I am exporting a function [using _declspec(dllexport)] from a C++ exe. The function works fine when invoked by the exe itself. I am loading this exe (lets call this exe1) from another exe [the test project's exe - I'll call this exe2] using static linking i.e I use exe1's .lib file while compiling exe2 and exe2 loads it into memory on startup just like any dll. This causes the function to fail in execution.
The exact problem is revealed in the disassembly for a switch case statement within the function.
Assembly code when exe1 invokes the function
switch (dwType) 0040FF84 mov eax,dword ptr [dwType] 0040FF87 mov dword ptr [ebp-4],eax 0040FF8A cmp dword ptr [ebp-4],0Bh 0040FF8E ja $LN2+7 (40FFD2h) 0040FF90 mov ecx,dword ptr [ebp-4] 0040FF93 jmp dword ptr (40FFE0h)[ecx*4]
Consider the final two instructions. The mov moves the passed in argument into ecx. At 40EFF0h we have addresses to the various instructions for the respective case statements. Thus, the jmp would take us to the relevant case instructions
Assembly code when exe2 invokes the function
switch (dwType) 0037FF84 mov eax,dword ptr [dwType] 0037FF87 mov dword ptr [ebp-4],eax 0037FF8A cmp dword ptr [ebp-4],0Bh 0037FF8E ja $LN2+7 (37FFD2h) 0037FF90 mov ecx,dword ptr [ebp-4] 0037FF93 jmp dword ptr [ecx*4+40FFE0h]
Spot whats going wrong? The instruction addresses. The code has now been loaded into a different spot in memory. When exe1 was compiled, the compiler assumed that we will always be launching it and hence it would always be loaded at 0x0040000 [as is the case with all windows exes]. So it hard-coded a few values like 40FFE0h into the instructions. Only in the second case 40FFE0 is as good as junk memory since the instruction address table we are looking for is not located there.
How can I solve this without converting exe1 to a dll?