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git/compat/mingw.c

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#include "../git-compat-util.h"
#include "win32.h"
#include <conio.h>
#include <wchar.h>
#include "../strbuf.h"
#include "../run-command.h"
#include "../cache.h"
static const int delay[] = { 0, 1, 10, 20, 40 };
int err_win_to_posix(DWORD winerr)
{
int error = ENOSYS;
switch(winerr) {
case ERROR_ACCESS_DENIED: error = EACCES; break;
case ERROR_ACCOUNT_DISABLED: error = EACCES; break;
case ERROR_ACCOUNT_RESTRICTION: error = EACCES; break;
case ERROR_ALREADY_ASSIGNED: error = EBUSY; break;
case ERROR_ALREADY_EXISTS: error = EEXIST; break;
case ERROR_ARITHMETIC_OVERFLOW: error = ERANGE; break;
case ERROR_BAD_COMMAND: error = EIO; break;
case ERROR_BAD_DEVICE: error = ENODEV; break;
case ERROR_BAD_DRIVER_LEVEL: error = ENXIO; break;
case ERROR_BAD_EXE_FORMAT: error = ENOEXEC; break;
case ERROR_BAD_FORMAT: error = ENOEXEC; break;
case ERROR_BAD_LENGTH: error = EINVAL; break;
case ERROR_BAD_PATHNAME: error = ENOENT; break;
case ERROR_BAD_PIPE: error = EPIPE; break;
case ERROR_BAD_UNIT: error = ENODEV; break;
case ERROR_BAD_USERNAME: error = EINVAL; break;
case ERROR_BROKEN_PIPE: error = EPIPE; break;
case ERROR_BUFFER_OVERFLOW: error = ENAMETOOLONG; break;
case ERROR_BUSY: error = EBUSY; break;
case ERROR_BUSY_DRIVE: error = EBUSY; break;
case ERROR_CALL_NOT_IMPLEMENTED: error = ENOSYS; break;
case ERROR_CANNOT_MAKE: error = EACCES; break;
case ERROR_CANTOPEN: error = EIO; break;
case ERROR_CANTREAD: error = EIO; break;
case ERROR_CANTWRITE: error = EIO; break;
case ERROR_CRC: error = EIO; break;
case ERROR_CURRENT_DIRECTORY: error = EACCES; break;
case ERROR_DEVICE_IN_USE: error = EBUSY; break;
case ERROR_DEV_NOT_EXIST: error = ENODEV; break;
case ERROR_DIRECTORY: error = EINVAL; break;
case ERROR_DIR_NOT_EMPTY: error = ENOTEMPTY; break;
case ERROR_DISK_CHANGE: error = EIO; break;
case ERROR_DISK_FULL: error = ENOSPC; break;
case ERROR_DRIVE_LOCKED: error = EBUSY; break;
case ERROR_ENVVAR_NOT_FOUND: error = EINVAL; break;
case ERROR_EXE_MARKED_INVALID: error = ENOEXEC; break;
case ERROR_FILENAME_EXCED_RANGE: error = ENAMETOOLONG; break;
case ERROR_FILE_EXISTS: error = EEXIST; break;
case ERROR_FILE_INVALID: error = ENODEV; break;
case ERROR_FILE_NOT_FOUND: error = ENOENT; break;
case ERROR_GEN_FAILURE: error = EIO; break;
case ERROR_HANDLE_DISK_FULL: error = ENOSPC; break;
case ERROR_INSUFFICIENT_BUFFER: error = ENOMEM; break;
case ERROR_INVALID_ACCESS: error = EACCES; break;
case ERROR_INVALID_ADDRESS: error = EFAULT; break;
case ERROR_INVALID_BLOCK: error = EFAULT; break;
case ERROR_INVALID_DATA: error = EINVAL; break;
case ERROR_INVALID_DRIVE: error = ENODEV; break;
case ERROR_INVALID_EXE_SIGNATURE: error = ENOEXEC; break;
case ERROR_INVALID_FLAGS: error = EINVAL; break;
case ERROR_INVALID_FUNCTION: error = ENOSYS; break;
case ERROR_INVALID_HANDLE: error = EBADF; break;
case ERROR_INVALID_LOGON_HOURS: error = EACCES; break;
case ERROR_INVALID_NAME: error = EINVAL; break;
case ERROR_INVALID_OWNER: error = EINVAL; break;
case ERROR_INVALID_PARAMETER: error = EINVAL; break;
case ERROR_INVALID_PASSWORD: error = EPERM; break;
case ERROR_INVALID_PRIMARY_GROUP: error = EINVAL; break;
case ERROR_INVALID_SIGNAL_NUMBER: error = EINVAL; break;
case ERROR_INVALID_TARGET_HANDLE: error = EIO; break;
case ERROR_INVALID_WORKSTATION: error = EACCES; break;
case ERROR_IO_DEVICE: error = EIO; break;
case ERROR_IO_INCOMPLETE: error = EINTR; break;
case ERROR_LOCKED: error = EBUSY; break;
case ERROR_LOCK_VIOLATION: error = EACCES; break;
case ERROR_LOGON_FAILURE: error = EACCES; break;
case ERROR_MAPPED_ALIGNMENT: error = EINVAL; break;
case ERROR_META_EXPANSION_TOO_LONG: error = E2BIG; break;
case ERROR_MORE_DATA: error = EPIPE; break;
case ERROR_NEGATIVE_SEEK: error = ESPIPE; break;
case ERROR_NOACCESS: error = EFAULT; break;
case ERROR_NONE_MAPPED: error = EINVAL; break;
case ERROR_NOT_ENOUGH_MEMORY: error = ENOMEM; break;
case ERROR_NOT_READY: error = EAGAIN; break;
case ERROR_NOT_SAME_DEVICE: error = EXDEV; break;
case ERROR_NO_DATA: error = EPIPE; break;
case ERROR_NO_MORE_SEARCH_HANDLES: error = EIO; break;
case ERROR_NO_PROC_SLOTS: error = EAGAIN; break;
case ERROR_NO_SUCH_PRIVILEGE: error = EACCES; break;
case ERROR_OPEN_FAILED: error = EIO; break;
case ERROR_OPEN_FILES: error = EBUSY; break;
case ERROR_OPERATION_ABORTED: error = EINTR; break;
case ERROR_OUTOFMEMORY: error = ENOMEM; break;
case ERROR_PASSWORD_EXPIRED: error = EACCES; break;
case ERROR_PATH_BUSY: error = EBUSY; break;
case ERROR_PATH_NOT_FOUND: error = ENOENT; break;
case ERROR_PIPE_BUSY: error = EBUSY; break;
case ERROR_PIPE_CONNECTED: error = EPIPE; break;
case ERROR_PIPE_LISTENING: error = EPIPE; break;
case ERROR_PIPE_NOT_CONNECTED: error = EPIPE; break;
case ERROR_PRIVILEGE_NOT_HELD: error = EACCES; break;
case ERROR_READ_FAULT: error = EIO; break;
case ERROR_SEEK: error = EIO; break;
case ERROR_SEEK_ON_DEVICE: error = ESPIPE; break;
case ERROR_SHARING_BUFFER_EXCEEDED: error = ENFILE; break;
case ERROR_SHARING_VIOLATION: error = EACCES; break;
case ERROR_STACK_OVERFLOW: error = ENOMEM; break;
case ERROR_SWAPERROR: error = ENOENT; break;
case ERROR_TOO_MANY_MODULES: error = EMFILE; break;
case ERROR_TOO_MANY_OPEN_FILES: error = EMFILE; break;
case ERROR_UNRECOGNIZED_MEDIA: error = ENXIO; break;
case ERROR_UNRECOGNIZED_VOLUME: error = ENODEV; break;
case ERROR_WAIT_NO_CHILDREN: error = ECHILD; break;
case ERROR_WRITE_FAULT: error = EIO; break;
case ERROR_WRITE_PROTECT: error = EROFS; break;
}
return error;
}
static inline int is_file_in_use_error(DWORD errcode)
{
switch (errcode) {
case ERROR_SHARING_VIOLATION:
case ERROR_ACCESS_DENIED:
return 1;
}
return 0;
}
static int read_yes_no_answer(void)
{
char answer[1024];
if (fgets(answer, sizeof(answer), stdin)) {
size_t answer_len = strlen(answer);
int got_full_line = 0, c;
/* remove the newline */
if (answer_len >= 2 && answer[answer_len-2] == '\r') {
answer[answer_len-2] = '\0';
got_full_line = 1;
} else if (answer_len >= 1 && answer[answer_len-1] == '\n') {
answer[answer_len-1] = '\0';
got_full_line = 1;
}
/* flush the buffer in case we did not get the full line */
if (!got_full_line)
while ((c = getchar()) != EOF && c != '\n')
;
} else
/* we could not read, return the
* default answer which is no */
return 0;
if (tolower(answer[0]) == 'y' && !answer[1])
return 1;
if (!strncasecmp(answer, "yes", sizeof(answer)))
return 1;
if (tolower(answer[0]) == 'n' && !answer[1])
return 0;
if (!strncasecmp(answer, "no", sizeof(answer)))
return 0;
/* did not find an answer we understand */
return -1;
}
static int ask_yes_no_if_possible(const char *format, ...)
