/* * Copyright (c) 2001, 2022, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions.
*/
/* If this returns NULL then an exception is pending */
WCHAR*
fileToNTPath(JNIEnv *env, jobject file, jfieldID id) {
jstring path = NULL; if (file != NULL) {
path = (*env)->GetObjectField(env, file, id);
} return pathToNTPath(env, path, JNI_FALSE);
}
/* Returns the working directory for the given drive, or NULL */
WCHAR*
currentDir(int di) {
UINT dt;
WCHAR root[4]; // verify drive is valid as _wgetdcwd in the VC++ 2010 runtime // library does not handle invalid drives.
root[0] = L'A' + (WCHAR)(di - 1);
root[1] = L':';
root[2] = L'\\';
root[3] = L'\0';
dt = GetDriveTypeW(root); if (dt == DRIVE_UNKNOWN || dt == DRIVE_NO_ROOT_DIR) { return NULL;
} else { return _wgetdcwd(di, NULL, MAX_PATH);
}
}
/* We cache the length of current working dir here to avoid calling _wgetcwd() every time we need to resolve a relative path. This piece of code needs to be revisited if chdir makes its way into java runtime.
*/
int
currentDirLength(const WCHAR* ps, int pathlen) {
WCHAR *dir; if (pathlen > 2 && ps[1] == L':' && ps[2] != L'\\') { //drive-relative
WCHAR d = ps[0]; int dirlen = 0; int di = 0; if ((d >= L'a') && (d <= L'z')) di = d - L'a' + 1; elseif ((d >= L'A') && (d <= L'Z')) di = d - L'A' + 1; elsereturn 0; /* invalid drive name. */
dir = currentDir(di); if (dir != NULL){
dirlen = (int)wcslen(dir);
free(dir);
} return dirlen;
} else { staticint curDirLenCached = -1; //relative to both drive and directory if (curDirLenCached == -1) {
dir = _wgetcwd(NULL, MAX_PATH); if (dir != NULL) {
curDirLenCached = (int)wcslen(dir);
free(dir);
}
} return curDirLenCached;
}
}
/* The "abpathlen" is the size of the buffer needed by _wfullpath. If the "path" is a relative path, it is "the length of the current dir" + "the length of the path", if it's "absolute" already, it's the same as pathlen which is the length of "path".
*/
WCHAR* prefixAbpath(const WCHAR* path, int pathlen, int abpathlen) {
WCHAR* pathbuf = NULL;
WCHAR* abpath = NULL;
abpathlen += 10; //padding
abpath = (WCHAR*)malloc(abpathlen * sizeof(WCHAR)); if (abpath) { /* Collapse instances of "foo\.." and ensure absoluteness before going down to prefixing.
*/ if (_wfullpath(abpath, path, abpathlen)) {
pathbuf = getPrefixed(abpath, abpathlen);
} else { /* _wfullpath fails if the pathlength exceeds 32k wchar. Instead of doing more fancy things we simply copy the ps into the return buffer, the subsequent win32 API will probably fail with FileNotFoundException, which is expected
*/
pathbuf = (WCHAR*)malloc((pathlen + 6) * sizeof(WCHAR)); if (pathbuf != 0) {
wcscpy(pathbuf, path);
}
}
free(abpath);
} return pathbuf;
}
/* If this returns NULL then an exception is pending */
WCHAR*
pathToNTPath(JNIEnv *env, jstring path, jboolean throwFNFE) { int pathlen = 0;
WCHAR *pathbuf = NULL; int max_path = 248; /* CreateDirectoryW() has the limit of 248 */
WITH_UNICODE_STRING(env, path, ps) {
pathlen = (int)wcslen(ps); if (pathlen != 0) { if (pathlen > 2 &&
(ps[0] == L'\\' && ps[1] == L'\\' || //UNC
ps[1] == L':' && ps[2] == L'\\')) //absolute
{ if (pathlen > max_path - 1) {
pathbuf = prefixAbpath(ps, pathlen, pathlen);
} else {
pathbuf = (WCHAR*)malloc((pathlen + 6) * sizeof(WCHAR)); if (pathbuf != 0) {
wcscpy(pathbuf, ps);
}
}
} else { /* If the path came in as a relative path, need to verify if its absolute form is bigger than max_path or not, if yes need to (1)convert it to absolute and (2)prefix. This is obviously a burden to all relative paths (The current dir/len for "drive & directory" relative path is cached, so we only calculate it once but for "drive-relative path we call _wgetdcwd() and wcslen() every time), but a hit we have to take if we want to support relative path beyond max_path. There is no way to predict how long the absolute path will be (therefore allocate the sufficient memory block) before calling _wfullpath(), we have to get the length of "current" dir first.
