compat/mingw.h - git - Git at Google

 #include "mingw-posix.h"

 struct config_context;
 int mingw_core_config(const char *var, const char *value,
 		      const struct config_context *ctx, void *cb);
 #define platform_core_config mingw_core_config

 #ifndef NO_OPENSSL
 #include <openssl/ssl.h>
 static inline int mingw_SSL_set_fd(SSL *ssl, int fd)
 {
 	return SSL_set_fd(ssl, _get_osfhandle(fd));
 }
 #define SSL_set_fd mingw_SSL_set_fd

 static inline int mingw_SSL_set_rfd(SSL *ssl, int fd)
 {
 	return SSL_set_rfd(ssl, _get_osfhandle(fd));
 }
 #define SSL_set_rfd mingw_SSL_set_rfd

 static inline int mingw_SSL_set_wfd(SSL *ssl, int fd)
 {
 	return SSL_set_wfd(ssl, _get_osfhandle(fd));
 }
 #define SSL_set_wfd mingw_SSL_set_wfd
 #endif

 /*
  * git specific compatibility
  */

 static inline void convert_slashes(char *path)
 {
 	for (; *path; path++)
 		if (*path == '\\')
 			*path = '/';
 }
 #define PATH_SEP ';'
 char *mingw_query_user_email(void);
 #define query_user_email mingw_query_user_email

 /**
  * Verifies that the specified path is owned by the user running the
  * current process.
  */
 int is_path_owned_by_current_sid(const char *path, struct strbuf *report);
 #define is_path_owned_by_current_user is_path_owned_by_current_sid

 /**
  * Verifies that the given path is a valid one on Windows.
  *
  * In particular, path segments are disallowed which
  *
  * - end in a period or a space (except the special directories `.` and `..`).
  *
  * - contain any of the reserved characters, e.g. `:`, `;`, `*`, etc
  *
  * - correspond to reserved names (such as `AUX`, `PRN`, etc)
  *
  * The `allow_literal_nul` parameter controls whether the path `NUL` should
  * be considered valid (this makes sense e.g. before opening files, as it is
  * perfectly legitimate to open `NUL` on Windows, just as it is to open
  * `/dev/null` on Unix/Linux).
  *
  * Returns 1 upon success, otherwise 0.
  */
 int is_valid_win32_path(const char *path, int allow_literal_nul);
 #define is_valid_path(path) is_valid_win32_path(path, 0)

 /**
  * Converts UTF-8 encoded string to UTF-16LE.
  *
  * To support repositories with legacy-encoded file names, invalid UTF-8 bytes
  * 0xa0 - 0xff are converted to corresponding printable Unicode chars \u00a0 -
  * \u00ff, and invalid UTF-8 bytes 0x80 - 0x9f (which would make non-printable
  * Unicode) are converted to hex-code.
  *
  * Lead-bytes not followed by an appropriate number of trail-bytes, over-long
  * encodings and 4-byte encodings > \u10ffff are detected as invalid UTF-8.
  *
  * Maximum space requirement for the target buffer is two wide chars per UTF-8
  * char (((strlen(utf) * 2) + 1) [* sizeof(wchar_t)]).
  *
  * The maximum space is needed only if the entire input string consists of
  * invalid UTF-8 bytes in range 0x80-0x9f, as per the following table:
  *
  *               |                   | UTF-8 | UTF-16 |
  *   Code point  |  UTF-8 sequence   | bytes | words  | ratio
  * --------------+-------------------+-------+--------+-------
  * 000000-00007f | 0-7f              |   1   |   1    |  1
  * 000080-0007ff | c2-df + 80-bf     |   2   |   1    |  0.5
  * 000800-00ffff | e0-ef + 2 * 80-bf |   3   |   1    |  0.33
  * 010000-10ffff | f0-f4 + 3 * 80-bf |   4   |  2 (a) |  0.5
  * invalid       | 80-9f             |   1   |  2 (b) |  2
  * invalid       | a0-ff             |   1   |   1    |  1
  *
  * (a) encoded as UTF-16 surrogate pair
  * (b) encoded as two hex digits
  *
  * Note that, while the UTF-8 encoding scheme can be extended to 5-byte, 6-byte
  * or even indefinite-byte sequences, the largest valid code point \u10ffff
  * encodes as only 4 UTF-8 bytes.
  *
  * Parameters:
  * wcs: wide char target buffer
  * utf: string to convert
  * wcslen: size of target buffer (in wchar_t's)
  * utflen: size of string to convert, or -1 if 0-terminated
  *
  * Returns:
  * length of converted string (_wcslen(wcs)), or -1 on failure
  *
  * Errors:
  * EINVAL: one of the input parameters is invalid (e.g. NULL)
  * ERANGE: the output buffer is too small
  */
 int xutftowcsn(wchar_t *wcs, const char *utf, size_t wcslen, int utflen);

