/* forkable.cc Copyright 2015 Red Hat, Inc. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include "cygerrno.h" #include "perprocess.h" #include "sync.h" #include "dll_init.h" #include "environ.h" #include "security.h" #include "path.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" #include "pinfo.h" #include "shared_info.h" #include "child_info.h" #include "cygtls.h" #include "exception.h" #include #include #include #include /* Allow concurrent processes to use the same dll or exe * via their hardlink while we delete our hardlink. */ extern NTSTATUS unlink_nt_shareable (path_conv &pc); #define MUTEXSEP L"@" #define PATHSEP L"\\" /* Create the lastsepcount directories found in ntdirname, where counting is done along path separators (including trailing ones). Returns true when these directories exist afterwards, false otherways. The ntdirname is used for the path-splitting. */ static bool mkdirs (PWCHAR ntdirname, int lastsepcount) { bool success = true; int i = lastsepcount; for (--i; i > 0; --i) { PWCHAR lastsep = wcsrchr (ntdirname, L'\\'); if (!lastsep) break; *lastsep = L'\0'; } for (++i; i <= lastsepcount; ++i) { if (success && (i == 0 || wcslen (wcsrchr (ntdirname, L'\\')) > 1)) { UNICODE_STRING dn; RtlInitUnicodeString (&dn, ntdirname); OBJECT_ATTRIBUTES oa; InitializeObjectAttributes (&oa, &dn, 0, NULL, sec_none_nih.lpSecurityDescriptor); HANDLE dh = NULL; NTSTATUS status; IO_STATUS_BLOCK iosb; status = NtCreateFile (&dh, GENERIC_READ | SYNCHRONIZE, &oa, &iosb, NULL, FILE_ATTRIBUTE_NORMAL, FILE_SHARE_READ | FILE_SHARE_WRITE, FILE_CREATE, FILE_DIRECTORY_FILE | FILE_SYNCHRONOUS_IO_NONALERT, NULL, 0); if (NT_SUCCESS(status)) NtClose (dh); else if (status != STATUS_OBJECT_NAME_COLLISION) /* already exists */ success = false; debug_printf ("%y = NtCreateFile (%p, dir %W)", status, dh, ntdirname); } if (i < lastsepcount) ntdirname[wcslen (ntdirname)] = L'\\'; /* restore original value */ } return success; } /* Recursively remove the directory specified in ntmaxpathbuf, using ntmaxpathbuf as the buffer to form subsequent filenames. */ static void rmdirs (WCHAR ntmaxpathbuf[NT_MAX_PATH]) { PWCHAR basebuf = wcsrchr (ntmaxpathbuf, L'\\'); /* find last pathsep */ if (basebuf && *(basebuf+1)) basebuf += wcslen (basebuf); /* last pathsep is not trailing one */ if (!basebuf) basebuf = ntmaxpathbuf + wcslen (ntmaxpathbuf); *basebuf = L'\0'; /* kill trailing pathsep, if any */ NTSTATUS status; HANDLE hdir = dll_list::ntopenfile (ntmaxpathbuf, &status, FILE_DIRECTORY_FILE | FILE_DELETE_ON_CLOSE); if (hdir == INVALID_HANDLE_VALUE) return; *basebuf++ = L'\\'; /* (re-)add trailing pathsep */ struct { FILE_DIRECTORY_INFORMATION fdi; WCHAR buf[NAME_MAX]; } fdibuf; IO_STATUS_BLOCK iosb; while (NT_SUCCESS (status = NtQueryDirectoryFile (hdir, NULL, NULL, NULL, &iosb, &fdibuf, sizeof (fdibuf), FileDirectoryInformation, FALSE, NULL, FALSE))) { PFILE_DIRECTORY_INFORMATION pfdi = &fdibuf.fdi; while (true) { int namelen = pfdi->FileNameLength / sizeof (WCHAR); wcsncpy (basebuf, pfdi->FileName, namelen); basebuf[namelen] = L'\0'; if (pfdi->FileAttributes & FILE_ATTRIBUTE_DIRECTORY) { if (wcscmp (basebuf, L".") && wcscmp (basebuf, L"..")) rmdirs (ntmaxpathbuf); } else { UNICODE_STRING fn; RtlInitUnicodeString (&fn, ntmaxpathbuf); path_conv pc (&fn); unlink_nt_shareable (pc); /* move to bin */ } if (!pfdi->NextEntryOffset) break; pfdi = (PFILE_DIRECTORY_INFORMATION)((caddr_t)pfdi + pfdi->NextEntryOffset); } } if (status != STATUS_NO_MORE_FILES) debug_printf ("%y = NtQueryDirectoryFile (%p, io %y, info %d)", status, hdir, iosb.Status, iosb.Information); CloseHandle (hdir); } /* Get the NTFS file id