/* * ICLRMetaHost - discovery and management of available .NET runtimes * * Copyright 2010 Vincent Povirk for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #define COBJMACROS #include "wine/unicode.h" #include "wine/library.h" #include "windef.h" #include "winbase.h" #include "winreg.h" #include "ole2.h" #include "corerror.h" #include "mscoree.h" #include "fusion.h" #include "metahost.h" #include "wine/list.h" #include "mscoree_private.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL( mscoree ); static const WCHAR net_11_subdir[] = {'1','.','0',0}; static const WCHAR net_20_subdir[] = {'2','.','0',0}; static const WCHAR net_40_subdir[] = {'4','.','0',0}; const struct ICLRRuntimeInfoVtbl CLRRuntimeInfoVtbl; #define NUM_RUNTIMES 3 static struct CLRRuntimeInfo runtimes[NUM_RUNTIMES] = { {&CLRRuntimeInfoVtbl, net_11_subdir, 1, 1, 4322, 0}, {&CLRRuntimeInfoVtbl, net_20_subdir, 2, 0, 50727, 0}, {&CLRRuntimeInfoVtbl, net_40_subdir, 4, 0, 30319, 0} }; static int runtimes_initialized; static CRITICAL_SECTION runtime_list_cs; static CRITICAL_SECTION_DEBUG runtime_list_cs_debug = { 0, 0, &runtime_list_cs, { &runtime_list_cs_debug.ProcessLocksList, &runtime_list_cs_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": runtime_list_cs") } }; static CRITICAL_SECTION runtime_list_cs = { &runtime_list_cs_debug, -1, 0, 0, 0, 0 }; #define NUM_ABI_VERSIONS 2 static loaded_mono loaded_monos[NUM_ABI_VERSIONS]; static BOOL find_mono_dll(LPCWSTR path, LPWSTR dll_path, int abi_version); static MonoAssembly* mono_assembly_search_hook_fn(MonoAssemblyName *aname, char **assemblies_path, void *user_data); static void mono_shutdown_callback_fn(MonoProfiler *prof); static void set_environment(LPCWSTR bin_path) { WCHAR path_env[MAX_PATH]; int len; static const WCHAR pathW[] = {'P','A','T','H',0}; /* We have to modify PATH as Mono loads other DLLs from this directory. */ GetEnvironmentVariableW(pathW, path_env, sizeof(path_env)/sizeof(WCHAR)); len = strlenW(path_env); path_env[len++] = ';'; strcpyW(path_env+len, bin_path); SetEnvironmentVariableW(pathW, path_env); } static void CDECL do_nothing(void) { } static HRESULT load_mono(CLRRuntimeInfo *This, loaded_mono **result) { static const WCHAR bin[] = {'\\','b','i','n',0}; static const WCHAR lib[] = {'\\','l','i','b',0}; static const WCHAR etc[] = {'\\','e','t','c',0}; static const WCHAR glibdll[] = {'l','i','b','g','l','i','b','-','2','.','0','-','0','.','d','l','l',0}; WCHAR mono_dll_path[MAX_PATH+16], mono_bin_path[MAX_PATH+4]; WCHAR mono_lib_path[MAX_PATH+4], mono_etc_path[MAX_PATH+4]; char mono_lib_path_a[MAX_PATH], mono_etc_path_a[MAX_PATH]; int trace_size; char trace_setting[256]; if (This->mono_abi_version == -1) MESSAGE("wine: Install the Windows version of Mono to run .NET executables\n"); if (This->mono_abi_version <= 0 || This->mono_abi_version > NUM_ABI_VERSIONS) return E_FAIL; *result = &loaded_monos[This->mono_abi_version-1]; if ((*result)->is_shutdown) { ERR("Cannot load Mono after it has been shut down.\n"); *result = NULL; return E_FAIL; } if (!(*result)->mono_handle) { strcpyW(mono_bin_path, This->mono_path); strcatW(mono_bin_path, bin); set_environment(mono_bin_path); strcpyW(mono_lib_path, This->mono_path); strcatW(mono_lib_path, lib); WideCharToMultiByte(CP_UTF8, 0, mono_lib_path, -1, mono_lib_path_a, MAX_PATH, NULL, NULL); strcpyW(mono_etc_path, This->mono_path); strcatW(mono_etc_path, etc); WideCharToMultiByte(CP_UTF8, 0, mono_etc_path, -1, mono_etc_path_a, MAX_PATH, NULL, NULL); if (!find_mono_dll(This->mono_path, mono_dll_path, This->mono_abi_version)) goto fail; (*result)->mono_handle = LoadLibraryW(mono_dll_path); if (!