{
char question[4096];
const char *retry_hook[] = { NULL, NULL, NULL };
va_list args;
va_start(args, format);
vsnprintf(question, sizeof(question), format, args);
va_end(args);
if ((retry_hook[0] = mingw_getenv("GIT_ASK_YESNO"))) {
retry_hook[1] = question;
return !run_command_v_opt(retry_hook, 0);
}
if (!isatty(_fileno(stdin)) || !isatty(_fileno(stderr)))
return 0;
while (1) {
int answer;
fprintf(stderr, "%s (y/n) ", question);
if ((answer = read_yes_no_answer()) >= 0)
return answer;
fprintf(stderr, "Sorry, I did not understand your answer. "
"Please type 'y' or 'n'\n");
}
}
int mingw_unlink(const char *pathname)
{
int ret, tries = 0;
wchar_t wpathname[MAX_PATH];
if (xutftowcs_path(wpathname, pathname) < 0)
return -1;
/* read-only files cannot be removed */
_wchmod(wpathname, 0666);
while ((ret = _wunlink(wpathname)) == -1 && tries < ARRAY_SIZE(delay)) {
if (!is_file_in_use_error(GetLastError()))
break;
/*
* We assume that some other process had the source or
* destination file open at the wrong moment and retry.
* In order to give the other process a higher chance to
* complete its operation, we give up our time slice now.
* If we have to retry again, we do sleep a bit.
*/
Sleep(delay[tries]);
tries++;
}
while (ret == -1 && is_file_in_use_error(GetLastError()) &&
ask_yes_no_if_possible("Unlink of file '%s' failed. "
"Should I try again?", pathname))
ret = _wunlink(wpathname);
return ret;
}
static int is_dir_empty(const wchar_t *wpath)
{
WIN32_FIND_DATAW findbuf;
HANDLE handle;
wchar_t wbuf[MAX_PATH + 2];
wcscpy(wbuf, wpath);
wcscat(wbuf, L"\\*");
handle = FindFirstFileW(wbuf, &findbuf);
if (handle == INVALID_HANDLE_VALUE)
return GetLastError() == ERROR_NO_MORE_FILES;
while (!wcscmp(findbuf.cFileName, L".") ||
!wcscmp(findbuf.cFileName, L".."))
if (!FindNextFileW(handle, &findbuf)) {
DWORD err = GetLastError();
FindClose(handle);
return err == ERROR_NO_MORE_FILES;
}
FindClose(handle);
return 0;
}
int mingw_rmdir(const char *pathname)
{
int ret, tries = 0;
wchar_t wpathname[MAX_PATH];
if (xutftowcs_path(wpathname, pathname) < 0)
return -1;
while ((ret = _wrmdir(wpathname)) == -1 && tries < ARRAY_SIZE(delay)) {
if (!is_file_in_use_error(GetLastError()))
errno = err_win_to_posix(GetLastError());
if (errno != EACCES)
break;
if (!is_dir_empty(wpathname)) {
errno = ENOTEMPTY;
break;
}
/*
* We assume that some other process had the source or
* destination file open at the wrong moment and retry.
* In order to give the other process a higher chance to
* complete its operation, we give up our time slice now.
* If we have to retry again, we do sleep a bit.
*/
Sleep(delay[tries]);
tries++;
}
while (ret == -1 && errno == EACCES && is_file_in_use_error(GetLastError()) &&
ask_yes_no_if_possible("Deletion of directory '%s' failed. "
"Should I try again?", pathname))
ret = _wrmdir(wpathname);
return ret;
}
int mingw_mkdir(const char *path, int mode)
{
int ret;
wchar_t wpath[MAX_PATH];
if (xutftowcs_path(wpath, path) < 0)
return -1;
ret = _wmkdir(wpath);
return ret;
}
int mingw_open (const char *filename, int oflags, ...)
{
va_list args;
unsigned mode;
int fd;
wchar_t wfilename[MAX_PATH];
va_start(args, oflags);
mode = va_arg(args, int);
va_end(args);
if (filename && !strcmp(filename, "/dev/null"))
filename = "nul";
if (xutftowcs_path(wfilename, filename) < 0)
return -1;
fd = _wopen(wfilename, oflags, mode);
if (fd < 0 && (oflags & O_ACCMODE) != O_RDONLY && errno == EACCES) {
DWORD attrs = GetFileAttributesW(wfilename);
if (attrs != INVALID_FILE_ATTRIBUTES && (attrs & FILE_ATTRIBUTE_DIRECTORY))
errno = EISDIR;
}
return fd;
}
static BOOL WINAPI ctrl_ignore(DWORD type)
{
return TRUE;
}
#undef fgetc
int mingw_fgetc(FILE *stream)
{
int ch;
if (!isatty(_fileno(stream)))
return fgetc(stream);
SetConsoleCtrlHandler(ctrl_ignore, TRUE);
while (1) {
ch = fgetc(stream);
if (ch != EOF || GetLastError() != ERROR_OPERATION_ABORTED)
break;
/* Ctrl+C was pressed, simulate SIGINT and retry */
mingw_raise(SIGINT);
}
SetConsoleCtrlHandler(ctrl_ignore, FALSE);
return ch;
}
#undef fopen
FILE *mingw_fopen (const char *filename, const char *otype)
{
FILE *file;
wchar_t wfilename[MAX_PATH], wotype[4];
if (filename && !strcmp(filename, "/dev/null"))
filename = "nul";
if (xutftowcs_path(wfilename, filename) < 0 ||
xutftowcs(wotype, otype, ARRAY_SIZE(wotype)) < 0)
return NULL;
file = _wfopen(wfilename, wotype);
return file;
}
FILE *mingw_freopen (const char *filename, const char *otype, FILE *stream)
{
FILE *file;
wchar_t wfilename[MAX_PATH], wotype[4];
if (filename && !strcmp(filename, "/dev/null"))
filename = "nul";
if (xutftowcs_path(wfilename, filename) < 0 ||
xutftowcs(wotype, otype, ARRAY_SIZE(wotype)) < 0)
return NULL;
file = _wfreopen(wfilename, wotype, stream);
return file;
}
#undef fflush
int mingw_fflush(FILE *stream)
{
int ret = fflush(stream);
/*
* write() is used behind the scenes of stdio output functions.
* Since git code does not check for errors after each stdio write
* operation, it can happen that write() is called by a later
* stdio function even if an earlier write() call failed. In the
* case of a pipe whose readable end was closed, only the first
* call to write() reports EPIPE on Windows. Subsequent write()
* calls report EINVAL. It is impossible to notice whether this
* fflush invocation triggered such a case, therefore, we have to
* catch all EINVAL errors whole-sale.
*/
if (ret && errno == EINVAL)
errno = EPIPE;
return ret;
}
int mingw_access(const char *filename, int mode)
{
wchar_t wfilename[MAX_PATH];
if (xutftowcs_path(wfilename, filename) < 0)
return -1;
/* X_OK is not supported by the MSVCRT version */
return _waccess(wfilename, mode & ~X_OK);
}
int mingw_chdir(const char *dirname)
{
wchar_t wdirname[MAX_PATH];
if (xutftowcs_path(wdirname, dirname) < 0)
return -1;
return _wchdir(wdirname);
}
int mingw_chmod(const char *filename, int mode)
{
wchar_t wfilename[MAX_PATH];
if (xutftowcs_path(wfilename, filename) < 0)
return -1;
return _wchmod(wfilename, mode);
}
/*
* The unit of FILETIME is 100-nanoseconds since January 1, 1601, UTC.
* Returns the 100-nanoseconds ("hekto nanoseconds") since the epoch.