 /**
  * Simplified variant of xutftowcsn, assumes input string is \0-terminated.
  */
 static inline int xutftowcs(wchar_t *wcs, const char *utf, size_t wcslen)
 {
 	return xutftowcsn(wcs, utf, wcslen, -1);
 }

 /**
  * Simplified file system specific variant of xutftowcsn, assumes output
  * buffer size is MAX_PATH wide chars and input string is \0-terminated,
  * fails with ENAMETOOLONG if input string is too long.
  */
 static inline int xutftowcs_path(wchar_t *wcs, const char *utf)
 {
 	int result = xutftowcsn(wcs, utf, MAX_PATH, -1);
 	if (result < 0 && errno == ERANGE)
 		errno = ENAMETOOLONG;
 	return result;
 }

 /**
  * Converts UTF-16LE encoded string to UTF-8.
  *
  * Maximum space requirement for the target buffer is three UTF-8 chars per
  * wide char ((_wcslen(wcs) * 3) + 1).
  *
  * The maximum space is needed only if the entire input string consists of
  * UTF-16 words in range 0x0800-0xd7ff or 0xe000-0xffff (i.e. \u0800-\uffff
  * modulo surrogate pairs), as per the following table:
  *
  *               |                       | UTF-16 | UTF-8 |
  *   Code point  |  UTF-16 sequence      | words  | bytes | ratio
  * --------------+-----------------------+--------+-------+-------
  * 000000-00007f | 0000-007f             |   1    |   1   |  1
  * 000080-0007ff | 0080-07ff             |   1    |   2   |  2
  * 000800-00ffff | 0800-d7ff / e000-ffff |   1    |   3   |  3
  * 010000-10ffff | d800-dbff + dc00-dfff |   2    |   4   |  2
  *
  * Note that invalid code points > 10ffff cannot be represented in UTF-16.
  *
  * Parameters:
  * utf: target buffer
  * wcs: wide string to convert
  * utflen: size of target buffer
  *
  * Returns:
  * length of converted string, or -1 on failure
  *
  * Errors:
  * EINVAL: one of the input parameters is invalid (e.g. NULL)
  * ERANGE: the output buffer is too small
  */
 int xwcstoutf(char *utf, const wchar_t *wcs, size_t utflen);

 /*
  * A critical section used in the implementation of the spawn
  * functions (mingw_spawnv[p]e()) and waitpid(). Initialised in
  * the replacement main() macro below.
  */
 extern CRITICAL_SECTION pinfo_cs;

 /*
  * Git, like most portable C applications, implements a main() function. On
  * Windows, this main() function would receive parameters encoded in the
  * current locale, but Git for Windows would prefer UTF-8 encoded  parameters.
  *
  * To make that happen, we still declare main() here, and then declare and
  * implement wmain() (which is the Unicode variant of main()) and compile with
  * -municode. This wmain() function reencodes the parameters from UTF-16 to
  * UTF-8 format, sets up a couple of other things as required on Windows, and
  * then hands off to the main() function.
  */
 int wmain(int argc, const wchar_t **w_argv);
 int main(int argc, const char **argv);

 /*
  * For debugging: if a problem occurs, say, in a Git process that is spawned
  * from another Git process which in turn is spawned from yet another Git
  * process, it can be quite daunting to figure out what is going on.
  *
  * Call this function to open a new MinTTY (this assumes you are in Git for
  * Windows' SDK) with a GDB that attaches to the current process right away.
  */
 void open_in_gdb(void);

 /*
  * Used by Pthread API implementation for Windows
  */
 int err_win_to_posix(DWORD winerr);

 #ifndef NO_UNIX_SOCKETS
 int mingw_have_unix_sockets(void);
 #undef have_unix_sockets
 #define have_unix_sockets mingw_have_unix_sockets
 #endif
	#include "mingw-posix.h"

	struct config_context;
	int mingw_core_config(const char var, const char value,
	const struct config_context ctx, void cb);
	#define platform_core_config mingw_core_config