(*result)->mono_handle) goto fail; #define LOAD_MONO_FUNCTION(x) do { \ (*result)->x = (void*)GetProcAddress((*result)->mono_handle, #x); \ if (!(*result)->x) { \ goto fail; \ } \ } while (0); LOAD_MONO_FUNCTION(mono_assembly_get_image); LOAD_MONO_FUNCTION(mono_assembly_open); LOAD_MONO_FUNCTION(mono_config_parse); LOAD_MONO_FUNCTION(mono_class_from_mono_type); LOAD_MONO_FUNCTION(mono_class_from_name); LOAD_MONO_FUNCTION(mono_class_get_method_from_name); LOAD_MONO_FUNCTION(mono_domain_assembly_open); LOAD_MONO_FUNCTION(mono_install_assembly_preload_hook); LOAD_MONO_FUNCTION(mono_jit_exec); LOAD_MONO_FUNCTION(mono_jit_init); LOAD_MONO_FUNCTION(mono_jit_set_trace_options); LOAD_MONO_FUNCTION(mono_object_get_domain); LOAD_MONO_FUNCTION(mono_object_new); LOAD_MONO_FUNCTION(mono_object_unbox); LOAD_MONO_FUNCTION(mono_profiler_install); LOAD_MONO_FUNCTION(mono_reflection_type_from_name); LOAD_MONO_FUNCTION(mono_runtime_invoke); LOAD_MONO_FUNCTION(mono_runtime_object_init); LOAD_MONO_FUNCTION(mono_runtime_quit); LOAD_MONO_FUNCTION(mono_set_dirs); LOAD_MONO_FUNCTION(mono_stringify_assembly_name); /* GLib imports obsoleted by the 2.0 ABI */ if (This->mono_abi_version == 1) { (*result)->glib_handle = LoadLibraryW(glibdll); if (!(*result)->glib_handle) goto fail; (*result)->mono_free = (void*)GetProcAddress((*result)->glib_handle, "g_free"); if (!(*result)->mono_free) goto fail; } else { LOAD_MONO_FUNCTION(mono_free); } #undef LOAD_MONO_FUNCTION #define LOAD_OPT_VOID_MONO_FUNCTION(x) do { \ (*result)->x = (void*)GetProcAddress((*result)->mono_handle, #x); \ if (!(*result)->x) { \ (*result)->x = do_nothing; \ } \ } while (0); LOAD_OPT_VOID_MONO_FUNCTION(mono_runtime_set_shutting_down); LOAD_OPT_VOID_MONO_FUNCTION(mono_thread_pool_cleanup); LOAD_OPT_VOID_MONO_FUNCTION(mono_thread_suspend_all_other_threads); LOAD_OPT_VOID_MONO_FUNCTION(mono_threads_set_shutting_down); #undef LOAD_OPT_VOID_MONO_FUNCTION (*result)->mono_profiler_install((MonoProfiler*)*result, mono_shutdown_callback_fn); (*result)->mono_set_dirs(mono_lib_path_a, mono_etc_path_a); (*result)->mono_config_parse(NULL); (*result)->mono_install_assembly_preload_hook(mono_assembly_search_hook_fn, *result); trace_size = GetEnvironmentVariableA("WINE_MONO_TRACE", trace_setting, sizeof(trace_setting)); if (trace_size) { (*result)->mono_jit_set_trace_options(trace_setting); } } return S_OK; fail: ERR("Could not load Mono into this process\n"); FreeLibrary((*result)->mono_handle); FreeLibrary((*result)->glib_handle); (*result)->mono_handle = NULL; (*result)->glib_handle = NULL; return E_FAIL; } static void mono_shutdown_callback_fn(MonoProfiler *prof) { loaded_mono *mono = (loaded_mono*)prof; mono->is_shutdown = TRUE; } static HRESULT CLRRuntimeInfo_GetRuntimeHost(CLRRuntimeInfo *This, RuntimeHost **result) { HRESULT hr = S_OK; loaded_mono *ploaded_mono; if (This->loaded_runtime) { *result = This->loaded_runtime; return hr; } EnterCriticalSection(&runtime_list_cs); hr = load_mono(This, &ploaded_mono); if (SUCCEEDED(hr)) hr = RuntimeHost_Construct(This, ploaded_mono, &This->loaded_runtime); LeaveCriticalSection(&runtime_list_cs); if (SUCCEEDED(hr)) *result = This->loaded_runtime; return hr; } void unload_all_runtimes(void) { int i; for (i=0; imono_handle && mono->is_started && !mono->is_shutdown) { /* Copied from Mono's ves_icall_System_Environment_Exit */ mono->mono_threads_set_shutting_down(); mono->mono_runtime_set_shutting_down(); mono->mono_thread_pool_cleanup(); mono->mono_thread_suspend_all_other_threads(); mono->mono_runtime_quit(); } } for (i=0; imono_handle && mono->is_started && !mono->is_shutdown) { ERR("Process exited with a Mono runtime loaded.