// // Author: Jonathan Blow // Version: 1 // Date: 31 August, 2018 // // This code is released under the MIT license, which you can find at // // https://opensource.org/licenses/MIT // // // // See the comments for how to use this library just below the includes. // #include #include // For _get_osfhandle #pragma comment(lib, "Advapi32.lib") #pragma comment(lib, "Ole32.lib") #pragma comment(lib, "OleAut32.lib") // // HOW TO USE THIS CODE // // The purpose of this file is to find the folders that contain libraries // you may need to link against, on Windows, if you are linking with any // compiled C or C++ code. This will be necessary for many non-C++ programming // language environments that want to provide compatibility. // // We find the place where the Visual Studio libraries live (for example, // libvcruntime.lib), where the linker and compiler executables live // (for example, link.exe), and where the Windows SDK libraries reside // (kernel32.lib, libucrt.lib). // // We all wish you didn't have to worry about so many weird dependencies, // but we don't really have a choice about this, sadly. // // I don't claim that this is the absolute best way to solve this problem, // and so far we punt on things (if you have multiple versions of Visual Studio // installed, we return the first one, rather than the newest). But it // will solve the basic problem for you as simply as I know how to do it, // and because there isn't too much code here, it's easy to modify and expand. // // // Here is the API you need to know about: // gb_global gbAllocator mc_allocator = permanent_allocator(); struct Find_Result { int windows_sdk_version; // Zero if no Windows SDK found. String windows_sdk_bin_path; String windows_sdk_um_library_path; String windows_sdk_ucrt_library_path; String vs_exe_path; String vs_library_path; }; gb_internal String mc_wstring_to_string(wchar_t const *str) { return string16_to_string(mc_allocator, make_string16_c(cast(u16 *)str)); } gb_internal String16 mc_string_to_wstring(String str) { return string_to_string16(mc_allocator, str); } gb_internal String mc_concat(String a, String b) { return concatenate_strings(mc_allocator, a, b); } gb_internal String mc_concat(String a, String b, String c) { return concatenate3_strings(mc_allocator, a, b, c); } gb_internal String mc_concat(String a, String b, String c, String d) { return concatenate4_strings(mc_allocator, a, b, c, d); } gb_internal String mc_get_env(String key) { char const * value = gb_get_env((char const *)key.text, mc_allocator); return make_string_c(value); } gb_internal void mc_free(String str) { if (str.len) gb_free(mc_allocator, str.text); } gb_internal void mc_free(String16 str) { if (str.len) gb_free(mc_allocator, str.text); } typedef struct _MC_Find_Data { DWORD file_attributes; String filename; } MC_Find_Data; gb_internal HANDLE mc_find_first(String wildcard, MC_Find_Data *find_data) { WIN32_FIND_DATAW _find_data; String16 wildcard_wide = mc_string_to_wstring(wildcard); defer (mc_free(wildcard_wide)); HANDLE handle = FindFirstFileW(cast(wchar_t *)wildcard_wide.text, &_find_data); if (handle == INVALID_HANDLE_VALUE) return INVALID_HANDLE_VALUE; find_data->file_attributes = _find_data.dwFileAttributes; find_data->filename = mc_wstring_to_string(_find_data.cFileName); return handle; } gb_internal bool mc_find_next(HANDLE handle, MC_Find_Data *find_data) { WIN32_FIND_DATAW _find_data; bool success = !!FindNextFileW(handle, &_find_data); find_data->file_attributes = _find_data.dwFileAttributes; find_data->filename = mc_wstring_to_string(_find_data.cFileName); return success; } gb_internal void mc_find_close(HANDLE handle) { FindClose(handle); } // // Call find_visual_studio_and_windows_sdk, look at the resulting // paths, then call free_resources on the result. // // Everything else in this file is implementation details that you // don't need to care about. // // // This file was about 400 lines before we started adding these comments. // You might think that's way too much code to do something as simple // as finding a few library and executable paths. I agree. However, // Microsoft's own solution to this problem, called "vswhere", is a // mere EIGHT THOUSAND LINE PROGRAM, spread across 70 files, // that they posted to github *unironically*. // // I am not making this up: https://github.com/Microsoft/vswhere // // Several people have therefore found the need to solve this problem // themselves. We referred to some of these other solutions when // figuring out what to do, most prominently ziglang's version, // by Ryan Saunderson. // // I hate this kind of code. The fact that we have to do this at all // is stupid, and the actual maneuvers we need to go through // are just painful. If programming were like this all the time, // I would quit. // // Because this is such an absurd waste of time, I felt it would be // useful to package the code in an easily-reusable way, in the // style of the stb libraries. We haven't gone as all-out as some // of the stb libraries do (which compile in C with no includes, often). // For this version you need C++ and the headers at the top of the file. // // We return the strings as Windows wide character strings. Aesthetically // I don't like that (I think most sane programs are UTF-8 internally), // but apparently, not all valid Windows file paths can even be converted // correctly to UTF-8. So have fun with that. It felt safest and simplest // to stay with wchar_t since all of this code is fully ensconced in // Windows crazy-land. // // One other shortcut I took is that this is hardcoded to return the // folders for x64 libraries. If you want x86 or arm, you can make // slight edits to the code below, or, if enough people want this, // I can work it in here. // // COM objects for the ridiculous Microsoft craziness. typedef WCHAR* BSTR; typedef const WCHAR* LPCOLESTR; struct DECLSPEC_UUID("B41463C3-8866-43B5-BC33-2B0676F7F42E") DECLSPEC_NOVTABLE ISetupInstance : public IUnknown { virtual HRESULT STDMETHODCALLTYPE GetInstanceId(BSTR* pbstrInstanceId) = 0; virtual HRESULT STDMETHODCALLTYPE GetInstallDate(LPFILETIME pInstallDate) = 0; virtual HRESULT STDMETHODCALLTYPE GetInstallationName(BSTR* pbstrInstallationName) = 0; virtual HRESULT STDMETHODCALLTYPE GetInstallationPath(BSTR* pbstrInstallationPath) = 0; virtual HRESULT STDMETHODCALLTYPE GetInstallationVersion(BSTR* pbstrInstallationVersion) = 0; virtual HRESULT STDMETHODCALLTYPE GetDisplayName(LCID lcid, BSTR* pbstrDisplayName) = 0; virtual HRESULT STDMETHODCALLTYPE GetDescription(LCID lcid, BSTR* pbstrDescription) = 0; virtual HRESULT STDMETHODCALLTYPE ResolvePath(LPCOLESTR pwszRelativePath, BSTR* pbstrAbsolutePath) = 0; }; struct DECLSPEC_UUID("6380BCFF-41D3-4B2E-8B2E-BF8A6810C848") DECLSPEC_NOVTABLE IEnumSetupInstances : public IUnknown { virtual HRESULT STDMETHODCALLTYPE Next(ULONG