for the real file behind the dll handle. As we may open a wrong (or no) file while the dll is renamed, we retry until we get the same file id a second time. We use NtQueryVirtualMemory (MemorySectionName) for the current file name, as GetModuleFileNameW () yields the as-loaded name. While we have the file handle open, also read the attributes. NOTE: Uses dll_list::nt_max_path_buf (). */ static bool stat_real_file_once (dll *d) { if (d->fbi.FileAttributes != INVALID_FILE_ATTRIBUTES) return true; tmp_pathbuf tp; HANDLE fhandle = INVALID_HANDLE_VALUE; NTSTATUS status, fstatus; PMEMORY_SECTION_NAME pmsi1; MEMORY_SECTION_NAME msi2; pmsi1 = (PMEMORY_SECTION_NAME) dll_list::nt_max_path_buf (); RtlInitEmptyUnicodeString (&msi2.SectionFileName, tp.w_get (), 65535); /* Retry opening the real file name until that does not change any more. */ status = NtQueryVirtualMemory (NtCurrentProcess (), d->handle, MemorySectionName, pmsi1, 65536, NULL); while (NT_SUCCESS (status) && !RtlEqualUnicodeString (&msi2.SectionFileName, &pmsi1->SectionFileName, FALSE)) { RtlCopyUnicodeString (&msi2.SectionFileName, &pmsi1->SectionFileName); if (fhandle != INVALID_HANDLE_VALUE) NtClose (fhandle); pmsi1->SectionFileName.Buffer[pmsi1->SectionFileName.Length] = L'\0'; fhandle = dll_list::ntopenfile (pmsi1->SectionFileName.Buffer, &fstatus); status = NtQueryVirtualMemory (NtCurrentProcess (), d->handle, MemorySectionName, pmsi1, 65536, NULL); } if (!NT_SUCCESS (status)) system_printf ("WARNING: Unable (ntstatus %y) to query real file for %W", status, d->ntname); else if (fhandle == INVALID_HANDLE_VALUE) system_printf ("WARNING: Unable (ntstatus %y) to open real file for %W", fstatus, d->ntname); if (fhandle == INVALID_HANDLE_VALUE) return false; if (!dll_list::read_fii (fhandle, &d->fii) || !dll_list::read_fbi (fhandle, &d->fbi)) system_printf ("WARNING: Unable to read real file attributes for %W", pmsi1->SectionFileName.Buffer); NtClose (fhandle); return d->fbi.FileAttributes != INVALID_FILE_ATTRIBUTES; } /* easy use of NtOpenFile */ HANDLE dll_list::ntopenfile (PCWCHAR ntname, NTSTATUS *pstatus, ULONG openopts, ACCESS_MASK access, HANDLE rootDir) { NTSTATUS status; if (!pstatus) pstatus = &status; UNICODE_STRING fn; if (openopts & FILE_OPEN_BY_FILE_ID) RtlInitCountedUnicodeString (&fn, ntname, 8); else RtlInitUnicodeString (&fn, ntname); OBJECT_ATTRIBUTES oa; InitializeObjectAttributes (&oa, &fn, 0, rootDir, NULL); access |= FILE_READ_ATTRIBUTES; if (openopts & FILE_DELETE_ON_CLOSE) access |= DELETE; if (openopts & FILE_DIRECTORY_FILE) access |= FILE_LIST_DIRECTORY; else openopts |= FILE_NON_DIRECTORY_FILE; access |= SYNCHRONIZE; openopts |= FILE_SYNCHRONOUS_IO_NONALERT; HANDLE fh = INVALID_HANDLE_VALUE; ULONG share = FILE_SHARE_VALID_FLAGS; IO_STATUS_BLOCK iosb; *pstatus = NtOpenFile (&fh, access, &oa, &iosb, share, openopts); if (openopts & FILE_OPEN_BY_FILE_ID) debug_printf ("%y = NtOpenFile (%p, a %xh, sh %xh, o %xh, io %y, by id %llX)", *pstatus, fh, access, share, openopts, iosb.Status, *(LONGLONG*)fn.Buffer); else debug_printf ("%y = NtOpenFile (%p, a %xh, sh %xh, o %xh, io %y, '%W')", *pstatus, fh, access, share, openopts, iosb.Status, fn.Buffer); return NT_SUCCESS(*pstatus) ? fh : INVALID_HANDLE_VALUE; } bool dll_list::read_fii (HANDLE fh, PFILE_INTERNAL_INFORMATION pfii) { pfii->IndexNumber.QuadPart = -1LL; NTSTATUS status; IO_STATUS_BLOCK iosb; status = NtQueryInformationFile (fh, &iosb, pfii, sizeof (*pfii), FileInternalInformation); if (!NT_SUCCESS (status)) { system_printf ("WARNING: %y = NtQueryInformationFile (%p," " InternalInfo, io.Status %y)", status, fh, iosb.Status); pfii->IndexNumber.QuadPart = -1LL; return false; } return true; } bool dll_list::read_fbi (HANDLE fh, PFILE_BASIC_INFORMATION pfbi) { pfbi->FileAttributes = INVALID_FILE_ATTRIBUTES; pfbi->LastWriteTime.QuadPart = -1LL; NTSTATUS status; IO_STATUS_BLOCK iosb; status = NtQueryInformationFile (fh, &iosb, pfbi, sizeof (*pfbi), FileBasicInformation); if (!NT_SUCCESS (status)) { system_printf ("WARNING: %y = NtQueryInformationFile (%p," " BasicInfo, io.Status %y)", status, fh, iosb.Status); pfbi->FileAttributes = INVALID_FILE_ATTRIBUTES; pfbi->LastWriteTime.QuadPart = -1LL; return false; } return true; } /* Into buf if not NULL, write the IndexNumber in pli. Return the number of characters (that would be) written. */ static int format_IndexNumber (PWCHAR buf, ssize_t bufsize, LARGE_INTEGER const *pli) { if (!buf) return 16; if (bufsize >= 0 && bufsize <= 16) return 0; return __small_swprintf (buf, L"%016X", pli->QuadPart); } /* Into buf if not NULL, write the ntname of cygwin installation_root. Return the number of characters (that would be) written. */ static int rootname (PWCHAR buf, ssize_t bufsize) { UNICODE_STRING &cygroot = cygheap->installation_root; if (!buf) return 6 /* "\??\UN" */ + cygroot.Length / sizeof (WCHAR); return dll_list::form_ntname (buf, bufsize, cygroot.Buffer) - buf; } /* Into buf if not NULL, write the string representation of current user sid. Return the number of characters (that would be) written. */ static int sidname (PWCHAR buf, ssize_t bufsize) { if (!buf) return 128; if (bufsize >= 0 && bufsize <= 128) return 0; UNICODE_STRING sid; WCHAR sidbuf[128+1]; RtlInitEmptyUnicodeString (&sid, sidbuf, sizeof (sidbuf)); RtlConvertSidToUnicodeString (&sid, cygheap->user.sid (), FALSE); return wcpcpy (buf, sid.Buffer) - buf; } /* Into buf if not NULL, write the IndexNumber of the main executable. Return the number of characters (that would be) written. */ static int exename (PWCHAR buf, ssize_t bufsize) { if (!buf) return format_IndexNumber (NULL, bufsize, NULL); dll *d = dlls.main_executable; return format_IndexNumber (buf, bufsize, &d->fii.IndexNumber); } /* Into buf if not NULL, write the newest dll's LastWriteTime. Return the number of characters (that would be) written. */ static int lwtimename (PWCHAR buf, ssize_t bufsize) { if (!buf) return sizeof (LARGE_INTEGER) * 2; if (bufsize >= 0 && bufsize <= (int)sizeof (LARGE_INTEGER) * 2) return 0; LARGE_INTEGER newest = { 0 }; /* Need by-handle-file-information for _all_ loaded dlls, as most recent ctime forms the hardlinks directory. */ dll *d = &dlls.start; while ((d = d->next)) { /* LastWriteTime more properly tells the last file-content modification time, because a newly created hardlink may have a different CreationTime compared to the original file. */ if (d->fbi.LastWriteTime.QuadPart > newest.QuadPart) newest = d->fbi.LastWriteTime; } return __small_swprintf (buf, L"%016X", newest); } struct namepart { PCWCHAR text; /* used when no pathfunc, description otherwise */ int (*textfunc)(PWCHAR buf, ssize_t bufsize); bool mutex_from_dir; /* on path-separators add mutex-separator */ bool create_dir; }; /* mutex name is formed along dir names */ static namepart NO_COPY_RO const forkable_nameparts[] = { /* text textfunc mutex_from_dir create */ { L"", rootname, false, false, }, { L"\\var\\run\\", NULL, false, false, }, { L"cygfork", NULL, true, false, }, { L"", sidname, true, true, }, { L"", exename, false, false, }, { MUTEXSEP, NULL, false, false, }, { L"", lwtimename, true, true, }, { NULL, NULL }, }; /* Nominate the hardlink to an individual DLL inside dirx_name, that ends with the path separator (hence the "x" varname). With NULL as dirx_name, never nominate the hardlink any more. With "" as dirx_name, denominate the hardlink. */ void dll::nominate_forkable (PCWCHAR dirx_name) { if (!dirx_name) { debug_printf ("type %d disable %W", type, ntname); forkable_ntname = NULL; /* never create a hardlink for this dll */ } if (!forkable_ntname) return; PWCHAR next = wcpcpy (forkable_ntname, dirx_name); if (!