\n"); return; } } } static HRESULT WINAPI CLRRuntimeInfo_QueryInterface(ICLRRuntimeInfo* iface, REFIID riid, void **ppvObject) { TRACE("%p %s %p\n", iface, debugstr_guid(riid), ppvObject); if ( IsEqualGUID( riid, &IID_ICLRRuntimeInfo ) || IsEqualGUID( riid, &IID_IUnknown ) ) { *ppvObject = iface; } else { FIXME("Unsupported interface %s\n", debugstr_guid(riid)); return E_NOINTERFACE; } ICLRRuntimeInfo_AddRef( iface ); return S_OK; } static ULONG WINAPI CLRRuntimeInfo_AddRef(ICLRRuntimeInfo* iface) { return 2; } static ULONG WINAPI CLRRuntimeInfo_Release(ICLRRuntimeInfo* iface) { return 1; } static HRESULT WINAPI CLRRuntimeInfo_GetVersionString(ICLRRuntimeInfo* iface, LPWSTR pwzBuffer, DWORD *pcchBuffer) { struct CLRRuntimeInfo *This = (struct CLRRuntimeInfo*)iface; DWORD buffer_size = *pcchBuffer; HRESULT hr = S_OK; char version[11]; DWORD size; TRACE("%p %p %p\n", iface, pwzBuffer, pcchBuffer); size = snprintf(version, sizeof(version), "v%u.%u.%u", This->major, This->minor, This->build); assert(size <= sizeof(version)); *pcchBuffer = MultiByteToWideChar(CP_UTF8, 0, version, -1, NULL, 0); if (pwzBuffer) { if (buffer_size >= *pcchBuffer) MultiByteToWideChar(CP_UTF8, 0, version, -1, pwzBuffer, buffer_size); else hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } return hr; } static BOOL get_install_root(LPWSTR install_dir) { const WCHAR dotnet_key[] = {'S','O','F','T','W','A','R','E','\\','M','i','c','r','o','s','o','f','t','\\','.','N','E','T','F','r','a','m','e','w','o','r','k','\\',0}; const WCHAR install_root[] = {'I','n','s','t','a','l','l','R','o','o','t',0}; DWORD len; HKEY key; if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, dotnet_key, 0, KEY_READ, &key)) return FALSE; len = MAX_PATH; if (RegQueryValueExW(key, install_root, 0, NULL, (LPBYTE)install_dir, &len)) { RegCloseKey(key); return FALSE; } RegCloseKey(key); return TRUE; } static HRESULT WINAPI CLRRuntimeInfo_GetRuntimeDirectory(ICLRRuntimeInfo* iface, LPWSTR pwzBuffer, DWORD *pcchBuffer) { static const WCHAR slash[] = {'\\',0}; DWORD buffer_size = *pcchBuffer; WCHAR system_dir[MAX_PATH]; WCHAR version[MAX_PATH]; DWORD version_size, size; HRESULT hr = S_OK; TRACE("%p %p %p\n", iface, pwzBuffer, pcchBuffer); if (!get_install_root(system_dir)) { ERR("error reading registry key for installroot\n"); return E_FAIL; } else { version_size = MAX_PATH; ICLRRuntimeInfo_GetVersionString(iface, version, &version_size); lstrcatW(system_dir, version); lstrcatW(system_dir, slash); size = lstrlenW(system_dir) + 1; } *pcchBuffer = size; if (pwzBuffer) { if (buffer_size >= size) strcpyW(pwzBuffer, system_dir); else hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } return hr; } static HRESULT WINAPI CLRRuntimeInfo_IsLoaded(ICLRRuntimeInfo* iface, HANDLE hndProcess, BOOL *pbLoaded) { FIXME("%p %p %p\n", iface, hndProcess, pbLoaded); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_LoadErrorString(ICLRRuntimeInfo* iface, UINT iResourceID, LPWSTR pwzBuffer, DWORD *pcchBuffer, LONG iLocaleid) { FIXME("%p %u %p %p %x\n", iface, iResourceID, pwzBuffer, pcchBuffer, iLocaleid); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_LoadLibrary(ICLRRuntimeInfo* iface, LPCWSTR