Mercurial > hg
view mercurial/util_win32.py @ 6174:434139080ed4
Permit XML entities to be escaped in template output.
Useful for creating XML documents directly from Hg logging. Can also be used for
HTML. For use in content, will escape '&', '<', and for completeness '>'
(although it is not strictly necessary). For use in attributes, will also escape
' and ". Will also replace nonprinting (ASCII) control characters with spaces,
since these are illegal in XML.
| author | Jesse Glick <jesse.glick@sun.com> |
|---|---|
| date | Mon, 28 Jan 2008 22:19:12 -0500 |
| parents | 09a8be3e5bfb |
| children | e75aab656f46 |
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# util_win32.py - utility functions that use win32 API # # Copyright 2005 Matt Mackall <mpm@selenic.com> # Copyright 2006 Vadim Gelfer <vadim.gelfer@gmail.com> # # This software may be used and distributed according to the terms of # the GNU General Public License, incorporated herein by reference. # Mark Hammond's win32all package allows better functionality on # Windows. this module overrides definitions in util.py. if not # available, import of this module will fail, and generic code will be # used. import win32api from i18n import _ import errno, os, pywintypes, win32con, win32file, win32process import cStringIO, winerror import osutil from win32com.shell import shell,shellcon class WinError: winerror_map = { winerror.ERROR_ACCESS_DENIED: errno.EACCES, winerror.ERROR_ACCOUNT_DISABLED: errno.EACCES, winerror.ERROR_ACCOUNT_RESTRICTION: errno.EACCES, winerror.ERROR_ALREADY_ASSIGNED: errno.EBUSY, winerror.ERROR_ALREADY_EXISTS: errno.EEXIST, winerror.ERROR_ARITHMETIC_OVERFLOW: errno.ERANGE, winerror.ERROR_BAD_COMMAND: errno.EIO, winerror.ERROR_BAD_DEVICE: errno.ENODEV, winerror.ERROR_BAD_DRIVER_LEVEL: errno.ENXIO, winerror.ERROR_BAD_EXE_FORMAT: errno.ENOEXEC, winerror.ERROR_BAD_FORMAT: errno.ENOEXEC, winerror.ERROR_BAD_LENGTH: errno.EINVAL, winerror.ERROR_BAD_PATHNAME: errno.ENOENT, winerror.ERROR_BAD_PIPE: errno.EPIPE, winerror.ERROR_BAD_UNIT: errno.ENODEV, winerror.ERROR_BAD_USERNAME: errno.EINVAL, winerror.ERROR_BROKEN_PIPE: errno.EPIPE, winerror.ERROR_BUFFER_OVERFLOW: errno.ENAMETOOLONG, winerror.ERROR_BUSY: errno.EBUSY, winerror.ERROR_BUSY_DRIVE: errno.EBUSY, winerror.ERROR_CALL_NOT_IMPLEMENTED: errno.ENOSYS, winerror.ERROR_CANNOT_MAKE: errno.EACCES, winerror.ERROR_CANTOPEN: errno.EIO, winerror.ERROR_CANTREAD: errno.EIO, winerror.ERROR_CANTWRITE: errno.EIO, winerror.ERROR_CRC: errno.EIO, winerror.ERROR_CURRENT_DIRECTORY: errno.EACCES, winerror.ERROR_DEVICE_IN_USE: errno.EBUSY, winerror.ERROR_DEV_NOT_EXIST: errno.ENODEV, winerror.ERROR_DIRECTORY: errno.EINVAL, winerror.ERROR_DIR_NOT_EMPTY: errno.ENOTEMPTY, winerror.ERROR_DISK_CHANGE: errno.EIO, winerror.ERROR_DISK_FULL: errno.ENOSPC, winerror.ERROR_DRIVE_LOCKED: errno.EBUSY, winerror.ERROR_ENVVAR_NOT_FOUND: errno.EINVAL, winerror.ERROR_EXE_MARKED_INVALID: errno.ENOEXEC, winerror.ERROR_FILENAME_EXCED_RANGE: errno.ENAMETOOLONG, winerror.ERROR_FILE_EXISTS: errno.EEXIST, winerror.ERROR_FILE_INVALID: errno.ENODEV, winerror.ERROR_FILE_NOT_FOUND: errno.ENOENT, winerror.ERROR_GEN_FAILURE: errno.EIO, winerror.ERROR_HANDLE_DISK_FULL: errno.ENOSPC, winerror.ERROR_INSUFFICIENT_BUFFER: errno.ENOMEM, winerror.ERROR_INVALID_ACCESS: errno.EACCES, winerror.ERROR_INVALID_ADDRESS: errno.EFAULT, winerror.ERROR_INVALID_BLOCK: errno.EFAULT, winerror.ERROR_INVALID_DATA: errno.EINVAL, winerror.ERROR_INVALID_DRIVE: errno.ENODEV, winerror.ERROR_INVALID_EXE_SIGNATURE: errno.ENOEXEC, winerror.ERROR_INVALID_FLAGS: errno.EINVAL, winerror.ERROR_INVALID_FUNCTION: errno.ENOSYS, winerror.ERROR_INVALID_HANDLE: errno.EBADF, winerror.ERROR_INVALID_LOGON_HOURS: errno.EACCES, winerror.ERROR_INVALID_NAME: errno.EINVAL, winerror.ERROR_INVALID_OWNER: errno.EINVAL, winerror.ERROR_INVALID_PARAMETER: errno.EINVAL, winerror.ERROR_INVALID_PASSWORD: errno.EPERM, winerror.ERROR_INVALID_PRIMARY_GROUP: errno.EINVAL, winerror.ERROR_INVALID_SIGNAL_NUMBER: errno.EINVAL, winerror.ERROR_INVALID_TARGET_HANDLE: errno.EIO, winerror.ERROR_INVALID_WORKSTATION: errno.EACCES, winerror.ERROR_IO_DEVICE: errno.EIO, winerror.ERROR_IO_INCOMPLETE: errno.EINTR, winerror.ERROR_LOCKED: errno.EBUSY, winerror.ERROR_LOCK_VIOLATION: errno.EACCES, winerror.ERROR_LOGON_FAILURE: errno.EACCES, winerror.ERROR_MAPPED_ALIGNMENT: errno.EINVAL, winerror.ERROR_META_EXPANSION_TOO_LONG: errno.E2BIG, winerror.ERROR_MORE_DATA: errno.EPIPE, winerror.ERROR_NEGATIVE_SEEK: errno.ESPIPE, winerror.ERROR_NOACCESS: errno.EFAULT, winerror.ERROR_NONE_MAPPED: errno.EINVAL, winerror.ERROR_NOT_ENOUGH_MEMORY: errno.ENOMEM, winerror.ERROR_NOT_READY: errno.EAGAIN, winerror.ERROR_NOT_SAME_DEVICE: errno.EXDEV, winerror.ERROR_NO_DATA: errno.EPIPE, winerror.ERROR_NO_MORE_SEARCH_HANDLES: errno.EIO, winerror.ERROR_NO_PROC_SLOTS: errno.EAGAIN, winerror.ERROR_NO_SUCH_PRIVILEGE: errno.EACCES, winerror.ERROR_OPEN_FAILED: errno.EIO, winerror.ERROR_OPEN_FILES: errno.EBUSY, winerror.ERROR_OPERATION_ABORTED: errno.EINTR, winerror.ERROR_OUTOFMEMORY: errno.ENOMEM, winerror.ERROR_PASSWORD_EXPIRED: errno.EACCES, winerror.ERROR_PATH_BUSY: errno.EBUSY, winerror.ERROR_PATH_NOT_FOUND: errno.ENOENT, winerror.ERROR_PIPE_BUSY: errno.EBUSY, winerror.ERROR_PIPE_CONNECTED: errno.EPIPE, winerror.ERROR_PIPE_LISTENING: errno.EPIPE, winerror.ERROR_PIPE_NOT_CONNECTED: errno.EPIPE, winerror.ERROR_PRIVILEGE_NOT_HELD: errno.EACCES, winerror.ERROR_READ_FAULT: errno.EIO, winerror.ERROR_SEEK: errno.EIO, winerror.ERROR_SEEK_ON_DEVICE: errno.ESPIPE, winerror.ERROR_SHARING_BUFFER_EXCEEDED: errno.ENFILE, winerror.ERROR_SHARING_VIOLATION: errno.EACCES, winerror.ERROR_STACK_OVERFLOW: errno.ENOMEM, winerror.ERROR_SWAPERROR: errno.ENOENT, winerror.ERROR_TOO_MANY_MODULES: errno.EMFILE, winerror.ERROR_TOO_MANY_OPEN_FILES: errno.EMFILE, winerror.ERROR_UNRECOGNIZED_MEDIA: errno.ENXIO, winerror.ERROR_UNRECOGNIZED_VOLUME: errno.ENODEV, winerror.ERROR_WAIT_NO_CHILDREN: errno.ECHILD, winerror.ERROR_WRITE_FAULT: errno.EIO, winerror.ERROR_WRITE_PROTECT: errno.EROFS, } def __init__(self, err): self.win_errno, self.win_function, self.win_strerror = err if self.win_strerror.endswith('.'): self.win_strerror = self.win_strerror[:-1] class WinIOError(WinError, IOError): def __init__(self, err, filename=None): WinError.