I searched around SO and found various related questions, some answered with essentially "don't do that."
I want to call some unmanaged C++ code that accesses various existing C++ code. The existing code may have a variety of error conditions that I want to map into C# exceptions. From doing something similar in Java and JNI, it seemed that it might be possible to have a delegate function to raise defined exceptions, which could then be called directly from unmanaged code. The calls then look like (csharp)->(unmanaged)->(csharp delegate,throw/set pending exception) and then return back up.
The code below seems to work fine (vs2010, mono). My question is is there any problem with this approach - e.g. the spec says that the exception is not guaranteed to still be "pending" after unmanaged code is called, or threading issues, etc...
// unmanaged.cpp
#include <cstdio>
#define EXPORT __declspec(dllexport)
#define STDCALL __stdcall
typedef void (STDCALL* raiseExcpFn_t)(const char *);
extern "C" {
// STRUCT ADDED TO TEST CLEANUP
struct Allocated {
int x;
Allocated(int a): x(a) {}
~Allocated() {
printf("--- Deleted allocated stack '%d' ---\n", x);
fflush(stdout);
}
};
static raiseExcpFn_t exceptionRaiser = 0;
EXPORT void STDCALL registerRaiseExcpFn(raiseExcpFn_t fun) {
exceptionRaiser = fun;
}
EXPORT void STDCALL hello(const char * x) {
Allocated a0(0);
try {
Allocated a1(1);
printf("1 --- '%s' ---\n", x); fflush(stdout);
(*exceptionRaiser)("Something bad happened!");
printf("2 --- '%s' ---\n", x); fflush(stdout);
} catch (...) {
printf("3 --- '%s' ---\n", x); fflush(stdout);
throw;
}
printf("4 --- '%s' ---\n", x); fflush(stdout);
}
}
// Program.cs
using System;
using System.Runtime.InteropServices;
class Program {
[DllImport("unmanaged.dll")]
public static extern void registerRaiseExcpFn(RaiseException method);
[DllImport("unmanaged.dll")]
public static extern void hello([MarshalAs(UnmanagedType.LPStr)] string m);
public delegate void RaiseException(string s);
public static RaiseException excpfnDelegate =
new RaiseException(RaiseExceptionMessage);
// Static constructor (initializer)
static Program() {
registerRaiseExcpFn(excpfnDelegate);
}
static void RaiseExceptionMessage(String msg) {
throw new ApplicationException(msg);
}
public static void Main(string[] args) {
try {
hello("Hello World!");
} catch (Exception e) {
Console.WriteLine("Exception: " + e.GetType() + ":" + e.Message);
}
}
}
Updated: Corrected test and output, showing mono and Windows (with /EHsc) leaks
// Observed output // with Release builds /EHa, VS2010, .Net 3.5 target
//cstest.exe
// --- Deleted allocated stack '0' ---
// --- Deleted allocated stack '1' ---
// 1 --- 'Hello World!' ---
// 3 --- 'Hello World!' ---
// Exception: System.ApplicationException:Something bad happened!
// Observed LEAKING output // with Release builds /EHsc, VS2010, .Net 3.5 target
// cstest.exe
// 1 --- 'Hello World!' ---
// Exception: System.ApplicationException:Something bad happened!
// LEAKING output DYLD_LIBRARY_PATH=`pwd` mono program.exe
// 1 --- 'Hello World!' ---
// Exception: System.ApplicationException:Something bad happened!