pwzDllName, HMODULE *phndModule) { WCHAR version[MAX_PATH]; HRESULT hr; DWORD cchBuffer; TRACE("%p %s %p\n", iface, debugstr_w(pwzDllName), phndModule); cchBuffer = MAX_PATH; hr = ICLRRuntimeInfo_GetVersionString(iface, version, &cchBuffer); if (FAILED(hr)) return hr; return LoadLibraryShim(pwzDllName, version, NULL, phndModule); } static HRESULT WINAPI CLRRuntimeInfo_GetProcAddress(ICLRRuntimeInfo* iface, LPCSTR pszProcName, LPVOID *ppProc) { FIXME("%p %s %p\n", iface, debugstr_a(pszProcName), ppProc); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_GetInterface(ICLRRuntimeInfo* iface, REFCLSID rclsid, REFIID riid, LPVOID *ppUnk) { struct CLRRuntimeInfo *This = (struct CLRRuntimeInfo*)iface; RuntimeHost *host; HRESULT hr; TRACE("%p %s %s %p\n", iface, debugstr_guid(rclsid), debugstr_guid(riid), ppUnk); hr = CLRRuntimeInfo_GetRuntimeHost(This, &host); if (SUCCEEDED(hr)) hr = RuntimeHost_GetInterface(host, rclsid, riid, ppUnk); return hr; } static HRESULT WINAPI CLRRuntimeInfo_IsLoadable(ICLRRuntimeInfo* iface, BOOL *pbLoadable) { FIXME("%p %p\n", iface, pbLoadable); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_SetDefaultStartupFlags(ICLRRuntimeInfo* iface, DWORD dwStartupFlags, LPCWSTR pwzHostConfigFile) { FIXME("%p %x %s\n", iface, dwStartupFlags, debugstr_w(pwzHostConfigFile)); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_GetDefaultStartupFlags(ICLRRuntimeInfo* iface, DWORD *pdwStartupFlags, LPWSTR pwzHostConfigFile, DWORD *pcchHostConfigFile) { FIXME("%p %p %p %p\n", iface, pdwStartupFlags, pwzHostConfigFile, pcchHostConfigFile); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_BindAsLegacyV2Runtime(ICLRRuntimeInfo* iface) { FIXME("%p\n", iface); return E_NOTIMPL; } static HRESULT WINAPI CLRRuntimeInfo_IsStarted(ICLRRuntimeInfo* iface, BOOL *pbStarted, DWORD *pdwStartupFlags) { FIXME("%p %p %p\n", iface, pbStarted, pdwStartupFlags); return E_NOTIMPL; } const struct ICLRRuntimeInfoVtbl CLRRuntimeInfoVtbl = { CLRRuntimeInfo_QueryInterface, CLRRuntimeInfo_AddRef, CLRRuntimeInfo_Release, CLRRuntimeInfo_GetVersionString, CLRRuntimeInfo_GetRuntimeDirectory, CLRRuntimeInfo_IsLoaded, CLRRuntimeInfo_LoadErrorString, CLRRuntimeInfo_LoadLibrary, CLRRuntimeInfo_GetProcAddress, CLRRuntimeInfo_GetInterface, CLRRuntimeInfo_IsLoadable, CLRRuntimeInfo_SetDefaultStartupFlags, CLRRuntimeInfo_GetDefaultStartupFlags, CLRRuntimeInfo_BindAsLegacyV2Runtime, CLRRuntimeInfo_IsStarted }; HRESULT ICLRRuntimeInfo_GetRuntimeHost(ICLRRuntimeInfo *iface, RuntimeHost **result) { struct CLRRuntimeInfo *This = (struct CLRRuntimeInfo*)iface; assert(This->ICLRRuntimeInfo_vtbl == &CLRRuntimeInfoVtbl); return CLRRuntimeInfo_GetRuntimeHost(This, result); } static BOOL find_mono_dll(LPCWSTR path, LPWSTR dll_path, int abi_version) { static const WCHAR mono_dll[] = {'\\','b','i','n','\\','m','o','n','o','.','d','l','l',0}; static const WCHAR libmono_dll[] = {'\\','b','i','n','\\','l','i','b','m','o','n','o','.','d','l','l',0}; static const WCHAR mono2_dll[] = {'\\','b','i','n','\\','m','o','n','o','-','2','.','0','.','d','l','l',0}; static const WCHAR libmono2_dll[] = {'\\','b','i','n','\\','l','i','b','m','o','n','o','-','2','.','0','.','d','l','l',0}; DWORD attributes=INVALID_FILE_ATTRIBUTES; if (abi_version == 1) { strcpyW(dll_path, path); strcatW(dll_path, mono_dll); attributes = GetFileAttributesW(dll_path); if (attributes == INVALID_FILE_ATTRIBUTES) { strcpyW(dll_path, path); strcatW(dll_path, libmono_dll); attributes = GetFileAttributesW(dll_path); } } else if (abi_version == 2) { strcpyW(dll_path, path); strcatW(dll_path, mono2_dll); attributes = GetFileAttributesW(dll_path); if (attributes == INVALID_FILE_ATTRIBUTES) { strcpyW(dll_path, path); strcatW(dll_path, libmono2_dll); attributes = GetFileAttributesW(dll_path); } } return (attributes != INVALID_FILE_ATTRIBUTES); } static BOOL get_mono_path_from_registry(LPWSTR path, int abi_version) { static const WCHAR mono_key[] = {'S','o','f','t','w','a','r','e','\\','N','o','v','e','l','l','\\','M','o','n','o',0}; static const WCHAR defaul_clr[] = {'D','e','f','a','u','l','t','C','L','R',0}; static const WCHAR install_root[] = {'S','d','k','I','n','s','t','a','l','l','R','o','o','t',0}; static const WCHAR slash[] = {'\\',0}; WCHAR version[64], version_key[MAX_PATH]; DWORD len; HKEY key; WCHAR dll_path[MAX_PATH]; if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, mono_key, 0, KEY_READ, &key)) return FALSE; len = sizeof(version); if (RegQueryValueExW(key, defaul_clr, 0, NULL, (LPBYTE)version, &len)) { RegCloseKey(key); return FALSE; } RegCloseKey(key); lstrcpyW(version_key, mono_key); lstrcatW(version_key, slash); lstrcatW(version_key, version); if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, version_key, 0, KEY_READ, &key)) return FALSE; len = sizeof(WCHAR) * MAX_PATH; if (RegQueryValueExW(key, install_root, 0, NULL, (LPBYTE)path, &len)) { RegCloseKey(key); return FALSE; } RegCloseKey(key); return find_mono_dll(path, dll_path, abi_version); } static BOOL get_mono_path_from_folder(LPCWSTR folder, LPWSTR mono_path, int abi_version) { static const WCHAR mono_one_dot_zero[] = {'\\','m','o','n','o','-','1','.','0', 0}; static const WCHAR mono_two_dot_zero[] = {'\\','m','o','n','o','-','2','.','0', 0}; WCHAR mono_dll_path[MAX_PATH]; BOOL found = FALSE; strcpyW(mono_path, folder); if (abi_version == 1) strcatW(mono_path, mono_one_dot_zero); else if (abi_version == 2) strcatW(mono_path, mono_two_dot_zero); found = find_mono_dll(mono_path, mono_dll_path, abi_version); return found; } static BOOL get_mono_path(LPWSTR path, int abi_version) { static const WCHAR subdir_mono[] = {'\\','m','o','n','o',0}; static const WCHAR sibling_mono[] = {'\\','.','.','\\','m','o','n','o',0}; WCHAR base_path[MAX_PATH]; const char *unix_data_dir; WCHAR *dos_data_dir; int build_tree=0; static WCHAR* (CDECL *wine_get_dos_file_name)(const char*); /* First try c:\windows\mono */ GetWindowsDirectoryW(base_path, MAX_PATH); strcatW(base_path, subdir_mono); if (get_mono_path_from_folder(base_path, path, abi_version)) return TRUE; /* Next: /usr/share/wine/mono */ unix_data_dir = wine_get_data_dir(); if (!unix_data_dir) { unix_data_dir = wine_get_build_dir(); build_tree = 1; } if (unix_data_dir) { if (!wine_get_dos_file_name) wine_get_dos_file_name = (void*)GetProcAddress(GetModuleHandleA("kernel32"), "wine_get_dos_file_name"); if (wine_get_dos_file_name) { dos_data_dir = wine_get_dos_file_name(unix_data_dir); if (dos_data_dir) { strcpyW(base_path, dos_data_dir); strcatW(base_path, build_tree ? sibling_mono : subdir_mono); HeapFree(GetProcessHeap(), 0, dos_data_dir); if (get_mono_path_from_folder(base_path, path, abi_version)) return TRUE; } } } /* Last: the registry */ return get_mono_path_from_registry(path, abi_version); } static void find_runtimes(void) { int abi_version, i; static const WCHAR libmono[] = {'\\','l','i','b','\\','m','o','n','o','\\',0}; static const WCHAR mscorlib[] = {'\\','m','s','c','o','r','l','i','b','.','d','l','l',0}; WCHAR