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ne.hexpat
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ne.hexpat
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#pragma description NE header and Standard NE fields
import std.mem;
struct DOSHeader {
char signature[2];
u16 lastPageSize;
u16 numberOfPages;
u16 relocations;
u16 headerSizeInParagraphs;
u16 minimumAllocatedParagraphs;
u16 maximumAllocatedParagraphs;
u16 initialSSValue;
u16 initialRelativeSPValue;
u16 checksum;
u16 initialRelativeIPValue;
u16 initialCSValue;
u16 relocationsTablePointer;
u16 overlayNumber;
u8 overlayInformation[0x20];
u32 neHeaderPointer;
};
u16 dosMessageOffset;
u16 pointedCodeOffset;
fn finddosmessage() {
for (u8 i = 0, $+i < std::mem::read_unsigned(0x3C, 4), i = i + 1) {
if (std::mem::read_unsigned($+i, 1) == 0xBA) { // MOV instruction
dosMessageOffset = std::mem::read_unsigned($+i+1, 2);
break;
}
}
};
fn findpointingcode() {
for (u8 i = 0, $+i < std::mem::read_unsigned(0x3C, 4), i = i + 1) {
if (std::mem::read_unsigned($+i, 1) == 0xE8) { // CALL instruction
pointedCodeOffset = std::mem::read_unsigned($+i+1, 2);
return true;
}
}
return false;
};
fn isdosdata(char c) {
return c == 0x0D || c == '$';
};
struct DOSStub {
if (findpointingcode()) {
u8 pointingCode[3];
u8 code[while(std::mem::read_unsigned($, 1) != 0x00)] @ addressof(this) + pointedCodeOffset + 3;
char message[while(!isdosdata(std::mem::read_unsigned($, 1)))];
char data[while(std::mem::read_string($-1, 1) != "$")];
}
else {
finddosmessage();
if (dosMessageOffset > 0) {
u8 code[while($ != addressof(this) + dosMessageOffset)];
char message[while(!isdosdata(std::mem::read_unsigned($, 1)))];
char data[while(std::mem::read_string($-1, 1) != "$")];
}
else {
char code[while(std::mem::read_unsigned($, 1) != 0x00)];
}
}
};
struct FileHeader {
DOSHeader dosHeader;
DOSStub dosStub @ dosHeader.headerSizeInParagraphs * 16;
};
FileHeader fileHeader @ 0x00;
enum DGroupType : u8 {
NoAutoData,
SingleData,
MultipleData,
Null
};
fn formatDGroupType(u8 value) {
DGroupType dgroup = value;
return dgroup;
};
enum AppType : u8 {
None,
Fullscreen,
WinPMCompatible,
UsesWinPM
};
fn formatAppType(u8 value) {
AppType app = value;
return app;
};
bitfield ProgramFlags {
dGroupType : 2 [[format("formatDGroupType")]];
globalInitialization : 1;
protectedModeOnly : 1;
instructions86 : 1;
instructions286 : 1;
instructions386 : 1;
instructionsX87 : 1;
};
bitfield ApplicationFlags {
applicationType : 2 [[format("formatAppType")]];
padding : 1;
os2Application : 1;
reserved : 1;
imageError : 1;
nonConforming : 1;
dll : 1;
};
enum OSType : u8 {
Unknown = 0x00,
OS2 = 0x01,
Win16 = 0x02,
DOS4 = 0x03,
Win32 = 0x04,
BorlandOSServices = 0x05,
PharlapDOSExtenderOS2 = 0x81,
PharlapDOSExtenderWindows = 0x82
};
bitfield OS2EXEFlags {
longFilename : 1;
protectedMode : 1;
proportionalFonts : 1;
gangloadArea : 1;
};
struct NEHeader {
char signature[2];
u8 majorLinkerVersion;
u8 minorLinkerVersion;
u16 entryTableOffset;
u16 entryTableLength;
u32 fileCRC;
ProgramFlags programFlags;
ApplicationFlags appFlags;
u16 autoDataSegmentIndex;
u16 initHeapSize;
u16 initStackSize;
u32 entryPoint;
u32 initialStackPointer;
u16 segmentCount;
u16 moduleReferenceCount;
u16 nonResidentNamesTableSize;
u16 segmentTableOffset;
u16 resourceTableOffset;
u16 residentNamesTableOffset;
u16 moduleReferenceTableOffset;
u16 importedNamesTableOffset;
u8 *nonResidentNamesTablePointer[nonResidentNamesTableSize] : u32;
u16 moveableEntryCount;
u16 fileAlignmentSizeShiftCount;
u16 resourceCount;
OSType targetOS;
OS2EXEFlags os2ExeFlags;
u16 thunksReturnOffset;
u16 segmentReferenceThunksOffset;
u16 minimumCodeSwapAreaSize;
u8 expectedMinorWindowsVersion;
u8 expectedMajorWindowsVersion;
};
NEHeader neHeader @ fileHeader.dosHeader.neHeaderPointer;
bitfield SegmentTableFlags {
dataSegment : 1;
typeMask : 2;
padding : 1;
moveable : 1;
padding : 1;
preloaded : 1;
padding : 1;
containsRelocationInfo : 1;
padding : 1;
discardPriority : 4;
};
struct SegmentTable {
u16 segmentDataPointer;
u16 segmentLength;
SegmentTableFlags segmentTableFlags;
u16 minimumAllocationSize;
};
SegmentTable segmentTable[neHeader.segmentCount] @ addressof(neHeader) + neHeader.segmentTableOffset;
bitfield BlockFlags {
padding : 4;
moveable : 1;
shared : 1;
preload : 1;
padding : 9;
};
struct ResourceTypeInformationBlock {
u8 *resourcePointer : u16;
u16 resourceLength;
BlockFlags flags;
u16 resourceID;
u32 reserved;
};
struct ResourceRecord {
u16 typeID;
u16 numberOfResources;
u32 reserved;
ResourceTypeInformationBlock blocks[numberOfResources];
};
struct ResourceTable {
u16 alignmentShiftCount;
ResourceRecord records[neHeader.resourceTableEntryCount];
u8 stringLength;
char string[stringLength];
};
ResourceTable resourceTable[neHeader.resourceCount] @ addressof(neHeader) + neHeader.resourceTableOffset;
struct ResidentName {
u8 stringLength;
char string[stringLength];
u16 ordinalNumber;
};
ResidentName residentNameTable[while($+1 < addressof(neHeader) + neHeader.moduleReferenceTableOffset)] @ addressof(neHeader) + neHeader.residentNamesTableOffset;
struct ModuleReference {
u16 moduleNameOffset;
};
ModuleReference moduleReferenceTable[neHeader.moduleReferenceCount] @ addressof(neHeader) + neHeader.moduleReferenceTableOffset;
struct ImportedNameTable {
u8 stringLength;
char string[stringLength];
};
ImportedNameTable importedNameTable[while($ < addressof(neHeader) + neHeader.entryTableOffset)] @ addressof(neHeader) + neHeader.importedNamesTableOffset;
enum EntryDataType : u8 {
Unused,
Fixed = 0x01 ... 0xFE,
Moveable
};
struct EntryTable {
u8 entryCount;
EntryDataType segmentIndicator;
};
EntryTable entryTable[neHeader.entryTableLength/2] @ addressof(neHeader) + neHeader.entryTableOffset;