*/
static inline long long filetime_to_hnsec(const FILETIME *ft)
{
long long winTime = ((long long)ft->dwHighDateTime << 32) + ft->dwLowDateTime;
/* Windows to Unix Epoch conversion */
return winTime - 116444736000000000LL;
}
static inline time_t filetime_to_time_t(const FILETIME *ft)
{
return (time_t)(filetime_to_hnsec(ft) / 10000000);
}
/* We keep the do_lstat code in a separate function to avoid recursion.
* When a path ends with a slash, the stat will fail with ENOENT. In
* this case, we strip the trailing slashes and stat again.
*
* If follow is true then act like stat() and report on the link
* target. Otherwise report on the link itself.
*/
static int do_lstat(int follow, const char *file_name, struct stat *buf)
{
WIN32_FILE_ATTRIBUTE_DATA fdata;
wchar_t wfilename[MAX_PATH];
if (xutftowcs_path(wfilename, file_name) < 0)
return -1;
if (GetFileAttributesExW(wfilename, GetFileExInfoStandard, &fdata)) {
buf->st_ino = 0;
buf->st_gid = 0;
buf->st_uid = 0;
buf->st_nlink = 1;
buf->st_mode = file_attr_to_st_mode(fdata.dwFileAttributes);
buf->st_size = fdata.nFileSizeLow |
(((off_t)fdata.nFileSizeHigh)<<32);
buf->st_dev = buf->st_rdev = 0; /* not used by Git */
buf->st_atime = filetime_to_time_t(&(fdata.ftLastAccessTime));
buf->st_mtime = filetime_to_time_t(&(fdata.ftLastWriteTime));
buf->st_ctime = filetime_to_time_t(&(fdata.ftCreationTime));
if (fdata.dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT) {
WIN32_FIND_DATAW findbuf;
HANDLE handle = FindFirstFileW(wfilename, &findbuf);
if (handle != INVALID_HANDLE_VALUE) {
if ((findbuf.dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT) &&
(findbuf.dwReserved0 == IO_REPARSE_TAG_SYMLINK)) {
if (follow) {
char buffer[MAXIMUM_REPARSE_DATA_BUFFER_SIZE];
buf->st_size = readlink(file_name, buffer, MAXIMUM_REPARSE_DATA_BUFFER_SIZE);
} else {
buf->st_mode = S_IFLNK;
}
buf->st_mode |= S_IREAD;
if (!(findbuf.dwFileAttributes & FILE_ATTRIBUTE_READONLY))
buf->st_mode |= S_IWRITE;
}
FindClose(handle);
}
}
return 0;
}
switch (GetLastError()) {
case ERROR_ACCESS_DENIED:
case ERROR_SHARING_VIOLATION:
case ERROR_LOCK_VIOLATION:
case ERROR_SHARING_BUFFER_EXCEEDED:
errno = EACCES;
break;
case ERROR_BUFFER_OVERFLOW:
errno = ENAMETOOLONG;
break;
case ERROR_NOT_ENOUGH_MEMORY:
errno = ENOMEM;
break;
default:
errno = ENOENT;
break;
}
return -1;
}
/* We provide our own lstat/fstat functions, since the provided
* lstat/fstat functions are so slow. These stat functions are
* tailored for Git's usage (read: fast), and are not meant to be
* complete. Note that Git stat()s are redirected to mingw_lstat()
* too, since Windows doesn't really handle symlinks that well.
*/
static int do_stat_internal(int follow, const char *file_name, struct stat *buf)
{
int namelen;
char alt_name[PATH_MAX];
if (!do_lstat(follow, file_name, buf))
return 0;
/* if file_name ended in a '/', Windows returned ENOENT;
* try again without trailing slashes
*/
if (errno != ENOENT)
return -1;
namelen = strlen(file_name);
if (namelen && file_name[namelen-1] != '/')
return -1;
while (namelen && file_name[namelen-1] == '/')
--namelen;
if (!namelen || namelen >= PATH_MAX)
return -1;
memcpy(alt_name, file_name, namelen);
alt_name[namelen] = 0;
return do_lstat(follow, alt_name, buf);
}
int mingw_lstat(const char *file_name, struct stat *buf)
{
return do_stat_internal(0, file_name, buf);
}
int mingw_stat(const char *file_name, struct stat *buf)
{
return do_stat_internal(1, file_name, buf);
}
int mingw_fstat(int fd, struct stat *buf)
{
HANDLE fh = (HANDLE)_get_osfhandle(fd);
BY_HANDLE_FILE_INFORMATION fdata;
if (fh == INVALID_HANDLE_VALUE) {
errno = EBADF;
return -1;
}
/* direct non-file handles to MS's fstat() */
if (GetFileType(fh) != FILE_TYPE_DISK)
return _fstati64(fd, buf);
if (GetFileInformationByHandle(fh, &fdata)) {
buf->st_ino = 0;
buf->st_gid = 0;
buf->st_uid = 0;
buf->st_nlink = 1;
buf->st_mode = file_attr_to_st_mode(fdata.dwFileAttributes);
buf->st_size = fdata.nFileSizeLow |
(((off_t)fdata.nFileSizeHigh)<<32);
buf->st_dev = buf->st_rdev = 0; /* not used by Git */
buf->st_atime = filetime_to_time_t(&(fdata.ftLastAccessTime));
buf->st_mtime = filetime_to_time_t(&(fdata.ftLastWriteTime));
buf->st_ctime = filetime_to_time_t(&(fdata.ftCreationTime));
return 0;
}
errno = EBADF;
return -1;
}
static inline void time_t_to_filetime(time_t t, FILETIME *ft)
{
long long winTime = t * 10000000LL + 116444736000000000LL;
ft->dwLowDateTime = winTime;
ft->dwHighDateTime = winTime >> 32;
}
int mingw_utime (const char *file_name, const struct utimbuf *times)
{
FILETIME mft, aft;
int fh, rc;
DWORD attrs;
wchar_t wfilename[MAX_PATH];
if (xutftowcs_path(wfilename, file_name) < 0)
return -1;
/* must have write permission */
attrs = GetFileAttributesW(wfilename);
if (attrs != INVALID_FILE_ATTRIBUTES &&
(attrs & FILE_ATTRIBUTE_READONLY)) {
/* ignore errors here; open() will report them */
SetFileAttributesW(wfilename, attrs & ~FILE_ATTRIBUTE_READONLY);
}
if ((fh = _wopen(wfilename, O_RDWR | O_BINARY)) < 0) {
rc = -1;
goto revert_attrs;
}
if (times) {
time_t_to_filetime(times->modtime, &mft);
time_t_to_filetime(times->actime, &aft);
} else {
GetSystemTimeAsFileTime(&mft);
aft = mft;
}
if (!SetFileTime((HANDLE)_get_osfhandle(fh), NULL, &aft, &mft)) {
errno = EINVAL;
rc = -1;
} else
rc = 0;
close(fh);
revert_attrs:
if (attrs != INVALID_FILE_ATTRIBUTES &&
(attrs & FILE_ATTRIBUTE_READONLY)) {
/* ignore errors again */
SetFileAttributesW(wfilename, attrs);
}
return rc;
}
unsigned int sleep (unsigned int seconds)
{
Sleep(seconds*1000);
return 0;
}
char *mingw_mktemp(char *template)
{
wchar_t wtemplate[MAX_PATH];
if (xutftowcs_path(wtemplate, template) < 0)
return NULL;
if (!_wmktemp(wtemplate))
return NULL;
if (xwcstoutf(template, wtemplate, strlen(template) + 1) < 0)
return NULL;
return template;
}
int mkstemp(char *template)
{
char *filename = mktemp(template);
if (filename == NULL)
return -1;
return open(filename, O_RDWR | O_CREAT, 0600);
}
int gettimeofday(struct timeval *tv, void *tz)
{
FILETIME ft;
long long hnsec;
GetSystemTimeAsFileTime(&ft);
hnsec = filetime_to_hnsec(&ft);
tv->tv_sec = hnsec / 10000000;
tv->tv_usec = (hnsec % 10000000) / 10;
return 0;
}
int pipe(int filedes[2])
{
HANDLE h[2];
/* this creates non-inheritable handles */
if (!CreatePipe(&h[0], &h[1], NULL, 8192)) {
errno = err_win_to_posix(GetLastError());
return -1;
}
filedes[0] = _open_osfhandle((int)h[0], O_NOINHERIT);
if (filedes[0] < 0) {
CloseHandle(h[0]);
CloseHandle(h[1]);
return -1;
}
filedes[1] = _open_osfhandle((int)h[1], O_NOINHERIT);