	#ifndef NO_OPENSSL
	#include <openssl/ssl.h>
	static inline int mingw_SSL_set_fd(SSL *ssl, int fd)
	{
	return SSL_set_fd(ssl, _get_osfhandle(fd));
	}
	#define SSL_set_fd mingw_SSL_set_fd

	static inline int mingw_SSL_set_rfd(SSL *ssl, int fd)
	{
	return SSL_set_rfd(ssl, _get_osfhandle(fd));
	}
	#define SSL_set_rfd mingw_SSL_set_rfd

	static inline int mingw_SSL_set_wfd(SSL *ssl, int fd)
	{
	return SSL_set_wfd(ssl, _get_osfhandle(fd));
	}
	#define SSL_set_wfd mingw_SSL_set_wfd
	#endif

	/*
	* git specific compatibility
	*/

	static inline void convert_slashes(char *path)
	{
	for (; *path; path++)
	if (*path == '\\')
	*path = '/';
	}
	#define PATH_SEP ';'
	char *mingw_query_user_email(void);
	#define query_user_email mingw_query_user_email

	/**
	* Verifies that the specified path is owned by the user running the
	* current process.
	*/
	int is_path_owned_by_current_sid(const char path, struct strbuf report);
	#define is_path_owned_by_current_user is_path_owned_by_current_sid

	/**
	* Verifies that the given path is a valid one on Windows.
	*
	* In particular, path segments are disallowed which
	*
	* - end in a period or a space (except the special directories `.` and `..`).
	*
	* - contain any of the reserved characters, e.g. `:`, `;`, `*`, etc
	*
	* - correspond to reserved names (such as `AUX`, `PRN`, etc)
	*
	* The `allow_literal_nul` parameter controls whether the path `NUL` should
	* be considered valid (this makes sense e.g. before opening files, as it is
	* perfectly legitimate to open `NUL` on Windows, just as it is to open
	* `/dev/null` on Unix/Linux).
	*
	* Returns 1 upon success, otherwise 0.
	*/
	int is_valid_win32_path(const char *path, int allow_literal_nul);
	#define is_valid_path(path) is_valid_win32_path(path, 0)

	/**
	* Converts UTF-8 encoded string to UTF-16LE.
	*
	* To support repositories with legacy-encoded file names, invalid UTF-8 bytes
	* 0xa0 - 0xff are converted to corresponding printable Unicode chars \u00a0 -
	* \u00ff, and invalid UTF-8 bytes 0x80 - 0x9f (which would make non-printable
	* Unicode) are converted to hex-code.
	*
	* Lead-bytes not followed by an appropriate number of trail-bytes, over-long
	* encodings and 4-byte encodings > \u10ffff are detected as invalid UTF-8.
	*
	* Maximum space requirement for the target buffer is two wide chars per UTF-8
	* char (((strlen(utf) * 2) + 1) [* sizeof(wchar_t)]).
	*
	* The maximum space is needed only if the entire input string consists of
	* invalid UTF-8 bytes in range 0x80-0x9f, as per the following table:
	*
	* \| \| UTF-8 \| UTF-16 \|
	* Code point \| UTF-8 sequence \| bytes \| words \| ratio
	* --------------+-------------------+-------+--------+-------
	* 000000-00007f \| 0-7f \| 1 \| 1 \| 1
	* 000080-0007ff \| c2-df + 80-bf \| 2 \| 1 \| 0.5
	* 000800-00ffff \| e0-ef + 2 * 80-bf \| 3 \| 1 \| 0.33
	* 010000-10ffff \| f0-f4 + 3 * 80-bf \| 4 \| 2 (a) \| 0.5
	* invalid \| 80-9f \| 1 \| 2 (b) \| 2
	* invalid \| a0-ff \| 1 \| 1 \| 1
	*
	* (a) encoded as UTF-16 surrogate pair
	* (b) encoded as two hex digits
	*
	* Note that, while the UTF-8 encoding scheme can be extended to 5-byte, 6-byte
	* or even indefinite-byte sequences, the largest valid code point \u10ffff
	* encodes as only 4 UTF-8 bytes.
	*
	* Parameters:
	* wcs: wide char target buffer
	* utf: string to convert
	* wcslen: size of target buffer (in wchar_t's)
	* utflen: size of string to convert, or -1 if 0-terminated
	*
	* Returns:
	* length of converted string (_wcslen(wcs)), or -1 on failure
	*
	* Errors:
	* EINVAL: one of the input parameters is invalid (e.g. NULL)
	* ERANGE: the output buffer is too small
	*/
	int xutftowcsn(wchar_t wcs, const char utf, size_t wcslen, int utflen);

