According to cppreference.com, getenv_s gets supported since C11

errno_t getenv_s( size_t *restrict len, char *restrict value,
                  rsize_t valuesz, const char *restrict name );

With MinGW-w64 8.1, g++ reports an error with both #include with cstdlib and stdlib.h

use of undeclared identifier 'getenv_s'; did you mean '_wgetenv_s'?
    errcode = getenv_s(&envsize, NULL, 0, name);

I wonder why MinGW-w64 g++ seems not to expose microsoft ucrt's C11 getenv_s?

In c++, do we already have a portable way to retrieve environment variables safely?

  • getenv ? – largest_prime_is_463035818 Aug 18 '18 at 5:39
  • @user463035818 Do you think when retrieving an environment variable, there is no need to be copied explicitly like in C11 getenv_s? – sandthorn Aug 18 '18 at 5:47
  • not sure what you mean exactly with "copied explicitly", so no i dont think so ;). You are worried by getenv returning a raw pointer? – largest_prime_is_463035818 Aug 18 '18 at 5:54
  • C and C++ are different languages – M.M Aug 18 '18 at 7:59
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    Currently <sec_api/stdlib_s.h> includes <stdlib.h> rather than the other way around since Microsoft's "Secure CRT" API is optional rather than required in mingw-w64, so it's "opt-in" by including the appropriate implementation-specific header. As a result, using <cstdlib> in C++ won't include the secure functions, and you'll need to include the implementation-specific <sec_api/stdlib_s.h> for the secure versions of the functions normally declared in C's <stdlib.h>. – user539810 Aug 22 '18 at 1:43


The originally amended answer below is not entirely correct. Currently there is no declaration for getenv_s in <sec_api/stdlib_s.h> on MinGW-w64 implementations, but you can declare it yourself:

#ifdef __cplusplus
extern "C" {

#include <sec_api/stdlib_s.h> /* errno_t, size_t */
errno_t getenv_s(
    size_t     *ret_required_buf_size,
    char       *buf,
    size_t      buf_size_in_bytes,
    const char *name

 * You can omit this section if you don't want to use the safer
 * C++ template function in your C++ code.
#ifdef __cplusplus
extern "C++" {
  template <size_t size>
      size_t *ret_required_buf_size,
      char (&buf)[size],
      const char *name
  ) { return getenv_s(ret_required_buf_size, buf, size, name); }

#ifdef __cplusplus

On MSVC, you'd still just use #include <stdlib.h> as getenv_s is declared there.

There are also several other C++ template functions missing from the <sec_api/stdlib_s.h> already, presumably due to lack of need, and the lack of declaration for getenv_s entirely is perhaps just something nobody needed as getenv worked just fine.

It's worth mentioning that there is a Windows-only function called _dupenv_s that is much easier to use in place of getenv_s, and you'd just free the memory using the standard free function. It is declared in <sec_api/stdlib_s.h>, so you can use it without issue.

Amended original answer:

At the time of this answer, MinGW-w64 built from source allows you to enable or disable the exposure of the secure CRT functions by default, but even when enabled, it does not appear to mark most standard C functions with secure replacements as "deprecated" the way that Visual C++'s CRT headers do (actually, it appears that it does mark some of them as deprecated, but the macros expand to nothing in the build I'm using).

To more directly address the question, the MinGW-w64 implementation currently stores the prototypes for the secure CRT functions in a separate header file in the sec_api directory, and that header file is not included from the standard C header, which means the corresponding C++ header <cstdlib> will not declare the functions either since it includes only the standard header.

Instead, you need to explicitly include the C headers you need such as <sec_api/stdlib_s.h>, <sec_api/stdio_s.h>, etc., which will only declare the functions if the secure API has been enabled (i.e. MINGW_HAS_SECURE_API is defined to 1 in _mingw.h). As the functions are likely available for linking, you can just use #define MINGW_HAS_SECURE_API 1 before any includes to enable the use of the secure functions that are declared, or declare the functions yourself in the event that they're undeclared.