if (filedes[1] < 0) {
close(filedes[0]);
CloseHandle(h[1]);
return -1;
}
return 0;
}
struct tm *gmtime_r(const time_t *timep, struct tm *result)
{
/* gmtime() in MSVCRT.DLL is thread-safe, but not reentrant */
memcpy(result, gmtime(timep), sizeof(struct tm));
return result;
}
struct tm *localtime_r(const time_t *timep, struct tm *result)
{
/* localtime() in MSVCRT.DLL is thread-safe, but not reentrant */
memcpy(result, localtime(timep), sizeof(struct tm));
return result;
}
char *mingw_getcwd(char *pointer, int len)
{
int i;
wchar_t wpointer[MAX_PATH];
if (!_wgetcwd(wpointer, ARRAY_SIZE(wpointer)))
return NULL;
if (xwcstoutf(pointer, wpointer, len) < 0)
return NULL;
for (i = 0; pointer[i]; i++)
if (pointer[i] == '\\')
pointer[i] = '/';
return pointer;
}
/*
* See http://msdn2.microsoft.com/en-us/library/17w5ykft(vs.71).aspx
* (Parsing C++ Command-Line Arguments)
*/
static const char *quote_arg(const char *arg)
{
/* count chars to quote */
int len = 0, n = 0;
int force_quotes = 0;
char *q, *d;
const char *p = arg;
if (!*p) force_quotes = 1;
while (*p) {
if (isspace(*p) || *p == '*' || *p == '?' || *p == '{' || *p == '\'')
force_quotes = 1;
else if (*p == '"')
n++;
else if (*p == '\\') {
int count = 0;
while (*p == '\\') {
count++;
p++;
len++;
}
if (*p == '"')
n += count*2 + 1;
continue;
}
len++;
p++;
}
if (!force_quotes && n == 0)
return arg;
/* insert \ where necessary */
d = q = xmalloc(len+n+3);
*d++ = '"';
while (*arg) {
if (*arg == '"')
*d++ = '\\';
else if (*arg == '\\') {
int count = 0;
while (*arg == '\\') {
count++;
*d++ = *arg++;
}
if (*arg == '"') {
while (count-- > 0)
*d++ = '\\';
*d++ = '\\';
}
}
*d++ = *arg++;
}
*d++ = '"';
*d++ = 0;
return q;
}
static const char *parse_interpreter(const char *cmd)
{
static char buf[100];
char *p, *opt;
int n, fd;
/* don't even try a .exe */
n = strlen(cmd);
if (n >= 4 && !strcasecmp(cmd+n-4, ".exe"))
return NULL;
fd = open(cmd, O_RDONLY);
if (fd < 0)
return NULL;
n = read(fd, buf, sizeof(buf)-1);
close(fd);
if (n < 4) /* at least '#!/x' and not error */
return NULL;
if (buf[0] != '#' || buf[1] != '!')
return NULL;
buf[n] = '\0';
p = buf + strcspn(buf, "\r\n");
if (!*p)
return NULL;
*p = '\0';
if (!(p = strrchr(buf+2, '/')) && !(p = strrchr(buf+2, '\\')))
return NULL;
/* strip options */
if ((opt = strchr(p+1, ' ')))
*opt = '\0';
return p+1;
}
/*
* Splits the PATH into parts.
*/
static char **get_path_split(void)
{
char *p, **path, *envpath = mingw_getenv("PATH");
int i, n = 0;
if (!envpath || !*envpath)
return NULL;
envpath = xstrdup(envpath);
p = envpath;
while (p) {
char *dir = p;
p = strchr(p, ';');
if (p) *p++ = '\0';
if (*dir) { /* not earlier, catches series of ; */
++n;
}
}
if (!n)
return NULL;
path = xmalloc((n+1)*sizeof(char *));
p = envpath;
i = 0;
do {
if (*p)
path[i++] = xstrdup(p);
p = p+strlen(p)+1;
} while (i < n);
path[i] = NULL;
free(envpath);
return path;
}
static void free_path_split(char **path)
{
char **p = path;
if (!path)
return;
while (*p)
free(*p++);
free(path);
}
/*
* exe_only means that we only want to detect .exe files, but not scripts
* (which do not have an extension)
*/
static char *lookup_prog(const char *dir, const char *cmd, int isexe, int exe_only)
{
char path[MAX_PATH];
snprintf(path, sizeof(path), "%s/%s.exe", dir, cmd);
if (!isexe && access(path, F_OK) == 0)
return xstrdup(path);
path[strlen(path)-4] = '\0';
if ((!exe_only || isexe) && access(path, F_OK) == 0)
if (!(GetFileAttributes(path) & FILE_ATTRIBUTE_DIRECTORY))
return xstrdup(path);
return NULL;
}
/*
* Determines the absolute path of cmd using the split path in path.
* If cmd contains a slash or backslash, no lookup is performed.
*/
static char *path_lookup(const char *cmd, char **path, int exe_only)
{
char *prog = NULL;
int len = strlen(cmd);
int isexe = len >= 4 && !strcasecmp(cmd+len-4, ".exe");
if (strchr(cmd, '/') || strchr(cmd, '\\'))
prog = xstrdup(cmd);
while (!prog && *path)
prog = lookup_prog(*path++, cmd, isexe, exe_only);
return prog;
}
static int do_putenv(char **env, const char *name, int size, int free_old);
/* used number of elements of environ array, including terminating NULL */
static int environ_size = 0;
/* allocated size of environ array, in bytes */
static int environ_alloc = 0;
/*
* Create environment block suitable for CreateProcess. Merges current
* process environment and the supplied environment changes.
*/
static wchar_t *make_environment_block(char **deltaenv)
{
wchar_t *wenvblk = NULL;
char **tmpenv;
int i = 0, size = environ_size, wenvsz = 0, wenvpos = 0;
while (deltaenv && deltaenv[i])
i++;
/* copy the environment, leaving space for changes */
tmpenv = xmalloc((size + i) * sizeof(char*));
memcpy(tmpenv, environ, size * sizeof(char*));
/* merge supplied environment changes into the temporary environment */
for (i = 0; deltaenv && deltaenv[i]; i++)
size = do_putenv(tmpenv, deltaenv[i], size, 0);
/* create environment block from temporary environment */
for (i = 0; tmpenv[i]; i++) {
size = 2 * strlen(tmpenv[i]) + 2; /* +2 for final \0 */
ALLOC_GROW(wenvblk, (wenvpos + size) * sizeof(wchar_t), wenvsz);
wenvpos += xutftowcs(&wenvblk[wenvpos], tmpenv[i], size) + 1;
}
/* add final \0 terminator */
wenvblk[wenvpos] = 0;
free(tmpenv);
return wenvblk;
}
struct pinfo_t {
struct pinfo_t *next;
pid_t pid;
HANDLE proc;
};
static struct pinfo_t *pinfo = NULL;
CRITICAL_SECTION pinfo_cs;
static pid_t mingw_spawnve_fd(const char *cmd, const char **argv, char **deltaenv,
const char *dir,
int prepend_cmd, int fhin, int fhout, int fherr)
{
STARTUPINFOW si;
PROCESS_INFORMATION pi;
struct strbuf args;
wchar_t wcmd[MAX_PATH], wdir[MAX_PATH], *wargs, *wenvblk = NULL;
unsigned flags = CREATE_UNICODE_ENVIRONMENT;
BOOL ret;
/* Determine whether or not we are associated to a console */
HANDLE cons = CreateFile("CONOUT$", GENERIC_WRITE,
FILE_SHARE_WRITE, NULL, OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL, NULL);
if (cons == INVALID_HANDLE_VALUE) {
/* There is no console associated with this process.
* Since the child is a console process, Windows
* would normally create a console window. But
* since we'll be redirecting std streams, we do
* not need the console.
* It is necessary to use DETACHED_PROCESS
* instead of CREATE_NO_WINDOW to make ssh
* recognize that it has no console.
*/
flags |= DETACHED_PROCESS;
} else {
/* There is already a console. If we specified
* DETACHED_PROCESS here, too, Windows would
* disassociate the child from the console.
* The same is true for CREATE_NO_WINDOW.
* Go figure!
