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#include "resolve_path.h"
#include <wx/utils.h>
#include <wx/datetime.h>
#include "string_conv.h"
#include "system_constants.h"
#include "loki/ScopeGuard.h"
#ifdef FFS_WIN
#include "dll_loader.h"
#include <wx/msw/wrapwin.h> //includes "windows.h"
#include "long_path_prefix.h"
#elif defined FFS_LINUX
#include <map>
#include "file_traverser.h"
#include "stdlib.h"
#endif
using namespace zen;
using namespace common;
namespace
{
#ifdef FFS_WIN
Zstring resolveRelativePath(const Zstring& relativeName, DWORD proposedBufferSize = 1000)
{
std::vector<Zchar> fullPath(proposedBufferSize);
const DWORD rv = ::GetFullPathName(
applyLongPathPrefix(relativeName).c_str(), //__in LPCTSTR lpFileName,
proposedBufferSize, //__in DWORD nBufferLength,
&fullPath[0], //__out LPTSTR lpBuffer,
NULL); //__out LPTSTR *lpFilePart
if (rv == 0 || rv == proposedBufferSize)
//ERROR! Don't do anything
return relativeName;
if (rv > proposedBufferSize)
return resolveRelativePath(relativeName, rv);
return &fullPath[0];
}
#elif defined FFS_LINUX
Zstring resolveRelativePath(const Zstring& relativeName) //additional: resolves symbolic links!!!
{
char absolutePath[PATH_MAX + 1];
if (::realpath(relativeName.c_str(), absolutePath) == NULL)
//ERROR! Don't do anything
return relativeName;
return Zstring(absolutePath);
}
#endif
bool replaceMacro(wxString& macro) //macro without %-characters, return true if replaced successfully
{
if (macro.IsEmpty())
return false;
//there are equally named environment variables %TIME%, %DATE% existing, so replace these first!
if (macro.CmpNoCase(wxT("time")) == 0)
{
macro = wxDateTime::Now().FormatISOTime();
macro.Replace(wxT(":"), wxT(""));
return true;
}
if (macro.CmpNoCase(wxT("date")) == 0)
{
macro = wxDateTime::Now().FormatISODate();
return true;
}
if (macro.CmpNoCase(wxT("weekday")) == 0)
{
macro = wxDateTime::Now().Format(wxT("%A"));
return true;
}
if (macro.CmpNoCase(wxT("month")) == 0)
{
macro = wxDateTime::Now().Format(wxT("%B"));
return true;
}
if (macro.CmpNoCase(wxT("week")) == 0)
{
macro = wxDateTime::Now().Format(wxT("%U"));
return true;
}
if (macro.CmpNoCase(wxT("year")) == 0)
{
macro = wxDateTime::Now().Format(wxT("%Y"));
return true;
}
//try to apply environment variables
wxString envValue;
if (wxGetEnv(macro, &envValue))
{
macro = envValue;
//some postprocessing:
macro.Trim(true); //remove leading, trailing blanks
macro.Trim(false); //
//remove leading, trailing double-quotes
if (macro.StartsWith(wxT("\"")) &&
macro.EndsWith(wxT("\"")) &&
macro.length() >= 2)
macro = wxString(macro.c_str() + 1, macro.length() - 2);
return true;
}
return false;
}
void expandMacros(wxString& text)
{
const wxChar SEPARATOR = '%';
if (text.Find(SEPARATOR) != wxNOT_FOUND)
{
wxString prefix = text.BeforeFirst(SEPARATOR);
wxString postfix = text.AfterFirst(SEPARATOR);
if (postfix.Find(SEPARATOR) != wxNOT_FOUND)
{
wxString potentialMacro = postfix.BeforeFirst(SEPARATOR);
wxString rest = postfix.AfterFirst(SEPARATOR); //text == prefix + SEPARATOR + potentialMacro + SEPARATOR + rest
if (replaceMacro(potentialMacro))
{
expandMacros(rest);
text = prefix + potentialMacro + rest;
}
else
{
rest = SEPARATOR + rest;
expandMacros(rest);
text = prefix + SEPARATOR + potentialMacro + rest;
}
}
}
}
#ifdef FFS_LINUX
class TraverseMedia : public zen::TraverseCallback
{
public:
typedef std::map<Zstring, Zstring> DeviceList; //device name -> device path mapping
TraverseMedia(DeviceList& devices) : devices_(devices) {}
virtual void onFile(const Zchar* shortName, const Zstring& fullName, const FileInfo& details) {}
virtual void onSymlink(const Zchar* shortName, const Zstring& fullName, const SymlinkInfo& details) {}
virtual ReturnValDir onDir(const Zchar* shortName, const Zstring& fullName)
{
devices_.insert(std::make_pair(shortName, fullName));
return Loki::Int2Type<ReturnValDir::TRAVERSING_DIR_IGNORE>(); //DON'T traverse into subdirs
}
virtual void onError(const wxString& errorText) {}
private:
DeviceList& devices_;
};
#endif
Zstring getVolumePath(const Zstring& volumeName) //empty string on error
{
#ifdef FFS_WIN
std::vector<wchar_t> volGuid(10000);
HANDLE hVol = ::FindFirstVolume(&volGuid[0], static_cast<DWORD>(volGuid.size()));
if (hVol != INVALID_HANDLE_VALUE)
{
Loki::ScopeGuard dummy = Loki::MakeGuard(::FindVolumeClose, hVol);
(void)dummy;
do
{
std::vector<wchar_t> volName(MAX_PATH + 1);
if (::GetVolumeInformation(&volGuid[0], //__in_opt LPCTSTR lpRootPathName,
&volName[0], //__out LPTSTR lpVolumeNameBuffer,
static_cast<DWORD>(volName.size()), //__in DWORD nVolumeNameSize,
NULL, //__out_opt LPDWORD lpVolumeSerialNumber,
NULL, //__out_opt LPDWORD lpMaximumComponentLength,
NULL, //__out_opt LPDWORD lpFileSystemFlags,
NULL, //__out LPTSTR lpFileSystemNameBuffer,
0)) //__in DWORD nFileSystemNameSize
{
if (EqualFilename()(volumeName, Zstring(&volName[0])))
{
//GetVolumePathNamesForVolumeName is not available for Windows 2000!