I feel it's worth mentioning that many, though not all, of the C++-only template functions such as

// #include <sec_api/string_s.h> in MinGW-w64.
// #include <string.h> (C) or <cstring> (C++) in MSVC.
template <size_t size>
errno_t strcpy_s(
    char      (&dest)[size],
    const char *src

are declared and implemented.

Based on examples in Microsoft's documentation and preprocessor output in the case of MinGW-w64, both implementations place the secure functions in the global C++ namespace, not the std namespace (e.g. strcpy_s in its fully qualified form is ::strcpy_s) as they're not standard C++ functions.

  • 1
    @sandthorn You keep writing "C11", but the fact is that any interest in the _s functions is limited in the C world. MSVC provides those functions, but it's not a C11-compliant compiler because MSVC uses an "invalid parameter handler" with a different function signature than C11's "runtime-constraint handler" (e.g. set_constraint_handler_s and constraint_handler_t don't exist in MSVC; it uses _set_invalid_parameter_handler instead). – user539810 Aug 27 '18 at 15:47
  • 1
    (continued) If anything, getenv_s is "portable" in that it will work with any Windows compiler that relies upon the MSVCRT C runtime library like MinGW-w64 does. The lack of a getenv_s declaration in the header file is probably just an oversight as the function still works properly if you provide a declaration before its use because MinGW-w64 uses MSVCRT. The optional bounds-checking API of C11 is still controversial and its removal has been proposed. – user539810 Aug 27 '18 at 15:52
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    @sandthorn The bounds-checking API is very effective, but it means a lot of runtime checks every time the program is executed. Instead, these checks should be done at testing time using tools like those listed in the "Alternatives" section of my last link, so the performance hit is minimal. The last link also summarizes the reasons discussed in the report above that section before concluding the feature should be removed, but if you want more info, just browse through the sections that interest you. – user539810 Aug 27 '18 at 22:37
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    @sandthorn "Runtime input" should indeed be carefully handled, but the safe API just gets in the way. gets_s for example will completely ignore a line that you enter if the buffer size you specify is too small, unlike fgets. Supposing you have input already, strtok_s doesn't do anything more useful than strtok except that it allows you to specify a pointer for it to continue its work instead of using a hidden pointer, making it reentrant (it's basically POSIX strtok_r with NULL pointer checks). strcpy_s is basically strlcpy, except you get an error when truncation would occur. – user539810 Aug 29 '18 at 4:03
  • 1
    (continued) Also, suppose you accidentally didn't update the size of a buffer after shrinking the buffer; the safe API won't protect you from accidents like that whereas some tools like Valgrind allow you to test for this without you needing to write the tests yourself. – user539810 Aug 29 '18 at 4:06

In c++, do we already have a portable way to retrieve environment variables safely?

You can use getenv. If don't want to have a raw pointer to a C string owned by someone else leaking into your code you can use std::optional:

#include <cstdlib>
#include <optional>
std::optional<std::string> get_env(const char* env) {
    auto t = std::getenv(env);
    if (t) return t;
    return {};

Full example.

PS: even if it was available in C++, I am not sure if I would use getenv_s. resitrct is not standard C++, and passing arrays and their size seperately isnt very idiomatic C++. To my understanding getenv_s is an improvement to getenv in C where you need to deal with nullpointers and string lenghts somehow while in C++ we have different solutions available (std::string for variable length strings and std::optional for optional values).

  • 1
    Regarding the "an improvement to getenv" note, yes, all of the _s functions made available in C11's optional "Bounds-checking interfaces" section (Annex K) were intended to be improvements. From the website OP linked: Another call to getenv ... may invalidate the pointer returned by a previous call ... getenv_s was added to C to solve that problem by obtaining a local copy of the value using the provided buffer and buffer size. – user539810 Aug 19 '18 at 19:17
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    And for Windows specifically, MSVC also provides template <size_t size> errno_t getenv_s(size_t *len, char (&buffer)[size], const char *varname); for C++. C++/CLI code could instead use the static member function GetEnvironmentVariable that belongs to the System::Environment class. – user539810 Aug 19 '18 at 19:23

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