*/
CloseHandle(cons);
}
memset(&si, 0, sizeof(si));
si.cb = sizeof(si);
si.dwFlags = STARTF_USESTDHANDLES;
si.hStdInput = winansi_get_osfhandle(fhin);
si.hStdOutput = winansi_get_osfhandle(fhout);
si.hStdError = winansi_get_osfhandle(fherr);
if (xutftowcs_path(wcmd, cmd) < 0)
return -1;
if (dir && xutftowcs_path(wdir, dir) < 0)
return -1;
/* concatenate argv, quoting args as we go */
strbuf_init(&args, 0);
if (prepend_cmd) {
char *quoted = (char *)quote_arg(cmd);
strbuf_addstr(&args, quoted);
if (quoted != cmd)
free(quoted);
}
for (; *argv; argv++) {
char *quoted = (char *)quote_arg(*argv);
if (*args.buf)
strbuf_addch(&args, ' ');
strbuf_addstr(&args, quoted);
if (quoted != *argv)
free(quoted);
}
wargs = xmalloc((2 * args.len + 1) * sizeof(wchar_t));
xutftowcs(wargs, args.buf, 2 * args.len + 1);
strbuf_release(&args);
wenvblk = make_environment_block(deltaenv);
memset(&pi, 0, sizeof(pi));
ret = CreateProcessW(wcmd, wargs, NULL, NULL, TRUE, flags,
wenvblk, dir ? wdir : NULL, &si, &pi);
free(wenvblk);
free(wargs);
if (!ret) {
errno = ENOENT;
return -1;
}
CloseHandle(pi.hThread);
/*
* The process ID is the human-readable identifier of the process
* that we want to present in log and error messages. The handle
* is not useful for this purpose. But we cannot close it, either,
* because it is not possible to turn a process ID into a process
* handle after the process terminated.
* Keep the handle in a list for waitpid.
*/
EnterCriticalSection(&pinfo_cs);
{
struct pinfo_t *info = xmalloc(sizeof(struct pinfo_t));
info->pid = pi.dwProcessId;
info->proc = pi.hProcess;
info->next = pinfo;
pinfo = info;
}
LeaveCriticalSection(&pinfo_cs);
return (pid_t)pi.dwProcessId;
}
static pid_t mingw_spawnv(const char *cmd, const char **argv, int prepend_cmd)
{
return mingw_spawnve_fd(cmd, argv, NULL, NULL, prepend_cmd, 0, 1, 2);
}
pid_t mingw_spawnvpe(const char *cmd, const char **argv, char **deltaenv,
const char *dir,
int fhin, int fhout, int fherr)
{
pid_t pid;
char **path = get_path_split();
char *prog = path_lookup(cmd, path, 0);
if (!prog) {
errno = ENOENT;
pid = -1;
}
else {
const char *interpr = parse_interpreter(prog);
if (interpr) {
const char *argv0 = argv[0];
char *iprog = path_lookup(interpr, path, 1);
argv[0] = prog;
if (!iprog) {
errno = ENOENT;
pid = -1;
}
else {
pid = mingw_spawnve_fd(iprog, argv, deltaenv, dir, 1,
fhin, fhout, fherr);
free(iprog);
}
argv[0] = argv0;
}
else
pid = mingw_spawnve_fd(prog, argv, deltaenv, dir, 0,
fhin, fhout, fherr);
free(prog);
}
free_path_split(path);
return pid;
}
static int try_shell_exec(const char *cmd, char *const *argv)
{
const char *interpr = parse_interpreter(cmd);
char **path;
char *prog;
int pid = 0;
if (!interpr)
return 0;
path = get_path_split();
prog = path_lookup(interpr, path, 1);
if (prog) {
int argc = 0;
const char **argv2;
while (argv[argc]) argc++;
argv2 = xmalloc(sizeof(*argv) * (argc+1));
argv2[0] = (char *)cmd; /* full path to the script file */
memcpy(&argv2[1], &argv[1], sizeof(*argv) * argc);
pid = mingw_spawnv(prog, argv2, 1);
if (pid >= 0) {
int status;
if (waitpid(pid, &status, 0) < 0)
status = 255;
exit(status);
}
pid = 1; /* indicate that we tried but failed */
free(prog);
free(argv2);
}
free_path_split(path);
return pid;
}
int mingw_execv(const char *cmd, char *const *argv)
{
/* check if git_command is a shell script */
if (!try_shell_exec(cmd, argv)) {
int pid, status;
pid = mingw_spawnv(cmd, (const char **)argv, 0);
if (pid < 0)
return -1;
if (waitpid(pid, &status, 0) < 0)
status = 255;
exit(status);
}
return -1;
}
int mingw_execvp(const char *cmd, char *const *argv)
{
char **path = get_path_split();
char *prog = path_lookup(cmd, path, 0);
if (prog) {
mingw_execv(prog, argv);
free(prog);
} else
errno = ENOENT;
free_path_split(path);
return -1;
}
int mingw_kill(pid_t pid, int sig)
{
if (pid > 0 && sig == SIGTERM) {
HANDLE h = OpenProcess(PROCESS_TERMINATE, FALSE, pid);
if (TerminateProcess(h, -1)) {
CloseHandle(h);
return 0;
}
errno = err_win_to_posix(GetLastError());
CloseHandle(h);
return -1;
} else if (pid > 0 && sig == 0) {
HANDLE h = OpenProcess(PROCESS_QUERY_INFORMATION, FALSE, pid);
if (h) {
CloseHandle(h);
return 0;
}
}
errno = EINVAL;
return -1;
}
/*
* Compare environment entries by key (i.e. stopping at '=' or '\0').
*/
static int compareenv(const void *v1, const void *v2)
{
const char *e1 = *(const char**)v1;
const char *e2 = *(const char**)v2;
for (;;) {
int c1 = *e1++;
int c2 = *e2++;
c1 = (c1 == '=') ? 0 : tolower(c1);
c2 = (c2 == '=') ? 0 : tolower(c2);
if (c1 > c2)
return 1;
if (c1 < c2)
return -1;
if (c1 == 0)
return 0;
}
}
static int bsearchenv(char **env, const char *name, size_t size)
{
unsigned low = 0, high = size;
while (low < high) {
unsigned mid = low + ((high - low) >> 1);
int cmp = compareenv(&env[mid], &name);
if (cmp < 0)
low = mid + 1;
else if (cmp > 0)
high = mid;
else
return mid;
}
return ~low; /* not found, return 1's complement of insert position */
}
/*
* If name contains '=', then sets the variable, otherwise it unsets it
* Size includes the terminating NULL. Env must have room for size + 1 entries
* (in case of insert). Returns the new size. Optionally frees removed entries.
*/
static int do_putenv(char **env, const char *name, int size, int free_old)
{
int i = bsearchenv(env, name, size - 1);
/* optionally free removed / replaced entry */
if (i >= 0 && free_old)
free(env[i]);
if (strchr(name, '=')) {
/* if new value ('key=value') is specified, insert or replace entry */
if (i < 0) {
i = ~i;
memmove(&env[i + 1], &env[i], (size - i) * sizeof(char*));
size++;
}
env[i] = (char*) name;
} else if (i >= 0) {
/* otherwise ('key') remove existing entry */
size--;
memmove(&env[i], &env[i + 1], (size - i) * sizeof(char*));
}
return size;
}
char *mingw_getenv(const char *name)
{
char *value;
int pos = bsearchenv(environ, name, environ_size - 1);
if (pos < 0)
return NULL;
value = strchr(environ[pos], '=');
return value ? &value[1] : NULL;
}
int mingw_putenv(const char *namevalue)
{
ALLOC_GROW(environ, (environ_size + 1) * sizeof(char*), environ_alloc);
environ_size = do_putenv(environ, namevalue, environ_size, 1);
return 0;
}
/*
* Note, this isn't a complete replacement for getaddrinfo. It assumes
* that service contains a numerical port, or that it is null. It
* does a simple search using gethostbyname, and returns one IPv4 host
* if one was found.