	/**
	* Simplified variant of xutftowcsn, assumes input string is \0-terminated.
	*/
	static inline int xutftowcs(wchar_t wcs, const char utf, size_t wcslen)
	{
	return xutftowcsn(wcs, utf, wcslen, -1);
	}

	/**
	* Simplified file system specific variant of xutftowcsn, assumes output
	* buffer size is MAX_PATH wide chars and input string is \0-terminated,
	* fails with ENAMETOOLONG if input string is too long.
	*/
	static inline int xutftowcs_path(wchar_t wcs, const char utf)
	{
	int result = xutftowcsn(wcs, utf, MAX_PATH, -1);
	if (result < 0 && errno == ERANGE)
	errno = ENAMETOOLONG;
	return result;
	}

	/**
	* Converts UTF-16LE encoded string to UTF-8.
	*
	* Maximum space requirement for the target buffer is three UTF-8 chars per
	* wide char ((_wcslen(wcs) * 3) + 1).
	*
	* The maximum space is needed only if the entire input string consists of
	* UTF-16 words in range 0x0800-0xd7ff or 0xe000-0xffff (i.e. \u0800-\uffff
	* modulo surrogate pairs), as per the following table:
	*
	* \| \| UTF-16 \| UTF-8 \|
	* Code point \| UTF-16 sequence \| words \| bytes \| ratio
	* --------------+-----------------------+--------+-------+-------
	* 000000-00007f \| 0000-007f \| 1 \| 1 \| 1
	* 000080-0007ff \| 0080-07ff \| 1 \| 2 \| 2
	* 000800-00ffff \| 0800-d7ff / e000-ffff \| 1 \| 3 \| 3
	* 010000-10ffff \| d800-dbff + dc00-dfff \| 2 \| 4 \| 2
	*
	* Note that invalid code points > 10ffff cannot be represented in UTF-16.
	*
	* Parameters:
	* utf: target buffer
	* wcs: wide string to convert
	* utflen: size of target buffer
	*
	* Returns:
	* length of converted string, or -1 on failure
	*
	* Errors:
	* EINVAL: one of the input parameters is invalid (e.g. NULL)
	* ERANGE: the output buffer is too small
	*/
	int xwcstoutf(char utf, const wchar_t wcs, size_t utflen);

	/*
	* A critical section used in the implementation of the spawn
	* functions (mingw_spawnv[p]e()) and waitpid(). Initialised in
	* the replacement main() macro below.
	*/
	extern CRITICAL_SECTION pinfo_cs;

	/*
	* Git, like most portable C applications, implements a main() function. On
	* Windows, this main() function would receive parameters encoded in the
	* current locale, but Git for Windows would prefer UTF-8 encoded parameters.
	*
	* To make that happen, we still declare main() here, and then declare and
	* implement wmain() (which is the Unicode variant of main()) and compile with
	* -municode. This wmain() function reencodes the parameters from UTF-16 to
	* UTF-8 format, sets up a couple of other things as required on Windows, and
	* then hands off to the main() function.
	*/
	int wmain(int argc, const wchar_t **w_argv);
	int main(int argc, const char **argv);

	/*
	* For debugging: if a problem occurs, say, in a Git process that is spawned
	* from another Git process which in turn is spawned from yet another Git
	* process, it can be quite daunting to figure out what is going on.
	*
	* Call this function to open a new MinTTY (this assumes you are in Git for
	* Windows' SDK) with a GDB that attaches to the current process right away.
	*/
	void open_in_gdb(void);

	/*
	* Used by Pthread API implementation for Windows
	*/
	int err_win_to_posix(DWORD winerr);

	#ifndef NO_UNIX_SOCKETS
	int mingw_have_unix_sockets(void);
	#undef have_unix_sockets
	#define have_unix_sockets mingw_have_unix_sockets
	#endif