celt, ISetupInstance** rgelt, ULONG* pceltFetched) = 0; virtual HRESULT STDMETHODCALLTYPE Skip(ULONG celt) = 0; virtual HRESULT STDMETHODCALLTYPE Reset(void) = 0; virtual HRESULT STDMETHODCALLTYPE Clone(IEnumSetupInstances** ppenum) = 0; }; struct DECLSPEC_UUID("42843719-DB4C-46C2-8E7C-64F1816EFD5B") DECLSPEC_NOVTABLE ISetupConfiguration : public IUnknown { virtual HRESULT STDMETHODCALLTYPE EnumInstances(IEnumSetupInstances** ppEnumInstances) = 0; virtual HRESULT STDMETHODCALLTYPE GetInstanceForCurrentProcess(ISetupInstance** ppInstance) = 0; virtual HRESULT STDMETHODCALLTYPE GetInstanceForPath(LPCWSTR wzPath, ISetupInstance** ppInstance) = 0; }; // The beginning of the actual code that does things. struct Version_Data { i32 best_version[4]; String best_name; }; typedef void (*MC_Visit_Proc)(String short_name, String full_name, Version_Data *data); gb_internal bool mc_visit_files(String dir_name, Version_Data *data, MC_Visit_Proc proc) { // Visit everything in one folder (non-recursively). If it's a directory // that doesn't start with ".", call the visit proc on it. The visit proc // will see if the filename conforms to the expected versioning pattern. String wildcard_name = mc_concat(dir_name, str_lit("*")); defer (mc_free(wildcard_name)); MC_Find_Data find_data; HANDLE handle = mc_find_first(wildcard_name, &find_data); if (handle == INVALID_HANDLE_VALUE) return false; bool success = true; while (success) { if ((find_data.file_attributes & FILE_ATTRIBUTE_DIRECTORY) && (find_data.filename[0] != '.')) { String full_name = mc_concat(dir_name, find_data.filename); defer (mc_free(full_name)); proc(find_data.filename, full_name, data); } success = mc_find_next(handle, &find_data); if (!success) break; } mc_find_close(handle); return true; } gb_internal String find_windows_kit_root(HKEY key, String const version) { // Given a key to an already opened registry entry, // get the value stored under the 'version' subkey. // If that's not the right terminology, hey, I never do registry stuff. char *version_str = (char*)version.text; DWORD required_length; auto rc = RegQueryValueExA(key, version_str, NULL, NULL, NULL, &required_length); if (rc != 0) return {}; DWORD length = required_length + 2; // The +2 is for the maybe optional zero later on. Probably we are over-allocating. char *c_str = gb_alloc_array(mc_allocator, char, length); rc = RegQueryValueExA(key, version_str, NULL, NULL, (LPBYTE)c_str, &length); // We know that version is zero-terminated... if (rc != 0) return {}; // The documentation says that if the string for some reason was not stored // with zero-termination, we need to manually terminate it. Sigh!! if (c_str[required_length]) { c_str[required_length+1] = 0; } String value = make_string_c(c_str); return value; } gb_internal void win10_best(String short_name, String full_name, Version_Data *data) { // Find the Windows 10 subdirectory with the highest version number. int i0, i1, i2, i3; auto success = sscanf_s((const char *const)short_name.text, "%d.%d.%d.