mono_path[MAX_PATH], lib_path[MAX_PATH]; BOOL any_runtimes_found = FALSE; if (runtimes_initialized) return; EnterCriticalSection(&runtime_list_cs); if (runtimes_initialized) goto end; for (abi_version=NUM_ABI_VERSIONS; abi_version>0; abi_version--) { if (!get_mono_path(mono_path, abi_version)) continue; for (i=0; iref); TRACE("(%p) refcount=%u\n", iface, ref); return ref; } static ULONG WINAPI InstalledRuntimeEnum_Release(IEnumUnknown* iface) { struct InstalledRuntimeEnum *This = (struct InstalledRuntimeEnum*)iface; ULONG ref = InterlockedDecrement(&This->ref); TRACE("(%p) refcount=%u\n", iface, ref); if (ref == 0) { HeapFree(GetProcessHeap(), 0, This); } return ref; } static HRESULT WINAPI InstalledRuntimeEnum_Next(IEnumUnknown *iface, ULONG celt, IUnknown **rgelt, ULONG *pceltFetched) { struct InstalledRuntimeEnum *This = (struct InstalledRuntimeEnum*)iface; int num_fetched = 0; HRESULT hr=S_OK; IUnknown *item; TRACE("(%p,%u,%p,%p)\n", iface, celt, rgelt, pceltFetched); while (num_fetched < celt) { if (This->pos >= NUM_RUNTIMES) { hr = S_FALSE; break; } if (runtimes[This->pos].mono_abi_version) { item = (IUnknown*)&runtimes[This->pos]; IUnknown_AddRef(item); rgelt[num_fetched] = item; num_fetched++; } This->pos++; } if (pceltFetched) *pceltFetched = num_fetched; return hr; } static HRESULT WINAPI InstalledRuntimeEnum_Skip(IEnumUnknown *iface, ULONG celt) { struct InstalledRuntimeEnum *This = (struct InstalledRuntimeEnum*)iface; int num_fetched = 0; HRESULT hr=S_OK; TRACE("(%p,%u)\n", iface, celt); while (num_fetched < celt) { if (This->pos >= NUM_RUNTIMES) { hr = S_FALSE; break; } if (runtimes[This->pos].mono_abi_version) { num_fetched++; } This->pos++; } return hr; } static HRESULT WINAPI InstalledRuntimeEnum_Reset(IEnumUnknown *iface) { struct InstalledRuntimeEnum *This = (struct InstalledRuntimeEnum*)iface; TRACE("(%p)\n", iface); This->pos = 0; return S_OK; } static HRESULT WINAPI InstalledRuntimeEnum_Clone(IEnumUnknown *iface, IEnumUnknown **ppenum) { struct InstalledRuntimeEnum *This = (struct InstalledRuntimeEnum*)iface; struct InstalledRuntimeEnum *new_enum; TRACE("(%p)\n", iface); new_enum = HeapAlloc(GetProcessHeap(), 0, sizeof(*new_enum)); if (!new_enum) return E_OUTOFMEMORY; new_enum->Vtbl = &InstalledRuntimeEnum_Vtbl; new_enum->ref = 1; new_enum->pos = This->pos; *ppenum = (IEnumUnknown*)new_enum; return S_OK; } const struct IEnumUnknownVtbl InstalledRuntimeEnum_Vtbl = { InstalledRuntimeEnum_QueryInterface, InstalledRuntimeEnum_AddRef, InstalledRuntimeEnum_Release, InstalledRuntimeEnum_Next, InstalledRuntimeEnum_Skip, InstalledRuntimeEnum_Reset, InstalledRuntimeEnum_Clone }; struct CLRMetaHost { const struct ICLRMetaHostVtbl *CLRMetaHost_vtbl; }; static const struct CLRMetaHost GlobalCLRMetaHost; static HRESULT WINAPI CLRMetaHost_QueryInterface(ICLRMetaHost* iface, REFIID riid, void **ppvObject) { TRACE("%s %p\n", debugstr_guid(riid), ppvObject); if ( IsEqualGUID( riid, &IID_ICLRMetaHost ) || IsEqualGUID( riid, &IID_IUnknown ) ) { *ppvObject = iface; } else { FIXME("Unsupported interface %s\n", debugstr_guid(riid)); return E_NOINTERFACE; } ICLRMetaHost_AddRef( iface ); return S_OK; } static ULONG WINAPI CLRMetaHost_AddRef(ICLRMetaHost* iface) { return 2; } static ULONG WINAPI CLRMetaHost_Release(ICLRMetaHost* iface) { return 1; } static BOOL parse_runtime_version(LPCWSTR version, DWORD *major, DWORD *minor, DWORD *build) { *major = 0; *minor = 0; *build = 0; if (version[0] == 