typedef BOOL (WINAPI *GetVolumePathNamesForVolumeNameWFunc)(LPCWSTR lpszVolumeName,
LPWCH lpszVolumePathNames,
DWORD cchBufferLength,
PDWORD lpcchReturnLength);
static const GetVolumePathNamesForVolumeNameWFunc getVolumePathNamesForVolumeName =
util::getDllFun<GetVolumePathNamesForVolumeNameWFunc>(L"kernel32.dll", "GetVolumePathNamesForVolumeNameW");
if (getVolumePathNamesForVolumeName != NULL)
{
std::vector<wchar_t> volPath(10000);
DWORD returnedLen = 0;
if (getVolumePathNamesForVolumeName(&volGuid[0], //__in LPCTSTR lpszVolumeName,
&volPath[0], //__out LPTSTR lpszVolumePathNames,
static_cast<DWORD>(volPath.size()), //__in DWORD cchBufferLength,
&returnedLen)) //__out PDWORD lpcchReturnLength
{
return &volPath[0]; //return first path name in double-null terminated list!
}
}
return &volGuid[0]; //GUID looks ugly, but should be working correctly
}
}
}
while (::FindNextVolume(hVol, &volGuid[0], static_cast<DWORD>(volGuid.size())));
}
#elif defined FFS_LINUX
//due to the naming convention on Linux /media/<volume name> this function is not that useful, but...
TraverseMedia::DeviceList deviceList;
TraverseMedia traverser(deviceList);
traverseFolder("/media", false, traverser); //traverse one level
TraverseMedia::DeviceList::const_iterator iter = deviceList.find(volumeName);
if (iter != deviceList.end())
return iter->second;
#endif
return Zstring();
}
void expandVolumeName(Zstring& text) // [volname]:\folder [volname]\folder [volname]folder -> C:\folder
{
Zstring before;
Zstring volname;
Zstring after;
size_t posStart = text.find(Zstr("["));
if (posStart != Zstring::npos)
{
size_t posEnd = text.find(Zstr("]"), posStart);
if (posEnd != Zstring::npos)
{
before = Zstring(text.c_str(), posStart);
volname = Zstring(text.c_str() + posStart + 1, posEnd - posStart - 1);
after = Zstring(text.c_str() + posEnd + 1);
if (after.StartsWith(Zstr(":")))
after = after.AfterFirst(Zstr(':'));
if (after.StartsWith(Zstring() + FILE_NAME_SEPARATOR))
after = after.AfterFirst(FILE_NAME_SEPARATOR);
}
}
if (volname.empty())
return;
Zstring volPath = getVolumePath(volname); //return empty string on error
if (volPath.empty())
return;
if (!volPath.EndsWith(FILE_NAME_SEPARATOR))
volPath += FILE_NAME_SEPARATOR;
text = before + volPath + after;
}
}
Zstring zen::getFormattedDirectoryName(const Zstring& dirname)
{
//Formatting is needed since functions expect the directory to end with '\' to be able to split the relative names.
//note: don't combine directory formatting with wxFileName, as it doesn't respect //?/ - prefix!
wxString dirnameTmp = zToWx(dirname);
expandMacros(dirnameTmp);
Zstring output = wxToZ(dirnameTmp);
expandVolumeName(output);
//remove leading/trailing whitespace
trim(output, true, false);
while (endsWith(output, Zstr(" "))) //don't remove all whitespace from right, e.g. 0xa0 may be used as part of dir name
output.resize(output.size() - 1);
if (output.empty()) //an empty string will later be returned as "\"; this is not desired
return Zstring();
/*
resolve relative names; required by:
WINDOWS:
- \\?\-prefix which needs absolute names
- Volume Shadow Copy: volume name needs to be part of each filename
- file icon buffer (at least for extensions that are actually read from disk, e.g. "exe")
- ::SHFileOperation(): Using relative path names is not thread safe
WINDOWS/LINUX:
- detection of dependent directories, e.g. "\" and "C:\test"
*/
output = resolveRelativePath(output);
if (!output.EndsWith(FILE_NAME_SEPARATOR))
output += FILE_NAME_SEPARATOR;
return output;
}
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