*/ int dirlen = currentDirLength(ps, pathlen); if (dirlen + pathlen + 1 > max_path - 1) {
pathbuf = prefixAbpath(ps, pathlen, dirlen + pathlen);
} else {
pathbuf = (WCHAR*)malloc((pathlen + 6) * sizeof(WCHAR)); if (pathbuf != 0) {
wcscpy(pathbuf, ps);
}
}
}
}
} END_UNICODE_STRING(env, ps);
if (pathlen == 0) { if (throwFNFE == JNI_TRUE) { if (!(*env)->ExceptionCheck(env)) {
throwFileNotFoundException(env, path);
} return NULL;
} else {
pathbuf = (WCHAR*)malloc(sizeof(WCHAR)); if (pathbuf != NULL) {
pathbuf[0] = L'\0';
}
}
} if (pathbuf == 0) {
JNU_ThrowOutOfMemoryError(env, "native memory allocation failed");
} return pathbuf;
}
/* These are functions that use a handle fd instead of the
old C style int fd as is used in HPI layer */
staticint
handleNonSeekAvailable(FD, long *); staticint
handleStdinAvailable(FD, long *);
int
handleAvailable(FD fd, jlong *pbytes) {
HANDLE h = (HANDLE)fd;
DWORD type = 0;
type = GetFileType(h); /* Handle is for keyboard or pipe */ if (type == FILE_TYPE_CHAR || type == FILE_TYPE_PIPE) { int ret; long lpbytes;
HANDLE stdInHandle = GetStdHandle(STD_INPUT_HANDLE); if (stdInHandle == h) {
ret = handleStdinAvailable(fd, &lpbytes); /* keyboard */
} else {
ret = handleNonSeekAvailable(fd, &lpbytes); /* pipe */
}
(*pbytes) = (jlong)(lpbytes); return ret;
} /* Handle is for regular file */ if (type == FILE_TYPE_DISK) {
jlong current, end;
LARGE_INTEGER filesize;
current = handleLseek(fd, 0, SEEK_CUR); if (current < 0) { returnFALSE;
} if (GetFileSizeEx(h, &filesize) == 0) { returnFALSE;
}
end = long_to_jlong(filesize.QuadPart);
*pbytes = end - current; returnTRUE;
} returnFALSE;
}
staticint
handleNonSeekAvailable(FD fd, long *pbytes) { /* This is used for available on non-seekable devices * (like both named and anonymous pipes, such as pipes * connected to an exec'd process). * Standard Input is a special case. *
*/
HANDLE han;
if ((han = (HANDLE) fd) == INVALID_HANDLE_VALUE) { returnFALSE;
}
if (! PeekNamedPipe(han, NULL, 0, NULL, pbytes, NULL)) { /* PeekNamedPipe fails when at EOF. In that case we * simply make *pbytes = 0 which is consistent with the * behavior we get on Solaris when an fd is at EOF. * The only alternative is to raise and Exception, * which isn't really warranted.
*/ if (GetLastError() != ERROR_BROKEN_PIPE) { returnFALSE;
}
*pbytes = 0;
} returnTRUE;
}
staticint
handleStdinAvailable(FD fd, long *pbytes) {
HANDLE han;
DWORD numEventsRead = 0; /* Number of events read from buffer */
DWORD numEvents = 0; /* Number of events in buffer */
DWORD i = 0; /* Loop index */
DWORD curLength = 0; /* Position marker */
DWORD actualLength = 0; /* Number of bytes readable */ BOOL error = FALSE; /* Error holder */
INPUT_RECORD *lpBuffer; /* Pointer to records of input events */
DWORD bufferSize = 0;
if ((han = GetStdHandle(STD_INPUT_HANDLE)) == INVALID_HANDLE_VALUE) { returnFALSE;
}
/* Construct an array of input records in the console buffer */
error = GetNumberOfConsoleInputEvents(han, &numEvents); if (error == 0) { return handleNonSeekAvailable(fd, pbytes);
}
/* lpBuffer must fit into 64K or else PeekConsoleInput fails */ if (numEvents > MAX_INPUT_EVENTS) {
numEvents = MAX_INPUT_EVENTS;
}
/* Examine input records for the number of bytes available */ for(i=0; i<numEvents; i++) { if (lpBuffer[i].EventType == KEY_EVENT) {
KEY_EVENT_RECORD *keyRecord = (KEY_EVENT_RECORD *)
&(lpBuffer[i].Event); if (keyRecord->bKeyDown == TRUE) { CHAR *keyPressed = (CHAR *) &(keyRecord->uChar);
curLength++; if (*keyPressed == '\r')
actualLength = curLength;
}
}
} if(lpBuffer != NULL)
free(lpBuffer);
*pbytes = (long) actualLength; returnTRUE;
}
/* * This is documented to succeed on read-only files, but Win32's * FlushFileBuffers functions fails with "access denied" in such a * case. So we only signal an error if the error is *not* "access * denied".
*/
int
handleSync(FD fd) { /* * From the documentation: * * On Windows NT, the function FlushFileBuffers fails if hFile * is a handle to console output. That is because console * output is not buffered. The function returns FALSE, and * GetLastError returns ERROR_INVALID_HANDLE. * * On the other hand, on Win95, it returns without error. I cannot * assume that 0, 1, and 2 are console, because if someone closes * System.out and then opens a file, they might get file descriptor * 1. An error on *that* version of 1 should be reported, whereas * an error on System.out (which was the original 1) should be * ignored. So I use isatty() to ensure that such an error was due * to this bogosity, and if it was, I ignore the error.
*/
HANDLE handle = (HANDLE)fd;
if (!FlushFileBuffers(handle)) { if (GetLastError() != ERROR_ACCESS_DENIED) { /* from winerror.h */ return -1;
}
} return 0;
}
// Function to close the fd held by this FileDescriptor and set fd to -1. void
fileDescriptorClose(JNIEnv *env, jobject this)
{
FD fd = (*env)->GetLongField(env, this, IO_handle_fdID);
HANDLE h = (HANDLE)fd; if ((*env)->ExceptionOccurred(env)) { return;
}
if (h == INVALID_HANDLE_VALUE) { return;
}
/* Set the fd to -1 before closing it so that the timing window * of other threads using the wrong fd (closed but recycled fd, * that gets re-opened with some other filename) is reduced. * Practically the chance of its occurrence is low, however, we are * taking extra precaution over here.
*/
(*env)->SetLongField(env, this, IO_handle_fdID, -1); if ((*env)->ExceptionOccurred(env)) { return;
}
if (CloseHandle(h) == 0) { /* Returns zero on failure */
JNU_ThrowIOExceptionWithLastError(env, "close failed");
}
}
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