'v') { version++; if (!isdigit(*version)) return FALSE; while (isdigit(*version)) *major = *major * 10 + (*version++ - '0'); if (*version == 0) return TRUE; if (*version++ != '.' || !isdigit(*version)) return FALSE; while (isdigit(*version)) *minor = *minor * 10 + (*version++ - '0'); if (*version == 0) return TRUE; if (*version++ != '.' || !isdigit(*version)) return FALSE; while (isdigit(*version)) *build = *build * 10 + (*version++ - '0'); return *version == 0; } else return FALSE; } static HRESULT WINAPI CLRMetaHost_GetRuntime(ICLRMetaHost* iface, LPCWSTR pwzVersion, REFIID iid, LPVOID *ppRuntime) { int i; DWORD major, minor, build; TRACE("%s %s %p\n", debugstr_w(pwzVersion), debugstr_guid(iid), ppRuntime); if (!pwzVersion) return E_POINTER; if (!parse_runtime_version(pwzVersion, &major, &minor, &build)) { ERR("Cannot parse %s\n", debugstr_w(pwzVersion)); return CLR_E_SHIM_RUNTIME; } find_runtimes(); for (i=0; i= *pcchBuffer) MultiByteToWideChar(CP_UTF8, 0, version, -1, pwzBuffer, buffer_size); else hr = HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER); } } assembly_release(assembly); } return hr; } static HRESULT WINAPI CLRMetaHost_EnumerateInstalledRuntimes(ICLRMetaHost* iface, IEnumUnknown **ppEnumerator) { struct InstalledRuntimeEnum *new_enum; TRACE("%p\n", ppEnumerator); find_runtimes(); new_enum = HeapAlloc(GetProcessHeap(), 0, sizeof(*new_enum)); if (!new_enum) return E_OUTOFMEMORY; new_enum->Vtbl = &InstalledRuntimeEnum_Vtbl; new_enum->ref = 1; new_enum->pos = 0; *ppEnumerator = (IEnumUnknown*)new_enum; return S_OK; } static HRESULT WINAPI CLRMetaHost_EnumerateLoadedRuntimes(ICLRMetaHost* iface, HANDLE hndProcess, IEnumUnknown **ppEnumerator) { FIXME("%p %p\n", hndProcess, ppEnumerator); return E_NOTIMPL; } static HRESULT WINAPI CLRMetaHost_RequestRuntimeLoadedNotification(ICLRMetaHost* iface, RuntimeLoadedCallbackFnPtr pCallbackFunction) { FIXME("%p\n", pCallbackFunction); return E_NOTIMPL; } static HRESULT WINAPI CLRMetaHost_QueryLegacyV2RuntimeBinding(ICLRMetaHost* iface, REFIID riid, LPVOID *ppUnk) { FIXME("%s %p\n", debugstr_guid(riid), ppUnk); return E_NOTIMPL; } static HRESULT WINAPI CLRMetaHost_ExitProcess(ICLRMetaHost* iface, INT32 iExitCode) { FIXME("%i: stub\n", iExitCode); ExitProcess(iExitCode); } static const struct ICLRMetaHostVtbl CLRMetaHost_vtbl = { CLRMetaHost_QueryInterface, CLRMetaHost_AddRef, CLRMetaHost_Release, CLRMetaHost_GetRuntime, CLRMetaHost_GetVersionFromFile, CLRMetaHost_EnumerateInstalledRuntimes, CLRMetaHost_EnumerateLoadedRuntimes, CLRMetaHost_RequestRuntimeLoadedNotification, CLRMetaHost_QueryLegacyV2RuntimeBinding, CLRMetaHost_ExitProcess }; static const struct CLRMetaHost GlobalCLRMetaHost = { &CLRMetaHost_vtbl }; extern HRESULT CLRMetaHost_CreateInstance(REFIID riid, void **ppobj) { return ICLRMetaHost_QueryInterface((ICLRMetaHost*)&GlobalCLRMetaHost, riid, ppobj); } static MonoAssembly* mono_assembly_search_hook_fn(MonoAssemblyName *aname, char **assemblies_path, void *user_data) { loaded_mono *mono = user_data; HRESULT hr=S_OK; MonoAssembly *result=NULL; char *stringname=NULL; LPWSTR stringnameW; int stringnameW_size; IAssemblyCache *asmcache; ASSEMBLY_INFO info; WCHAR path[MAX_PATH]; char *pathA; MonoImageOpenStatus stat; static WCHAR fusiondll[] = {'f','u','s','i','o','n',0}; HMODULE hfusion=NULL; static HRESULT WINAPI (*pCreateAssemblyCache)(IAssemblyCache**,DWORD); stringname = mono->mono_stringify_assembly_name(aname); TRACE("%s\n", debugstr_a(stringname)); if (!stringname) return NULL; /* FIXME: We should search the given paths before the GAC. */ if (!pCreateAssemblyCache) { hr = LoadLibraryShim(fusiondll, NULL, NULL, &hfusion); if (SUCCEEDED(hr)) { pCreateAssemblyCache = (void*)GetProcAddress(hfusion, "CreateAssemblyCache"); if (!pCreateAssemblyCache) hr = E_FAIL; } } if (SUCCEEDED(hr)) hr = pCreateAssemblyCache(&asmcache, 0); if (SUCCEEDED(hr)) { stringnameW_size = MultiByteToWideChar(CP_UTF8, 0, stringname, -1, NULL, 0); stringnameW = HeapAlloc(GetProcessHeap(), 0, stringnameW_size * sizeof(WCHAR)); if (stringnameW) MultiByteToWideChar(CP_UTF8, 0, stringname, -1, stringnameW, stringnameW_size); else hr = E_OUTOFMEMORY; if (SUCCEEDED(hr)) { info.cbAssemblyInfo = sizeof(info); info.pszCurrentAssemblyPathBuf = path; info.cchBuf = MAX_PATH; path[0] = 0; hr = IAssemblyCache_QueryAssemblyInfo(asmcache, 0, stringnameW, &info); } HeapFree(GetProcessHeap(), 0, stringnameW); IAssemblyCache_Release(asmcache); } if (SUCCEEDED(hr)) { TRACE("found: %s\n", debugstr_w(path)); pathA = WtoA(path); if (pathA) { result = mono->mono_assembly_open(pathA, &stat); if (!result) ERR("Failed to load %s, status=%u\n", debugstr_w(path), stat); HeapFree(GetProcessHeap(), 0, pathA); } } mono->mono_free(stringname); return result; } HRESULT get_runtime_info(LPCWSTR exefile, LPCWSTR version, LPCWSTR config_file, DWORD startup_flags, DWORD runtimeinfo_flags, BOOL legacy, ICLRRuntimeInfo **result) { static const WCHAR dotconfig[] = {'.','c','o','n','f','i','g',0}; static const DWORD supported_startup_flags = 0; static const DWORD supported_runtime_flags = RUNTIME_INFO_UPGRADE_VERSION; int i; WCHAR local_version[MAX_PATH]; ULONG local_version_size = MAX_PATH; WCHAR local_config_file[MAX_PATH]; HRESULT hr; parsed_config_file parsed_config; if (startup_flags & ~supported_startup_flags) FIXME("unsupported startup flags %x\n", startup_flags & ~supported_startup_flags); if (runtimeinfo_flags & ~supported_runtime_flags) FIXME("unsupported runtimeinfo flags %x\n", runtimeinfo_flags & ~supported_runtime_flags); if (exefile && !config_file) { strcpyW(local_config_file, exefile); strcatW(local_config_file, dotconfig); config_file = local_config_file; } if (config_file) { int found=0; hr = parse_config_file(config_file, &parsed_config); if (SUCCEEDED(hr)) { supported_runtime *entry; LIST_FOR_EACH_ENTRY(entry, &parsed_config.supported_runtimes, supported_runtime, entry) { hr = CLRMetaHost_GetRuntime(0, entry->version, &IID_ICLRRuntimeInfo, (void**)result); if (SUCCEEDED(hr)) { found = 1; break; } } } else { WARN("failed to parse config file %s, hr=%x\n", debugstr_w(config_file), hr); } free_parsed_config_file(&parsed_config); if (found) return S_OK; } if (exefile && !version) { hr = CLRMetaHost_GetVersionFromFile(0, exefile, local_version, &local_version_size); version = local_version; if (FAILED(hr)) return hr; } if (version) { return CLRMetaHost_GetRuntime(0, version, &IID_ICLRRuntimeInfo, (void**)result); } if (runtimeinfo_flags & RUNTIME_INFO_UPGRADE_VERSION) { find_runtimes(); if (legacy) i = 2; else i = NUM_RUNTIMES; while (i--) { if (runtimes[i].mono_abi_version) return IUnknown_QueryInterface((IUnknown*)&runtimes[i], &IID_ICLRRuntimeInfo, (void**)result); } ERR("No %s.NET runtime installed\n", legacy ? "legacy " : ""); return CLR_E_SHIM_RUNTIME; } return CLR_E_SHIM_RUNTIME; } HRESULT force_get_runtime_info(ICLRRuntimeInfo **result) { return IUnknown_QueryInterface((IUnknown*)&runtimes[0], &IID_ICLRRuntimeInfo, (void**)result); }