*forkable_ntname) return; /* denominate */ if (type < DLL_LOAD) wcpcpy (next, modname); else { /* Avoid lots of extra directories for loaded dll's: * mangle full path into one single directory name, * just keep original filename intact. The original * filename is necessary to serve as linked * dependencies of dynamically loaded dlls. */ PWCHAR lastpathsep = wcsrchr (ntname, L'\\'); if (!lastpathsep) { forkable_ntname = NULL; return; } *lastpathsep = L'\0'; HANDLE fh = dll_list::ntopenfile (ntname, NULL, FILE_DIRECTORY_FILE); *lastpathsep = L'\\'; FILE_INTERNAL_INFORMATION fii = { 0 }; if (fh != INVALID_HANDLE_VALUE) { dll_list::read_fii (fh, &fii); NtClose (fh); } next += format_IndexNumber (next, -1, &fii.IndexNumber); wcpcpy (next, lastpathsep); } } /* Create the nominated hardlink for one indivitual dll, inside another subdirectory when dynamically loaded. */ bool dll::create_forkable () { if (!forkable_ntname || !*forkable_ntname) return true; /* disabled */ PWCHAR ntname = forkable_ntname; PWCHAR last = NULL; bool success = true; if (type >= DLL_LOAD) { last = wcsrchr (ntname, L'\\'); if (!last) return false; *last = L'\0'; success = mkdirs (ntname, 1); *last = L'\\'; if (!success) return false; } /* open device as parent handle for FILE_OPEN_BY_FILE_ID */ PWCHAR devname = dll_list::nt_max_path_buf (); PWCHAR n = ntname; PWCHAR d = devname; int pathseps = 0; while (*n) { if (*d == L'\\' && ++pathseps > 4) break; // "\\??\\UNC\\server\\share" *d = *n++; if (*d++ == L':') break; // "\\??\\C:" } *d = L'\0'; HANDLE devhandle = dll_list::ntopenfile (devname); if (devhandle == INVALID_HANDLE_VALUE) return false; /* impossible */ HANDLE fh = dll_list::ntopenfile ((PCWCHAR)&fii.IndexNumber, NULL, FILE_OPEN_BY_FILE_ID, FILE_WRITE_ATTRIBUTES, devhandle); NtClose (devhandle); if (fh == INVALID_HANDLE_VALUE) return false; /* impossible */ int ntlen = wcslen (ntname); int bufsize = sizeof (FILE_LINK_INFORMATION) + ntlen * sizeof (*ntname); PFILE_LINK_INFORMATION pfli = (PFILE_LINK_INFORMATION) alloca (bufsize); wcscpy (pfli->FileName, ntname); pfli->FileNameLength = ntlen * sizeof (*ntname); pfli->ReplaceIfExists = FALSE; /* allow concurrency */ pfli->RootDirectory = NULL; IO_STATUS_BLOCK iosb; NTSTATUS status = NtSetInformationFile (fh, &iosb, pfli, bufsize, FileLinkInformation); NtClose (fh); debug_printf ("%y = NtSetInformationFile (%p, FileLink %W, iosb.Status %y)", status, fh, pfli->FileName, iosb.Status); if (NT_SUCCESS (status) || status == STATUS_OBJECT_NAME_COLLISION) /* We've not found a performant way yet to protect fork against updates to main executables and/or dlls that do not reside on the same NTFS filesystem as the /var/run/cygfork/ directory. But as long as the main executable can be hardlinked, dll redirection works for any other hardlink-able dll, while non-hardlink-able dlls are used from their original location. */ return true; return false; } /* return the number of characters necessary to store one forkable name */ size_t dll_list::forkable_ntnamesize (dll_type type, PCWCHAR fullntname, PCWCHAR modname) { /* per process, this is the first forkables-method ever called */ if (forkables_needs == forkables_unknown && !cygwin_shared->prefer_forkable_hardlinks) forkables_needs = forkables_impossible; /* short cut */ if (forkables_needs == forkables_impossible) return 0; if (!forkables_dirx_size) { DWORD forkables_mutex_size = 0; bool needsep = false; for (namepart const *part = forkable_nameparts; part->text; ++part) { if (needsep) { forkables_dirx_size += wcslen (PATHSEP); forkables_mutex_size += wcslen (MUTEXSEP); } needsep = part->mutex_from_dir; int len = 0; if (part->textfunc) len = part->textfunc (NULL, 0); else len = wcslen (part->text); forkables_dirx_size += len; forkables_mutex_size += len; } /* trailing path sep */ forkables_dirx_size += wcslen (PATHSEP); /* trailing zeros */ ++forkables_dirx_size; ++forkables_mutex_size; /* allocate here, to avoid cygheap size changes during fork */ forkables_dirx_ntname = (PWCHAR) cmalloc (HEAP_2_DLL, (forkables_dirx_size + forkables_mutex_size) * sizeof (*forkables_dirx_ntname)); *forkables_dirx_ntname = L'\0'; forkables_mutex_name = forkables_dirx_ntname + forkables_dirx_size; *forkables_mutex_name = L'\0'; } size_t ret = forkables_dirx_size; if (type >= DLL_LOAD) ret += format_IndexNumber (NULL, -1, NULL) + 1; /* one more directory */ return ret + wcslen (modname); } /* Prepare top-level names necessary to nominate individual DLL hardlinks, eventually releasing/removing previous forkable hardlinks. */ void dll_list::prepare_forkables_nomination () { if (!forkables_dirx_ntname) return; dll *d = &dlls.start; while ((d = d->next)) stat_real_file_once (d); /* uses nt_max_path_buf () */ PWCHAR pbuf = nt_max_path_buf (); bool needsep = false; bool domutex = false; namepart const *part; for (part = forkable_nameparts; part->text; ++part) { if (part->mutex_from_dir) domutex = true; /* mutex naming starts with first mutex_from_dir */ if (!domutex) continue; if (needsep) pbuf += __small_swprintf (pbuf, L"%W", MUTEXSEP); needsep = part->mutex_from_dir; if (part->textfunc) pbuf += part->textfunc (pbuf, -1); else pbuf += __small_swprintf (pbuf, L"%W", part->text); } if (!wcscmp (forkables_mutex_name, nt_max_path_buf ())) return; /* nothing changed */ if (*forkables_mutex_name && wcscmp (forkables_mutex_name, nt_max_path_buf ())) { /* The mutex name has changed since last fork and we either have dlopen'ed a more recent or dlclose'd the most recent dll, so we will not use the current forkable hardlinks any more. Removing from the file system is done later, upon exit. */ close_mutex (); denominate_forkables (); } wcscpy (forkables_mutex_name, nt_max_path_buf ()); pbuf = forkables_dirx_ntname; needsep = false; for (namepart const *part = forkable_nameparts; part->text; ++part) { if (needsep) pbuf += __small_swprintf (pbuf, L"%W", PATHSEP); needsep = part->mutex_from_dir; if (part->textfunc) pbuf += part->textfunc (pbuf, -1); else pbuf += __small_swprintf (pbuf, L"%W", part->text); } pbuf += __small_swprintf (pbuf, L"%W", PATHSEP); debug_printf ("forkables dir %W", forkables_dirx_ntname); debug_printf ("forkables mutex %W", forkables_mutex_name); } /* Test if creating hardlinks is necessary. If creating hardlinks is possible in general, each individual dll is tested if its previously created hardlink (if any, or the original file) still is the same. Testing is protected against hardlink removal by concurrent processes. */ void dll_list::update_forkables_needs () { dll *d; if (forkables_needs == forkables_unknown) { /* check if filesystem of forkables dir is NTFS */ PWCHAR pbuf = nt_max_path_buf (); for (namepart const *part = forkable_nameparts; part->text; ++part) { if (part->mutex_from_dir) break; /* leading non-mutex-naming dirs, must exist anyway */ if (part->textfunc) pbuf += part->textfunc (pbuf, -1); else pbuf += __small_swprintf (pbuf, L"%W", part->text); } UNICODE_STRING