This is intend to be a document to help new developers get started. Existing developers should feel free to add there comments. SUBMITTING YOUR WORK: Submissions of code for inclussion into Wine should be sent to wine-new@amscons.com (Bob Amstadt). You MUST provide a suitable ChangeLog entry for any work that you submit. I prefer new code to be submitted as unified diffs (diff -u) off of the latest release. Releases are every Tuesday evening (approximately 17:00 PST or Wednesday 01:00 GMT). MEMORY AND SEGMENTS: NE (Win16) executables consist of multiple segments. The Wine loader loads each segment into a unique location the Wine processes memory and assigns a selector to that segment. To make address conversion simpler, Wine loads the segments in such a way that the segmented address (16:16) is stored in memory the same way as the 32-bit linear address. For example, the segmented address 1237:89AB can be at the address 0x123789AB in the Wine process space. This also implies that a Win16 program cannot access any arbitrary memory location. If a pointer needs to be returned to a Win16 program, then the memory block must be allocated using either GlobalAlloc() or HEAP_Alloc(). The HEAP_* functions are faster than the Global* functions but are only capable of managing a 64k memory block. The HEAP_* functions are used to implement local heaps. Wine should never call Local* functions. These functions are reserved for use by Win16 programs only! The following code fragment should be used to establish a new Wine local heap: #include "heap.h" #define MY_HEAP_SIZE 0x10000 /* Must be <= 64k */ int MyHeapHandle; void *MyHeapBase; MDESC *MyHeap; ... int InitMyHeap() { MyHeapHandle = GlobalAlloc(GMEM_FIXED, MY_HEAP_SIZE); if (MyHeapHandle == 0) return -1; MyHeapBase = GlobalLock(MyHeapHandle); HEAP_Init(&MyHeap, MyHeapBase, MY_HEAP_SIZE); return 0; } Memory blocks greater than 64 kilobytes in length must be allocated using GlobalAlloc(). Because of our special memory mapping, GlobalLock() cannot be used to obtain the address of a linearly accessible memory block that is greater than 64kB in length. Instead GlobalLinearLock() should be used. The inverse function GlobalLinearUnlock() must be called before the block can be freed with GlobalFree(). API ENTRY POINTS: Because Win16 programs use a 16-bit stack and because they can only call 16:16 addressed functions, all API entry points must be at low address offsets and must have the arguments translated and moved to Wines 32-bit stack. This task is handled by the code in the "if1632" directory. To define a new API entry point handler you must place a new entry in the appropriate API specification file. These files are named *.spec. For example, the API specification file for the USER DLL is contained in the file user.spec. These entries are processed by the "build" program to create dll_*.s and dll_tab_*.c. The dll_*.s files contain the entry point code for each API call, and the dll_tab_*.s files contain tables used by relay.c to translate arguments and transfer control to the proper handler. The format of the *.spec files is documented in the file "tools/build-spec.txt". REGISTER FUNCTIONS: Some functions are defined as type "register" in the DLL specification files. Inorder to return values in the registers to the WIN16 program, the handler function must exit by calling ReturnFromRegisterFunc(). Look at the function DOS3Call() for an example of how this works.