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ulrhost.cpp
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212 lines (141 loc) · 5.08 KB
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#include "Lib/Loader.hpp"
#include "Lib/Resolver.hpp"
#include <iostream>
#include <set>
#include <map>
#include <chrono>
#include <vector>
#include <codecvt>
#include <locale>
#include <string>
#include <csignal>
#include <Windows.h>
#include <dbghelp.h>
using namespace ULR;
using namespace ULR::Resolver;
char* (*special_string_MAKE_FROM_LITERAL)(char* str, int len);
char* (*special_array_from_ptr)(void* ptr, int size, Type* type);
ULRResult<char*> generate_ulr_argv(int argc, char* argv[])
{
char** ulr_args = new char*[argc-1]; // argc-1 to skip ulrhost.exe arg
for (int i = 0; i < argc-1; i++) // argc-1 to skip ulrhost.exe arg
{
ulr_args[i] = special_string_MAKE_FROM_LITERAL(argv[i+1], strlen(argv[i+1]));
}
auto res = internal_api->loader->GetType("[System]String[]");
if (res.error) return { nullptr, res.error };
Type* StringArrayType = res.result;
char* arr = special_array_from_ptr(ulr_args, argc-1, StringArrayType);
delete[] ulr_args;
return { arr, None };
}
void handle_access_violation(int signo)
{
std::cerr
<< "Signal SIGSEGV recieved: Segmentation Fault. May be due to a null dereference or invalid pointer dereference. Stacktrace:"
<< internal_api->GetStackTrace(2);
}
struct HostingResult // this implementation is not exposed to the caller of HostXXXXAssembly(), so no fields are public
{
int retcode;
ULRInternalError error;
};
extern "C" HostingResult HostNativeAssembly(
char* assembly_name,
char* debugger_path,
char* stdlib_path,
int argc_full,
char** argv_full
)
{
std::signal(SIGSEGV, handle_access_violation);
HMODULE debugger = LoadLibraryA(debugger_path);
if (!debugger)
{
return { 0, DebuggerNotFound };
}
bool debugger_successfully_loaded;
ULRAPIImpl lclapi = ULRAPIImpl(
debugger,
debugger_successfully_loaded
);
if (!debugger_successfully_loaded) return { 0, InvalidDebugger };
/* Initialize Internal Library */
internal_api = &lclapi;
Assembly* ArrayTypeAssembly = new Assembly(strdup("ULR.<ArrayTypes>"), strdup(""), "", 0, { }, { nullptr }, (HMODULE) nullptr);
lclapi.loader->ReadAssemblies[ArrayTypeAssembly->name] = ArrayTypeAssembly;
lclapi.loader->LoadedAssemblies[ArrayTypeAssembly->name] = ArrayTypeAssembly;
/* Load Stdlib*/
lclapi.loader->ReadNativeAssembly(stdlib_path);
auto res = lclapi.loader->LoadNativeAssembly(stdlib_path, &lclapi);
if (res.error) return { 0, res.error };
Assembly* stdlibasm = res.result;
/* Load Main Assembly */
lclapi.loader->ReadNativeAssembly(assembly_name);
res = lclapi.loader->LoadNativeAssembly(assembly_name, &lclapi);
if (res.error) return { 0, res.error };
Assembly* mainasm = res.result;
if (mainasm->entry == nullptr)
{
return { 0, EntryPointNotFound };
}
/* Initialize string[] args / argv */
special_string_MAKE_FROM_LITERAL = (char* (*)(char*, int)) lclapi.LocateSymbol(stdlibasm, "special_string_MAKE_FROM_LITERAL");
special_array_from_ptr = (char* (*)(void*, int, Type*)) lclapi.LocateSymbol(stdlibasm, "special_array_from_ptr");
auto args_res = generate_ulr_argv(argc_full, argv_full);
if (args_res.error) return { 0, args_res.error };
char* ulr_args_arr_obj = args_res.result;
int retcode;
lclapi.InitGCLocalVarRoot((char**) &retcode);
retcode = mainasm->entry(ulr_args_arr_obj);
return { retcode, None };
}
extern "C" HostingResult HostJITAssembly(
char* assembly_name,
char* debugger_path,
char* stdlib_path,
int argc_full,
char** argv_full
)
{
std::signal(SIGSEGV, handle_access_violation);
HMODULE debugger = LoadLibraryA(debugger_path);
if (!debugger)
{
return { 0, DebuggerNotFound };
}
bool debugger_successfully_loaded;
ULRAPIImpl lclapi = ULRAPIImpl(
debugger,
debugger_successfully_loaded
);
if (!debugger_successfully_loaded) return { 0, InvalidDebugger };
/* Initialize Internal Library */
internal_api = &lclapi;
Assembly* ArrayTypeAssembly = new Assembly(strdup("ULR.<ArrayTypes>"), strdup(""), "", 0, { }, { nullptr }, (HMODULE) nullptr);
lclapi.loader->ReadAssemblies[ArrayTypeAssembly->name] = ArrayTypeAssembly;
lclapi.loader->LoadedAssemblies[ArrayTypeAssembly->name] = ArrayTypeAssembly;
/* Load Stdlib*/
lclapi.loader->ReadNativeAssembly(stdlib_path);
auto res = lclapi.loader->LoadNativeAssembly(stdlib_path, &lclapi);
if (res.error) return { 0, res.error };
Assembly* stdlibasm = res.result;
/* Load Main Assembly */
auto jit_res = lclapi.LoadJITAssembly(assembly_name);
if (jit_res.error) { return { 0, jit_res.error }; }
Assembly* mainasm = jit_res.result;
if (mainasm->entry == nullptr)
{
return { 0, EntryPointNotFound };
}
/* Initialize string[] args / argv */
special_string_MAKE_FROM_LITERAL = (char* (*)(char*, int)) lclapi.LocateSymbol(stdlibasm, "special_string_MAKE_FROM_LITERAL");
special_array_from_ptr = (char* (*)(void*, int, Type*)) lclapi.LocateSymbol(stdlibasm, "special_array_from_ptr");
auto args_res = generate_ulr_argv(argc_full, argv_full);
if (args_res.error) return { 0, args_res.error };
char* ulr_args_arr_obj = args_res.result;
int retcode;
lclapi.InitGCLocalVarRoot((char**) &retcode);
retcode = mainasm->entry(ulr_args_arr_obj);
return { retcode, None };
}