*/
static int WSAAPI getaddrinfo_stub(const char *node, const char *service,
const struct addrinfo *hints,
struct addrinfo **res)
{
struct hostent *h = NULL;
struct addrinfo *ai;
struct sockaddr_in *sin;
if (node) {
h = gethostbyname(node);
if (!h)
return WSAGetLastError();
}
ai = xmalloc(sizeof(struct addrinfo));
*res = ai;
ai->ai_flags = 0;
ai->ai_family = AF_INET;
ai->ai_socktype = hints ? hints->ai_socktype : 0;
switch (ai->ai_socktype) {
case SOCK_STREAM:
ai->ai_protocol = IPPROTO_TCP;
break;
case SOCK_DGRAM:
ai->ai_protocol = IPPROTO_UDP;
break;
default:
ai->ai_protocol = 0;
break;
}
ai->ai_addrlen = sizeof(struct sockaddr_in);
if (hints && (hints->ai_flags & AI_CANONNAME))
ai->ai_canonname = h ? xstrdup(h->h_name) : NULL;
else
ai->ai_canonname = NULL;
sin = xcalloc(1, ai->ai_addrlen);
sin->sin_family = AF_INET;
/* Note: getaddrinfo is supposed to allow service to be a string,
* which should be looked up using getservbyname. This is
* currently not implemented */
if (service)
sin->sin_port = htons(atoi(service));
if (h)
sin->sin_addr = *(struct in_addr *)h->h_addr;
else if (hints && (hints->ai_flags & AI_PASSIVE))
sin->sin_addr.s_addr = INADDR_ANY;
else
sin->sin_addr.s_addr = INADDR_LOOPBACK;
ai->ai_addr = (struct sockaddr *)sin;
ai->ai_next = NULL;
return 0;
}
static void WSAAPI freeaddrinfo_stub(struct addrinfo *res)
{
free(res->ai_canonname);
free(res->ai_addr);
free(res);
}
static int WSAAPI getnameinfo_stub(const struct sockaddr *sa, socklen_t salen,
char *host, DWORD hostlen,
char *serv, DWORD servlen, int flags)
{
const struct sockaddr_in *sin = (const struct sockaddr_in *)sa;
if (sa->sa_family != AF_INET)
return EAI_FAMILY;
if (!host && !serv)
return EAI_NONAME;
if (host && hostlen > 0) {
struct hostent *ent = NULL;
if (!(flags & NI_NUMERICHOST))
ent = gethostbyaddr((const char *)&sin->sin_addr,
sizeof(sin->sin_addr), AF_INET);
if (ent)
snprintf(host, hostlen, "%s", ent->h_name);
else if (flags & NI_NAMEREQD)
return EAI_NONAME;
else
snprintf(host, hostlen, "%s", inet_ntoa(sin->sin_addr));
}
if (serv && servlen > 0) {
struct servent *ent = NULL;
if (!(flags & NI_NUMERICSERV))
ent = getservbyport(sin->sin_port,
flags & NI_DGRAM ? "udp" : "tcp");
if (ent)
snprintf(serv, servlen, "%s", ent->s_name);
else
snprintf(serv, servlen, "%d", ntohs(sin->sin_port));
}
return 0;
}
static HMODULE ipv6_dll = NULL;
static void (WSAAPI *ipv6_freeaddrinfo)(struct addrinfo *res);
static int (WSAAPI *ipv6_getaddrinfo)(const char *node, const char *service,
const struct addrinfo *hints,
struct addrinfo **res);
static int (WSAAPI *ipv6_getnameinfo)(const struct sockaddr *sa, socklen_t salen,
char *host, DWORD hostlen,
char *serv, DWORD servlen, int flags);
/*
* gai_strerror is an inline function in the ws2tcpip.h header, so we
* don't need to try to load that one dynamically.
*/
static void socket_cleanup(void)
{
WSACleanup();
if (ipv6_dll)
FreeLibrary(ipv6_dll);
ipv6_dll = NULL;
ipv6_freeaddrinfo = freeaddrinfo_stub;
ipv6_getaddrinfo = getaddrinfo_stub;
ipv6_getnameinfo = getnameinfo_stub;
}
static void ensure_socket_initialization(void)
{
WSADATA wsa;
static int initialized = 0;
const char *libraries[] = { "ws2_32.dll", "wship6.dll", NULL };
const char **name;
if (initialized)
return;
if (WSAStartup(MAKEWORD(2,2), &wsa))
die("unable to initialize winsock subsystem, error %d",
WSAGetLastError());
for (name = libraries; *name; name++) {
ipv6_dll = LoadLibrary(*name);
if (!ipv6_dll)
continue;
ipv6_freeaddrinfo = (void (WSAAPI *)(struct addrinfo *))
GetProcAddress(ipv6_dll, "freeaddrinfo");
ipv6_getaddrinfo = (int (WSAAPI *)(const char *, const char *,
const struct addrinfo *,
struct addrinfo **))
GetProcAddress(ipv6_dll, "getaddrinfo");
ipv6_getnameinfo = (int (WSAAPI *)(const struct sockaddr *,
socklen_t, char *, DWORD,
char *, DWORD, int))
GetProcAddress(ipv6_dll, "getnameinfo");
if (!ipv6_freeaddrinfo || !ipv6_getaddrinfo || !ipv6_getnameinfo) {
FreeLibrary(ipv6_dll);
ipv6_dll = NULL;
} else
break;
}
if (!ipv6_freeaddrinfo || !ipv6_getaddrinfo || !ipv6_getnameinfo) {
ipv6_freeaddrinfo = freeaddrinfo_stub;
ipv6_getaddrinfo = getaddrinfo_stub;
ipv6_getnameinfo = getnameinfo_stub;
}
atexit(socket_cleanup);
initialized = 1;
}
#undef gethostname
int mingw_gethostname(char *name, int namelen)
{
ensure_socket_initialization();
return gethostname(name, namelen);
}
#undef gethostbyname
struct hostent *mingw_gethostbyname(const char *host)
{
ensure_socket_initialization();
return gethostbyname(host);
}
void mingw_freeaddrinfo(struct addrinfo *res)
{
ipv6_freeaddrinfo(res);
}
int mingw_getaddrinfo(const char *node, const char *service,
const struct addrinfo *hints, struct addrinfo **res)
{
ensure_socket_initialization();
return ipv6_getaddrinfo(node, service, hints, res);
}
int mingw_getnameinfo(const struct sockaddr *sa, socklen_t salen,
char *host, DWORD hostlen, char *serv, DWORD servlen,
int flags)
{
ensure_socket_initialization();
return ipv6_getnameinfo(sa, salen, host, hostlen, serv, servlen, flags);
}
int mingw_socket(int domain, int type, int protocol)
{
int sockfd;
SOCKET s;
ensure_socket_initialization();
s = WSASocket(domain, type, protocol, NULL, 0, 0);
if (s == INVALID_SOCKET) {
/*
* WSAGetLastError() values are regular BSD error codes
* biased by WSABASEERR.
* However, strerror() does not know about networking
* specific errors, which are values beginning at 38 or so.
* Therefore, we choose to leave the biased error code
* in errno so that _if_ someone looks up the code somewhere,
* then it is at least the number that are usually listed.
*/
errno = WSAGetLastError();
return -1;
}
/* convert into a file descriptor */
if ((sockfd = _open_osfhandle(s, O_RDWR|O_BINARY)) < 0) {
closesocket(s);
return error("unable to make a socket file descriptor: %s",
strerror(errno));
}
return sockfd;
}
#undef connect
int mingw_connect(int sockfd, struct sockaddr *sa, size_t sz)
{
SOCKET s = (SOCKET)_get_osfhandle(sockfd);
return connect(s, sa, sz);
}
#undef bind
int mingw_bind(int sockfd, struct sockaddr *sa, size_t sz)
{
SOCKET s = (SOCKET)_get_osfhandle(sockfd);
return bind(s, sa, sz);
}
#undef setsockopt
int mingw_setsockopt(int sockfd, int lvl, int optname, void *optval, int optlen)
{
SOCKET s = (SOCKET)_get_osfhandle(sockfd);
return setsockopt(s, lvl, optname, (const char*)optval, optlen);
}
#undef shutdown
int mingw_shutdown(int sockfd, int how)
{
SOCKET s = (SOCKET)_get_osfhandle(sockfd);
return shutdown(s, how);
}
#undef listen
int mingw_listen(int sockfd, int backlog)
{
SOCKET s = (SOCKET)_get_osfhandle(sockfd);
return listen(s, backlog);
}
#undef accept
int mingw_accept(int sockfd1, struct sockaddr *sa, socklen_t *sz)
{
int sockfd2;
SOCKET s1 = (SOCKET)_get_osfhandle(sockfd1);
SOCKET s2 = accept(s1, sa, sz);
/* convert into a file descriptor */
if ((sockfd2 = _open_osfhandle(s2, O_RDWR|O_BINARY)) < 0) {
int err = errno;
closesocket(s2);
return error("unable to make a socket file descriptor: %s",
strerror(err));
}
return sockfd2;
}
#undef rename
int mingw_rename(const char *pold, const char *pnew)
{
DWORD attrs, gle;
int tries = 0;
wchar_t wpold[MAX_PATH], wpnew[MAX_PATH];
if (xutftowcs_path(wpold, pold) < 0 || xutftowcs_path(wpnew, pnew) < 0)
return -1;
/*
* Try native rename() first to get errno right.
* It is based on MoveFile(), which cannot overwrite existing files.
