my $n (0..$#argument_kinds) { if(!defined($argument_kinds[$n]) || !defined($declared_argument_kinds[$n])) { next; } if($argument_kinds[$n] =~ /^segptr|segstr$/ || $declared_argument_kinds[$n] =~ /^segptr|segstr$/) { $segmented = 1; } if($argument_kinds[$n] ne $declared_argument_kinds[$n]) { if($options->report_argument_kind($argument_kinds[$n]) || $options->report_argument_kind($declared_argument_kinds[$n])) { &$output("argument " . ($n + 1) . " type mismatch: " . $argument_types[$n] . " ($argument_kinds[$n]) != " . $declared_argument_kinds[$n]); } } } if($#argument_kinds != $#declared_argument_kinds) { if($options->argument_count) { &$output("argument count differs: " . ($#argument_types + 1) . " != " . ($#declared_argument_kinds + 1)); } } } if($segmented && $options->shared_segmented && $winapi->is_shared_function($name)) { &$output("function using segmented pointers shared between Win16 och Win32"); } } sub check_file { my $options = shift; my $output = shift; my $file = shift; my $functions = shift; if($options->cross_call) { my @names = sort(keys(%$functions)); for my $name (@names) { my @called_names = $$functions{$name}->called_function_names; my @called_by_names = $$functions{$name}->called_by_function_names; my $module = $$functions{$name}->module; my $module16 = $$functions{$name}->module16; my $module32 = $$functions{$name}->module32; if($#called_names >= 0 && (defined($module16) || defined($module32)) ) { for my $called_name (@called_names) { my $called_module16 = $$functions{$called_name}->module16; my $called_module32 = $$functions{$called_name}->module32; if(defined($module32) && defined($called_module16) && !defined($called_module32) && $name ne $called_name) { $output->write("$file: $module: $name: illegal call to $called_name (Win16)\n"); } } } } } } 1;