%d", &i0, &i1, &i2, &i3); if (success < 4) return; if (i0 < data->best_version[0]) return; else if (i0 == data->best_version[0]) { if (i1 < data->best_version[1]) return; else if (i1 == data->best_version[1]) { if (i2 < data->best_version[2]) return; else if (i2 == data->best_version[2]) { if (i3 < data->best_version[3]) return; } } } // we have to copy_string and free here because visit_files free's the full_name string // after we execute this function, so Win*_Data would contain an invalid pointer. if (data->best_name.len) mc_free(data->best_name); data->best_name = copy_string(mc_allocator, full_name); if (data->best_name.len) { data->best_version[0] = i0; data->best_version[1] = i1; data->best_version[2] = i2; data->best_version[3] = i3; } } gb_internal void find_windows_kit_paths(Find_Result *result) { bool sdk_found = false; HKEY main_key; auto rc = RegOpenKeyExA(HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\Windows Kits\\Installed Roots", 0, KEY_QUERY_VALUE | KEY_WOW64_32KEY | KEY_ENUMERATE_SUB_KEYS, &main_key); if (rc != S_OK) return; defer (RegCloseKey(main_key)); // Look for a Windows 10 entry. String windows10_root = find_windows_kit_root(main_key, str_lit("KitsRoot10")); if (windows10_root.len) { defer (mc_free(windows10_root)); String windows10_lib = mc_concat(windows10_root, str_lit("Lib\\")); Version_Data data_lib = {0}; mc_visit_files(windows10_lib, &data_lib, win10_best); defer (mc_free(windows10_lib)); defer (mc_free(data_lib.best_name)); String windows10_bin = mc_concat(windows10_root, str_lit("bin\\")); Version_Data data_bin = {0}; mc_visit_files(windows10_bin, &data_bin, win10_best); defer (mc_free(windows10_bin)); defer (mc_free(data_bin.best_name)); if (data_lib.best_name.len && data_bin.best_name.len) { if (build_context.metrics.arch == TargetArch_amd64) { result->windows_sdk_um_library_path = mc_concat(data_lib.best_name, str_lit("\\um\\x64\\")); result->windows_sdk_ucrt_library_path = mc_concat(data_lib.best_name, str_lit("\\ucrt\\x64\\")); result->windows_sdk_bin_path = mc_concat(data_bin.best_name, str_lit("\\x64\\")); sdk_found = true; } else if (build_context.metrics.arch == TargetArch_i386) { result->windows_sdk_um_library_path = mc_concat(data_lib.best_name, str_lit("\\um\\x86\\")); result->windows_sdk_ucrt_library_path = mc_concat(data_lib.best_name, str_lit("\\ucrt\\x86\\")); result->windows_sdk_bin_path = mc_concat(data_bin.best_name, str_lit("\\x86\\")); sdk_found = true; } } } if (sdk_found) { result->windows_sdk_version = 10; } } gb_internal bool find_visual_studio_by_fighting_through_microsoft_craziness(Find_Result *result) { // The name of this procedure is kind of cryptic. Its purpose is // to fight through Microsoft craziness. The things that the fine // Visual Studio team want you to do, JUST TO FIND A SINGLE FOLDER // THAT EVERYONE NEEDS TO FIND, are ridiculous garbage. // For earlier versions of Visual Studio, you'd find this information in the registry, // similarly to the Windows Kits above. But no, now it's the future, so to ask the // question "Where is the Visual Studio folder?" you have to do a bunch of COM object // instantiation, enumeration, and querying. (For extra bonus points, try doing this in // a new, underdeveloped programming language where you don't have COM routines up // and running yet. So fun.) // // If all this COM object instantiation, enumeration, and querying doesn't give us // a useful result, we drop back to the registry-checking method. auto rc = CoInitialize(NULL); // "Subsequent valid calls return false." So ignore false. if (rc != S_OK) return false; GUID my_uid = {0x42843719, 0xDB4C, 0x46C2, {0x8E, 0x7C, 0x64, 0xF1, 0x81, 0x6E, 0xFD, 0x5B}}; GUID CLSID_SetupConfiguration = {0x177F0C4A, 0x1CD3, 0x4DE7, {0xA3, 0x2C, 0x71, 0xDB, 0xBB, 0x9F, 0xA3, 0x6D}}; ISetupConfiguration *config = NULL; HRESULT hr = 0; hr = CoCreateInstance(CLSID_SetupConfiguration, NULL, CLSCTX_INPROC_SERVER, my_uid, (void **)&config); if (hr == 0) { defer (config->Release()); IEnumSetupInstances *instances = NULL; hr = config->EnumInstances(&instances); if (hr != 0) return false; if (!instances) return false; defer (instances->Release()); for (;;) { ULONG found = 0; ISetupInstance *instance = NULL; auto hr = instances->Next(1, &instance, &found); if (hr != S_OK) break; defer (instance->Release()); wchar_t* inst_path_wide; hr = instance->GetInstallationPath(&inst_path_wide); if (hr != S_OK) continue; defer (SysFreeString(inst_path_wide)); String inst_path = mc_wstring_to_string(inst_path_wide); defer (mc_free(inst_path)); String tools_filename = mc_concat(inst_path, str_lit("\\VC\\Auxiliary\\Build\\Microsoft.VCToolsVersion.default.txt")); defer (mc_free(tools_filename)); gbFileContents tool_version = gb_file_read_contents(mc_allocator, true, (const char*)tools_filename.text); defer (gb_file_free_contents(&tool_version)); String version_string = make_string((const u8*)tool_version.data, tool_version.size); version_string = string_trim_whitespace(version_string); String base_path = mc_concat(inst_path, str_lit("\\VC\\Tools\\MSVC\\"), version_string); defer (mc_free(base_path)); String library_path = {}; if (build_context.metrics.arch == TargetArch_amd64) { library_path = mc_concat(base_path, str_lit("\\lib\\x64\\")); } else if (build_context.metrics.arch == TargetArch_i386) { library_path = mc_concat(base_path, str_lit("\\lib\\x86\\")); } else { continue; } String library_file = mc_concat(library_path, str_lit("vcruntime.lib")); if (gb_file_exists((const char*)library_file.text)) { if (build_context.metrics.arch == TargetArch_amd64) { result->vs_exe_path = mc_concat(base_path, str_lit("\\bin\\Hostx64\\x64\\")); } else if (build_context.metrics.arch == TargetArch_i386) { result->vs_exe_path = mc_concat(base_path, str_lit("\\bin\\Hostx86\\x86\\")); } else { continue; } result->vs_library_path = library_path; return true; } /* Ryan Saunderson said: "Clang uses the 'SetupInstance->GetInstallationVersion' / ISetupHelper->ParseVersion to find the newest version and then reads the tools file to define the tools path - which is definitely better than what i did." So... @Incomplete: Should probably pick the newest version... */ } } // If we get here, we didn't find Visual Studio 2017. Try earlier versions. { HKEY vs7_key; rc = RegOpenKeyExA(HKEY_LOCAL_MACHINE, "SOFTWARE\\Microsoft\\VisualStudio\\SxS\\VS7", 0, KEY_QUERY_VALUE | KEY_WOW64_32KEY, &vs7_key); if (rc != S_OK) return false; defer (RegCloseKey(vs7_key)); // Hardcoded search for 4 prior Visual Studio versions. Is there something better to do here? char const *versions[] = { "14.0", "13.0", "12.0", "11.0", "10.0", "9.0", }; const int NUM_VERSIONS = sizeof(versions) / sizeof(versions[0]); for (int i = 0; i < NUM_VERSIONS; i++) { char const *v = versions[i]; DWORD dw_type; DWORD required_length; auto rc = RegQueryValueExA(vs7_key, v, NULL, &dw_type, NULL, &required_length); if ((rc == ERROR_FILE_NOT_FOUND) || (dw_type != REG_SZ)) { continue; } DWORD length = required_length + 2; // The +2 is for the maybe optional zero later on. Probably we are over-allocating. char *c_str = gb_alloc_array(mc_allocator, char, length); rc = RegQueryValueExA(vs7_key, v, NULL, NULL, (LPBYTE)c_str, &length); if (rc != 0) continue; if (c_str[required_length]) { c_str[required_length+1] = 0; } String base_path = make_string_c(c_str); String lib_path = {}; if (build_context.metrics.arch == TargetArch_amd64) { lib_path = mc_concat(base_path, str_lit("VC\\Lib\\amd64\\")); } else if (build_context.metrics.arch == TargetArch_i386) { lib_path = mc_concat(base_path, str_lit("VC\\Lib\\")); } else { continue; } // Check to see whether a vcruntime.lib actually exists here. String vcruntime_filename = mc_concat(lib_path, str_lit("vcruntime.lib")); defer (mc_free(vcruntime_filename)); if (gb_file_exists((const char*)vcruntime_filename.text)) { if (build_context.metrics.arch == TargetArch_amd64) { result->vs_exe_path = mc_concat(base_path, str_lit("VC\\bin\\")); } else if (build_context.metrics.arch == TargetArch_i386) { result->vs_exe_path = mc_concat(base_path, str_lit("VC\\bin\\x86_amd64\\")); } else { continue; } result->vs_library_path = lib_path; return true; } mc_free(lib_path); } // If we get here, we failed to find anything. } return false; } // NOTE(WalterPlinge): Environment variables can help to find Visual C++ and WinSDK paths for both // official and portable installations (like mmozeiko's portable msvc script). gb_internal void find_windows_kit_paths_from_env_vars(Find_Result *result) { if (build_context.metrics.arch != TargetArch_amd64 && build_context.metrics.arch != TargetArch_i386) { return; } // We can find windows sdk lib dir using the following combination of env vars: // (WindowsSdkDir or UniversalCRTSdkDir) and (WindowsSDKVersion or WindowsSDKLibVersion) bool sdk_lib_found = false; // We can find windows sdk bin dir using the following combination of env vars: // (WindowsSdkVerBinPath) or ((WindowsSdkBinPath or WindowsSdkDir or UniversalCRTSdkDir) and (WindowsSDKVersion || WindowsSDKLibVersion)) bool sdk_bin_found = false; // These appear to be suitable env vars used by Visual Studio String win_sdk_ver_env = mc_get_env(str_lit("WindowsSDKVersion")); String win_sdk_lib_ver_env = mc_get_env(str_lit("WindowsSDKLibVersion")); String win_sdk_dir_env = mc_get_env(str_lit("WindowsSdkDir")); String crt_sdk_dir_env = mc_get_env(str_lit("UniversalCRTSdkDir")); String win_sdk_bin_path_env = mc_get_env(str_lit("WindowsSdkBinPath")); String win_sdk_ver_bin_path_env = mc_get_env(str_lit("WindowsSdkVerBinPath")); defer ({ mc_free(win_sdk_ver_env); mc_free(win_sdk_lib_ver_env); mc_free(win_sdk_dir_env); mc_free(crt_sdk_dir_env); mc_free(win_sdk_bin_path_env); mc_free(win_sdk_ver_bin_path_env); }); if (win_sdk_ver_bin_path_env.len || ((win_sdk_bin_path_env.len || win_sdk_dir_env.len || crt_sdk_dir_env.len) && (win_sdk_ver_env.len || win_sdk_lib_ver_env.len))) { String bin; defer (mc_free(bin)); if (win_sdk_ver_bin_path_env.len) { String dir = win_sdk_ver_bin_path_env; // Add trailing '\' in case it was missing bin = mc_concat(dir, dir[dir.len - 1] != '\\' ? str_lit("\\") : str_lit("")); } else { String dir = win_sdk_bin_path_env.len ? win_sdk_bin_path_env : win_sdk_dir_env.len ? win_sdk_dir_env : crt_sdk_dir_env; String ver = win_sdk_ver_env.len ? win_sdk_ver_env : win_sdk_lib_ver_env; // Add trailing '\' in case it was missing dir = mc_concat(dir, dir[dir.len - 1] != '\\' ? str_lit("\\") : str_lit("")); ver = mc_concat(ver, ver[ver.len - 1] != '\\' ? str_lit("\\") : str_lit("")); defer (mc_free(dir)); defer (mc_free(ver)); // Append "bin" for win_sdk_dir_env and crt_sdk_dir_env String dir_bin = mc_concat(dir, win_sdk_bin_path_env.len ? str_lit("") : str_lit("bin\\")); defer (mc_free(dir_bin)); bin = mc_concat(dir_bin, ver); } if (build_context.metrics.arch == TargetArch_amd64) { result->windows_sdk_bin_path = mc_concat(bin, str_lit("x64\\")); sdk_bin_found = true; } else if (build_context.metrics.arch == TargetArch_i386) { result->windows_sdk_bin_path = mc_concat(bin, str_lit("x86\\")); sdk_bin_found = true; } } // NOTE(WalterPlinge): If any combination is found, let's just assume they are correct if ((win_sdk_ver_env.len || win_sdk_lib_ver_env.len) && (win_sdk_dir_env.len || crt_sdk_dir_env.len)) { String dir = win_sdk_dir_env.len ? win_sdk_dir_env : crt_sdk_dir_env; String ver = win_sdk_ver_env.len ? win_sdk_ver_env : win_sdk_lib_ver_env; // Add trailing '\' in case it was missing dir = mc_concat(dir, dir[dir.len - 1] != '\\' ? str_lit("\\") : str_lit("")); ver = mc_concat(ver, ver[ver.len - 1] != '\\' ? str_lit("\\") : str_lit("")); defer (mc_free(dir)); defer (mc_free(ver)); if (build_context.metrics.arch == TargetArch_amd64) { result->windows_sdk_um_library_path = mc_concat(dir, str_lit("Lib\\"), ver, str_lit("um\\x64\\")); result->windows_sdk_ucrt_library_path = mc_concat(dir, str_lit("Lib\\"), ver, str_lit("ucrt\\x64\\")); sdk_lib_found = true; } else if (build_context.metrics.arch == TargetArch_i386) { result->windows_sdk_um_library_path = mc_concat(dir, str_lit("Lib\\"), ver, str_lit("um\\x86\\")); result->windows_sdk_ucrt_library_path = mc_concat(dir, str_lit("Lib\\"), ver, str_lit("ucrt\\x86\\")); sdk_lib_found = true; } } // If we haven't found it yet, we can loop through LIB for specific folders //? This may not be robust enough using `um\x64` and `ucrt\x64` if (!sdk_lib_found) { String lib = mc_get_env(str_lit("LIB")); defer (mc_free(lib)); if (lib.len) { // NOTE(WalterPlinge): I don't know if there's a chance for the LIB variable // to be set without a trailing '\' (apart from manually), so we can just // check paths without it (see use of `String end` in the loop below) String um_dir = build_context.metrics.arch == TargetArch_amd64 ? str_lit("um\\x64") : str_lit("um\\x86"); String ucrt_dir = build_context.metrics.arch == TargetArch_amd64 ? str_lit("ucrt\\x64") : str_lit("ucrt\\x86"); isize lo = {0}; isize hi = {0}; for (isize c = 0; c <= lib.len; c += 1) { if (c != lib.len && lib[c] != ';') { continue; } hi = c; defer (lo = hi + 1); // Skip when there are two ;; in a row if (lo == hi) { continue; } String dir = substring(lib, lo, hi); // Remove the last slash so we can match with the strings above String end = dir[dir.len - 1] == '\\' ? substring(dir, 0, dir.len - 1) : substring(dir, 0, dir.len); if (string_ends_with(end, um_dir)) { result->windows_sdk_um_library_path = mc_concat(end, str_lit("\\")); } else if (string_ends_with(end, ucrt_dir)) { result->windows_sdk_ucrt_library_path = mc_concat(end, str_lit("\\")); } if (result->windows_sdk_um_library_path.len && result->windows_sdk_ucrt_library_path.len) { sdk_lib_found = true; break; } } } } // NOTE(WalterPlinge): So far this function assumes it will only be called if MSVC was // installed using mmozeiko's portable msvc script, which uses the windows 10 sdk. // This may need to be changed later if it ends up causing problems. if (sdk_bin_found && sdk_lib_found) { result->windows_sdk_version = 10; } } // NOTE(WalterPlinge): Environment variables can help to find Visual C++ and WinSDK paths for both // official and portable installations (like mmozeiko's portable msvc script). This will only use // the first paths