__init__(self, err) IOError.__init__(self, self.winerror_map.get(self.win_errno, 0), self.win_strerror) self.filename = filename class WinOSError(WinError, OSError): def __init__(self, err): WinError.__init__(self, err) OSError.__init__(self, self.winerror_map.get(self.win_errno, 0), self.win_strerror) def os_link(src, dst): try: win32file.CreateHardLink(dst, src) # CreateHardLink sometimes succeeds on mapped drives but # following nlinks() returns 1. Check it now and bail out. if nlinks(src) < 2: try: win32file.DeleteFile(dst) except: pass # Fake hardlinking error raise WinOSError((18, 'CreateHardLink', 'The system cannot ' 'move the file to a different disk drive')) except pywintypes.error, details: raise WinOSError(details) def nlinks(pathname): """Return number of hardlinks for the given file.""" try: fh = win32file.CreateFile(pathname, win32file.GENERIC_READ, win32file.FILE_SHARE_READ, None, win32file.OPEN_EXISTING, 0, None) res = win32file.GetFileInformationByHandle(fh) fh.Close() return res[7] except pywintypes.error: return os.lstat(pathname).st_nlink def testpid(pid): '''return True if pid is still running or unable to determine, False otherwise''' try: handle = win32api.OpenProcess( win32con.PROCESS_QUERY_INFORMATION, False, pid) if handle: status = win32process.GetExitCodeProcess(handle) return status == win32con.STILL_ACTIVE except pywintypes.error, details: return details[0] != winerror.ERROR_INVALID_PARAMETER return True def lookup_reg(key, valname=None, scope=None): ''' Look up a key/value name in the Windows registry. valname: value name. If unspecified, the default value for the key is used. scope: optionally specify scope for registry lookup, this can be a sequence of scopes to look up in order. Default (CURRENT_USER, LOCAL_MACHINE). ''' try: from _winreg import HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE, \ QueryValueEx, OpenKey except ImportError: return None def query_val(scope, key, valname): try: keyhandle = OpenKey(scope, key) return QueryValueEx(keyhandle, valname)[0] except EnvironmentError: return None if scope is None: scope = (HKEY_CURRENT_USER, HKEY_LOCAL_MACHINE) elif not isinstance(scope, (list, tuple)): scope = (scope,) for s in scope: val = query_val(s, key, valname) if val is not None: return val def system_rcpath_win32(): '''return default os-specific hgrc search path''' proc = win32api.GetCurrentProcess() try: # This will fail on windows < NT filename = win32process.GetModuleFileNameEx(proc, 0) except: filename = win32api.GetModuleFileName(0) # Use mercurial.ini found in directory with hg.exe progrc = os.path.join(os.path.dirname(filename), 'mercurial.ini') if os.path.isfile(progrc): return [progrc] # else look for a system rcpath in the registry try: value = win32api.RegQueryValue( win32con.HKEY_LOCAL_MACHINE, 'SOFTWARE\\Mercurial') rcpath = [] for p in value.split(os.pathsep): if p.lower().endswith('mercurial.ini'): rcpath.append(p) elif os.path.isdir(p): for f, kind in osutil.listdir(p): if f.endswith('.rc'): rcpath.append(os.path.join(p, f)) return rcpath except pywintypes.error: return [] def user_rcpath_win32(): '''return