fn; RtlInitUnicodeString (&fn, nt_max_path_buf ()); fs_info fsi; if (fsi.update (&fn, NULL) && /* FIXME: !fsi.is_readonly () && */ fsi.is_ntfs ()) forkables_needs = forkables_disabled; /* check directory itself */ else { debug_printf ("impossible, not on NTFS %W", fn.Buffer); forkables_needs = forkables_impossible; cygwin_shared->prefer_forkable_hardlinks = 0; } } if (forkables_needs == forkables_impossible) return; /* we have not created any hardlink, nothing to clean up */ if (forkables_needs == forkables_disabled || forkables_needs == forkables_needless || forkables_needs == forkables_created) { /* (re-)check existence of forkables dir */ PWCHAR pbuf = nt_max_path_buf (); for (namepart const *part = forkable_nameparts; part->text; ++part) { if (part->textfunc) pbuf += part->textfunc (pbuf, -1); else pbuf += __small_swprintf (pbuf, L"%W", part->text); if (part->mutex_from_dir) break; /* up to first mutex-naming dir */ } pbuf = nt_max_path_buf (); HANDLE dh = ntopenfile (pbuf, NULL, FILE_DIRECTORY_FILE); if (dh != INVALID_HANDLE_VALUE) { NtClose (dh); if (forkables_needs == forkables_disabled) forkables_needs = forkables_needless; } else if (forkables_needs != forkables_disabled) { debug_printf ("disabled, disappearing %W", pbuf); close_mutex (); denominate_forkables (); forkables_needs = forkables_disabled; } else debug_printf ("disabled, missing %W", pbuf); } if (forkables_needs == forkables_disabled) return; if (forkables_needs == forkables_created) { /* already have created hardlinks in this process, ... */ forkables_needs = forkables_needless; d = &start; while ((d = d->next) != NULL) if (d->forkable_ntname && !*d->forkable_ntname) { /* ... but another dll was loaded since last fork */ debug_printf ("needed, since last fork loaded %W", d->ntname); forkables_needs = forkables_needed; break; } } if (forkables_needs > forkables_needless) return; /* no need to check anything else */ if (forkables_needs != forkables_needless) { /* paranoia */ system_printf ("WARNING: invalid forkables_needs value %d", forkables_needs); return; } forkables_needs = forkables_needed; } /* Create the nominated forkable hardlinks and directories as necessary, mutex-protected to avoid concurrent processes removing them. */ bool dll_list::update_forkables () { /* existence of mutex indicates that we use these hardlinks */ if (!forkables_mutex) { /* neither my parent nor myself did have need for hardlinks yet */ forkables_mutex = CreateMutexW (&sec_none, FALSE, forkables_mutex_name); debug_printf ("%p = CreateMutexW (%W): %E", forkables_mutex, forkables_mutex_name); if (!forkables_mutex) return false; /* Make sure another process does not rmdirs_synchronized () */ debug_printf ("WFSO (%p, %W, inf)...", forkables_mutex, forkables_mutex_name); DWORD ret = WaitForSingleObject (forkables_mutex, INFINITE); debug_printf ("%u = WFSO (%p, %W)", ret, forkables_mutex, forkables_mutex_name); switch (ret) { case WAIT_OBJECT_0: case WAIT_ABANDONED: break; default: system_printf ("cannot wait for mutex %W: %E", forkables_mutex_name); return false; } BOOL bret = ReleaseMutex (forkables_mutex); debug_printf ("%d = ReleaseMutex (%p, %W)", bret, forkables_mutex, forkables_mutex_name); } return create_forkables (); } /* Create the nominated forkable hardlinks and directories as necessary, as well as the .local file for dll-redirection. */ bool dll_list::create_forkables () { bool success = true; int lastsepcount = 1; /* we have trailing pathsep */ for (namepart const *part = forkable_nameparts; part->text; ++part) if (part->create_dir) ++lastsepcount; PWCHAR ntname = nt_max_path_buf (); wcsncpy (ntname, forkables_dirx_ntname, NT_MAX_PATH); if (!mkdirs (ntname, lastsepcount)) success = false; if (success) { /* create the DotLocal file as empty file */ wcsncat (ntname, main_executable->modname, NT_MAX_PATH); wcsncat (ntname, L".local", NT_MAX_PATH); UNICODE_STRING fn; RtlInitUnicodeString (&fn, ntname); OBJECT_ATTRIBUTES oa; InitializeObjectAttributes (&oa, &fn, 0, NULL, sec_none_nih.lpSecurityDescriptor); HANDLE hlocal = NULL; NTSTATUS status; IO_STATUS_BLOCK iosb; status = NtCreateFile (&hlocal, GENERIC_WRITE | SYNCHRONIZE, &oa, &iosb, NULL, FILE_ATTRIBUTE_NORMAL, FILE_SHARE_READ | FILE_SHARE_WRITE, FILE_CREATE, FILE_NON_DIRECTORY_FILE | FILE_SYNCHRONOUS_IO_NONALERT, NULL, 0); if (NT_SUCCESS (status)) CloseHandle (hlocal); else if (status != STATUS_OBJECT_NAME_COLLISION) /* already exists */ success = false; debug_printf ("%y = NtCreateFile (%p, %W)", status, hlocal, ntname); } if (success) { dll *d = &start; while ((d = d->next)) if (!d->create_forkable ()) d->nominate_forkable (NULL); /* never again */ debug_printf ("hardlinks created"); } return success; } static void rmdirs_synchronized (WCHAR ntbuf[NT_MAX_PATH], int depth, int maxdepth, PFILE_DIRECTORY_INFORMATION pfdi, ULONG fdisize) { if (depth == maxdepth) { debug_printf ("sync on %W", ntbuf); /* calculate mutex name from path parts, using full path name length to allocate mutex name buffer */ WCHAR mutexname[wcslen (ntbuf)]; mutexname[0] = L'\0'; PWCHAR mutexnext = mutexname; /* mutex name is formed by dir names */ int pathcount = 0; for (namepart const *part = forkable_nameparts; part->text; ++part) if (part->mutex_from_dir) ++pathcount; PWCHAR pathseps[pathcount]; /* along the path separators split needed path parts */ int i = pathcount; while (--i >= 0) if ((pathseps[i] = wcsrchr (ntbuf, L'\\'))) *pathseps[i] = L'\0'; else return; /* something's wrong */ /* build the mutex name from dir names */ for (i = 0; i < pathcount; ++i) { if (i > 0) mutexnext = wcpcpy (mutexnext, MUTEXSEP); mutexnext = wcpcpy (mutexnext, &pathseps[i][1]); *pathseps[i] = L'\\'; /* restore full path */ } HANDLE mutex = CreateMutexW (&sec_none_nih, TRUE, mutexname); DWORD lasterror = GetLastError (); debug_printf ("%p = CreateMutexW (%W): %E", mutex, mutexname); if (mutex) { if (lasterror != ERROR_ALREADY_EXISTS) { debug_printf ("cleaning up for mutex %W", mutexname); rmdirs (ntbuf); } BOOL bret = CloseHandle (mutex); debug_printf ("%d = CloseHandle (%p, %W): %E", bret, mutex, mutexname); } return; } IO_STATUS_BLOCK iosb; NTSTATUS status; HANDLE hdir = dll_list::ntopenfile (ntbuf, &status, FILE_DIRECTORY_FILE | (depth ? FILE_DELETE_ON_CLOSE : 0)); if (hdir == INVALID_HANDLE_VALUE) return; PWCHAR plast = ntbuf + wcslen (ntbuf); while (NT_SUCCESS (status = NtQueryDirectoryFile (hdir, NULL, NULL, NULL, &iosb, pfdi, fdisize, FileDirectoryInformation, TRUE, NULL, FALSE))) if (pfdi->FileAttributes & FILE_ATTRIBUTE_DIRECTORY) { int namelen = pfdi->FileNameLength / sizeof (WCHAR); if (!wcsncmp (pfdi->FileName, L".", namelen) || !wcsncmp (pfdi->FileName, L"..", namelen)) continue; *plast = L'\\'; wcsncpy (plast+1, pfdi->FileName, namelen); plast[1+namelen] = L'\0'; rmdirs_synchronized (ntbuf, depth+1, maxdepth, pfdi, fdisize); *plast = L'\0'; } if (status != STATUS_NO_MORE_FILES) debug_printf ("%y = NtQueryDirectoryFile (%p, io %y, info %d)", status, hdir, iosb.Status, iosb.Information); CloseHandle (hdir); } /* Try to lock the mutex handle with almost no timeout, then close the mutex handle. Locking before closing is to get the mutex closing promoted synchronously, otherways we might end up with no one succeeding in create-with-lock, which is the precondition to actually remove the hardlinks from the filesystem. */ bool dll_list::close_mutex () { if (!forkables_mutex || !