it finds, and won't overwrite any values that `result` already has. gb_internal void find_visual_studio_paths_from_env_vars(Find_Result *result) { if (build_context.metrics.arch != TargetArch_amd64 && build_context.metrics.arch != TargetArch_i386) { return; } bool vs_found = false; // We can find visual studio using VCToolsInstallDir String vctid = mc_get_env(str_lit("VCToolsInstallDir")); defer (mc_free(vctid)); if (vctid.len) { String exe = build_context.metrics.arch == TargetArch_amd64 ? str_lit("bin\\Hostx64\\x64\\") : str_lit("bin\\Hostx86\\x86\\"); String lib = build_context.metrics.arch == TargetArch_amd64 ? str_lit("lib\\x64\\") : str_lit("lib\\x86\\"); if (string_ends_with(vctid, str_lit("\\"))) { result->vs_exe_path = mc_concat(vctid, exe); result->vs_library_path = mc_concat(vctid, lib); } else { result->vs_exe_path = mc_concat(vctid, str_lit("\\"), exe); result->vs_library_path = mc_concat(vctid, str_lit("\\"), lib); } vs_found = true; } // If we haven't found it yet, we can loop through Path for specific folders if (!vs_found) { String path = mc_get_env(str_lit("Path")); defer (mc_free(path)); if (path.len) { String exe = build_context.metrics.arch == TargetArch_amd64 ? str_lit("bin\\Hostx64\\x64") : str_lit("bin\\Hostx86\\x86"); // The environment variable may have an uppercase X even though the folder is lowercase String exe2 = build_context.metrics.arch == TargetArch_amd64 ? str_lit("bin\\HostX64\\x64") : str_lit("bin\\HostX86\\x86"); String lib = build_context.metrics.arch == TargetArch_amd64 ? str_lit("lib\\x64") : str_lit("lib\\x86"); isize lo = {0}; isize hi = {0}; for (isize c = 0; c <= path.len; c += 1) { if (c != path.len && path[c] != ';') { continue; } hi = c; defer (lo = hi + 1); // Skip when there are two ;; in a row if (lo == hi) { continue; } String dir = substring(path, lo, hi); // Remove the last slash so we can match with the strings above String end = dir[dir.len - 1] == '\\' ? substring(dir, 0, dir.len - 1) : substring(dir, 0, dir.len); // check if cl.exe and link.exe exist in this folder String cl = mc_concat(end, str_lit("\\cl.exe")); String link = mc_concat(end, str_lit("\\link.exe")); defer (mc_free(cl)); defer (mc_free(link)); if (!string_ends_with(end, exe) && !string_ends_with(end, exe2)) { continue; } if (!gb_file_exists((char *)cl.text) || !gb_file_exists((char *)link.text)) { continue; } String root = substring(end, 0, end.len - exe.len); result->vs_exe_path = mc_concat(end, str_lit("\\")); result->vs_library_path = mc_concat(root, lib, str_lit("\\")); vs_found = true; break; } } } } gb_internal Find_Result find_visual_studio_and_windows_sdk() { Find_Result r = {}; find_windows_kit_paths(&r); find_visual_studio_by_fighting_through_microsoft_craziness(&r); bool sdk_found = r.windows_sdk_bin_path.len && r.windows_sdk_um_library_path.len && r.windows_sdk_ucrt_library_path.len ; bool vs_found = r.vs_exe_path.len && r.vs_library_path.len ; if (!sdk_found) { find_windows_kit_paths_from_env_vars(&r); } if (!vs_found) { find_visual_studio_paths_from_env_vars(&r); } #if 0 printf("windows_sdk_bin_path: %.*s\n", LIT(r.windows_sdk_bin_path)); printf("windows_sdk_um_library_path: %.*s\n", LIT(r.windows_sdk_um_library_path)); printf("windows_sdk_ucrt_library_path: %.*s\n", LIT(r.windows_sdk_ucrt_library_path)); printf("vs_exe_path: %.*s\n", LIT(r.vs_exe_path)); printf("vs_library_path: %.*s\n", LIT(r.vs_library_path)); gb_exit(1); #endif return r; }