*/
if (!_wrename(wpold, wpnew))
return 0;
if (errno != EEXIST)
return -1;
repeat:
if (MoveFileExW(wpold, wpnew, MOVEFILE_REPLACE_EXISTING))
return 0;
/* TODO: translate more errors */
gle = GetLastError();
if (gle == ERROR_ACCESS_DENIED &&
(attrs = GetFileAttributesW(wpnew)) != INVALID_FILE_ATTRIBUTES) {
if (attrs & FILE_ATTRIBUTE_DIRECTORY) {
errno = EISDIR;
return -1;
}
if ((attrs & FILE_ATTRIBUTE_READONLY) &&
SetFileAttributesW(wpnew, attrs & ~FILE_ATTRIBUTE_READONLY)) {
if (MoveFileExW(wpold, wpnew, MOVEFILE_REPLACE_EXISTING))
return 0;
gle = GetLastError();
/* revert file attributes on failure */
SetFileAttributesW(wpnew, attrs);
}
}
if (tries < ARRAY_SIZE(delay) && gle == ERROR_ACCESS_DENIED) {
/*
* We assume that some other process had the source or
* destination file open at the wrong moment and retry.
* In order to give the other process a higher chance to
* complete its operation, we give up our time slice now.
* If we have to retry again, we do sleep a bit.
*/
Sleep(delay[tries]);
tries++;
goto repeat;
}
if (gle == ERROR_ACCESS_DENIED &&
ask_yes_no_if_possible("Rename from '%s' to '%s' failed. "
"Should I try again?", pold, pnew))
goto repeat;
errno = EACCES;
return -1;
}
/*
* Note that this doesn't return the actual pagesize, but
* the allocation granularity. If future Windows specific git code
* needs the real getpagesize function, we need to find another solution.
*/
int mingw_getpagesize(void)
{
SYSTEM_INFO si;
GetSystemInfo(&si);
return si.dwAllocationGranularity;
}
struct passwd *getpwuid(int uid)
{
static char user_name[100];
static struct passwd p;
DWORD len = sizeof(user_name);
if (!GetUserName(user_name, &len))
return NULL;
p.pw_name = user_name;
p.pw_gecos = "unknown";
p.pw_dir = NULL;
return &p;
}
static HANDLE timer_event;
static HANDLE timer_thread;
static int timer_interval;
static int one_shot;
static sig_handler_t timer_fn = SIG_DFL, sigint_fn = SIG_DFL;
/* The timer works like this:
* The thread, ticktack(), is a trivial routine that most of the time
* only waits to receive the signal to terminate. The main thread tells
* the thread to terminate by setting the timer_event to the signalled
* state.
* But ticktack() interrupts the wait state after the timer's interval
* length to call the signal handler.
*/
static unsigned __stdcall ticktack(void *dummy)
{
while (WaitForSingleObject(timer_event, timer_interval) == WAIT_TIMEOUT) {
mingw_raise(SIGALRM);
if (one_shot)
break;
}
return 0;
}
static int start_timer_thread(void)
{
timer_event = CreateEvent(NULL, FALSE, FALSE, NULL);
if (timer_event) {
timer_thread = (HANDLE) _beginthreadex(NULL, 0, ticktack, NULL, 0, NULL);
if (!timer_thread )
return errno = ENOMEM,
error("cannot start timer thread");
} else
return errno = ENOMEM,
error("cannot allocate resources for timer");
return 0;
}
static void stop_timer_thread(void)
{
if (timer_event)
SetEvent(timer_event); /* tell thread to terminate */
if (timer_thread) {
int rc = WaitForSingleObject(timer_thread, 1000);
if (rc == WAIT_TIMEOUT)
error("timer thread did not terminate timely");
else if (rc != WAIT_OBJECT_0)
error("waiting for timer thread failed: %lu",
GetLastError());
CloseHandle(timer_thread);
}
if (timer_event)
CloseHandle(timer_event);
timer_event = NULL;
timer_thread = NULL;
}
static inline int is_timeval_eq(const struct timeval *i1, const struct timeval *i2)
{
return i1->tv_sec == i2->tv_sec && i1->tv_usec == i2->tv_usec;
}
int setitimer(int type, struct itimerval *in, struct itimerval *out)
{
static const struct timeval zero;
static int atexit_done;
if (out != NULL)
return errno = EINVAL,
error("setitimer param 3 != NULL not implemented");
if (!is_timeval_eq(&in->it_interval, &zero) &&
!is_timeval_eq(&in->it_interval, &in->it_value))
return errno = EINVAL,
error("setitimer: it_interval must be zero or eq it_value");
if (timer_thread)
stop_timer_thread();
if (is_timeval_eq(&in->it_value, &zero) &&
is_timeval_eq(&in->it_interval, &zero))
return 0;
timer_interval = in->it_value.tv_sec * 1000 + in->it_value.tv_usec / 1000;
one_shot = is_timeval_eq(&in->it_interval, &zero);
if (!atexit_done) {
atexit(stop_timer_thread);
atexit_done = 1;
}
return start_timer_thread();
}
int sigaction(int sig, struct sigaction *in, struct sigaction *out)
{
if (sig != SIGALRM)
return errno = EINVAL,
error("sigaction only implemented for SIGALRM");
if (out != NULL)
return errno = EINVAL,
error("sigaction: param 3 != NULL not implemented");
timer_fn = in->sa_handler;
return 0;
}
#undef signal
sig_handler_t mingw_signal(int sig, sig_handler_t handler)
{
sig_handler_t old;
switch (sig) {
case SIGALRM:
old = timer_fn;
timer_fn = handler;
break;
case SIGINT:
old = sigint_fn;
sigint_fn = handler;
break;
default:
return signal(sig, handler);
}
return old;
}
#undef raise
int mingw_raise(int sig)
{
switch (sig) {
case SIGALRM:
if (timer_fn == SIG_DFL) {
if (isatty(STDERR_FILENO))
fputs("Alarm clock\n", stderr);
exit(128 + SIGALRM);
} else if (timer_fn != SIG_IGN)
timer_fn(SIGALRM);
return 0;
case SIGINT:
if (sigint_fn == SIG_DFL)
exit(128 + SIGINT);
else if (sigint_fn != SIG_IGN)
sigint_fn(SIGINT);
return 0;
default:
return raise(sig);
}
}
static const char *make_backslash_path(const char *path)
{
static char buf[PATH_MAX + 1];
char *c;
if (strlcpy(buf, path, PATH_MAX) >= PATH_MAX)
die("Too long path: %.*s", 60, path);
for (c = buf; *c; c++) {
if (*c == '/')
*c = '\\';
}
return buf;
}
void mingw_open_html(const char *unixpath)
{
const char *htmlpath = make_backslash_path(unixpath);
typedef HINSTANCE (WINAPI *T)(HWND, const char *,
const char *, const char *, const char *, INT);
T ShellExecute;
HMODULE shell32;
int r;
shell32 = LoadLibrary("shell32.dll");
if (!shell32)
die("cannot load shell32.dll");
ShellExecute = (T)GetProcAddress(shell32, "ShellExecuteA");
if (!ShellExecute)
die("cannot run browser");
printf("Launching default browser to display HTML ...\n");
r = (int)ShellExecute(NULL, "open", htmlpath, NULL, "\\", SW_SHOWNORMAL);
FreeLibrary(shell32);
/* see the MSDN documentation referring to the result codes here */
if (r <= 32) {
die("failed to launch browser for %.*s", MAX_PATH, unixpath);
}
}
int link(const char *oldpath, const char *newpath)
{
typedef BOOL (WINAPI *T)(LPCWSTR, LPCWSTR, LPSECURITY_ATTRIBUTES);
static T create_hard_link = NULL;
wchar_t woldpath[MAX_PATH], wnewpath[MAX_PATH];
if (xutftowcs_path(woldpath, oldpath) < 0 ||
xutftowcs_path(wnewpath, newpath) < 0)
return -1;
if (!create_hard_link) {
create_hard_link = (T) GetProcAddress(
GetModuleHandle("kernel32.dll"), "CreateHardLinkW");
if (!create_hard_link)