*forkables_mutex_name) return false; HANDLE hmutex = forkables_mutex; forkables_mutex = NULL; bool locked = false; DWORD ret = WaitForSingleObject (hmutex, 1); debug_printf ("%u = WFSO (%p, %W, 1)", ret, hmutex, forkables_mutex_name); switch (ret) { case WAIT_OBJECT_0: case WAIT_ABANDONED: locked = true; break; case WAIT_TIMEOUT: break; default: system_printf ("error locking mutex %W: %E", forkables_mutex_name); break; } BOOL bret = CloseHandle (hmutex); debug_printf ("%d = CloseHandle (%p, %W): %E", bret, hmutex, forkables_mutex_name); return locked; } /* Release the forkable hardlinks, and remove them if the mutex can be create-locked after locked-closing. */ void dll_list::cleanup_forkables () { if (!forkables_dirx_ntname) return; bool locked = close_mutex (); /* Start the removal below with current forkables dir, which is cleaned in denominate_forkables (). */ PWCHAR buf = nt_max_path_buf (); PWCHAR pathsep = wcpncpy (buf, forkables_dirx_ntname, NT_MAX_PATH); buf[NT_MAX_PATH-1] = L'\0'; denominate_forkables (); if (!locked) return; /* drop last path separator */ while (--pathsep >= buf && *pathsep != L'\\'); *pathsep = L'\0'; try_remove_forkables (buf, pathsep - buf, NT_MAX_PATH); } void dll_list::try_remove_forkables (PWCHAR dirbuf, size_t dirlen, size_t dirbufsize) { /* Instead of just the current forkables, try to remove any forkables found, to ensure some cleanup even in situations like power-loss. */ PWCHAR end = dirbuf + wcslen (dirbuf); int backcount = 0; for (namepart const *part = forkable_nameparts; part->text; ++part) if (part->create_dir) { /* drop one path separator per create_dir */ while (--end >= dirbuf && *end != L'\\'); if (end < dirbuf) return; *end = L'\0'; ++backcount; } /* reading one at a time to reduce stack pressure */ struct { FILE_DIRECTORY_INFORMATION fdi; WCHAR buf[NAME_MAX]; } fdibuf; rmdirs_synchronized (dirbuf, 0, backcount, &fdibuf.fdi, sizeof (fdibuf)); } void dll_list::denominate_forkables () { *forkables_dirx_ntname = L'\0'; *forkables_mutex_name = L'\0'; dll *d = &start; while ((d = d->next)) d->nominate_forkable (forkables_dirx_ntname); } /* Set or clear HANDLE_FLAG_INHERIT for all handles necessary to maintain forkables-hardlinks. */ void dll_list::set_forkables_inheritance (bool inherit) { DWORD mask = HANDLE_FLAG_INHERIT; DWORD flags = inherit ? HANDLE_FLAG_INHERIT : 0; if (forkables_mutex) SetHandleInformation (forkables_mutex, mask, flags); } /* create the forkable hardlinks, if necessary */ void dll_list::request_forkables () { if (!forkables_dirx_ntname) return; /* Even on forkables_impossible, keep the number of open handles stable across the fork, and close them when releasing only. */ prepare_forkables_nomination (); update_forkables_needs (); set_forkables_inheritance (true); if (forkables_needs == forkables_disabled) { /* we do not support (re-)enabling on the fly */ forkables_needs = forkables_impossible; cygwin_shared->prefer_forkable_hardlinks = 0; } if (forkables_needs <= forkables_needless) return; dll *d = &start; while ((d = d->next)) d->nominate_forkable (forkables_dirx_ntname); bool updated = update_forkables (); if (!updated) forkables_needs = forkables_needless; else forkables_needs = forkables_created; } void dll_list::release_forkables () { if (!forkables_dirx_ntname) return; set_forkables_inheritance (false); if (forkables_needs == forkables_impossible) { cleanup_forkables (); dll *d = &start; while ((d = d->next)) d->forkable_ntname = NULL; cfree (forkables_dirx_ntname); forkables_dirx_ntname = NULL; forkables_mutex_name = NULL; } }