os-specific hgrc search path to the user dir''' userdir = os.path.expanduser('~') if sys.getwindowsversion() != 2 and userdir == '~': # We are on win < nt: fetch the APPDATA directory location and use # the parent directory as the user home dir. appdir = shell.SHGetPathFromIDList( shell.SHGetSpecialFolderLocation(0, shellcon.CSIDL_APPDATA)) userdir = os.path.dirname(appdir) return [os.path.join(userdir, 'mercurial.ini'), os.path.join(userdir, '.hgrc')] class posixfile_nt(object): '''file object with posix-like semantics. on windows, normal files can not be deleted or renamed if they are open. must open with win32file.FILE_SHARE_DELETE. this flag does not exist on windows < nt, so do not use this class there.''' # tried to use win32file._open_osfhandle to pass fd to os.fdopen, # but does not work at all. wrap win32 file api instead. def __init__(self, name, mode='rb'): self.closed = False self.name = name self.mode = mode access = 0 if 'r' in mode or '+' in mode: access |= win32file.GENERIC_READ if 'w' in mode or 'a' in mode or '+' in mode: access |= win32file.GENERIC_WRITE if 'r' in mode: creation = win32file.OPEN_EXISTING elif 'a' in mode: creation = win32file.OPEN_ALWAYS else: creation = win32file.CREATE_ALWAYS try: self.handle = win32file.CreateFile(name, access, win32file.FILE_SHARE_READ | win32file.FILE_SHARE_WRITE | win32file.FILE_SHARE_DELETE, None, creation, win32file.FILE_ATTRIBUTE_NORMAL, 0) except pywintypes.error, err: raise WinIOError(err, name) def __iter__(self): for line in self.read().splitlines(True): yield line def read(self, count=-1): try: cs = cStringIO.StringIO() while count: wincount = int(count) if wincount == -1: wincount = 1048576 val, data = win32file.ReadFile(self.handle, wincount) if not data: break cs.write(data) if count != -1: count -= len(data) return cs.getvalue() except pywintypes.error, err: raise WinIOError(err) def write(self, data): try: if 'a' in self.mode: win32file.SetFilePointer(self.handle, 0, win32file.FILE_END) nwrit = 0 while nwrit < len(data): val, nwrit = win32file.WriteFile(self.handle, data) data = data[nwrit:] except pywintypes.error, err: raise WinIOError(err) def writelines(self, sequence): for s in sequence: self.write(s) def seek(self, pos, whence=0): try: win32file.SetFilePointer(self.handle, int(pos), whence) except pywintypes.error, err: raise WinIOError(err) def tell(self): try: return win32file.SetFilePointer(self.handle, 0, win32file.FILE_CURRENT) except pywintypes.error, err: raise WinIOError(err) def close(self): if not self.closed: self.handle = None self.closed = True def flush(self): # we have no application-level buffering pass def truncate(self, pos=0): try: win32file.SetFilePointer(self.handle, int(pos), win32file.FILE_BEGIN) win32file.SetEndOfFile(self.handle) except pywintypes.error, err: raise WinIOError(err) getuser_fallback = win32api.GetUserName def set_signal_handler_win32(): """Register a termination handler for console events including CTRL+C. python signal handlers do not work well with socket operations. """ def handler(event): win32process.ExitProcess(1) win32api.SetConsoleCtrlHandler(handler)