create_hard_link = (T)-1;
}
if (create_hard_link == (T)-1) {
errno = ENOSYS;
return -1;
}
if (!create_hard_link(wnewpath, woldpath, NULL)) {
errno = err_win_to_posix(GetLastError());
return -1;
}
return 0;
}
pid_t waitpid(pid_t pid, int *status, int options)
{
HANDLE h = OpenProcess(SYNCHRONIZE | PROCESS_QUERY_INFORMATION,
FALSE, pid);
if (!h) {
errno = ECHILD;
return -1;
}
if (pid > 0 && options & WNOHANG) {
if (WAIT_OBJECT_0 != WaitForSingleObject(h, 0)) {
CloseHandle(h);
return 0;
}
options &= ~WNOHANG;
}
if (options == 0) {
struct pinfo_t **ppinfo;
if (WaitForSingleObject(h, INFINITE) != WAIT_OBJECT_0) {
CloseHandle(h);
return 0;
}
if (status)
GetExitCodeProcess(h, (LPDWORD)status);
EnterCriticalSection(&pinfo_cs);
ppinfo = &pinfo;
while (*ppinfo) {
struct pinfo_t *info = *ppinfo;
if (info->pid == pid) {
CloseHandle(info->proc);
*ppinfo = info->next;
free(info);
break;
}
ppinfo = &info->next;
}
LeaveCriticalSection(&pinfo_cs);
CloseHandle(h);
return pid;
}
CloseHandle(h);
errno = EINVAL;
return -1;
}
int mingw_offset_1st_component(const char *path)
{
int offset = 0;
if (has_dos_drive_prefix(path))
offset = 2;
/* unc paths */
else if (is_dir_sep(path[0]) && is_dir_sep(path[1])) {
/* skip server name */
char *pos = strpbrk(path + 2, "\\/");
if (!pos)
return 0; /* Error: malformed unc path */
do {
pos++;
} while (*pos && !is_dir_sep(*pos));
offset = pos - path;
}
return offset + is_dir_sep(path[offset]);
}
int xutftowcsn(wchar_t *wcs, const char *utfs, size_t wcslen, int utflen)
{
int upos = 0, wpos = 0;
const unsigned char *utf = (const unsigned char*) utfs;
if (!utf || !wcs || wcslen < 1) {
errno = EINVAL;
return -1;
}
/* reserve space for \0 */
wcslen--;
if (utflen < 0)
utflen = INT_MAX;
while (upos < utflen) {
int c = utf[upos++] & 0xff;
if (utflen == INT_MAX && c == 0)
break;
if (wpos >= wcslen) {
wcs[wpos] = 0;
errno = ERANGE;
return -1;
}
if (c < 0x80) {
/* ASCII */
wcs[wpos++] = c;
} else if (c >= 0xc2 && c < 0xe0 && upos < utflen &&
(utf[upos] & 0xc0) == 0x80) {
/* 2-byte utf-8 */
c = ((c & 0x1f) << 6);
c |= (utf[upos++] & 0x3f);
wcs[wpos++] = c;
} else if (c >= 0xe0 && c < 0xf0 && upos + 1 < utflen &&
!(c == 0xe0 && utf[upos] < 0xa0) && /* over-long encoding */
(utf[upos] & 0xc0) == 0x80 &&
(utf[upos + 1] & 0xc0) == 0x80) {
/* 3-byte utf-8 */
c = ((c & 0x0f) << 12);
c |= ((utf[upos++] & 0x3f) << 6);
c |= (utf[upos++] & 0x3f);
wcs[wpos++] = c;
} else if (c >= 0xf0 && c < 0xf5 && upos + 2 < utflen &&
wpos + 1 < wcslen &&
!(c == 0xf0 && utf[upos] < 0x90) && /* over-long encoding */
!(c == 0xf4 && utf[upos] >= 0x90) && /* > \u10ffff */
(utf[upos] & 0xc0) == 0x80 &&
(utf[upos + 1] & 0xc0) == 0x80 &&
(utf[upos + 2] & 0xc0) == 0x80) {
/* 4-byte utf-8: convert to \ud8xx \udcxx surrogate pair */
c = ((c & 0x07) << 18);
c |= ((utf[upos++] & 0x3f) << 12);
c |= ((utf[upos++] & 0x3f) << 6);
c |= (utf[upos++] & 0x3f);
c -= 0x10000;
wcs[wpos++] = 0xd800 | (c >> 10);
wcs[wpos++] = 0xdc00 | (c & 0x3ff);
} else if (c >= 0xa0) {
/* invalid utf-8 byte, printable unicode char: convert 1:1 */
wcs[wpos++] = c;
} else {
/* invalid utf-8 byte, non-printable unicode: convert to hex */
static const char *hex = "0123456789abcdef";
wcs[wpos++] = hex[c >> 4];
if (wpos < wcslen)
wcs[wpos++] = hex[c & 0x0f];
}
}
wcs[wpos] = 0;
return wpos;
}
int xwcstoutf(char *utf, const wchar_t *wcs, size_t utflen)
{
if (!wcs || !utf || utflen < 1) {
errno = EINVAL;
return -1;
}
utflen = WideCharToMultiByte(CP_UTF8, 0, wcs, -1, utf, utflen, NULL, NULL);
if (utflen)
return utflen - 1;
errno = ERANGE;
return -1;
}
/*
* Disable MSVCRT command line wildcard expansion (__getmainargs called from
* mingw startup code, see init.c in mingw runtime).
*/
int _CRT_glob = 0;
typedef struct {
int newmode;
} _startupinfo;
extern int __wgetmainargs(int *argc, wchar_t ***argv, wchar_t ***env, int glob,
_startupinfo *si);
static NORETURN void die_startup()
{
fputs("fatal: not enough memory for initialization", stderr);
exit(128);
}
static void *malloc_startup(size_t size)
{
void *result = malloc(size);
if (!result)
die_startup();
return result;
}
static char *wcstoutfdup_startup(char *buffer, const wchar_t *wcs, size_t len)
{
len = xwcstoutf(buffer, wcs, len) + 1;
return memcpy(malloc_startup(len), buffer, len);
}
void mingw_startup()
{
int i, maxlen, argc;
char *buffer;
wchar_t **wenv, **wargv;
_startupinfo si;
/* get wide char arguments and environment */
si.newmode = 0;
if (__wgetmainargs(&argc, &wargv, &wenv, _CRT_glob, &si) < 0)
die_startup();
/* determine size of argv and environ conversion buffer */
maxlen = wcslen(_wpgmptr);
for (i = 1; i < argc; i++)
maxlen = max(maxlen, wcslen(wargv[i]));
for (i = 0; wenv[i]; i++)
maxlen = max(maxlen, wcslen(wenv[i]));
/*
* nedmalloc can't free CRT memory, allocate resizable environment
* list. Note that xmalloc / xmemdupz etc. call getenv, so we cannot
* use it while initializing the environment itself.
*/
environ_size = i + 1;
environ_alloc = alloc_nr(environ_size * sizeof(char*));
environ = malloc_startup(environ_alloc);
/* allocate buffer (wchar_t encodes to max 3 UTF-8 bytes) */
maxlen = 3 * maxlen + 1;
buffer = malloc_startup(maxlen);
/* convert command line arguments and environment to UTF-8 */
__argv[0] = wcstoutfdup_startup(buffer, _wpgmptr, maxlen);
for (i = 1; i < argc; i++)
__argv[i] = wcstoutfdup_startup(buffer, wargv[i], maxlen);
for (i = 0; wenv[i]; i++)
environ[i] = wcstoutfdup_startup(buffer, wenv[i], maxlen);
environ[i] = NULL;
free(buffer);
/* sort environment for O(log n) getenv / putenv */
qsort(environ, i, sizeof(char*), compareenv);
/* fix Windows specific environment settings */
/* on Windows it is TMP and TEMP */
if (!mingw_getenv("TMPDIR")) {
const char *tmp = mingw_getenv("TMP");
if (!tmp)
tmp = mingw_getenv("TEMP");
if (tmp)
setenv("TMPDIR", tmp, 1);
}
/* simulate TERM to enable auto-color (see color.c) */
if (!getenv("TERM"))
setenv("TERM", "cygwin", 1);
/* initialize critical section for waitpid pinfo_t list */
InitializeCriticalSection(&pinfo_cs);
/* set up default file mode and file modes for stdin/out/err */
_fmode = _O_BINARY;
_setmode(_fileno(stdin), _O_BINARY);
_setmode(_fileno(stdout), _O_BINARY);
_setmode(_fileno(stderr), _O_BINARY);
/* initialize Unicode console */
winansi_init();
}
int uname(struct utsname *buf)
{
DWORD v = GetVersion();
memset(buf, 0, sizeof(*buf));
xsnprintf(buf->sysname, sizeof(buf->sysname), "Windows");
xsnprintf(buf->release, sizeof(buf->release),
"%u.%u", v & 0xff, (v >> 8) & 0xff);
/* assuming NT variants only.. */
xsnprintf(buf->version, sizeof(buf->version),
"%u", (v >> 16) & 0x7fff);
return 0;
}